KR101801490B1 - Heating device using solar heat extra heat source - Google Patents

Abstract

The present invention relates to a heating apparatus using solar heat as an auxiliary heat source, using hot water generated from a solar heat collection apparatus as a heat source of a boiler through a heat exchanger in a heating apparatus using a normal boiler, so as to save energy. According to the present invention, a heating apparatus forming the solar heat collection apparatus on a roof and using solar heat connected to a boiler circuit formed in an indoor space as an auxiliary heat source comprises: a solar heat heating circuit (1) to return auxiliary heating water heated in the solar heat collection apparatus (10) to the solar heat collection apparatus (10) through a heat supply pipe (14a) of a heat exchanger (14) connected and installed in the other end of a solar heat supply pipe (11) connected to one side of the solar heat collection apparatus (10) and through a solar heat recovery pipe (12) by a solar heat pump (13) formed in the solar heat recovery pipe (12); and a boiler heating circuit (2) allowing heating water heated in a boiler (20) to heat a heating space (C) by a heating means (50) connected to one side through a boiler supply pipe (21) connected to the other side of the boiler (20), and then returning the heating water discharged to a boiler recovery pipe (22) to the boiler (20) through a heat convection pipe (14b) of the heat exchanger (14) connected to and installed in the boiler recovery pipe (22) by a boiler pump (23) installed in the boiler recovery pipe (22).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating device using solar heat as an auxiliary heat source,

The present invention relates to a heating device using solar heat as an auxiliary heat source, and more particularly, to a heating device using a conventional boiler, in which hot water generated in a solar heat collecting device is used as a heat source of a boiler through a heat pipe The present invention relates to a heating apparatus using solar heat as an auxiliary heat source.

Conventional boilers supplied hot water for heating and domestic use by using oil or gas as fuel, but as the price of fossil fuels rises and the problem of pollution due to use increases, the use of alternative energy gradually increases. In recent years, Although solar heat boilers that do not cause pollution problems have been popularized because they do not require additional maintenance costs, but the four seasons are clear as in Korea, and in the places where the altitude of the sun changes year by year and the weather changes frequently, In the case of a boiler system which is dependent, the supply of heat source for supplying heating and domestic hot water was not sufficient.

In other words, the size of the solar collector must be increased for a boiler system using only solar heat as a heat source. Since it requires a lot of cost and a large installation space in order to have such a system, it is difficult to use in a home.

Recently, as one example, as can be seen through the "hot water and heat collecting solar heat collecting apparatus using boiler as an auxiliary device" of the registered patent No. 10-0765260, "a coil disposed in the upper part of the heat exchanger cylinder 10 Type heater tube of the solar collector which is connected to the water pipe 12 on the lower side of the hot water pipe 11 and the hot water outlet pipe 13 on the upper side and is disposed in the lower portion of the heat exchanger cylinder 10 21 is connected to the solar collector plate 20 via the supply pipe 22 and the lower part is connected to the solar collector plate 20 through the return pipe 23 provided with the expansion tank 1 and the circulation pump 2, A supply pipe 32 provided with an expansion tank 1 is connected to the boiler 20 through an outlet pipe 33 at an upper portion of the boiler 20 and an intermediate A circulation pipe 34 is connected to the boiler 20 and a circulation pump 2 is installed in the middle of the supply pipe 32, And the connection pipe 41 connected to the upper portion of the heat exchanger cylinder 10 is connected to the heat recovery cylinder 50 through the heating supply cylinder 40 and the lower connection pipe 51, The first heating pipe 42a, the second heating pipe 42b and the third heating pipe 42c of the cylinder 40 and the first return pipe 52a of the heating and recovering cylinder 50 and the second return pipe 52b And the third water pipe 52c are interconnected by a heating pipe and a first intermediate circulation pipe 43a is disposed in the middle of the first heating pipe 42a and a second intermediate circulation pipe 43b is disposed in the middle of the second heating pipe 42b, The third intermediate circulation pipe 43c is connected to the middle of the third heating pipe 42c and the first circulation pump 2 is connected to the first and second heating pipes 52a, 53b and 53c in the middle of the second and third return pipes 52b and 52c and in the middle of the third and fourth return pipes 52a and 53b and 53c in the middle of the heat exchanger cylinder 10 and the temperature sensor 14 The control panel 31 on the upper part of the boiler 20 is wired and the control on the upper part of the boiler 20 The panel 31 and each of the electric three-way cocks 35, 53a, 53b and 53c are arranged so as to be able to control the electric three-way cocks 35, 53a, 53b and 53c, It can be used both for hot water and heating. It can be used for both hot water and heating as a solar collector that can save fuel as much as possible by operating the boiler at nighttime when no sun is available or auxiliary.

