BRADYNEW TOOLS TO INCREASE LOCKOUT/TAGOUT EFFICIENCY

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VERLINDENEW RANGE OF ELECTRIC CHAIN HOISTS EUROCHAIN VR16 AND VR25

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ADVANTECH ANNOUNCES FULL RANGE OF INTELLIGENT SYSTEMS

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NSK SOLUTION SAVES €40,000

AT AUTOMOTIVE SUPPLIER

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THE INDUSTRY MAGAZINE FOR EUROPE • MIDDLE EAST • AFRICA

03 | J A N UA R Y 2016

industry EMEA

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BUREAU VERITAS

4OLDHAM

7ADVANTECH

8

EPLAN

10BRADY

12ASCO NUMATICS

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BONFIGLIOLI

14PORTESCAP

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PEPPERL +FUCHS

FACTORY AUTOMATION

17

SECO TOOLS

18

BAUMER

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HMS INDUSTRIAL NETWORKS AB

22

JUNGHEINRICH

34

PROSOFT EMEA

24

TSUBAKI KABELSCHLEPP

36

DE DIETRICH PROCESS SYSTEMS

27

EMERSON INDUSTRIAL

AUTOMATION

28

BUREAU VERITAS

30

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THE INDUSTRY MAGAZINE FOR EUROPE • MIDDLE EAST • AFRICA

ADVERTISERS: ADVANTECH 5 - MEPAX 6

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ASCO NUMATICS

38NSK

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OLDHAM

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44PROSOFT ASIA PACIFIC

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Bureau Veritas, global leaders for testing, inspection and certification services, now provides lubricant and oil analytical services in South Africa with the launch

of a new testing facility in Middelburg – Mpumalanga. The new testing facility continues a global expansion of Oil Condition Monitoring (OCM) services within the Bureau Veritas network.

“The opening of the Middelburg laboratory confirms our commitment to support client needs for lubricant and oil analysis services in South Africa,” said Erick Naidoo, Managing Director for Bureau Veritas Oil & Petrochemicals in South Africa “With over 55 years of experience, our clients will benefit from the expertise in OCM testing, data interpretation and advisory services.”

Oil analysis identifies trends in wear and contamination and monitors changes in the physical properties of lubricants and hydraulic oils. Laboratory data analysts can then pinpoint equipment problems in their earliest stages and make informed recommendations that can improve

machine reliability, reduce maintenance and repair costs and significantly extend equipment life.

“Bureau Veritas is committed to investing in our network to ensure we are the global provider of choice for oil condition monitoring services. Increasing our footprint in South Africa is integral to our global expansion strategy and will provide our customers in this region with industry leading expertise,” said Matt Hopkinson, Senior Vice President, Global Oil & Gas of Bureau Veritas’ Commodities Division. www.bureauveritas.com

Bureau Veritas, global leaders for testing, inspection and certification services, now provides lubricant and oil analytical services in South Africa with the launch of a new testing facility in Middelburg – Mpumalanga. The new testing facility continues a global expansion of Oil Condition Monitoring (OCM) services within the Bureau Veritas network.

BUREAU VERITAS LAUNCH NEW OIL CONDITION MONITORING LABORATORY IN MIDDELBURG, SOUTH AFRICA

http://www.advantech.com

MEPAX_Advert_UK_210x297.indd 1 10/08/2015 14:06

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MEPAX_Advert_UK_210x297.indd 1 10/08/2015 14:06

The OLCT 100 is a 4-20 mA analog gas transmitter designed for industrial applications in hazardous locations.

The new design is lead free and has an operational life of five years. The range is from 0 to 30% vol. O2 and the sensor operates from -40°C to 50°C continuously allowing new opportunities in low temperature applications.

This new Oxygen sensor completes the range of our current 2 year life O2 sensors and carries a full 4 year warranty.

For more information, please see the pages for the OLCT 100 on our website www.oldhamgas.com

Oldham launches a new long life Oxygen sensor for the OLCT 100.

NEW 5 YEAR LONG LIFE OXYGEN SENSOR

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With enhanced CPU performance, media and graphics capabilities, and security and power efficiency, these new platforms are ideal for

powering intelligent systems designed for diverse markets, such as video surveillance, medical, industrial automation, gaming and transportation infrastructure.

The main benefits of increased IoT adoption will enhance efficiency and reduce total cost of ownership. Advantech endeavors to promote this progress by designing products in accordance with the Intel® Intelligent Systems Framework. “To penetrate the global IoT market, Advantech is committed to developing platforms based on Intel® technology at every strategic point. Advantech has built a comprehensive portfolio of innovative solutions, ranging from high performance industrial servers, edge computers, and modular industrial computers, through to vertically focused transportation systems and intelligent video solutions.

We not only have strong design capabilities and industry-proven success, but also provide flexible and dynamic customization (design-to-order) and local system integration (configure-to-order) services to cope with rapidly evolving technologies. The products launched today all serve as catalysts for converting massive volumes of data from numerous sources into value-added information,” said Linda Tsai, Associate Vice President of Advantech’s Intelligent Systems Group.

“Intel has partnered with Advantech to develop a broad range of exciting products to build tomorrow's IoT devices today”, said Samuel Cravatta, product line director, Internet of Things Group, Intel. “The enhanced graphics and compute performance, power efficiency, and new features provided by 6th generation Intel® Core™ processors are built into Advantech's latest products, and we are confident this cutting-edge lineup will enable their customers to build a wide range of solutions to meet any IOT application.”

Advantech, a leading global provider of intelligent systems and platform solutions across multiple vertical markets, announced a range of platforms based on 6th generation Intel® Core™ processors (formerly Skylake) including industrial motherboards, slot single-board computers (SBCs), modular IPCs, industrial serverboards, and transportation platforms.

ASMB-785

ADVANTECH ANNOUNCES FULL RANGE OF INTELLIGENT SYSTEMS WITH 6TH GENERATION INTEL® CORE™ AND XEON® E3 V5 PROCESSORS

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6th Gen Intel® Core™ Technology Advances Intelligent System SolutionsUsing 6th generation Intel® Core™ i7/i5 processors and the Intel® Q170 chipset, Advantech has designed several industrial-grade boards (PCE-5129, PCE-5029, AIMB-785 and AIMB-705) in the form factors PICMG 1.3 SBC and ATX.

Also based on a 6th generation Intel® Core™ i7 processor chipset, Advantech has developed modular IPCs MIC-7500, AIIS-3400, AIIS-3410, and AIIS-5410 for the machine automation market. With the successful deployment of intelligent rolling stock systems, ITA-5231 and ITA-5831 were developed to substantially enhance the performance of passenger information systems, media broadcasting, and in-train surveillance applications while consuming less power.

Advantech has also incorporated an Intel® Xeon® processor E3-1200 v5 series and Intel® C236 chipsets into its new PICMG 1.3 SBC, PCE-7129, and server-grade motherboards, ASMB-585 and ASMB-785. Equipped with an upgraded processor and DDR4 memory support, these devices can easily deliver increased computing efficiency for applications that require high-performance computing. Regarding ASMB-785, the embedded quad LAN, onboard BMC connector, and IPMI-1000 (Intelligent Platform Management Interface) extension module provide out-of-band remote management, real-time and centralized management, and KVM over IP remote control functionalities along with user-friendly interfaces and utilities.

6th generation Intel ® Core product offerings (formerly Skylake)

- Industrial Motherboard AIMB-785 (Q170), AIMB-705 (H110), ASMB-585 (C236), ASMB-785 (C236)

- PICMG 1.3 Single-Board ComputerPCE-5129 (Q170), PCE-5029 (H110), PCE-7129 (C236)

- Intelligent Transportation System (EN50155 compliant) ITA-5231 (QM170), ITA-5831 (QM170)

- Intelligent Inspection SystemAIIS-5410 (QM170), AIIS-3410 (H110)AIIS-3400 (H110)

- Modular Industrial Computer MIC-7500 (QM170)

These new boards and systems are equipped with multiple OS and support for software such as Advantech SUSIAccess and WISE-Cloud, and will be available from Q4 of 2015.

For more information about these or any other Advantech products, please contact your local sales team or visit our website: www.advantech.com

PCE-7129

AIMB-785

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SAP Engineering Control Center: EPLAN projects can now be conveniently managed in SAP via the integration of the SAP Engineering Control Center

Interface to Eplan.

The new SAP Engineering Control Center Interface to Eplan enables the secure storage of projects in the SAP system through to the parts list exchange. Additional advantages for companies lie within the provision of project data across departmental boundaries, user access control over the SAP authorization system, backing up older versions of projects, status and clearance management and the provision of PDFs and other neutral formats for all SAP users. Special practical advantage: It is not necessary to integrate an additional PDM system. Maximilian Brandl, President of Eplan and Cideon, explains: “We are extremely happy that the interface has been listed as a standard product in SAP. This is a huge step towards mechatronics, as alongside mechanics and its

eight interfaces to date with the corresponding authoring systems, SAP now also supports electrical engineering as a further discipline within the product life cycle.”

Mechatronics Is within ReachThe interface uses SAP's new standard integration technology, Engineering Control Center. On this basis, all CAD integrations, for example Autodesk Inventor and others, are added into SAP. The advantage: If the customer works in a multi-CAD environment, all of the interfaces in SAP function in the same way and have the same look and feel. In addition to this, the Eplan integration supports a complete life cycle across disciplines.

Deep Integration into SAP It's exciting to think about a deep integration into the entire SAP: Connecting to customer orders and SAP project structures within maintenance and other SAP objects is easy to do with a drag and drop feature in the interface. It doesn't just connect the Eplan project to the SAP succession processes, but also makes it easier for the design engineer to find the relevant SAP objects inside the desired Eplan project.

The integration of the SAP Engineering Control Center Interface to Eplan has been available since September. Eplan is therefore the first and so far only CAE system listed on the SAP price list with certified direct integration.

