KR101649463B1 - Cooling and heating system for vehicle - Google Patents

Abstract

The present invention relates to a non-starting cooling and heating system for a vehicle and to a non-starting cooling and heating system for a vehicle, capable of obtaining maximum heating effect using limited electric energy and rapidly raising the temperature of the inside of the vehicle by improving an initial heating effect during a heating operation while the vehicle is not started up. In other words, the non-starting cooling and heating system for a vehicle is installed in the vehicle and comprises a compressor, an expansion valve, an indoor heat exchanger, and an outdoor heat exchanger. In accordance with heating and cooling change, a heat exchanger individually comprises: a condenser; a cooling and heating device changed into an evaporator; a main power unit operating the cooling and heating device; a heating unit installed in an indoor blast port of the vehicle and the indoor heat exchanger of the cooling and heating device and sending heat to the inside of the vehicle; an auxiliary power unit operating the heating unit; and a control unit stopping the operation of the heating unit performing heating by the cooling and heating device when the cooling and heating device is activated after the heating unit is operated at an initial stage for a predetermined time when the cooling and heating device performs the heating.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling /

The present invention relates to an ignition control system for a vehicle, and more particularly, to an ignition control system for a vehicle which can increase the initial heating efficiency at the same time of heating in an ignored state, rapidly raise the temperature inside the vehicle, And an air conditioning method using the same.

Generally, the cooling / heating system of the vehicle is operated only when the vehicle starts, and the cooling / heating system must be operated while maintaining a state where the engine is started regardless of traveling.

However, in the case of a driver engaged in the transportation business by a vehicle such as a driver or a truck for a long period of time, the vehicle is heated for 4 to 5 hours for a long period of time (Parking Heating) There is a problem that unnecessary fuel consumption occurs, noise due to idling, pollution occurs, and there is a problem that it is necessary to wait until heat is generated in the engine when the heating operation is performed.

In order to solve these problems, the ignition-free cooling / heating system of a vehicle has been suggested. However, since the temperature of the indoor heat exchanger is very low during the heating operation, the heating efficiency is lowered until the heating cycle is activated. In addition, since the temperature of the indoor heat exchanger is lowered during the transition from the cooling to the heating in the season when the daily drift is severe, there is a problem that the heating cycle must be activated also in this case.

Below is a description of the technologies involved in heating and cooling the vehicle.

(1) In the No. 10-1195839 (auxiliary cooling and heating apparatus for a vehicle using a thermoelectric module), a cooling water flow circuit is implemented so that the cooling water passes through a heat generator without passing the heat generator directly, A technique in which subcooling is performed at an early stage is proposed.

However, in the prior art, a secondary cooling and heating can be performed by using a thermoelectric element. However, there is a problem that the price of the thermoelectric element itself is high and energy efficiency is poor. In order to implement the above configuration, And the directional control valve must be installed in two places. Therefore, the construction is complicated and it is difficult to secure the installation space.

(2) A heat pump system comprising a refrigerant circulation line and a cooling water circulation line, a compressor, an indoor heat exchanger, an evaporator, a first thermal expansion valve, a coolant-refrigerant heat exchanger, A second thermal expansion valve, and a cooling water heating means.

In the prior art, the initial heating efficiency is increased through the cooling water heating means and the problem of the problem of the heat exchanger is solved. However, since the cooling water heating means is composed of the combustion heater, not the electric energy of the battery, There is a problem of fire occurrence.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a heating and cooling system for a vehicle, The present invention is directed to a system for neglected cooling and heating of a vehicle which is capable of enjoying the maximum heating effect with limited electric energy.

The present invention relates to a cooling and heating device installed in a vehicle and comprising a compressor, an expansion valve, an indoor heat exchanger, and an outdoor heat exchanger, wherein the heat exchanger is switched to a condenser and an evaporator, A heating unit installed between the indoor heat exchanger of the heating and cooling unit and the indoor fan of the vehicle and immediately sending heat to the room; an auxiliary power unit for operating the heating unit; and a heating unit for heating the heating unit for a predetermined period of time And a control unit for stopping the operation of the heating unit and heating the heating unit when the heating / cooling unit is activated.

The main power supply unit and the auxiliary power supply unit are charged by a generator installed in the vehicle.

Further, the control unit may control activation of the heating unit by determining activation of the heating / cooling unit by a temperature sensor installed in the indoor heat exchanger of the heating / cooling unit.

In addition, the heating unit is provided with a hot wire to electrically generate heat, and hot air is supplied to the inside of the vehicle by a blowing fan installed in the indoor heat exchanger.

The heating unit is composed of a separate hot line and a blowing fan, and is composed of a first warm air supply line supplied with hot air to an indoor air blowing port of the vehicle. The air conditioning apparatus includes a second hot air supply line supplied with hot air by an indoor heat exchanger, The first and second warm air supply lines are selectively opened and closed.

