KR101005610B1 - Thermal storage tank in boiler using solar heating - Google Patents

Abstract

The present invention relates to a heat storage tank using solar heat, and more particularly, to a heat storage tank capable of simultaneously using heating water and hot water by transferring heat stored in a heat transfer medium heated by solar heat to two different heat transfer media. .

The heat storage tank of the present invention is installed in the upper body and the main body, the water is stored therein, the first heat exchanger is installed in the lower portion of the main body and absorbs solar heat from the first heat transfer medium absorbed solar heat from the heat collecting plate and heats the water; And a second heat exchanger for absorbing heat from the water to heat the second heat transfer medium.

According to the present invention, by installing two heat exchangers in the tank, both heating water and hot water can be used by using solar heat, thereby efficiently simplifying the heating system and constructing a stable heat storage system.

Solar heat, heat storage tank, heat exchanger

Description

Thermal storage tank in boiler using solar heating

The present invention relates to a heat storage tank using solar heat, and more particularly, to a heat storage tank capable of simultaneously using heating water and hot water by transferring heat stored in a heat transfer medium heated by solar heat to two different heat transfer media. .

In general, a boiler is installed to make room heating or use hot water, and is a principle of heating water stored in a tank inside a boiler by using oil, gas, electricity, solar heat, etc. as a heat source.

Among them, a solar boiler uses a heat medium for absorbing or releasing heat, a heat collecting plate for absorbing solar heat to heat the heat medium, a pipe to which the heat medium is moved, and a pipe connected to and absorbing heat from the heat medium. And a heat exchanger for heating the water, and a heat storage tank in which the heat exchanger is embedded and containing water.

That is, the heating medium is heated by the heat absorbed by the heat collecting plate and then moved through the pipe to the heat exchanger to exchange heat with the water filled in the heat storage tank, thereby producing heating water or hot water.

However, the conventional heat storage tank has a problem in that heating water and hot water cannot be used at the same time because only one of heating water or hot water can be heated by heat absorbed from solar heat as described above.

 In other words, when heating the heating water using solar heat, a separate boiler for hot water must be installed.

The present invention has been made to improve the above problems, and in addition to a heat exchanger for moving a heat transfer medium heated by solar heat in one heat storage tank, another heat exchanger is further provided so that both heating water and hot water can be used. Its purpose is to.

Solar heat storage tank using the solar heat of the present invention for achieving the above object and the body is stored therein; A first heat exchanger installed below the main body and configured to heat water by absorbing solar heat from a first heat transfer medium that absorbs solar heat from a heat collecting plate; And a second heat exchanger installed at an upper portion inside the main body to absorb heat from the water and to heat the second heat transfer medium.

An expansion tank installed at an upper portion of the main body, a supplementary water supply pipe connected to an upper portion of the expansion tank so that water flows into the expansion tank, and a valve installed at the supplementary water supply pipe according to the level of the inside of the expansion tank; It is characterized in that it further comprises a connection pipe for moving the water in accordance with the expansion and contraction of the water stored in the interior of the main body and the interior of the main body and the expansion tank.

The main body is characterized by having a water supply pipe connected to the inlet side of the second heat exchanger, and a hot water outlet pipe connected to the outlet side of the second heat exchanger.

A three-way valve installed on the hot water outlet pipe, a first bypass pipe branched from the three-way valve and connected to the boiler in order to bypass the boiler when the second heat transfer medium is lower than a set temperature; And a second bypass pipe connecting the boiler and the hot water discharge pipe to transfer the heated second heat transfer medium to the hot water discharge pipe.

It is provided with a heating water supply pipe extending from the upper portion of the main body and connected to the diffused pipe and the water heated in the main body is discharged, and the water supply pipe connected to the lower portion of the main body and the water circulated through the heating piping is received. It features.

As described above, according to the heat storage tank using the solar heat according to the present invention, by installing two heat exchangers in the tank, both the heating water and the hot water can be used using the solar heat, thereby efficiently simplifying the heating system.

In addition, when the solar heat is not available or the solar heat is insufficient, since the heating water and hot water are heated auxiliary by using an auxiliary heat source, it is possible to construct a stable heat storage system.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the heat storage tank using solar heat according to a preferred embodiment of the present invention.

1 is a schematic view showing a heat storage system using solar heat to which a heat storage tank is applied according to an embodiment of the present invention, and FIG. 2 is a partially cutaway perspective view of the heat storage tank of FIG. 1.

Referring to the drawings, the heat storage tank 10 of the present invention has a main body 10 and a first heat exchanger 50 and a second heat exchanger 70 installed inside the main body 10.

The main body 20 is formed in a cylindrical shape and filled with water for heating therein. Although not shown, the outer surface of the body 20 may be surrounded by a heat insulating material for insulation, and may have a structure in which the case surrounds the heat insulating material.

