KR100814581B1 - Auto-close type water cock - Google Patents

Abstract

The present invention relates to a self-closing valve of a novel structure that is simple in operation and compact in usability.

According to the present invention, a housing 2 having a main flow path formed of one end of the inlet 10 and the other side of the outlet 12 is formed, and the operation member 50 is disposed at a position facing the inlet 10, and the The first pressure chamber 21 is provided so as to be spaced apart from the circumferential wall in the housing 2 adjacent to the inlet 10, and the pores 23 communicating with the main water channel of the inlet 10 are formed therein, and the first pressure. The first piston 30 and the first pressure chamber 21, which are tightly coupled to slide in the seal 21, open and close the first flow path 25 on the main flow path, and have a connection passage 33 formed therein, and are disposed in the first pressure chamber 21. And the first spring 22 which presses the first piston 30 in the flow path closing direction and the connecting passage 33 of the first piston 30 are always in communication with the discharge port 12 of the housing 2. The second pressure chamber 41 and the second spring 42, which are selectively communicated with the open pressure release second flow path 45, The second piston 40 to open and close the second flow path 45 of the second pressure chamber 41 and the base end of the operation member 50 is installed in the third spring 52, the second There is provided a self-closing valve composed of an expansion block 51 for pressing the end of the piston 40.

Valves, self closing, pressure chamber, lever, soft touch

Description

Self-closing valve {Auto-close type water cock}

1 is a cross-sectional view of an embodiment of the present invention

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

 2. Housing 10. Inlet

12. Outlet port 21. First pressure chamber

22. First Spring 23. Handwork

25. First flow path 26. First packing

27. Third Packing 30. First Piston

40. Second piston 41. Second pressure chamber

42. Second spring 45. Second flow path

46. First packing 47. Third flow path

50. Control member 51. Expansion block

52. Third Spring 53. Boss

The present invention relates to a self-closing valve, and more particularly, to a new structure of the self-closing valve is easy to operate yet compact in size and excellent in usability.

In public baths, saunas, hospitals, schools, parks, and other public facilities, once a shower or valve is operated, water is continuously discharged and wasted while it is not used. Autistic valves have been developed and used. The self-closing valve has a pressure chamber inside the valve housing, pressurizes the piston in one direction by the pressure of the pressure chamber to block the flow path, and when the button is pressed, the piston is retracted while the pressure in the pressure chamber is released. Water is discharged as the flow path is opened, and when a certain time passes, the water flows back into the pressure chamber, and when the pressure is recovered, the piston is advanced again to block the flow path. Such a self-closing valve can set the opening time of the valve after button operation by adjusting the time taken to recover the pressure in the pressure chamber by adjusting the elastic force of the spring for pressing the piston, the size of the through hole through the pressure chamber, and the like.

By the way, such a self-closing valve in the prior art by operating the opening and closing button or the handle to open the pressure in the pressure chamber and at the same time move the piston against the elasticity of the spring to open the flow path to come out of the water, a large force to push the piston Because of this, in general, self-closing valves are not easy to open and close, making them unsuitable for the weak elderly.

On the other hand, in hospitals and other multi-use facilities, there is a fear of bacterial infection when the button or handle of the valve is touched by hand. In particular, when the doctor touches a button or handle on the valve with blood or other contaminants on his or her hand, such as a doctor who performed surgery, the valve may be contaminated by bacteria. In addition, when the hand can not be used freely for some reason, the above-described autistic valve was very stiff, there was a problem that can not be turned.

In addition, the conventional self-closing valve is composed of a double chamber having a pressure chamber auxiliary valve body inside the piston for opening and closing the main flow path to increase the size of the valve body, and a complicated flow path and through holes are formed around the pressure chamber, There was a problem that it was complicated and difficult to process.

The present invention has been proposed in view of the problems of the conventional self-closing valve as described above, and is intended to provide a new structure of the self-closing valve that is simple in structure and compact, and opens smoothly even with a slight touch. In addition, the present invention can be easily operated even by touching lightly with a portion other than the hand, to provide a new structure of the self-closing valve to prevent contamination through the hand and easy to use.

