KR200467171Y1 - overpressure valve - Google Patents

Abstract

The present invention discloses a non-return valve. According to an embodiment of the present invention, a cylindrical body having a flow path for allowing gas or fluid to flow therein, and an opening and closing member installed on one side of the body to open and close the flow path; A gap adjusting part rotatably supporting the opening / closing member with respect to the body and adjusting the opening / closing member to be in close contact with the inlet of the body; A weight control unit fixed to the opening / closing member and configured to control whether the opening / closing member is opened or closed by changing the position of the weight; And it may be provided with a non-return valve including a restraining portion for restraining the rotation of the opening and closing member.

Description

Overpressure valve

The present invention relates to a non-return valve, and more particularly, it is possible to easily and easily adjust the opening and closing degree of the opening and closing member according to the pressure, and at the same time can freely adjust the gap that may occur between the opening and closing member and the body supporting the opening and closing member. To a non-return valve.

In general, the non-return valve serves to allow gas or fluid to flow in only one direction. The non-return valve is installed on one side of the building to maintain a constant indoor pressure inside the building, or is installed on a pipe for moving the fluid such as water and sewage serves to prevent the fluid flow back.

In other words, the internal gas or fluid flows out through the valve according to the pressure difference between the inside and the outside of the building and the pipe, and the internal pressure such as the building and the pipe is kept constant while the outside air of the building and the pipe is kept. And preventing the gas and the fluid from entering the building and the pipe, such as restricting the flow into the inner pipe and the like, or preventing the gas and the fluid from flowing back.

1 is a view schematically showing a conventional non-return valve.

Referring to this, the conventional non-return valve 1 is installed on the body 10 and the inlet of the body 10 and the inlet 11 and the outlet 12 is formed can selectively open and close the inlet 11. The opening and closing member 20 and the opening and closing member 20 and the body 10 to connect the opening and closing member 20 and the body 10 to be rotated with respect to the body 10. Constraining member 40 to limit the rotation of the opening and closing member 20 may be included.

The conventional non-return valve 1 having the above configuration is opened and closed as shown in FIG. 2 when the initial opening / closing member 20 exceeds the allowable pressure in a state in which the inlet 11 is sealed. When the member 20 is rotated to discharge the gas or fluid while opening the inlet 11, and when the allowable constant pressure is reached due to the discharge of the gas or the fluid, the opening and closing member 20 is rotated by the rotating member 30 again. By sealing the inlet port 11, the gas or fluid is prevented from being discharged and introduced.

However, the conventional non-return valve 1 has a complicated configuration, and the opening / closing member 20 which opens and closes the inlet 11 of the body 10 is completely in close contact with the inlet 11 of the body 10. This is not made, there is a disadvantage that the air leaks through the gap generated between the inlet 11 and the opening and closing member 20.

In addition, no means for adjusting the opening / closing degree of the opening / closing member 20 which is rotated with respect to the body 10 to open and close the flow path is not disclosed. Since the 20 seals the inlet 11 of the body 10, there is a disadvantage in that the pressure can not be adjusted such that the opening and closing member 20 is rotated even at a low pressure.

That is, no means for adjusting the allowable pressure was provided. Therefore, there is a disadvantage in that the opening and closing of the opening and closing member 20 can not be adjusted according to the pressure in the building or the pressure inside the pipe, and the opening and closing member 20 is rotated even at a low pressure to open the inlet 11. There is a disadvantage of malfunction.

In other words, when the pressure in the building or the pipe exceeds the allowable pressure, the opening and closing member 20 sealing the inlet 11 is rotated and the inlet 11 is opened to lower the pressure in the building or the pipe to a certain level. By automatically discharging the gas and fluid to the outside until the pressure in the building and piping always maintain a constant level, the conventional non-return valve (1) is provided with a control means for adjusting the pressure in the building and piping There was not.

Accordingly, the present applicant has devised a non-return valve capable of solving the above-described conventional problems.

One embodiment of the present invention is to allow the opening and closing member to be rotated under the pressure conditions inside the building or the pipe desired by the user at the same time to ensure that the opening and closing member opening and closing the inlet of the body is in close contact with the inlet of the body. To provide a non-return valve to prevent air from leaking outside the body.

In addition, to provide a non-return valve for a simple structure and easy and convenient operation by the operator.

