KR920005576B1 - Electric heating system - Google Patents

Abstract

A small quantity of heat transfer medium oil storing high calories by using night power, is gradually transmitted from the oil tank to a distribution tank to maintain a constant temperature, when the room temperature gets below a set temperature. The apparatus comprises a storage tank (1) for storing heat transfer medium oil, distribution tank (2), temperature detectors (7,8,9), relay switches (10,10',10") and pump (15,16) for circulating the oil in the pipe of heating plate (17).

Description

Method and apparatus for arbitrarily controlling temperature by drawing small amount of heat of high temperature thermal oil

1 is an exemplary diagram used in the indoor hot stone as a schematic diagram of the present invention.

2 is a perspective view of the storage tank of the present invention cut away.

3 is a cross-sectional view of the storage tank of the present invention.

* Explanation of symbols for main parts of the drawings

1: storage tank 2: distribution tank

3: ferry race layer 4: air layer

5: porous layer 6: stainless steel layer

7, 8, 9: Temperature sensor 10, 10 ', 10 ": relay switch

11, 12: thermometer 13, 14: check valve

15, 16: pump 17: room temperature

18, 19: connector 20: expectation

21: heating element 22: steam valve

The present invention is to inject a high temperature heat medium oil into the storage tank and to store the heat of the high temperature by using heat transfer to the heat medium oil, withdraw a small amount of the heat medium oil to the distribution tank to utilize the appropriate temperature at the required time. And a device thereof.

Conventionally, there has been a method of heating water or other thermal oil and circulating it to use it for heating. However, heating is required because heat is not stored and heating is only effective while using fuel or electricity. There was a drawback that the electricity or other heat source must be operated at the time of doing so, and thus, there was a drawback that the use of late-night electricity was limited and the thermal efficiency was lowered. In other words, the thermal oil used so far for heating is a direct method of transferring heat to the room only through water or electric heating wires. As such, the thermal oil can only be maintained at a temperature of 75 ° C. to 85 ° C. It is impossible to store heat for a long time due to lack of heat preservation or heat storage, and because of this reason, it was difficult to utilize cheap midnight electricity or other instantaneous heat sources.

The present invention can heat normal heat medium oil at any time at any time (especially easy to use late night electricity) at high temperature, and store the heat medium oil heated at high temperature in the storage tank manufactured by triple diaphragm method. It is an object of the present invention to provide a method and apparatus for efficiently storing and using calorie by leaking as small a distribution tank and a heat source as necessary at a necessary time. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention stores heat medium oils such as mineral oil and synthetic oil, which are common heat oils having a large heat capacity capable of maintaining a high temperature of about 250 ° C. to 300 ° C. and having high latent heat and heat storage properties, in the storage tank 1, and the storage tanks. In the process of circulating the ondol (17) through the connecting pipe by installing a small distribution tank (2) communicated between the (1) and the ondol (17) and the high temperature thermal fluid flowing out from the distribution tank (2) When the heat source of the heat medium oil is below the temperature set in the room temperature controller, the relay switch 10 "is connected by the operation of the temperature sensor 9 which senses the temperature of the room temperature 17 to drive the motor pump 16. The heat medium oil in the distribution tank 2 is circulated to the ondol 17. At the same time, when the temperature of the heat medium oil in the distribution tank 2 decreases due to the circulation, the relay switch 10 'is connected by the detector 8. Motor pump (15) is driven so that the pipe (19) The heat medium oil in the ondol 17 whose temperature is lowered through the check valve 14 flows into the storage tank 1. The high temperature heat medium oil stored in the storage tank 1 is distributed by the inflow of the heat medium oil whose temperature is lowered. Since it flows into the tank 2, the storage tank 1, the distribution tank 2, and the ondol 7 can maintain the set temperature, respectively.

Hereinafter, a device according to the present invention will be described in detail with reference to the accompanying drawings.

