KR20220121671A - Vehicle air conditioning system with the engine turned off - Google Patents

Abstract

A vehicle air conditioning system without starting an engine according to the present invention is provided with a generator operated by a vehicle engine and a vehicle battery unit connected to the generator. In particular, the present invention comprises: a vehicle air conditioning unit; a sub air conditioning unit which includes a sub evaporator provided in a case, a sub compressor receiving a sub coolant from the sub evaporator, a sub condenser receiving the sub coolant from the sub compressor before delivering the same to the sub evaporator, a sub cooling fan provided at one side of the sub condenser to cool the sub condenser, and a sub battery unit of which power is charged by the power generation of the generator; a control unit which can individually turn on and off the vehicle air conditioning unit and the sub air conditioning unit; and a controlling unit which, in a state in which the vehicle compressor and a vehicle cooling fan are stopped by the stopping of the engine, when the sub air conditioning unit is turned on by the operation of the control unit, operates a blow fan by the power of at least one of the vehicle battery unit and the sub battery unit, and operates the sub compressor and the sub cooling fan by the power of the sub battery unit to control cold air for the same to be supplied to the inside of the vehicle only with the sub coolant. Therefore, cold air may be supplied to the inside of the vehicle.

Description

Municipal vehicle air conditioning system {Vehicle air conditioning system with the engine turned off}

The present invention relates to an air-conditioning system for an unmanned vehicle.

In general, an air conditioning system of a vehicle includes an air conditioner for lowering an indoor temperature or for dehumidifying. The air conditioner of a vehicle is provided with a compressor, a condenser, an evaporator, an expansion valve, etc. similarly to a general air conditioner of a building. However, instead of the outdoor unit, there is a condenser (condenser) on the radiator side and it is cooled by a cooling fan. In general, the compressor is installed to be operated by the output of the engine, and accordingly, when the engine is turned off, the compressor and the air conditioner system are also turned off.

With the spread of the leisure culture using vehicles, the proportion of vehicles used at destinations such as camping sites or in the state of being parked is high, and the necessity of using air conditioners is high accordingly. However, using only the air conditioner without driving with the ignition on of the vehicle is against environmental protection by inducing air or noise pollution in addition to the loss of energy efficiency. In addition, there is concern about the possibility of safety accidents such as fire due to engine overheating. Accordingly, there is also a demand for an air conditioning system of a vehicle that can be used without turning on the ignition of the vehicle.

In response to this demand, an air conditioner system using a refrigerant of an existing vehicle has been developed. However, in the conventional air conditioning system, as the refrigerant line of the vehicle is branched and the refrigerant line of the vehicle is used, a valve must be installed in the branched refrigerant line, and an electrical circuit diagram for controlling the valve is required as well as installation Later, there was the inconvenience of having to recharge the vehicle refrigerant. Due to such an installation, not only a large installation cost is required, but also there is an inconvenience in that safety problems may occur due to changing parts of an existing vehicle air conditioner system.

Republic of Korea Patent Registration 10-2111053 Republic of Korea Patent Registration 10-1708193 Korean Patent Registration 10-2098632 Republic of Korea Patent Registration 10-2079238

An object of the present invention, devised to solve the above-described problems, is to additionally install a sub-air conditioning unit in a vehicle air conditioner installed in a vehicle, and to form a through hole in a case in which the vehicle evaporator of the vehicle air conditioner unit is provided. By providing the sub-evaporator of the sub air conditioner in the air, a non-dong vehicle air conditioning system that uses the sub refrigerant separately from the vehicle refrigerant and can supply cold air to the inside of the vehicle by driving the vehicle's blow fan and sub air conditioner even after the vehicle is turned off is to provide

In addition, it is an object of the present invention to not only save the installation space but also to change the existing installation position or structure of the vehicle air conditioner by using the blow fan already installed in the vehicle without having a separate blow fan in the sub air conditioner unit. It is to provide an air conditioning system for a non-dong vehicle that can be used while maintaining the interior space of the vehicle as in the prior art by providing a sub air conditioner in the space between the exterior panel and the interior panel of the vehicle.