According to one feature of the invention, the housing 2 is formed with a main flow path consisting of one end of the inlet 10 and the other outlet 12 is formed and the operation member 50 is disposed in a position facing the inlet 10 And a first pressure chamber 21 provided in the housing 2 adjacent to the inlet 10 so as to be spaced apart from the circumferential wall, and having pores 23 communicating therein with the main channel of the inlet 10. The first piston 30 is tightly coupled to slide in the first pressure chamber 21 to open and close the first flow path 25 on the main flow path, and has a connection passage 33 formed therein, and the first pressure chamber 21. And a first spring 22 which presses the first piston 30 in the flow path closing direction and the connection passage 33 of the first piston 30, is always in communication with the discharge port of the housing 2. 12, by the second pressure chamber 41 and the second spring 42, which are selectively communicated with the second passage 45 for pressure release. The second piston 40 is installed and opened and closed to open and close the second flow path 45 of the second pressure chamber 41, and is mounted on the proximal end of the operation member 50 to be coalesced in the third spring 52. A self-closing valve is provided, comprising an expansion block 51 for pressing the end of the second piston 40.

According to another feature of the invention, the operation member 50 is composed of a lever extending coaxially to the second piston 40, the circumferential portion 54 of the expansion block 51 is the housing (2) Is arranged to abut against the inner wall of the opening (14) of the opening (14), when the lever is pressed in the axial direction or touched to one side, the expansion block 51 is axially or in the housing (2) A self-closing valve is provided which is adapted to pressurize the second piston 40 while flowing in any lateral direction.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. 1 is a configuration diagram of an embodiment of the present invention, as shown, the inlet 10 is formed on one end of the substantially long cylindrical housing 2, the discharge port 12 is formed on the side wall of the housing 2 At the other end of the cylindrical housing 2, a lever type operation member 50 is disposed. Water flows through the main flow path from the inlet 10 to the outlet 12. In the interior adjacent to the inlet 10 side of the housing 2 is formed a substantially cylindrical first pressure chamber 21 spaced apart from the circumferential wall of the housing 2. The first pressure chamber 21 is formed with pores 23 which are pressure recovery flow paths communicating with the main flow path on the inlet 10 side. The fine hole 23 is provided with a foreign matter removal pin 28 for removing the foreign matter caught in the fine hole 23 is installed in the spring 29.

On the other side of the first pressure chamber 21, the first piston 30 is tightly coupled by the third packing 27 and slidable by the first spring 22 supported by the first pressure chamber 21. It is provided. The first piston 30 is formed between the housing 2 and the first pressure chamber 21 at the site of the first packing 26 coupled to the circumference thereof, and the main flow path connected to the inlet 10 and the discharge port ( The first flow path 25 communicating with the main flow path leading to 12 is opened and closed. The first piston 30 is provided with a hollow rod portion therein is formed with a connection passage 33.

One side of the first piston 30 is formed with a second pressure chamber 41 is in constant communication with the connecting passage 33 of the first piston (30). The second pressure chamber 41 has a second spring 42 embedded therein to elastically support another second piston 40 extending coaxially while being spaced apart from the first piston 30. The second piston 40 opens and closes the second pressure chamber 41 at the site of the second packing 46 coupled to the periphery thereof, thereby opening the second pressure chamber 41 in the discharge port 12 in the housing 2. ) Opens and closes the second flow passage 45 and the third flow passage 47.

On the other hand, the other end extending from the second piston 40 is fitted to the boss portion 53 formed at the end of the expansion block 51 mounted to the base end of the lever which is the operation member 50. The extended circumferential portion 54 of the expansion block 51 is disposed to abut on the inner wall of the inward stepped portion 15 of the opening 14 disposed on the opposite side of the inlet 10 of the housing 2. And is elastically supported by a third spring 52 fitted into the circumference portion of the second piston 40 and the circumference portion of the boss portion 53.

The lever type operating member 50 extends somewhat coaxially with respect to the second piston 40. The expansion block 51 integrally mounted to the proximal end of the operation member 50 is arranged to have a significant clearance in the housing 2, thereby moving the operation member 50 in the axial direction of the second piston 40. Of course, the piston 40 can be displaced by pressing, but even if the operation member 50 is touched and lightly pushed in any radial direction of the cylindrical housing 2, the expansion block 51 is rotated in a flexible manner. The second piston 40 fitted to the boss portion 53 can be displaced by the action of.

Referring to the operation of the self-closing valve of the present invention having such a configuration, initially the pressure equivalent to the water pressure on the inlet 10 side acts on the first pressure chamber 21 and the second pressure chamber 41 in communication therewith. In addition, the elastic forces of the first spring 22 and the second spring 42 are added to the hydraulic pressure in these pressure chambers, so that the first flow path 25 between the inlet 10 and the outlet 12 and the second pressure The second flow path 45 between the seal 41 and the discharge port 12 remains blocked. In this state, when the operation member 50 is slightly pushed in any axial or radial direction, the expansion block 51 is axially moved or lever-driven against the elastic force of the third spring 52 so as to be rotated. 2 Slide out the piston (40). Then, the second pressure chamber 41 is opened at the portion of the second packing 46 so that the water therein is discharged to the discharge port 12 through the second flow path 45 and the third flow path 47.

