KR960007757Y1 - Fan heater - Google Patents

Abstract

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Description

Midnight Regenerative Heater

1 is a cross-sectional view showing the main portion of the late-night heat storage heater according to the present invention

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a perspective view of the heat storage tube used in the present invention

4 is a perspective view of a radiator which is a part of the present invention

* Explanation of symbols for main parts of the drawings

10: heat storage cylinder 11: horizontal plate

14,15: vertical bulkhead 18: opening

20: electric heater 30: heat storage pipe

40: piping 50: water supply

60: radiator

The present invention relates to a late-night heat storage hot air fan, and more particularly, to a late-night heat storage hot air fan that operates by heating an electric heater in the middle of the night to accumulate heat in a phase change material, and then heat it by supplying hot water to the radiator using the accumulated heat when needed. .

The late-night regenerative heating apparatus according to the prior art heat-generates a heat accumulator such as ceramic brick laminated in a case wrapped with a heat insulating material such as asbestos, by heating and heating an electric heater in a low-cost late night, followed by a fan during the day. By operating the air is passed through the case to be sent out to the outside is structured to heat. However, in the latent heat storage heating apparatus configured as described above, the heat storage body is easily cooled, and as a result, the fine particles of the thermal insulation material such as asbestos are released to the outside, which is harmful to the hygiene.

Patent Application Publication No. 90-8293 discloses a charge-and-heat radiator using a low temperature molten salt to solve the above problems.

The radiator case is separated up and down, the heat storage compartment is separated into several compartments at the top, and the heating chamber is formed at the bottom. The regenerative storage chamber has a low temperature dissolving salt treated with particles smaller than the mixed kaolin fine powder particles in a flat synthetic resin container coated with an aluminum thin film, sealed to maintain moisture content, and then laminated several.

The heat dissipation type radiator using the low temperature melting salt has a heat source circulating the heating chamber while supplying a heat source to heat the radiator to radiate heat, and at the same time to heat the heat accumulator stacked in the heat storage compartment. Even at low temperatures, the dissolved salts are dissolved. When the supply of the heat source is stopped, the low temperature molten salt solidifies and heats the radiator itself to radiate heat.

In addition, Japanese Laid-Open Utility Model Publication No. Hei 3-10159 discloses a heat storage element capable of containing a heat storage medium.

The heat storage element has a circular interior, a hexagonal outer surface, and an air residual layer formed therein. In addition, a certain amount of water is filled inside to dissolve and solidify the heat storage medium.

In the heat storage element described above, since the inside is circular and water and air are contained, the reactivity of charging and dissipation is good, and the outer surface is hexagonal, which is advantageous for lamination.

However, the above-mentioned conventional designs have a problem in terms of efficient use of energy because they are simply configured to dissipate heat when supply of the heat source is stopped after accumulating heat when supplying the heat source.

The present invention was devised to solve the above-mentioned problems of the prior art, and is manufactured and repaired by heating using a circulation of water and storing heat by using late night power to maximize energy utilization, and using it during the day time. Its purpose is to provide a night heat regenerative heat fan that is easy to maintain.

The present invention for realizing the above object is a regenerative heating fan composed of a radiator for heating the outside air by passing the heat of the heat storage tank and the water to the outside, the other side so as to be spaced apart from the bottom surface by a predetermined distance from the side wall of the heat storage cylinder Horizontal plates fixed to the side wall and the upper surface of the heat storage cylinder and the vertical partition wall is formed to a predetermined interval so that water is circulated alternately, and the pedestal is installed in the opening formed between the side wall and the horizontal plate body And a heat storage body laminated on the horizontal heater, a controller for controlling the operation time of the electric heater, a pedestal, and the horizontal plate body.

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

The latent heat storage type air heater of the present invention has an electric heater 20 and the electric heater 20 controlled by the controller 21, as shown in FIGS. 1 and 2, and a plurality of heat storage tubes 30 are provided. The heat storage tube 10 is stacked, the pipe to connect the radiator 60 to the upper and lower portions of the radiator 60 and the heat storage tube 10 to heat the outside air by passing the heat of water to the outside (40) ) And the valve 47.

A water circulation inlet 42 is formed below the side wall 17 of the heat storage cylinder 10, and a horizontal plate body is spaced apart from the bottom surface 11 so as to maintain a predetermined amount of space with the other side wall 13. (12) is formed. A first vertical bulkhead 14 is placed at the tip of the horizontal plate 12 to be spaced apart from the upper surface 16 by a predetermined amount, and the upper surface is interposed between the first vertical partition 14 and the side wall 17. A second vertical partition wall 15 protruding downward from 16 is formed to be spaced apart from the horizontal plate body 12 to some extent, and a water circulation outlet 41 is formed at an upper end of the side wall 17.

A pedestal 19 is provided in the opening portion 18 formed between the horizontal plate body 12 and the one side wall 13 of the heat storage cylinder 10, and the electric heater 20 is provided below the opening portion 18. Is installed. In addition, a water supply unit 50 for supplying or replenishing water is formed at an upper portion of the heat storage cylinder 10, and a plurality of heat storage tubes are formed on the pedestal 19 and the horizontal plate 12 of the opening 18. 30) are stacked.

