KR20020070535A - Cooling apparatus for bus - Google Patents

Abstract

PURPOSE: A cooling system installed to a deck plate of a bus is provided to miniaturize the system and to improve cooling efficiency. CONSTITUTION: A system(1) includes a plurality of condenser fans(22) formed on a front end of a condenser(21) to easily flow in and discharge air; an evaporator(11) formed on front ends of the condenser fans to evaporate refrigerant so as to absorb heat; an evaporator(12) formed on a rear end of the condenser; and a plurality of condenser fans(23) formed on a rear end of the evaporator so that overall cooling operation is repeated. The evaporators and the condenser is installed to a deck plate of a bus.

Description

Cooling device formed on the top of the bus {COOLING APPARATUS FOR BUS}

The present invention relates to a cooling device formed on the bus top plate for generating cold air and sending it to the inside of the bus,

More specifically, in the cooling device formed on the upper plate of the bus, the evaporator is separately installed at the front end and the rear end of the condenser installed in the cooling device, so as to be significantly smaller than the size of the existing cooling device. At the same time, the body weight of the bus due to the miniaturization is reduced, the fuel cost of the bus is reduced due to the reduction of the body weight, so that the economic efficiency is excellent, and the efficiency of cooling is improved by the separate configuration of the evaporator to improve the overall cooling device productivity. And to improve the economics, and relates to a cooling device formed on the bus top plate to maximize the user's reliability and satisfaction in use.

In general, a cooling device formed on the body of a bus introduces air from the outside of the bus and then turns the air into cold air, which is sent to the inside of the bus to cool the driver and passengers on board the bus. It is a device for maintaining a constant and comfortable internal temperature.

However, in the conventional cooling apparatus, as shown in the accompanying drawings, the main components of the evaporator 10 and the condenser 20 are arranged in the same arrangement or formed in the same arrangement, compared to the vehicle body of the bus Due to the considerable size, the weight of the bus is further increased, and the fuel consumption of the bus is increased due to the weight of the weight of the bus.

In addition, the generation of cold air sent to the inside of the bus through the cooling device is arranged in the same arrangement of the condenser 20 and the evaporator 10, so that the air flowing from the outside is sent to the inside of the bus to the maximum There is a problem that the efficiency is not satisfactory because it does not generate cold air.

Therefore, the cooling device conventionally performed due to the above problems is not only limited in productivity and efficiency, but also has a problem that the user's satisfaction with using the cooling device is minimized because the reliability of the product is minimized. will be.

The present invention has been made to solve the problems occurring in the related art as described above, and has the following objects.

The present invention is a cooling device formed on the upper plate of the bus, by separately installing the evaporator at the front end and the rear end of the condenser installed in the cooling device, significantly smaller than the size of the existing cooling device and at the same time miniaturization Due to the reduction of the weight of the bus body due to the reduction of the weight of the bus, the fuel cost of the bus is reduced to improve the economics, and the separation configuration of the evaporator to improve the efficiency of cooling by improving the overall cooling device productivity and economy To provide a cooling device formed on the top of the bus to maximize the reliability and satisfaction of the user to use.

1 is a schematic view showing a conventional cooling device formed on the upper plate of the bus,

2 is a conceptual configuration diagram of a cooling apparatus that is generally performed,

3 is a schematic configuration diagram for explaining the present invention;

Figure 4 is an exemplary view showing a state mounted on the bus in order to explain the present invention in detail.

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

1: cooling device 10, 11, 12: evaporator

20,21: condenser 22,23: condenser fan

30 compressor 40 expansion valve

50: engine of the body 100: bus

In order to achieve the above object, it will be described in detail with reference to the accompanying drawings which is a preferred embodiment of the present invention.

In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the terms to be described below are terms set in consideration of functions in the present invention, which may vary depending on the intentions or customs of the producers producing the products, and the definitions should be made based on the contents throughout the specification.

Prior to describing the configuration of the present invention, a conceptual configuration and implementation process of a cooling device that is typically implemented as shown in Figure 2 will be briefly described.

First, the main configuration of the cooling device consists of the evaporator 10, the condenser 20, the compressor 30 and the expansion valve 40, the action of the configuration is the endothermic action in the evaporator 10 vapor The refrigerant becomes mechanical steam in the compressor (30), and turns into steam of high temperature and high pressure. When the refrigerant is sent to the condenser 20 and cooled with water or air, the refrigerant becomes condensed to become liquid. If the evaporator 10 is sent through the expansion valve 40, the endothermic cycle is repeated while evaporating again.

Power required for the operation is transmitted through the engine 50 of the vehicle body connected to the compressor 30.

In more detail, the refrigerant changes from liquid to gas, and the liquefied refrigerant in the evaporator 10 evaporates continuously while collecting heat required for evaporation from the surroundings. 10) coexist with the refrigerant liquid, in order to evaporate the refrigerant at a sufficiently low temperature, it is necessary to maintain the pressure in the evaporator 10 appropriately, and the vaporized refrigerant vapor is discharged from the evaporator by the compressor 30, At this time, the refrigerant is dry steam or slightly overheated.

