KR200463373Y1 - Automatic shut-off valve - Google Patents

Abstract

The present invention relates to an automatic open / close valve, and more particularly, to an automatic open / close valve that senses a pressure in a flow path and automatically opens and closes according to the detected pressure.
The object of the present invention is to provide an automatic on-off valve having a structure in which the operation of the auto-opening valve is smoothly and continuously, and vibration does not occur.
The automatic opening and closing valve of the present invention, since the operation of opening and closing the flow of the fluid is made smoothly and continuously, there is no effect of vibration does not occur and there is an effect having excellent durability.
In addition, the automatic on-off valve of the present invention, there is no noise during use has a convenient effect for the user to use.
In addition, the automatic opening and closing valve of the present invention, there is an advantage that does not transmit the shock to the other mechanical elements connected to the vibration does not occur.

Description

Automatic shutoff valve {AUTOMATIC SHUT-OFF VALVE}

The present invention relates to an automatic open / close valve, and more particularly, to an automatic open / close valve that senses a pressure in a flow path and automatically opens and closes according to the detected pressure.

In various fields, including reverse osmosis water purifiers, automatic shutoff valves are used that sense the pressure of a fluid and operate to open and close the flow of the fluid according to the pressure.

The automatic opening and closing valve shown in Figure 1 is a 'automatic locking valve' disclosed in Korea Utility Model Publication No. 20-0292218. As the pressure of the inlet 16 rises, the upper diaphragm 5 deforms and moves the plunger 4 downward, thereby moving the lower diaphragm 6 downward, thereby moving the raw water supply port 12 and the outlet 14. The flow of fluid between them is closed. When the pressure at the inlet 16 drops, the upper diaphragm 5, the plunger 4, and the lower diaphragm 6 are raised to open the flow of fluid between the raw water supply port 12 and the outlet 14. .

By the way, the pressure of the inlet 16 does not increase instantly from the pressure of an open state to the pressure of a closed state, but rather it rises gradually over a predetermined time. Therefore, the lower diaphragm 6 also allows a certain amount of flow without temporarily closing the flow of fluid between the raw water supply port 12 and the outlet 14. The pressure of the inlet 16 must be fully raised to close the flow of fluid between the raw water supply port 12 and the outlet 14. In this way, the upper diaphragm 5, the plunger 4, and the lower diaphragm 6 vibrate violently while the lower diaphragm 6 starts to operate and completely closes the flow of the fluid. Since the upper diaphragm 5 and the lower diaphragm 6 are generally made of a soft rubber material, the upper diaphragm 5 and the lower diaphragm 6 are damaged by such vibration when used for a long time. This happens often. In addition, the vibration as described above generates noise, causing inconvenience to the user. In addition, vibrations of the upper diaphragm 5, the plunger 4, and the lower diaphragm 6 are transmitted to the peripheral mechanical element connected to the self-locking valve 10, which causes the life of the peripheral mechanical element to be shortened.

The present invention is devised to solve the problems described above, and an object of the present invention is to provide an automatic on-off valve having a structure in which the operation of the auto-opening valve is smoothly and continuously so that vibration does not occur.

In order to achieve the above object, the present invention detects a pressure of a fluid flowing through a second flow path and automatically opens and closes a flow path (first flow path) of a fluid between an inlet and an outlet according to the detected pressure. The first body having the inlet and the outlet and connected to the inlet and the outlet to form a first flow path for forming a first flow path; A second body disposed to face the first body and coupled to the first body and having the second flow path formed therein; A first diaphragm disposed between the first body and the second body and operable to open and close a sheet hole (first flow path) of the first body while being elastically deformed according to the pressure of the fluid flowing through the second flow path; A seat guide installed in the first diaphragm to open or close the seat hole while a portion thereof is inserted into or separated from the seat hole of the first body according to the operation of the first diaphragm; A second diaphragm disposed between the first diaphragm and the second body and elastically deformed according to the pressure of the fluid flowing through the second flow path to operate the first diaphragm; And a spacer disposed between the first diaphragm and the second diaphragm to prevent leakage between the first diaphragm and the second diaphragm and to support the first diaphragm and the second diaphragm, respectively. It is characteristic in that it does.

