KR20040073186A - temperature keeping device in a car using solar heat - Google Patents

Abstract

PURPOSE: An apparatus for maintaining a temperature in a car using solar heat is provided to operate a discharge fan and a ventilating fan by heat absorbed by a solar battery plate, thereby maintaining a regular temperature in a car. CONSTITUTION: A solar battery plate(10) is installed on a roof of an automobile for absorbing solar energy. An ECU(Electronic Control Unit)(20) converts the absorbed solar energy into electric energy. A temperature sensor(30) is operated by the ECU and senses a temperature of the automobile inside. A discharge fan forcibly discharges air to the outside when the temperature is increased to a temperature higher than a set temperature. A fan driving unit(40) drives a ventilating fan for circulating the air.

Description

Temperature keeping device in a car using solar heat}

The present invention relates to an in-vehicle temperature maintaining apparatus using solar heat, and more particularly, when the indoor temperature of the vehicle exceeds the set value, the indoor temperature is constant by circulating the internal air of the vehicle by driving the exhaust fan and the air conditioning fan with solar energy. The present invention relates to a vehicle temperature maintaining apparatus using solar heat that can be maintained.

In general, when a car is parked for a long time in a summer or hot area where the air temperature rises, the car receives a lot of heat to operate a predetermined air conditioner provided in the car while the driver or passenger is on board or the window of the vehicle for a predetermined time. Open and ventilate.

However, in the summer or hot climates, as the indoor temperature inside the car rises to about 70 ° C., there is a problem in that a considerable amount of energy is wasted by operating the air conditioner for a considerable time.

In addition, there is a problem that the driver or passengers feel uncomfortable due to the heat while riding in the vehicle with a high internal temperature.

In addition, when a driver or a passenger parks a flammable substance such as a gas lighter for a long time in the summer, there is a problem that the gas lighter or the like explodes due to a sudden increase in room temperature.

The present invention is proposed to solve the above problems of the prior art, by mounting a predetermined solar panel on the roof of the car converts the heat absorbed into electrical energy to drive the exhaust fan and the air conditioning fan provided on the roof together It is an object of the present invention to provide an in-vehicle temperature maintaining apparatus using solar heat that can maintain the internal temperature of the vehicle by ventilating the outside air and the internal air of the vehicle.

The present invention for achieving the above object is a solar panel mounted on the roof of the car to absorb solar energy, an ECU for converting the heat energy absorbed from the solar panel into electrical energy, and is operated by the ECU and inside the vehicle When the temperature inside the car rises above the set temperature, the exhaust fan forcibly discharging air to the outside to maintain the temperature below the set temperature and the blower fan that sucks the air inside. It is to provide an in-vehicle temperature maintenance device using the solar heat including a fan drive unit for circulating.

1 is a state diagram showing a vehicle equipped with a temperature maintaining apparatus using solar heat according to the present invention.

Figure 2 is a block diagram of a temperature maintaining apparatus using solar heat according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: solar panel 20: ECU

30: temperature detection unit 40: fan motor unit

42: exhaust fan 44: blowing fan

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

1 is a state diagram showing a vehicle equipped with a temperature maintaining apparatus using solar heat according to the present invention, Figure 2 is a block diagram of a temperature maintaining apparatus using solar heat according to the present invention.

Detailed description of the same or similar elements as in the prior art will be omitted.

As shown in FIG. 1 and FIG. 2, the vehicle temperature maintaining apparatus using solar heat according to the present invention includes a solar panel 10 mounted on a roof of an automobile so as to absorb solar energy, and a solar panel 10 absorbed by the solar panel 10. An electronic control unit (ECU) for converting the thermal energy into electrical energy (hereinafter referred to as ECU; 20), a temperature sensing unit 30 that operates by the ECU 20 and senses a temperature inside the vehicle, When the temperature inside the vehicle rises above the set temperature of the temperature sensing unit 30, the exhaust fan 42 forcibly discharging air to the outside to maintain the temperature below the set value and the blower fan 44 suctioned to the inside are simultaneously driven. It characterized in that it comprises a fan drive unit 40 for circulating air.

On the other hand, the exhaust fan 42 is provided on the roof of the vehicle, the blowing fan 44 is installed on the air conditioning duct for intake air into the interior of the vehicle.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention made of the above characteristics will be described in more detail as follows.

As shown in FIG. 1, a solar panel 10 is formed in an automobile to collect and store solar heat.

