CN203501306U - Heat collection and storage system of solar water heater for heating - Google Patents

Abstract

The utility model relates to a heat collection and storage system of a water heater, in particular to a heat collection and storage system of a solar water heater for heating. The solar water heater for heating comprises solar heat collection pipes, a heat collection pipe connector, a water tank, a high-temperature water pipe, a low-temperature water pipe, a water pump and a tap water pipe, wherein a second valve is arranged on the tap water pipe, and an outdoor temperature sensor is inserted into the water tank; the output end of the outdoor temperature sensor is connected with a temperature differential controller through a first data line, and an indoor temperature sensor is arranged on a radiator group; the output end of the indoor temperature sensor is connected with the temperature differential controller through a second data line, and the output end of the temperature differential controller is connected with the water pump; the radiator group is embedded in an indoor kang or the ground, and cobblestones with a thickness of 100mm to 150mm are paved at the upper layer of the radiator group to be used as a heat storage medium. The solar water heater provided by the utility model has the advantages of simple structure and safety and convenience in use. The heat collection and storage system of the solar water heater for heating realizes a rural low-carbon environment-friendly heating mode, effectively utilizes solar energy for automatic heating, and has a good heating effect.

Description

Solar water heater heat-collecting and heat reservoir for heating

Technical field

The utility model relates to a kind of water heater thermal-arrest and heat reservoir, particularly relates to solar water heater heat-collecting and heat reservoir for a kind of heating.

Background technology

For energy-saving and emission-reduction, create the living environment of safer and more comfortable, in global range all in the utilization of research natural resources.Wherein with minimum cost, to ask for new forms of energy be that the mankind are to natural challenge in the utilization of solar energy.Solar energy is a kind of clean, new forms of energy of exhaustion efficiently and never, and its aboundresources, both can freely be used, and again without transportation, to environment, without any pollution, was the energy strategy decision-making of national governments' sustainable development.This patent is exactly the achievement based on these thinking research and development.Heating is necessary for the building of some north cold areas.City is mostly the mode that adopts central heating at present, and rural area adopt central heating difficulty large, drop into highlyer, so rural area method of adopting each household to heat voluntarily, is mainly to adopt the mode of fire coal and stalk to heat.When wasting energy, also there is the technical problem of contaminated environment in this heating system in rural area.

Summary of the invention

The utility model is exactly in order to solve the problems of the technologies described above, and solar water heater heat-collecting and heat reservoir for a kind of heating is provided, and it has realized rural area low-carbon environment-friendly formula heating system, effectively utilizes solar energy to realize automatic heating, and heating effect is good.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

Solar water heater heat-collecting and heat reservoir for heating, it comprises solar energy heat collection pipe, thermal-collecting tube connector and water tank, wherein the delivery port of water tank and one end of high-temperature conduit are connected, the other end of high-temperature conduit is connected with the water intake end of radiator group, the water side of radiator group is connected with return pipe, return pipe is connected with water pump, return pipe is provided with the first valve, water pump is connected with one end of low temperature water pipe, the other end of low temperature water pipe is connected with the water inlet of water tank or thermal-collecting tube connector, running water pipe is connected with water pump, running water pipe is provided with the second valve, outdoor temperature sensor inserts in water tank, the output of outdoor temperature sensor is connected with differential temperature controller by the first data wire, indoor temperature transmitter is arranged in radiator group, the output of indoor temperature transmitter is connected with differential temperature controller by the second data wire, the output of differential temperature controller is connected with water pump.

The above-mentioned thermal-collecting tube connector upper end of stating is provided with delivery port and water inlet, and the water inlet pipe direct-burried of water inlet is in the heat-insulation layer of thermal-collecting tube connector, is connected with thermal-collecting tube connector inner water tank lower end.

Above-mentioned indoor temperature transmitter is arranged under indoor a heatable brick bed or on underground radiator group water return outlet.

Above-mentioned water tank, thermal-collecting tube connector and solar energy heat collection pipe are arranged on outdoor.

Above-mentioned radiator group is embedded under indoor a heatable brick bed or is underground, and radiator group upper strata laying depth is that 100mm ~ 150mm cobblestone is as heat-storage medium.

Owing to adopting said structure, make the utlity model has following advantage and effect:

