KR20060036029A - Hot-water supply device using solar heat - Google Patents

Abstract

The present invention is a hot water supply device using a known heat collecting plate for collecting solar heat, the heat collecting plate in the water flow guide groove 113 is formed vertically spaced at a predetermined interval, a plurality of the top of the heat collecting plate 110 A watering pipe 120 having a water spray nozzle 121 is formed, wherein each water spray nozzle 121 is configured to be positioned above each water flow guide groove 113 so that the water sprayed water flow guide groove 113 In order to provide a hot water supply device using solar heat that is configured to absorb and heat the heat of the heat collecting plate 110 while flowing down), the present invention forms a water pipe on the top of the heat collecting plate and the water sprinkled by the water pipes By heating directly through the surface of the can obtain a high temperature and a large amount of hot water, and the heat medium or water to circulate like a hot water supply device using a conventional solar heat The use of conduits is a very useful invention that is innovatively simple in structure and easy to manufacture and install.

Solar, hot water, supply

Description

Hot-water supply device using solar heat}             

1 is a perspective view showing the shape of a general solar heat collecting plate.

2 is a perspective view of the hot water supply device of the present invention.

3-A sectional view along the line A-A of FIG.

4 is a reference side view for showing the working state of the present invention.

5 is a schematic diagram of a hot water supply device of the present invention.

* Description of the main parts of the drawing

100: the present invention hot water supply device

110: heat collecting plate 111: frame

111a: upper frame 111b: lower frame

111c: side frame 112: sump

113: water flow guide groove

120: watering pipe 121: watering nozzle

121a: watering flow control cap

130: water supply pipe 140: water discharge pipe

150: hot water reservoir 160: light transmitting plate

161: fastener 170: sump temperature sensor

171: hot water reservoir temperature sensor 180: circulation pump

190: microprocessor 200: power supply

The present invention relates to a hot water supply apparatus using solar heat, in particular, to spray water directly onto the heat collecting plate and to be heated and stored while flowing down the heat collecting plate, hot water supply using solar heat to supply the stored hot water to the user Relates to a device.

In general, solar energy is one of the most economical and available alternatives because it is clean and inexpensive of natural energy.

However, the above-mentioned solar energy is divided into photovoltaic power generation using solar light and solar thermal power generation device for direct use of solar heat, or solar heating device for heating and hot water. Solar heat is low temperature (less than 100 ° C.) and medium temperature (depending on temperature). 100 ~ 300 ℃), high temperature (over 300 ℃) application field is divided into, the most important part in utilizing the solar heat is the solar heat collecting plate or heat collecting tube. The heat collecting plate and the heat collecting tube are devices for converting light energy of the sun into heat energy, and a transparent light transmitting plate (glass or plastic) that transmits light is formed in a form surrounding a black internal component that absorbs light. It is configured to cause the light, which causes the light to enter the heat collecting plate or heat collecting tube is changed to infrared rays, the infrared rays do not pass through the transparent layer and the inside becomes increasingly hot to heat the heating medium flowing through the conduit. In addition, the heat medium has a structure that enables the use of solar heat by heating the water for heating or hot water again.

In recent years, the hot water circulating device instead of the heat medium is used for heating or hot water, but as shown in FIG. 1, a solar hot water supply device having a structure for obtaining hot water using a conduit is shown in FIG. It has a disadvantage of low heat efficiency due to the narrowness of the enemy, and condensation of the heat collection structure due to the use of conduits for circulating heat medium or water, and high risk of freezing when water in the conduits freezes in winter. will be.

Therefore, the conventional solar hot water supply device also has a closed end to heat the water with an electric heater and then circulate it first to prevent the risk of freezing as described above.

In Fig. 1, reference numeral 10 denotes a heat collecting plate, 11 denotes a welded portion, 12 denotes a seam welded portion, 13 denotes a conduit, 20 denotes a connector, and 21 denotes a connection portion.

Therefore, the present invention is not a structure in which water is heated while circulating inside the heat collecting plate through a conduit, as in the conventional solar hot water supply device, and forms concave grooves, that is, water flow guide grooves at regular intervals, on the heat collecting plate, A watering pipe is formed and a plurality of watering nozzles are formed at the bottom of the watering pipe, wherein the watering nozzle is positioned above the water flow guide groove so that the water sprayed flows down through the water flow guide groove. It is intended to provide a hot water supply device using solar heat that can be absorbed and heated so that there is no fear of freezing in winter, the structure is simple, easy to manufacture and install, and a large amount of hot water can be obtained with little trouble.

Hereinafter, described in detail by the accompanying drawings of the present invention.

