KR102483701B1 - Valve Structure of Absorption Refrigerator - Google Patents

Abstract

The present invention relates to a valve structure of an absorption chiller that simplifies the construction of an angle valve and a service valve and does not take up a lot of space in the field. Since it is integrally formed, construction is simplified, and there is an effect of not occupying a lot of space in the field.

Description

Valve Structure of Absorption Refrigerator {Valve Structure of Absorption Refrigerator}

The present invention relates to a valve structure of an absorption chiller, and more particularly, to a valve structure of an absorption chiller that simplifies the construction of an angle valve and a service valve and does not take up much space in the field.

An absorption chiller uses a fuel such as gas as a heat source and uses a refrigerant using an absorption liquid such as an aqueous solution of lithium bromide (LiBr), and generally consists of a cycle of absorption, regeneration, condensation, and evaporation. The inside of this absorption chiller is operated while maintaining a vacuum, and each device is connected by a pipe, and an angle valve is provided between the pipes to block or change the direction of the absorption liquid or refrigerant. In addition, a service valve is installed on the pipe around the angle valve to charge, replenish, or recover the absorption liquid or refrigerant, or to maintain a vacuum state after replacing the pump motor.

1 is a view showing a state in which an angle valve and a service valve are mounted between pipes of a conventional absorption chiller. Referring to Figure 1, the conventional angle valve 10 is coupled between the first pipe (P1) and the second pipe (P2) of the absorption chiller. The service valve 20 is coupled to the second pipe (P2). The angle valve 10 and the service valve 20 may be composed of a plurality according to the size of the absorption chiller. Installation in P2)) takes a long time due to the increase in welding points, takes up a lot of space in a complex site space, and has difficult parts management because each part must be managed separately.

Domestic Registered Utility Model Publication No. 20-0216887

An object of the present invention to solve the problems of the prior art as described above is to manufacture the angle valve and the service valve integrally so that the construction is simple and does not take up much space at the site. Provide a valve structure of an absorption chiller is to do

In order to achieve the above object, the present invention is a valve structure of an absorption chiller, comprising: an angle valve positioned between a first pipe and a second pipe of the absorption chiller; and a service valve coupled to one side of the angle valve.

In addition, the angle valve is formed in a T shape, a first opening connected to the first pipe, a second opening facing the first opening, and positioned between the first opening and the second opening, and the first opening facing the first opening. 2 Angle body having a third opening connected to the pipe; An angle inlet having an inlet flange coupled to the first opening; a sleeve having a sleeve flange coupled to the second opening; a spindle having one side inserted into the sleeve and positioned so as to be slidable, and the other side protruding out of the sleeve and extending toward the angle inlet; and an on/off valve that opens or closes the angle inlet according to the movement of the spindle in a state coupled to the other side of the spindle, wherein the service valve is coupled to the angle body. to provide.

In addition, the service valve includes: a connection pipe formed to communicate between the first opening and the second opening of the angle body that does not overlap with the third opening; A horizontal pipe having a first opening connected to the connection pipe and a second opening facing the first opening, and communicating with one side of the horizontal pipe positioned between the first opening and the second opening. a service body including a vertical pipe formed and having a third opening; and a valve stem, one side of which is located on one side of the horizontal pipe facing the first opening and the other side of which is located on the other side of the horizontal pipe facing the second opening, When the valve stem moves forward to close the opening or moves backward to open the first opening, and the valve stem moves backward to open the first opening, the first opening and the third opening are mutually connected. It provides a valve structure of an absorption chiller, characterized in that it is configured to communicate.

In addition, a connection hole is formed between the first opening and the second opening of the angle body to insert the connection pipe, and the outer periphery of the end of the connection pipe inserted into the connection hole is formed on the inner periphery of the connection hole. It provides a valve structure of an absorption chiller characterized in that it is welded.

In addition, a port cap is coupled to the third opening, and an opening and closing portion is provided to open and close the through hole of the port cap, and the opening and closing portion is removed before an external tube is coupled to the outer periphery of the port cap. It provides a valve structure of an absorption chiller that does.

