Description
The parts of stainless steel shock resistant pressure gauge yb-100fz are made of corrosion-resistant stainless steel and corrosion-resistant alloy materials, so that the stainless steel pressure gauge has good corrosion resistance. It is used in petroleum, chemical, mining, machinery, electric power and food industries. Direct measurement of non crystalline, corrosive gas, liquid pressure.
Type |
Scale range MPa (Hg~PSi) |
Accuracy |
YB-60F |
0 ≤ 0.6, 1, 1.6, 2.5, 4, 6, |
2.5 |
YB-100F |
0 ≤ 0.1, 0.16, 0.25, 0.4, 0.6, 1, 1.6 |
1.6 |
The stainless steel pressure gauge is composed of a pressure guide system (including joint, spring tube, current limiting screw, etc.), a gear transmission mechanism, a number indicator device (pointer and dial) and a case (including case, cover, glass, etc.). The enclosure is air-tight structure, which can effectively protect the internal parts from environmental influence and pollution intrusion. For the instrument filled with liquid (usually silicone oil or glycerin) in the case, it can resist the vibration of the working environment and reduce the influence of the pulsation of medium pressure.
Note: The scale range and precision grade in brackets are for special order only.
Accuracy grade: ±1.6%; Plus or minus 2.5%.
Case diameter: 60mm; 100 mm; 150 mm.
Case material: 304 stainless steel, 316 stainless steel.
Case form: Containment construction, clapboard device after release
Material of elastic element and joint body: 304; Argon arc welding of elastic element to joint body.
Movement material: 304 stainless steel, 316 stainless steel.
Joint thread: M14×1.5; G1/4; M20 x 1.5; 1/2 NPT, etc.
Measuring range: -0.1~0 MPa or,0.1~60 MPa
Pointer: Normal
Table glass: plexiglass
Shock resistant filling material glycerin 98% (silicone oil, fluorine oil or other categories can be selected)
Ambient temperature:
1) -25~70℃(liquid filled inside the shell)
2) -40~70℃(no liquid filling in the shell)
Temperature influence: not more than 0.4%/10℃(use temperature deviation from 20±5℃)
Anti-vibration of working environment: V·H·4 (liquid filled inside the shell)V·H·3 (liquid not filled inside the shell)