KR100356205B1 - Water-cooled aircondition structure for bus using condensing water - Google Patents

Abstract

The present invention is to replace the conventional air-cooled air-conditioning system with water-cooled by using the condensed water generated in the evaporator included in the air conditioner system, it is possible to improve the cooling performance, increase the space efficiency in the evaporator, The fan and motor assembly can be removed to reduce the cost.

In order to realize this, the present invention provides a bus air conditioner structure including a pair of evaporators installed on the roof panel of the bus in a symmetrical manner, wherein a drain pan is provided to accumulate condensed water under each of the evaporators. By installing a condenser core at the bottom of one evaporator and a receiver pipe at the bottom of another evaporator, the condensed water generated by the evaporator can be used to condense the refrigerant by water cooling. It would be.

In addition, in a preferred embodiment of the present invention, the sponge is mounted between each of the evaporator and the condenser core and the receiver pipe mounted below.

Description

Water-cooled aircondition structure for bus using condensing water}

The present invention relates to a bus air conditioner structure using condensed water. More specifically, by using condensed water generated in the evaporator core to cool the refrigerant in the condenser core, the cooling performance can be improved, and the space in the evaporator can be improved. The present invention relates to a bus air conditioner structure that uses condensate to increase efficiency and to reduce costs by eliminating fans and motor assemblies.

In general, the air conditioner structure includes an evaporator and a condenser that vaporize and condense the refrigerant.

1 shows an evaporator and a condenser in an air conditioner structure for a bus, and a lot of on the roof type is generally used.

The air conditioner is a process in which a high-temperature and high-pressure refrigerant is supplied from an evaporator through a compressor not shown in the engine to evaporate the refrigerant to obtain cold air. Repeatedly obtains the cooling effect.

The present invention is to increase the cooling effect by replacing the air-cooled air conditioner structure with water-cooling using the condensed water generated in the evaporator included in the air conditioner system.

In order to realize this, the present invention provides a bus air conditioner structure including a pair of evaporators installed on the roof panel of the bus in a symmetrical manner, wherein a drain pan is provided to accumulate condensed water under each of the evaporators. By installing a condenser core at the bottom of one evaporator and a receiver pipe at the bottom of another evaporator, the condensed water generated by the evaporator can be used to condense the refrigerant by water cooling. It would be.

In addition, in a preferred embodiment of the present invention, the sponge is mounted between each of the evaporator and the condenser core and the receiver pipe mounted below.

1 is a plan view and a front view showing a conventional air-cooled air conditioner structure for a bus,

2 is a block diagram showing an air-cooled air conditioner structure for a bus according to the present invention.

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

10: evaporator 11: drain pan

12: receiver pipe 13: drain cock and hose

14: sponge 20: condenser core

100: roof panel

Hereinafter, with reference to the accompanying drawings, the configuration and effect of the present invention will be described.

2 is a block diagram showing an air-cooled air conditioner structure for a bus according to the present invention, wherein reference numeral 10 denotes an evaporator and 100 denotes a roof panel.

The present invention provides a bus air conditioner structure including a pair of evaporators 10 mounted on the roof panel 100 and sequentially evaporating refrigerant delivered from a compressor (not shown) connected to an engine. The condenser core 20 is disposed under each of the evaporators 10 to cool the refrigerant in the condenser core 20 by water cooling using the condensed water generated in the evaporator 10.

In order to realize this, in the present invention, the drain pan 11 is mounted on the roof panel 100 so as to support the lower portion of each evaporator 10.

In particular, the drain pan 11 is convex in the middle portion and is formed in both ends of the concave, and the condensed water generated during evaporation by mounting each of the evaporator 10 on the top of the concave portion naturally the drain pan 11 It is desirable to be able to concentrate on both sides.

Further, the evaporator 10 is equipped with a condenser core 20 manufactured by a conventional technique on one lower part, and a receiver pipe 12 is mounted on the other lower part.

Here, the condenser core 20 is a component for liquefying all the refrigerant evaporated in the two evaporators 10 described above, and the receiver pipe 12 is a refrigerant sent from the condenser core 20 side. It is provided to the evaporator 10 mounted thereon.

Of course, the receiver pipe 12 cools the refrigerant by water condensation by the condensate filled in the drain pan 11 to which it is mounted, and then provides the refrigerant to the condenser core 20.

In a preferred embodiment of the present invention, each of the drain pan 11 can be used as cooling water by filling the water arbitrarily when there is insufficient condensate, the side of the drain cock to be discharged to the outside as the amount of water and condensate is increased And a hose, preferably mounted.

In addition, a dryer is mounted on a side of the receiver pipe, and the dryer removes moisture and the like in the drain pan 11.

On the other hand, a sponge 14 is inserted between each of the evaporators 10 and the receiver pipe 12 and the condenser core 20 mounted thereon, and the sponge 14 is mounted on the evaporator. The condensate generated by the radar 10 is to prevent the noise generated while falling directly to the drain pan 11 installed in the roof panel 100.

In addition, the above-described drain cock and hose 13 is preferably installed in accordance with the upper surface of the sponge 14 in the installation on the drain pan 11, the drain cock and hose 13 thus installed is the drain After the fan 11 is completely filled with condensate and water, the water rising higher than the sponge 14 is discharged to the outside of the bus through the drain cock and the hose 13.

Accordingly, in the drain pan 11, the cooling of the refrigerant is performed by water cooling of the condenser core 20 using condensate, and cooling is performed while the receiver pipe 12 submerged in the condensate cools, thereby maximizing cooling efficiency. do.

As described above, in the present invention, a drain pan is installed to accumulate condensate at the bottom of the two installed symmetrical evaporators, a condenser core is mounted at one lower part of the evaporator, and a receiver is provided at the lower part of the evaporator. By mounting the pipe, the following effects can be obtained.

1) The cost of condenser cores is greatly reduced, and the maintenance of the fan and motor assembly is required.

2) As the space efficiency of the evaporator is increased and the space utilization of the bus loop can be increased, it is easy to install other components around it.

3) Significantly reduced components, not only can reduce the overall weight of the vehicle but also increase fuel economy. 4) In the present invention employing water cooling as compared to conventional air conditioners having air-cooled condensers, the condensation efficiency is increased to provide cooling performance. There is an advantage that can be greatly increased.

Claims (2)

In the air conditioner structure for a bus including a pair of evaporators provided on the roof panel of the bus symmetrically, A condensate is provided by installing a drain pan to accumulate condensed water in the lower part of each evaporator, and attaching a condenser core to one lower part of the evaporator and a receiver pipe to the other lower part of the evaporator. Used air conditioner structure for bus. The air conditioner structure for a bus using condensate according to claim 1, wherein a sponge is mounted between each of the evaporators and the condenser core and the receiver pipe mounted under the evaporator.