In addition, the present invention, in the automatic opening and closing valve for detecting the pressure of the fluid flowing through the second flow path and automatically opening and closing the flow path (first flow path) of the fluid between the inlet and the outlet in accordance with the detected pressure, And a first body having a valve seat having an outlet and having a seat hole connected between the inlet and the outlet to form a first flow path and surrounding the outer periphery of the seat hole; A second body disposed to face the first body and coupled to the first body and having the second flow path formed therein; A first diaphragm disposed between the first body and the second body and operable to open and close a sheet hole (first flow path) of the first body while being elastically deformed according to the pressure of the fluid flowing through the second flow path; A seat guide installed in the first diaphragm to allow the seat hole to be opened or closed while a portion of the valve seat of the first body is inserted into or separated from the seat guide according to the operation of the first diaphragm; A second diaphragm disposed between the first diaphragm and the second body to operate the first diaphragm while being elastically deformed according to the pressure of the fluid flowing through the second flow path; And a spacer disposed between the first diaphragm and the second diaphragm to prevent leakage between the first diaphragm and the second diaphragm and to support the first diaphragm and the second diaphragm, respectively. It is characteristic in that it does.

The automatic opening and closing valve of the present invention, since the operation of opening and closing the flow of the fluid is made smoothly and continuously, there is no effect of vibration does not occur and there is an effect having excellent durability.

In addition, the automatic on-off valve of the present invention, there is no noise during use has a convenient effect for the user to use.

In addition, the automatic opening and closing valve of the present invention, there is an advantage that does not transmit the shock to the other mechanical elements connected to the vibration does not occur.

1 is a cross-sectional view for explaining a conventional automatic opening and closing valve.
Figure 2 is a schematic diagram showing an example of a water purifier in which the automatic opening and closing valve according to the first embodiment of the present invention is used.
3 is an exploded perspective view of the automatic opening and closing valve illustrated in FIG. 2.
4 is a cross-sectional view taken along the line IV-IV of the automatic shutoff valve shown in FIG. 3.
5 is a cross-sectional view of an automatic opening and closing valve according to a second embodiment of the present invention.
FIG. 6 is a partial perspective view of the automatic shutoff valve shown in FIG. 5. FIG.

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

Figure 2 is a schematic diagram showing an example of a water purifier in which the automatic opening and closing valve according to the first embodiment of the present invention is used.

When raw water (feed water) is supplied, it is supplied to the pretreatment filter 22 via the precipitation filter 21. The raw water that has passed through the pretreatment filter 22 is supplied to the aftertreatment filter 25 via a check valve 24 that prevents backflow in a purified state through the reverse osmosis filter 23. The water passing through the aftertreatment filter 25 is stored in the purified water tank 26 via the automatic opening / closing valve 100. Meanwhile, the concentrated water discharged from the reverse osmosis filter 23 is supplied to the inlet 311 of the automatic open / close valve 100 and discharged to the outside.

A water quantity sensor 27 such as a float switch, a micro switch, an optical sensor, and the like is installed in the purified water tank 26 to detect the water level of the purified water tank 26, and when the purified water tank 26 is filled with water, a supply valve ( 28 to close the supply of water. When the supply valve 28 is closed, the pressure of the fluid in the flow path (second flow path) between the post-treatment filter 25 and the purified water tank 26 increases, and the automatic opening / closing valve 100 of the second flow path 321 The pressure of the fluid is sensed to close the concentrated water flow path (first flow path) 315 between the inlet port 311 and the outlet port 312.

The pressure of the fluid in the second flow passage 321 between the aftertreatment filter 25 and the supply valve 28 when the supply valve 28 is opened by the water quantity sensor 27 using the water of the purified water tank 26. While descending, the first flow passage 315 between the inlet 311 and the outlet 312 of the automatic opening / closing valve 100 is opened and the concentrated water filtered by the reverse osmosis filter 23 is discharged again to the outside.

