SHZH-R High Temperature Melt Pressure Sensor Introduction: Melt pressure sensors are mainly used for pressure measurement and control of molten materials under high temperature conditions. Melt pressure sensors are used for pressure measurement and control of high-temperature fluid media in equipment such as chemical fiber plastics, spinning, polyester, rubber and plastic machinery. working principle: The working principle of a melt pressure sensor is that the pressure of the medium directly acts on the diaphragm of the sensor, causing the diaphragm to produce a micro displacement proportional to the pressure of the medium, resulting in a change in the resistance of the sensor. This change is detected by electronic circuits and converted into a standard signal corresponding to this pressure. Product application: High temperature melt pressure sensors are used for pressure measurement and control of high-temperature fluid media in equipment such as chemical fiber spinning, polyester, and rubber machinery. Diaphragm structure and adjustable zero point fullness. Used for pressure measurement of high-temperature melt, fluid, and gas media in equipment such as chemical fiber spinning, polyester rubber, plastic rubber, extrusion machinery, non-woven fabrics, and building packaging materials. Technical parameters: Range: 0-3.5MPa to 250MPa Comprehensive accuracy: ±1.0/0.5%FS Output signal: 2.0mV/V,3.0mV/V,3.33mV/V Power supply voltage: 10V (6~12V) DC Diaphragm temperature resistance: 300/400 ℃ Electrical connection: Five/Six core connectors Process connection: 1/2-20NEF; M14×1.5 ; M18×1.5; M22×1.5;
Introduction: Melt pressure sensors are mainly used for pressure measurement and control of molten materials under high temperature conditions. Melt pressure sensors are used for pressure measurement and control of high-temperature fluid media in equipment such as chemical fiber plastics, spinning, polyester, rubber and plastic machinery. working principle: The working principle of a melt pressure sensor is that the pressure of the medium directly acts on the diaphragm of the sensor, causing the diaphragm to produce a micro displacement proportional to the pressure of the medium, resulting in a change in the resistance of the sensor. This change is detected by electronic circuits and converted into a standard signal corresponding to this pressure.
