CN220541203U - Solar heating indoor heating system - Google Patents

Abstract

The utility model discloses a solar heating indoor heating system, which relates to the technical field of indoor heating systems and comprises heating equipment, wherein the heating equipment is used for heating indoors; a first water supply device for supplying hot water to a heating device; a second water supply device for supplying hot water to the heating device; the water storage device is used for supplying water to the second water supply device and can be used for transferring hot water circulation in the heating device; the solar energy heat collector is arranged and communicated with the circulating pipeline, and the solar energy heat collector can be used for supplying hot water to the circulating pipeline in a period of good sunshine in weather, so that an electric boiler can be turned off, and electricity consumption is saved.

Description

Solar heating indoor heating system

Technical Field

The utility model relates to the technical field of indoor heating systems, in particular to a solar heating indoor heating system.

Background

In cold seasons, the indoor air temperature is low, and some heating devices are usually adopted to heat the indoor.

The traditional heating mode adopts an electric boiler to heat indoors, however, the electric boiler is used for supplying hot water for 24 hours all day, so that the electric energy consumption is serious, the environment protection and energy saving are not facilitated, and therefore, the solar heating indoor heating system is designed, and the effect of saving the electric energy consumption is achieved.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a solar heating indoor heating system.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a solar heating indoor heating system comprises

The heating device is used for heating indoors;

a first water supply device for supplying hot water to a heating device;

a second water supply device for supplying hot water to the heating device;

the water storage device is used for supplying water to the second water supply device and can be used for transferring hot water circulation in the heating device;

and the first water supply device and the second water supply device are respectively connected with the circulating mechanism, and hot water is supplied to the heating device through the circulating mechanism.

The technical scheme further comprises the following steps: the first water supply equipment comprises a solar heat collector, the solar heat collector is erected at a high position, a temperature sensor is mounted on the inner wall of the bottom of the solar heat collector, and the second water supply equipment comprises an electric boiler.

The water storage equipment comprises a box body, a water storage tank is fixedly arranged in the box body, two water outlets and two water inlets are formed in the water storage tank, a water inlet pipe is arranged on one water inlet of the water storage tank, a valve is arranged on the water inlet pipe, a tee joint is arranged on the other water inlet of the water storage tank, and two water inlets are formed in the tee joint.

The circulating mechanism comprises a circulating pump fixedly mounted in the tank body, a third water pipe is mounted on one water outlet of the water storage tank, one end of the third water pipe, which is far away from the water storage tank, is mounted on a water inlet of the electric boiler, a fourth water pipe is mounted on the water outlet of the electric boiler, one end, which is far away from the electric boiler, of the fourth water pipe is mounted on the water inlet of the circulating pump, a four-way joint is mounted at the end part of the water outlet of the circulating pump, and a first circulating pipeline and a second circulating pipeline are mounted on two water outlets of the four-way joint respectively.

The heating equipment comprises a radiator and a water heating kang, the radiator and the water heating kang are respectively installed indoors, the first circulating pipeline is used for conveying water into the radiator, and the second circulating pipeline is used for conveying water into the water heating kang.

The first circulating pipeline comprises a sixth water pipe arranged on the four-way joint, one end, far away from the four-way joint, of the sixth water pipe is arranged on the water inlet of the radiator, a seventh water pipe is arranged on the water outlet of the radiator, and one end, far away from the radiator, of the seventh water pipe is arranged on one water inlet of the three-way joint.

The second circulating pipeline comprises an eighth water conveying pipe arranged on the four-way joint, one end, far away from the four-way joint, of the eighth water conveying pipe is arranged on the water inlet of the water heating kang, a ninth water conveying pipe is arranged on the water outlet of the water heating kang, and one end, far away from the water heating kang, of the ninth water conveying pipe is arranged on the other water inlet of the three-way joint.

A fifth water delivery pipe is further arranged on the water outlet of the four-way valve, and one end, far away from the four-way valve, of the fifth water delivery pipe is connected to the water using device.

The water pump is characterized in that a water pumping pipe is arranged on the other water outlet of the water storage tank, one end, far away from the water storage tank, of the water pumping pipe is arranged on the water inlet of the water pump, a first water conveying pipe is arranged on the water outlet of the water pump, one end, far away from the water pump, of the first water conveying pipe is arranged on the water inlet of the solar heat collector, a second water conveying pipe is arranged on the water outlet of the solar heat collector, one end, far away from the solar heat collector, of the second water conveying pipe is connected to the fourth water conveying pipe, and an electromagnetic valve is arranged on the second water conveying pipe.