The utility model is simple in structure, safe and convenient to use, and it provides solar water heater heat-collecting and heat reservoir for a kind of heating, and it has realized rural area low-carbon environment-friendly formula heating system, effectively utilizes solar energy to realize automatic heating, and heating effect is good.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure, 1. gas outlet, 2. the first data wire, 3. outdoor temperature sensor, 4. water tank, 5. thermal-collecting tube connector, 6. solar energy heat collection pipe, 7. high-temperature conduit, 8. water pump, 9. the first valve, 10. radiator group, 11. second data wires, 12. running water pipes, 13. second valves, 14. differential temperature controllers, 15. low temperature water pipes, 16. indoor temperature transmitters.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is just in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, solar water heater heat-collecting and heat reservoir for the utility model heating, its structure is as follows: each solar energy heat collection pipe 6 is communicated with thermal-collecting tube connector 5, thermal-collecting tube connector 5 upper ends are connected with water tank 4, water tank 4 is provided with gas outlet 1, the delivery port of water tank 4 is connected with one end of high-temperature conduit 7, the other end of high-temperature conduit 7 is connected with the water intake end of radiator group 10, the water side of radiator group 10 is connected with return pipe, return pipe is connected with water pump 8, return pipe is provided with the first valve 9, water pump 8 is connected with one end of low temperature water pipe 15, the other end of low temperature water pipe 15 is connected with the water inlet of thermal-collecting tube connector 5, running water pipe 12 is connected with water pump 8, running water pipe 12 is provided with the second valve 13, outdoor temperature sensor 3 inserts in water tank 4, the output of outdoor temperature sensor 3 is connected with differential temperature controller 14 by the first data wire 2, indoor temperature transmitter 16 is arranged under indoor a heatable brick bed or on underground radiator group 10 water return outlets, the output of indoor temperature transmitter 16 is connected with differential temperature controller 14 by the second data wire 11, and the output of differential temperature controller 14 is connected with water pump 8.

Above-mentioned thermal-collecting tube connector 5 upper ends are provided with delivery port and water inlet, and the water inlet pipe direct-burried of water inlet is in the heat-insulation layer of thermal-collecting tube connector 5, is connected with thermal-collecting tube connector 5 inner water tank lower ends.

Above-mentioned water tank 4, thermal-collecting tube connector 5, solar energy heat collection pipe 6 are arranged on outdoor.

Above-mentioned radiator group 10 is embedded under indoor a heatable brick bed or is underground, and radiator group 10 upper strata laying depths are that 100mm ~ 150mm cobblestone is as heat-storage medium.

Operation principle of the present utility model is as follows: open the second valve 13 arranging on running water pipe 12, the first valve 9 arranging on turning off steam sheet group 10 return pipes, running water enters in thermal-collecting tube connector 5 and water tank 4 by low temperature water pipe 15, then close the second valve 13, open the first valve 9, solar energy heat collection pipe 6 is heated to water after proper temperature, in indoor temperature transmitter 16 and water tank, outdoor temperature sensor 3 sends detection data to differential temperature controller 14, when water tank temperature equals to set value with the water temperature difference of hiding in underground radiator group 10, water circulation is carried out in water pump 8 work, when upper and lower temperature is consistent, water pump 8 quits work.Go round and begin again all storages under being embedded in indoor a heatable brick bed or in underground cobblestone of solar energy energy transform into heat energy on daytime, daytime heat accumulation, heat release in evening, has reached the object that adopts solar heating.

Claims (5)

1. solar water heater heat-collecting and heat reservoir for heating, it comprises solar energy heat collection pipe (6), thermal-collecting tube connector (5) and water tank (4), it is characterized in that structure is as follows: the delivery port of water tank (4) is connected with one end of high-temperature conduit (7), the other end of high-temperature conduit (7) is connected with the water intake end of radiator group (10), the water side of radiator group (10) is connected with return pipe, return pipe is connected with water pump (8), return pipe is provided with the first valve (9), water pump (8) is connected with one end of low temperature water pipe (15), the other end of low temperature water pipe (15) is connected with the water inlet of thermal-collecting tube connector (5), running water pipe (12) is connected with water pump (8), running water pipe (12) is provided with the second valve (13), outdoor temperature sensor (3) inserts in water tank (4), the output of outdoor temperature sensor (3) is connected with differential temperature controller (14) by the first data wire (2), indoor temperature transmitter (16) is arranged in radiator group (10), the output of indoor temperature transmitter (16) is connected with differential temperature controller (14) by the second data wire (11), the output of differential temperature controller (14) is connected with water pump (8).

2. solar water heater heat-collecting and heat reservoir for heating according to claim 1, it is characterized in that described thermal-collecting tube connector (5) upper end is provided with delivery port and water inlet, and the water inlet pipe direct-burried of water inlet is in the heat-insulation layer of thermal-collecting tube connector (5), be connected with thermal-collecting tube connector (5) inner water tank lower end.

3. solar water heater heat-collecting and heat reservoir for heating according to claim 1, is characterized in that described indoor temperature transmitter is arranged under indoor a heatable brick bed or on underground radiator group water return outlet.

4. solar water heater heat-collecting and heat reservoir for heating according to claim 1, is characterized in that described water tank (4), thermal-collecting tube connector (5) and solar energy heat collection pipe (6) are arranged on outdoor.

5. solar water heater heat-collecting and heat reservoir for heating according to claim 1, it is characterized in that described radiator group (10) is embedded under indoor a heatable brick bed or underground, the upper strata laying depth of radiator group (10) is that 100mm ~ 150mm cobblestone is as heat-storage medium.

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