The structure of the automatic closing valve 100 of the present embodiment operating as described above will be described in detail with reference to FIGS. 2 and 3.

3 is an exploded perspective view of the automatic on / off valve 100 shown in FIG. 2, and FIG. 4 is a sectional view taken along line IV-IV of the automatic on / off valve 100 shown in FIG. 3.

3 and 4, the automatic closing valve 100 of the present embodiment includes a first body 31, a second body 32, a first diaphragm 41, and a second diaphragm 42. It is done by

The first body 31 has an inlet 311 and an outlet 312. The fluid is connected to the flow path to be opened and closed and flows into the inlet 311 and is discharged to the outside through the outlet 312. The first body 31 is formed with a sheet hole 313 connecting the first flow path 315 between the inlet 311 and the outlet 312, and the inlet 311 by opening and closing the sheet hole 313. And flow of the fluid in the first flow path 315 between the outlet 312 is opened and closed.

The second body 32 is disposed to face the first body 31 and is coupled to the first body 31 so that an empty space is formed between the first body 31. The second body 32 has a second passage 321 formed to transmit the pressure of the fluid.

A first diaphragm 41 formed of a thin rubber film is disposed between the first body 31 and the second body 32. The seat guide 61 is installed in the first diaphragm 41. When the first diaphragm 41 is elastically deformed by the pressure of the fluid transferred through the second flow passage 321, the seat guide 61 is seated. A portion of the sheet guide 61 is inserted into the sheet hole 313 while moving in the direction close to the hole 313 to close the sheet hole 313.

An inclined portion 314 is formed in the sheet hole 313 so that the inner diameter of the sheet hole 313 decreases as it proceeds away from the sheet guide 61. When the seat guide 61 closes the seat hole 313, the seat guide 61 is provided with an O-ring so that the seat guide 61 can be brought into close contact with the inclined portion 314 of the seat hole 313. 611 is installed.

A plurality of sheet protrusions 33 are formed on the outer circumference of the sheet hole 313. In this embodiment, as shown in FIG. 3, a total of eight sheet protrusions 33 are arranged at the same interval at the edge of the sheet hole 313. The relative of the sheet protrusion 33 and the seat guide 61 so that the O-ring 611 of the seat guide 61 can contact the seat protrusion 33 when the seat guide 61 is close to the seat hole 313. The position is adjusted.

Referring to FIG. 3, the depth d1 of some of the sheet grooves 341 of the sheet grooves 341 and 342 between each adjacent sheet protrusions 33 is equal to the depth d2 of the remaining sheet grooves 342. It is formed differently. In this embodiment, as shown in FIG. 3, the depth d2 of the four sheet grooves 342 is formed deeper than the depth d1 of the remaining four sheet grooves 341.

The second diaphragm 42 is disposed between the first body 31 and the second body 32 and is formed of a thin rubber film similarly to the first diaphragm 41. As shown in FIG. 3, the second diaphragm 42 is disposed between the first diaphragm 41 and the second body 32. The second flow path 321 of the second body 32 is formed to communicate with the second diaphragm 42, so that the second diaphragm 42 elastically deforms according to the pressure of the fluid in the second flow path 321. do.

The spacer 51 and the plunger 52 are disposed between the first diaphragm 41 and the second diaphragm 42. The spacer 51 is formed in a ring shape and the edges of the first diaphragm 41 and the second diaphragm 42 when the first body 31 and the second body 32 are coupled to each other. Squeeze each. As shown in FIG. 4, when the first body 31 and the second body 32 are fastened by screws, the spacers 51 respectively connect the first diaphragm 41 and the second diaphragm 42 to each other. The body 31 and the second body 32 is pressed against. In this way, the spacer 51 supports the first diaphragm 41 and the second diaphragm 42 and prevents leakage around the first diaphragm 41 and the second diaphragm 42. .

