KR100509157B1 - Valve driver - Google Patents

Abstract

The present invention relates to a valve driver, the driver housing; A cylinder housing cap detachably coupled to the driver housing; A cylinder housing located in the cylinder housing cap and receiving an elastic pressing force to the valve side by a coil spring; An actuator pressurized in the cylinder housing and having a cylinder having an expansion material therein, and an actuating pin inserted into the cylinder and actuating according to the degree of temperature expansion of the expansion material; A heating element inserted into the upper portion of the cylinder housing and being heated in contact with the upper surface of the cylinder to be electrically powered; A tappet positioned in the center of the actuator housing and pressing the valve shaft of the valve by the repulsive force of the coil spring in contact with the cylinder housing, and closing the valve when the heating element is in an off state; At the same time as being axially inserted into the tappet and being caught by the driver housing, when the heating element is in an on state in which the heating element is turned on, the actuating pin which raises and lowers the actuator is raised so that the valve shaft lifts the tappet to open the valve. It is characterized by consisting of a stopper to be made. Therefore, according to the present invention, it is possible to accurately recognize the on / off operation mode, save electric energy, and improve the lifetime.

Description

VALVE DRIVER

The present invention relates to a valve driver, in particular to open / close the valve at the time of electrical on (on) / off (off) to make it possible to accurately recognize the operating mode and at the same time save electrical energy, life It relates to a valve actuator that can be improved.

For example, in an apartment with local or central heating, a valve for opening and closing a flow path is installed in a hot water supply line for heating in a room. The valve is equipped with a valve driver, and the valve driver is electrically connected to a temperature controller. It is to drive. Therefore, the valve actuator operates to control the opening and closing of the valve according to the required set temperature.

A conventional valve driver is shown in FIG.

As shown in FIG. 1, the valve driver 10 includes a driver housing 30 including a connection socket 32 to be connected to the valve 20, a cylinder housing 40 located above the driver housing 30, and A cylinder 50 press-fitted into the cylinder housing 40 and having an expandable material therein; an operation pin 60 inserted into the cylinder 50 and actuated according to a temperature expansion degree of the expandable material; and the cylinder The heating element 70 which is inserted into the upper portion of the housing 40 and is in contact with the upper surface of the cylinder 50 and the actuator housing 30 are coupled to the cylinder housing 40 by a spring 90 force. It consists of the cylinder housing cap 80 which pushes.

The electrical terminals 1 and 2 are connected to the cylinder 50 which is in contact with the lower surface of the heating element 70 and the upper surface side of the heating element 70. The electrical terminals 1 and 2 are connected to a thermostat (not shown). It is electrically connected.

In this state, when the heating element 70 is heated by the ON control signal of the temperature controller, the operation pin 60 is released by a certain amount by the material (for example, blue fin liquid) expanding in the cylinder 50, The valve shaft 21 is lowered in proportion to the movement amount of the operation pin 60 so that the valve 20 is closed and the hot water supply for heating is stopped.

In order to resume the hot water supply for heating, the power applied to the heating element 70 is cut off in the off state. Accordingly, the temperature of the heating element 70 is lowered, thereby causing the expansion material in the cylinder 50 to contract, and the operation pin 60 is moved back into the cylinder 50 and moved into position, and the valve shaft 21 is moved. As the valve 20 is opened, heating is performed according to hot water supply.

Thus, in the conventional valve driver, when the driving current (drive signal) is sent to the heating element 70, the valve 20 is closed and the driving current (drive signal) is turned off to the heating element 70 ( If not sent in the Off) state, the valve 20 is opened.

By the way, the valve 20 normally spends more time than when it is closed (when not using hot water) and when it is open (when using hot water). This is because non-hot water is longer than hot water (heating) time.

In this case, the following problems occur.

First, the valve 20 should be closed when not heating, and the electric supply should be continuously applied to the valve driver in an on state. Therefore, even though the valve 20 is closed in the temperature controller, the driving signal is continuously supplied to the on lamp to cause the user to be mistaken. In other words, a signal appears in the on (on) lamp, so the valve is open and is mistaken for heating.

For example, even though the valve is open and hot water continues to be supplied, the thermostat appears to have a signal (light) on the off lamp that is not working. This can be a complaint that results in malfunction control of the operator.

