KR200154948Y1 - Gas equal distributor - Google Patents

Abstract

The present invention relates to a gas equalization distribution device, wherein the inlet coupling portion 111 into which the inlet pipe 10 is inserted and the outlet coupling portion 112 having a larger diameter are formed in the tapered intermediate expansion portion 113. Tapered guide portion 122 that is integrally formed on both side portions and the cell cover 110 is inserted into the cell cover 110 to form a distribution passage S between the intermediate expansion portion 113. Is configured to include an orifice 120 formed integrally with the coupling portion 121 in close contact with the outlet side coupling portion 112.

The present invention is uniformly diffused along the distribution passage (S) and the guide portion 122 of the refrigerant gas introduced into the inlet pipe 10 through the plurality of distribution holes 124 and the distribution pipe 20 very uniformly. Since the product is very excellent in performance, this invention equalization divider 100 is inserted into the orifice 120 in the cell cover 110, the inlet coupling portion 111 and the orifice 120 of the cell cover 110 Since the inlet pipe 10 and the distribution pipe 20 are welded and joined to the distribution hole 124 of the), productivity and assemblability can be greatly improved than any conventionally used, and can be supplied at a low price. It has an effect.

Description

Gas equalization distribution device

The present invention relates to a GAS EQUAL PRESSURE DISTRIBUTOR used for coils in refrigeration, refrigerating and general air conditioning cooling systems. In particular, it is possible to distribute the refrigerant gas very uniformly, greatly improving productivity and assemblability. A gas equalization distribution device is provided.

In general, refrigerators, refrigerators and general air-conditioning cooling system, for example, by compressing the refrigerant gas with a compressor to pass through the expansion coil and passing through the heat absorption pipe of the heat exchanger to absorb the surrounding heat to cool. The gas distributor is connected and used.

Such a conventional gas distributor has a problem in that the configuration is very complicated and the productivity is not only reduced, but also the assembly with the expansion coil is difficult, and the refrigerant gas is not uniformly distributed, thereby lowering the cooling capacity.

The present invention has been made in order to solve the above-mentioned conventional defects and problems, and to provide a gas equalization distribution device which can distribute the refrigerant gas very uniformly and greatly improve the productivity and assemblability.

In order to achieve the above object, the present invention provides a shell cover in which the inlet coupling portion into which the inlet pipe is inserted and the outlet coupling portion having a larger diameter are integrally formed at both sides of the tapered middle expansion portion; And an orifice which is inserted into the cell cover to form a distribution passage between the intermediate extension part and is integrally formed with a coupling part in close contact with the outlet side coupling part. .

1 to 3 are views of the present invention,

1 is a side view showing the configuration of the device of the present invention.

Figure 2 (a) is a plan view of the cell cover.

(b) is a longitudinal sectional view of the cell cover;

Figure 3 (a) is a plan view of an orifice.

(b) is a longitudinal cross-sectional view of an orifice.

* Explanation of symbols for main parts of the drawings

10: inlet pipe 20: distribution pipe

100: equalization divider 110: cell cover

111: inlet coupling portion 112: outlet coupling portion

113: middle expansion 114: locking jaw

120: orifice 121: coupling portion

122: tapered guide portion 123: guide surface

124: distribution hole 125: coupling groove

126: step S: distribution passage

Hereinafter, described in detail by the accompanying drawings an embodiment of the present invention as follows.

Figure 1 is a side view showing the configuration of the device of the present invention, Figure 2 is a cell cover, Figure 3 shows the configuration of the orifice. In addition, in the drawing, 10 is an inlet tube through which the refrigerant gas is introduced, 20 is a distribution tube through which the refrigerant gas is discharged, and 100 is the present invention for connecting one inlet tube 10 and a plurality of distribution tubes 20. By showing the equalization distributor by, the equalization distributor 100 according to the present invention is composed of the cell cover 110 and the orifice 120, the refrigerant gas supplied to the inlet pipe 10 is equalized to the plurality of distribution pipes (20) It is configured to be distributed and discharged.

Figure 2 (a) is a plan view of the cell cover, (b) is a longitudinal cross-sectional view of the cell cover, Figure 3 (a) is a plan view of the orifice, (b) is a longitudinal cross-sectional view of the orifice, respectively, the cell The cover 110 is configured such that the inlet coupling portion 111 and the outlet coupling portion 112 having a larger diameter are integrally formed on both sides of the tapered intermediate extension portion 113.

The orifice 120 is formed integrally with the coupling portion 121 and the tapered guide portion 122 joined to the outlet side coupling portion 112 of the cell cover 110, a plurality of distribution holes 124 is It has a formed configuration.