The plunger 52 is disposed between the first diaphragm 41 and the second diaphragm 42 and in a direction parallel to the direction in which the first diaphragm 41 and the second diaphragm 42 face each other. It is fitted to the spacer 51 so as to be movable. The pressure of the fluid delivered from the second flow passage 321 is transmitted to the plunger 52 via the second diaphragm 42, and the plunger 52 moves relative to the spacer 51 while the second diaphragm 42 is moved. The pressure of the fluid sensed by) is transmitted to the first diaphragm 41.

Hereinafter, the operation of the automatic closing valve 100 according to the present embodiment configured as described above will be described.

When the fluid flows into the inlet 311 in the state shown in FIG. 4, the seat guide 61 moves toward the second body 32 due to the pressure of the fluid in the first flow path 315, and accordingly the seat hole 313. ) Is opened. At this time, as the second diaphragm 42 is elastically deformed by the seat guide 61, the plunger 52 is pushed out, and the second diaphragm 42 is also elastically deformed by the plunger 52. Fluid passing through the seat hole 313 via the inlet 311 flows to the outlet 312.

Meanwhile, as shown in FIG. 2, the fluid introduced into the second flow path 321 of the automatic opening / closing valve 100 through the post-treatment filter 25 is filled in the purified water tank 26. When the water supply tank 26 is filled with water and the supply valve 28 is closed by the water quantity sensor 27, the pressure of the second flow passage 321 gradually increases.

As the pressure of the fluid in the second flow passage 321 rises, the second diaphragm 42 pushes the plunger 52 and the plunger 52 presses the first diaphragm 41. The seat guide 61 gradually enters the seat hole 313 by the elastic deformation of the first diaphragm 41. When the O-ring 611 of the seat guide 61 comes close to the seat protrusion 33, the first passage 315 between the seat hole 313 and the seat guide 61 gradually narrows, and the seat grooves 341, Mainly fluid flows through 342. As the seat guide 61 further enters the seat hole 313, four of the seat grooves 341, 342 are nearly closed by the O-ring 611 and the remaining four seat grooves 342. Fluid mainly flows through the holes (the relatively deeper sheet grooves 342 of the sheet grooves 341 and 342). As the seat guide 61 further enters the seat hole 313, the remaining seat grooves 341 and 342 are also closed by the O-ring 611. In addition, as described above, the inclined portion 314 is formed on the inner wall of the sheet hole 313, so that the O-ring 611 and the sheet hole 313 gradually enter as the sheet guide 61 enters the sheet hole 313. As the flow path between them narrows, the O-ring 611 comes into close contact with the inclined portion 314 to completely close the sheet hole 313.

As described above, as the pressure of the fluid in the second passage 321 gradually rises, the process of closing the seat hole 313 of the seat guide 61 is smoothly performed continuously.

Therefore, unlike the conventional automatic opening and closing valve described with reference to Figure 1, the automatic opening and closing valve 100 of the present embodiment is the inlet port because the seat hole 313 is continuously smoothly closed with the pressure rise of the second flow passage 321 fluid There is an advantage that the vibration does not occur in the process of closing the first passage 315 between the 311 and the outlet 312. As such, since vibration does not occur in the operation of the automatic shut-off valve 100, there is an advantage in that noise is not generated and a shortened life due to wear of the first diaphragm 41 and the second diaphragm 42 is also prevented. In addition, since the vibration of the automatic opening and closing valve 100 is prevented, there is an advantage that can also prevent damage to other components around.

As such, when the purified water is filled in the purified water tank 26, the first flow path 315 of the automatic shutoff valve 100 is closed and discharge of the concentrated water from the reverse osmosis filter 23 is also stopped.

When the user opens the supply valve 28 using water from the purified water tank 26, the pressure of the fluid in the second flow passage 321 decreases and the plunger 52 moves toward the second body 32 and the seat As the hole 313 is opened, the concentrated water is discharged to the outside through the inlet 311, the sheet hole 313, and the outlet 312 sequentially.

As described above, the preferred embodiment of the automatic on-off valve according to the present invention has been described, but the scope of the automatic on-off valve according to the present invention is not limited to the structure described and illustrated above.

