CN202731665U - A heat-supply air-energy energy-saving window - Google Patents

Abstract

The utility model discloses a heating air energy-saving window, comprising a window frame, glass fixed in the window frame, an outdoor fan, a high-pressure storage, a gas-liquid separator, a compressor, an evaporator, a pressure-reducing throttle valve, a liquid storage tank, an indoor fan and a condenser arranged outside the window frame, a refrigerant system heat exchange pipe is arranged in the liquid storage tank, the condenser, the pressure-reducing throttle valve, the high-pressure storage, the gas-liquid separator, the compressor and the evaporator are connected in sequence through a refrigerant circulation pipe to form a circulation loop, the refrigerant system heat exchange pipe exchanges heat with the evaporator, a cold and hot water heat exchanger is also arranged in the liquid storage tank, and the cold and hot water heat exchanger is connected to the outside through the cold and hot water circulation pipe. The utility model has the advantages of effectively utilizing space, reducing indoor temperature, making full use of outdoor heat energy and reducing waste heat discharge.

Description

A heat-supply air-energy energy-saving window

【Technical field】

The utility model relates to a heat-supply air energy device, in particular to a heat-supply air energy energy-saving window.

【Background technique】

Heat pump technology is an energy technology in the 21st century. It can improve the utilization of energy efficiency in the form of heat pump. The utilization of energy efficiency has two meanings. From an environmental point of view, it can reduce greenhouse gas emissions and reduce harmful factors to the environment. , from another aspect, it is a technology that can solve the high-altitude load of electricity.

Air source heat pump technology is an energy-saving and environmentally friendly heating technology based on the reverse Carnot cycle principle. The air source heat pump system obtains a low-temperature heat source through air heat storage, and becomes a high-temperature heat source after being integrated with high-efficiency heat collection by the system, which is used for heating or supplying hot water. The heat collection efficiency of the entire system is relatively high.

In terms of working principle, it does not belong to traditional solar products. Heat pump products are quite different from conventional solar products. Conventional solar products use water as the medium and must rely on direct sunlight or radiation to achieve heating effects, while air energy uses refrigerants. It absorbs the heat energy and solar radiation energy in the air, and exchanges heat with water to achieve the heating effect after being compressed and heated by the compressor. The principle of air energy and air conditioning is basically the same.

In the hot summer, when the window unit is in cooling operation, the outdoor heat exchanger emits a lot of heat. If the heat is not fully utilized, it is a waste and a kind of pollution. As the global greenhouse effect becomes more and more serious Under such circumstances, under the situation that the world is calling for energy conservation and emission reduction, making full use of air-conditioning waste heat and natural heat for heating or/and hot water supply is a technology worthy of advocacy and wide application by all sectors of society.

【Content of invention】

The technical problem solved by the utility model is to provide a heat-supply air-energy energy-saving window that effectively utilizes space, reduces indoor temperature, fully utilizes outdoor heat energy, and reduces waste heat discharge.

In order to solve the above technical problems, the technical solution adopted by the utility model is: a heat-supply air-energy energy-saving window, including a window frame, glass fixed in the window frame, an outdoor fan, a high-pressure storage device, an air A liquid separator, a compressor, an evaporator, a pressure-reducing throttle valve, a liquid storage tank, an indoor fan, and a condenser. , high-pressure storage, gas-liquid separator, compressor, and evaporator are sequentially connected through refrigerant circulation pipes to form a circulation loop. The heat exchange pipes of the refrigerant system exchange heat with the evaporator. A hot water heat exchanger, the cold and hot water heat exchanger is connected to the outside through a cold and hot water circulation pipe.

Preferably, a floor heating heat exchanger is also provided in the liquid storage tank, and the floor heating heat exchanger is connected to the outside through a floor heating water circulation pipe.

Preferably, the cold and hot water heat exchanger, the floor heating heat exchanger, and the heat exchange tube of the refrigerant system are respectively provided with temperature probes, and the temperature probes are controlled by an intelligent controller.

Preferably, a drain pipe is provided beside the window frame, and the drain pipe is connected to the condenser.

Compared with the prior art, the utility model has the beneficial effects that: the outdoor fan, the high-pressure storage device, the gas-liquid separator, the compressor, the evaporator, the step-down throttle valve, the liquid storage tank, the indoor fan and the condenser are respectively arranged Outside the window frame, the utility model can effectively utilize space, reduce indoor temperature, make full use of outdoor heat energy, and reduce waste heat discharge.

【Description of drawings】

The accompanying drawings described here are used to provide a further understanding of the utility model and constitute a part of the application, but do not constitute an improper limitation of the utility model. In the accompanying drawings:

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

Fig. 2 is the sectional view of A-A shown in Fig. 1;

Fig. 3 is the sectional view of B-B shown in Fig. 1;

Fig. 4 is the bottom view shown in Fig. 1;

Fig. 5 is a working principle diagram of the utility model.

Explanation of reference signs: 1-high pressure storage; 2-compressor; 3-refrigerant circulation pipe; 4-intelligent controller; 5-glass; 6-temperature probe; 7-air inlet; Liquid tank; 14-refrigerant system heat exchange pipe; 15-cold and hot water heat exchanger; 16-floor heating water circulation pipe; 17-cold and hot water circulation pipe; 18-drain outlet; 19-floor heating heat exchanger; 20-outdoor fan; 21-evaporator; 26-indoor fan; 27-condenser; 30-gas-liquid separator; 31-decompression throttle valve.