In addition, an object of the present invention is to form a blocking hole in the case so as to partition a gap that cannot partition the inner space of the case when the sub evaporator of the sub air conditioner is provided in the case, and by providing a blocking part in the blocking hole, This is to provide a non-dong vehicle air conditioner system that can increase efficiency by concentrating the air supplied to the blow fan to the sub-evaporator through the blocking unit.

According to the non-dong vehicle air conditioning system of the present invention for achieving the above object, in the vehicle air conditioner system having a generator driven by a vehicle engine and a vehicle battery unit connected to the generator, the vehicle engine operates a vehicle compressor, a vehicle condenser to which the vehicle refrigerant is transferred from the vehicle compressor; a vehicle cooling fan provided at one side of the vehicle condenser to cool the vehicle condenser; A vehicle evaporator to deliver, a blow fan provided on one side of the vehicle evaporator, and the vehicle evaporator and the blow fan are provided inside, and an inlet through which air is introduced into the blow fan on one side and the introduced air pass through the vehicle evaporator a vehicle air conditioner unit including a case in which an outlet for discharging cold air is formed; A sub-evaporator provided inside the case, a sub-compressor to which a sub-refrigerant is delivered from the sub-evaporator, a sub-condenser that receives the sub-refrigerant from the sub-compressor and delivers it to the sub-evaporator, and one side of the sub-condenser a sub air conditioner unit including a sub cooling fan for cooling the sub condenser and a sub battery unit charged with power generated by the generator; a control unit capable of turning on/off the vehicle air conditioner unit and the sub air conditioner unit, respectively; and when the sub air conditioner is turned on by the operation of the control unit in a state in which the vehicle compressor and the vehicle cooling fan are stopped due to the stopping of the engine, the blow fan is powered by at least one of the vehicle battery unit and the sub battery unit. and a control unit for controlling the sub-compressor and the sub cooling fan to operate with the power of the sub-battery unit to supply cool air to the inside of the vehicle only with the sub-refrigerant.

In addition, in the case, a through hole through an outer surface is further formed so that the sub evaporator is provided to face the vehicle evaporator, and the sub evaporator has one side inserted into the through hole and the other side is in close contact with the entrance of the through hole. It is characterized in that it is provided inside the case.

In addition, in the case, a blocking hole penetrating between the through hole and the outer edge of the case is further formed, inserted into the blocking hole to block a gap formed between the inner surface of the case and the sub-evaporator, and introduced into the blow fan It further includes a;

In addition, the through hole and the blocking hole are formed between the blow fan and the vehicle evaporator so as not to touch the vehicle accessories already provided inside the case when the blocking part is inserted.

In addition, the vehicle includes an outer panel and an inner panel provided from the outer panel, and the blow fan, the vehicle evaporator, the case, the sub compressor, the sub condenser and the sub cooling fan are provided between the outer panel and the inner panel. , the sub condenser is provided with one side facing the external panel, the sub cooling fan is provided facing the other side of the sub condenser, and the outer panel has a discharge hole formed in a portion corresponding to the sub condenser a plurality of blades that are provided in the discharge hole to discharge the air passing through the sub condenser to the outside of the outer panel by the sub cooling fan and partition the discharge hole that can prevent the inflow of rainwater from the outside of the outer panel It further includes a; formed grill portion.

The sub-cooling fan and the inner panel may further include a blocking film provided between the sub cooling fan and the inner panel to block driving noise of the sub cooling fan and to block heat transfer due to condensation of the sub refrigerant.

In addition, in the sub-evaporator, a fitting hole penetrating in the left and right longitudinal direction is formed on at least one side of the upper and lower portions, and an opening hole through which the fitting hole is opened is formed on the outer surface, and the blocking part has one end in the fitting hole It includes a pillar-shaped fitting rod to be inserted and a plate extending so that the fitting rod is extended to be fitted into the opening hole and the other end is in close contact with the inner surface of the case.