The present invention has a simple structure in which the connecting portion is coupled to the angle body, and since the service valve and the angle valve are integrally formed, construction is simplified and there is an effect that it does not take up much space in the field.

In addition, since the connection pipe and the connection hole are tightly coupled to each other by welding, a vacuum state can be maintained inside the service body.

1 is a view showing a state in which an angle valve and a service valve are mounted between pipes of a conventional absorption chiller.
2 is a view schematically showing a state in which a valve structure of an absorption chiller according to a preferred embodiment of the present invention is provided between a first tube and a second tube of the absorption chiller.
3 is a diagram schematically showing a valve structure of an absorption chiller according to a preferred embodiment of the present invention.
4 is a diagram schematically showing an angle valve of a valve structure of an absorption chiller according to a preferred embodiment of the present invention.
5 is a view schematically showing a service valve of a valve structure of an absorption chiller according to a preferred embodiment of the present invention.
6 is a view schematically showing a closed state of an angle valve and a service valve of the valve structure of an absorption chiller according to a preferred embodiment of the present invention.
7 is a view schematically showing an open state of an angle valve and a service valve of a valve structure of an absorption chiller according to a preferred embodiment of the present invention.

Hereinafter, a valve structure of an absorption chiller according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view schematically showing a state in which a valve structure of an absorption chiller according to a preferred embodiment of the present invention is provided between a first pipe and a second pipe of the absorption chiller, and FIG. 3 is a view showing a preferred embodiment of the present invention 4 is a view schematically showing an angle valve of the valve structure of an absorption chiller according to a preferred embodiment of the present invention.

2 to 4, the valve structure of the absorption chiller according to a preferred embodiment of the present invention includes an angle valve 100 positioned between the first pipe (P1) and the second pipe (P2) of the absorption chiller, It includes a service valve 200 coupled to one side of the angle valve 100. The first tube (P1) and the second tube (P2) may include a pair of tubes positioned to be adjacent to each other in any one process selected from absorption, regeneration, condensation, and evaporation processes, for example, of an absorption chiller.

The angle valve 100 connects the first pipe (P1) and the second pipe (P2), and includes an angle body 110, an angle inlet 120, a sleeve 130, a spindle 140, and an on/off valve. (150).

The angle body 110 is formed of a tube formed in a T shape, and has three openings open to the outside, that is, a first opening 111, a second opening 112 facing the first opening 111, and a first A third opening 113 located on one side between the opening 111 and the second opening 112 is included. And, the first pipe (P1) is connected to the first opening (111), and the second pipe (P2) is connected to the third opening (113). A connection hole 110a is formed through the other side between the first opening 111 and the second opening 112 . The connection hole 110a is a hole through which a connection pipe 210 (shown in FIG. 6) to be described later is inserted. One or more connection holes 110a may be provided according to the number of connection pipes 210 . In addition, the connection hole 110a may be provided in a plurality of locations depending on the attachment method of the connection pipe 210 .

The angle inlet 120 is formed in a cylindrical shape, etc., and an inlet flange 122 protrudes from the outer periphery of the angle inlet 120 . The outer periphery of the inlet flange 122 is coupled to the first opening 111 .

The sleeve 130 is formed in a cylindrical shape having a diameter smaller than that of the angle inlet portion 120, and a sleeve flange 132 protrudes from the outer periphery of the sleeve 130. The outer periphery of the sleeve flange 132 is coupled to the second opening 112 . And the inner side of the sleeve 130 in the longitudinal direction is located inside the angle body 110 through the second opening 112, and the outer side in the longitudinal direction of the sleeve 130 is located outside the angle body 110. And the angle cap 160 is coupled to the outside of the sleeve 130 located outside the angle body 110.