The water stored in the main body 20 is heated by receiving heat from the first exchanger 50, and the heated water is a heating pipe 23 installed indoors through the heating outlet pipe 21 installed on the upper part of the main body 20. To cycle. The water deprived of heat while passing through the heating pipe 23 is introduced into the main body 20 again through the water supply pipe 25 for the plate.

And the solenoid valve 27, 28, 29 for opening and closing each flow path is provided in the heating output pipe 21 and the heating water supply pipe 25, respectively. The solenoid valves 27, 28, 29 are operated by the control of a controller (not shown). In addition, the upper and lower portions of the main body 20 may be provided with water thermometers 31 and 33 for checking the water temperature, respectively.

Solar heat is used in the present invention as a heat source for heating water stored in the main body 20.

The first heat exchanger 50 is installed below the main body 20 to exchange heat with water stored in the main body 20. The first heat exchanger 50 may be attached to a plurality of fins on the outer peripheral surface in order to increase the heat exchange efficiency.

The first heat exchanger 50 is connected to the circulation pipes 91 and 93 connected to the heat collecting plate 90 so that the first heat transfer medium that absorbs or releases solar heat through the heat collecting plate 90 is the circulation pipe 91. Through 93 it is circulated to the first heat exchanger (50). In this case, the high temperature first heat transfer medium absorbing solar heat exchanges heat with water filled in the body 20 while passing through the first heat exchanger 50. The low temperature first heat transfer medium is circulated to the heat collecting plate 90 through the circulation pipes 91 and 93. Water received from the first heat exchanger 50 is heated to convection to the upper side of the main body 20. The heated water heats the room through the heating outlet pipe 21.

In addition, solenoid valves 95 and 97 for opening and closing the flow path are provided at circulation ports 91 and 93 connecting the heat collecting plate 90 and the first heat exchanger 50 to the inlet side of the first heat exchanger 50. It is installed at the exit side, respectively. The solenoid valves 95 and 97 are operated by the control of the controller. In addition, although not shown, a heat medium expansion tank connected to the circulation pipe for preparing the expansion of the first heat transfer medium may be installed.

In addition, a second heat exchanger 70 for hot water is installed inside the main body 20.

The second heat exchanger 70 is installed above the main body 20 because the heated water receives heat from the first heat exchanger 50 and moves upward by convection. Therefore, the water heated in the inside of the main body 20 transfers heat to the second heat transfer medium flowing through the inside of the second heat exchanger 70 installed on the inner upper side of the main body 20. Here, the second heat transfer medium is water used as hot water.

Since the outlet side of the second heat exchanger 70 is connected to the hot water discharge pipe 73, the second heat transfer medium is discharged through the hot water discharge pipe 73. In this case, in order to supply water as much as the second heat transfer medium discharged to be used for hot water, the water supply pipe 71 for hot water is connected to the inlet side of the second heat exchanger 70 so that water can be continuously introduced.

In addition, solenoid valves 75 and 77 for opening and closing the flow path are provided at the inlet side and the outlet side of the second heat exchanger 70 in the hot water feed pipe 71 and the hot water discharge pipe 73. The solenoid valves 75 and 77 are operated by the control of the controller.

As described above, the solar heat transferred to the first heat transfer medium is transferred to the water filled in the inside of the main body, and the heat transferred to the water is partially used for heating or transferred to the second heat transfer medium through the second heat exchanger 70. Can be used for accommodation.

On the other hand, in the case of using the heating water and hot water at the same time in the present invention, an auxiliary boiler 80 for auxiliary heating of hot water or heating water may be installed in case the supply heat source is insufficient. The auxiliary boiler 80 is a boiler operated by using gas or oil as a heat source.

First, a second heat transfer from the first three-way valve 79 installed on the hot water outlet pipe 73 and the second heat exchanger 70 to the hot water outlet pipe 73 for auxiliary heating of the hot water. When the medium is below the set temperature, the first bypass pipe 81 branched from the first three-way valve 79 and connected to the boiler 80 is installed to bypass the boiler 80, and the heat exchanger of the boiler 80 is installed. A second bypass pipe 83 connecting the boiler 80 and the hot water discharge pipe 73 is installed to pass the heated second heat transfer medium to the hot water discharge pipe 73 while passing therethrough.

The first bypass tube 81 and the second bypass tube 83 are provided with solenoid valves 85 and 87 for opening and closing the flow path, respectively. The solenoid valves 85 and 87 are operated by the control of the controller.

When the temperature of the second heat transfer medium moved from the second heat exchanger 70 to the set temperature is lower than or equal to the set temperature, the first three-way valve 79 operated by the operation of the control unit connects the flow path to the first bypass pipe 81. The second heat transfer medium may be moved to the boiler (80). And the second heat transfer medium heated in the boiler 80 is moved to the hot water outlet pipe 73 through the second bypass pipe 83 is discharged as hot water.