Second, since the driving current must be continuously supplied to the valve driver for many hours without heating, the electric energy is wasted.

Third, since the time for operating the valve driver lasts for a long time, the life of the valve driver is shortened by that much.

The present invention is to solve the problems of the prior art as described above, so that the opening / closing operation of the valve is made at the time of electrical on (on) / off (off) to enable precise control of the operation mode and the valve Its purpose is to provide a valve actuator that can only be energized when open, saving electricity and improving life.

Specific means of the present invention for achieving the above object,

In the valve driver for opening and closing the valve in accordance with the on / off drive signal of the temperature controller,

An actuator housing connected to the valve via a socket;

A cylinder housing cap detachably coupled to the driver housing;

A cylinder housing located within the cylinder housing cap and receiving an elastic pressing force toward the valve side by a coil spring interposed between the cylinder housing cap;

An actuator pressurized in the cylinder housing and having a cylinder having an expansion material therein, and an actuating pin inserted into the cylinder and actuating according to the degree of temperature expansion of the expansion material;

A heating element inserted into the upper portion of the cylinder housing and being heated in contact with the upper surface of the cylinder to be electrically powered;

A tappet positioned in the center of the actuator housing and pressing the valve shaft of the valve by the repulsive force of the coil spring in contact with the cylinder housing, and closing the valve when the heating element is in an off state;

The shaft is inserted into the tappet in the axial direction and is caught by the driver housing, and when the heating element is in the on state in which electricity is applied, the actuating pin that descends and protrudes the actuator against the coil spring force and rises relatively, thereby causing the valve shaft to tappet. It is characterized by consisting of a stopper to lift the valve to open the operation.

In addition, the stopper according to the present invention is characterized in that it is provided with the same number of guide jaw movably fitted to a plurality of guide holes formed in the longitudinal direction around the tappet.

In addition, the inner wall of the inner cylindrical portion of the driver housing in which the tappet according to the present invention is characterized in that it is provided with a plurality of locking jaws for holding the stopper and at the same time holding the coupling position of the tappet.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a, 2b is an assembled state diagram of the valve actuator according to the present invention, Figure 2a is an operating state diagram in the electrical off state (valve closed), Figure 2b is an operating state diagram in the electrical on state (valve open), Figure 3 Is an exploded perspective view of the actuator housing, tappet, stopper applied to the present invention.

In Figs. 2A to 3, reference numeral 30 denotes a driver housing.

The driver housing 30 has a socket 32 connected to the valve 20 at the lower end thereof, and the socket 32 is screwed with the valve 20. The valve 20 typically has a valve shaft 21, which opens the flow path under a force to protrude upward by a normal internal spring force.

The driver housing 30 has a plurality of locking jaws 32a on the inner wall of the inner cylindrical portion 32 as shown in FIG. 3 to designate the tappet 100 to be described later and to hold the stopper 110 to be described later. It is provided.

A cylinder housing cap 80 is detachably coupled to the driver housing 30. The cylinder housing cap 80 and the driver housing 30 are coupled to each other by the locking projections 81 and 31.

The cylinder housing 40 is located in the cylinder housing cap 80, and the cylinder housing 40 is formed by the coil spring 90 interposed between the cylinder housing cap 80 and the valve 20. An elastic pressing force is applied to the side, and an operation detecting portion 42 protruding from the upper portion of the cylinder housing 40 is formed.

An actuator 62 is press-fitted into the cylinder housing 40 by insertion, and the actuator 62 is inserted into the cylinder 50 having an expansion material (paraffin liquid) therein and the expansion material inserted into the cylinder 50. It has an operating pin (60) actuated in accordance with the degree of temperature expansion.

A heating element 70 is inserted in the cylinder housing 40, and the heating element 70 is electrically in contact with the upper surface of the cylinder 50 to be heated depending on whether the electrodes 1 and 2 are electric. The electrodes 1 and 2 are electrically connected to the thermostat shown.

Reference numeral 100 denotes a tappet.

The tappet 100 is positioned at the center of the inner cylindrical portion 32 of the driver housing 30 and abuts the cylinder housing 40. The tappet 100 presses the valve shaft 21 of the valve 20 by the repulsive force of the coil spring 90 and the valve 20 when the heating element 70 is in an off state in which electricity is cut off. To close the function.

