KR101033231B1 - Eco-friendly air conditioner using solar heat - Google Patents

Abstract

PURPOSE: An environmentally-friendly air conditioning system using solar energy is provided to prevent the inflow of outside cold air by using an air curtain by vertically spaying air from the top toward the bottom side thereof. CONSTITUTION: An environmentally-friendly air conditioning system using solar energy comprises a first solar panel(20), a second solar panel(30), an air curtain member, a seat heating member, an air inhalation member, and a controller. The first solar panel and second solar panel are installed on a roof(11) of a bus stop booth(10) side by side and collects solar energy. The air curtain member sprays air to the entrance of the bus stop booth and forms an air curtain after the exchange of heat between cold air and the solar energy heat that is collected by the first solar panel. The seat heating member sprays air to the seats installed inside the bus stop booth after the exchange of heat between cold air and the solar energy heat that is collected by the second solar panel. The air inhalation member supplies the internal air of the bus stop booth to the air curtain member and seat heating member. The controller controls the temperature of the air curtain member and seat heating member to below a fixed temperature based on the outside temperature sensed by a temperature sensor.

Description

ECO-FRIENDLY AIR CONDITIONER USING SOLAR HEAT}

The present invention relates to an eco-friendly air conditioning apparatus using solar heat, and more particularly, to an eco-friendly air conditioning apparatus using solar heat capable of heating a booth and a seat of a public transportation station such as a bus or a taxi using only solar heat in winter.

In general, a booth is provided on the side of the road for getting on and off public transportation such as a bus or a taxi (hereinafter, referred to as a 'bus').

The booth is composed of, for example, a roof, a side plate and a back plate so that the bus can be waited without rain and snow in rainy weather.

Conventional booths can prevent snow, rain, and wind from roofs and walls, but do not have separate heating facilities, so there is no great utility in winter, for example, when the outside air temperature is low.

Of course, the booth can be heated by installing an electric heater, etc., which generates heat generated by underground power, but since the inlet of the booth is open, external cold air flows into the booth, resulting in low heating efficiency. Due to the demand for electricity, it is unable to meet the trend of resource saving and eco-friendliness.

The present invention is to solve the problems described above, it is an object to provide an environmentally friendly air conditioning apparatus using solar heat to heat the booth and seat of the bus stop in the winter using only solar heat.

In addition, another object of the present invention is to supply power to the electrical appliances for heating using solar light.

Eco-friendly air-conditioning apparatus using solar heat according to the present invention for achieving the object as described above, the first and second heat collecting plate which is mounted side by side on the roof of the bus stop booth and collects the solar heat respectively; Air curtain means for forming an air curtain by heat-exchanging heat collected by the first heat collecting plate with air to inject hot air from the inlet side of the bus stop booth; Sheet heating means for heating by heat-exchanging heat collected by the second heat collecting plate with air to inject hot air into a sheet provided on the wall side of the bus stop booth; Air suction means for supplying air inside the bus stop booth to the air curtain means and the seat heating means; It characterized in that it comprises a controller for operating the air curtain means and the seat heating means when lowered below a predetermined temperature based on the outside temperature sensed by the temperature sensor.

According to the eco-friendly air conditioner using solar heat according to the present invention, the solar heat is recovered and vertically sprayed at the inlet of the booth to form an air curtain to heat the booth by blocking external cold air from entering the booth, and By supplying high temperature air to the seat surface of the booth to warm the seat, you can sit on the seat and wait for the arrival of the bus, so you can create a comfortable environment inside the booth and do not use a separate electric heater. Using only solar heat, it is eco-friendly and minimizes maintenance costs.

In addition, since the power of the heat exchange medium and the pump for circulation of air, various fans, and the like are supplied from solar light, reliability of the environment-friendly facility can be improved.

1 is a perspective view of an installation state of an environment-friendly air conditioning apparatus using solar heat according to the present invention.
Figure 2 is a side view of the installation state of the environment-friendly air conditioning apparatus using solar heat according to the present invention.
Figure 3 is an excerpt front view of the main portion of the air curtain means applied to the environment-friendly air conditioning apparatus using solar heat according to the present invention.
Figure 4 is a perspective view of the air intake means applied to the eco-friendly air conditioning device using solar heat according to the present invention.

As shown in FIG. 1 and FIG. 2, the eco-friendly air conditioning apparatus using solar heat according to the present invention prevents contamination by heating and / or scattering dust, etc. inside the booth 10 of a bus stop using solar heat. 10 consists of the roof 11, the both side plates 12, and the back plate 13, and the sheet | seat 14 is installed inside.

According to the present invention, an air curtain is formed at the inlet side of the booth 10 to block the inside of the booth 10 from the outside and to heat the seat 14 of the booth 10.

On the roof 11 of the booth 10, the first and second heat collecting plates 20 and 30 for collecting solar heat are placed side by side.

The first and second heat collecting plates 20 and 30 are independent of each other, and a general product for collecting solar heat is used, and the heat recovered from the solar heat and the first and second heat exchange medium are configured to directly heat exchange.

It consists of air curtain means, sheet heating means, and air suction means using heat collected by the first and second heat collecting plates 20 and 30.