However, in the case of the solar heat collecting device for both the hot water and the heating, which uses the boiler as the above-described auxiliary device, in the country where the temperature change is extreme, in the winter season and the winter season, There is a high installation cost for constructing a plurality of driving devices constituting a combined use such as an oil boiler or a gas boiler, and the necessary facilities for utilizing the same, as well as the risk of loss, Although there are fundamental problems such as the separate use of solar heating system and the lack of savings in the use of the system as a combined use, the manufacturers that manufacture the heating apparatus and the installers that handle and install the heating apparatus so far have tried to solve the fundamental problems A thread that can not be presented It is.

KR Patent No. 10-0765260 KR public utility model 20-2010-0007955

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar heating system and a solar heating system in which a solar heating circuit, which recovers heating assisted water heated by solar heat generated in a solar heat collecting device through a heat exchanger, A boiler heating circuit for heating and recovering the heating space with the generated hot water and collecting the same through the heat exchanger and then returning the same to the boiler; and a water heater for heating the solar water generated by the solar hot water heat accumulator through a water inlet pipe, And a hot water supply circuit for discharging the heat to the discharge pipe. The high temperature heating auxiliary water generated through the solar heat collecting device is adjusted according to the set temperature of the heating water heat exchanged through the heat exchanger, So that the temperature of the heating water can be adjusted The auxiliary heating water heated by the solar heat generated by the solar heat collecting device is circulated through the heat exchanger to the hot water which has raised the temperature of the heating water through the heat exchanger so that the operation of the boiler The hot water heated by the solar heat generated by the solar hot water heat storage device is circulated through the hot water pipe of the boiler and the hot water heated by the hot water is circulated through the water discharge pipe, To provide a heating device that uses solar heat as an auxiliary heat source to determine whether the boiler is operating according to the set temperature of the set hot water pipe and to use the hot water to heat the place without storing the solar energy Preheating is done in advance so that the amount of heat generated by the heat storage device or heat storage is minimized. Chemistry and is intended to solve the above problems in order to facilitate the heating and hot water supply.

The present invention relates to a heating apparatus using solar heat as an auxiliary heat source, and a heating circuit connected to a boiler circuit constituted by a solar heat collecting apparatus on the roof and a heating circuit connected to a room, 1. A heating apparatus using solar heat as an auxiliary heat source for heating a heating place, the heating apparatus comprising:

The heat supply auxiliary pipe 14a of the heat exchanger 14 connected to the other end of the solar heating pipe 11 connected to one side of the solar heat collecting device 10 is connected to the heating auxiliary water heated by the solar heat collecting device 10, A solar heating circuit (1) for allowing the solar heat collection tube (12) to flow into the solar heat collection device (10) through the solar heat recovery pipe (12) by the solar heat pump (13)

The heating space C heated by the heating means 50 connected to the other side is heated through the boiler feed pipe 21 connected to one side of the boiler 20 by the heating water heated by the boiler 20, The heating water discharged to the pipe 22 passes through the heat transfer pipe 14b of the heat exchanger 14 connected to the boiler return pipe 22 through the boiler pump 23 mounted on the boiler return pipe 22 And a boiler heating circuit (2) for allowing the boiler (20) to flow back into the boiler (20).

At this time, the hot water heated by the solar heat generated in the solar hot water storage device 30 is supplied to the hot water pump (not shown) installed in the hot water supply pipe 32 via the hot water inflow pipe 31, the hot water pipe 25 of the boiler 20, And a hot water supply circuit (3) for allowing the water to be discharged to the hot water supply pipe (32) through a water supply pipe (33) connected to the solar water heater (30) .