The present invention minimizes unnecessary fuel consumption, pollution, and noise by operating the air conditioner in a non-operating state in which the driver does not start when the driver takes a long break in the vehicle. In addition, when the heating / So that the temperature inside the vehicle can be raised quickly.

In addition, the cooling / heating apparatus is operated as a main power source unit and the heating unit is operated as a separate auxiliary power source unit, so that a load according to power supply of the main power source unit can be minimized and maximum heating effect can be obtained with limited electric energy.

1 is a view showing a configuration of an ignition control system for a vehicle according to the present invention;
2 is a view showing a heating / cooling method using the heating / cooling system of the present invention
3 is a view showing another embodiment of the ignition control system for a vehicle according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1, the ignition control system for a vehicle according to the present invention comprises a compressor 110, an expansion valve 130, an indoor heat exchanger 120, and an outdoor heat exchanger 140, The indoor heat exchanger 120 of the heating and cooling apparatus 100 and the indoor heat exchanger 120 of the cooling and heating apparatus 100. The indoor heat exchanger 120 of the air conditioning and heating apparatus 100 is connected to the indoor heat exchanger 120, An auxiliary power unit 400 for operating the heating unit 300 and an auxiliary heating unit 300 for heating the heating and cooling unit 100 at the initial stage of the heating operation of the heating / And a control unit 500 for operating the heating unit 300 for a predetermined time and then stopping the heating unit 300 when the heating and cooling unit 100 is activated and heating the heating unit 300 to be heated by the heating and cooling unit 100. [ .

The heating / cooling apparatus 100 of the present invention is installed in a vehicle, and is cooled and heated by an air-cooling / heating cycle only with electrical energy ignored. That is, unlike the conventional method in which heating is performed by the engine heat, the cooling / heating apparatus 100 of the present invention changes the direction of the refrigerant at the time of cooling / heating change and the indoor heat exchanger 120 functions as an evaporator during cooling, And the outdoor heat exchanger 140 functions as a condenser during cooling and an evaporator during heating to change the cooling / heating operation. In addition, the indoor heat exchanger 120 and the outdoor heat exchanger 140 are provided with ventilation fans 121 and 141, respectively, in the same manner as a conventional heat exchanger so that heat can be exchanged.

The main power supply unit 200 is a power source for operating the air conditioner 100, and is composed of a battery provided in the vehicle. This main power supply unit 200 is recharged by a generator that is rotated by the engine at the start of the vehicle.

The heating unit 300 of the present invention operates only at the heating time of the heating and cooling apparatus 100 and is installed between the indoor heat exchanger 120 of the heating and cooling apparatus 100 and the air outlet 600 formed in the interior of the vehicle. The heating unit 300 is configured so that hot air can be supplied to the room immediately. The heating unit 300 is operated until the cycle is activated at the time of heating operation of the heating and cooling apparatus 100. The heating unit 300 is not operated by the main power unit 200 but is operated by an auxiliary power unit 400 that is a separate battery because the heating unit 300 is operated not only by the heating unit 300 but also by the heating / The driving power of the heating unit 300 and the heating / cooling unit 100 may be separately provided to minimize the load due to the power supply of the main power supply unit 200. [ The auxiliary power unit 400 is also recharged by the generator of the vehicle like the main power unit 200.

The operating time of the heating unit 300 is determined by the controller 500. It is preferable that the operating time of the heating unit 300 is about 20 minutes at the time of the first startup. The operating time may be fixedly set. In order to operate the heating unit 300 more efficiently, It is preferable that a temperature sensor (not shown) is directly installed in the indoor heat exchanger 120 of the heating and cooling apparatus 100 to determine whether the heating and cooling apparatus 100 is activated and to control the operation of the heating unit 300. This configuration prevents the unnecessary use of the heating unit 300 and prevents the use of the heating unit 300 when the driver leaves the vehicle for a while to temporarily stop the operation of the air conditioning apparatus 100. In accordance with the temperature of the indoor heat exchanger 120 Since the operation of the heating unit 300 is controlled, consumption of electric energy can be minimized.

The heating unit 300 of the present invention is electrically heated by the power supplied from the auxiliary power unit 400 and the heating unit 300 is not provided with a blowing fan and is installed in the indoor heat exchanger The hot air is supplied to the passenger compartment of the vehicle by the blowing fan 121 installed in the vehicle. That is, at the beginning of heating, the air in the blowing fan 121 installed in the indoor heat exchanger 120 among the heating unit 300 and the heating / cooling unit 100 is converted into warm air while passing through the heating unit 300, And finally flows into the indoor air outlet 600 of the vehicle.

