RU101764U1 - LINEAR VALVE - Google Patents

Abstract

 1. The valve with a linear actuator, 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, a linear actuator, a actuator stem, reciprocating, characterized in that that the connection of the actuator rod with the control element is made by means of a wedge and a two-arm lever connected in series with each other with the possibility of moving the control element to the sealing element and vice versa. ! 2. The valve with linear actuator according to claim 1, characterized in that it is equipped with additional nozzle and a sealing element.

Description

The proposed device relates to mechanical engineering, and in particular to the reinforcement structure. It can be used to control the flow of liquid and gaseous media in pipelines.

Known valves with linear actuator, comprising a housing with a seat, inlet and outlet nozzles, a locking element located concentrically to the seat of the housing, a linear actuator.

The RF patent No. 2143563, IPC F01D 17/10, F16K 31/143 describes a pneumatic valve comprising a housing with a seat, a valve with a seal (control element), a flow part, a piston pneumatic actuator (linear actuator) with a slotted piston and rod seal installed directly into the flow part and controlled by the working medium.

In the patent of the Russian Federation No. 30908, IPC F16K 1/12, a shut-off valve is described, comprising a body with inlet and outlet nozzles, a shut-off element (control element) with a pneumatic actuator (linear actuator) made in the form of a housing located in the power cavity formed in the housing, piston and stem interacting with it.

Of all devices of a similar purpose, the closest in technical essence to the proposed utility model is the spool valve described in patent WO 02/086361 A1 F16K 1/12, 04.17.2002. It contains a housing with a flowing part, inlet and outlet pipes, a movable sealing pipe (control element) with a seat, a sealing element, a drive (linear drive), a lever for moving the sealing pipe (control element).

This valve is quite reliable, however, the connection of the linear actuator with the control element by means of a lever imposes a significant restriction on the valve design, namely, the axis of the linear actuator must be parallel to the axis of the control element. Otherwise, the load on the hinge increases, around which the lever rotates, as a result of which the hinge wears out quickly, and the valve ceases to fulfill its functional purpose, i.e. the device does not achieve a technical result, expressed in increasing the reliability of the valve.

The technical result achieved in the implementation of the proposed utility model is to increase the reliability of the valve when controlling the flow of working media containing a significant number of foreign impurities due to the use of the proposed connection between the actuator stem and the control element, eliminating the influence of the parallel axis of the control element and the actuator stem on the reliability of the valve.

The specified technical result is achieved by the fact that in the known valve with a linear actuator 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, a linear actuator, the actuator rod, which returns - progressive movement, the connection of the actuator rod to the control element is made by means of a wedge and a two-arm lever connected in series with the possibility of moving the control element to the seal new element and vice versa.

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 inventive valve with linear actuator is feasible in a conventional engineering enterprise. Thus, it can be noted that the proposed utility model is a solution to the technical problem, is new, provides industrial applicability and has an inventive step.

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

In Fig.1 shows a valve device with a linear actuator in section.

The valve with a linear actuator (Fig. 1) contains a housing 1 with a flow part, an inlet 12 and an outlet 13 nozzles, a linear actuator 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 linear drive 2 mounted piston 6 with the rod 10 of the drive. The rod 10 of the actuator is connected to the control element 3 by means of series-connected wedge 11 and two-arm lever 9. The nozzles 7 and 8 are designed to supply a control medium to a cavity of the linear actuator 2.