It is also possible to separately provide a screening device 60 for opening and closing the front surface of the solar heat collecting device 10 or the solar and hot water storage device 30 with the screening film 81 so that the front surface of the solar heat collecting device 10 is covered with the screening film 81 to block the solar heat and to prevent the solar heat collecting device 10 from being overheated. The heating device uses solar heat as an auxiliary heat source.

As described above, the heating device using the solar heat as an auxiliary heat source according to the present invention comprises a solar heating circuit, a boiler heating circuit, and a hot water hot water circuit so that the heat source of solar heat can be converted into a heat source of the boiler through a heat exchanger, In addition, it is possible to supply hot water quickly when hot water is needed. Therefore, it is possible to utilize the heat source of solar heat as a heat source necessary for heating according to the set temperature of heating according to weather conditions, It is possible to prevent the overheating of the heating water generated in the summer solar heating plate from being mechanically and safely prevented as well as to simplify the operation of supplying the hot water in the winter when the hot water is needed Lower installation costs and lower maintenance costs , It has a remarkable effect with a high thermal efficiency, and it is expected that there is a clear advantage that a heating device using the solar heat of the present invention as an auxiliary heat source can be easily installed and used by anyone without any great burden. to be.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall heating / hot water composite circuit diagram showing a preferred embodiment of the present invention. FIG.
FIG. 2 is a solar heat assisted heating furnace showing a preferred embodiment of the present invention. FIG.
3 is a solar-assisted hot water circuit diagram showing a preferred embodiment of the present invention.
FIG. 4 is a view showing a state of use of the screening apparatus according to a preferred embodiment of the present invention
5 is a detailed block diagram of a screening apparatus showing a preferred embodiment of the present invention.

The present invention relates to a heating apparatus using solar heat as a supplementary heat source and includes a solar heat collecting apparatus 10 on a roof A and a heating circuit connected to a boiler circuit in a room B, (10) and a boiler (20) to heat a heating space by using a solar heat as an auxiliary heat source, the heating device comprising:

The heat supply auxiliary pipe 14a of the heat exchanger 14 connected to the other end of the solar heating pipe 11 connected to one side of the solar heat collecting device 10 is connected to the heating auxiliary water heated by the solar heat collecting device 10, A solar heating circuit (1) for allowing the solar heat collection device (10) to flow through the solar heat recovery pipe (12) through the solar heat pump (13) constituted in the solar heat recovery pipe (12)

The heating space C heated by the boiler 20 is heated through the heating means 50 connected to the other side through the boiler feed pipe 21 connected to one side of the boiler 20, The heating water discharged to the pipe 22 passes through the heat transfer pipe 14b of the heat exchanger 14 connected to the boiler return pipe 22 through the boiler pump 23 mounted on the boiler return pipe 22 A boiler heating circuit (2) for flowing back into the boiler (20);

The hot water heated by the solar heat generated in the solar hot water storage device 30 is supplied to the hot water pump 33 mounted on the hot water supply pipe 32 through the hot water inflow pipe 31 and the hot water pipe 25 of the boiler 20, And a hot water supply circuit (3) for allowing the water to be discharged to the hot water supply pipe (32) via the water supply pipe (34) connected to the water supply pipe (40) .

In addition, a screening device 60 for opening / closing the front surface of the solar heat collecting device 10 with the screening membrane 81 is additionally provided so that the front surface of the solar heat collecting apparatus 10 is shielded by the screening membrane 81, So that a heating device using solar heat as an auxiliary heat source for structurally preventing the heat collecting device 10 from being overheated is constituted.

At this time, the heating auxiliary water heated in the solar heat collecting apparatus 10 is connected to the other end of the solar heat supplying pipe 11 connected to one side of the solar heat collecting apparatus 10, The solar heating circuit 1 is configured to flow through the solar heat collecting pipe 12 through the solar heat pump 13 formed in the solar heat collecting pipe 12 through the solar heat collecting pipe 10 and the solar heat collecting device 10 through the solar heat collecting pipe 12,