The solar panel 10 is fixed to a predetermined position on the outer surface of the vehicle, it is preferably fixed to the roof of the vehicle.

Naturally, the solar panel 10 is connected to a heat storage device (not shown) capable of storing a predetermined amount.

In addition, the vehicle includes a temperature sensing unit 30.

The temperature sensing unit 30 is provided at a predetermined position inside the vehicle, and is preferably formed at an adjacent position of the solar panel 10.

In addition, the temperature sensing unit 30 is installed to be electrically connected to a sensor (not shown) capable of detecting a temperature of the vehicle and generating a signal.

On the other hand, the fan driver 40 is electrically connected to drive the discharge fan 42 and the blowing fan 44.

The fan driver 40 is operated by energy stored in the solar panel 10.

In addition, the discharge fan 42 electrically connected to the fan driving unit 40 is operated when the internal temperature of the vehicle rises above the set temperature of the temperature sensing unit 30 installed inside the vehicle, thereby forcibly discharging the internal air to the outside. Let's go.

The exhaust fan 42 is formed at a predetermined position of the vehicle, and is preferably installed on the roof of the vehicle so as not to give discomfort directly to a pedestrian passing around the vehicle during operation.

In addition, the blowing fan 44 is operated at the same time as the discharge fan 42 for the circulation of the air inside the vehicle and is formed to introduce air into the interior of the vehicle.

The blower fan 44 may be provided separately at a predetermined position of the vehicle, but it is preferable to use the one installed in the vehicle for conventional air conditioning.

The discharge fan 42 and the blowing fan 44 are installed to automatically stop operation when the temperature inside the vehicle is lower than the set value by the temperature sensing unit 30.

On the other hand, as shown in Figure 2, the solar panel 10 is electrically connected to the ECU 20 is controlled.

That is, the ECU 20 performs an operation such as converting thermal energy absorbed from the solar panel 10 into electrical energy.

In addition, the temperature sensing unit 30 operates with electric energy charged by solar heat absorbed by the solar panel 10 and senses a temperature inside the vehicle.

The temperature sensing unit 30 is installed to operate when the temperature inside the vehicle is above a set value.

In addition, the fan driving unit 40 serves to circulate the internal air and the external air while the discharge fan 42 and the blowing fan 44 are operated by the operation of the temperature sensing unit 30.

Hereinafter, an operation process of an in-vehicle temperature maintaining apparatus using solar heat configured as described above will be described in more detail with reference to the accompanying drawings.

If the car is parked in a shade-free place for a long time in a hot summer, the room temperature of the car naturally rises. To prevent this, the following devices are installed in the car.

First, a predetermined solar panel 10 is mounted on the roof of an automobile, and solar energy absorbed by the solar panel 10 is converted into electrical energy by the ECU 20.

Thereafter, when the internal temperature rises above the set value by the sensor of the temperature sensing unit 30 installed inside the vehicle, the ECU 20 transmits a signal.

The fan driver 40 is operated by the control of the ECU 20 to circulate the air in the vehicle interior with the outside air.

At this time, the fan driving unit 40 is provided with an exhaust fan 42 installed on the roof of the vehicle and an air conditioner for forcibly discharging the air inside the vehicle to the outside to operate the blower fan 44 for introducing air into the vehicle at the same time. Let's do it.

In addition, when the temperature inside the vehicle is lower than the set value in the temperature sensing unit 30, the fan driving unit 40 is stopped by the control of the ECU 20.

As described above, according to the in-vehicle temperature maintaining apparatus using the solar heat according to the present invention, the solar panel is mounted on the roof of the car to operate the exhaust fan and the blowing fan with the heat absorbed by the effect of maintaining the room temperature of the car constant There is.

Claims (2)

A solar panel mounted on the roof of the vehicle to absorb solar energy; An ECU for converting heat energy absorbed from the solar panel into electrical energy; A temperature sensing unit operated by the ECU and sensing a temperature inside the vehicle; When the temperature inside the vehicle is higher than the set temperature of the temperature detection unit includes a discharge fan forcibly discharging the air to the outside to maintain below the set value, and a fan drive unit for circulating the air by driving the blower fan sucked into the inside In-vehicle temperature maintenance device using a solar heat, characterized in that configured to. The method of claim 1, The discharge fan is provided on the roof of the vehicle; The blowing fan is a vehicle temperature maintaining apparatus using solar heat, characterized in that installed on the air conditioning duct for air intake into the interior of the vehicle.