CERTIFIED EPLAN INTERFACE IN SAP

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With integration into the SAP update service, historical states can be managed on the Eplan Platform according to date and serial number validity. The consistency of the data and access permission can also be controlled via SAP mechanisms. SAP Workflow supports the controlled flow of the Eplan data throughout the entire company. At the same time, SAP's Access Control Management determines specific group authorizations and access permissions in order to protect project data against unauthorized access. As part of the ordering process, Eplan also makes SAP integration functions available for the transmission of parts lists. This isn't just intended for project completion, but also works for partial parts lists which are automatically entered into SAP beforehand. At the push of a button, these are entered in the background without the user having to do it themselves.

Combined Know-HowThe integration between the Eplan Platform, SAP Product Lifecycle Management and SAP ERP was realized in close cooperation with Cideon Software, a subsidiary of the Friedhelm Loh Group business network. The integrated workflow between the leading systems supports controlled flow from the first steps in design through production to distribution and maintenance.

Source: Eplan Software & Service GmbH & Co. KG

CIDEONCideon provides advice and support to businesses on implementing innovation and optimizing engineering processes to raise performance, customer benefits and business value. They focus on the various sections within design as well as the administration and maintenance of product data through to the integration in inventory control systems. Cideon is one of two Autodesk Platinum Partners in the German speaking region and a development partner to SAP SE. Cideon has also been involved in rail vehicle technology since1992 and has meanwhile established itself as one of the leading providers of engineering services. It employs around 450 personnel at 18 locations. Cideon is part of the Friedhelm Loh Group, and with the claim “Cideon - efficient engineering”, provides expertise in mechanics and mechatronics as well as in ERP/PLM integration and engineering.

www.eplanusa.com

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New toolsThe innovative Compact Cable Safety Padlock combines a lockout device and padlock in one practical tool that can be applied just like a bicycle lock. Its PVC encased steel cable blocks the moveable parts or the energy source in the off-position, while the lock ensures the device cannot be removed accidentally. The new non-conductive Safelex™ Cable Lockout Device works in much the same way and is very efficient when several professionals are servicing a machine.

To block valves, a new Transparent Gate Lockout is available that allows workers to see the valve position, colour or state without having to remove the lockout device.

Fast & safeThe new innovative Lockout/Tagout tools can be applied easily, allowing for faster interventions on machinery, while still complying with company Lockout/Tagout procedures.

Email emea_request@bradycorp.com for more information. www.bradycorp.com

The main principle of the Lockout/Tagout procedure is extremely simple: isolate machines from their energy supply for safe interventions and maintenance. To

isolate a machine from its energy sources, push buttons, levers, valves or handles are rendered inoperable by blocking them with a lockout device. A maintenance worker can lock these devices in place with a padlock, ensuring co-workers cannot accidentally re-energise a machine before maintenance is done.

Increased Lockout/Tagout efficiencyDiligently applying Lockout/Tagout devices in line with procedure is critical to guarantee worker safety during machine interventions. This requires time which is won back by avoiding costly and time consuming accidents. New and innovative Lockout/Tagout solutions, like Brady’s Compact Cable Safety Padlock, are fast and easy to apply. They enable increased efficiency for safe machine interventions.

Lockout/Tagout is being implemented in an increasing number of industries. That is no surprise since the procedure, if applied correctly, guarantees employee safety. New innovations in Lockout/Tagout aim to increase efficiency by focusing on product flexibility and ease of use.

NEW TOOLS TO INCREASE LOCKOUT/TAGOUT EFFICIENCY

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Emerson has introduced its Preciflow 12.7 mm miniature proportional valve by ASCO Numatics this November. The new proportional valve features one of the

smallest footprints on the market combined with highly accurate flow control – making it ideal for a broad range of applications, particularly those in the analytical and medical industries.

“Complete with RoHS compliance and a pressure range of -0.9 (vacuum) to 10 bar, our compact Preciflow 12.7mm valve provides medical equipment manufacturers with a versatile product suitable for a range of applications.” said Alain Crampon, Analytical and Medical Business Development Manager for ASCO Numatics. “In addition, thanks to its small size and light weight, the valve is easy to integrate into existing systems, and operation can be customised according to customer requirements.”

The new proportional valve integrates key features that result in reduced wear and tear, considerably increasing its life-span and ensuring its accuracy over time. This includes two internal flat springs that allow the core to float freely, minimising friction during operation.

With typical hysteresis rated at 5%, Preciflow 12.7mm provides accurate and repeatable control. Its suitability for oxygen service use makes it an ideal solution for gas chromatography and mass spectrometry applications, and its low power consumption offers added value to end users.

The valve complements a complete range of ASCO Numatics solutions for the AMT industry by Emerson.

For more information please visit www.asconumatic.eu

The small and highly accurate proportional valve offers users an easy-to-integrate solution on a broad range of pressure and flow control applications.

EMERSON INTRODUCES MINIATURE PROPORTIONAL VALVE FOR THE ANALYTICAL AND MEDICAL INDUSTRY

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An important agreement aimed at developing the German company O&K Antriebstechnik owned by Carraro Group, specialized in the design and

manufacture of components (planetary gears) for track machines and cranes, mining machines and marine applications, was presented today in Milan by Sonia Bonfiglioli, Bonfiglioli Riduttori SpA Chairman, and by Enrico Carraro, Carraro SpA Chairman.

According to this agreement, which sees two of the most historic Italian industrial families in the mechanical sector join forces, Bonfiglioli acquires 55% of O&K Antriebstechnik GmbH for the amount of 25.7 million Euros. Carraro remains in the company with 45% maintaining a strategic role as a key partner in the delivery of specific components.

From the industrial standpoint, Bonfiglioli extends its range with products for higher power applications that can be exploited by its extensive sales network, whereas thanks to this operation, the Carraro Group will be able to further concentrate on developing innovative products – especially transmissions – specifically designed for agricultural and construction equipment.

“The agreement with Bonfiglioli is a great industrial story, which sees two Italian companies join forces in a real partnership approach with a view to mutual development. – said Enrico Carraro, Carraro SpA Chairman – This is a key

O&K Antriebstechnik, specialized in the design and manufacture of gearboxes for high power machines and crawler cranes, passes under the control of Bonfiglioli. The Carraro Group maintains a 45% share assuming a strategic role within the partnership. Bonfiglioli extends its range with products for higher power applications, whereas Carraro further focuses on transmission systems for agricultural and construction equipment.

BONFIGLIOLI AND CARRARO ENTER JOINT VENTURE AGREEMENT REGARDING O&K ANTIEBSTECHNIK

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step in the fulfillment of a strategic programme initiated in recent months. A few weeks ago the holding company Finaid announced its availability for a capital increase in support of the new three-year plan and to strengthen the business; today we are confirming our desire to further focus on the core business of transmission systems, while forging a strategic alliance that will bring us benefits in the medium term”.

“For us this is the second very important agreement signed between our Group and a major Italian company in just one year. In 2014, in fact, we announced the acquisition from a leading Italian company of the product lines dedicated to electromobility currently integrated at the plant in Forlì – concludes Sonia Bonfiglioli, Bonfiglioli Riduttori SpA Chairman – Today, thanks to the partnership put in place with Carraro, we acquire the majority of O&K Antriebstechnik GmbH, one of the most respected companies in the world in the field of heavy duty gearboxes. This latter operation is targeted at completing our product range with applications on high power machines such as earth moving, construction and mining machines, as well as machines for the marine, port and airport sectors, thus extending the area of global leadership of Bonfiglioli in the transmission and power control field”.

More in detail, in addition to the sale of 55% of O&K Antriebstechnik GmbH share capital, the agreement to the parties having some pre-emptive rights to buy or sell the

remaining 45% stake is exercisable by 30 September 2020 following fixed price setting mechanisms.

The transaction is subject to, among other things, obtaining the antitrust authorizations and the payment of the fee is established in cash at closing, expected by 30 December 2015.

Carraro will be reserved to the usual rights of governance to protect the minority, including the appointment of an administrator provided with some veto rights. As part of the transaction, the signing of several commercial and service agreements between O&K Antriebstechnik GmbH and both Carraro Group and Bonfiglioli Group companies is expected.

www.bonfiglioli.com

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With the unique coil technology and a patent pending multipolar rotor design, the 22ECT has been developed to be one of the most advanced

and highest performing brushless slotless motors in its class. The 22ECT is specifically optimized for high continuous torque at low to medium speeds, maximizing power between 10 K and 20 K rpm. These motors are capable of delivering 2 times higher continuous torque than comparable BLDC motors of same size over the entire low speed range when used with gears. The 22ECT is constructed with an enhanced high efficiency magnetic circuit that significantly reduces both iron and joule losses, the primary causes for motor stator heating. The result is the new 22ECT stays cooler and offers greater power density than equivalent models within its target operating zone. With maximum continuous torque up to 98.5 mNm and higher stall torque, 22ECT motors are ideally suited for use in applications such as Industrial automation, power tools & robotics.

Portescap succeeds in providing a high quality, long lasting & high performance brushless motor by optimizing the electro-mechanical motor design and material selection for 22ECT. Due to the multipolar design, these motors possess the torque capabilities of much bigger motors. The advantages of the 22ECT make it a good choice for geared applications because of its minimal speed drop and low motor heating under load. Their low inertia design makes them an exceptional option for applications requiring fast stopping, starting and acceleration.

The 22ECT is available in 60 and 82 mm length versions, with hall sensors and 3 different coils to match your speed and voltage requirements. Upon request, Portescap can provide options for customization including gearboxes, encoders, coil variations and mechanical interface modifications.

Portescap is globally ISO 9001:2008 certified, and our production site in India is also ISO 13485, ISO14001:2004 and OHSAS 18001:2007 certified.

www.portescap.com

Portescap introduces the newest addition to our Ultra EC™ mini motor platform, the 22ECT brushless motor, designed specifically to deliver ultra high torque in a compact size.

NEW ULTRA HIGH TORQUE 22ECT BRUSHLESS SLOTLESS MOTOR

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The new sensors in the UMB800 series feature hygienic housing that is made entirely from V4A stainless steel. The surface roughness of the housing is less than

0.8µm, minimizing the risk of microbial contamination. The outer skin is hermetically sealed and free from gaps. The sensor can withstand steam jet treatment and aggressive cleaning agents. It features IP68/IP69K degrees of protection and ECOLAB certification. No cleaning processes need to be changed when the sensor is installed in existing systems.