The compressor 30, which makes the refrigerant vapor at high temperature and high pressure, which is easy to liquefy, maintains the inside of the evaporator 10 at a constant low pressure and exports the steam at a desired high temperature and high pressure, and then the refrigerant changes from gas to liquid. In this case, the refrigerant that has become a superheated steam higher than room temperature is first cooled down to a saturated steam state, and condensation starts to form wet steam, which is changed into a liquid.

Enter the evaporator 10 through the expansion valve 40 to make the refrigerant liquid easy to evaporate, the inlet side of the expansion valve 40 is a high pressure, the evaporator side is maintained at a low pressure thermodynamic throttling The above-described action such as a pressure-reduced state to a state where change is easy to evaporate is repeated.

3 and 4, Figure 3 is a schematic configuration for explaining the present invention, Figure 4 is an exemplary view showing a state mounted on the bus to explain the present invention in detail It is shown.

That is, in the present invention, the refrigerant which becomes steam by the endothermic action in the evaporator is converted into steam of high temperature and high pressure by receiving mechanical work in the compressor, and when this is sent to the condenser and cooled by water or air, the refrigerant condenses and the liquid When the liquid is sent to the evaporator through the expansion valve, the endothermic cycle is repeated while evaporating again, the evaporator (11) 12 and the condenser 21 of the cooling device 1 is a bus Is formed on the upper plate of each, a plurality of condenser fan 22 to facilitate the inlet and discharge of air is formed in the front end of the condenser 21, the end of the condenser fan 22 while evaporating endothermic action An evaporator 11 is formed, an evaporator 12 which performs endothermic action while evaporating is formed at a rear end of the condenser 21, and a plurality of condensers are formed at a rear end of the evaporator 12. The overall cooling effect to ensure that 23 is formed is formed of a repeatedly.

On the other hand, the present invention can be variously modified and take various forms in the condenser and evaporator of the cooling device applied to the above components.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

In the present invention configured as described above, the evaporators 11 and 12 and the condenser 21 of the cooling device 1 are generally formed on the upper plate of the bus 100, respectively.

A plurality of condenser fans 22 and an evaporator 11 are formed at a front end of the condenser 21, and an evaporator 12 and a plurality of condenser fans 23 are separately formed at a rear end of the condenser 21. will be.

The size of the cooling device formed on the conventional bus top plate is 3.300 m 2 in 1300 mm × 2370 mm, and in foreign countries, it is made of 5.398 m 2 to 2450 mm × 2200 mm, but the present invention is only 1.758 m 2 to 620 mm × 1440 mm. It is only about 58% of the existing domestic products, and has excellent productivity and economical efficiency, and at the same time, the evaporator can exert the maximum effect by forming the evaporator before and after the condenser.

The refrigerant, which has become a vapor by the endothermic action in the evaporators 11 and 12, receives mechanical work in the compressor 30, and turns into steam of high temperature and high pressure, which is sent to the condenser 21 to be water or air. When cooled, the refrigerant condenses and becomes a liquid.

At this time, when the liquid is sent to the evaporator 11 and 12 through the expansion valve, the cycle of endothermic action is repeated while evaporating again, and the evaporator 11 formed at the front end of the condenser 21 of the evaporator is a bus. In the advancing direction of the (100), the inflow of air is easily made during the progress of the bus, so that the evaporation can be maximized.

As described in detail above, the present invention provides a cooling device formed on an upper plate of a bus, by separately installing an evaporator at a front end and a rear end of a condenser installed in the cooling device, compared to the size of a cooling device formed in the past. There is an effect to considerably downsized, and to reduce the body weight of the bus due to the miniaturization, the fuel cost of the bus is reduced by the reduction of the body weight, the economic efficiency is excellent, and the separate configuration of the evaporator cooling Due to the effect of improving the efficiency of the overall cooling device productivity and economics, it is obvious that the invention is a very useful invention that can achieve various effects, such as maximizing the reliability and satisfaction of the user.

Claims (1)

The refrigerant which becomes steam by the endothermic action in the evaporator is converted into steam of high temperature and high pressure by receiving mechanical work in the compressor, and when it is sent to the condenser and cooled by water or air, the refrigerant condenses and becomes liquid. In the cooling device that the endothermic cycle is repeated while evaporating when sent to the evaporator through the expansion valve, Evaporators 11 and 12 and the condenser 21 of the cooling device 1 are respectively formed on the upper plate of the bus, the front end of the condenser 21 a plurality of condenser fans to facilitate the inflow and discharge of air (22) is formed, an evaporator (11) which performs endothermic action while evaporating is formed at the front end of the condenser fan (22), An evaporator 12 is formed at the rear end of the condenser 21 to perform an endothermic action while evaporating, and a plurality of condenser fans 23 are formed at the rear end of the evaporator 12 so that the entire cooling operation is repeatedly performed. Cooling device formed on the bus top, characterized in that.