The tappet 100 has a valve contact portion 101 in contact with the valve shaft 21 at one end as shown in FIG. 3, and a housing contact portion 102 in contact with the end 43 of the cylinder housing 40 side at the other end thereof. The connection part 103 is connected to the contact parts 101 and 102, and a plurality of guide holes 104 formed in the connection part 103 in the longitudinal direction.

The housing contact portion 102 is formed with a cutting surface 102a that determines the insertion position of the tappet 100 inserted into the driver housing 30, and the cutting surface 102a has an inner cylindrical portion () of the driver housing 30. Guided to the positioning plate 33 placed close to 32 to guide the insertion coupling of the tappet (100).

Reference numeral 110 denotes a stopper.

The stopper 110 is inserted into the tappet 100 in the axial direction and is locked to the driver housing 30 and the actuator 62 when the electric power is applied to the heating element 70. The actuating pin (60) protruding downward of the coil spring (90) to overcome the force and relatively reverse the valve shaft 21 serves to induce the opening operation of the valve 20 by lifting the tappet (100). .

The stopper 110 has an equal number of guide jaw 112 formed on the outer circumferential surface of the stopper 110 so as to be movably fitted to the plurality of guide holes 104 formed in the longitudinal direction around the tappet 100, and the stopper 110 is provided. The upper surface of the) is formed with a groove 113 for supporting the end of the operation pin (62).

The valve driver configured as described above is assembled as follows.

First, the tappet 100 is inserted into the inner cylindrical portion 32 of the driver housing 30, and the guide jaw 112 of the stopper 110 is aligned with the guide slot 104 of the tappet 100 to stop the stopper ( 110 is assembled to the tappet 100. In this case, the stopper 110 is caught by the catching jaw 32a of the driver housing 30 in a state of being located in the tappet 100.

On the other hand, the actuator 62 is inserted into the driver housing 30 in a state of being charged in the cylinder housing 40. The end 43 of the cylinder housing 40 then corresponds to the housing contact 102 of the tappet 100.

Next, when the cylinder housing 80 is loaded with the coil spring 90 is coupled to the driver housing 30, the coil spring 90 presses the cylinder housing 40 by the compression repulsive force, and eventually lowers the tappet 100 Move it.

In this case, the actuating pin 60 of the actuator 62 may approach or contact the stopper 110.

In such a state, when the valve driver 10 is screwed through the socket 32 and connected to the valve 20, the valve shaft 21 contacts the bottom surface of the tappet 100 and at the same time the coil spring 90 is applied. The valve 20 is closed by moving downward by the fixing force of the cylinder housing 40 which is received.

The operation of the valve driver assembled as described above will be described by dividing the electric on / off state of the temperature controller.

In the valve actuator 10 of the present invention, when the assembly with the valve 20 is completed, as shown in FIG. 2A, the resilient repulsive force of the coil spring 90 is the valve shaft 21 via the cylinder housing 30 and the tappet 100. Since the lowering action, the valve 20 is closed.

Therefore, even if the heating element 70 is turned off (off) with the thermostat, the valve 20 is kept closed, so that the electric supply is not necessary while the valve 20 is closed. That is, there is no loss of electrical energy while the valve 20 is closed.

At this time, the operation detecting portion 42 of the cylinder housing 40 protrudes a predetermined amount on the upper surface of the cylinder housing 80.

On the other hand, when electricity is applied to the heating element 70 with the temperature controller on, paraffin liquid in the cylinder 50 expands, and the operation pin 60 protrudes downward. The actuating pin 60 is lifted up on the stopper 110 while protruding. At this time, the stopper 110 receives the pressing force of the actuating pin 60, but is locked to the engaging jaw 32a of the driver housing 30, thereby acting to push up the actuating pin 60 relatively in a fixed position. .

Therefore, as the operation pin 60 is extended, the cylinder housing 40 is raised while compressing the coil spring 90 relatively, and thus the cylinder housing 40 is spaced apart from the tappet 100 upwardly and is separated from the tappet 100. Is moved upward by the lifting force of the valve shaft 21, and at the same time, the valve shaft 21 also moves upward. At this time, the valve shaft 21 moves up by the spring force in itself.