At 18mm in diameter and 55mm in length, the UMB800 is the world's smallest ultrasonic sensor in solid stainless steel. The compact design does not reduce its performance: It provides an exceptionally wide measuring range from a dead band of only 70mm and a detection range of 800mm.

The sensor complies with the guidelines of the European Hygienic Engineering and Design Group (EHEDG). All materials are FDA-compliant. The certification covers its specially developed hygienic mounting bracket. No tools are

required for assembly. The sensor is resistant to significant temperature fluctuations and remains functional at a continuous operating temperature of up to 85°C.

The UMB800 series is primarily designed for use in hygiene applications (food and pharmaceuticals). It demonstrates its strengths when used in applications in aggressive environments, such as in the chemical or vulcanization industry. The same is true for systems in which robust cleaning methods are used. Typical applications include packaging food in thermoformed trays and measuring the fill level in receiving tanks, as well as applications in car tyre production or processes in electroplating and painting systems, e.g., to detect parts moving into and out of an acid bath.

www.pepperl-fuchs.com

The UMB800 from Pepperl+Fuchs is the world's smallest ultrasonic sensor in solid stainless steel. It is made entirely from FDA-compliant materials. With its large detection range and highly compact design, it opens up new automation possibilities in hygienic applications.

UMB800

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Many manufacturers achieve that goal by following a narrow-perspective model that begins with tool selection and application and solving problems

on a reactive basis. Reversing that approach, however, can reduce costs and increase efficiency. Instead of waiting for problems to arise and then making adjustments to individual machining operations, manufacturers should focus first on proactive preplanning aimed at eliminating rejected parts and unplanned downtime. After a stable and reliable process has been established, applying the concepts of production economics can help manufacturers find a balance between production rate and manufacturing costs. Then, building on the foundation of secure, economically strong operations, manufacturers can select tools and cutting conditions that will fully optimise the machining process.

Production economicsPrior to taking steps to optimise metal cutting, it is essential that the processes are secure and reliable, minus defective parts or unplanned downtime. Achieving process security requires creation of a stable production environment. The areas manufacturers must analyse include machine tool maintenance, CAM programming, tool holding systems and coolant application. Work handling automation such as

pallet or robotic part load/unload systems could be part of the evaluation as well.

The art and science of production economics focuses on assuring maximum security in, and predictability of, the manufacturing process, while maintaining highest productivity and lowest production costs. When the metal cutting process and environment are secure and predictable, production economics becomes a two-dimensional pursuit: finding a balance between production output and manufacturing costs that is appropriate for a manufacturer’s specific situation. For example, in mass production of simple parts, maximising output at minimal costs may be the primary consideration. On the other hand, in high-mix, low-volume manufacturing of valuable complex parts, the emphasis must be on total reliability and accuracy before addressing manufacturing costs.

Minimising unplanned downtimeMaximum utilisation of manufacturing resources requires the minimisation of downtime, which, most simply, is the period when the machine tool is not making chips. Some downtime is necessary and planned. This includes the time spent programming and maintaining the machine tool,

In producing a vast range of parts from widely differing workpiece materials, manufacturers utilise a variety of machining processes. Regardless, the common goal of all manufacturers is to create a certain number workpieces of a desired quality, in a specified amount of time and at an appropriate cost.

MACHINING SUCCESS REQUIRES A PRODUCTIVE BALANCE

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installing fixturing, loading and unloading workpieces and changing tooling.

Manufacturers account for planned downtime in their production schedules. However, production of unacceptable parts results in unplanned downtime. When a rejected workpiece must be remachined, the time consumed originally machining it represents unplanned downtime and is wasted.

Traditionally, shops take a reactive approach to reducing unplanned downtime. When a problem halts production, the search for a solution begins. Rather than waiting to react to a negative situation, a better approach is proactive planning that recognises key targets for the operation and steers the process toward them from the beginning. Most shops spend 20 percent in preparation efforts followed by 80 percent implementation and testing. The ideal would be to invest 80 percent in preparation and the rest in implementation and adjustments if necessary.

In preparing for a machining operation, a shop should analyse its targets and develop reliable processes to achieve them. The primary target is not always increased production rates. Although some manufacturing situations, such as automotive part production, remain true examples of high-volume mass production, manufacturing in general is moving more towards high-mix, low-volume scenarios.

In mass production, losing 50 or 100 parts when developing a machining process that will turn out hundreds of thousands of parts over a long period of time represents a tiny percentage of the overall volume and can easily be absorbed. However, in a high-mix, low-volume situation, the process must be as fully developed as possible before partmaking even begins. High-mix, low-volume scenarios can involve small batches, single-digit lot sizes or even custom one-part runs. In these cases, rejection of a few parts represents the difference between a profit and a loss.

Micro versus macroThe traditional approach to maximising metal cutting output involves a narrow-perspective micro model based on optimisation of individual tools in individual operations. Macro models, on the other hand, consider manufacturing processes from a broader perspective. These models concentrate on the total floor-to-floor time required to produce a given workpiece.

The relationship between the micro and macro economic models can be compared to an artist’s perspective when creating a painting. The micro model concentrates on individual details, in the same way that an artist would concentrate on individual brush strokes. The macro model steps back and views the part production process overall, as in viewing a painting in its entirety. It is clear that attention to detail is necessary, but not at the price of ignoring the overall purpose of the effort.

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Hidden costsExaggerated fixation on detail can distract attention from the final outcome of the process. For instance, it is a disadvantage to reduce cutting time by ten seconds when it is achieved with an extra tool that adds ten minutes in setup and indexing time. Similarly, working to achieve product quality beyond customer requirements will increase costs and production time. Almost seriously, one could ask, “How long would it take, and how much would it cost, to produce the worst workpiece possible, which is still functionally acceptable?”

Operating costsModels for machining costs can also represent micro- and macro-perspectives. Micro-models consider cutting processes from a narrow viewpoint, linking cutting conditions directly to cutting costs. Macro-economic models work from a broader perspective, emphasising the overall time required to produce a given workpiece.

Manufacturers measure production rate in various ways, from workpieces completed over a period of time to the total length of time required to finish an operation. Many factors affect production rate, including workpiece geometry requirements and material characteristics, product flow throughout a facility, personnel input, maintenance, peripheral equipment and environmental, recycling, and safety issues (see sidebar).

Some elements of manufacturing costs are fixed. Workpiece complexity and material generally dictate the type and number of machining operations required to make a part. The costs of acquiring and maintaining a facility’s machine tools and the power to run them are basically fixed costs. Labor costs are somewhat more flexible, but are effectively fixed for at least the short term. These costs must be offset with revenue from the sale of machined components. Raising production rate – the speed at which workpieces are converted into finished products – can offset fixed costs.

Individual optimisationAfter the overall productivity and cost efficiency picture of a process is balanced and optimised on a macro basis, manufacturers can achieve further improvements by careful optimisation of individual operations. Cutting conditions – namely depth of cut, feed rate and cutting speeds – play a key role in balancing productivity and costs. Any or all of the three can contribute to reductions in machining time, but the impact of each on reliability of the process varies widely. Depth of cut essentially has no effect on tool life. Feed rate affects tool life slightly. However, the impact of cutting speed on tool life, as well as on the reliability of the cutting process, is significant.

Many shop managers believe that simply increasing cutting speeds will produce more parts per period of time and thereby reduce manufacturing costs. Usually that is true, but tradeoffs are involved. In general, the faster an operation runs the less stable it becomes. High speeds generate more heat that affect both tool and workpiece. Tool wear occurs faster and is less predictable, and tool wear or vibration can cause part dimensions to vary and surface finish to decline.

A tool may break and mar the workpiece. In addition, a process operating at the outer boundaries of reliability is typically unable to run untended or semi-tended, eliminating a potential source of labor savings. Extremely high cutting speeds and aggressive machining parameters can increase machine maintenance costs and even downtime resulting from machine failures.

Recognising these issues, American mechanical engineer F.W. Taylor, at the beginning of the 20th century, developed a model for determination of tool life. The model shows that for given combination of depth of cut and feed there is a certain window for cutting speeds where tool deterioration is safe, predictable and controllable. Taylor’s model makes it possible to quantify the relationship between cutting speed, tool wear and tool life, balancing cost efficiency and

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productivity and providing a clear picture of the optimum cutting speed for an operation.

In general, manufacturers should select the largest depths of cut and highest feed rates possible for each operation, subject to the stability of the tool clamping, workpiece fixturing and machine tool, as well as the machine tool’s power. Operational safety, in regards to chip formation and evacuation, vibrations and workpiece deformation, also must be considered. A balanced approach involves reduced cutting speeds matched with proportional increases in feed rate and depth of cut. Utilising the largest depth of cut possible reduces the number of cutting passes required and thereby reduces machining time. Feed rate should be maximised as well, although workpiece quality and surface finish requirements can be affected by excessive feed rates. In most cases, increases in feed rate and depth of cut while maintaining or lowering cutting speeds will produce metal removal rates equal to that achieved by higher cutting speeds alone.

Production costs are the sum of tool costs and machine costs. With increasing cutting speeds, machining times become shorter and machine costs decrease. However, from a certain point overall costs rise because shorter tool life increases the cost of tooling and tool change times enough to surpass the savings in machine cost.

When a stable and reliable combination of feed rate and depth of cut has been reached, cutting speeds can be used for final calibration of the operation. The target is a higher cutting speed that reduces machine time costs but does not excessively raise cutting tool costs via accelerated tool wear.

Non-cutting issuesEnvironmental and safety issues represent increasingly important factors in production economics. Manufacturers are under pressure to conserve energy. Use and disposal of coolants and cutting oils is increasingly regulated and expensive. A balanced approach to cutting conditions can help manufacturers deal with these and similar concerns. Lower cutting speeds combined with increased feed rate and smaller depths of cut reduce the amount of energy required to remove metal. Balanced conditions also increase tool life, reducing tool consumption and disposal issues. Lower energy consumption results in reduced generation of heat, offering opportunities for minimal- or zero-coolant machining.