Since the hot air supply of the heating unit 300 is performed by the blowing fan 121 installed in the indoor heat exchanger 120 itself, the indoor air is supplied from the hot air of the heating unit 300 to the indoor heat exchanger The heating unit 300 may stop operating and the heating and cooling unit 100 may not be able to supply warm air to the heating unit 300, A warm wind can be introduced into the indoor air outlet 600 of the vehicle because the road 610 is in a state of being warmed to some extent.

A method of cooling and heating using the ignition control system of a vehicle according to the present invention will now be described.

The heating / cooling method of the present invention includes a step (S-1) of inputting a heating operation signal as shown in FIG. 2, a step (S-1) of operating the heating / And a step (S-3) of operating the heating unit until the heating / cooling apparatus is activated and then stopping the operation of the heating unit and heating only by the heating / cooling unit.

When the driver inputs a heating operation signal directly to the interior of the vehicle, the heating / cooling unit 100 and the heating unit 300 are operated by the main power supply unit 200 and the auxiliary power supply unit 400 through the control unit 500, And indoor heating is performed. In this case, even if the heating / cooling apparatus 100 and the heating unit 300 are operated at the same time, since the heating and cooling apparatus 100 is not yet activated, the heating unit 300 takes charge of heating the room. Then, when a predetermined time elapses until the heating and cooling apparatus 100 is activated, the control unit 500 stops the operation of the heating unit 300, and heating is performed only by the heating and cooling apparatus 100.

The heating unit 300 includes a separate heating line 310 and a blowing fan 320 so that the indoor fan 600 of the vehicle can be heated and cooled. The heating and cooling apparatus 100 includes a second warm air supply line 800 to which warm air is supplied by a blowing fan 121 installed in the indoor heat exchanger 120, Respectively. At this time, the first and second warm air supply lines 700 and 800 are provided with a valve 900 at the point where the respective supply lines meet, and are selectively opened and closed by the control unit 500 to supply hot air to the indoor air outlet 600 .

The reason why the first and second warm air supply lines 700 and 800 are separately constructed is that the warm air of the indoor heat exchanger 120 is not warmed at the time of operating the air conditioner 100, The control unit 500 controls the inflow amount of the first and second warm air supply lines 700 and 800 by installing the valve 900 at the point where the hot air and the heterogeneous feeling of the hot air are generated. That is, in the early stage, the hot winds of the first and second warm air supply lines 700 and 800 are mixed with each other to be sent to the hot air supply path, and the ratio of the second hot air supply line 800 is increased over a certain period of time, After the operation of the unit 300 is stopped, only the warm air of the second warm air supply line 800 is used for heating. Thus, it is possible to minimize the sense of heterogeneity caused by the conversion process of the hot air supply line to the driver.

According to the present invention as described above, the heating unit 300 is simultaneously operated by the control unit 500 at the time of heating operation of the heating / cooling apparatus 100 so that heating can be performed quickly until the heating / cooling apparatus 100 is activated, Energy can be used to increase heating efficiency.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: Heating / cooling device 110: Compressor
120: indoor heat exchanger 121, 141: blowing fan
130: expansion valve 140: outdoor heat exchanger
200: main power supply unit 300: heating unit
310: heat line 320: blowing fan
400: auxiliary power unit 500: control unit
600: indoor tuyere 610: hot air supply path
700: first warm air supply line 800: second warm air supply line
900: Valve

Claims (6)

The air conditioner 100 includes a compressor 110, an expansion valve 130, an indoor heat exchanger 120, and an outdoor heat exchanger 140. The heat exchanger includes a condenser and an evaporator. Wow,
A main power source 200 for driving the cooling / heating device 100 when the vehicle is turned on,
A heating unit 300 installed between the indoor heat exchanger 120 of the air conditioning and heating unit 100 and the indoor air outlet 600 of the vehicle when the vehicle is turned on and generating electrical heat by a hot wire,
An auxiliary power unit 400 that operates the heating unit 300 when the vehicle is turned on,
When the heating unit 300 is operated for a predetermined period of time at the time of heating operation of the heating and cooling apparatus 100 and then the heating and cooling apparatus 100 is activated and the heating unit 300 is stopped, And a control unit (500)
The indoor heat exchanger 120 of the cooling and heating apparatus 100 has its own blowing fan 121 and the control unit 500 controls the blowing fan 121 of the cooling / (300) is operated so that air blown through the heating unit (300) is converted into warm air to be introduced into the indoor air blowing port (600)
The method according to claim 1,
Wherein the main power supply unit (200) and the auxiliary power supply unit (400) are charged by a generator installed in the vehicle.
The method according to claim 1,
Wherein the control unit 500 determines activation of the heating and cooling apparatus 100 by a temperature sensor installed in the indoor heat exchanger 120 of the heating and cooling apparatus 100 and controls operation of the heating unit 300. [ Air-conditioning system
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