The upper side of the storage tank (1) in which the heat medium oil is stored is connected to the distribution tank (2) by a connecting pipe (18) with a shank valve (13), and the distribution tank (2) is a pipe in the indoor hot stone (17). And a pipe of the indoor ondol 17 are connected to one side of the bottom of the distribution tank 2, and the other side of the bottom of the distribution tank 2 is stored by a connecting pipe 19 having a check valve 14. It is connected to the bottom of the tank (1), and between the storage tank (1) and the distribution tank (2) is provided with a temperature sensor (8), a relay switch (10 ') and a pump (15). A temperature sensor 9, a relay switch 10 ″ and a pump 16 are installed between the tank 2 and the indoor warming 17, and at the bottom of the storage tank 1, a temperature sensor 7, The relay switch 10 and the heat-transfer body 21 are mounted.The storage tank 1 and the distribution tank 2 are entirely enclosed as shown in Figs. A perforated (NgO) layer (3), a porous diaphragm using the Light Board Conrete method, an air layer (4) formed with a lattice-shaped housing in a ridge to prevent air movement or convection Diracron, alumina, and calcium are mixed in an appropriate ratio to release the special porous chemically, and the concrete layer is made into a porous layer (5), and the outermost portion is a stainless steel layer (6).

Common thermal oils are, for example, Thermia B and Mobiltherm 603, which are commercially available. These thermal oils are mineral oils, which can be used up to 300 ℃ or higher in closed systems. Low viscosity, high heat transfer coefficient and low medium pressure.

The present invention increases the temperature of the heat medium oil in the storage tank 1 to 250 ° C to 300 ° C by using a heat transfer element 21 or the like that can use a late-night electricity (1). ), The high temperature can be maintained for a long time, so that the heat medium oil, which is maintained at a high temperature, can be transferred to a small distribution tank 2 for use as necessary. Exemplary drawing FIG. 1 shows an example used for the indoor ondol 17. When the set temperature of the heat medium oil circulating ondol 17 is lowered through the connecting pipe, the relay switch 10 " Since the motor pump 16 is connected to operate the high temperature heat medium oil stored in the distribution tank 2 flows into the ondol 17, and when the temperature of the heat medium oil falls below the appropriate temperature set in the distribution tank 2 for distribution The motor is installed in the connection pipe 10 between the storage tank 1 and the distribution tank 2 while the relay switch 10 'is automatically turned "ON" by the detection of the temperature sensor 8 installed in the tank 2. Since the pump 15 is operated, the heat medium oil is introduced into the storage tank 1 through the connecting pipe 19. At this time, the heat medium oil is transferred to the storage tank 1 through the connecting pipe 19 by the motor pump 15. In the inflow process, the check valve 14 attached to the connecting pipe 19 is automatically opened. Since the heat medium oil in the distribution tank 2 flows into the lower part of the storage tank 1 in a state in which the temperature is lowered through the indoor hot stone 17, the heat medium oil does not flow back and the high temperature in the storage tank 1 The heat medium oil is pushed upward by the inflow of cooled heat medium oil and flows out through the connecting pipe 18 and the check valve 13 provided between the upper part of the storage tank 1 and the distribution tank 2, and the heat medium flows out. Oil flows into the dispensing tank 2. Therefore, the high temperature heat medium oil which flowed into the dispensing tank 2 from the storage tank 1 and the heat medium oil which fell below the set temperature in the dispensing tank 2 Since the mixture is mixed, the heat medium oil in the storage tank 1 and the distribution tank 2 is controlled by the operation of the temperature sensors 7, 8, 9, the relays 10, 10 ′, 10 ″ and the motor pumps 15, 16. This keeps the proper temperature while always circulating organically.