【Detailed ways】

The utility model will be described in detail below in conjunction with the accompanying drawings and specific embodiments, wherein the schematic embodiments and descriptions are only used to explain the utility model, but not as a limitation to the utility model.

Referring to accompanying drawings 1, 2, 3, 4 and 5, the utility model discloses a heat-supply air-energy energy-saving window, comprising a window frame 9, a glass 5 fixed in the window frame 9, arranged on The outdoor fan 20, high-pressure accumulator 1, gas-liquid separator 30, compressor 2, evaporator 21, pressure-reducing throttle valve 31, liquid storage tank 13, indoor fan 26 and condenser 27 outside the window frame 9, said The liquid storage tank 13 is provided with a refrigerant system heat exchange pipe 14, and the condenser 27, pressure-reducing throttle valve 31, high-pressure accumulator 1, gas-liquid separator 30, compressor 2, and evaporator 21 pass through the refrigerant circulation pipe in sequence. 3 connected to form a circulation loop, the refrigerant system heat exchange tube 14 exchanges heat with the evaporator 21, and the liquid storage tank 13 is also provided with a cold and hot water heat exchanger 15, and the cold and hot water heat exchanger 15 It is connected to the outside through the cold and hot water circulation pipe 17 . A floor heating heat exchanger 19 is also arranged in the liquid storage tank 13 , and the floor heating heat exchanger 19 is connected to the outside through a floor heating water circulation pipe 16 . The outdoor fan 20, high-pressure accumulator 1, gas-liquid separator 30, compressor 2, evaporator 21, pressure-reducing throttle valve 31, and liquid storage tank 13 of this embodiment are respectively arranged at the lower part of the window frame 9, and the indoor fan 26 And the condenser 27 is arranged on the window frame 9 top, and the position corresponding to the condenser 27 is provided with the air inlet 7. The hot and cold water heat exchanger 15 , the floor heating heat exchanger 19 and the refrigerant system heat exchange tube 14 are respectively provided with a temperature probe 6 , and the temperature probe 6 is controlled by the intelligent controller 4 . The evaporator 21 and the condenser 27 are also provided with temperature probes 6 respectively, and the temperature probes 6 are controlled by the intelligent controller 4 . A drain pipe 18 is also arranged beside the window frame 9 , and the drain pipe 18 is connected to the condenser 27 . Temperature probes 6 are respectively installed on the hot and cold water heat exchanger 15, the floor heating heat exchanger 19, the heat exchange tube 14 of the refrigerant system, the evaporator 21 and the condenser 27, the purpose of which is to control by the intelligent controller 4, when each When the temperature at the place reaches the preset temperature, the air energy equipment will stop working as a whole, which can save energy and reduce equipment loss.

Since the outdoor fan 20, the high-pressure accumulator 1, the gas-liquid separator 30, the compressor 2, the evaporator 21, the pressure-reducing throttle valve 31, the liquid storage tank 13, the indoor fan 26 and the condenser 27 are respectively arranged outside the window frame 9 , The utility model can effectively utilize the space, reduce the indoor temperature, fully utilize the outdoor heat energy, and reduce the advantages of waste heat discharge. The air energy heat pump device is based on the absence of solar energy, and can absorb outdoor air energy for heating throughout the year, day or night. This technology not only solves the needs of people's domestic hot water and heating, but also has the advantages of energy saving, environmental protection and practicality.

The above description is only used to facilitate the description of the utility model. Without departing from the spirit of the utility model creation, various simple disguises and modifications made by those skilled in the art still belong to the protection of the utility model. scope.

Claims (4)

1. A heat-supply air energy energy-saving window, characterized in that: it comprises a window frame, glass fixed in the window frame, an outdoor fan arranged outside the window frame, a high-pressure accumulator, a gas-liquid separator, a compressor, and an evaporator , a pressure-reducing throttle valve, a liquid storage tank, an indoor fan and a condenser, the liquid storage tank is provided with a refrigerant system heat exchange tube, and the condenser, a pressure-reducing throttle valve, a high-pressure storage device, and a gas-liquid separator , the compressor, and the evaporator are sequentially connected through refrigerant circulation pipes to form a circulation loop. The heat exchange pipe of the refrigerant system exchanges heat with the evaporator, and a cold and hot water heat exchanger is also arranged in the liquid storage tank. The hot water heat exchanger is connected to the outside through cold and hot water circulation pipes. 2. The heat-supply air-energy energy-saving window according to claim 1, characterized in that: a floor heating heat exchanger is also arranged in the liquid storage tank, and the floor heating heat exchanger is connected to the outside through a floor heating water circulation pipe. 3. A heat-supply air-energy energy-saving window according to claim 2, characterized in that: the hot and cold water heat exchanger, the floor heating heat exchanger, and the refrigerant system heat exchange tubes are respectively provided with temperature probes, and the temperature The probe is controlled by an intelligent controller. 4 . The heat-supply air-energy energy-saving window according to claim 1 , characterized in that: a drainpipe is arranged beside the window frame, and the drainpipe is connected to the condenser.

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