In addition, the blocking hole is inclined to partition between one end of the sub-evaporator and the inner surface of the case without touching the vehicle accessories already provided inside the case when the plate is provided inside the case, and the fitting The ball is formed in the shape of a long hole inserted into the front and rear of the sub evaporator, and the opening hole is formed to be shorter than the minor axis length of the fitting hole, and the opening width is formed to become narrower toward the outer surface of the sub evaporator, The fitting rod is movable along the long axis of the long hole as the plate is provided tilted according to the inclination angle of the blocking hole, and is inserted and provided in the fitting hole without being bent with the plate.

In addition, it is provided on the outside of the case and further includes a roller unit connected to the blocking unit, wherein the blocking unit is made of a flexible material that can be unwound or wound on the roller unit, and the control unit is the engine of the vehicle. In this operating state, the roller unit is controlled to wind the blocking unit on the roller unit so that the air introduced into the blow fan passes through the vehicle evaporator as a whole, and if the engine of the vehicle is stopped, unwind the wound blocking unit It is characterized in that the interior of the case is partitioned.

In addition, the guide rail is inserted into the end of the blocking hole, one side is attached to the inner surface of the case, one end is provided to be attached to the side of the case, and a guide groove is formed so that one end of the blocking part can be inserted; Further comprising, when the blocking portion is unwound to the roller portion, it is characterized in that it is inserted into the inside of the case along the guide groove.

As described above, the effect of the present invention as described above is that a sub air conditioner is additionally installed in a vehicle air conditioner pre-installed in a vehicle, a through hole is formed in a case in which the vehicle evaporator of the vehicle air conditioner unit is provided, and the sub evaporator of the sub air conditioner unit is provided in the through hole. By providing a sub-refrigerant separately from the vehicle refrigerant, it is possible to provide an unmanned vehicle air conditioner system capable of supplying cold air to the inside of the vehicle by driving the blow fan and the sub air conditioner of the vehicle even after the vehicle is turned off.

In addition, the effect of the present invention is that by using a blow fan pre-installed in the vehicle without having a separate blow fan in the sub air conditioner, not only can the installation space be saved, but also the existing installation position or structure of the vehicle air conditioner can be changed. By providing a sub air conditioner in the space between the outer panel and the inner panel of the vehicle without doing so, it is possible to provide a vehicle air conditioner system that can be used while maintaining the inner space of the vehicle as in the prior art.

In addition, the effect of the present invention is that, when the sub-evaporator of the sub air conditioner is provided in the case, a blocking hole is formed in the case to partition a gap that cannot partition the inner space of the case, and a blocking part is provided in the blocking hole, It is possible to provide a non-dong vehicle air conditioner system capable of increasing efficiency by concentrating the air supplied to the blow fan to the sub-evaporator through the blocking unit.

1 is a block diagram showing an air conditioning system for a non-dong vehicle according to a preferred embodiment of the present invention.
2 is a configuration diagram illustrating a vehicle air conditioner unit and a sub air conditioner unit of a vehicle air conditioner system in an unmanned building according to a preferred embodiment of the present invention.
3 is a structural diagram showing the structure of an air conditioning system for a non-dong vehicle according to a preferred embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining the non-dong vehicle air conditioning system according to embodiments of the present invention.

Referring to FIGS. 1 to 3 , an unmanned vehicle air conditioner system according to the present invention includes a vehicle air conditioner unit 100 , a sub air conditioner unit 200 , a control unit 300 , and a control unit 400 .

First, the vehicle air conditioning unit 100 is configured and operated in the same manner as the conventional air conditioner provided in the vehicle.

The vehicle is provided with an engine 110 , a generator 120 , and a vehicle battery unit 130 , and a plurality of components according to the air conditioner are provided. Hereinafter, the operational relationship and structural description of the components related to the vehicle air conditioner according to the compressor, the condenser, the cooling fan, the evaporator, and the blow fan 180 to be described will be briefly described because it is already known technology.

