KR102255167B1 - A filter combination structure of a solenoid valve assembly for heat water control - Google Patents

Abstract

The present invention relates to a foreign matter filter installing structure of a solenoid valve assembly for controlling hot water for heating, which can increase the efficiency of a fluid flow, comprising: a tubular body having a fluid inlet and a fluid outlet formed on one side and the other side thereof; a solenoid valve coupled to a valve seat of the tubular body; and a foreign matter filter for filtering foreign matters included in a fluid.

Description

A filter combination structure of a solenoid valve assembly for heat water control}

The present invention relates to a foreign matter filter installation structure of a solenoid valve assembly for heating hot water control, and more particularly, a foreign matter filter of a solenoid valve assembly for heating hot water control that improves convenience for maintenance work of the foreign matter filter and facilitates fluid flow. It is about the installation structure.

A general flow control device includes a flow control valve to precisely control the flow rate. The flow control valve adopts a method of precisely controlling the flow rate by having a flow path blocking film controlled linearly on the flow path, and precisely controlling the flow blocking film. However, such a flow control valve requires precise components such as a controller for precisely controlling the flow rate and a sensor for checking the state of the flow path blocking film. The controller and the flow block are not only expensive parts, but also have a complex structure and difficult operation method, and require specialized knowledge to effectively use the flow control valve.

In order to compensate for these disadvantages, development of a valve that is relatively inexpensive and easy to handle is required, and a solenoid valve is commonly used as a valve that is inexpensive and easy to handle. The solenoid valve uses the electromagnetic force of the solenoid bobbin generated by instantaneously applying a DC current to the solenoid bobbin coil terminal. Thus, the heating and hot water supply is controlled by the operation of the valve.

A brief look at the configuration and operation of the solenoid valve assembly for controlling hot water heating is as follows with reference to FIG. 1.

The solenoid valve assembly is composed of a pipe body 10 installed in the distributor and a solenoid valve 20 that opens and closes the pipe of the pipe body 10.

The electromagnetic force of the solenoid bobbin generated by instantaneously applying a DC current to the solenoid bobbin coil terminal (C) lowers the permanent magnet (1), which is elastically supported by a spring (21) at the upper end of the air core of the solenoid bobbin. At this time, the plunger 23 shielding the inlet of the fluid pressure release hole 22a formed in the diaphragm 22 is raised by the magnetic force of the permanent magnet 1. At this time, since the plunger 23 can be maintained in an elevated position by the magnetic force of the permanent magnet 1, even if the current supply to the solenoid bobbin coil terminal C is cut off, the fluid pressure discharge hole formed in the diaphragm 22 ( 22a) can remain open. Accordingly, the fluid is discharged to the fluid pressure discharge hole 22a through the inlet hole 22b.

On the other hand, the solenoid valve obtains the operating power of the diaphragm 22 from the pressure of the fluid, and when foreign substances contained in the fluid are adsorbed to the valve seat 11 of the pipe body 10, the fluid pressure affects the diaphragm 22. There is a problem in that the function as a valve is lost because it cannot be brought into close contact with the valve seat 11. Accordingly, when installing the solenoid valve assembly in the heating hot water distributor where there are many kinds of foreign substances in the used fluid (heating hot water), the filter 13 is installed at the fluid inlet 12 of the pipe body 10 to prevent foreign substances from diaphragm 22 Blocks transfer to the) side.

However, when the filter 13 is installed at the fluid inlet 12 of the tube 10 as described above, there is a problem in that maintenance work such as cleaning and replacement of the filter 13 is not easy. That is, as the filter 13 is installed at the fluid inlet 12 of the pipe body 10, in order to expose the filter 13 for maintenance work of the filter 13, after disassembling the pipe body 10 from the distributor, the pipe body After cleaning or replacing the filter 13 by opening the fluid inlet 12 of (10), the filter structure of the conventional solenoid valve assembly, such as performing a series of processes in reverse order, is convenient for filter maintenance work. There is a problem with this falling.

