CN204404560U - A kind of separated type solar and air source heat pump hybrid system - Google Patents

Abstract

The utility model discloses a split solar energy and air source heat pump composite system, which comprises a heat collector, a hot water storage tank, an air source heat pump system and a fan coil. Both ends of the coil are connected to the heat collector through the connecting pipe I and the connecting pipe II. The connecting pipe II is equipped with a circulating pump and an expansion tank. The second temperature sensor, the first temperature sensor and the second temperature sensor are connected to the controller; the air source heat pump system includes air source heat pump outdoor units A and B, and the air source heat pump outdoor unit B is connected to the hot water storage tank; heat storage A plate heat exchanger is arranged above the water tank to connect the fan coil unit with the outdoor unit A of the air source heat pump. The utility model combines solar heating with air source heating, uses the fan coil to adjust the indoor temperature with the cold/heat source generated by the air source system, and has the advantages of energy saving and environmental protection.

Description

A split solar energy and air source heat pump composite system

technical field

The utility model relates to a multi-energy matching system, in particular to a composite system of solar energy and an air source heat pump applied to refrigeration, heating and domestic hot water supply of ordinary residential buildings, and belongs to the technical field of energy utilization.

Background technique

Split solar energy is a system that separates the heat collecting plate from the water tank, which can be perfectly combined with the roof, but at the same time, it is also affected by the weather like most solar water heaters. Although the water tank has its own electric heating function, its energy-saving effect Will be greatly discounted. The air source heat pump water heater adopts the "reverse Carnot" principle, and the refrigerant is exchanged between the evaporator and the condenser through the compressor to produce domestic hot water. At an ambient temperature of 20°C, the water temperature rises from 15°C to 55°C At the same time, its energy efficiency ratio is as high as 4 or more, that is, the power consumption of heating the same water is only 1/4 of that of an electric heating water heater. Appropriate temperature, resulting in a waste of part of the energy.

Contents of the invention

The technical problem to be solved by this utility model is to provide a system that combines split solar energy and air source heat pumps to solve the problems of poor heating effect of solar water heaters in cloudy and rainy days and low energy saving effect of electric heating. At the same time, the fan coil unit is used to bring the cold source and heat source generated by the air source system to the room to adjust the temperature.

In order to solve this technical problem, the utility model provides a split type solar energy and air source heat pump composite system, including a heat collector, a hot water storage tank, an air source heat pump system and a fan coil. A heat exchange coil is arranged, and the two ends of the heat exchange coil are respectively connected to the inlet and the outlet of the heat collector through a connecting pipeline I and a connecting pipeline II, and a circulating pump and an expansion tank are arranged on the connecting pipeline II. A first temperature sensor is set at the outlet of the heater, a second temperature sensor is set in the hot water storage tank, the first temperature sensor and the second temperature sensor are connected with the controller to control the opening and closing of the circulating pump; the air source heat pump system includes an air source Heat pump outdoor unit A and air source heat pump outdoor unit B, air source heat pump outdoor unit B is connected to the hot water storage tank through pipelines; a plate heat exchanger is arranged above the hot water storage tank, and the plate heat exchanger connects the fan coil Connect with air source heat pump outdoor unit A.

The heat exchange coil in the hot water storage tank uses antifreeze as a circulating medium.

The upper part of the hot water storage tank is provided with a safety valve.

The hot water outlet of the hot water storage tank is arranged on the upper part of the hot water storage tank, and the cold water inlet is arranged on the lower part of the hot water storage tank, and is connected with the running water pipeline to adopt top water supply.

A booster valve or a pressure relief valve is arranged at the connection between the cold water inlet and the running water.

The heat collector is arranged on the outdoor roof or balcony, and the hot water storage tank is arranged at the indoor water place.

Beneficial effects: the utility model combines solar heating with air source heating, and removes the electric heating function of traditional water heaters, so that the energy consumed is lower when obtaining the same amount of hot water, and at the same time, the air source system is integrated with the fan coil The cold source and heat source generated by the work adjust the indoor temperature, which has the advantages of energy saving and environmental protection. The utility model solves the problems of low heating efficiency and high heating cost of the split solar and air source heat pump when the sunlight is insufficient, the site is limited and the ambient temperature is too low, and at the same time, it can provide sufficient cold and heat sources indoors.