A plurality of solar heat collecting apparatuses 10 installed in a roof A are sequentially connected to each other according to the entire heating range required and a solar heat collecting apparatus 10 having one end connected to the solar heat collecting apparatus 10 And the other end of the high temperature sensor 10s is connected to one side of the heat supply pipe 14a of the heat exchanger 14 which is installed in the room B and the solar heat supply pipe 11 And is connected to the inlet of the solar heat pump 13 and connected to the discharge port of the solar heat pump 13 to connect the solar heat collecting device 10, And a solar heat recovery electromagnetic valve 12v is provided on the side of the discharge port of the solar heat pump 13 of the solar heat recovery pipe 12 connected to the solar heat recovery device 12. The solar heat recovery device 12 is connected to the solar heat supply device 11, New water can be supplied from auxiliary water supply (15v) operation According to the configuration to be cut off and can be supplied to the secondary supply pipe 15 (see Figs. 1 and 2)

The heating space C heated by the boiler 20 is heated through a heating means 50 connected to the other side through a boiler feed pipe 21 connected to one side of the boiler 20 The heating water discharged to the boiler return pipe 22 is introduced into the heat transfer pipe 14b of the heat exchanger 14 connected to the boiler return pipe 22 through the boiler pump 23 mounted on the boiler return pipe 22, And then flows into the boiler (20) again;

The boiler 20 having the hot water supply pipe 25 in the room B and the heat exchanger 14 having the heat supply pipe 14a and the thermal insulation tube 14b are constituted respectively, (22av) 22bv to the boiler return pipe 22 connecting the heating means 50 and the heating means 50 with the boiler feed pipe 21 and connecting the heating means 50 and the thermal insulation pipe 14b And a water supply pipe (40) for supplying fresh water from the outside to the boiler return pipe (22) between each of the boiler return electromagnetic valves (22av) (22bv) is connected to the heat transfer pipe (14b) Temperature sensing sense 20s, a boiler recovery electromagnetic valve 22v and a boiler pump 23 from the side of the thermal insulation tube 14b to the boiler recovery pipe 22 connecting the boiler recovery pipe 22, 1 and Fig. 2)

The hot water heated by the solar heat generated in the solar hot water storage device 30 is supplied to the hot water pump 32 via the hot water inflow pipe 31 and the hot water pipe 25 of the boiler 20 And a hot water supply circuit (3) for allowing the water to be discharged to the hot water supply pipe (32) through the water supply pipe (32) connected to the water supply pipe (40) ;

A water replenishment tank 35a communicating with a heating water replenishing pipe 36 constituted by a heating water replenishing electromagnetic valve 36v is formed only on the top of the hot water storage device 30 separately provided in the roof A, The water replenishing device 35 for connecting the air exhaust pipe 37 individually communicating with the water replenishing tank 35a to the water replenishing tank 35a of the hot water accumulating device 30 and the water replenishing device 35 for connecting the hot water inlet pipe 31 connected to one side of the hot water accumulating device 30 The hot water temperature sensor 30s is constituted at the start point and the hot water heated by the hot water storage device 30 flows through the hot water pipe 25 of the boiler 20 constituting the room B to a place requiring hot water The hot water supply pipe 32 is provided with a hot water pump 33 and a hot water supply valve 32v is provided between the hot water pump 33 and the hot water pipe 25, A water supply pipe 40 for supplying new water is connected to the water supply water supply valve 34b, And to so configure the water supply pipe 34 to be supplied (see Fig. 1 and 3)

At this time, the water supply pipe 34 communicating with the water supply pipe 40 is communicated with the boiler return pipe 22 between the boiler return electromagnetic valve 22av and the boiler return electromagnetic valve 22bv, so that the water supply pipe 40 and the boiler return The heating water and the water are supplied to the boiler 20 through the solar hot water storage device 30 or the heat exchanger 14 as needed by communicating the pipe 22 and the water supply pipe 34 with each other, In addition, it can be seen that the hot water heated by the boiler 20 can be supplied to the solar hot water storage device 30.