The spindle 140 is formed in a cylindrical shape so as to be inserted into the sleeve 130, and one side of the spindle 140 is positioned to be slidably inserted into the sleeve 130, and the other side of the spindle 140 is slidably positioned. The side protrudes to the outside of the sleeve 130 and extends in the direction of the angle inlet 120 . In addition, a male thread (not shown) formed on the outer circumference of the spindle 140 and a female thread (not shown) formed on the inner periphery of the sleeve 130 are screwed together, and after removing the angle cap 160, the tool When the spindle 140 is rotated using the sleeve 130, the spindle 140 is configured to move in a direction approaching the angle inlet 120 or in a direction away from the angle inlet 120.

The on-off valve 150 is formed in a plate shape and its center is coupled to the other side of the spindle 140. And, when the on-off valve 150 is moved according to the movement of the spindle 140 and the spindle 140 is moved in the direction of the angle inlet 120, the on-off valve 150 closes the angle inlet 120, When the spindle 140 is moved in the opposite direction of the angle inlet 120, the opening/closing valve 150 opens the angle inlet 120.

5 is a view schematically showing a service valve of a valve structure of an absorption chiller according to a preferred embodiment of the present invention, and FIG. 6 is an angle valve and a service valve of a valve structure of an absorption chiller according to a preferred embodiment of the present invention It is a diagram schematically showing the closed state.

Referring to FIGS. 2 to 6 , one or a plurality of service valves 200 may be mounted on one side of the angle body 110 . The service valve 200 includes a connection pipe 210, a service body 220, a valve stem 230, and a port cap 250.

The connection pipe 210 is formed to communicate between the first opening 111 and the second opening 112 of the angle body 110 that do not overlap with the third opening 113. To this end, a connection hole 110a is formed between the first opening 111 and the second opening 112 of the angle body 110 so that the connection pipe 210 is inserted, and the connection inserted into the connection hole 110a. The outer periphery of the end of the tube 210 is coupled to the inner periphery of the connection hole 110a. At this time, since the inside of the service body 220 must maintain a vacuum state, the connection pipe 210 and the connection hole 110a must be closely coupled to each other so that there is no risk of leakage. To this end, it is preferable that the outer periphery of the connection pipe 210 and the inner periphery of the connection hole 110a are welded to each other without gaps. As such, since the connection pipe 210 and the connection hole 110a are tightly coupled to each other by welding, the inside of the service body 220 can maintain a vacuum state. In addition, since the service valve 200 and the angle valve 100 are integrally formed with a simple structure in which the connection pipe 210 is coupled to the angle body 110, the construction is simplified and the effect of not taking up a lot of space is there is.

The service body 220 is formed of, for example, a T-shaped tube, and includes a horizontal tube 222 and a vertical tube 224 formed in communication with one side of the horizontal tube 222 in the longitudinal direction. Both sides of the horizontal pipe 222 are open and include a first opening 222a connected to the connection pipe 210 and a second opening 222b facing the first opening 222a. And the service cap 240 is coupled to the second opening 222b. A third opening 224a is formed at an end of the vertical tube 224 formed in communication with one side of the horizontal tube 222 positioned between the first opening 222a and the second opening 222b.

One side of the valve stem 230 is located on one side of the horizontal pipe 222 facing the first opening 222a and the other side is located on the other side of the horizontal pipe 222 facing the second opening 222b. . In addition, a male thread (not shown) formed on the outer periphery of the valve stem 230 and a female thread (not shown) formed on the other inner periphery of the horizontal pipe 222 are screwed together, and the service cap 240 After removal, when the valve stem 230 is rotated using a tool such as a hexagonal wrench, the valve stem 230 advances in a direction closer to the first opening 222a or in a direction away from the first opening 222a. It is configured to be reversed by

The port cap 250 is formed to cover the third opening 224a, and a through hole 250a is formed through the center of the port cap 250. Also, an opening/closing part 252 is interposed between the port cap 250 and the third opening 224a, so that the opening/closing part 252 closes the third opening 224a at normal times. Also, before connecting an external pipe (not shown) to the cap, the opening/closing part 252 is removed.

Hereinafter, the operation of the valve structure of the absorption chiller according to a preferred embodiment of the present invention will be described.