In addition, the middle expansion portion 113 of the cell cover 110 is formed such that its outer peripheral surface is inclined at an inclination angle of θ1 with respect to the outflow side engaging portion 112, the guide portion 122 of the orifice 120 is The outer circumferential surface is formed to be inclined at an inclination angle of θ2 smaller than θ1.

In addition, the inlet engaging portion 111 of the cell cover 110 is formed with a ringing jaw 114 for limiting the insertion of the inlet pipe 10 is formed in the inner end of the inner circumferential surface annular, of the orifice 120 In the distribution hole 124, the coupling groove 125 is stepped by the stepped portion 126 to restrict the insertion of the distribution pipe 20.

The cell cover 110 is made of, for example, copper (Cu), the orifice 120 is formed of, for example, copper (Cu) or brass (brass), the pinhole (pin) when welding the pipe after processing It is better to form a forged product because holes or cracks cannot be used. The inlet pipe 10 and the distribution pipe 20 is usually made of copper.

In FIG. 3, reference numeral 127 shows a weight portion formed to be uniformly welded at the center of the coupling portion 121 of the orifice 120.

When the orifice 120 is inserted into the cell cover 110, as shown in FIG. 1, the coupling part 121 of the orifice 120 is in close contact with the outlet side coupling part 112 of the cell cover 110. A distribution passage S is formed between the inner circumferential surface of the middle cover 113 of the cell cover 110 and the guide surface 123 of the orifice 120.

After coupling the cell cover 110 and the orifice 120 as described above, the inlet pipe 10 is inserted into the inlet coupling portion 111 of the cell cover 110 and the coupling groove 125 of the orifice 120 is divided into minutes. Inserting the pipe 20, respectively, the inlet coupling portion 111 of the cell cover 110 and the inlet pipe 10, the outlet coupling portion 112, the orifice 120 of the cell cover 110 is coupled The groove 125 and the distribution pipe 20 are joined by, for example, welding.

The equalization distributor 100 is to be welded so that each joint is 100% sealed, for example, the welded portion must be in a state of being tight and airtight even at 30㎏ / ㎠ or more, which is twice the use pressure of 15㎏ / ㎠. . In addition, since foreign matters occur during welding, resistance to gas flow does not occur, so welding should be performed to prevent carbonization.

In addition, the welded pipe to the orifice 120 should be free of gas leakage or shaking, and the silver welded state should prevent the gap evenly so as to make good contact with the pipe and the orifice 120.

The gas equalization distribution device of the present invention as described above is used in combination with the expansion coil for general air conditioning such as refrigeration and refrigeration, and the refrigerant gas introduced into the cell cover 110 through the inlet pipe 10 is a cell cover ( In the distribution passage (S) formed by the 110 and the orifice 120 is spread through the guide portion 122 of the orifice 120 through a plurality of distribution holes 124 and the distribution pipe 20 formed in the orifice 120 Evenly distributed discharge.

The distribution hole 124 of the orifice 120 is processed in various forms of three or more depending on the quantity of use of the distribution pipe (20).

As described above, in the gas equalization distribution device of the present invention, the refrigerant gas introduced into the inlet pipe 10 is uniformly diffused along the distribution passage S and the guide part 122, and thus the plurality of distribution holes 124 and the distribution pipe. The product is very excellent because it is very uniformly distributed through the (20), the pressure equalizing dispenser 100 of the present invention is inserted into the orifice 120 in the cell cover 110, the inlet coupling of the cell cover 110 Since the inlet pipe 10 and the distribution pipe 20 are welded and joined to the distribution hole 124 of the part 111 and the orifice 120, productivity and assemblability are significantly greater than those used in the related art. It is improved and can be supplied at a low price.

Although the embodiments of the present invention have been described so far, the present invention is not limited thereto, and various embodiments that can be modified and changed within the true spirit and scope of the principles described and claimed are within the protection scope of the present invention. You will have to understand.

Claims (2)

Cell cover 110 in which the inlet coupling portion 111 into which the inlet pipe 10 is inserted and the outlet coupling portion 112 having a larger diameter are integrally formed at both sides of the tapered intermediate extension 113. )Wow; Coupling portion inserted into the cell cover 110 and the tapered guide portion 122 to form a distribution passage (S) between the intermediate expansion portion 113 is in close contact with the outlet side coupling portion 112 Gas equalization distribution device comprising an orifice (120) formed integrally with (211). According to claim 1, A locking jaw 114 for restricting the insertion of the inlet pipe 10 is formed on the inner peripheral surface of the inlet coupling portion 111 of the cell cover 110, the orifice 120 of Gas equalizing distribution device, characterized in that the coupling groove (125) for restricting the insertion of the distribution pipe (20) in the distribution hole (124) is formed stepped by the stepped portion (126).