KR200226553Y1 - Refrigerant Distribution Structure of Ceiling Mounted Air Conditioner Evaporator - Google Patents

Abstract

According to the present invention, in the ceiling mounted air conditioner evaporator structure, the refrigerant distributor 3 is connected to the end of the liquid pipe 8 through which the high pressure liquid refrigerant passes, and then the two connection pipes 6a and 6b are connected to the refrigerant distributor. And connecting the expansion pipes 4a and 4b to the connection pipes 6a and 6b, respectively, so that the high-pressure refrigerant passes through the two strands of the connection pipes 6a and 6b and the two expansion valves 4a and 4b. It relates to a refrigerant distribution structure of a ceiling mounted bus air conditioner evaporator characterized in that to ensure a uniform distribution by allowing a stable distribution.

Description

Refrigerant Distribution Structure of Ceiling Mounted Air Conditioner Evaporator {.}

The present invention relates to a refrigerant distribution structure of a ceiling-mounted bus air conditioner evaporator, which has the characteristic of uniformly cooling the inside of a bus as compared to the prior art. In the related art, the high-pressure liquid refrigerant is a liquid phase from the condenser. When entering the expansion valve 4a in the evaporator unit 1 through the pipes 2, 8, the refrigerant passes through a connecting pipe 6 connecting the condenser (not shown) and the expansion valve and again the tee (T). It is made to flow into the evaporator core 5a, 5b in the state which flow resistance is large through the type | mold connector. On the other hand, in the case of an air conditioner of a large vehicle such as a bus, there is a disadvantage that the flow condition of the refrigerant is not stable because the change in operating conditions of the vehicle is severe and the change of external environment is large when the air conditioner is operated. Since the inlet of the evaporator core is composed of a plurality of small diameter pipes, it is difficult for a large amount of the refrigerant expanded in the expansion valve to flow into the pipes having the small diameter uniformly so that the refrigerant does not perform the action of the refrigerant. I can't. Therefore, as a result, the efficiency of the evaporator using the blowers 9a and 9b is not maximized, thereby reducing the cooling capacity. Therefore, the interior of the bus may not be uniformly cooled, causing inconvenience to the passengers, which may interfere with the driver's safe driving.

Accordingly, the present invention provides a refrigerant distribution structure devised in order to solve the above-mentioned disadvantages. The configuration of the liquid pipe 8 through which the high-pressure liquid refrigerant passes in the ceiling mounted bus air conditioner evaporator structure. After connecting the refrigerant distributor (3) to the end, and connecting the two connecting pipes (6a, 6b) to the refrigerant distributor and connecting the expansion valve (4a, 4b) to the connection pipe (6a, 6b), respectively, It is characterized in that the cooling medium is stably distributed to the evaporator core through the two strands of the connecting pipes 6a and 6b and the two expansion valves 4a and 4b.

1 is a reference diagram showing a refrigerant distribution structure of a conventional ceiling mounted air conditioner evaporator.

2 is a reference diagram showing a refrigerant distribution structure of the present invention.

Figure 3 is a perspective view showing a refrigerant distributor of the present invention.

<Explanation of symbols on main parts of the drawing>

1: evaporator unit 2, 8: liquid pipe

3: refrigerant distributor 4a, 4b: expansion valve

5a, 5b: Evaporator core 6a, 6b: Connection pipe 7: Side glass 9a, 9b: Blower

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

In the distribution of the refrigerant, the conventional refrigerant distribution structure as shown in FIG. 1 has a high flow resistance of the refrigerant as described above, making it difficult to uniformly distribute the refrigerant. Therefore, the present invention, as shown in Figure 3 one end is formed in the end of the liquid pipe (8) through which the high-pressure liquid refrigerant is passed and the other side is connected to the integral refrigerant distributor (3) formed with two holes Two strands of connecting pipes 6a and 6b are connected to the refrigerant distributor 3, and expansion valves 4a and 4b are connected to the connecting pipes 6a and 6b, respectively, so that a high-pressure refrigerant is connected to two strands of connecting pipes ( 6a, 6b) and two expansion valves (4a, 4b) to ensure a stable distribution to the evaporator core to achieve a uniform cooling action.

The present invention as described above, the refrigerant passing through the liquid pipe is smoothly moved through the refrigerant distributor to the two strands of the connecting pipe, and the end of the connecting pipe is connected to the expansion valve separately, so that the refrigerant flow resistance is minimized in the end By allowing it to flow into the evaporator, there is a useful effect of maximizing the function of the evaporator to uniformly cool the interior of the bus.

Claims (1)

In the ceiling mounted air conditioner evaporator structure, the refrigerant distributor 3 is connected to the end of the liquid pipe 8 through which the high pressure liquid refrigerant passes, and then the two connection pipes 6a and 6b are connected to the refrigerant distributor. The expansion pipes 4a and 4b are connected to the connection pipes 6a and 6b, respectively, so that the high-pressure refrigerant is stably passed through the two strands of the connection pipes 6a and 6b and the two expansion valves 4a and 4b to the evaporator core. A refrigerant distribution structure of a ceiling mounted bus air conditioner evaporator, characterized by uniform distribution of airflow by allowing distribution.