The generator 120 is driven by the vehicle engine 110 .

The vehicle battery unit 130 is connected to the generator 120 , is charged with power generated through the generator 120 , and supplies the charged power when the generator 120 is driven.

The vehicle compressor 140 is operated by the vehicle engine 110 .

In the vehicle condenser 150 , the vehicle refrigerant is transmitted from the vehicle compressor 140 .

The vehicle cooling fan 160 is provided on one side of the vehicle condenser 150 to cool the vehicle condenser 150 .

At this time, the engine 110 , the generator 120 , and the vehicle cooling fan 160 are connected by a belt and are driven together from when the vehicle ignition is turned on to off. In some vehicles, the vehicle cooling fan 160 is driven even when the engine is turned off, and thus, the present invention is not limited thereto.

The vehicle evaporator 170 receives the vehicle refrigerant from the vehicle condenser 150 and delivers it to the vehicle compressor 140 .

In addition, the vehicle evaporator 170 may be formed in plurality, depending on the vehicle. In this case, when the vehicle refrigerant is delivered from the vehicle condenser 150 , it may be branched and delivered. In addition, when the vehicle refrigerant is branched to the plurality of vehicle evaporators 170 , the branching may be controlled using a valve.

The blow fan 180 is provided at one side of the vehicle evaporator 170 .

The case 190 has a vehicle evaporator 170 and a blow fan 180 provided therein, and an inlet 191 through which air is introduced into the blow fan 180 on one side and the air introduced into the vehicle evaporator 170 are provided inside. An outlet 192 through which the cold air is discharged is formed.

In addition, a heater may be provided inside the case 190 , a plurality of doors separating the heater and the vehicle evaporator 170 may be formed, and various passages may be formed according to the opening and closing of the door. In addition, a vehicle refrigerant line through which the vehicle refrigerant transferred to the vehicle evaporator 170 and transferred to the vehicle compressor 140 moves may be provided inside the case 190 .

Here, the vehicle air conditioner system of the present invention is made by adding the sub air conditioner unit 200 to the vehicle air conditioner unit 100 and controlling it together with the vehicle air conditioner unit 100 .

The sub air conditioner 200 includes a sub evaporator 210 , a sub compressor 220 , a sub condenser 230 , a sub cooling fan 240 , and a sub battery unit 250 .

The sub-evaporator 210 is provided inside the case 190 .

Here, the case 190, the sub-evaporator 210 is provided to face the vehicle evaporator 170, the through-hole 193 through the outer surface is further formed.

That is, the sub-evaporator 210 has one side inserted into the through-hole 193 and the other side is in close contact with the inlet of the through-hole 193 , and is provided inside the case 190 .

In other words, the through-hole 193 is formed in the case 190 provided in the conventional vehicle, and the sub-evaporator 210 is inserted between the vehicle evaporator 170 and the blow fan 180 to the inside of the case 190 . formed to be available. Accordingly, the sub-evaporator 210 may be inserted into the through-hole 193 to face the vehicle evaporator 170 .

At this time, the compressed air passing through the blow fan 180 may pass through the sub-evaporator 210 and pass through the vehicle evaporator 170 .

Meanwhile, the sub-evaporator 210 may be installed in one side and the other direction of the vehicle evaporator 170 . Here, it is preferable that the sub-evaporator 210 is installed inside the case 190 without interference with the vehicle refrigerant line connected to the vehicle evaporator 170 and other conventional vehicle accessories such as a heater module and a door. In addition, a door and a flow path are formed in the inner space of the case 190 in which the vehicle evaporator 170 is provided, so that the sub has the same area as the vehicle evaporator 170 and faces the space provided with the vehicle evaporator 170 . Since it is difficult to install the evaporator 210 , it is preferable to install the sub-evaporator 210 in an installation space formed so that air passes between the blow fan 180 and the vehicle evaporator 170 or vehicle accessories.