Therefore, the valve 20 is opened by the upward movement of the valve shaft 21, and the flow path is opened. At this time, the operation detecting unit 42 of the cylinder housing 40 protrudes more on the upper surface of the cylinder housing 80.

As described above, according to the valve driver of the present invention, the valve shaft 21 rises only when the temperature controller is turned on, that is, when the heating element 70 is supplied with electricity, so that the valve 20 is opened.

When the thermostat is turned off in this state, the expansion material in the cylinder 50 again contracts and the operation pin 60 is charged into the cylinder 50 and at the same time the cylinder housing ( 40 is lowered, and the tappet 100 presses the valve shaft 21 to close the valve 20.

As such, the valve driver 10 is open when the valve 20 is electrically turned on and the valve 20 is closed when turned off, so that the valve 20 is normally closed off (the valve 20 is normally closed). Since the off time is large (non-heating time), the electrical energy is reduced, and the electrical on time when the valve 20 is operated is shortened, thereby improving service life.

In addition, when the valve driver 10 opens the valve 20, the thermostat is electrically on. On the contrary, when the valve 20 is closed, the thermostat is electrically off. The operator does not cause any malfunction.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

As described above, according to the valve driver of the present invention, when the valve is closed, it is in the electrical off state, and the valve is operated in the electrical on state while the valve is opened and the hot water for heating is continuously supplied. The controller can be controlled without malfunction.

In addition, since the driving current is not input to the valve driver during a large number of non-heating periods that do not use hot water, there is little waste of electric energy, and an electrical off state (non-heating) that does not require operation of the valve driver. In this state, the life of the valve actuator can be improved because the valve is closed.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

1 is an assembled state of a conventional valve driver.

Figure 2a, 2b is an assembled state diagram of the valve driver according to the invention, Figure 2a is an operating state diagram in the electrical off state (valve closed), Figure 2b is an operating state diagram in the electrical on state (valve open).

Figure 3 is an exploded perspective view of the actuator housing, tappet, stopper applied to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: valve driver 20: valve

30 driver housing 32 inner cylindrical portion

32a: engaging jaw 40: cylinder housing

50: cylinder 60: operating pin

62 actuator 70 heating element

80: cylinder housing cap 90: coil spring

100: tappet 110: stopper

112: guide jaw

Claims (3)

In the valve driver 10 for opening and closing the valve 20 in accordance with the on / off drive signal of the temperature controller, An actuator housing (30) connected to the valve (20) via a socket (32); A cylinder housing cap (80) detachably coupled to the driver housing (30); A cylinder housing (40) positioned in the cylinder housing cap (80) and receiving elastic pressing force toward the valve (20) by a coil spring (90) interposed between the cylinder housing cap (80); An actuator having a cylinder 50 press-fitted into the cylinder housing 40 and having an expansion material therein, and an operation pin 60 inserted into the cylinder 50 and actuating according to the degree of temperature expansion of the expansion material ( 62); A heating element (70) inserted into an upper portion of the cylinder housing (40) and being heated in contact with an upper surface of the cylinder (50) according to whether or not electricity is applied; Located in the center of the actuator housing 30 and at the same time in contact with the cylinder housing 40 to press the valve shaft 21 of the valve 20 by the repulsive force of the coil spring 90, the heating element 70 Tappet 100 for closing the valve 20 when the electricity is cut off (off) state; An actuating pin inserted into the tappet 100 in the axial direction and engaged with the driver housing 30 and protruding downward of the actuator 62 when the heating element 70 is on. (60) to the coil spring (90) to overcome the force and relatively rises, the valve shaft 21 is configured as a stopper (110) to lift the tappet (100) so that the opening operation of the valve (20) is made. Valve actuator. The method of claim 1, The stopper 110 is a valve driver, characterized in that provided with a guide guide 112 of the same number to be movably fitted to a plurality of guide holes 104 formed in the longitudinal direction around the tappet (100). The method of claim 1, On the inner wall of the inner cylindrical portion 32 of the driver housing 30 in which the tappet 100 is located, a plurality of locking jaws for holding and holding the stopper 110 while simultaneously holding the coupling position of the tappet 100 32a) is provided.