Still install temperature monitor in the room, the outer wall of box still installs the controller, solar collector's outside still is provided with the switch board, the switch board be used for to the water pump with the solenoid valve power supply, temperature monitor the circulating pump the water pump with the solenoid valve respectively with controller electric connection.

Compared with the prior art, the utility model has the beneficial effects that:

the solar heat collector is arranged and communicated with the circulating pipeline, and in the period of good sunshine, the solar heat collector can be used for providing hot water for the circulating pipeline, so that an electric boiler can be closed, the consumption of electric quantity is saved, meanwhile, a temperature monitor is arranged indoors, the indoor temperature can be detected through the arranged temperature monitor, the circulation of the pipeline can be controlled to be started at low temperature through the temperature monitor, the hot water is circulated into heating equipment, the continuous operation of a circulating pump is not needed, and the consumption of electric energy is further saved.

Drawings

Fig. 1 is a schematic structural diagram of a solar heating indoor heating system according to the present utility model.

In the figure:

10. a solar collector; 11. a temperature sensor; 20. an electric boiler; 30. a case; 31. a water storage tank; 311. a tee joint; 32. a circulation pump; 321. a four-way joint; 33. a water inlet pipe; 41. a water pump; 42. a water pumping pipe; 43. a first water pipe; 44. a second water pipe; 45. an electromagnetic valve; 51. a third water pipe; 52. a fourth water pipe; 61. a fifth water pipe; 62. a water-using device; 71. a radiator; 72. a sixth water pipe; 73. a seventh water pipe; 81. an eighth water pipe; 82. water heating kang; 83. a ninth water pipe; 90. a temperature monitor.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

Referring to fig. 1, the utility model provides a solar heating indoor heating system and heating equipment, wherein the heating equipment is used for heating indoor;

a first water supply device for supplying hot water to a heating device;

a second water supply device for supplying hot water to the heating device;

the water storage device is used for supplying water to the second water supply device and can be used for transferring hot water circulation in the heating device;

and the first water supply device and the second water supply device are respectively connected with the circulating mechanism, and hot water is supplied to the heating device through the circulating mechanism.

The first water supply equipment comprises a solar heat collector 10, and the solar heat collector 10 is installed at a high position in a standing way; wherein, the water storage pipe on the solar heat collector 10 adopts a heat collection vacuum glass pipe, so as to improve the antiknock capability of the pipeline.

The inner wall of the bottom of the solar heat collector 10 is provided with a temperature sensor 11, wherein an induction head of the temperature sensor 11 extends into a pipeline at the bottom of the solar heat collector 10 and is used for monitoring the water temperature inside the solar heat collector 10.

The second water supply device includes an electric boiler 20; wherein the electric boiler 20 can be electrically heated with water.

The water storage equipment comprises a box body 30, a water storage tank 31 is fixedly installed in the box body 30, two water outlets and two water inlets are formed in the water storage tank 31, a water inlet pipe 33 (the water inlet pipe 33 is used for introducing domestic water into the water storage tank 31) is installed in one water inlet of the water storage tank 31, a valve is installed on the water inlet pipe 33, a tee joint 311 is installed on the other water inlet of the water storage tank 31, and two water inlets are formed in the tee joint 311.

The circulation mechanism comprises a circulation pump 32 fixedly arranged in the box body 30, a third water pipe 51 is arranged on one water outlet of the water storage tank 31, one end, far away from the water storage tank 31, of the third water pipe 51 is arranged on a water inlet of the electric boiler 20, a fourth water pipe 52 is arranged on the water outlet of the electric boiler 20, one end, far away from the electric boiler 20, of the fourth water pipe 52 is arranged on the water inlet of the circulation pump 32, a four-way joint 321 is arranged at the end part of the water outlet of the circulation pump 32, and a first circulation pipeline and a second circulation pipeline are respectively arranged on two water outlets of the four-way joint 321.

The heating device comprises a radiator 71 and a water heating kang 82, the radiator 71 and the water heating kang 82 are respectively arranged indoors, a first circulating pipeline is used for conveying water into the radiator 71, and a second circulating pipeline is used for conveying water into the water heating kang 82.