When described in more detail the cyclic process acts as described above are as follows. When the distribution tank (2) is connected to an indoor ondol (17) or other necessary location that requires a continuous heat source, the temperature sensor (9) always detects the set temperature of the indoor ondol (17). When the temperature is lower than the set temperature, the relay switch 10 "is turned" on "to operate the motor pump 16, and the heat medium oil in the distribution tank 2 flows into the indoor ondol 17, and at the same time, The temperature sensor 8 “ON” the relay switch 10 ′ to operate the motor pump 15 so that the low temperature thermal fluid in the room temperature 17 is operated by the operation of the pump 15. It is introduced into the storage tank (1) through the bottom and the connecting pipe (19), at which time the temperature sensor (7) detects the drop in temperature due to the inflow of the thermal fluid to turn the relay switch 10 "ON" The low temperature heat medium oil flowing from the ondol 17 by applying current to the 21 is As it is heated again, it is in a state of high temperature and flows out from the storage tank 1 to the distribution tank 2 through the connection pipe 18 to repeat the circulation process of maintaining the set temperature constant.

Accordingly, when the temperature of the indoor ondol 17 is lowered, a small amount of high temperature thermal fluid corresponding to the temperature lowered by the above operation is immediately discharged from the distribution tank 2 to the ondol 17 to maintain a constant temperature. It can be maintained.

Therefore, when the temperature of the indoor ondol 17 maintains the set temperature, the relay switch 10 "is" OFF "by the temperature sensor 9, and the outflow of the heat medium oil through the distribution tank 2 is stopped.

According to the present invention, the high temperature heat medium oil is stored in the storage tank 1, and the storage tank 1 is maintained in a high temperature state for a long time because its structure is a triple heat insulating film. And heat transfer oil is organically circulated by the operation of the temperature sensor (7, 8, 9), the relay switch (10, 10 ', 10 ") and the pump (15, 16) only when the temperature falls below the temperature set in the indoor ondol. Since the temperature is maintained, after the high temperature heat medium oil is stored in the storage tank 1, there is an effect of automatically maintaining a constant temperature of the distribution tank 2 and the indoor ondol 17. The present invention is indoors in the embodiment. Although the example of the ondol 17 is used, of course, it can be used in other places where cooking or maintaining a constant temperature is required.

Claims (3)

In a boiler for circulating a heated heating medium to supply a heat source, when the heat source of the heating oil circulating ondol (17) through a connecting pipe is below the set temperature, the relay switch (10 ") is activated by the sensor of the temperature sensor (9). Contacting the motor pump 16 to drive the heat medium oil in the distribution tank 2 to the ondol 17, the temperature sensor when the temperature of the heat medium oil in the distribution tank 2 is lower than the set temperature by the circulation (8) contacting the relay switch 10 'and the motor pump 15 is driven to heat medium oil in the ondol (17) below the set temperature flows into the storage tank (1), the storage tank (1) ) Is discharged to the distribution tank (2) of the high temperature heat medium, and when the temperature of the heat medium oil in the storage tank (1) is lowered, the relay 10 is contacted by the detection of the temperature sensor (7) and the heat transfer body Circulation of Steps to Heat 21 A method of arbitrarily controlling the temperature by withdrawing small amounts of heat of the high temperature heat medium oil, characterized in that the process is repeated. The upper side of the storage tank (1) in which the heat medium oil is stored is connected to the distribution tank (2) by a connecting pipe (18) with a shank valve (13), and the distribution tank (2) is connected to a pipe in the indoor hot stone (17). The pipe of the indoor ondol 17 is connected to the bottom of the storage tank 1 by a connecting pipe 19 having a check valve 14, and the storage tank 1 and the distribution tank 2 are connected to each other. A temperature sensor 8, a relay switch 10 ′ and a pump 15 are provided between the temperature sensor 8, and the temperature sensor 9 and the relay switch 10 ″ between the distribution tank 2 and the indoor hot stone 17. And a pump (16), and at the bottom of the storage tank (1), the temperature sensor (7) and the relay switch (10) are connected to the heat transfer body (21). A device used to withdraw and adjust the temperature arbitrarily. The porous tank according to claim 2, wherein the storage tank (1) and the dispensing tank (2) have a perirace layer (3), an air layer (4) of a ridge-shaped lattice housing, and a porous layer of a metal oxide microporous lightweight plate. (5) and the stainless steel layer (6) characterized in that the device is used to adjust the temperature by drawing a small amount of heat of the high temperature heat medium oil.

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