s14c1 chapter 1-pictures of instruments, land mark boards and accessories used in this project
TRANSCRIPT
Contents of section 14: Instruments.Chapter 1-Pictures of Instruments, land mark boards and accessories used in this project.1.1-Pictures of some of the Instruments used in RCS – CRS – CRTS – MV – MN.-Picture 1: MPSDR.-Picture 2: MPSDR Track.-Picture 3: MPSDR Track cross section:-Picture 4: The supporting devises of MPSDR.-Picture 5: Inverted U stand of MPSDR;-Picture 6: Ground survey meter.-Picture 7: Axis meter sensor plate;-Picture 8: Magnet mounted over the Axis meter sensor plate.-Picture 9: Change of direction of the magnet as the carrying vehicles changes its direction of movement (Axis).-Picture 10: Touch sensor type Axis meter.-Picture 11: Air sensor type Axis meter.-Picture 12: Infra red ray sensor type Axis meter.-Picture 13: Axis meter, Speedometer, Converter, CPU, Monitor assembly.-Picture 14: Axis meter memory graph.-Picture 15: Axis meter memory graph utilization.-Picture 16: Plain river survey level meter.-Picture 17: The components of the hill side boat level meter.-Picture 18: Tank fluid measurer with marker floating object.-Picture 19: Tape tubes.-Picture 20: The components of the sea side boat level meter.-Picture 21: Pre filled fluid technique for Plain river survey level meter.-Picture 22: Rapid survey level meter.-Picture 23: Sailor of the Rapid survey level meter.-Picture 24: Land survey level meter - hill side and sea side level meter fluid column placed together.-Picture 25: Land survey level meter - Sea side level meter fluid column moved 1 kilometre towards the sea side from the hill side fluid column.-Picture 26: Land survey level meter - Sea side level meter fluid column moved 2 kilometres towards the sea side from the hill side fluid column.-Picture 27: Flow meter.-Picture 28: River scanning.-Picture 29: Level measurer in the river.-Picture 30: Fall’s height measuring instrument.
-Picture 31: Aerial tube system of fall’s height measuring instrument.-Picture 32: The front portion of the aerial tube system.-Picture 33: Internal organization of the Aerial tube system.-Picture 34: Falls height measuring tape:-Picture 35: Camera case.-Picture 36: Land tube with Level Measuring Pipes.-Picture 37: Graphical presentation of the digital data of the river X.
Views to make this ‘World’ developed and this ‘Earth’ as the lovely place for every ‘Human’.
SECTION 14INSTRUMENTS
Few things for our work, to make it easy, accurate and quick;
Section 14: Instruments.
Chapter 1: Pictures of Instruments, land mark boards and accessories used in this project.
1.1: Pictures of some of the Instruments used in RCS – CRS – CRTS – MV – MN.
Picture 1: MPSDR.
Picture 2: MPSDR Track.
Picture 3: MPSDR Track cross section:
Picture 4: The supporting devises of MPSDR.
Picture 5: Inverted U stand of MPSDR;
Picture 6: Ground survey meter.
Picture 7: Axis meter sensor plate;
Picture 8: Magnet mounted over the Axis meter sensor plate.
Picture 9: Change of direction of the magnet as the carrying vehicles changes its direction of movement
(Axis).
Picture 10: Touch sensor type Axis meter.
Picture 11: Air sensor type Axis meter.
Picture 12: Infra red ray sensor type Axis meter.
Picture 13: Axis meter, Speedometer, Converter, CPU, Monitor assembly.
Picture 14: Axis meter memory graph .
Picture 15: Axis meter memory graph utilization.
Picture 16: Plain river survey level meter .
Picture 17: The components of the hill side boat level meter.
Picture 18: Tank fluid measurer with marker floating object .
Picture 19: Tape tubes .
Picture 20: The components of the sea side boat level meter.
Picture 21: Pre filled fluid technique for Plain river survey level meter.
Picture 22: Rapid survey level meter.
Picture 23: Sailor of the Rapid survey level meter.
Picture 24: Land survey level meter - hill side and sea side level meter fluid column placed together.
Picture 25: Land survey level meter - Sea side level meter fluid column moved 1 kilometre towards the sea side from the hill side fluid column.
Picture 26: Land survey level meter - Sea side level meter fluid column moved 2 kilometres towards the sea side from the hill side fluid column.
Picture 27: Flow meter.
Picture 28: River scanning.
Picture 29: Level measurer in the river.
Picture 30: Fall’s height measuring instrument.
Picture 31: Aerial tube system of fall’s height measuring instrument.
Picture 32: The front portion of the aerial tube system.
Picture 33: Internal organization of the Aerial tube system.
Picture 34: Falls height measuring tape:
Picture 35: Camera case.
Picture 36: Land tube with Level Measuring Pipes.
Picture 37: Graphical presentation of the digital data of the river X.