7 is a view schematically showing an open state of an angle valve and a service valve of a valve structure of an absorption chiller according to a preferred embodiment of the present invention.

First, referring to FIG. 6 , for example, the angle valve 100 and the service valve 200 are closed before extracting or sealing the solution or refrigerant in the absorption chiller. At this time, the spindle 140 of the angle valve 100 is advanced in the direction of the angle inlet 120 to close the angle inlet 120, and the valve stem 230 of the service valve 200 is first opened. It is advanced in the direction of the portion 222a and configured to close the first opening portion 222a. An external pipe is connected to the port cap 250 .

Then, when the spindle 140 of the angle valve 100 moves backward in a direction away from the angle inlet 120, the angle inlet 120 is opened, and the valve stem 230 of the service valve 200 moves to the first When moving backward in a direction away from the opening 222a, the first opening 222a is opened. When the valve stem 230 moves backward to open the first opening 222a, the first opening 222a and the third opening 224a communicate with each other. Accordingly, the fluid introduced from the angle inlet 120 is moved to the third opening 113 or to the service body 220 through the first opening 222a and then passes through the third opening 224a. through the pipe to the outside.

Although the present invention has been described in detail in the above embodiments, it is obvious that the present invention is not limited thereto, and various changes and modifications are possible within the scope of the technical idea of the present invention. If it falls within the scope of the claims, the technical idea should also be regarded as belonging to the present invention.

100: angle valve
110: angle body 110a: connection hole
111: first opening 112: second opening
113: third opening 120: angle inlet
122: inlet flange 130: sleeve
132: sleeve flange 140: spindle
150: open/close valve 160: angle cap
200: service valve
210: connector 220: service body
222: horizontal pipe 222a: first opening
222b: second opening 224: vertical pipe
224a: third opening 230: valve stem
240: service cap 250: port cap
250a: through hole 252: opening and closing part

Claims (5)

In the valve structure of the absorption chiller,
An angle valve positioned between the first tube and the second tube of the absorption chiller and including an angle body; and
Including a service valve coupled to one side of the angle valve,
The service valve,
A horizontal pipe having a first opening and a second opening facing the first opening, formed in communication with one side of the horizontal pipe positioned between the first opening and the second opening, and a third opening A service body including a vertical pipe having;
A connection pipe provided to communicate with the first opening of the service body; and
One side is located on one side of the horizontal pipe facing the first opening, and the other side includes a valve stem located on the other side of the horizontal pipe facing the second opening,
The valve structure of the absorption chiller, characterized in that the angle valve and the service valve are integrally formed by directly coupling the connection pipe of the service valve to the connection hole provided in the angle body.

According to claim 1,
The angle body is formed in a T shape, a first opening connected to the first tube, a second opening facing the first opening, and positioned between the first opening and the second opening, the second tube And a third opening connected to,
The angle valve is:
An angle inlet having an inlet flange coupled to the first opening;
a sleeve having a sleeve flange coupled to the second opening;
a spindle having one side inserted into the sleeve and positioned so as to be slidable, and the other side protruding out of the sleeve and extending toward the angle inlet; and
A valve structure of an absorption chiller comprising an on-off valve that opens or closes the angle inlet according to the movement of the spindle in a state coupled to the other side of the spindle.

According to claim 2,
configured such that the valve stem is capable of moving forward to close the first opening or retracting the valve stem to open the first opening;
The valve structure of an absorption chiller according to claim 1 , wherein when the valve stem moves backward to open the first opening, the first opening and the third opening communicate with each other.

According to claim 3,
The connection hole is formed through between the first opening and the second opening of the angle body so that the connection pipe is inserted,
The valve structure of the absorption chiller, characterized in that the outer periphery of the end of the connection pipe inserted into the connection hole is welded to the inner periphery of the connection hole.

According to claim 3,
A port cap is coupled to the third opening, and an opening and closing portion is provided to open and close the through hole of the port cap, and the opening and closing portion is removed before an external tube is coupled to the outer periphery of the port cap. Refrigerator valve structure.

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