For example, although the case of the automatic opening / closing valve 100 including the first diaphragm 41, the spacer 51, and the plunger 52 has been described as an example, the first diaphragm 41 and You may comprise the automatic switching valve which is not equipped with at least any one of the spacer 51 and the plunger 52. FIG. In either case, the pressure of the fluid in the second flow path actuates the first diaphragm so that the seat guide opens and closes the seat hole (first flow path).

In addition, the first body 31 has been described as having eight sheet protrusions 33 and eight sheet grooves 341 and 342, but the number of sheet protrusions and sheet grooves may be changed as necessary. In addition, the depth of the sheet grooves may be variously adjusted as necessary.

Moreover, the automatic opening / closing valve which does not have the sheet | seat protrusion 33 and the seat grooves 341 and 342 can also be comprised. In this case, the opening and closing of the seat hole can be smoothly performed continuously by the interaction between the O-ring of the seat guide and the inclined portion of the seat hole.

In addition, the second channel 321 has been described as an example in which the second body 32 is formed in two directions through the second body 32, as shown in FIG. Like the automatic opening and closing valve of the opening in only one way (one way) it can also be configured in the form of sensing the pressure of the fluid in the second flow path.

Further, the inclined portion of the sheet hole may be formed to extend to the sheet projection, or the inclined portion may be formed to be distinguished from the sheet projection.

Hereinafter, an automatic shutoff valve according to a second embodiment of the present invention will be described. FIG. 5 is a cross-sectional view of the automatic on / off valve according to the second embodiment, and FIG. 6 is an exploded perspective view of a portion of the automatic on / off valve shown in FIG. 5.

5 and 6, the configuration of the automatic on / off valve of the second embodiment except for the configuration around the seat hole 313 and the seat guide 62 is the same as that of the automatic on / off valve of the first embodiment. The same components as those in the first embodiment are assigned the same member numbers, and detailed description thereof will be omitted.

The automatic opening / closing valve of the second embodiment includes a valve seat 35 formed to protrude so as to surround the outer periphery of the seat hole 313 in the seat hole 313 of the first body 31. As a part of the valve seat 35 is inserted into or detached from the seat guide 62 installed in the first diaphragm 41, the seat hole 313 (first flow path) is opened or closed.

An o-ring 351 is provided at an outer diameter of the valve seat 35, and an inclined portion 621 is formed at an inner diameter of the seat guide 62 which comes into contact with the o-ring 351. The inclined portion 621 of the seat guide 62 is formed to be inclined in a direction in which the inner diameter thereof decreases as it moves away from the valve seat 35.

As illustrated in FIG. 6, eight guide protrusions 622 are formed in the seat guide 62, and guide grooves 623 and 624 are formed between the guide protrusions 622. The depth h1 of four guide grooves 623 among the eight guide grooves 623 and 624 is formed deeper than the depth h2 of the remaining four guide grooves 624.

When the pressure in the second flow path 321 rises and the seat guide 62 approaches the valve seat 35 by the action of the second diaphragm 42, the plunger 52, and the second diaphragm 42. As the guide protrusions 622 come into contact with the O-ring 351 of the valve seat 35, the first flow path 315 of the seat hole 313 is narrowed. First, the four guide grooves 624 having a relatively low depth are blocked by the O-ring 351 of the valve seat 35, and the seat guide 62 is closer to the valve seat 35 and the remaining four guide grooves ( 623 are also blocked by the O-ring 351. Further, the seat hole 62 is close to the valve seat 35 while the O-ring 351 of the valve seat 35 is in close contact with the seat guide 62 along the inclined portion 621 of the seat guide 62. 313 will be completely closed.