ConclusionAdopting production economics concepts requires making an overall analysis of the machining environment and accepting ways of thinking that are counter to many established metal cutting practices. But, carrying out the recommended strategies can improve cost savings and workpiece quality and enable more environmentally friendly production, while at the same time maintaining productivity and profitability in a stable and reliable manufacturing process overall.

www.secotools.com

By:Patrick de Vos, Corporate Technical Education Manager, Seco Tools

FACILITY-WIDE PERSPECTIVE

The benefits of viewing machining processes from a macro perspective extend beyond individual metal cutting operations. A broad view considers the interrelation of all the steps in production. A simplified example involves two machine tools employed in a series to produce a component. If machine tool A is optimised to boost its output but the results from machine B can’t be improved, parts from the first machine will sit waiting for the second as semi-finished inventory, increasing costs. In this case, simply optimising cutting costs (rather than output) on the first machine would lower machining cost overall while maintaining output.

On the other hand, in a situation where machine B sits idle waiting to process parts from machine A, increasing the output of the first machine will increase total output. Much depends on whether the shop’s production flow is organised in a line, batch or parallel sequence.

Machine tool acquisition costs can also be evaluated relative to a manufacturer’s business overall. A typical situation involves a shop running a milling machine fully loaded 40 hours a week and deciding to replace it with a more expensive, more sophisticated, higher-speed machine. However, when the new machine is up and running, it spends half the time standing idle.

The shop faces the challenge and expense of finding more work to keep the new machine busy and justify the investment in it. Further, work that takes full advantage of the new machine’s capabilities may not be a good fit with the rest of the shop’s operations or markets. The better path would have been to first examine the bigger picture and anticipate what would result from the new machine’s greater output. A less expensive, less advanced machine may be a better match with current and anticipated part requirements and production volumes. Paired with the older machine, a more carefully chosen machine tool could also provide expanded flexibility and redundancy to handle scheduled or unscheduled machine downtime.

Taking a comprehensive view of process optimisation can also involve very basic, simple actions and analysis. Examination of used tools provides a broad view of what is going on in a workshop. For example, if a shop generally uses inserts with 12-mm-long cutting edges but wear patterns on the tools only reach 2 mm or 2½ mm, the shop is probably using inserts that are much too big for what they do. Tools with 6-mm cutting edges would be more than sufficient, and a tool with 6-mm long cutting edges is significantly cheaper than a tool with a 12-mm cutting edge. Such a simple observation can reduce tool costs by 50 percent without affecting productivity.

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The benefits of Industrial IoTBuilding on 25 years of experience in industrial communication, HMS’s Industrial IoT solutions are a game-changer for many machine builders and plant owners. For example, they allow machines to communicate their operation status to IT systems enabling predictive maintenance. They also allow machine builders to become service providers and sell maintenance as a service. IT systems can analyze information from real-time industrial systems and present KPIs and statistics from previously unattainable OT systems.

IT/OT Bridging solutionsNew “edge connectivity gateways” enable access to OT information from the IT-level giving business intelligence systems unprecedented access to live information from production facilities. Among other things, HMS presents new gateways for connecting PROFINET and PROFIBUS to .NET on the IT level. Another piece of news is an “embedded IIoT” solution where integrated Anybus chips, bricks and modules open a direct channel to the IT level making the host machine “IIoT-ready.”

Cloud solutions HMS’s proven and trusted Netbiter solution already connects thousands of drives, generators, UPSs and other OT-machines to the cloud where they can be monitored and controlled remotely. HMS now presents new solutions for connectivity to 3rd party clouds such as Thingworks, Oracle and SAP. Connection to these clouds can be made using HMS’s new IT/OT bridging solutions.

HMS Industrial Networks presents a number of new industrial communication innovations for the Industrial Internet of Things. The new solutions and prototypes enable communication between operational technology (OT) on the factory floor and Information Technology (IT) resulting in unprecedented efficiency gains.

HMS INDUSTRIAL NETWORKS PRESENTS NEW SOLUTIONS FOR THE INDUSTRIAL INTERNET OF THINGS

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Industrial NetworkingHMS’s current product portfolio for industrial networking is already connecting more than 3 million automation devices around the world. Many of these devices get connected to some kind of controlling system – a basic form of IIoT. At the SPS/IPC/Drives fair, HMS also presents a new OPC UA solution for the German “Industrie 4.0” initiative meaning that an OPC UA server is offered inside the Anybus communication solutions providing data from the factory floor.

“For us at HMS Industrial Networks, the Industrial Internet of Things is nothing new,” says Jörgen Palmhager, COO, at HMS Industrial Networks. “We have been ‘Connecting Devices’ for more than 20 years and enabled millions of machines to communicate with controlling networks. Through our HMS Labs initiative, we have been working with Industrial IoT for several years and while other companies are still discussing IIoT roadmaps, we are presenting actual prototypes, products and solutions – innovations which will provide substantial value as users can do predictive maintenance, KPI-follow-up, machine analytics, data mining, big data processing, production statistics and much more. Industrial IoT will be a game-changer for many automation companies and HMS is technologically very well positioned to help customers realize the promises of IIoT. ”

www.hms-networks.com

PROFIBUS/PROFINET to .NET gateways and solutions for embedded IIoT.

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On one hand, these are basically the same idea. The Industrial Internet of Things (IIoT) is about intelligent devices like overloads, photo eyes, variable frequency drives, or PLCs providing data that we use to make our processes more efficient. IIoT is a name for a trend that has been going on in manufacturing and process control for years – remember “shop floor to top floor”? IIoT is about gathering more data from more intelligent things, and using powerful analytical tools to find and eliminate waste.

Remote Monitoring and Equipment AccessI know, we’ve been connecting to PLCs remotely for as long as most of us can remember! In the old days, remote access meant installing a serial modem connected to a dedicated phone line, so the machines we made remote access-capable were limited to the most critical operations.

So, then, what’s all the fuss about? Looking through automation-oriented magazines and websites, the Internet of Things seems to be all anyone talks about.

In the industrial world people call it the “Industrial Internet of Things” or “Industry 4.0” or any number of other names. But fundamentally, what is so different between this new-fangled buzzword and connecting a motor overload relay to a plant communications network like we were doing twenty years ago?

Do you consider yourself an Internet of Things Engineer? You should! Think about what the Internet of Things really means. According to Wikipedia, the Internet of Things “is the network of physical objects or ‘things’ embedded with electronics, software, sensors, and connectivity to enable objects to exchange data with the manufacturer, operator and/or other connected devices... As an automation industry veteran, that sounds really familiar. We have been connecting intelligent devices to control networks for decades. We’re pioneers!

WHAT TO CONSIDER WHEN STARTING YOUR INDUSTRIAL INTERNET OF THINGS JOURNEY

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What’s changed in the IIoT world is the proliferation of wireless connectivity, especially cellular networks and wireless LAN. By some estimates, 85 percent of the world’s population will be covered by high-speed cellular data networks by 2017. This has had several effects that change how we should approach remote access and equipment monitoring. First, it’s becoming feasible to gather a LOT more data from remote machines. Since 2008, the average cost per MB of cellular data has dropped 98 percent, from $0.46 per MB to just $0.01 per MB. Now, all that data that we used to deem not important enough to transmit can be made available from our remote sites.

Second, as consumer demand has driven rapid development of Internet- based user interfaces, these same technologies are making remote access to industrial equipment, and especially to process data, more accessible for more people throughout the organization.

Finally, machine builders and control engineers responsible for widely dispersed global operations can build reliable connectivity into their systems without the need for custom infrastructure and integration at the end site. Cellular technology that works on networks worldwide allows these engineers to design their system around a standard remote connection, and reasonably expect that connection to work wherever the machine ends up. For mobile equipment, access is available just about anywhere the equipment goes.

Machine and Process ControlIIoT technology is not just about cellular connections to remote machines. We are seeing new networking approaches to the old requirements of connecting sensors, operator interfaces, controllers and ERP systems that take advantage of the networking technology of today’s Internet. Major automation vendors like Rockwell Automation® and Schneider Electric® have been offering industrial Ethernet connectivity for PLCs and related devices for more than a decade. Industrial Ethernet protocols like ODVA’s EtherNet/IP provide the kind of performance required for automation systems, while also enabling interoperability with the massive Internet Protocol-based network infrastructure found in virtually every organization.

In many industrial applications, moving equipment presents a major challenge for communication to the sensors, actuators, and controls on that equipment. Many products exist to try to solve this problem, from slip rings to flexible cable trays to festoons.

However, these hard-wired solutions add cost and complexity while increasing the maintenance requirements for the machine. Meanwhile, we roam around our offices and homes with continuous connection to the Internet – no festoons in sight! Today’s automation engineers are taking advantage of the Internet Protocol-based industrial technologies to design more reliable networks for moving equipment.

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them a try. One of the best parts of the IIoT concept is its scalability – Internet-based applications can just as easily serve one deployment as one million. Pick an interesting application, and run a pilot in a small area. There’s no better way to learn about a new technology than by giving it a go.

• Get Help – Most importantly, work with vendors you can trust. When it comes to industrial networking, ProSoft Technology® has been helping engineers get different equipment all talking the same language for more than 25 years. We can help you navigate your IIoT course, from connecting older Modbus® and PROFIBUS® networks to enabling remote equipment connectivity via cellular networks. When you’re ready to start the next phase of your IIoT journey, we’re here to help make it happen!

www.prosoft-technology.com

Asset MobilityOne area of automation where IIoT technology is creating new opportunities involves taking the network connection anywhere in the plant. Old systems offered only so many places to “plug in.” Operators had to run the machine from one place – the operator panel. Maintenance had to jot down measurements and observations to enter into the maintenance management system when they got back to the shop. Control engineers could only program PLCs by plugging into the PLC, or to the PLC’s physical network through a proprietary adapter.

