This 63mm stainless steel pressure gauge is designed for industrial pressure measurement up to 10 bar. It is manufactured in accordance with EN 837-1 standard and built with a bourdon tube sensing element for mechanical pressure indication.
The gauge features a bayonet ring case structure and silicone oil filling, providing excellent vibration resistance and stable pointer reading in dynamic operating conditions such as pumps, compressors, and hydraulic systems.
With CL1.6 accuracy and full stainless steel construction, it is suitable for demanding industrial environments requiring durability and reliability.
| Parameter | Specification |
|---|---|
| Dial Size | 63 mm |
| Pressure Range | 0–10 bar |
| Accuracy | CL 1.6 |
| Standard | EN 837-1 |
| Case Material | SS304 Stainless Steel |
| Wetted Parts | SUS316 (optional / typical industrial grade) |
| Connection | 1/2 PT / BSP / NPT optional |
| Mounting Type | Radial (bottom connection) |
| Ring Type | Bayonet ring |
| Filling Liquid | Silicone oil / glycerin |
| Measuring Element | Bourdon tube |
| Protection | IP65 (typical) |
| Medium | Gas, liquid, non-corrosive fluids |
Improves sealing performance and allows safer internal pressure release in extreme conditions.
::contentReference[oaicite:0]{index=0} Reduces pointer fluctuation caused by pulsation and vibration in pump and hydraulic systems.
Provides reliable measurement performance for general industrial applications.
Ensures global industrial compatibility and measurement reliability.
Corrosion-resistant body suitable for harsh industrial environments.
The bourdon tube deforms when pressure is applied. This mechanical motion is transmitted through a linkage system to rotate the pointer and display pressure values on the dial.
Silicone oil filling dampens vibration and stabilizes pointer movement under pulsating pressure conditions.
CL1.6 means ±1.6% full-scale accuracy for industrial pressure measurement.
It improves case sealing and structural safety in industrial environments.
It is used to reduce vibration and improve reading stability in pumps and hydraulic systems.
It is widely used in HVAC, hydraulic, chemical, and industrial process systems.