The heating apparatus using the solar heat of the present invention as the auxiliary heat source has the above-described structure, in addition to the heating state of the heating space and the operation of the solar heat collecting apparatus 10 as well as the water temperature of the heating water held in the hot water storage device 30, The solar heating circuit 1 and the boiler heating circuit 2, which are constructed in accordance with the environment and the temperature of the boiler heating circuit 2, respectively, are progressed. Therefore, the respective heating circuits are shown in the respective drawings, As a standard, the following detailed description will be given in detail through an embodiment thereof

2, the heating auxiliary water heated by the solar heat collecting apparatus 10 is connected to the other end of the solar heat supplying tube 11 connected to one side of the solar heat collecting apparatus 10, The solar heating circuit 1 is configured to pass through a heat supply pipe 14a of a solar heat collection pipe 12 through a solar heat recovery pipe 12 through a solar heat pump 13 formed in a solar heat recovery pipe 12, And the heating space C is heated through the heating means 50 connected to the other side through the boiler feed pipe 21 connected to one side of the boiler 20 by the heating water heated by the boiler 20 The heating water discharged to the boiler return pipe 22 is introduced into the heat transfer pipe 14b of the heat exchanger 14 connected to the boiler return pipe 22 through the boiler pump 23 mounted on the boiler return pipe 22, Through the boiler heating circuit (2), which is connected to the boiler (20) It is a diagram showing the basic configuration of the heat energy source so as to heat the heater to heat the heating space (C).

That is, the solar heat pump 13 is operated in a state in which the minimum temperature of the high temperature sensor 10s formed in the solar heat supply pipe 11 on the side taken out from the solar heat collecting device 10 is set to 60 占 폚, 10, the solar heat pump 13 is operated so that the heating water flowing through the solar heat supply pipe 13 passes through the heat supply pipe 14a of the heat exchanger 14 and flows into the solar heat recovery pipe 12 The boiler pump 23 is operated only in a state in which the boiler 20 is not operated and the heating water held in the heating means 50 is supplied to the boiler return pipe 22 Through the heat radiation pipe 14b of the heat exchanger 14 to the boiler 20 through the boiler return pipe 22 and then to the heating means 50 through the boiler feed pipe 21, The heating water passing through the pipe 14b passes through the heat supply pipe 14a, The heating space C is heated while passing through the heating means 50. In this case,

When the minimum temperature of the high temperature sensor 10s formed in the solar heat supply pipe 11 is set to 30 占 폚 and the solar heating pump 13 is operated so that the heating assistant water discharged from the solar heat collecting apparatus 10 is 30 占 폚 or lower The operation of the solar heat pump 13 is stopped and the boiler 20 is operated in a state where the flow of the heating auxiliary water is stopped. Then, the boiler pump 23 is operated to heat the heating water, which is held in the heating means 50, The hot water heated by the boiler 20 flows into the boiler feed pipe 22 through the pipe 22 and the heat pipe 14b of the heat exchanger 14 through the boiler pipe 22, 21 to the heating means 50 and then to the boiler 20 via the boiler return line 22. [

In addition, when the temperature sensed by the high-temperature sensor 10s is sensed to be between 30 and 60 ° C, the boiler 20 is operated or stopped according to a change in season or temperature to improve the thermal efficiency of the boiler heating circuit 2, 20) It can be seen that it is an efficient heating circuit configuration that minimizes energy waste due to operation.

That is, due to the construction and operation of the solar heating circuit 1 and the boiler heating circuit 2 constituted as described above, when the operation of the solar heating circuit 1 is normally performed during the winter season, When the boiler heating circuit 2 is operated in a state in which the boiler heating circuit 2 is not operated, the high-temperature auxiliary water generated in the solar heating circuit 1 heats the heating water of the boiler heating circuit 2 to a constant temperature, It is most effective to heat the heating space C while heating the heating space C so that the heating space C can be heated while minimizing energy consumption for heating the heating space C without operating the boiler 20 .

When the set temperature of the high temperature sensing sense 30s of the solar hot water storage device 30 is set to 70 캜, the hot water supply circuit 3 operates the hot water pump 33 and is discharged from the solar heat collecting device 10 The hot water pump 33 is operated while the operation of the boiler 20 is stopped and the hot water heated by the solar hot water storage device 30 is supplied to the hot water supply pipe 31 through the hot water inflow pipe 31 25 to the hot water supply pipe 32 so that hot water of 70 ° C or higher can be used at a place to be used.