In a world where I can set my home thermostat while walking through an airport, we don’t have to live like this! Automation systems are now benefiting from the same “network everywhere” mindset as our home and office environment.

Things to ConsiderThe Industrial Internet of Things opens up some interesting new possibilities for automation, so you should begin planning how you can get your system “IIoT Ready.” The good news is that you likely have many pieces in place already – intelligent field devices, industrial networks, perhaps even some Internet Protocol-based infrastructure. Here is some food for thought as you consider how your system can fit into this new world of connected machines.

• Network Migration – While many of your field devices are likely already on a network, it is probably not an Internet Protocol-based network. Not to worry! As you see the need to move device data up to higher-level systems, you won’t need to scrap that tried-and-true device network. Gateway devices and in-rack protocol interfaces in your controller allow you to easily connect those older networks to the IP-based applications that need that device data. Serving up data from smart devices adds value to your operation, but it doesn’t necessarily require changing everything that is already there.

• Cybersecurity – While the interoperability of the IIoT brings great benefits, it also opens up new risks that we need to address. In reality, many automation systems are already “connected,” so cybersecurity should already be on your mind. It is important to understand what equipment can be accessed by whom, what connections are necessary and not necessary, and how data that’s transmitted outside the boundaries of your organization’s network is protected.

• Start Small – Vendors everywhere have grand visions for what the IIoT can do for manufacturers. But remember, you don’t need to dive in head first to get benefits from IIoT. Look for applications in your industry that make sense, and give

Keith Blodorn is a Director of Program Management at ProSoft Technology. He has worked in the Industrial Automation industry for more than 20 years.

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As a key leader in the enamelled equipment sector, particularly in reactors, De Dietrich relies on its technical expertise to propose a standard range of

enamelled piping, which is both attractive and available at short notice. In order to meet the market's objectives, the company has made a stock of over 12,000 items available, covering the whole range of the sector's standard needs.

The process peripherals (piping, pumps, valves, columns, gaskets, etc.) are components that are as important as the “heart” of the system. The De Dietrich glass-lined piping range thus benefits from the same quality of enamel as used for the reactors. A distinctive feature of De Dietrich's enamel is that it is manufactured on-site, in France, allowing control over the quality of the Group’s whole range of equipment.

The current piping range is particularly suitable for transporting acid and alkaline fluids, abrasive solutions and high-temperature fluids in atmospheric or pressure conditions and in vacuum-high vacuum application in combination with temperature. In that last case the plastic lining have problems with accidental collapse.

Our range is designed for projects of all sizes and types: new installations or maintenance, always respecting the requirements of the most demanding markets.

Corrosion-resistant, non-adhesive, pure, easy to clean and without catalytic effect, the components of De Dietrich piping are used by over 200 clients worldwide, in a quality that has made the company's success.

Another distinctive feature is the company's engineering and consultancy skills, allowing it to take part in large-scale projects. Worldwide, clients can rely on the group's expertise in selecting the standard product best suited to their needs in order to optimize the operating life and the dimensioning of the equipment. De Dietrich can additionally provide tailor-made solutions when required.

Finally, the glass-lined piping range is offered at highly competitive prices, making it the most attractive offer in terms of cost-performance ratio.

www.dedietrich.com

DE DIETRICH EXPANDS ITS ENAMELLED PIPING RANGE!

By reorganizing its product range, De Dietrich aims to become a major player on the piping market for the chemical and pharmaceutical industry.

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under electric power and in total silence,” said Tilli Antonelli, founder and CEO of WIDER Srl. “Importantly, the propulsion system is managed by the proprietary Wider Management System (WMS), which was developed conjointly by WIDER’s engineering team and Emerson.”

Four variable speed generators deliver electrical power to the super yacht, with diesel engine speed controlled by the WMS featuring Powerdrive MD2 modular drives. This ensures the engines run at best efficiency in any cruising conditions to optimise overall consumption and maximise comfort for those sailing on the vessel. A DC variable voltage switchboard with a working range of 500-750V distributes the generated electrical power. Here, power levels are adapted instantly to the requirements of the system with the support of a battery pack. Of significant note is the fact that the super yacht can spend an entire night at anchor without ever having to start a generator as the entire hotel load can be run from the batteries, offering clear benefits in terms of fuel savings and comfort on board.

“Traditional yachts run the generators at a constant speed and produce a fixed output,” explained Mr Antonelli. “This is often too much or too little for the yacht’s needs, and as

The application forms part of a bespoke system which delivers a 20% reduction in fuel consumption and allows the yacht to travel further between refuelling.

WIDER Srl, based in Castelvecchio di Monte Porzio, Italy, specialises in the design and construction of composite and aluminum pleasure craft with a strong focus on outstanding performance combined with low fuel consumption. The company’s Superyacht Division, where yachts up to 165ft are manufactured in aluminium, is located at the company’s satellite facility in nearby Ancona, which offers direct access to the sea.

The vessel, which features diesel-electric propulsion, is equipped with four MAN engines. Each engine is connected to an alternator to produce 350 kW of power that drives azimuthal pods.

“The power generated can be stored in lithium polymer battery banks, allowing the yacht to cruise completely

A luxury yacht manufacturer is using Powerdrive MD2 modular drives from Emerson as part of a unique power management system.

POWERDRIVE FROM EMERSON HELPS WIDER YACHTS ACHIEVE 20% FUEL SAVINGS

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a result they are in frequent need of services and overhauls. The same is true of a yacht’s engines – these run at varying speeds according to requirements, consuming vast amounts of fuel and demanding regular attention and service.”

The diesel electric system on board the WIDER 150ft super yacht is different. By connecting MAN engines to alternators they can be employed as variable speed generators, producing only as much power as necessary at any given time. This results in greater efficiency from the engines – the engineering team at WIDER estimates fuel savings of up to 20% are achievable (depending on usage) compared with the same boat using traditional twin screw propulsion. At 11 knots it gives the super yacht a range of 4,200 nautical miles between refuels, a substantial distance for a vessel with a fuel capacity of 45,000 litres.

“The Powerdrive MD2 drives help make this possible, with power from the generators or the battery banks converted into what is needed at the time,” said Mr Antonelli. “This always assures the best performance in terms of consumption and efficiency – taking into account the overall demand for power on board.”

Powerdrive MD2 is a range of high power, compact and user-friendly modular drives. The combination of power modules and choice of cooling methods make it possible to achieve multiple optimised configurations: six-pulse, low frequency harmonics, regenerative or DC bus solution. Powerdrive MD2 provides high performance motor control, making it the ideal choice for any industrial or commercial variable speed application up to 2,800 kW.

A further benefit of the greater efficiency achieved on the WIDER super yacht through the use of variable speed generators and the power management system, is that it produces less noise and vibration. This results in greater enjoyment on board, which is the basis of WIDER’s philosophy to yachting, as well as longer intervals between maintenance.

“As a result of running efficiently, maintenance such as checking for exhaust build and dirt/grime on the generator valves is reduced,” said Mr Antonelli. “Additionally, although we have four generators, it is likely that most of the time only one or two will be used, together with the batteries, which means less hours/miles on the clock and less maintenance. It should even be possible to extend intervals between standard maintenance tasks such as oil and filter changes as the engine hours are managed more efficiently than on a standard yacht.”

Another important and beneficial feature of the design is that the Powerdrive MD2 drives convert the power from AC at the generators, to DC at the battery banks, and back to AC again when it powers the azimuthal pods or the appliances on board. This guarantees the greatest possible efficiency for the propulsion system, but also acts as a

voltage stabiliser, thus eliminating voltage spikes that can be harmful to appliances. The battery banks are connected to a DC distribution bus that works at a nominal 675V DC, guaranteeing considerable power to the vessel but also allowing enormous flexibility in the way that the power is managed.

Everything is controlled by the power management system, which governs power generation, flow and storage. The number of generators that are running and their speed is checked constantly against the vessel’s requirements for safety, the demand for power and the state of the battery banks. A power management strategy can even be adopted to cater for specific requests from the yacht owner, such as noise reduction, high performance, zero emissions or night mode. Each profile can be selected manually.

“We are the first yacht builder in the world to offer luxury yachts in this size range with diesel-electric propulsion combined with azimuthal pods,” said Mr Antonelli. “In fact, the 150ft model is the first super yacht produced by WIDER and the entire range (including 125ft and 165ft models) will be powered by Emerson solutions.”

“Emerson is now a dedicated and trusted partner of WIDER and was instrumental in the development of the power management system,” added Mr Antonelli. “They recognised our needs and developed an innovative solution that provides us with a distinct competitive advantage.”

www.emerson.com

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Bureau Veritas has created LEAD: a unique offer and approach to support companies all over the world in the three-year transition process. LEAD was developed

in collaboration with clients, following a worldwide survey to fully understand their needs. It includes an all-in-one service pack, a cost-effective way to help clients move through the process with confidence. New, innovative tools enable clients to train themselves and assess the gap between their current situation and the future standard they want to reach, via e-learning courses and an online gap analysis tool.

Companies can choose between different levels of support: the essentials pack helps them prepare the first steps of their transition, while the complete pack enables them to manage all their transition and certification needs with Bureau Veritas.

Companies will gain support in analyzing their requirements worldwide, and have access to advice, training sessions and audits on a country-by-country basis, thanks to Bureau Veritas’ network of experts around the world.

As part of the LEAD project, the Group has also created a dedicated website, www.revision2015.com, providing clear information on the new standards, and the steps that companies currently certified to ISO 9001 or ISO 14001 should take to retain certification. More than 80,000 Bureau Veritas clients have already visited the website, which will be continually updated with news and information on the revision.

The second half of 2015 sees revisions to ISO 9001 and ISO 14001, the globally recognized standards in quality and environmental management systems. Following the new revision, and with the deadline for transition set for 2018, Bureau Veritas is launching a suite of tools to help companies achieve the new standards and retain certification, or target certification for the first time.