According to an embodiment of the present invention, a cylindrical body having a flow path for allowing gas or fluid to flow therein, and an opening and closing member installed on one side of the body to open and close the flow path; A gap adjusting part rotatably supporting the opening / closing member with respect to the body and adjusting the opening / closing member to be in close contact with the inlet of the body; A weight control unit fixed to the opening / closing member and configured to control whether the opening / closing member is opened or closed by changing the position of the weight; And it may be provided with a non-return valve including a restraining portion for restraining the rotation of the opening and closing member.

In addition, the body is made of a tubular shape formed with a flow path so that gas can flow into the inside, the inlet is formed at one end and has an outlet at the other end, one end of the body formed with the inlet is extended in the radial direction of the body The locking piece is formed, and the locking piece may be formed of a protruding jaw whose end extends inwardly of the body.

In addition, the protrusion member may be provided with a packing member.

In addition, the gap adjusting portion is positioned so as to penetrate the engaging piece formed on the inlet side of the body, the sliding shaft provided with a support at one end; A supporter positioned to surround the sliding shaft passing through the locking piece; An adjustment screw positioned in the adjustment hole formed on the supporter and screwed with the sliding shaft; And one side is rotatably coupled to the support of the sliding shaft, the other side may be made of a bracket screwed with the opening and closing member.

In addition, one side of the supporter is fixedly coupled to the locking piece, a through hole may be formed so that the sliding shaft can be inserted.

In addition, the weight adjusting portion may be made of a weight adjusting screw penetrating the opening and closing member, and a weight coupled to the weight adjusting screw.

In addition, the restraint part may be installed on the opening and closing member, and one side may be provided with a restraining wing to be caught by a locking piece provided at the inlet side of the body as it rotates.

Embodiments of the present invention may further include a gap control unit capable of fine adjustment so that the opening and closing member can be rotated at the pressure of the inside of the building or the pressure inside the pipe desired by the user, and at the same time, the inlet of the opening and closing member is completely in contact. By doing so, leakage of air to the outside can be prevented.

In addition, the weight control unit can be easily and simply manipulated to control the opening and closing.

1 is a view schematically showing a conventional non-return valve.
2 is a view schematically showing an operating state of a conventional non-return valve.
3 is a view schematically showing a non-return valve according to an embodiment of the present invention.
4 is a cross-sectional view of Fig.
Figure 5 is an exploded perspective view of the gap control unit of the non-return valve in accordance with an embodiment of the present invention.
6 is a side view of the non-return valve in accordance with an embodiment of the present invention.
7 is a view schematically showing a state of operating the weight control unit of the non-return valve in accordance with an embodiment of the present invention.
8 is a view schematically showing the operation of the restraint part of the check valve according to an embodiment of the present invention

Hereinafter, with reference to the drawings, it will be described in more detail with respect to the non-return valve in accordance with embodiments of the present invention.

The non-return valve 100 according to an embodiment of the present invention serves to maintain a constant pressure in a building or a pressure inside a pipe, and in particular, the inlet of the body 110 to discharge a gas or a fluid. By opening and closing the opening and closing member 120 and the opening on the inlet 111 of the body 110 to support the opening and closing member 120 through the fine control to achieve a close contact, the air leaks to the outside Can be prevented.

3 is a view schematically showing a non-return valve according to an embodiment of the present invention, Figure 4 is a cross-sectional view of FIG.

3 and 4, the non-return valve 100 according to an embodiment of the present invention is a tubular body 110 is formed with a flow path for allowing gas or fluid to flow therein, and the body ( It is installed on one side of 110 to open and close the opening and closing member 120 and the body 110, the opening and closing member 120 with respect to the body 110, the opening and closing member 120 is the Gap control unit 130 to be adjusted to be in close contact with the inlet 111 of the body 110, the fixed opening and closing of the opening and closing member 120 to control the opening and closing of the opening and closing member 120 by changing the position of the weight The weight adjusting unit 140 and the restraining unit 150 to restrain the rotation of the opening and closing member 120 may be included.

The body 110 is formed in a cylindrical shape in which a flow path is formed so that gas can flow into the inside, and forms an inlet 111 at one end located inside the building, and an outlet 112 at one end located inside the building. Can be formed.

Here, the non-return valve 100 according to an embodiment of the present invention may be installed on one side of a wall of the building to adjust the pressure inside the building and may be installed on a pipe of water supply to control the flow of fluid. In an embodiment of the present invention for convenience of description it will be described based on the non-return valve 100 is installed on one side of the wall of the building to control the pressure through the discharge of the gas inside the building.

