CN203464416U - Solar air conditioning system - Google Patents

Abstract

A solar air-conditioning system includes a solar panel, a storage battery, a semiconductor cooling chip, a control unit, an indoor temperature sensor, a hot water storage tank, a cold water tank, a water temperature detection and control device, and a cooling space. A solar panel radiator is provided on the back of the solar panel; a hot-end radiator and a cold-end radiator are respectively provided at the hot end and the cold end of the semiconductor refrigeration sheet; the air conditioning system also includes a water temperature detection control device, a first solenoid valve , the second electromagnetic valve, the third electromagnetic valve and are arranged in the cold water tank and the circulation pipeline. The utility model uses water to cool the hot end of the semiconductor refrigerating sheet and the solar panel, which prolongs the life of the solar panel, improves the efficiency of photovoltaic power generation and the coefficient of refrigeration performance; the cooling water after heating can provide a certain amount of domestic hot water; and realizes intelligent partition refrigeration , effectively improving the energy utilization efficiency of the entire system.

Description

A solar air conditioning system

technical field

The utility model belongs to a solar air conditioner, in particular to a refrigeration technology combined with solar power generation and semiconductors, and can be applied to apartment complexes, student dormitories in colleges and universities, remote power-deficient areas and other places.

Background technique

At present, most of the refrigeration systems used in my country are compressed air-conditioning systems driven by electricity. Although the system has a high refrigeration coefficient, it consumes a lot of electricity, especially in summer, which brings a great energy burden to the power system. At the same time, the chemical refrigerant used in the system also poses a threat to the environment and human health. As an emerging solar refrigeration technology, solar semiconductor refrigeration technology has the advantages of high stability, use of clean energy, good matching with solar power generation, and no use of chemical refrigerants. However, solar semiconductor refrigeration technology has problems such as low power generation efficiency of solar panels and difficulty in heat dissipation at the hot end of semiconductor refrigeration sheets, as well as low refrigeration coefficient and low comprehensive energy utilization efficiency.

Utility model content

The purpose of this utility model is to provide a solar air-conditioning system to solve the problems of low power generation efficiency of solar panels and difficulty in heat dissipation at the hot end of semiconductor refrigeration sheets in solar semiconductor refrigeration technology, resulting in low refrigeration coefficient and low comprehensive energy utilization efficiency. question.

The technical scheme of the utility model is as follows: a solar air-conditioning system, characterized in that: the air-conditioning system includes solar panels, storage batteries, semiconductor refrigeration chips, control units, indoor temperature sensors, hot water storage tanks, cold water tanks, water temperature detection Control device and cooling space; a solar panel radiator is provided on the back of the solar panel; a hot-end radiator is provided on the hot end of the semiconductor refrigeration sheet, and a cold-end radiator is provided at the cold end of the semiconductor refrigeration sheet; the temperature The sensor is arranged in the cooling space; the outlet of the cold water tank is connected to the radiator at the hot end through a water pump and a flow regulating valve, and the radiator at the hot end is connected to the radiator of the solar panel and the heat storage tank through a pipe; The wire is connected with the solar battery panel; the control unit is respectively connected with the storage battery, the indoor temperature sensor, the semiconductor refrigerating sheet and the water pump through the wires.

In the above technical solution of the present utility model, the air conditioning system also includes a water temperature detection and control device, a first solenoid valve, a second solenoid valve, a third solenoid valve, and a circulation system arranged between the cold water tank and the hot water storage tank. pipeline, the first electromagnetic valve is set between the hot water storage tank and the user; the second electromagnetic valve is set on the circulation pipeline; the third electromagnetic valve is set on the cold water inlet pipeline of the cold water tank; the water temperature detection and control device passes through the line They are respectively connected with the first solenoid valve, the second solenoid valve and the third solenoid valve.

Another technical solution of the present utility model is: multiple semiconductor cooling chips are used, multiple indoor temperature sensors are used, and multiple semiconductor cooling chips and multiple indoor temperature sensors are distributed in different areas of the cooling space; The control unit is connected with each indoor temperature sensor and each semiconductor refrigerating sheet through lines.