ISO 9001 AND 14001 2015 REVISION: BUREAU VERITAS LAUNCHES INNOVATIVE OFFER TO HELP COMPANIES WORLDWIDE GAIN CERTIFICATION

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Bruno Ferreyra, Executive Vice President for Industry and Facilities at Bureau Veritas, said: “The new revision is the clear proof of the continuous improvement in the standards. With the LEAD offer, Bureau Veritas aims at helping clients to make the most of the changes and set the stage for a long-term growth”

Commenting on the revision, Sébastien Fox, Head of Bureau Veritas Certification, said:“The 2015 revision offers some significant benefits, including the ability to integrate quality and environmental management systems, more flexibility in use of documentation, and less directive requirements. Its emphasis on risk-based thinking also helps identify opportunities and targets long-term customer satisfaction and improved environmental performance.

As a trusted partner, Bureau Veritas is working alongside its clients to enable them to move through the transition process with confidence. Our LEAD offer, with its innovative set of solutions, enables companies to meet the demands of the revised ISO 9001:2015 and ISO 14001:2015 standards in the way that best suits their organization: via a turnkey solution, or customized support.”

The service packs are already available. Services such as training, gap analyses and audits are also available separately.

www.revision2015.com

www.revision2015.com/wp-content/themes/bureau_veritas_site_iso/pdf/LEAD_brochure_web.pdf

www.revision2015.com/category/watch-our-videos-and-read-the-interviews-with-our-certification-experts/

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Under physical influences such as temperature variations or changes in pressure, these sensors quickly reach the limits of their operating capabilities.

Baumer's CleverLevel series, based on frequency sweep technology, provides a highly flexible and secure solution for performing measurement tasks in these types of application.

In the food industry, bulk goods in the form of powdery flour, fibrous spices, fine sugar, coarse coffee and cocoa beans, or whole nuts, are stored temporarily in various large silos or processed in mixing tanks. To ensure that all production steps function smoothly and meet the industry's high quality standards, the solids must not be allowed to go above or below a specified filling level.

In many applications it is impossible to gauge the level of the media in the tank from outside through a sight glass. When pressure and temperature rise, coffee, cocoa beans and other granular material emit oil and humidity. When they become damp, powdery solids form lumps. In situations like these, it's impossible to detect the level in the silo just by looking through a glass. Common types

of electromechanical sensors, such as the rotating paddle or vibrator types, may give faulty indications, showing the level to be within the limit when it has already been crossed. This can result in unplanned machine stoppages and loss of production, leading to high costs for repair and cleaning. In contrast, CleverLevel, which is maintenance-free, optimises processes and reduces operating costs.

CleverLevel limit switches are available in different versions to allow them to be used in almost any application and positioned where they can work best in the process. In the standard version, the tip of the sensor protrudes only 12 mm into the interior and this allows it to be optimally positioned even with tricky tank geometries or with built in mixers. The 100 mm or 250 mm long variant with a sliding connection can be positioned deeper in the tank. This prevents sticky deposits forming on the tip of the sensor. If space is restricted, the suspended variant can be used and installed from above, through the top of the silo. This is can be used for example when hexagonal silos are grouped together on a small surface. In this configuration, installation of the limit sensors on the silo walls is only possible in some cases.

The different media characteristics of bulk goods frequently pose technical challenges for commonly-used sensor systems when measuring limits in storage silos and process tanks.

CLEVERLEVEL : RELIABLE LIMIT DETECTION FOR BULK GOODS

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Innovative technologyThe CleverLevel series operates with frequency sweep technology. Its electrode emits a high-frequency signal from the tip of the sensor into the tank. The medium works like a virtual capacitor that creates a resonant circuit with a spool in the sensor head. The size of the capacitor depends on the dielectric constant (DK-value) of the medium which thus alters the resonance frequency. Between air and the medium there is a significant difference in the DK value. The frequency shift of the resonance circuit associated with this is processed by the integrated microcontroller with a high margin of safety.

The CleverLevel can detect almost all media with a DK value greater than 1.5. It can not only accurately detect solids with different granularities but also viscous media and liquids.

Using the size of the DK value, the limit switch can also detect separate media layers, for example oil on water. If needed, this capability can be used to accurately distinguish between foam and the liquid limit level. The CleverLevel is ATEX, EHEDG and 3-A certified. This ensures safe functioning even when using explosive hygienic environments that occur in the food processing industry when handing powders and bulk goods that generate dust.

For more information: www.baumer.com/cleverlevel

A bright blue halo allows the limit signal to be easily seen, even from a long distance.

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These days Jungheinrich has launched two new series 2 pantograph reach trucks – vehicles which sport a particularly compact design and a lifting capacity

of up to 1,600 kilogrammes, tailored specifically to the requirements of the North American market. Developed by the Jungheinrich Design Centre in Houston, Texas, this type of truck is also suited to numerous applications in other markets, including South America, the APAC region and the Middle East. These ETR 230 and ETR 235 trucks complement the existing 3 series with lifting capacities of up to 2,000 kilogrammes.

“Our ETR 2 pantograph reach trucks are designed primarily for North America, but also for other important non-European markets,” explains Philipp Tielmann, Product Manager at the Jungheinrich Lift Truck Corporation in Houston. He continues: “Our clients in these regions are increasingly going over to compact vehicles with high residual lifting capacities. Their pallet sizes are also different from the ones used in Europe, so they consequently require adjustable baseleg widths.”

For High Throughput Even in Tightest of SpacesIn contrast to conventional reach trucks, where the mast moves along the baselegs when handling pallets, the ETR mast is permanently fixed to the chassis. A movable fork carriage in the form of a pantograph performs the reaching and tilting functions. This makes the truck highly compact and, owing to its fixed mast which serves as a counterbalance, gives it a high residual lifting capacity – even at high lift heights. The driver can manoeuvre comfortably in narrow aisles and drive up extremely close to the racks to load and unload pallets quickly and safely.

Jungheinrich has given its ETR 2 pantograph reach trucks an even more compact design to facilitate manoeuvring in tight spaces. The result is that the minimum working aisle width is now more than 30 millimetres smaller than before. “The new masts are around 50 millimetres narrower,” remarks Tielmann, “making the pantograph reach truck ideal for applications in extremely narrow drive-in aisles.” A new, extra-narrow battery compartment – optional for the ETR 230 – further reduces the working aisle width by an additional 50 millimetres.

Compact design for narrow drive-in racks / Adjustable fork carriages provide for high residual capacity / Intuitive operation, thanks to ergonomic Multi-Pilot control handle / Assistance systems guarantee high rate of efficiency.

JUNGHEINRICH INTRODUCES NEW PANTOGRAPH REACH TRUCKS, SETTING SIGHTS ON NON-EUROPEAN MARKETS

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High Rate of Efficiency for Intensive OperationsAs with all Jungheinrich pantograph reach trucks, the powertrain components in the ETR 230 and ETR 235 are ideally harmonised and designed for maximum efficiency. A high-performance 36-Volt three-phase AC motor provides for powerful acceleration at travel speeds of nearly 12 kilometres per hour. “With a lift speed of 0.6 metres per second and lift heights of up to 7.6 metres, the truck provides for fantastic productivity,” reports Tielmann. The vehicle also possesses a high rate of energy efficiency, running for two shifts on a single battery charge, making the ETR “ideal for intensive, extended applications”, according to Tielmann.

Ergonomic, State-of-the-art WorkstationIn designing the new pantograph reach trucks, Jungheinrich also placed a premium on ergonomics in order to reduce premature driver fatigue. The entry step is substantially lower and the driver’s cabin is generously dimensioned. Using the Multi-Pilot function the driver can safely and intuitively operate the vehicle. This multifunctional lever combines all the driving and hydraulics functions in a single control handle. All controls can be easily activated without needing to grip around the handle, with the operator’s hand resting comfortably on the ergonomic grip. The control handle also allows the driver to simultaneously activate the various hydraulic functions.

Sporting a total of six soft keys, the new high-grade colour display provides the driver with all the key operating data – for example indicating the remaining time until the next

battery recharge is required. To adapt the forklift to specific applications the driver can make numerous settings in advance. “The comfortable, user-friendly features of this pantograph reach truck make the operator’s job easier and are beneficial to health and safety,” says Tielmann, adding that this was also “indispensable” to helping the operator increase the truck’s level of throughput.

Assistance Systems and Numerous Options Enhance Safety and EfficiencyBy providing a large selection of assistance systems Jungheinrich has further facilitated the operator’s work. The “SNAP” function for example involves the semi-automatic preselection of rack height. By “snapping” out the control element the truck automatically recognises the targeted rack position; it is no longer necessary to manually select the height.

Numerous optional features are available for the ETR 2 pantograph reach truck series to guarantee the ideal tailoring to the relevant application profile. This includes 17 different base leg openings, ranging from 839 to 1,245 millimetres and eight different load wheel configurations. In addition the customer can select from among seven different mast heights of 4,953 to 7,595 millimetres. A fork camera facilitates safe load handling from any pallet position. And Jungheinrich also has a comprehensive optional package of features for refrigerated warehouse operations.

Jungheinrich ranks among the world’s leading companies in the material handling equipment, warehousing and material flow engineering sectors. The company is an intralogistics service and solution provider with manufacturing operations, which offers its customers a comprehensive range of forklift trucks, logistics systems, services and advice. Jungheinrich shares are traded on all German stock exchanges.

www.jungheinrich.com

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The new PROTUM Office system can be used on height-adjustable desks and on simple tables with four legs. “Until now, PROTUM Office cable carriers were mainly

used by manufacturers of office furniture who tended to install them in height-adjustable stand/sit workstations,” explains Werner Eul, Product Manager Cable Carrier Systems at TSUBAKI KABELSCHLEPP GmbH. “Our extended system on the other hand offers customers a simple combination with all types of desks.”

For this purpose, TSUBAKI KABELSCHLEPP developed standard connections for desk tops, floor and desks. The table connections are screw-fixed directly to the underside of the desk top. The weight of the free-standing floor connection provides increased stability and is primarily designed for a clean connection to the floor. The alternative is a round or flat desk frame connection which is suitable for height-adjustable desks. It can be fixed with magnets as a standard or optionally with screws, cable ties or adhesive tape. For all connections, users can choose between the colors black, white and silver-gray. The components are also available as a set.