Republic of Korea Patent Publication No. 10-2009-0120574

The present invention was conceived to solve the above problems, and an object of the present invention is to maintain a foreign matter filter by exposing the foreign matter filter only by disassembling the solenoid valve from the pipe by installing a foreign matter filter between the solenoid valve and the valve seat of the pipe body. It is intended to provide a filter installation structure of a solenoid valve for heating hot water control with a foreign material filter that maximizes the number of holes so that the foreign material filter does not overload while the fluid passes through the foreign material filter.

In order to achieve the above object, the present invention has a fluid inlet and a fluid outlet formed on one side and the other side, and a tube body having a valve seat opened in a direction perpendicular to the flow path direction in the center, and coupled to the valve seat of the tube body. In the solenoid valve assembly for heating hot water control comprising a solenoid valve for controlling the opening and closing of the pipe of the pipe and a foreign substance filter for filtering foreign substances contained in the fluid passing through the pipe of the pipe, the foreign substance filter comprising the solenoid valve and the It is interposed between the valve seats of the pipe body and configured to expose the foreign matter filter to the outside through separation of the solenoid valve from the pipe body, and the valve seat includes an inner diameter passage communicating with the passage of the fluid inlet and forming an inner diameter of the valve seat, And a central pipe formed in the center of the inner diameter passage and forming a passage partitioned from the inner diameter passage and forming a passage communicating with the passage of the fluid outlet, and the foreign matter filter comprises a ring corresponding to the central pipe and the inner diameter passage. ), and a plurality of through holes are formed in the foreign matter filter, and a stepped groove of a concave groove formed toward the end of the inner diameter passage from the opening of the valve seat is formed on the inner circumferential surface of the inner diameter passage, and the foreign matter filter Provides a foreign matter filter installation structure of the solenoid valve assembly for heating hot water control, characterized in that the stopper corresponding to the stepped groove protrudes outward from the foreign matter filter.

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At this time, a tooth is formed on at least one of the outer circumferential surface of the foreign material filter in close contact with the inner circumferential surface of the inner channel and the inner circumferential surface of the foreign material filter in close contact with the outer circumferential surface of the central pipe, and the inner circumferential surface of the inner channel or/and the It is preferable that a through hole is formed between the outer peripheral surfaces of the central pipe.

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In this case, the stopper is preferably configured to extend toward the diaphragm above the valve seat to be supported by the diaphragm.

The foreign matter filter installation structure of the solenoid valve assembly for controlling hot water heating according to the present invention has the following effects.

First, in the present invention, the foreign matter filter is interposed at the boundary where the pipe body and the diaphragm of the solenoid valve are in close contact, so that the foreign matter filter can be easily exposed by only separating the solenoid valve from the pipe body. There is an effect that can increase.

Second, in the present invention, the foreign matter filter is formed in a ring shape, and the foreign matter filter not only has a plurality of through holes for transporting the fluid, but also forms the inner circumferential surface and the outer circumferential surface of the foreign matter filter with teeth, thereby passing through the fluid. Since the number of can be maximized, there is an effect that the fluid flow can be smoothly achieved by reducing the load on the fluid flow.

Third, according to the present invention, a stopper protruding outward is formed at the edge of the foreign material filter, so that even if the water pressure acts on the foreign material filter when the fluid passes through the through hole, there is an effect of preventing the foreign material filter from flowing in the fluid transport direction.

1 is a cross-sectional view showing a cross-section of a solenoid valve assembly according to the prior art.
2 is an exploded perspective view showing a foreign matter filter installation structure of a solenoid valve assembly for controlling hot water heating according to a preferred embodiment of the present invention.
3 is an exploded perspective view showing a cross-sectional view of a foreign matter filter installation structure of a solenoid valve assembly for controlling hot water heating according to a preferred embodiment of the present invention.
4 is a cross-sectional view showing a pipe body and a foreign matter filter of a foreign matter filter installation structure of a solenoid valve assembly for controlling hot water according to a preferred embodiment of the present invention.
5 is a plan view showing a state in which a foreign material filter is installed on a valve seat constituting a structure for installing a foreign material filter of the solenoid valve assembly for controlling hot water according to a preferred embodiment of the present invention.
6A is a cross-sectional view taken along line II of FIG. 5.
FIG. 6B is a cross-sectional view taken along line II-II of FIG. 5 and is a diagram in which the diaphragm is combined.