The cold end radiator described in the utility model includes metal fins and a fan. The solar panel radiator adopts water-cooled channel or pipe radiator.

The utility model has the following advantages and outstanding effects: 1. A solar panel radiator and a hot-end radiator are respectively arranged on the back of the solar battery panel and the hot end of the semiconductor refrigeration sheet, and the heat emitted from the hot end of the semiconductor refrigeration sheet and the back of the solar panel is dissipated. The heat is cooled by cooling water, which prolongs the life of solar panels and improves the efficiency of photovoltaic power generation and cooling performance coefficient; ② cooling water circulation is adopted, and after the cooling water is heated up, it can provide a certain amount of hot water for life, and the energy utilization efficiency of the whole system is remarkable Improve; ③Realize intelligent partition cooling and save electric energy.

Description of drawings

Fig. 1 is a schematic diagram of the structural principle of a solar air-conditioning system provided by the utility model.

Fig. 2 is a schematic diagram of partition cooling provided by the utility model.

Fig. 3 is a schematic diagram of the connection of water pipes in a room in which semiconductor cooling chips provided by the utility model are dispersedly arranged.

In the figure: 1-solar panel; 2-solar panel radiator; 3-heat storage tank; 4-water temperature detection and control device; 5-battery; 6-control unit; 7-metal fin; 8-semiconductor refrigeration 9-cold radiator; 10-fan; 11-semiconductor cooling hot-end; 12-hot radiator; 13-connecting pipe; 14-flow regulating valve; 15-water pump; 16-cold water tank; 17-cold water inlet pipe; 18-cooling space; 19-wire; 20-hot water outlet pipe; 21-first solenoid valve; 22-second solenoid valve; 23-indoor temperature sensor; 24-third solenoid valve; 25 -Circulation pipeline; 26-user; 27-semiconductor cooling sheet; 28-cold water collection pipe; 29-cold water tank outlet pipe; 30-semiconductor cooling sheet hot end water pipe; 31-solar panel radiator water inlet pipe; 32- Hot water collection pipe.

Detailed ways

The structure, principle and specific implementation of the present utility model will be further described below in conjunction with the accompanying drawings.

Fig. 1 is a schematic diagram of the structural principle of a solar air-conditioning system provided by the utility model. The air-conditioning system includes a solar panel 1, a storage battery 5, a semiconductor cooling chip 27, a control unit 6, an indoor temperature sensor 23, a heat storage tank 3, a cold water tank 16, a water temperature detection control device 4 and a cooling space 18; A solar panel radiator 2 is provided on the back of the board; a hot-end radiator 12 is provided on the hot end of the semiconductor refrigeration sheet, and a cold-end radiator 9 is provided at the cold end of the semiconductor refrigeration sheet; the indoor temperature sensor 23 is arranged in the cooling space 18 The outlet of the cold water tank 1 is connected with the hot end radiator 12 through the water pump 15 and the flow regulating valve 14, and the hot end radiator 12 is connected with the solar panel radiator 2 and the hot water storage tank 3 through pipelines; The solar panel 1 is connected; the control unit 6 is connected with the storage battery 5, the indoor temperature sensor 23, the semiconductor cooling chip 27 and the water pump 15 respectively through lines. The cold end radiator 9 has metal fins 7 and the fan 10, and the solar panel radiator 2 adopts a water-cooled channel or pipe radiator.

The solar air-conditioning system also includes a water temperature detection control device 4, a first solenoid valve 21, a second solenoid valve 22, a third solenoid valve 24 and a circulation pipeline 25 arranged between the cold water tank 16 and the hot water storage tank 3; The first electromagnetic valve 21 is arranged between the hot water storage tank 3 and the user 26; the second electromagnetic valve 22 is arranged on the circulation pipeline 25; the third electromagnetic valve 24 is arranged on the cold water inlet pipeline 17 of the cold water tank 16; the water temperature detection control The device 4 is respectively connected with the first solenoid valve 21 , the second solenoid valve 22 and the third solenoid valve 24 through lines.