The PROTUM Office cable carriers are especially designed for use in office environments. The generous inner width of 50 mm and the option for double filling provide sufficient space for cables in office environments, i.e. for telecommunication, energy and data cables. The cable carriers consist of a flexible strip and the side parts of the cable routing are simply clipped onto this. The elements can be extended at any time by connecting more strips and clipping on more

TSUBAKI KABELSCHLEPP has added new desk top, floor and frame connections to its PROTUM Office P0240GS desk cable carrier system. This makes it a complete system allowing particularly fast and easy mounting on office furniture. And it looks great, too: PROTUM Office recently won the iF DESIGN AWARD 2015.

The weight of the free-standing floor connection provides increased stability and is primarily designed for a clean connection to the floor.

NEW CONNECTION COMPONENTS FOR THE PROVEN DESK CABLE CARRIER SYSTEM

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side parts. Shortening can be achieved by simply cutting the strip. The cables are simply pressed into the clips, making it easy to change cables at any time.

The side parts and the strips for the cable carriers are optionally available in white, black or an elegant silver-gray. The colors can be combined to suit customer preferences. This means that PROTUM Office offers award-winning design in addition to convincing functionality.

www.kabelschlepp.de

Desk frame connections with magnets for fast and easy mounting.

The PROTUM Office P0240GS desk cable carrier system recently won the iF DESIGN AWARD 2015 and now TSUBAKI KABELSCHLEPP has added new desk top, floor and frame connections to the range.

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environments typically found in the industry. To overcome the high levels of moisture and cleaning chemicals found in a brewery environment, they designed and constructed four custom-made cabinets to safeguard the working of the 501 series valve islands, a complete and compact solution for Crown-Baele. The cabinets were also devised to minimise the machine’s footprint.

Bart Monserez, Electro-Mechanical Engineer and Account Manager for ASCO Numatics, said: “Just like Crown-Baele, we take pride in providing the highest quality products and exceptional levels of services to our customers. Creating a compact solution with the innovative G3 subbus electronics and the new cabinet mount adapter plate helped us go the extra mile Crown-Baele needed. We managed to fit 128 400 litre/min valves into a 500x500 cabinet space, not something many can do.”

Senior project and automation manager at Crown-Beale, Philip Vorsselmans said: “We chose Emerson for their expert design and customisation along with their ability to go above and beyond our needs. Using modular valves was a particular benefit, as we can now easily carry out maintenance on the machine later on, expanding its lifespan and maximising our customer’s investment.”

For more information about ASCO Numatics, please visit www.asconumatics.eu.

Using innovative ASCO Numatics valve solutions and customised cabinets to work together with an existing control system (Profinet), they created

a compact solution for efficient and accurate control of bottling during beer manufacturing, while also ensuring easy maintenance of the system to increase its lifespan.

When designing the new bottle filling machine for the Gouden Carolus brewery in Mechelen in Belgium, manufacturers Crown Baele needed a reliable and robust valve and control system solution which could primarily manage bottle filling, but was also capable of controlling the amount of foam and carbon dioxide during the bottle filling. After close consultation, Emerson recommended its ASCO Numatics 501 series valve islands with G3 electronics to control the machine’s self-developed filling cylinder, meeting the high levels of production required.

Due to an innovative clip design, plus the modular and easy to use G3 electronics, ASCO Numatics valve islands can be easily diagnosed and disassembled, ensuring that parts can be easily replaced over time to significantly increase the reliability and lifespan of the machine. This supports Crowne Baele’s desire to provide its customers with the possibility of maximising their investment, which is a key part of their service.

An additional challenge for Emerson was creating a solution which worked well in the damp and aggressive

Leading industrial automation specialist, Emerson provided Belgium-based Crown-Baele with a bespoke valve and control system for its custom-made bottle filling machine.

EMERSON PROVIDES CUSTOMISED VALVE SOLUTIONS TO CROWN-BAELE

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Sample parts were made within a short lead-time by the NSK factory at Munderkingen, Germany. The angular ball bearing deployed in the unit offers a larger contact angle of 35° to better accommodate high axial forces, while a special shaft gasket with a vent hole also features. An O-ring is utilised to seal the corrosion-proof housing from external contaminants.

With the sample flanged bearing units complete, tests were completed, the success of which prompted the gearbox manufacturer to order 4,000 flanged bearing units from NSK on annual basis.

As a result of the NSK’s Added Value Programme (AIP), together with the inclusion of the customised bearing, the customer is now highly satisfied with the gearbox performance and has made an annual saving of €40,000 from the production process.

www.nskeurope.com

Offered as part of the company’s Added Value Programme (AIP), a team of NSK experts for vehicle gearboxes scrutinised the application in

detail. The team arrived at the conclusion that the cause of the premature failures emanated from the assembly of numerous bearing parts made by different manufacturers. As a consequence, the assembly process was complex, with even small inaccuracies and misalignments ultimately contributing to problems.

Involving the customer at every stage of the AIP process, the team recommended the adoption of ready-to-install flanged bearing units. NSK both designs and produces these customised units for several manufacturers of mobile production machinery in market sectors such as agriculture, construction and material handling equipment, and it was deemed the perfect solution to the issue of roller bearing failures at the gearbox plant.

NSK’s customised flanged bearing units are sealed and pre-configured units that comprise the bearing, enclosure and mounting parts. As they are supplied ready for use, assembly errors no longer occur.

NSK SOLUTION SAVES €40,000 AT AUTOMOTIVE SUPPLIER

When a global manufacturer of bus gearboxes was unexpectedly faced with having to replace roller bearings in a series of helical transmission gears due to failures within the warranty period, NSK was invited to assess the cause of failure and suggest a solution.

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The manufacturer NORD DRIVESYSTEMS has decades of experience in the industry and, drawing on a complete range of mechanical, electric, and electronic

drive components, can swiftly provide suitable systems for any of the various applications in a grain mill, for instance fans and bucket elevators.

Based in Wallern in Austria, Arnreiter Mühle processes grain, malt, and oilseeds mostly for the baking and food industry. The family-owned mill has a history of nearly 200 years. Since the early 20th century, it has been continuously modernized and expanded. 2009 saw the most recent exhaustive modernization. A high-capacity mill with separate, state-of-the-art grinding technology and refining facilities was erected. The new building accommodates a wide range of processes that are carried out with a high degree of automation. Grist shape and characteristics are modified by means of steaming, flaking, crushing, grinding, extruding, roasting, cooling, drying, and husking. Thereby, shelf life,

digestibility, and baking properties are improved and bitter constituents are reduced.

Parallel and integrated processes The Arnreiter mill has a 1,400 kW connected load. Up to 80 tons of grain can be ground daily. In addition, the refining facilities have a capacity of up to 20 tons per day. All processes, from raw produce storage to bagging and loading, are automated. There is control level access to all applications via Profibus. “We need highly flexible facilities,” says Walter Arnreiter, managing director of the mill. “First of all, they must enable variable and parallel processes with separate product flows and additives that can be released from one source into different lines. And we must also ensure product flow with minimal residues.” The main raw materials are temporarily stored in silos located in the upper stories. Geared motors from NORD DRIVESYSTEMS drive the belt and bucket elevators that transport the materials from there. Consecutively, the major part of all product

Gone are the days when mills depended on a strong stream of water or steady wind to power their wheels. In today’s mills, electric drives carry out various tasks, ensuring efficient and reliable performance. A special challenge lies in the fact that grinding is bound to create dust atmospheres that call for safe, explosion-proof drive configurations.

Arnreiter products: rye/maize flour and rye/maize extrudates.

DRIVE SYSTEMS PROVIDE CONVEYING POWER IN GRAIN MILL

Managing director Walter Arnreiter greatly values ecologically sound business practices.

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transport takes place in the extensive pipe system that has a total length of 2,500 meters. Free-flowing and non-flowing products are volumetrically dispensed by means of a great number of rotary dischargers, all of which need reliable geared motors. “NORD systems carry out many different tasks in our machines,” says Arnreiter.

Explosion protection is prerequisite Mill operators must implement a proven, absolutely reliable explosion protection regime since the dust atmospheres prevalent in many areas pose a high risk. NORD DRIVESYSTEMS can supply explosion-proof versions of all drive components, geared motors as well as mechatronic units and cabinet inverters. More than 1,500 explosion-protected drive systems leave NORD production facilities every month. This includes dust explosion protected systems for zone 21 (device category 2D/zone 21) as well as gas atmosphere systems for zone 1 (device category 2G/zone 1 and 2, and 3G/zone 2). Arnreiter employs category 3D drives in zone 22.

Clean application The machines used in the Arnreiter mill are mostly systems made by Swiss process engineering specialist Bühler who has been working with NORD for many years and who installs NORD drives in a great number of machines. Separators and aspirators from Bühler are used to clean and classify granular products such as wheat, rye, barley, oat and maize. Air-recycling aspirators remove dust and husks etc. A radial fan creates an air current to lift the medium and blow the low-density particles into a special separator from where they are discharged by a screw conveyor driven by a NORD helical geared motor. The clean heavy product is discharged from the machine through finger valves.

Micro proportioning unit: NORD drives ensure that the precise amount of specific ingredients are added to the product stream.

A great number of explosion-proof NORDBLOC.1 helical geared motors drive rotary dischargers, for instance after the scale that tallies the grinding yield.

Geared motors drive the belt and bucket elevators that are used to transport raw materials from the silos.

