KR820000931Y1 - Solar heat accumulating tank with auxiliary boiler - Google Patents

Abstract

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Description

Solar heat storage tank with auxiliary boiler

1 is a longitudinal sectional view of the present invention.

2 is a partial cross-sectional view of the present invention.

3 is a circuit diagram of a conventional solar heat storage tank.

The present invention installs an auxiliary boiler inside the hot water that is stored by using a solar heat source and supplies it to each heater. When the solar heat drops to a low temperature, the auxiliary boiler operates to heat the hot water. It is related to solar heat storage tanks in which convection phenomena by auxiliary boilers are configured differently. In the past, a separate auxiliary boiler was installed outside the solar heat storage tank to replenish the heated hot water of solar heat storage tanks. This wide area had a big problem in the installation site.

In order to reduce such defects, the present invention installs an auxiliary boiler inside the heat storage fuselage, and puts a cylinder of insulation in the surrounding space, spaced a considerable distance from the bottom of the fuselage to cover the insulation cylinder, inserting a check valve, and a certain interval on the outer periphery. Solar heat dissipation tube is recommended on the outer circumference that is close to the bottom of the fuselage by expanding the insulated cylinder, and heat-sealing tube is enclosed on the outer circumference, and hot water heating tube is installed around it to accumulate solar heat to the maximum and heat loss of auxiliary boiler. As much as possible to be described in detail by the accompanying drawings as follows.

Inside the heat storage body (2) covered with the heat insulator (1), a sealed tube (4) in which a hot water tank heating tube (3) is installed is built, and a heat dissipation tube (5) is installed in the inside of the circulation pump (10). In connection with the solar heat absorbing plate 9, the automatic switch 11 connected to the circulation pump 10 in association with the solar heat absorbing plate 9 and the heat dissipating tube 5 is connected to the inside of the heat dissipating tube 5. An auxiliary boiler (7) is installed at the center where the upper part of the insulating cylinder (6) with the upper part is inserted close to the bottom of the sealing tube (4) and the upper part is maintained at a considerable distance. (8) is inserted, but the lower part is to maintain the upper gap, the upper part is to be close.

Reference numerals 12 and 12 'are oil supply valves, 13 and 13' are temperature sensors, 14 are return pumps, and 15 are reverse valves.

Referring to the effects of the present invention made as described above are as follows.

The hot water heated from the solar heat absorbing plate 9 associated with the heat dissipation pipe 5 installed on the inner circumference of the sealed cylinder 4 installed inside the heat storage body 2 covered with the heat insulating material 1 is supplied with the circulation pump 10. By heating the water in the sealed cylinder (4) while circulating by the convection phenomenon at this time takes the heat of the heat dissipation pipe (5) while causing convection phenomenon across the insulating cylinder (6) with the upper portion is expanded When the solar heat absorbing plate 9 is heated to a temperature lower than a predetermined temperature and is in a low temperature state, the circulating pump 10 is stopped and the auxiliary boiler 7 is automatically operated to discharge water in the sealed container 4. In this case, the convection phenomenon is convection only in the interior of the heat insulating material cylinder 8, so that the convection phenomenon is smooth, so that the hot water is heated in a short time. When the water is heated by the auxiliary boiler, almost no water is circulated on the outer periphery of the insulating cylinder 6 with the upper portion expanded, and only the water is heated while convection inside the insulating cylinder 6, so that hot water is heated in a short time. When the water in the sealed container is heated by the solar heat absorbing plate 9, the auxiliary boiler is in a stopped state. In this case, the water in the sealed container 4 has an upper portion as described above. The convection is heated by convection with the expanded insulation cylinder 6 interposed therebetween so that the water around the auxiliary boiler is not circulated by the insulation cylinder 8 and is cooled when the auxiliary boiler 7 is shut down. Since the loss is reduced to the maximum and the auxiliary boiler 7 is installed in the heat storage fuselage 2, there is an advantage that the installation area is small due to the small amount of auxiliary facilities.

Claims (1)

Inside the heat storage body (2) coated with the heat insulating material (1) is built a closed tube (4) to install the hot water tank heating tube (3) and the heat dissipation tube (5) inside the circulation pump (10) and In a conventional manner associated with the solar heat absorbing plate 9, an automatic switch 11 connected to the circulation pump 10 is associated with the solar heat absorbing plate 9 and the heat dissipation tube 5 and the interior of the heat sink 5. An auxiliary boiler (7) is installed in the center where the upper part of the insulating cylinder (6), which is expanded at the upper part, is placed close to the bottom of the sealing tube (4) and the upper part is maintained at a considerable distance. Solar heat storage tank with built-in auxiliary boiler in which (8) is inserted but the upper part is kept at the upper part and the upper part is close.