The first circulation pipeline comprises a sixth water conveying pipe 72 arranged on the four-way joint 321, one end, far away from the four-way joint 321, of the sixth water conveying pipe 72 is arranged on a water inlet of the radiator 71, a seventh water conveying pipe 73 is arranged on a water outlet of the radiator 71, and one end, far away from the radiator 71, of the seventh water conveying pipe 73 is arranged on one water inlet of the three-way joint 311.

The second circulation pipeline comprises an eighth water conveying pipe 81 arranged on the four-way joint 321, one end, far away from the four-way joint 321, of the eighth water conveying pipe 81 is arranged on the water inlet of the water heating kang 82, a ninth water conveying pipe 83 is arranged on the water outlet of the water heating kang 82, and one end, far away from the water heating kang 82, of the ninth water conveying pipe 83 is arranged on the other water inlet of the three-way joint 311.

A fifth water delivery pipe 61 is also arranged on the water outlet of the four-way joint 321, and one end of the fifth water delivery pipe 61 far away from the four-way joint 321 is connected to the water using device 62; the water using device 62 may be a shower head of a bathroom, a tap of a kitchen, or the like.

A water suction pipe 42 is arranged at the other water outlet of the water storage tank 31, one end, far away from the water storage tank 31, of the water suction pipe 42 is arranged at the water inlet of the water pump 41, and a first water delivery pipe 43 is arranged at the water outlet of the water pump 41; wherein water inside the water storage tank 31 can be replenished into the solar collector 10 by the water pump 41.

One end of the first water pipe 43, which is far away from the water pump 41, is arranged on the water inlet of the solar heat collector 10, the water outlet of the solar heat collector 10 is provided with the second water pipe 44, one end of the second water pipe 44, which is far away from the solar heat collector 10, is connected to the fourth water pipe 52, and the second water pipe 44 is provided with the electromagnetic valve 45.

A temperature monitor 90 (the temperature monitor 90 is used for monitoring the indoor temperature) is also installed in the room, a controller is also installed on the outer wall of the box body 30, a power distribution cabinet is also arranged outside the solar heat collector 10, and the power distribution cabinet is used for supplying power to the water pump 41 and the electromagnetic valve 45.

The temperature monitor 90, the circulating pump 32, the water pump 41 and the electromagnetic valve 45 are respectively and electrically connected with the controller; when the temperature monitor 90 monitors that the indoor temperature is lower than the set temperature value, the circulating pump 32 and the water pump 41 are started to work through the controller, hot water in the pipeline is circulated after the circulating pump 32 is started, and water in the water storage tank 31 is supplemented into the solar heat collector 10 after the water pump 41 is started; and simultaneously, the electromagnetic valve 45 is electrified, a passage is formed in the second water pipe 44 after the electromagnetic valve 45 is electrified, so that hot water in the solar heat collector 10 can flow into the fourth water pipe 52, and then can be circulated into the radiator 71 and the water heating kang 82 through the sixth water pipe 72 and the eighth water pipe 81.

In this embodiment, the working principle of the device is as follows: when sunlight exists in the daytime, hot water is generated in the solar heat collector 10, after the indoor temperature is lower than the set value of the temperature monitor 90, the circulating pump 32 is started, after the electromagnetic valve 45 is electrified, a pipeline in the second water pipe 44 forms a passage, so that the hot water in the solar heat collector 10 enters the fourth water pipe 52, and enters the sixth water pipe 72 and the eighth water pipe 81 through the circulating pump 32 and the four-way 321, and then flows into the radiator 71 and the water-heating kang 82, water with low temperature in the radiator 71 and the water-heating kang 82 enters the water storage tank 31 through the seventh water pipe 73, the ninth water pipe 83 and the tee joint 311, and after the indoor temperature is lower than the set value of the temperature monitor 90, the water pump 41 is started at the same time, so that the water in the water storage tank 31 is supplemented into the solar heat collector 10 through the water pumping pipe 42, the water pump 41 and the first water pipe 43, and thus the circulation replacement of the water in the radiator 71 and the water-heating kang 82 is completed, and the indoor heating can be further heated;

when the temperature in the room is lower than the set value of the temperature monitor 90, hot water in the electric boiler 20 circulates through the fourth water pipe 52, the circulating pump 32 and the four-way 321 to enter the first circulating pipeline and the second circulating pipeline, and the water in the radiator 71 and the water heating kang 82 is replaced, so that the room is continuously heated;

the device can adopt solar energy to heat indoors when sunlight exists in the daytime, and compared with the traditional heating mode which only adopts an electric boiler, the device saves about 70% of electric energy consumption and improves the practicability of the device.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. A solar heating indoor heating system is characterized by comprising