As shown in FIG. 2 and FIG. 3, the air curtain means forms heat curtains by injecting high temperature air from the inlet side of the booth 10 by heat-exchanging heat collected by the first heat collecting plate 20 with air. , The first heat recovery pipe 110, the first heat exchange case 120, the first air blow case 130, and the air curtain fan 140.

The first heat recovery pipe 110 collects heat collected by the first heat collecting plate 20 and is a tubular shape in which a first heat exchange medium is filled, and although not shown in the drawing, a pump for circulation of the first heat exchange medium. Is equipped.

The first heat recovery pipe 110 is arranged in a meandering shape, for example, on the first heat collecting plate 20 so that a part of the first heat recovery pipe 110 can supply the recovered heat while recovering the heat. Bottom) along the width direction.

Recovery of heat collected in the first heat collecting plate 20 by using the first heat exchange medium may be performed by a person having ordinary knowledge in the field of solar heating, and thus a detailed description thereof will be omitted.

The first heat exchange case 120 is hollow inside and the first heat recovery tube 110 penetrates therein. Of course, the portion through which the first heat recovery pipe 110 penetrates is sealed to prevent air from entering.

The first heat exchange case 120 is connected to the first duct 320 of the air intake means to exchange heat between the air and the first heat exchange medium flowing through the first heat recovery pipe 110, and also exchanges high-temperature air. It is connected to the connecting pipe 121 to supply to the first blowing case 130.

The first circulation duct 320 is connected to the center of the first heat exchange case 120, and the connection pipe 121 is provided on both left and right sides of the first heat exchange case 120 so that the intake, heat exchange, and discharge of air are efficiently performed. Each is connected.

The first heat exchange case 120 has a spiral guide groove 122 formed in the inner wall in order to increase the residence time of the air.

The first blower case 130 has a box shape having a plurality of injection holes 131 and is connected in fluid communication with the first heat exchange case 120 through a connection pipe 121 to exchange heat in the first heat exchange case 120. Get hot air. Although not shown in the drawing, the first heat exchange case 120 and the first air blow case 130 are fixed to the roof 11 or the like.

The air curtain fan 140 is installed along the width direction inside the first blower case 130 to spray hot air supplied to the first blower case 130 to the bottom of the booth 10.

The sheet heating means heats the heat collected by the second heat collecting plate 30 with air to heat the air by injecting hot air into the seat 14 installed in the booth 10, and the second heat recovery pipe 210. , A second heat exchange case 220, a second ventilation case 230, and a sheet heating fan 240.

The second heat recovery pipe 210, the second heat exchange case 220, the second blow case 230, and the sheet heating fan 240 are the first heat recovery pipe 110 and the first heat exchange case of the air curtain means described above, respectively. Since 120, the first blower case 130, and the same configuration as the fan 140 for the air curtain, a detailed description thereof will be omitted, and is disposed at a position capable of heating the surface of the sheet 14.

As shown in Figure 4, the air suction means is installed on the ceiling of the booth 10, the suction case 310 having a suction port, the suction case 310 and the first and second heat exchange case (120, 220) respectively The first and second circulation ducts 320 and 330 are installed in the suction case 310, and are composed of a circulation fan 340 for supplying the air inside the booth 10 to the first and second heat exchange cases 120 and 220. At the suction port of the suction case 310, a filtering net 311 is installed to filter foreign substances contained in the air.

The present invention forms an air curtain and heats the seat 14 by using high temperature air only when the outside air temperature is low, such as winter, for example, is configured to operate only below 10 ℃, for this purpose it detects the outside air temperature A temperature sensor (not shown) is provided.

The temperature sensor detects the outside temperature in real time, and the controller compares the detected temperature with the reference temperature of the temperature sensor to operate the air curtain means and the seat heating means when the current temperature is less than the reference temperature.

Meanwhile, the inside of the booth 10 may be ventilated under a temperature condition other than the winter season, and the outside (roadway side) may be controlled to prevent inflow of dust or soot into the booth 10, that is, the first and second heat recovery pipes ( When the pumps 110 and 210 are turned off and the circulation fan 340, the air curtain fan 140, and the sheet heating fan 240 are turned on, the air is circulated without heat exchange, so that the dust inside the booth 10 may be scattered. It can be prevented from contamination.

The present invention is an environment-friendly facility by creating a comfortable environment inside the booth 10 using only solar heat, power supply to the air curtain fan 140, seat heating fan 240, circulation fan 340 using the solar light. It is configured to be supplied so that it can be trusted as a more environmentally friendly facility.

The solar cell 40 is installed on the roof 11 of the booth 10. The solar cell 40 is a conventional product that converts light energy of sunlight into electrical energy and is fixed to the roof 11 by various fixing means. Although not illustrated in detail, the solar cell 40 is electrically connected to the fan 140 for the air curtain, the fan 240 for seat heating, and the circulation fan 340.

The operation of the eco-friendly air conditioner using solar heat according to the present invention is as follows.

