RU2130145C1 - Electromagnetic valve - Google Patents

Abstract

FIELD: power engineering; chemical, gas and food-processing industries. SUBSTANCE: valve has body with inlet and outlet branch pipes and seat by shut-off member. Valve is also provided with control shut-off member with drive. Shut-off member is connected (by working medium) with control shut-off member and with outlet branch pipe. Fitted in line connecting the shut-off member with control shut-off member is intermediate shut-off member with its own seat and drive. Inlet branch pipe is connected (by working medium) directly with control shut-off member. Seat of intermediate shut-off member is fitted in line connecting the shut-off member with outlet branch pipe. EFFECT: reduced power requirements for electric drive of control shut-off member. 4 cl, 1 dwg

Description

 The invention relates to mechanical engineering, more specifically to electromagnetic valves installed on various highways, pipelines and others, and even more narrowly, to valves having a controllable shutoff member.

 The invention can find application in the widest areas of technology, for example, in the energy, chemical, gas, food industries, etc.

 Known solenoid valves comprising a housing with inlet and outlet nozzles and with a saddle overlapped by a locking member with a drive controlled by a potentiometer and an electromagnet of the solenoid type (see AS No. 1551928 class. F 16 K 31/10 1990).

 This electromagnetic valve does not ensure the achievement of the technical result and does not solve the problem posed before the invention, as it is characterized by the complexity of the design and high energy consumption.

 Closer-construction solenoid valves are also known, comprising a body with an inlet and outlet nozzles and with a saddle overlapped by a locking element, as well as a control shut-off element with a drive, and the locking element is connected via a working medium to the control shut-off element and to the output pipe (see A.S. N 165623 C. F 16 K 31/02, 1964).

 This valve also does not solve the task and does not ensure the achievement of a technical result.

 The objective of the invention is the creation of a small-sized solenoid valve with an economical drive.

 The technical result achieved by the invention is the reduction of power consumption for the electric drive of the controlling overlapping body.

 This technical result is achieved in that in an electromagnetic valve comprising a housing with inlet and outlet nozzles and with a saddle overlapped by a locking member, as well as a control shutoff member with a drive, the shutoff member being connected via a working medium to the control shutoff member and to the outlet nozzle; an intermediate locking element with its seat and its drive is installed in the connection line of the locking member with the control shutoff body, while the inlet pipe is connected via the working medium directly to the controlling closing member, and the saddle of the intermediate locking member is located on the connection line of the locking body with the outlet pipe.

 This technical result in particular cases is also achieved by the fact that in the electromagnetic valve, characterized by the above features, the drive of the intermediate locking element is made in the form of a piston servomotor; the diameter of the seat control governing body less than the diameter of the saddle of the intermediate locking element; the connection line of the locking element with the outlet pipe has a channel connecting the cavity between the locking element and the piston of the servomotor with the outlet pipe.

 The drawing schematically depicts the described electromagnetic valve.

 The solenoid valve comprises a housing 1, with inlet 2 and outlet 3 nozzles and with a seat 4, overlapped by a piston-type shut-off element 5, which has an opening 6 for the medium to flow from cavity 7 into cavity 8. The shut-off element is provided with a return spring 9. The electromagnetic valve contains also controlling the shutoff body 10 with a saddle 11, with an electric drive 12 and a return spring 13.

 The locking body (its cavity 7) is connected to the governing body through the working medium. In the particular case, the connection line consists of a channel 14, cavity 15, channel 16, cavity 17 and channel 18.

 The locking element (its cavity 7) is also connected through the working medium through the channel 14, the cavity 15, the channel 16 and the channel 19 with the outlet pipe 3. In addition, the inlet pipe 2 through the channel 20 and the cavity 21 is connected via the working medium directly to the control overhead member 10 The overlapping element should be located on the connection line of the locking element 5 with the outlet pipe 3.

 An intermediate locking element 22 with its seat 23 and its drive, which can be of various known types (electromagnetic, hydraulic, etc.), is installed in the connecting line of the locking element 5 with the control of the closing element 10 (in particular, at the entrance to the channel 16). ) In the particular case, this drive is made in the form of a piston servomotor (with a piston 24) having a return spring 25 and connected rigidly to the locking element 22. The piston has an opening 26 for flowing the working medium, while the piston is located in the cavity 17, which serves as a cylinder for it movement conditionally divided by the piston into two compartments 27 and 28. All of the above valve elements can be placed in one housing, common with the housing 1.

 The shut-off valve operates as follows.

 When the actuator 12 is turned off, the shutoff valve is in the "closed" position, the shutoff member 5 is pressed against the seat 4, the pressures in the cavities 7 and 8 are equal.

 To open the valve using an electric actuator 12, the control shut-off element 10 is squeezed from the seat 11.

 The working medium through the channel 20 enters the cavity 21, then into the channel 18 and the compartment 28 and presses on the piston 24 of the servomotor, which, moving, opens the intermediate locking element 22. After that, the working medium from the cavity 9 through the channel 14 of the cavity 15, channel 16 and the channel 19 enters the outlet pipe 3. As a result, the pressure in the cavity 9 becomes less than the pressure in the cavity 7 and the overlapping shut-off element is detached from the seat 4 and the shut-off element is open. The presence of a servomotor reduces the effort required to open the control shutoff body 10 (if the control shutoff body was directly connected [without an intermediate element with the servomotor] to the cavity 9).

 To close the solenoid valve, the opening force of the control shutoff element 10 is removed (by de-energizing the electric drive 12 by an electromagnet). Using the return spring 13, the shutoff member 10 is pressed against the seat 11, the pressure in the compartment 27 becomes greater than the pressure in the compartment 28, the piston 24 moves towards the control shutoff member 10, pressing the intermediate locking element 22 against the seat 23, while the pressure in the cavities 7 and 8 are equalized, and the shut-off element 5 is pressed against the seat 4 under the pressure of the return spring 9. The shut-off valve is closed.

Claims (4)

 1. An electromagnetic valve comprising a housing with inlet and outlet nozzles and with a saddle overlapped by a shutoff member, as well as a control shutoff member with a drive, the shutoff member being connected via a working medium to a shutoff control member and an outlet nozzle, characterized in that in line An intermediate locking element is installed with its seat and its drive, while the inlet pipe is connected via the working medium directly to the control of the closing valve RGANI and the seat of the intermediate closure element located on the connection line of the valve plug with an outlet.  2. The valve according to claim 1, characterized in that the drive of the intermediate locking element is made in the form of a piston servomotor.  3. The valve according to claim 1, characterized in that the diameter of the control shut-off element is less than the diameter of the seat of the intermediate locking element.  4. The valve according to claim 1, characterized in that the connection line of the locking element with the outlet pipe has a channel connecting the cavity between the locking element and the piston of the servomotor with the outlet pipe.