RU102240U1 - SOLENOID VALVE - Google Patents

Abstract

 1. The electromagnetic valve, comprising a housing with a flowing part, inlet and outlet nozzles, a movable control element in the form of a pipe with a seat, a sealing element located on the same axis, an electromagnetic actuator, an armature reciprocating movement, a return spring, characterized in that the connection of the anchor with the control element is made by means of a wedge mechanism formed by inclined surfaces on the control element and a wedge connected with the anchor, with the possibility of moving the control element As to the sealing element and vice versa, the electromagnetic drive and the return spring, in addition to the control element, are separated from the flow part of the valve body by means of a disconnecting element. ! 2. The electromagnetic valve according to claim 1, characterized in that it is equipped with additional nozzle and a sealing element.

Description

The utility model relates to mechanical engineering, and in particular to valve manufacturing. It can be used to control the flow of liquid and gaseous media in pipelines.

Known electromagnetic valves containing a housing with a saddle, inlet and outlet nozzles, a locking element located concentrically to the saddle of the housing, an electromagnet located inside the armature.

In the patent of the Russian Federation No. 2160405, IPC F16K 31/02, an electromagnetic valve is described comprising a housing with inlet and outlet nozzles located on a common axis and with a cowl inside, forming an annular gap for the working medium with the housing, as well as a shutoff element (control element), having an internal cavity connected to a governing body (electromagnetic drive).

In the patent of the Russian Federation No. 2073155, IPC F16K 31/02, an electromagnetic valve is described, comprising a housing with a seat closed by a locking member (control element) having a non-metallic seal, an electromagnetic drive with a magnetic circuit having lower and upper flanges, with a sealing separation tube and with a core (anchor) having a cavity for the working medium, and also a return spring, moreover, the sealing separation tube consists of a link made of ferromagnetic material and a link located below it, made and low magnetic material.

Of all devices of a similar purpose, the closest in technical essence to the proposed utility model is an electromagnetic valve, described in patent US 6116571 A F16K 1/12, F16K 31/06, 09/12/2000. It contains a housing with a flowing part, inlet and outlet pipes, a movable sealing pipe (control element) with a saddle, a sealing element, an electromagnetic drive, an anchor connected to the control element through a system of levers, one of which is equipped with engaging teeth, a return spring.

This valve is quite reliable, however, the connection of the armature with the control element has a relatively complex structure consisting of a large number of elements and friction pairs, which complicates its maintenance and repair, and can also lead to premature failure of the connection between the armature and the control element and, therefore , total valve as a whole. As a result of this, the valve ceases to fulfill its function, the restoration of which may require the dismantling of the valve from the pipeline, i.e. the device does not achieve a technical result, expressed in increasing the maintainability of the valve.

The technical result achieved by the implementation of the proposed utility model is to ensure reliable operation of the valve when controlling the flow of working media containing a significant amount of foreign inclusions, including magnetic ones, which have the ability to magnetize to the armature and electromagnetic drive during operation, which leads to periodic failure valve, as well as improving the maintainability of the valve.

The specified technical result is achieved by the fact that in the known electromagnetic valve comprising a housing with a flowing part, inlet and outlet nozzles, a movable control element in the form of a pipe with a saddle, a sealing element located on the same axis, an electromagnetic actuator, an armature, reciprocating , a return spring, the connection of the armature with the control element is made by means of a wedge mechanism formed by inclined surfaces on the control element and the wedge associated with the armature the ability to move the control element to the sealing element and vice versa, the electromagnetic drive and the return spring apart from the control element are separated from the flowing part of the valve body by means of a disconnecting element. It should be noted that there is a possible embodiment of the valve with additional nozzle and sealing element.

As a result of the search by the sources of scientific, technical and patent information, no design solutions were found, the set of essential features of which is similar to the proposed utility model and ensures the achievement of the same technical result. The implementation of the claimed electromagnetic valve is feasible in a conventional machine-building enterprise. Thus, it can be noted that the proposed utility model is a solution to the technical problem, is new, and provides industrial applicability.

The essence of the proposed utility model is illustrated in the following figure.

Figure 1 shows the device of the electromagnetic valve in the context.

The electromagnetic valve (Fig. 1) contains a housing 1 with a flowing part, an inlet 10 and an outlet 11 nozzles, an electromagnetic drive 2. Inside the housing 1, a control element 3 with a seat made on it, a sealing element 4, o-rings 5. is installed inside the electromagnetic drive 2 An anchor 7 and a return spring are installed 8. An anchor 7, by means of a wedge mechanism formed by inclined surfaces on the control element 3 and the wedge 6, presses the control element 3 against the sealing element 4. The disconnecting element 9 serves to I have an additional tight separation of the electromagnetic actuator 2 and the return spring 8 from the flow part of the valve body 1.

The valve operates as follows. A working medium is supplied into the cavity 10 of the inlet pipe of the valve body 1. Due to the elasticity, the return spring 8 presses the anchor 7 from the stop of the electromagnetic actuator 2, which, by means of a wedge mechanism formed by inclined surfaces on the control element 3 and the wedge 6, presses the control element 3 against the sealing element 4, thereby separating the cavities 10 and 11. The sealing rings 5 provide sealing in the connection of the housing 1 is the control element 3, and the uncoupling element 9 separates the electromagnetic actuator 2 and the return spring 8 from the flow part of the valve body 1.