Accordingly, since the above-described vehicle accessories are not located between the vehicle evaporator 170 and the blow fan 180 , the sub-evaporator 210 is not provided in the installation space between the blow fan 180 and the vehicle evaporator 170 . desirable.

In addition, in the case 190 , a through hole 194 is further formed between the through hole 193 and the outer edge of the case 190 .

Here, as described above, as the sub-evaporator 210 is additionally provided in the installation space while the vehicle accessories are provided inside the case 190, the size of the sub-evaporator 210 is adjusted by the installation space structure. can be

In this case, the sub air conditioner 200 supplies cold air to the interior of the vehicle in a state in which the engine is not started, and a cooling area of 1 to 20 m 2 is sufficient. For this reason, each configuration may be uniformly formed according to the cooling area of the sub air conditioner 200 , and in particular, the area of the sub evaporator 210 may be formed smaller than the area of the vehicle evaporator 170 , but in a conventional vehicle. It is preferable that the case 190 is formed to have a minimum area so that the sub-evaporator 210 can be easily installed in the internal installation space of the case 190 .

Accordingly, the installation space of the case 190 in which the sub-evaporator 210 can be installed may be different for each vehicle. Here, when installing the sub-evaporator 210 having a vertical width smaller than the vertical width of the installation space, it is necessary to block a gap formed in the upper or lower portion of the sub-evaporator 210 .

That is, since a gap may occur with the inner surface of the case 190 in the upper or lower portion of the sub-evaporator 210 , the blocking hole 194 is further formed to install the blocking unit 500 for blocking the gap. will be.

The blocking unit 500 is inserted into the blocking hole 194 to block the gap formed between the inner surface of the case 190 and the sub-evaporator 210 , and air introduced into the blow fan 180 into the sub-evaporator 210 . ) to focus and pass.

On the other hand, if the vertical width of the sub-evaporator 210 and the vertical width of the installation space are the same, the formation of the blocking hole 194 and the provision of the blocking unit 500 are not required, but the sub-evaporator 210 of the present invention is used in various vehicles. In order to be applied, it is preferable to be formed in a minimum size, and in other vehicles, the gap is blocked through the blocking hole 194 and the blocking part 500 so that as much air as possible passes through the sub-evaporator 210. It is preferable to allow

In addition, the through hole 193 and the blocking hole 194 are formed between the blow fan 180 and the vehicle evaporator 170 so as not to touch the vehicle accessories already provided inside the case 190 when the blocking part 500 is inserted. It is preferable to be formed in

On the other hand, in the sub-evaporator 210, a fitting hole penetrating in the left and right longitudinal direction is formed on at least one side of the upper and lower portions, and an opening hole through which the fitting hole is opened with the outer surface is formed.

In addition, the blocking unit 500 includes a pillar-shaped fitting rod, one end of which is inserted into the fitting hole, and a plate in which the fitting rod is extended to be fitted into the opening hole and the other end is extended so that the other end is in close contact with the inner surface of the case 190. .

The blocking hole 194 is formed between one end of the sub-evaporator 210 and the inner surface of the case 190 without touching the vehicle accessories already provided inside the case 190 when the plate is provided inside the case 190 . It is formed to be inclined to partition. At this time, the blocking hole 194 is preferably formed to be inclined so that the air supplied to the blow fan 180 is prevented from vortexing and concentrated in the sub-evaporator 210 . That is, when the blocking part is inserted, air not only concentrates on the sub-evaporator while moving along the inclined blocking part, but also does not cause a vortex phenomenon in the space between the sub-evaporator and the blow fan, so that the air flows smoothly.

In addition, the fitting hole is formed in the shape of a long hole inserted into the front and rear of the sub-evaporator 210 .

In addition, the opening hole is formed to be shorter than the shortened length of the fitting hole, and the opening width is formed to become narrower toward the outer surface of the sub-evaporator 210 .

