TH78376A - Electromagnetic fluid control valve - Google Patents

Abstract

DC60 electromagnetic fluid control valve according to this invention will include parts of A solenoid positioned inside the valve body. Part of the electromagnetic coil creates an attraction Of electromagnetic The valve part has a valve head that is placed in contact with and is separated from the established seat. Up on the surface of the inner wall of the valve body. And the way to measure the position of the valve head is between the body Valves and valve sections The valve head position sensing path measures the position of the valve head where The valve head trajectory includes a positioning coil for generating magnetic flux. The shielded body is placed so that it faces the position sensor. Which the body that is shielded will be shielded against the flux The magnet and the motion are relative to the measuring coil, the dependent position during the movement of the valve head. And the signal processing circuit part to obtain the output voltage of the sensor Which comes from the impedance in The measuring coil position changes with the change in the area of the overlap between the coils. Measure the position and the body shielding the movement relative to each other. Electromagnetic fluid control valve according to this invention will include a section of A solenoid positioned inside the valve body. Part of the electromagnetic coil creates an attraction Of electromagnetic The valve part has a valve head that is placed in contact with and is separated from the established seat. Up on the surface of the inner wall of the valve body. And the way to measure the position of the valve head is between the body Valves and valve sections The valve head position sensing path measures the position of the valve head where The valve head trajectory includes a positioning coil for generating magnetic flux. The shielded body is placed so that it faces the position sensor. Which the body shielded to be shielded against the flux The magnet and the motion are relative to the measuring coil, the dependent position during the movement of the valve head. And the signal processing circuit part to obtain the output voltage of the sensor Which comes from the impedance in The measuring coil position changes with changes in the area of the overlap between the coils. Measure the position and the body shielding the movement relative to each other.

Claims (3)

1. The electromagnetic fluid control valve consists of: a part of a solenoid positioned inside a pipe system through which the fluid flows. The part of the electromagnetic coil creates an electromagnetic attraction; The valve part with the valve head positioned together with the said solenoid section. The valve head is placed, in contact with and separated from the shoulder by the force of the electromagnetic force, the shoulder is created on the inner wall surface of the pipe system; And a way to measure the position of the valve head is placed between the said pipe system and the Such valve The valve position sensing path measures the position of the head where: the valve head position sensing path consists of Position sensing coils for generating magnetic flux; The shielded body is placed to face the locating coils, where the shielded body shields the magnetic flux and moves relative to the location coils. The said valve head is dependent on the movement of the said valve head; And the signal processing part to obtain the output voltage of the sensor, which is derived from the impedance in the aforementioned coils that change with the change in the area of Overlap between the aforementioned measuring coils and the shielded body in conjunction with the motion Relative to such; And that position of the said valve head is measured by the value of the output pressure of the Such sensors 2. Electromagnetic fluid control valve according to claim 1, where: an annular part with such a locating wire placed on the wall surface and The shielded body will be positioned to form the axis of the pipe system; The first part is selected from the ring-shaped part and the sealed body will Located on the said section of the valve; And the remainder were selected from the aforementioned ring-shaped parts and the body where the seechild resides. 3. The electromagnetic fluid control valve according to claim 2, where: the bellows are connected to the counter current and the direction of the valve head. Thereof and has a volumetric compartment This removes the pressure difference between the valve head and the The part of the solenoid is discarded; And the aforementioned ring-shaped parts and a shielded body will be placed outside the machine. 4. Electromagnetic fluid control valve in accordance with Clause 1 to Clause 3, where: the piping will be made of austenite stainless steel or with Mostly copper or mostly aluminum 5. Electromagnetic fluid control valve in accordance with Clause 1 to Clause 4, where: the position sensing coils are assembled with all part of the coil ( 2N + 2), where N is a natural number arranged along the circumference and arranged to face each other. In such a way that electric current flows in reverse direction together on multiple pairs of coils. 6. Electromagnetic fluid control valve according to claims 1 to 5, one of which: The position is made up by a multi-layered structural coil section 7. Electromagnetic fluid control valve according to Clause 5 or Clause 6 where: the distance between the conductors comprising the coil portion as Will not be The same pattern in the direction of such motion of the said valve head. 8. Electromagnetic fluid control valve in accordance with Clause 6 or Clause 7, where: The winding pattern is created by winding the conductor at Assemble part of Such coil This differs from class to class 9. Electromagnetic flow control valve according to Clause 1 to 8, one of which: The Sealed body is a hollow annular element 1 0. Electromagnetic fluid control valve in accordance with Claims 1 to 8, where: the shielded body is assembled into a single piece of the said valve head 1. 1. Electromagnetic fluid control valve in accordance with either Clause 1 to Clause 8 or Clause 10, where: the shielded body is formed where the area changes in the direction of movement. Such Of the said valve head 1 2. Electromagnetic fluid control valve in accordance with Claims 1 to 11, where: the distance between the said annular part and the shielded body will Change in the direction of such motion of the aforementioned valve head 1 3. Electromagnetic fluid control valve according to one of Claims 1 to 12, where: the fluid is air; And such a pipe system is an air intake pipe for bringing that air to the engine.