When applying electric current to the winding of the electromagnetic actuator 2, the armature 7 translates to the foot of the electromagnetic actuator 2 by compressing the return spring 8 and by means of the wedge mechanism formed by the inclined surfaces on the control element 3 and the wedge 6, moves the control element 3 from the sealing element 4. Working environment from the cavity 10 of the inlet pipe flows into the cavity 11 of the outlet pipe. After stopping the supply of electric current to the winding of the electromagnetic drive 2, the spring 8 returns the armature 7, the wedge 6 and the control element 3 to its original position. Cavities 10 and 11 are separated.

It is this design of an electromagnetic valve containing a housing with a flowing part, an inlet and an outlet pipe, a movable control element in the form of a pipe with a seat, a sealing element located on the same axis, an electromagnetic drive, an armature reciprocating, a return spring, and communication anchors with a control element is made by means of a wedge mechanism formed by inclined surfaces on the control element and a wedge associated with the anchor, with the possibility of moving the control element to the sealing element and vice versa, the electromagnetic drive and the return spring apart from the control element are separated from the flowing part of the valve body by means of an uncoupling element, provides a technical result aimed at ensuring reliable operation of the valve when controlling the flow of the working medium, containing a significant number of foreign inclusions, including magnetic, as well as improving the maintainability of the valve.

A possible embodiment of the valve with a third additional nozzle and a second additional sealing element. Figure 2 shows the device of the electromagnetic valve in the context of the third additional pipe and the second additional sealing element.

The electromagnetic valve with a third additional nozzle and a second additional sealing element (figure 2) contains a housing 1 with a flow part, an inlet 11 and an outlet 12, 13 nozzles, an electromagnetic actuator 2. A control element 3 with a seat made on it is installed inside the housing 1, sealing elements 4 and 10, o-rings 5. Inside the electromagnetic actuator 2, an anchor 7 and a return spring are installed 8. Anchor 7 by means of a wedge mechanism formed by inclined surfaces on the control element 3 and the wedge 6, pr benching control member 3 to the seal member 4, and presses against the sealing member 10. Razobschitelny member 9 serves for additional hermetic separation of the solenoid actuator 2 and the return spring portion 8 from the flow valve body 1.

The valve operates as follows. A working medium is supplied to the cavity 11 of the inlet pipe of the valve body 1. Due to the elasticity, the return spring 8 presses the anchor 7 from the stop of the electromagnetic drive 2, which, by means of the wedge mechanism formed by the inclined surfaces on the control element 3 and the wedge 6, presses the control element 3 against the sealing element 4 and squeezes it from the sealing element 10, thereby separating the cavity 11 from cavity 12, 13 and connects the cavity 12 and 13. O-rings 5 provide sealing in the connection of the housing 1 - the control element 3, and the disconnecting element 9 separates the electromagnetic d 2 and a return spring 8 of the flow part of the valve housing 1.

When applying electric current to the winding of the electromagnetic actuator 2, the armature 7 translates to the foot of the electromagnetic actuator 2 by compressing the return spring 8 and by means of the wedge mechanism formed by the inclined surfaces on the control element 3 and the wedge 6, moves the control element 3 from the sealing element 4 to the sealing element 11. The working medium from the cavity 11 of the inlet pipe flows into the cavity 12 of the outlet pipe, while the cavity 13 is separated from the cavities 11 and 12. After the power supply is stopped electric current to the winding of the electromagnetic actuator 2, the spring 8 returns the armature 7, the wedge 6 and the control element 3 to its original position. Cavities 12 and 13 are connected, disconnecting from the cavity 11.

To check the operability, an electromagnetic valve was installed in the water treatment system of the car wash installation. Prior to this, a KEO valve was installed in the system. Its replacement was due to frequent complaints by maintenance personnel about the insufficient reliability of the valve when working with water with a significant content of foreign inclusions, including magnetic ones, and limited maintainability. As a result of trial operation, not a single case of a valve failure of the electromagnetic design described was revealed, which confirms the correctness of the proposed technical solution.

As examples of specific performance, the following can be reported: valve body parts can be made of steel 40X13, 08X18H10T. Implementation of an electromagnetic valve is possible in a conventional machine-building enterprise using universal equipment.

As can be seen from the above, it is the design features of the proposed utility model that increase the reliability of the valve when controlling the flow of working media with a significant content of foreign inclusions, including magnetic ones, and increase its maintainability.

Claims (2)

1. The electromagnetic valve, comprising a housing with a flowing part, inlet and outlet nozzles, a movable control element in the form of a pipe with a seat, a sealing element located on the same axis, an electromagnetic actuator, an armature reciprocating movement, a return spring, characterized in that the connection of the anchor with the control element is made by means of a wedge mechanism formed by inclined surfaces on the control element and a wedge connected with the anchor, with the possibility of moving the control element As to the sealing element and vice versa, the electromagnetic drive and the return spring, in addition to the control element, are separated from the flow part of the valve body by means of a disconnecting element. 2. The electromagnetic valve according to claim 1, characterized in that it is equipped with additional nozzle and a sealing element.