At this time, the fitting rod is movable along the long axis of the long hole as the plate is tilted according to the inclined angle of the blocking hole 194, and is inserted and provided in the fitting hole without being bent with the plate.

* In addition, the vehicle air conditioning system for non-dong according to the present invention further includes a roller unit and a guide rail.

The roller unit is provided outside the case 190 , and the blocking unit 500 is connected thereto.

In this case, the blocking unit 500 is made of a flexible material that can be unwound or wound on the roller unit.

And, when the engine 110 of the vehicle is operating, the control unit 400 controls the roller unit to wind the blocking unit 500 to the roller unit so that the air introduced into the blow fan 180 is transferred to the vehicle evaporator 170 . to pass as a whole, and when the engine 110 of the vehicle is in a stopped state, the wound blocking unit 500 is unwound to partition the inside of the case 190 so that the air is concentrated to the sub-evaporator 210 .

In addition, when the heater of the vehicle is turned on, the controller 400 winds up the blocking unit 500 and stops the operation of the sub air conditioner 200 .

The guide rail is inserted into the end of the blocking hole 194 so that one side is attached to the inner surface of the case 190 , and one end is provided to be attached to the side of the case 190 , and one end of the blocking part 500 is inserted A guide groove is formed so that it can be

Accordingly, the blocking unit 500 is easily inserted into the inside of the case 190 along the guide groove when it is unwound on the roller unit.

The sub-compressor 220 receives the sub-refrigerant from the sub-evaporator 210 .

The sub condenser 230 receives the sub refrigerant from the sub compressor 220 and delivers it to the sub evaporator 210 .

The sub cooling fan 240 is provided on one side of the sub condenser 230 to cool the sub condenser 230 .

The sub-battery unit 250 is charged with power by the power generation of the generator 120 .

The control unit 300 may turn on/off the vehicle air conditioner unit 100 and the sub air conditioner unit 200 , respectively.

When the sub-air conditioner 200 is turned on by the operation of the control unit 300 in a state in which the vehicle compressor 140 and the vehicle cooling fan 160 are stopped due to the engine 110 being stopped, the control unit 400 The blow fan 180 is operated with the power of any one or more of the vehicle battery unit 130 and the sub battery unit 250 , and the sub compressor 220 and the sub cooling fan 240 are powered by the power of the sub battery unit 250 . It controls to supply cool air to the inside of the vehicle only with the sub-refrigerant.

Preferably, when the engine 110 is stopped, the controller 400 operates the blow fan 180 with the power of the sub-battery unit 250 and does not use the power of the vehicle battery unit 130 . .

Meanwhile, the vehicle includes an outer panel 101 and an inner panel 102 provided from the outer panel 101 .

In addition, the blow fan 180 , the vehicle evaporator 170 , the case 190 , the sub compressor 220 , the sub condenser 230 , and the sub cooling fan 240 are disposed between the outer panel 101 and the inner panel 102 . It is provided so that it is not exposed to the interior of the vehicle.

Here, the sub condenser 230 is provided with one side facing the outer panel 101 .

In addition, the sub cooling fan 240 is provided to face the other side of the sub condenser 230 .

In this case, in the outer panel 101 , a discharge hole 103 is formed in a portion corresponding to the sub-condenser 230 , and a grill part is provided in the discharge hole 103 .

The grill unit according to the present invention is provided in the discharge hole 103 to discharge the air passing through the sub condenser 230 by the sub cooling fan 240 to the outside of the outer panel 101, and to the outside of the outer panel 101 A plurality of blades that partition the discharge hole 103 that can prevent the inflow of rainwater are formed.

That is, the grill portion is formed with a plurality of wings to partition the discharge hole 103, but is inclined in one direction to prevent the inflow of rainwater.

In particular, when the exhaust hole 103 is formed on the side of the vehicle, it is preferable that the wing is formed so that the exhaust air faces the rear of the vehicle.