Terms and words used in the present specification and claims are not limited to the usual or dictionary meanings, and the inventor is based on the principle that the concept of terms can be appropriately defined in order to describe his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Hereinafter, a foreign matter filter installation structure of the solenoid valve assembly for heating hot water control according to a preferred embodiment of the present invention (hereinafter, referred to as a “fine matter filter installation structure”) will be described with reference to FIGS. 2 to 6B.

In the foreign matter filter installation structure, a foreign matter filter that filters foreign matter contained in the fluid passing through the pipeline is installed on the solenoid valve and the valve seat of the pipe body, so that the foreign matter filter is exposed only by disassembling the solenoid valve, thereby enhancing the work convenience for maintenance of the foreign matter filter. And, by forming teeth on the inner and outer circumferential surfaces of the foreign matter filter, the number of through holes through which the fluid passes was maximized to facilitate fluid flow.

The foreign matter filter installation structure includes a solenoid valve 20, a pipe body 100, and a foreign matter filter 200.

The solenoid valve 20 controls the fluid flow through the pipe body 100, and a known technique may be applied. The solenoid valve 20 may be referred to through FIG. 1 and includes a diaphragm 22 that opens and closes a conduit of the tube body 100. The diaphragm 22 is formed in a circular shape as shown in FIG. 2, and is in close contact with the valve seat 110 of the tube body 100 to maintain airtightness of the tube body 100. The diaphragm 22 is made of a soft material, and an edge groove 22c is formed at the bottom edge of the diaphragm 22 as shown in FIG. 3. The edge groove 22c is positioned at the upper end of the stopper to be described later, and the flow of the diaphragm 22 can be prevented by allowing the end of the stopper to interfere with the edge groove 22c.

The pipe body 100 forms a pipe through which fluid, that is, heated hot water, passes, and the opening and closing of the pipe is controlled by the solenoid valve 20. The tube body 100 forms a fluid inlet 120 and a fluid outlet 130 on one side and the other side, respectively. A valve seat 110 for installing the diaphragm 22 is provided in the center of the pipe of the pipe body 100. The valve seat 110 guides the fluid introduced through the fluid inlet 120 toward the fluid outlet 130 and is opened in a direction perpendicular to the direction of the pipeline of the tube body 100. The valve seat 110 is formed in a circular shape corresponding to the diaphragm 22, and includes an inner diameter passage 111 forming the inner diameter of the valve seat 110 and a central pipe 112 formed at the center of the inner diameter passage 111. Includes. The inner diameter passage 111 is formed to communicate with the fluid inlet 120, and the fluid introduced through the fluid inlet 120 must pass through the inner diameter passage 111. The central pipe 112 forms a pipe passage communicating with the fluid outlet 130 and is provided in the center of the inner diameter passage 111. The central pipe 112 is formed to be lower than the height of the inner diameter passage 111, and the fluid introduced through the inner diameter passage 111 flows into the central pipe 112 and then exits through the fluid outlet 130. The central pipe 112 of the pipe body 100 prevents the fluid introduced through the fluid inlet 120 from directly exiting the fluid outlet 130, and divides the fluid inlet 120 and the fluid outlet 130.

A stepped groove 111a is formed on the inner circumferential surface of the inner diameter passage 111 of the tube body 100 as shown in FIGS. 2 and 3. The stepped groove (111a) is preferably formed in a pair formed on both sides of the inner peripheral surface of the inner diameter passage (111). The stepped groove 111a guides the position of the foreign matter filter 200, and serves to prevent the foreign matter filter 200 from rotating when a stopper, which will be described later, is seated in the stepped groove 111a. The stepped groove 111a is formed in the form of a concave groove formed downward along the inner circumferential surface from the opening of the valve seat 110.