The heat storage tube 30 seals both ends of the pipe 32 filled with the phase change material 33 therein and the fraud pipe 32 as shown in FIG. 3 and is larger than the diameter of the pipe 32. It has a hexagonal plug 31 with a larger width. Due to the shape of the stopper 31, the heat storage tube 30 can be easily laminated, and a space is formed between the pipes 32 to prevent water from being cooled by the water filling.

The radiator 60 is composed of an upper tank 61 and a lower tank 62 as in the usual case, and a heat exchanger 63 is formed therebetween. A hot water supply plate 43 is connected to the upper tank 61, and a cold water discharge pipe 44 is connected to the lower tank 62.

The hot water supply pipe 43 is connected to the water circulation outlet 41 formed in the heat storage cylinder 10, and the cold water discharge pipe 44 is connected to the water circulation inlet 42, and a connection pipe therebetween. 45 is provided, and the three-way valve 47 is provided in each connection part.

As shown in FIG. 4, the radiator 60 is installed below the warm air heater case 1 in which the heat storage casing 10 is formed, and an air inflow passage 65 is formed at the bottom of the warm air heater case 10. An air discharge passage 64 is formed on the side. At this time, a fan (not shown) may be installed at a predetermined position of the warmer case 1 to forcibly discharge the warm air.

Referring to the effect of the present invention configured as described above in detail as follows.

When water is supplied from the water supply unit 50 and the heat storage container 10 is filled with water, when the controller 21 operates the electric heater 20 by using low-cost electric power at night, the heat storage container The water located in the lower part of 10 and the upper part of the opening part 18 is heated. The heated water rises and passes between the vertical partitions 14 and 15 and is discharged to the water circulation outlet 41. At this time, according to the operation of the valve 47, hot water is re-introduced into the water circulation inlet 42 and heated again, such as circulating inside the heat storage tank 10, supplied to the radiator 60 may be used for heating. do.

During internal circulation of the heat storage tank, hot water discharged through the water circulation outlet 41 is re-introduced into the water circulation inlet 42 through the connecting pipe 45 to circulate the inside of the heat storage cylinder 10 while storing the heat storage. The phase change material 933 filled in the tubular body 30 is heated. When the phase change material 33 is heated, the liquid is liquefied and retains heat. When the temperature in the heat storage container 10 rises above a certain level, a sensor (not shown) senses this and controls the controller 21 to control the electricity. The power supplied to the heater 20 may be interrupted.

When heating the room, hot water is supplied to the upper tank 61 of the radiator 60 through the hot water supply pipe 43 without passing through the connecting pipe 45, and the outside air is supplied from the heat exchange part 63. After cooling while heating, it is collected in the lower tank 62. The cold water collected in the lower tank 62 is sent to the water circulation inlet 42 through the cold water discharge pipe 44 and then heated by the electric heater 20 in the heat storage container 10 to be circulated again. .

Even when heating is required during the day, since the electric heater 20 is not operated, the interior is heated by using the heat accumulated in the heat storage tube 30. Water circulating between the heat storage cylinder 10 and the radiator 60 is heated in the heat storage tube 30 and heats the outside air in the radiator 60 to heat the room. The phase change material 33 inside the heat storage tube 30 solidifies as a solid, thereby releasing latent heat, which is absorbed by water to become hot water at a high temperature, and then the heat exchange part 63 of the radiator 60. Heats and heats to outside air in

As described above, the late-night heat storage type hot air heater according to the present invention is not only a phase change material but also accumulates in water because the water is filled between the heat accumulators, and the heating effect of the water itself is high and the efficiency of the heat accumulator itself is prevented. There is an advantage to improving.

In addition, inexpensive midnight electric power can be used, which is economical, and the radiator and heat accumulator can be mounted in the heat exchanger case, which has another advantage of miniaturization.

In addition, the configuration is simple, easy disassembly and assembly, there is another advantage that is easy to manufacture and maintenance.

Claims (2)

In the heat storage type heat exchanger comprising a light heater for heating the outside air by passing the heat of the heat storage tank and the water to the outside air, the other side so as to be spaced apart from the bottom surface 11 by a predetermined distance from the side wall 13 of the heat storage cylinder (10) A vertical partition wall fixed to the side wall 17, a top surface 16 of the heat storage cylinder 10 and the horizontal plate body 12 are formed at a predetermined interval so that water is alternately circulated ( 14 and 15, pedestals 19 installed on the openings 18 formed between the side walls 13 and the horizontal plate body 12, and electric heaters 20 provided below the openings 18; And a heat storage tube 30 configured to be stacked on the pedestal 19 and the horizontal plate body 12, and a controller 21 for controlling the operation time of the electric heater 20. . The method of claim 1, The heat storage tube 30 is a pipe 32 filled with a phase change material 33 and a hexagonal plug 31 sealing both ends of the pipe 32 and having a width larger than the diameter of the pipe 32. ), The radiator (60) is a late-night heat storage type heat exchanger, characterized in that the integrally installed inside the heat exchanger case (1) in which the heat storage cylinder (10) is formed.