The heating device is used for heating indoors;

a first water supply device for supplying hot water to a heating device;

a second water supply device for supplying hot water to the heating device;

the water storage device is used for supplying water to the second water supply device and can be used for transferring hot water circulation in the heating device;

the first water supply device and the second water supply device are respectively connected with the circulating mechanism, and hot water is supplied to the heating device through the circulating mechanism;

the first water supply device comprises a solar heat collector (10), the solar heat collector (10) is erected at a high position and is installed, a temperature sensor (11) is installed on the inner wall of the bottom of the solar heat collector (10), and the second water supply device comprises an electric boiler (20);

the water storage device comprises a box body (30), a water storage tank (31) is fixedly installed in the box body (30), two water outlets and two water inlets are formed in the water storage tank (31), a water inlet pipe (33) is installed in one water inlet of the water storage tank (31), a valve is installed in the water inlet pipe (33), a tee joint (311) is installed in the other water inlet of the water storage tank (31), and two water inlets are formed in the tee joint (311).

2. The solar heating indoor heating system according to claim 1, wherein the circulating mechanism comprises a circulating pump (32) fixedly installed inside the box body (30), a third water pipe (51) is installed on one water outlet of the water storage tank (31), one end, far away from the water storage tank (31), of the third water pipe (51) is installed on the water inlet of the electric boiler (20), a fourth water pipe (52) is installed on the water outlet of the electric boiler (20), one end, far away from the electric boiler (20), of the fourth water pipe (52) is installed on the water inlet of the circulating pump (32), a four-way (321) is installed at the water outlet end of the circulating pump (32), and a first circulating pipeline and a second circulating pipeline are installed on two water outlets of the four-way (321) respectively.

3. The solar heating indoor heating system according to claim 2, wherein the heating device comprises a radiator (71) and a water heated kang (82), the radiator (71) and the water heated kang (82) are respectively installed indoors, the first circulation pipeline is used for conveying water into the radiator (71), and the second circulation pipeline is used for conveying water into the water heated kang (82).

4. A solar heating indoor heating system according to claim 3, wherein the first circulation pipe comprises a sixth water pipe (72) installed on the four-way joint (321), one end of the sixth water pipe (72) far away from the four-way joint (321) is installed on a water inlet of the radiator (71), a seventh water pipe (73) is installed on a water outlet of the radiator (71), and one end of the seventh water pipe (73) far away from the radiator (71) is installed on one water inlet of the three-way joint (311).

5. The solar heating indoor heating system according to claim 4, wherein the second circulation pipe comprises an eighth water pipe (81) installed on the four-way joint (321), one end of the eighth water pipe (81) away from the four-way joint (321) is installed on a water inlet of the water heating kang (82), a ninth water pipe (83) is installed on a water outlet of the water heating kang (82), and one end of the ninth water pipe (83) away from the water heating kang (82) is installed on another water inlet of the three-way joint (311).

6. The solar heating indoor heating system according to claim 5, wherein a fifth water pipe (61) is further installed on the water outlet of the four-way (321), and one end of the fifth water pipe (61) away from the four-way (321) is connected to a water using device (62).

7. The solar heating indoor heating system according to claim 2, wherein a water pumping pipe (42) is installed on the other water outlet of the water storage tank (31), one end of the water pumping pipe (42) away from the water storage tank (31) is installed on a water inlet of a water pump (41), a first water conveying pipe (43) is installed on the water outlet of the water pump (41), one end of the first water conveying pipe (43) away from the water pump (41) is installed on the water inlet of the solar heat collector (10), a second water conveying pipe (44) is installed on the water outlet of the solar heat collector (10), one end of the second water conveying pipe (44) away from the solar heat collector (10) is connected to the fourth water conveying pipe (52), and an electromagnetic valve (45) is installed on the second water conveying pipe (44).

8. The solar heating indoor heating system according to claim 7, wherein a temperature monitor (90) is further installed indoors, a controller is further installed on the outer wall of the box body (30), a power distribution cabinet is further arranged outside the solar heat collector (10), the power distribution cabinet is used for supplying power to the water pump (41) and the electromagnetic valve (45), and the temperature monitor (90), the circulating pump (32), the water pump (41) and the electromagnetic valve (45) are electrically connected with the controller respectively.