The valve operates as follows. In the inlet pipe 12 of the valve body 1, a working medium is supplied. The control medium is supplied to the pipe 7, as a result of which the piston 6 with the actuator rod 10 presses the control element 3 against the sealing element 4 by means of the wedge 11 and the two shoulders lever 9, thereby separating the inlet pipe 12 and the output pipe 13. The sealing rings 5 provide sealing in the housing connection 1 - control element 3. When the control medium is discharged from the linear actuator 2 through the nozzle 7 and the control medium is supplied to the nozzle 8, the piston 6 with the actuator rod 10 performs translational motion and by means of the wedge 11 and two shoulders its lever 9 moves the control element 3 from the sealing element 4. The working medium from the inlet pipe 12 flows into the output pipe 13. When the control medium is discharged from the linear actuator 2 through the pipe 8 and the control medium is supplied to the pipe 7, the piston 6 with the actuator rod 10 makes translational motion and by means of the wedge 11 and the two shoulders of the lever 9 presses the control element 3 against the sealing element 4. The inlet pipe 12 and the output pipe 13 are disconnected.

It is such a design of a valve with a linear actuator, comprising a housing with a flowing part, an inlet and an outlet nozzle, a movable control element in the form of a pipe with a seat, a sealing element located on the same axis, a linear actuator, a actuator rod reciprocating, a rod connection the drive, with the control element made by means of a wedge and a two-arm lever connected in series with each other with the possibility of moving the control element to the sealing element and vice versa, provides A technical result aimed at improving the reliability of the valve when controlling the flow of working media containing a significant amount of foreign impurities.

A possible embodiment of the valve with a third additional nozzle and a second additional sealing element. Figure 2 shows a valve device with a linear actuator in section with a third additional nozzle and a second additional sealing element.

The valve with a linear actuator with a third additional nozzle and a second additional sealing element (figure 2) contains a housing 1 with a flow part, an inlet 12 and an outlet 13, 14 nozzles, a linear actuator 2. A control element 3 with a seat made on it is installed inside the housing 1 , sealing elements 4 and 15, sealing rings 5. A piston 6 is installed inside the linear actuator 2. The piston 6 is connected to the control element 3 with the actuator rod 10 by means of a wedge 11 and a two-arm lever 9 connected in series 9. Branch pipes 7 and 8 are intended for supplying a control medium to one or another cavity of the linear actuator 2.

The valve operates as follows. In the inlet pipe 12 of the valve body 1, a working medium is supplied. The control medium is supplied to the pipe 7, as a result of which the piston 6 with the actuator stem 10, by means of the wedge 11 and the two shoulders lever 9, presses the control element 3 against the sealing element 4 and presses it from the sealing element 15, thereby separating the inlet pipe 12 from the output pipes 13, 14 and interconnects the outlet pipes 13 and 14. O-rings 5 provide sealing in the connection of the housing 1 - the control element 3. When dumping the control medium from the linear actuator 2 through the pipe 7 and the supply of the control medium to the pipe 8, the piston 6 with the actuator stem 10 performs a translational motion and, by means of the wedge 11 and the two shoulders lever 9, moves the control element 3 from the sealing element 4 to the sealing element 15. The working medium from the inlet pipe 12 flows into the outlet pipe 13, the inlet pipe 12 and the outlet pipe 13 are separated from the outlet nozzle 14. When the control medium is discharged from the linear actuator 2 through the nozzle 8 and the control medium is supplied to the nozzle 7, the piston 6 with the actuator rod 10 performs translational motion and, by means of the wedge 11 and two the shoulder lever 9 presses the control element 3 to the sealing element 4. The output pipes 13 and 14 are connected, disconnecting from the inlet pipe 12,

To test the operability, a valve with a linear actuator was installed in the water treatment system of a 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 matter. As a result of trial operation, not a single case of a valve failure with a linear actuator of the described design was detected, 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. The implementation of a valve with a linear actuator is possible in a conventional machine-building enterprise with 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 containing a significant amount of foreign impurities.

Claims (2)

1. The valve with a linear actuator, 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, a linear actuator, a actuator stem, reciprocating, characterized in that that the connection of the actuator rod with the control element is made by means of a wedge and a two-arm lever connected in series with each other with the possibility of moving the control element to the sealing element and vice versa. 2. The valve with linear actuator according to claim 1, characterized in that it is equipped with additional nozzle and a sealing element.