When the set temperature of the high temperature sensing sense 30s of the solar hot water storage device 30 is set to 30 占 폚, when the hot water pump 33 is operated and the heating assistant water discharged from the solar hot water storage device 30 is 30 占 폚 or less The hot water pump 33 is operated while operating the boiler 20 at 60 ° C. so that hot water heated by the solar hot water storage device 30 flows through the hot water inflow pipe 31 through the hot water pipe 25 The hot water of 30 ° C or lower is heated while passing through the hot water supply pipe 25 and heated to a high temperature of 60 ° C set by the boiler 20, So that it can be used.

At this time, when the temperature sensed by the high temperature sensor 30s is sensed to be between 30 and 70 degrees Celsius, the boiler 20 is operated or stopped according to the change of season or temperature to improve the thermal efficiency of the hot water supply circuit 3, ) Is an efficient heating circuit configuration that minimizes energy waste due to operation.

In addition, when the solar water heater 30 is frozen in the winter season, the boiler heating circuit 2 is opened while the boiler return electromagnetic valve 22v and the water supply water valve 34v are opened while the boiler return electromagnetic valve 22bv is closed. The heating water heated in the boiler 20 is injected into the solar water heating water storage device 30 through the boiler return pipe 22 and the water water supply pipe 34 to thaw the frozen hot water supply circuit 3, The boiler heating circuit 2 is operated in a state in which the water supply water supply valve 34v is closed when the solar heat collecting device 10 is frozen and the heat radiation tube 14b is heated When the solar heating circuit 1 is operated, the high temperature of the thermal radiation pipe 14b is transmitted to the heat supply pipe 14a, and the auxiliary water heated by the heat supply pipe 14a flows into the solar heat collection device 10, And frozen It can prevent damage to the solar heat collecting apparatus 10 to recognize that a variety of functions, such as that normally conduct rapid solar heating circuit (1) can be realized without any additional configuration.

The screening device 60 is configured to open and close the front surface of the solar heat collecting device 10 and the hot water storage device 30 with the screening membrane 81 as required. Thus, when the temperature is high, such as during the summer, The temperature of the apparatus 10 and the temperature of the solar hot water storage device 30 suddenly increase to shorten the life and durability of the solar heat collecting device 10 and the solar hot water storage device 30. Therefore, So as to protect the solar heat collecting apparatus 10 from the summer solar heat.

A fixed structure 70 formed by fixing a guide rail 71 having a plurality of unit bearings 73 to the guide groove 72 by a support base 75 and a fixing piece 74 so as to be kept symmetrically inclined, and;

The shielding structure 80 is constructed so that the shielding film 81 is wound around the outer diameter of the operation shaft 82 while the reference shaft 83 and the operation shaft 82 are kept parallel to each other and the end of the shielding film 81 is connected to the center of the outer diameter. and;

A working structure 90 having a guide bar 92 formed on one outer side of the fixed structure 70 and having a guide block 93 fixed parallel to the guide rail 71 and fixed to the outer diameter of the drive motor 91, And fixed to opposite ends of the operation shaft 82 to the upper unit bearing 73 of the plurality of unit bearings 73 slidable in the guide grooves 72 of the guide rail 71. The lower unit bearings 73 And the one end of the operating shaft 82 is connected to the motor shaft 92 of the driving motor 91 constituting the operating structure 90. In this case, One end of the damper string 94 is fixed to the outer diameter of the operation shaft 82 between the unit bearings 73 and the other end thereof is fixedly connected to the fixing piece 74 constituting the upper end of the fixed structure 70, (60). (See Figs. 4 to 5)

The screening apparatus 60 used to protect the solar heat collecting apparatus 10 configured as described above is constructed by a solar heat collecting apparatus 10 having a plurality of heat collecting units 11b formed below a collecting column 11a fixed by a fixed column 11c, The shielding film 81 is held on the entire surface of the regenerator 11b of the main body 10 so that the shielding film 81 is opened and closed at an angle similar to the inclination angle of the regenerator 11b, The solar heat collecting device 10 and the hot water storage device 30 can be shielded from the solar heat by the inventor of the present invention, which is described in detail in the registered patent publication No. 10-1672676, .