Referring to Fig. 2, in order to realize partition cooling, multiple semiconductor cooling chips 27 can be used, and multiple indoor temperature sensors 23 can also be used, and multiple semiconductor cooling chips 27 and multiple indoor temperature sensors 23 are distributed in different regions of the cooling space 18; The control unit 6 is connected with each indoor temperature sensor 23 and each peltier refrigerating sheet 27 through a line. The solar panel radiator 2 adopts a water-cooled channel or pipe radiator.

The working principle of the utility model is as follows: the solar cell panel 1 is irradiated by sunlight, generates electricity by photovoltaic effect, and the generated power is stored in the storage battery 5 through the wire 19, and the storage battery 5 is connected with the semiconductor refrigeration sheet 27 through the control unit 6. The temperature of the control unit 6 can be manually set. When the indoor temperature sensor 23 detects that the indoor temperature is higher than the set value, the control unit 6 is connected to the circuit at this time, and the semiconductor cooling chip 27 starts to cool the cooling space 18, and the water pump 15 starts running at the same time. , the water in the cold water tank 16 starts to flow out, and reaches the hot end radiator 12 through the connecting pipe 13, water pump 15 and flow regulating valve 14 in turn, and takes away the heat of the hot end 11 of the semiconductor refrigeration sheet in time, and the water coming out from the hot end radiator 12 The water passes through the solar panel radiator 2 again to take away the heat of the solar panel 1 in time, and finally enters the heat storage tank 3 . A water temperature control and detection device 4 is provided in the hot water storage tank 3. When the water temperature in the hot water storage tank 3 is low, the water temperature control and detection device 4 opens the second solenoid valve 22 and closes the first solenoid valve 21 and the third solenoid valve. 24, so that water enters the cold water tank 16 through the circulation pipe 25 to complete the cycle. When the water temperature in the hot water storage tank 3 is high, the water temperature control detection device 4 opens the first electromagnetic valve 21, the second electromagnetic valve 22 and the third electromagnetic valve 24, so that fresh cold water enters the cold water tank 16 through the cold water inlet pipe 17, and passes through The hot water outlet pipe 20 drains the hot water, which is made available to the user 26 . As new cold water enters, the water temperature in the heat storage tank decreases, so the water temperature control and detection device 4 opens the second solenoid valve 22, closes the first solenoid valve 21 and the third solenoid valve 24, and makes the water circulate again.

In this embodiment, the cold water tank 16 is arranged at the lower part of the cooling space, and the cooling water is supplemented by tap water. After the cooling water flows out from the cold water tank 16, after passing through the water pump 15 and the flow regulating valve 14, it flows through the heat sink 12 at the hot end of the cooling fin to take away the heat at the hot end to optimize the cooling effect. The cooling water passes through the hot end radiator 12 and then flows through the solar cold battery panel radiator 2 to cool the solar cold battery panel 1 and reduce its working temperature, which can improve the photovoltaic power generation efficiency and life of the solar panel 1 . The reheated cooling water flows into the heat storage tank 3 .

The solar power generation system includes a solar panel 1 and a storage battery 5, and the solar panel 1 can be set with different inclination angles according to different regions;

The control unit 6 is essentially a control circuit. The distributed indoor temperature sensors 23 sense the temperature of different locations in the cooling space 18 in real time and feed back to the control circuit to realize zonal cooling. In this embodiment, the temperature of the cooling space 18 can be set artificially, that is, when the indoor temperature sensor 23 senses that the temperature in a certain area in the cooling space 18 is lower than the set value, the semiconductor refrigeration piece in this area will be powered off to stop cooling; When the sensor 23 senses that the temperature exceeds the set value, the semiconductor refrigeration sheet in this area is energized to re-refrigerate; thereby realizing partition cooling.