At one end formed with the inlet 111 of the body 110, as shown in Figure 4, the engaging piece 114 is formed so as to extend in the radial direction of the body 110, one end formed with the outlet 112 The flange 113 may be formed to extend outwardly of the body 110.

At this time, the engaging piece 114 is formed to extend in the radial direction of the body 110, the protruding jaw 115 is formed so that the end is extended inward, the end of the protruding jaw 115 extending inwardly The packing member 116 may be installed to minimize the occurrence of noise during contact with the opening and closing member 120 to be described later, and to prevent the air in the body 110 from leaking.

That is, the protruding jaw 115 of the locking piece 114 serves to limit the rotation of the opening and closing member 120 to be described later, the flange 113 is to facilitate the coupling with the wall surface of a separate pipe or building. It plays a role.

The opening and closing member 120 is positioned inside the body 110 and is positioned such that one surface thereof is in contact with the protruding jaw 115 of the locking piece 114.

That is, the opening and closing member 120 may be formed in a plate shape to seal the inlet 111 when contacting the protruding jaw 115, and open the inlet 111 when not in contact.

The gap adjusting unit 130 may be installed on the locking piece 114 of the body 110 to support the opening / closing member 120 in a rotatable manner, and may be spaced apart from the locking piece 114 and the opening / closing member 120. The opening and closing member 120 may be in close contact with the protruding jaw 115 of the locking piece 114 by adjusting a distance.

Specifically, as shown in FIG. 5, the gap adjusting unit 130 is positioned to penetrate the locking piece 114 and has a sliding shaft 131 provided at one end thereof with a support 131a and the locking piece ( The supporter 132 is positioned to surround the sliding shaft 131 penetrating through the 114, and the adjustment screw is located in the adjustment hole (132a) formed on the supporter 132 and screwed with the sliding shaft 131 133, and one side may include a bracket 134 is rotatably coupled to the support 131a of the sliding shaft 131, the other side is screwed with the opening and closing member 120.

That is, the sliding shaft 131 is provided with a support 131a at one end and a thread formed at the other end thereof so that the one end having the thread formed on the engaging piece 114 is exposed to the outside.

In addition, the supporter 132 is a state in which a through hole 132b into which the sliding shaft 131 can be inserted is formed, and may be screwed outwardly of the locking piece 114. At this time, the supporter 132 has an adjustment hole 132a is formed at the other end screwed to the engaging piece 114, the sliding in the state that the adjustment screw 133 is located in the adjustment hole (132a). It is a structure that is screwed with the shaft (131).

Therefore, when the adjusting screw 133 located in the adjusting hole 132a of the supporter 132 is rotated, the sliding shaft 131 is moved in the direction of the arrow as shown in FIG. 6.

In addition, the bracket 134 is formed to protrude so that one side of the pair of rotating pieces 134a face each other, and can be rotated with the support tool 131a of the sliding shaft 131 by the rotating screw 135. The other side is fixedly coupled to the opening and closing member 120 and the bolt.

In this case, a bearing may be provided between the rotating screw and the rotating piece to smoothly rotate the rotating screw.

Therefore, as a result, when the adjusting screw 133 provided on the supporter 132 is rotated, the sliding shaft 131 is moved in the direction of the arrow, and thus the support tool 131a of the sliding shaft 131 and As the bracket 134 rotatably coupled is moved in the same manner as the sliding shaft 131, the opening / closing member 120 is brought into close contact with the protruding jaw 115 of the locking piece 114, so that the gas in the body 110 is moved. You can block exposure to the outside.

On the other hand, the weight adjusting unit 140 may be provided on one side of the opening and closing member 120 is rotatably coupled to the sliding shaft 131 through the bracket 134.

The weight adjusting unit 140 functions to keep the opening and closing member 120 in close contact with the protruding jaw 115 of the locking piece 114 by its own weight, and the weight penetrating the opening and closing member 120. The adjustment screw 141 and the weight adjustment screw 141 may include a weight 142 screwed.

That is, as shown in Figure 7, the initial weight 142 is rotated to the weight 142 in the state positioned adjacent to the opening and closing member 120 to the left end on the drawing of the weight adjustment screw 141 When the weight of the weight 142, the weight of the structure gradually becomes stronger, it is possible to control the opening and closing of the opening and closing member 120, such as to adjust the allowable pressure in accordance with the position of the weight (142).