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Sustainable management “Food safety, product quality, and ecological as well as economical sustainability are all crucial and equally important for us,” says managing director Walter Arnreiter. “All processing steps are subject to strict controls and are continuously being documented. We buy most of the raw materials from regional producers or suppliers and process them in a resource-conserving fashion. Part of the energy for our production facilities is generated in our own water mill. We furthermore recycle a lot of the waste heat by means of a rotation heat exchanger and reuse it for heating. Since we carry out various processes in-house, further processing elsewhere is hardly ever necessary, which helps reduce road transportation.” Production is compliant with food and ecological standards. Ingredient traceability according to HACCP is ensured for all batches. “All raw material shipments are strictly quality-controlled,” Arnreiter says. Naturally, the technology partners are expected to demonstrate a similar commitment to sustainability. “We rely on low-maintenance drives from NORD which we employ in continuous operation mode. They perform reliably. If we eventually do need to repair or replace a product, we can simply call our NORD contacts directly, and they will promptly get the job done,’ says Martin Rachbauer, maintenance manager at Arnreiter.

www.nord.com

The pipe system has a total length of 2,500 meters.

Additional rotary dischargers are employed in the flour silo, e.g. after weighing.

Automatic separation: A NORD helical geared motor drives the screw conveyor that removes low-density particles.

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The CTX 300 is a 4-20 mA analog detector designed for industrial applications in areas without explosion hazard classifications. The detector can connect to

more than 30 different factory pre-calibrated sensors to prevent exposure to highly toxic and/or corrosive gases.

Designed to detect toxic gases, oxygen and refrigerant gases, the CTX 300 uses a new sensor for CO2 detection over three different ranges: 0-5000 ppm, 0-5% vol. and 0-100% vol.

The output signal is now open-path over the three measurement ranges, without the need for a supplementary processing card. A version with a display is also available, and accessories for the standard CTX 300 are compatible with the CTX 300 CO2.

For versions without displays, the operating temperature range is from -40°C to +50°C, allowing for new applications in extreme cold areas.

For more information, please see the pages for the CTX 300 on our website www.oldhamgas.com

Oldham is pleased to announce the launch of the new CTX 300 CO2 detector.

NEW CO2 DETECTOR

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As the unique source of hoisting resource supplies, VERLINDE is able to ensure total coherency and compatibility of equipment you choose to operate.

Most models are also available as EX ATEX compliant.

The very tough but light materials, combined with the facility of running the equipment, simplifies maintenance of the Offshore range and also reduces the number of operators required for servicing. Made up of non-corrosive materials, most models' protection is enhanced by additional powder coatings (epoxy, polyester or epoxy-polyester) specific to maritime environments or an aluminium oxide ceramic coating or a combination of both. Much of the equipment is also available as EX ATEX compliant.

The manual hoists, of compact design, are designed for vertical handling manoeuvres with no horizontal travel. Models ZHR (500 to 20,000 kg) and ZHV (500 to 50,000 kg) are scaled down in size and weight. Ideal for construction, assembly and maintenance applications. An EX version of them is available with ATEX certification and also a 100% stainless steel version.

As for hoists combined with travelling trolleys, they are designed for the vertical and horizontal handling of loads. The very compact short headroom design for the combined hoist and trolley unit enables lifting height optimisation in confined spaces.

They have a 50 µm epoxy powder coating applied as standard, their hoisting chain is in grade 80 alloy steel with a black oxide corrosion resistant finish, while the hand chain is galvanized.

The travel trolleys (500 to 100,000 kg) can be associated with the electric and manual hoists to provide horizontal travel in addition to vertical travel for the manoeuvring of loads. They have a 50 µm epoxy powder coating applied as standard and an aluminium oxide ceramic surface treatment as optional. The treatment consists of applying a fine layer (roughly 3 µm) on components in order to increase surface hardness by some 30GPa (tolerated pressure of 3 metric tons per mm2). In addition to reducing friction between parts to increase their life span, it reduces oxidation and corrosion and ensures electrical insulation. These trolleys are also available with a travel jamming system activated by the hand wheel, a highly practical and safety assurance solution

VERLINDE's Offshore lifting equipment range is designed to be used in maritime areas, on oil rigs, cargo vessels or wind farms. The range includes all types of lifting equipment together with their components: jib cranes, electric chain or wire rope hoists, winches, overhead crane components, etc...

OFFSHORE RANGE

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to prevent any unsolicited travel of the hoist/trolley unit or of the load in the event of any pitching or rolling motion for vessel-borne installations.

Travel jamming system activated by the hand wheelFor vertical travel handling, with or without horizontal travel, electric hoists are the most appropriate. The powered mechanism enables more significant loads to be lifted (up to 80,000 kg). A flame proof version of the electric hoist (EUROCHAIN EX) for loads from 125 to 10,000 kg is available. Protection rating as standard is Zone 1, EEx de IIB T4 in compliance with EN/DIN. A flame proof version of the electric wire rope hoist (EUROBLOC VT) is also available. It is rated Ex II 3G c IIB T3 for use in Zone 2.

Electric wire rope hoist and jib crane for offshore heliport applicationsAs for EUROSTYLE jib cranes, they are typically used in conjunction with lifting/travel systems. These framing systems enable loads to be shifted during rotation along runways.

www.verlinde.com

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“Suzhou City is one of the most famous tourism cities in China,” said Gary Zhang Zhen Hua, ProSoft Technology China Sales & Technical manager.

But while the area is likely one of the more picturesque in the world, thanks to its gardens and canals, it is also highly populated with more than 10 million people and is largely industrial. Like many cities in China, automobile congestion is a problem. The city needed to install its first subway system to help alleviate its traffic congestion.

After more than four years of construction, the Suzhou Metro Line I opened in April 2012. It encompasses 24 stations that connect the east side of the city to the west side over about 16 miles. The line extends from the Mudu station in the eastern portion of the city to Zhongnan Jie station in the west, near Suzhou Industrial Park. Metro Line I is the start of a larger subway system in Suzhou. Later this decade, the city will construct Metro Line II, which travels north and south.

“The Metro Line I is the first Metro Line in Suzhou, which goes from west to east, and connects two economic development zones and the downtown,” Gary Zhang Zhen Hua said.

More than 150 ProSoft Technology Modbus to ‘C’ Programmable communication modules were installed in the Metro Line’s Building Automation System, which plays a vital role in the underground tunnels and stations that make up the subway.

The modules allow Rockwell Automation ControlLogix and FLEX I/O systems to communicate and gather data from ventilation systems, air conditioners, as well as monitor the overall environment inside the subway system.Most people think of a train speeding down an underground tunnel when they think of a subway. A Building Automation System is likely the last thing that comes to mind, but without this critical piece, a subway would not be able to operate.

Picturesque gardens dot the city of Suzhou, in eastern China’s Jiangsu province. Some of these gardens, known as the Classical Gardens of Suzhou, date back as far as the 11th century, and were designed by some of China’s renowned scholars. Nearby, numerous canals crisscross the city that is known as the Venice of the East. Forty-two percent of the city is covered in water through its canals and waterways.

FIRST METRO LINE IN SUZHOU ROLLS ON, THANKS IN PART TO PROSOFT TECHNOLOGY’S MODULES

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“The ProSoft Technology solution is a good one,” said Jianshui Gan, the Building Automation System engineer working on the Suzhou Metro Line I. “We chose ProSoft Technology’s product because they are the communication adapter between field devices and the ControlLogix controller.”

More than 200,000 people per day, tourists and Suzhou residents alike, now use the Metro Line to get from one end of the city to the other and avoid automobile congestion.

The train rolls on – in part thanks to ProSoft Technology’s modules.

For more information and success stories visit our websitewww.psft.com/AzA

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EUROCHAIN VR25 hoistEUROCHAIN VR is designed to ensure maximum user safety. The standard version is fitted with a new hoist load wheel concept with intermediate teeth for the drive chain, 2 lifting speeds, a Start/Stop palm button on the control box, a torque limiter, a hoist disc brake, a very low voltage control system (48V), a variable speed travel motor, an electric safety limit switch for high and low positions, and it complies with the EC machinery directive.

EUROCHAIN VR16 and EUROCHAIN VR25, latest additions to the range, are high power models. VR16 is designed for handling loads of from 1250 to 3200 kg. 7 x 20 mm or 9 x 27 mm chains are available with 1 or 2 falls and a 12 m or 20 m chain collector. As for the VR25, its lifting capacity ranges from 1600 kg to 5000 kg. 9 x 27 mm or 11.3 x 31 mm chains are available with 1 or 2 falls and a choice between a 12 m or 30 m chain collector.

EUROCHAIN VR boosts productivity. All models offer a wide range of speeds, 25% faster than that of the previous generation. Furthermore, the standard version of the hoist motor is two-speed providing more flexible operability. EUROCHAIN VR's lifting capacity is up to 2.5 tonnes on one fall (with a 2m classification of mechanism [FEM]) providing the ability to increase lifting heights while reducing chain collector dimensions thus increasing the lifting unit’s compactness.

Lubricated for life to reduce maintenance, the EUROCHAIN VR hoist gear reducer was designed for very long operating periods of up to 3200 hours. High precision machining on the gear trains, moreover, ensures a very low noise pollution level when running. The clutch system is easy of access for occasional maintenance operations and its location in the gear box ensures the load is securely held by the brake whatever the operating conditions of the equipment.

VERLINDE’s new range of electric chain hoists, EUROCHAIN VR, has been widened with VR16 and VR25 to cater for loads for up to 5000kg. With its new, entirely ergonomic design, EUROCHAIN VR offers numerous innovations ensuring best safety and productivity levels while facilitating maintenance.

EUROCHAIN VR16 AND VR25

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EUROCHAIN VR16 hoistNumerous options are available on EUROCHAIN VR16 and EUROCHAIN VR25: gear limit switch, second brake on the hoist motor mounted with a lug replacing the top hook, automatic closing of lifting hook, travel limit switch, short headroom trolley, curved track trolley, 2-speed travel trolley (20 & 5 m/min), etc.These two new models will soon be available equipped with EUROCHAIN VARIO variable speed control lifting, fitted as standard with ESR (Extended Speed Range). This option allowing a reduction of cycle time (faster return speed for empty returns) enables it to be graded in a lower classification of mechanism (FEM).This recent feature allows lift speed and motor torque to be dissociated: speed - for the reduction of cycle time to enhance hoist station productivity when running empty, and motor torque - for lifting when loaded to ensure precision travel with a maximum power margin.

For more information, visit www.verlinde.com