In addition, a second three-way valve 29 is installed in the heating water inlet pipe 25 to auxiliaryly heat the heating water, and when the heating water is lower than the set temperature, the second three-way valve 29 is diverted to the boiler 80. The third bypass pipe 88 is branched from the connection to the boiler 80 and the heating water heated in the boiler 80 is transferred to the heating water outlet pipe 21 to the boiler 80 and the water outlet pipe ( And a fourth bypass pipe 41 for connecting 21.

 The third bypass tube 88 and the fourth bypass tube 41 are provided with solenoid valves 89 and 43 for opening and closing the flow path, respectively. The solenoid valves 89 and 43 are operated by the control of the controller.

When the temperature of the water filled in the main body 20 is low, the second three-way valve 29 switches the flow path to the third bypass pipe 88 under the control of the controller to circulate the heating water into the boiler 80. Be sure to The heating water heated while passing through the boiler 80 is moved to the heating outlet pipe 21 through the fourth bypass pipe 41 and circulated to the heating pipe 23.

As described above, the present invention is useful in constructing a stable heat storage system because heating water and hot water are auxiliaryly heated using auxiliary heat sources when solar heat is not available or solar heat is insufficient.

On the other hand, in the present invention, it is preferable that the expansion control means is provided to correspond to the expansion of the water filled in the inside of the main body 20 by heating.

Expansion tank 60 installed on the upper portion of the main body 20 as expansion control means, supplementary water supply pipe 65 connected to the upper portion of the expansion tank 60 so that water is introduced into the expansion tank 60, expansion tank According to the water level in the interior of the 60, a buoy 63 for operating a valve (not shown) installed in the supplemental water supply pipe 65, the interior of the main body 20 and the interior of the expansion tank 60 by interconnecting the main body ( 20 is provided with a connecting tube 61 to which the water moves in accordance with the expansion and contraction of the water stored inside.

Therefore, when the water filled in the inside of the main body 20 is heated or boiled, the volume is expanded while expanding. In this case, a part of the water filled in the main body 20 flows into the expansion tank 60 through the connection pipe 61. Expansion tank 60 has a space that can accommodate the expanded water during expansion so that the water level is maintained only up to a certain height normally. When water is cooled and contracted or lacks of water, water is replenished from the expansion tank 60 to the inside of the main body 20 through the connecting pipe 61. In this case, when the water level of the expansion tank 60 is lowered, the buoy 63 is lowered, and a valve installed at the end of the supplemental water supply pipe 65 opens the flow path of the supplemental water supply pipe 65 to replenish water. When the water rises to a certain level, the buoy 63 rises and the valve closes the replenishment water supply pipe 65 to stop the supply of water.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a configuration diagram schematically showing a heat storage system using solar heat to which a heat storage tank according to an embodiment of the present invention is applied;

2 is a partially cutaway perspective view illustrating the heat storage tank of FIG. 1.

<Description of the symbols for the main parts of the drawings>

20: main body 21: water outlet for heating

25: heating water pipe 50: the first heat exchanger

60: expansion tank 61: connector

65: supplemental water supply pipe 70: the second heat exchanger

71: hot water supply pipe 73: hot water outlet pipe

Claims (5)

delete A main body with water stored therein; A first heat exchanger installed under the main body and configured to heat the water by receiving solar heat from a first heat transfer medium that absorbs solar heat from a heat collecting plate; A second heat exchanger installed at an upper portion of the main body to absorb heat from the water to heat a second heat transfer medium; And a hot water supply pipe connected to an inlet side of the second heat exchanger and a hot water discharge pipe connected to an outlet side of the second heat exchanger. An expansion tank installed at an upper portion of the main body, a supplementary water supply pipe branched from the water supply pipe for hot water so that water flows into the expansion tank, and connected to an upper portion of the expansion tank; And a connector for activating a valve installed in the water supply pipe, and a connection pipe for interconnecting the inside of the main body and the inside of the expansion tank to move the water according to the expansion and contraction of the water stored in the main body. Heat storage tank using solar heat. delete According to claim 2, wherein the three-way valve is installed on the hot water outlet pipe and the first rain is branched from the three-way valve connected to the boiler to bypass the boiler when the second heat transfer medium is below the set temperature And a second bypass tube connecting the boiler and the hot water discharge pipe to transfer the second heat transfer medium heated by the boiler to the hot water discharge pipe. According to claim 2, It is extended from the top of the main body is connected to the distribution pipe for heating, the water outlet pipe for heating the water is discharged from the main body, and the water is connected to the lower portion of the main body and the water is circulated A heat storage tank using solar heat, characterized by comprising a water supply pipe for heating.

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