As shown in FIG. 8, the restraining part 150 may be installed on the opening / closing member 120 opposite to the gap control part 130. That is, the gap control unit 130 is installed on the engaging piece 114 located on the upper side of the body 110, the restraining unit 150 is an opening and closing member 120 is located below the body 110 It is installed on the side by allowing one side of the restraining portion 150 to be caught by the locking piece 114 in accordance with the rotation, it is possible to restrain the opening and closing member 120 is rotated.

At this time, the restraining part 150 is provided with a restraining wing 152 protruding in one direction, and the restraining wing 152 is caught by the catching piece 114 so that the opening and closing member 120 is consequently restricted. You can do it.

Therefore, the non-return valve 100 according to the embodiment of the present invention having the configuration as described above has the closing member 114 of the body 110 by the opening and closing member 120 by the gap control unit 130. By controlling the separation distance with the protruding jaw 115 formed in the) such that the opening and closing member 120 and the inlet 111 is completely in contact, it is possible to completely block the leakage of gas to the outside.

In addition, the opening and closing of the opening and closing member 120 may be controlled by moving the weight 142 of the weight adjusting unit 140 provided on the opening and closing member 120.

In addition, the gap adjusting unit 130 and the weight adjusting unit 140, such as simplifying the structure, such as simply by the rotation of the adjustment screw, the closeness of the opening and closing member 120 and the locking piece 114 and the opening and closing member 120 You can adjust the degree of opening and closing.

As described above, embodiments of the present invention have been described, but a person having ordinary knowledge in the art may add, change, delete or add an element within the scope not departing from the spirit of the present invention described in the utility model claims. The present invention may be modified and changed in various ways, etc., which will also be included within the scope of the present invention.

100: check valve 110: body
111: inlet 112: outlet
113: flange 114: locking piece
115: protruding jaw 116: packing member
120: opening and closing member 130: gap control unit
131: sliding shaft 131a: support
132: supporter 132a: adjustment hole
133: adjusting screw 134: bracket
134a: rotating part 135: rotating screw
140: weight adjustment unit 141: weight adjustment screw
142: weight 150: restraint
152: Restraint Wings

Claims (10)

A cylindrical body having a flow path for allowing gas or fluid to flow therein,
An opening and closing member installed at one side of the body to open and close the flow path;
A gap adjusting part rotatably supporting the opening / closing member with respect to the body and adjusting the opening / closing member to be in close contact with the inlet of the body;
A weight control unit fixed to the opening / closing member and configured to control whether the opening / closing member is opened or closed by changing the position of the weight; And
Constraining part to restrain the rotation of the opening and closing member,
The weight control unit is a non-return valve consisting of a weight adjusting screw penetrating the opening and closing member and a weight coupled to the weight adjusting screw. The method of claim 1, wherein the body is made of a cylindrical shape formed with a flow path so that gas can flow into the inside, one end of the inlet is formed and the other end has an outlet, the one end of the body formed with the inlet is a radius of the body A locking piece is formed to extend in a direction, and the locking piece comprises a protruding jaw whose end extends inwardly of the body. The non-return valve of claim 2, wherein a packing member is installed at the protruding jaw. The method of claim 1, wherein the gap control unit
A sliding shaft positioned to penetrate the engaging piece formed at the inlet side of the body, and having a support provided at one end thereof;
A supporter positioned to surround the sliding shaft passing through the locking piece;
An adjustment screw positioned in the adjustment hole formed on the supporter and screwed with the sliding shaft; And
One side is rotatably coupled with the support of the sliding shaft, the other side is a non-return valve consisting of a bracket screwed with the opening and closing member. The non-return valve according to claim 4, wherein the supporter has one side fixedly coupled to the engaging piece, and a through hole is formed to allow the sliding shaft to be inserted therein. delete The method according to claim 5,
The support and the bracket of the sliding shaft is a non-return valve coupled to the rotation by a rotation screw. The method of claim 7,
A non-return valve that can be installed between the rotating screw and the bracket. delete The method of claim 1, wherein the restraint portion
It is installed on the opening and closing member, the reverse flow prevention valve that is provided with a restraining wing so that one side is caught on the engaging piece provided on the inlet side of the body as the rotation.

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