31: first body 32: second body
41: first diaphragm 42: second diaphragm
51: spacer 52: plunger
311: inlet 312: outlet
321: second euro 61: seat guide

Claims (18)

In the automatic opening and closing valve for detecting the pressure of the fluid flowing through the second flow path and automatically opening and closing the flow path (first flow path) of the fluid between the inlet and outlet according to the detected pressure,
A first body having the inlet and the outlet and formed with a sheet hole connecting the inlet and the outlet to form a first flow path;
A second body disposed to face the first body and coupled to the first body and having the second flow path formed therein;
A first diaphragm disposed between the first body and the second body and operable to open and close a sheet hole (first flow path) of the first body while being elastically deformed according to the pressure of the fluid flowing through the second flow path;
A seat guide installed in the first diaphragm to open or close the seat hole while a portion thereof is inserted into or separated from the seat hole of the first body according to the operation of the first diaphragm;
A second diaphragm disposed between the first diaphragm and the second body and elastically deformed according to the pressure of the fluid flowing through the second flow path to operate the first diaphragm; And
A spacer disposed between the first diaphragm and the second diaphragm to prevent leakage between the first diaphragm and the second diaphragm and to support the first diaphragm and the second diaphragm, respectively; Automatic opening and closing valve, characterized in that. delete The method of claim 1,
And a plunger disposed between the first diaphragm and the second diaphragm to transfer the pressure applied to the second diaphragm by the fluid flowing through the second flow path to the first diaphragm. Automatic opening and closing valve. delete The method of claim 3,
The spacer is formed in the shape of a ring,
And the plunger is fitted to the spacer such that the first diaphragm and the second diaphragm can move in a direction parallel to each other. The method according to any one of claims 1, 3 or 5,
And the seat hole of the first body has an inclined portion formed such that an inner diameter of the seat hole decreases as it proceeds away from the seat guide. The method according to claim 6,
Automatic seating valve, characterized in that the seat guide O-ring (O-ring) is installed. The method of claim 7, wherein
And a plurality of seat protrusions formed on an outer circumference of the seat hole of the first body to contact the O-ring of the seat guide when the seat guide approaches the seat hole. 9. The method of claim 8,
The depth of some seat grooves of the seat grooves formed between the adjacent seat projections is formed differently from the depth of the remaining seat grooves. In the automatic opening and closing valve for detecting the pressure of the fluid flowing through the second flow path and automatically opening and closing the flow path (first flow path) of the fluid between the inlet and outlet according to the detected pressure,
A first body having the inlet and the outlet and having a seat hole connected between the inlet and the outlet to form a first flow path and having a valve seat surrounding the outer periphery of the seat hole;
A second body disposed to face the first body and coupled to the first body and having the second flow path formed therein;
A first diaphragm disposed between the first body and the second body and operable to open and close a sheet hole (first flow path) of the first body while being elastically deformed according to the pressure of the fluid flowing through the second flow path;
A seat guide installed in the first diaphragm to allow the seat hole to be opened or closed while a portion of the valve seat of the first body is inserted into or separated from the seat guide according to the operation of the first diaphragm;
A second diaphragm disposed between the first diaphragm and the second body to operate the first diaphragm while being elastically deformed according to the pressure of the fluid flowing through the second flow path; And
A spacer disposed between the first diaphragm and the second diaphragm to prevent leakage between the first diaphragm and the second diaphragm and to support the first diaphragm and the second diaphragm, respectively; Automatic opening and closing valve, characterized in that. delete The method of claim 10,
And a plunger disposed between the first diaphragm and the second diaphragm to transfer the pressure applied to the second diaphragm by the fluid flowing through the second flow path to the first diaphragm. Automatic opening and closing valve. delete The method of claim 12,
The spacer is formed in a ring shape,
And the plunger is fitted to the spacer such that the first diaphragm and the second diaphragm can move in a direction parallel to each other. The method according to any one of claims 10, 12 or 14,
And the seat guide has an inclined portion formed such that an inner diameter of the seat guide decreases as it moves away from the valve seat. 16. The method of claim 15,
The valve seat is an automatic shut off valve, characterized in that the O-ring is installed. 17. The method of claim 16,
And the seat guide has a plurality of guide protrusions formed to contact the O-ring of the valve seat when the seat guide approaches the valve seat. 18. The method of claim 17,
The depth of some of the guide grooves of the guide grooves formed between the adjacent guide protrusions is formed differently from the depth of the remaining guide grooves.

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