Description of drawings

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

In the figure: 1 heat collector, 2 hot water storage tank, 3 circulation pump, 4 controller, 5 air source heat pump outdoor unit A, 6 air source heat pump outdoor unit B, 7 fan coil unit, 8 first temperature sensor, 9 Second temperature sensor, 10 heat exchange coil, 11 connecting pipeline I, 12 connecting pipeline II, 13 expansion tank, 14 cold water inlet, 15 hot water outlet, 16 safety valve, 17 plate heat exchanger.

Detailed ways

Below in conjunction with accompanying drawing and embodiment the utility model is described in detail.

Shown in Fig. 1 is the structural representation of the utility model.

The utility model comprises a heat collector 1, a hot water storage tank 2, an air source heat pump system and a fan coil 7.

A heat exchange coil 10 is arranged in the hot water storage tank 2, and the two ends of the heat exchange coil 10 are respectively connected to the inlet and outlet of the heat collector 1 through the connecting pipeline I and the connecting pipeline II, and the connecting pipeline II is connected to the inlet and outlet of the heat collector 1. A circulation pump 3 and an expansion tank 13 are provided, which are filled with circulation medium.

A first temperature sensor 8 is set at the outlet of the heat collector 1, a second temperature sensor 9 is set in the hot water storage tank 2, the first temperature sensor 8 and the second temperature sensor 9 are connected to the controller 4, and the first temperature sensor 8 Cooperate with the controller 4 with the second temperature sensor 9, when the difference between the temperature _T0 measured by the first temperature sensor 8 and the temperature _T1 measured by the second temperature sensor 9 in the hot water storage tank 2 is higher than the set temperature by 5°C, The system circulation pump 3 starts to realize the exchange of the heat transfer medium in the heat collector 1 and the heat exchange coil ₁₀ medium in the hot water storage tank 2; 9 When the difference between the measured temperature _T1 is lower than the set temperature, the system circulation pump 3 stops.

The air source heat pump system includes an air source heat pump outdoor unit A and an air source heat pump outdoor unit B, and the air source heat pump outdoor unit A and the air source heat pump outdoor unit B include a compressor, a condenser, an evaporator and a throttling device.

The air source heat pump outdoor unit B is connected to the hot water storage tank 2 through cold and heat medium pipelines, and the upper part of the hot water storage tank 2 includes the heat exchange part between the air source heat pump outdoor unit B and the inside of the water tank, using air energy as an auxiliary The heat source heats the hot water storage tank 2 .

When the medium temperature of collector 1 and the temperature of hot water storage tank 2 are too low and the time is not suitable for hot water use, start the air source heat pump outdoor unit B to continue heating the domestic water in the hot water storage tank 2.

A plate heat exchanger 17 is arranged above the hot water storage tank 2, and the plate heat exchanger 17 connects the fan coil unit 7 with the outdoor unit A of the air source heat pump, and passes the cold source through the pipeline and the fan coil unit during heat pump cooling 17 is brought indoors, and the heat source is brought indoors through the pipeline and the fan coil unit 17 when the heat pump is heating, so that the indoor temperature can be adjusted by using air energy.

The outdoor unit A of the air source heat pump is normally turned on to ensure the normal function of the indoor fan coil unit to adjust the indoor temperature.

The heat exchange coil 10 in the hot water storage tank 2 uses antifreeze as a circulating medium.

The upper part of the hot water storage tank 2 is provided with a safety valve 16 .

The hot water outlet 15 of the hot water storage tank 2 is arranged on the top of the hot water storage tank 2, and its cold water inlet 14 is arranged on the bottom of the hot water storage tank 2, and is connected with the tap water pipeline to adopt a top-water type water supply. When it is out, the same amount of cold water will be automatically replenished into the water tank, which can ensure that the water volume in the water tank remains unchanged.

In front of the cold water inlet 14, a booster valve or a pressure relief valve is arranged at the junction with the running water to ensure that the pressure is suitable, and the pressure is generally controlled within 0.2-0.3 MPa.

The heat collector 1 is arranged on the outdoor roof or balcony, and the hot water storage tank 2 is arranged in a suitable place indoors according to the specific environment.