The foreign matter filter 200 is interposed between the diaphragm 22 of the solenoid valve 20 and the valve seat 110 to filter foreign matter contained in the fluid transferred from the fluid inlet 120 to the fluid outlet 130 Do it. The foreign matter filter 200 is installed in the inner diameter passage 111 as shown in FIGS. 4 and 5, and an insertion hole 210 into which the central pipe 112 is inserted is formed in the center of the foreign matter filter 200. The foreign matter filter 200 of this configuration is formed in a circular shape, and is formed in a ring shape in which the insertion hole 210 is formed. A plurality of through holes 220 through which the fluid passes are formed in the foreign material filter 200 along the foreign material filter 200. Teeth 230 are formed along the periphery on the outer circumferential surface and the inner circumferential surface of the foreign matter filter 200. The teeth 230 are in close contact with the inner circumferential surface of the valve seat 110 forming the inner diameter flow path 111 and the outer circumferential surface of the central pipe 112 to form a through hole 231 and are provided as a passage through which a fluid passes. The teeth 230 are provided as a fluid passage along with the through hole 220 formed in the foreign material filter 200 as shown in FIGS. 5 and 6A, so that overpressure of the fluid passing through the foreign material filter 200 can be prevented. . The teeth 230 may be formed on an outer circumferential surface or an inner circumferential surface of the foreign material filter 200, or may be formed on an outer circumferential surface and an inner circumferential surface of the foreign material filter 200.

A stopper 240 is formed in the foreign matter filter 200. The stopper 240 serves to fix the foreign matter filter 200 to the valve seat 110, more precisely, to the inner diameter passage 111. The stoppers 240 are provided as a pair formed on both sides of the foreign matter filter 200, and correspond to the stepped grooves 111a formed in the inner passageway 111 as shown in FIGS. 4 and 6B. The stopper 240 is formed to protrude outward from the outer peripheral surface of the foreign matter filter 200, and the thickness of the stopper 240 corresponds to the stepped groove 111a. The stopper 240 extends outward from the foreign matter filter 200, and the extension direction of the stopper 240 is toward the diaphragm 22 seated on the valve seat 110. The stopper 240 is seated in the stepped groove 111a to prevent the flow of the foreign matter filter 200 rotating on the inner diameter passage 111, and the upper end of the stopper 240 is diaphragm 22 as shown in FIG. 6B. ) Is supported. Accordingly, the stopper 240 can be prevented from moving upward in the drawing due to the interference of the diaphragm 22. As the stopper 240 is supported by the diaphragm 22 in this way, even if the water pressure is excessively generated while the fluid passes through the foreign material filter 200, the foreign material filter 200 can be prevented from being lifted upward. It is preferable that the upper end of the stopper 240 forms a stepped stepped protrusion 241 as shown in FIGS. 4 and 6B. The stepped protrusion 241 is disposed in the edge groove 22c of the diaphragm 22 to guide the position of the diaphragm 22, and may prevent it from flowing to the left or right in the drawing.

Hereinafter, the coupling and operation of the foreign matter filter installation structure of the solenoid valve assembly for controlling hot water heating having the above-described configuration will be described.

The operator couples the foreign matter filter 200 to the inner diameter passage 111 of the valve seat 110. At this time, the stopper 240 of the foreign matter filter 200 descends along the stepped groove 111a of the inner diameter passage 111 to seat the foreign matter filter 200 in the inner passage 111. The central pipe 112 is inserted into the insertion hole 210 of the foreign matter filter 200 as shown in FIGS. 4 and 5. Next, the operator connects the solenoid valve 20 to the valve seat 110 to complete the coupling of the solenoid valve 20 to the pipe body 100. In the present specification, for convenience of explanation, as shown in FIGS. 6A and 6B, the diaphragm 22 of the solenoid valve 20 is coupled to the valve seat 110, that is, only the main portions will be described.

As shown in FIG. 6A, the through hole 220 of the foreign matter filter 200 may be provided at the maximum with the teeth 230 on the inner diameter passage 111, and the stopper 240 of the foreign matter filter 200 is shown in FIG. It is supported by the diaphragm 22 as shown in 6b. To be precise, the step protrusion 241 of the stopper 240 is inserted into the edge groove 22c of the diaphragm 22.