Then, the water pressure decreases in the second pressure chamber 41 and the first pressure chamber 21 which is in constant communication with the second pressure chamber 41. Then, the supply water pressure acting on the inlet 10 side becomes relatively larger, so that the first flow path 25 Supply water pressure acting through the first piston 30 is retracted against the elastic force of the first spring 22, the flow path facing the first packing 26 coupled to the circumference of the first piston 30 Is opened to communicate with the discharge port 12 so that the main flow path is completely opened and water is discharged from the inlet port 10 to the discharge port 12.

As described above, while water is discharged through the main flow passage, water gradually flows into the first pressure chamber 21 through the pores 23, which are pressure recovery flow paths, so that water pressure in the first pressure chamber 21 is inlet 10. It is recovered to approach the water pressure of. Then, when the hydraulic pressure of the first pressure chamber 21 and the elastic force by the first spring 22 exceed the supply hydraulic pressure supplied from the inlet 10, the first piston 30 is returned to the first packing. The first flow path 25 is blocked while the 26 is in contact with the valve seat facing the main seat.

According to the present invention described above, the housing 2 is divided into two pressure chambers communicating with each other, and the second piston 40 of the second pressure chamber 41, which is one pressure chamber, is elastic to the second spring 42. It acts as a pressure releasing piston that is pressurized and opens even when a small force is applied to the operation member 50, and the first piston 30 of the first pressure chamber 21, which is the other pressure chamber, is elastic by the first spring 22. By acting as a main valve element that is pressurized to open and close the main flow passage, the opening and closing operation of the valve can be performed by only touching the operation member 50 in the axial direction or one side. Moreover, the 1st pressure chamber 21 and the 2nd pressure chamber 41 are coaxially arranged in the housing | casing 2, and these pressure chambers 21 and 41 communicate with the rod part of the 1st piston 30, respectively. By providing a connecting passage 33, the body of the valve housing can be made slim and compact as a whole, compared to the structure of the self-closing valve in which the auxiliary valve body is built in the conventional main valve body, and a separate complicated flow path in the housing Reduced perforations, etc. to form the structure is simple yet easy to manufacture.

In addition, the operating member 50 is composed of a lever extending coaxially to the second piston 40, the circumferential portion 54 of the expansion block 51 is formed in the opening 14 of the housing 2 It is arranged to abut on the inner wall in the inclined end portion 15, even if the lever is pressed in the axial direction or touched to one side, if the expansion block 51 flows in the axial or lateral direction in the housing 2, the lever Thus, the user can operate the valve simply by touching the lever lightly with his hand or other parts of the body, so that the hospital or other public facilities that may be infected or contaminated by the hand or the nursing home lacking the power to operate the valve It can be used more suitably in other facilities.

Claims (2)

A main flow passage formed with one end of the inlet 10 and the outlet 12 of the other side is formed, and the housing 2 having the operation member 50 disposed at a position facing the inlet 10, and the inlet 10. The first pressure chamber 21 is provided to be spaced apart from the circumferential wall in the adjacent housing 2 and the pores 23 communicating with the main water channel of the inlet 10 are formed in the first pressure chamber 21. The first piston 30 is formed in the first pressure chamber 21 and the first piston 30 which is tightly coupled to slide to open and close the first flow path 25 on the main flow path, and has a connection passage 33 formed therein. The first spring 22 for pressurizing the 30 in the flow path closing direction and the connection passage 33 of the first piston 30 is always in communication with the pressure release opening 12 to the discharge port 12 of the housing 2 The second pressure chamber 41 is carbonized by the second pressure chamber 41 and the second spring 42, which are selectively communicated with the second flow path 45. The second piston 40 is opened and closed to open and close the second flow path 45, and is mounted on the proximal end of the operation member 50 is installed in the third spring 52 to press the end of the second piston 40 Self-closing valve, characterized in that consisting of expansion block (51). The method of claim 1, wherein the operation member 50 is composed of a lever extending coaxially to the second piston (40), the circumference (54) of the expansion block (51) of the housing (2) It is arranged to abut against the inner wall in the inward stepped portion 15 of the opening 14, when the lever is pressed in the axial direction or touched to one side, the expansion block 51 is axial or arbitrary in the housing (2) Self-closing valve, characterized in that for flowing in the lateral direction to press the second piston (40).

Images