In this embodiment, the cold end 8 of the semiconductor refrigerating sheet is placed in the cooling space, and the hot end 11 of the semiconductor refrigerating sheet is placed outside the refrigerating space. End radiator 9 and hot end radiator 12 are bonded with thermal conductive silicone grease and fixed. The heat sink at the hot and cold ends used in this embodiment contains metal fins 7 or fins made of other materials. In order to strengthen the flow of cold energy in the space, in this embodiment, a fan 10 is provided in the cold end radiator 9 to realize the transfer of cold energy by forced convection.

The above description only takes one cooling chip installed in the room as an example. The semiconductor cooling chip 27 includes the cold end 8 of the semiconductor cooling chip and the hot end 11 of the semiconductor cooling chip. Multiple pieces of semiconductor cooling chips 27 can be arranged in the cooling space 18. The working principle is the same as that of this Examples are similar. The schematic diagram of realizing partitioned cooling is shown in Figure 2. When the indoor temperature sensors 23 at different positions detect the temperatures in different regions of the cooling space 18, the control unit 6 can be used to cool in a high-temperature area of the cooling space 18, while other areas are not cooled, so that Realize partition cooling and save electric energy. The water pipe connection diagram of a plurality of semiconductor refrigeration chips 27 arranged in the room is shown in Figure 3. The cooling water coming in from the cold water tank 16 enters the cold water header 28 through the outlet pipe 29 of the cold water tank, and passes through the hot end water pipe 30 of the semiconductor refrigeration chips in parallel. It enters the hot-end radiator 12 of the semiconductor refrigerating sheet, then joins the hot water collecting pipe 32, passes through the solar panel radiator water inlet pipe 31, enters the solar panel radiator 2, and finally flows into the hot water storage tank 3.

Claims (5)

1. A solar air-conditioning system, characterized in that: the air-conditioning system includes a solar panel (1), a storage battery (5), a semiconductor cooling chip (27), a control unit (6), an indoor temperature sensor (23), a storage battery Hot water tank (3), cold water tank (16), water temperature detection and control device (4) and cooling space (18); solar panel radiator (2) is arranged on the back of the solar panel; A hot end radiator (12) is provided, and a cold end radiator (9) is provided at the cold end of the semiconductor refrigeration sheet; the temperature sensor (23) is arranged in the cooling space (18); the cold water tank (16) The outlet is connected to the hot end radiator (12) through the water pump (15) and the flow regulating valve (14), and the hot end radiator (12) is connected to the solar panel radiator (2) and the heat storage tank (3) through pipes connection; the battery (5) is connected to the solar panel (1) through wires (19); the control unit (6) is respectively connected to the battery (5), the indoor temperature sensor (23), and the semiconductor refrigeration sheet (27) through the wires Link to water pump (15). 2. A solar air-conditioning system according to claim 1, characterized in that: the air-conditioning system also includes a water temperature detection and control device (4), a first solenoid valve (21), a second solenoid valve (22) , the third solenoid valve (24) and the circulation pipeline (25) arranged between the cold water tank (16) and the heat storage tank (3), the first solenoid valve (21) is arranged in the heat storage tank ( 3) Between the user (26); the second solenoid valve (22) is set on the circulation pipe (25); the third solenoid valve (24) is set on the cold water inlet pipe (17) of the cold water tank (16); the water temperature The detection control device (4) is respectively connected with the first solenoid valve (21), the second solenoid valve (22) and the third solenoid valve (24) through lines. 3. A solar air-conditioning system according to claim 1 or 2, characterized in that: multiple semiconductor cooling chips (27) are used, multiple indoor temperature sensors (23) are used, and multiple semiconductor cooling chips are used The refrigerating sheet (27) and multiple indoor temperature sensors (23) are distributed in different areas of the refrigerating space (18); the control unit (6) communicates with each indoor temperature sensor (23) and each semiconductor refrigerating sheet (27) through lines )connect. 4. A solar air-conditioning system according to claim 3, characterized in that: the cold end radiator (9) includes metal fins (7) and a fan (10). 5. A solar air-conditioning system according to claim 3, characterized in that: the solar panel radiator (2) adopts a water-cooled channel or pipe radiator.

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