In this way, the coupling of the solenoid valve assembly is completed, and the fluid inlet 120 of the tube 100 and the fluid outlet 130 of the tube 100 are coupled to the distributor. Thereafter, when the transfer signal of the heated hot water is applied, the diaphragm 22 is raised by the operation of the solenoid valve 20 to open the central pipe 112. (not shown) The fluid that is heated hot water opens the fluid inlet 120. Through the foreign matter filter 200, it is introduced into the inner passageway 111, and at this time, foreign matter contained in the fluid is filtered by the foreign matter filter 200. As the fluid is transferred through the plurality of through holes 220 formed in the foreign matter filter 200 and through the through holes 231 formed by the teeth 230, the flow may be smoothly achieved. That is, the foreign matter filter 200 maximizes the number of through holes 220 and 231 through which the fluid passes, thereby minimizing resistance to fluid flow. Thereafter, the fluid passing through the foreign matter filter 200 passes through the central pipe 112 to the fluid outlet 130 to circulate the heated hot water.

As described so far, the foreign matter filter installation structure of the solenoid valve assembly for heating hot water control according to the present invention increases the convenience for maintenance work of the foreign matter filter 200 by installing the foreign matter filter 200 on the valve seat 110, The teeth 230 were formed on the inner and outer circumferential surfaces of the foreign matter filter 200 to maximize the number of through holes 220 and 231 to facilitate fluid flow.

In the above, the present invention has been described in detail with respect to the described embodiments, but it is obvious to those skilled in the art that various modifications and modifications are possible within the scope of the technical idea of the present invention, and it is natural that such modifications and modifications belong to the appended claims.

20: solenoid valve 22: diaphragm
22c: edge groove 100: tube
110: valve seat 111: inner diameter flow path
111a: stepped groove 112: central pipe
120: fluid inlet 130: fluid outlet
200: foreign matter filter 210: insertion hole
220,231: through hole 230: gear
240: stopper 241: step protrusion

Claims (5)

A fluid inlet and a fluid outlet are formed on one side and the other side, and a tube body having a valve seat open in a direction perpendicular to the direction of the flow path at the center, and a solenoid valve that is coupled to the valve seat of the tube and controls the opening and closing of the pipeline of the tube body. In the solenoid valve assembly for heating hot water control comprising a foreign material filter for filtering foreign matter contained in the fluid passing through the pipe of the pipe body,
The foreign matter filter is interposed between the solenoid valve and the valve seat of the pipe body, and is configured to expose the foreign substance filter to the outside through separation of the solenoid valve from the pipe body,
The valve seat,
An inner diameter passage communicating with the flow path of the fluid inlet and forming an inner diameter of the valve seat, and a central pipe formed in the center of the inner diameter passage and forming a passage partitioned from the inner diameter passage and forming a passage communicating with the passage of the fluid outlet. Includes,
The foreign material filter is formed in a ring shape corresponding to the central tube and the inner diameter flow path, and a plurality of through holes are formed in the foreign material filter,
On the inner circumferential surface of the inner diameter channel, a stepped groove of a concave groove formed from the opening of the valve seat toward the end of the inner diameter channel is formed,
A foreign matter filter installation structure of a solenoid valve assembly for heating hot water control, characterized in that a stopper corresponding to the stepped groove protrudes outward from the foreign matter filter on an outer circumferential surface of the foreign matter filter. delete The method of claim 1,
A tooth is formed on at least one of the outer circumferential surface of the foreign material filter in close contact with the inner circumferential surface of the inner channel and the inner circumferential surface of the foreign material filter in close contact with the outer circumferential surface of the central pipe, Foreign matter filter installation structure of the solenoid valve assembly for controlling hot water heating, characterized in that through holes are formed between the outer circumferential surfaces. delete The method according to claim 1 or 3,
The stopper is configured to extend toward the diaphragm above the valve seat and supported by the diaphragm.

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