The controller compares the present temperature with the reference temperature by the temperature sensor, and if the present temperature is lower than the reference temperature, the controller applies the driving of the pump, the air curtain fan 140, the seat heating fan 240, and the circulation fan 340. .

Accordingly, the first heat exchange medium recovers heat collected in the first heat collecting plate 20 while circulating the first heat recovery pipe 110.

Meanwhile, air in the booth 10 is supplied to the first heat exchange case 120 via the suction case 310-the first circulation duct 320 by the circulation fan 340 of the air suction means.

The air sucked into the first heat exchange case 120 exchanges heat with the first heat exchange medium of the first heat recovery pipe 110 while spirally flowing along the guide groove 122 to increase the temperature. That is, since the air flows in a spiral, the residence time is long, and thus the heat exchange time with the first heat exchange medium is long, so that even if the size of the first heat recovery pipe 110 and the first heat exchange case 120 is small, Can produce air

The hot air is supplied to the first blowing case 130 through the connecting pipe 121 and then injected to the inlet side of the booth 10 by the fan 140 for the air curtain.

Therefore, the hot air forms an air curtain at the inlet side of the booth 10 so that the flow between the outside air and the air inside the booth 10 is blocked, and the hot air circulates inside the booth 10 so that the booth ( 10) The interior can be heated.

The hot air is injected into the surface of the sheet 14 by the sheet heating means is schematically described according to the same action as the air curtain means, the second heat exchange medium of the second heat recovery tube 210 is a second heat collecting plate ( The heat collected by 30 is circulated and circulated, and the air introduced into the second heat exchange case 220 is heat-exchanged with the second heat exchange medium and then sprayed onto the surface of the sheet 14. That is, even if the outside air is low, it is possible to sit on the seat 14 of the booth 10 and wait for the arrival of a bus or the like.

If the outside temperature is higher than the reference temperature during this operation, the air curtain and seat heating are stopped by turning off the pump or turning off the pump and various fans.

That is, when only the pump is turned off, hot air whose temperature rises due to solar heat does not circulate, and the same air is injected as the outside air temperature, so scattered dust and soot may not penetrate into the booth 10.

10: booth, 20,30: first and second heat collecting plate
110,210: First and second heat recovery pipe
120,220: 1st, 2nd heat exchange case, 130,230: 1st, 2nd air exchange case
140: fan for air curtain, 240: fan for seat heating
310: suction case, 320,330: first and second circulation duct
340: circulation fan,

Claims (2)

First and second heat collecting plates 20 and 30 mounted side by side on the roof 11 of the bus stop booth 10 and collecting solar heat respectively;
Air curtain means for forming an air curtain by heat-exchanging heat collected by the first heat collecting plate with air to inject hot air from the inlet side of the bus stop booth;
Sheet heating means for heating by heat-exchanging heat collected by the second heat collecting plate with air to inject hot air into a sheet installed in the bus stop booth;
Air suction means for supplying air inside the bus stop booth to the air curtain means and the seat heating means;
It includes a controller for operating the air curtain means and the seat heating means when lowered below a predetermined temperature based on the external temperature sensed by the temperature sensor,
The air curtain means,
A first heat recovery pipe 110 connected to the first heat collecting plate and recovering heat collected by the first heat collecting plate through a first heat exchange medium therein while being installed along the width direction at the entrance of the bus stop booth;
A first heat exchange case 120 having a hollow inside and having a spiral guide groove 122 on an inner wall, connected to the air suction means, and through which the first heat recovery pipe passes;
A first blower case 130 having a box shape having a plurality of injection holes and connected in fluid communication with the first heat exchange case through a connection pipe 121 to receive hot air heat exchanged in the first heat exchange case;
The air curtain fan 140 is installed along the width direction inside the first blower case to inject the high temperature air supplied to the first blower case to the bottom of the bus stop booth to form an air curtain. ,
The sheet heating means,
A second heat recovery pipe 210 connected to the second heat collecting plate and recovering heat collected by the second heat collecting plate through a second heat exchange medium therein while being installed along the width direction on the back plate of the bus stop booth;
A second heat exchange case 220 having a hollow inside and having a spiral guide groove on the inner wall, connected to the air suction means, and through which the second heat recovery pipe passes;
A second blower case 230 having a box shape having a plurality of injection holes and connected in fluid communication with the second heat exchange case through a connection pipe to receive hot air heat exchanged in the second heat exchange case;
A seat heating fan 240 installed along the width direction of the second blower case and spraying hot air supplied to the second blower case toward the seat of the bus stop booth to heat the seat;
The air suction means, the suction case 310 is installed on the ceiling of the bus stop booth having a suction port, the filter net 310 is installed in the suction port of the suction case to filter foreign matter, the suction case and the first and second First and second circulation ducts 320 and 330 connecting the heat exchange cases, and a circulation fan 340 installed in the suction case and forcibly sucking air in the bus stop booth to supply the first and second heat exchange cases. Eco-friendly air conditioning device using solar heat, characterized in that. The fan of the air curtain, the sheet heating fan and the circulation fan are installed on the roof of the bus stop booth and convert solar light energy into electrical energy. Eco-friendly air conditioning device using solar heat, characterized in that driven by power.

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