In addition, the non-dong vehicle air conditioning system of the present invention further includes a blocking film 600 .

The blocking film 600 is provided between the sub cooling fan 240 and the inner panel 102 to block driving noise of the sub cooling fan 240 and to block heat transfer due to condensation of the sub refrigerant.

Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the claims to be described later rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. should be interpreted In addition, the operation sequence of the components described in the above process does not necessarily have to be performed in a time-series order, and if the gist of the present invention is satisfied even if the execution order of each configuration and step is changed, such a process may fall within the scope of the present invention. Of course you can.

101: outer panel
102: inner panel
103: exhaust hole
100: vehicle air conditioning unit
110: engine
120: generator
130: vehicle battery unit
140: vehicle compressor
150: vehicle condenser
160: vehicle cooling fan
170: vehicle evaporator
180: blow fan
190 : case
191: inlet
192: outlet
193: through hole
194 : Blocker
200: sub air conditioning unit
210: sub evaporator
220: sub compressor
230: sub condenser
240: sub cooling fan
250: sub battery unit
300: control unit
400: control unit
500: blocking part
600: barrier

Claims (1)

In the air conditioner system of a vehicle provided with a generator driven by a vehicle engine and a vehicle battery unit connected to the generator,
a vehicle compressor operated by the vehicle engine;
a vehicle condenser to which the vehicle refrigerant is transferred from the vehicle compressor;
a vehicle cooling fan provided on one side of the vehicle condenser to cool the vehicle condenser;
a vehicle evaporator receiving the vehicle refrigerant from the vehicle condenser and transferring it to the vehicle compressor;
A blow fan provided on one side of the vehicle evaporator and the vehicle evaporator and the blow fan are provided inside, and an inlet through which air flows into the blow fan on one side and an outlet through which the introduced air passes through the vehicle evaporator are discharged as cold air Vehicle air conditioning unit including a formed case;
a sub-evaporator provided inside the case;
a sub-compressor to which the sub-refrigerant is delivered from the sub-evaporator;
a sub-condenser that receives the sub-refrigerant from the sub-compressor and delivers it to the sub-evaporator;
a sub air conditioner unit provided at one side of the sub condenser and including a sub cooling fan for cooling the sub condenser and a sub battery unit charged with power generated by the generator;
a control unit capable of turning on/off the vehicle air conditioner unit and the sub air conditioner unit, respectively; and
When the sub air conditioner is turned on by the operation of the control unit in a state in which the vehicle compressor and the vehicle cooling fan are stopped due to the stopping of the engine, the blow fan is operated with any one or more of the vehicle battery unit and the sub battery unit and a control unit controlling the sub-compressor and sub-cooling fan to operate with the power of the sub-battery unit to supply cool air to the inside of the vehicle only with the sub-refrigerant; and
The case is further formed with a through-hole having an outer surface penetrated so that the sub-evaporator is provided to face the vehicle evaporator,
The sub-evaporator is inserted into the through hole and provided inside the case,
The case is further formed with a blocking hole penetrated between the through hole and the outer edge of the case,
a blocking part inserted into the blocking hole to block a gap formed between the inner surface of the case and the sub-evaporator, and to concentrate the air introduced into the blow fan to the sub-evaporator and pass;
The vehicle includes an outer panel and an inner panel provided from the outer panel,
The blow fan, the vehicle evaporator, the case, the sub compressor, the sub condenser and the sub cooling fan are provided between the outer panel and the inner panel,
The sub condenser is provided with one side facing the external panel,
The sub cooling fan is provided to face the other side of the sub condenser,
The outer panel, a discharge hole is formed in a portion corresponding to the sub-condenser,
A grill having a plurality of blades disposed in the discharge hole to discharge air passing through the sub condenser to the outside of the outer panel by the sub cooling fan, and partitioning the discharge hole capable of preventing the inflow of rainwater from the outside of the outer panel A vehicle air conditioning system that further comprises a part;

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