As described above, the heating device using the solar heat as an auxiliary heat source according to the present invention comprises a solar heating circuit, a boiler heating circuit, and a hot water hot water circuit so that the heat source of solar heat can be converted into a heat source of the boiler through a heat exchanger, In addition, it is possible to supply hot water quickly when hot water is needed. Therefore, it is possible to utilize the heat source of solar heat as a heat source necessary for heating according to the set temperature of heating according to weather conditions, It is possible to prevent the overheating of the heating water generated in the summer solar heating plate from being mechanically and safely prevented as well as to simplify the operation of supplying the hot water in the winter when the hot water is needed Lower installation costs and lower maintenance costs , It has a very remarkable effect with a high thermal efficiency, and it can be seen that it is a clear advantage that the heating device using the solar heat of the present invention as a supplementary heat source is easily installed and used by anyone without any burden.

1: Solar heating circuit 2: Boiler heating circuit
3: hot water hot water supply circuit 10: solar heat collecting device
11: solar heat supply pipe 12: solar heat recovery pipe
13: Taeyoung Heat Pump 14: Heat Exchanger
14a: heat supply pipe 14b: thermal radiation pipe
20: boiler 21: boiler feed pipe
22: Boiler recovery pipe 23: Boiler pump
30: Solar hot water storage device 31: Hot water inflow pipe
32: hot water supply pipe 33: hot water pump
34: Water supply pipe 40: Water supply pipe
50: Heating means 60: Screening device
81: Shade A: Rooftop
B: Indoor C: Heating space

Claims (7)

The heat supply auxiliary pipe 14a of the heat exchanger 14 connected to the other end of the solar heating pipe 11 connected to one side of the solar heat collecting device 10 is connected to the heating auxiliary water heated by the solar heat collecting device 10, A solar heating circuit (1) for allowing the solar heat pump (13) constituted in the solar heat recovery pipe (12) to flow back to the solar heat collection device (10) through the solar heat recovery pipe (12);
The heating space C heated by the heating means 50 connected to the other side is heated through the boiler feed pipe 21 connected to one side of the boiler 20 by the heating water heated by the boiler 20, The heating water discharged to the boiler return pipe 22 is connected to the boiler return pipe 22 through the boiler pump 23 mounted on the boiler return pipe 22 and is passed through the heat transfer pipe 14b of the heat exchanger 14, (2) for allowing the heating circuit (2) to flow into the heating circuit (20) again;
The hot water heated by the solar heat generated in the solar hot water storage device 30 is supplied to the hot water pump 33 mounted on the hot water supply pipe 32 through the hot water inflow pipe 31 and the hot water pipe 25 of the boiler 20, And a hot water supply circuit (3) for allowing the water to be discharged to the hot water supply pipe (32) through the water supply pipe (34) connected to the water supply pipe (40) Wherein the solar heat is used as an auxiliary heat source.
delete delete The method of claim 1, further comprising:

The screening device 60 is provided to open and close the front surface of the solar hot water storage device 30 with the shielding film 81. In particular, in the summer, the front surface of the solar hot water storage device 30 is shielded by the shielding film 81, So that the hot water heat storage device (30) can be structurally prevented from being overheated.
delete delete The method of claim 1, further comprising:

A water replenishment tank 35a communicated with a heating water replenishment pipe 36 having a heating water replenishment electromagnetic valve 36v only on the upper part of the hot water storage device 30 for separately providing the hot water hot water circuit 3 on the roof A, And a water replenishing device 35 for connecting an air exhaust pipe 37 individually communicated in the hot water storage device 30 to the quantity replenishing tank 35a is constituted and the water replenishing device 35 is connected from one side of the hot water storage device 30 The hot water temperature sensor 30s constitutes the starting point of the hot water inflow pipe 31 and the hot water heated by the hot water heat storage device 30 is supplied to the hot water pipe 25 of the boiler 20 constituting the room B The hot water supply pipe 32 for draining the hot water to a place where hot water is required is constituted by a hot water pump 33 and a hot water supply electronic valve 32v is provided between the hot water pump 33 and the hot water pipe 25, A water supply pipe 40 for supplying fresh water from the outside to the device 30 is connected to the water supply water supply valve 34v So as to constitute a water supply pipe (34) for cutting off and supplying the water according to the operation.

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