Working process of the present utility model:

When sunlight shines on the heat collector 1, the heat-absorbing material in the heat collector 1 absorbs heat, heating the medium in the heat collector 1, and the temperature of the first temperature sensor 8 increases accordingly, that is, the temperature of T ₀ rises, when the temperature When the temperature rises to T ₀ -T ₁ >5°C, the controller 4 controls the circulation pump 3 to start working, and brings the medium in the heat collector 1 to the heat exchange coil 10 in the hot water storage tank 2, and the hot water storage tank 2 heat exchange with the water inside; when the temperature difference T ₀ -T ₁ in the heat collector 1 and the hot water storage tank 2 is <5°C, the controller 4 controls the circulation pump 3 to stop working, so that the reciprocating cycle of heat collection, Until the water in the hot water storage tank 2 reaches the required temperature.

When there is no sunlight, turn off the circulation pump 3, directly manually start the air energy circulation system to directly add cold water to the hot water storage tank 2, and use air energy to heat the water in the hot water storage tank 2 until the required temperature is reached. Can.

High temperature protection of the utility model: if the temperature T ₀ of the heat collector 1 is higher than 115°C or the temperature T ₁ of the lower part of the hot water storage tank 2 is higher than 75°C, the system is in the high temperature protection state at this time, and the circulating pump 3 stops running automatically , to avoid heat sensitive components in the system being damaged by high temperature impact.

The antifreeze function of the utility model: if the temperature _T of the heat collector is lower than the set temperature, the system will automatically start the antifreeze cycle, that is, the circulation pump 3 starts the cycle, and when the temperature _T of the heat collector 1 reaches the set temperature , the antifreeze cycle stops running.

The utility model combines solar heating with air source heating, and removes the electric heating function of traditional water heaters, so that the energy consumed is lower when obtaining the same amount of hot water, and at the same time uses the fan coil to work the air source system. The cold source and heat source adjust the indoor temperature, which has the advantages of energy saving and environmental protection. The utility model solves the problems of low heating efficiency and high heating cost of the split solar and air source heat pump when the sunlight is insufficient, the site is limited and the ambient temperature is too low, and at the same time, it can provide sufficient cold and heat sources indoors.

The above-mentioned embodiments of the utility model are only examples, not the only ones, and all changes within the scope of the utility model or equivalent to the scope of the utility model are surrounded by the utility model.

Claims (6)

1. a separated type solar and air source heat pump hybrid system, it is characterized in that: comprise heat collector (1), heat storage water tank (2), air source heat pump system and fan coil (7), heat exchange coil (10) is set in described heat storage water tank (2), described heat exchange coil (10) two ends are connected with exporting with heat collector (1) import with connecting line II (12) respectively by connecting line I (11), connecting line II (12) is provided with circulating pump (3) and expansion drum (13), described heat collector (1) exit arranges the first temperature sensor (8), second temperature sensor (9) is set in heat storage water tank (2), first temperature sensor (8) and the second temperature sensor (9) open and close with controller (4) connection control circulating pump (3), described air source heat pump system comprises air source heat pump off-premises station A (5) and air source heat pump off-premises station B (6), and air source heat pump off-premises station B (6) is connected with heat storage water tank (2) by pipeline, described heat storage water tank (2) top is provided with plate type heat exchanger (17), and fan coil (7) links together with air source heat pump off-premises station A (5) by plate type heat exchanger (17).

2. separated type solar according to claim 1 and air source heat pump hybrid system, is characterized in that: the heat exchange coil (10) in described heat storage water tank (2) is using anti-icing fluid as circulatory mediator.

3. separated type solar according to claim 1 and air source heat pump hybrid system, is characterized in that: the top of described heat storage water tank (2) is provided with safety valve (16).

4. separated type solar according to claim 1 and air source heat pump hybrid system, it is characterized in that: the hot water outlet (15) of described heat storage water tank (2) is arranged on the top of heat storage water tank (2), cooling water inlet (14) be arranged on heat storage water tank (2) bottom, to be connected with water supply pipe and to push up ability of swimming supply water for adopting.

5. separated type solar according to claim 4 and air source heat pump hybrid system, is characterized in that: described cooling water inlet (14) is front arranges pressure charging valve or pressure-reducing valve with running water junction.

6. the separated type solar according to any one of claim 1-5 and air source heat pump hybrid system, is characterized in that: on the roof that described heat collector (1) is disposed in the outdoor or balcony, heat storage water tank (2) water place disposed in the interior.