RU2081364C1 - Electromagnetic valve - Google Patents

Abstract

FIELD: manufacture of fittings. SUBSTANCE: valve has body where shut-off member is suspended forming control chamber together with body. Control chamber is brought in communication with inlet branch pipe through passage and with outlet branch pipe through control valve fitted with electromagnetic actuator. In control chamber rod is located whose one end is engageable with shut-off member. Other end of rod is kinematically linked with auxiliary electric motor. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to the field of valve engineering, in particular to shut-off devices with an electromagnetic drive.

Known solenoid valves are discrete devices and are designed to open or close or hydraulic lines [1]
The closest technical solution is an electromagnetic valve, in the case of which a shut-off element suspended on the membrane is installed, while the control cavity is connected by a channel to the inlet pipe, and through the control valve to the outlet pipe [2]
The disadvantage of this type of valves is that they cannot be used as control valves, i.e. they cannot smoothly change the flow area to control the flow of the working medium.

 The objective of the invention is to provide changes in the bore of the electromagnetic valve according to a given law.

 The technical result is achieved by the fact that the solenoid valve, in the case of which a shut-off element is suspended on the membrane, forms a control cavity with the body, connected by a channel with an inlet pipe, and through a control valve with an electromagnetic actuator with an output pipe, is equipped with an auxiliary electric motor and a rod located in the control cavities with the possibility of interaction at one end with a locking organ, and the other kinematically connected with an auxiliary electric motor.

 The drawing shows a structural diagram of the valve.

 The electromagnetic valve comprises a housing 1 with an inlet 2 and an outlet 3 nozzles, the seat 4 of which is blocked by a locking member 5 suspended on a membrane 6 and pressed against the saddle by a spring 7.

 In the control supranembrane cavity B there is a rod 8, which, with its one end 9, contacts the locking member 5, and its second end 10 is connected through an reducer 11 to the auxiliary electric motor 12. The suprasembrane cavity B is connected to the output cavity B through the control electrovalve 13, and to the input cavity A through the pipeline 14.

 In the initial position, the locking member 5 is pressed against the seat 4 by the pressure of the working medium and the force of the spring 7.

 To open the valve, an electrical signal is supplied to the control solenoid valve 13, at the opening of which the working medium from cavity B is discharged into cavity B. Under the action of a differential pressure on the membrane 6, the shut-off member moves away from the seat 4 and abuts against the end 9 of the rod 8. Simultaneously, the auxiliary power is supplied an electric motor 12, which through the gearbox 11 raises the rod 8 and thereby limits the speed of movement of the rod 8.

 When removing power from the electrovalve 13, the cavities B and C are disconnected, and under the influence of the spring 7, the locking member 5 sits on the saddle.

 Thus, given the law of movement of the rod 8, it is possible to provide any law for opening the passage section of the shut-off element.

Claims (1)

 An electromagnetic valve, in the case of which a shut-off element is mounted on the membrane, forming a control cavity with the case, connected by a channel with an inlet pipe, and through a control valve with an electromagnetic actuator with an outlet pipe, characterized in that the valve is equipped with an auxiliary electric motor and a rod located in the control cavities with the possibility of interaction at one end with a locking organ, and the other kinematically connected with an auxiliary electric motor.