The hot water supply device 100 using the solar heat of the present invention is a heat collecting plate 110, the water flow guide groove 113 is formed at a predetermined interval vertically, and to the top of the heat collecting plate 110, the watering pipe 120 is formed and A plurality of spray nozzles 121 are formed on the bottom surface of the spray pipe 120, but the spray nozzles 121 are configured to be positioned above the water flow guide groove 113 so that the sprinkled water flows in the water flow guide groove 113. It is absorbed by the heat of the heat collecting plate 110 is heated while flowing down).

At this time, in order to protect the heat collecting plate 110, the frame 111 is formed to protrude from the edge of the heat collecting plate 110, so that the water spray pipe 120 is installed at the bottom of the upper frame 111a. The water spray nozzle 121 formed on the bottom surface of the water spray pipe 120 is provided with a watering amount adjusting cap 121a for adjusting the watering amount of water, which is necessary to control the amount of water to be sprayed, respectively. to be.

The water flow guide groove 113 is configured to prevent the water sprayed from the water spray nozzle 121 from flowing in the other direction of the heat collecting plate 110, and the water flow guide groove 113 is the heat collecting plate 110. If it is not formed in the water will flow in a zigzag surface of the heat collecting plate 110, because the heat collecting plate 110 can not be continuously heated because the hot water supply efficiency is inevitably lowered.

The lower frame 111b is provided with a water collecting tank 112 for collecting water flowing down the water flow guide groove 113 of the heat collecting plate 110.

The side frame 111c is configured to prevent the water flowing down from the top of the heat collecting plate 110 to leak to the side of the heat collecting plate 110.

The light transmitting plate 160 of transparent glass or plastic material is attached to the front surface of the frame to protect the heat collecting plate 110 from dust or foreign matter and to prevent damage.

The sprinkling pipe 120 is connected to the water supply pipe 130 to receive the water stored in the hot water reservoir 150 from the circulation pump 180, the water accumulated in the sump tank 112 is connected to the sump tank 111b The water discharge pipe 140 is stored in the hot water reservoir 150 again.

As such, the water stored in the hot water storage tank 150 is repeatedly heated while flowing down from the top of the heat collecting plate 110 as long as the circulation pump 180 is operated, but if the sun is weak or in the evening, the water tank 112 When the temperature of the water accumulated in the lower than the temperature of the water stored in the hot water reservoir 150, the operation of the circulation pump 180 is stopped.

Operation and stop of the circulation pump 180 as described above is controlled by a microprocessor 190, the microprocessor 190 is a temperature sensor 170 and the hot water reservoir installed in the sump 112 or the heat collecting plate (110). It becomes possible by always comparing the temperature of the temperature sensor 171 provided in 150.

The present invention forms a watering pipe on the top of the heat collecting plate, and the water sprinkled by the water pipe can be directly heated while flowing through the water flow guide groove formed on the surface of the heat collecting plate to obtain a high temperature and a large amount of hot water, using conventional solar heat. There is no fear of freezing even in winter, as the hot water supply device does not use conduits for circulating the heat medium or water, and it is a very useful invention that is easy to manufacture and install because of its simple structure.

Claims (4)

In the hot water supply device using a known heat collecting plate for collecting solar heat, The water collecting plate is formed vertically so that the water flow guide groove 113 is spaced apart at a predetermined interval, and the watering plate 120 having a plurality of water spray nozzles 121 is formed on the top of the heat collecting plate 110, wherein each The water spray nozzle 121 is configured to be positioned above each water flow guide groove 113 so that the sprayed water flows down the water flow guide groove 113 while being configured to absorb and heat the heat of the heat collecting plate 110. Hot water supply device using solar power. According to claim 1, wherein the frame 111 is protruded on the edge of the heat collecting plate 110 to protect the heat collecting plate 110, the water spray pipe 120 is installed on the bottom of the upper frame (111a) In the lower frame 111b, a water collecting tank 112 is formed to be connected to the water discharge pipe 140, and the water discharge pipe 140 is configured to be connected to the hot water storage container 150. Device. According to claim 1, wherein the temperature sensor (170, 171) is installed in the water collecting tank 112 and the hot water storage tank 150, and this is always compared by the microprocessor 190, the temperature of the water accumulated in the water collecting tank 112 is a hot water storage tank ( When the temperature of the water stored in 150 is lower than the hot water supply device using the solar heat, characterized in that configured to stop the operation of the circulation pump (180). The hot water supply device using solar heat according to claim 1, wherein the spraying nozzles 121 formed on the bottom of the spraying pipes 120 are provided with a spraying amount control cap 121a.

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