Upward air curtain household type heat pump air conditioner driven by air and sun composite source

Abstract

The invention provides an upward air curtain household type heat pump air conditioner driven by an air and sun composite source. Firstly, a reflecting mirror, transparent blades and a fin black cavity are used for absorbing solar energy, air energy is absorbed through fins, and a solar energy absorber and an air fin evaporator can be integrally designed; secondly, the air and sun composite source household type heat pump air conditioner is constructed, and evaporation temperature is raised; thirdly, by means of unified heating of a vertical upward air curtain and a high-efficiency tail end type of the air conditioner, condensation temperature is lowered; fourthly, by reducing the circulation temperature difference, the heating capacity and the energy efficiency ratio of a heat pump are increased; and fifthly, solar energy is utilized in a high-efficiency and low-price optothermal conversion type to drive the heat pump, and the application threshold of the solar household type heat pump air conditioner is lowered.

Description

(1) Technical field [0001] The invention relates to an air-solar compound source driven upwind curtain household heat pump air conditioner. (2) Background technology [0002] The existing solar heat pump air conditioners mainly have two product forms: [0003] 1. The heat pump evaporator is designed as a solar panel absorber: it is made of double-layer aluminum plates painted black on the surface facing the light, and the distributor and circulation pipe of Freon heat pump working fluid are formed between the double-layer aluminum plates; among them, the black-coated aluminum plates are used to absorb the sun. light and provide heat for evaporation, while distributors and flow ducts are used to optimize the evaporation process in the heat pump cycle. Since the intensity of sunlight received by each square meter area does not exceed 1kW, it greatly limits the improvement of the heating capacity of the heat pump; in addition, since this form of evaporator has no fins, it can ...

AI Technical Summary

Problems solved by technology

Since the intensity of sunlight received by each square meter area does not exceed 1kW, it greatly limits the improvement of the heating capacity of the heat pump; in addition, since this form of evaporator has no fins, it can be used from the evaporator at night when there is no sunlight. The heat absorbed in the air is greatly reduced, resulting in a low utilization rate of the product, which can only be used to heat a small amount of domestic hot water during the day, and its heating capacity is much lower than that of an air source heat pump water heater

[0004] 2. The heat pump air conditioner and the solar panel are independently designed: the solar panel converts the received sunlight into alternating current through the inverter, which is used to drive compressors, fans, and circulating water pumps of various forms of heat pump air conditioners; however Since the intensity of sunlight received by each square meter area does not exceed 1kW, and the existing photoelectric conversion efficiency is extremely low, not only the area required for solar panels is very large, but also the investment required for solar panels is very large. Expensive; therefore difficult to commercialize at the current state of the art

[0006] 1. Buried pipe heating: Due to the heat storage and heat radiation through the floor, the condensation temperature can be reduced and the heat pump heating capacity and energy efficiency ratio can be improved; however, its disadvantages are as follows: (1) The material cost and installation cost of the buried pipe are relatively high; ( 2) The product must be assembled on site, and it is difficult to ensure the quality of the product when it is supplied in large quantities; (3) It is difficult to maintain the buried pipe; (4) In order to realize the air-conditioning function, it is necessary to add a fan coil unit to switch between the two terminals to improve Product Cost

[0007] 2. Fan coil unit: In order to realize the return air dehumidification of the air conditioner in summer, the indoor return air at 27°C is cooled to 15°C with a small air volume and a large temperature difference; however, when it is used for heating in winter, it faces the following difficulties: (1) The small circulating air volume corresponds to a large temperature difference between the supply air and the return air, which leads to a high condensation temperature and reduces the heating capacity and energy efficiency ratio of the heat pump, making it difficult to independently meet the heating application requirements in the northern severe cold regions; (2) wall-mounted and ceiling-embedded fan trays Tube: Since the air is returned from the roof and the air is supplied from the upper part, the upper part of the room is always circulated and heated and returned after thermal stratification; on the one hand, this increases the condensation temperature and reduces the heating capacity and energy efficiency ratio of the heat pump; on the other hand, the lower air The temperature is low, which reduces the heating effect; (3) Vertical cabinet type fan coil unit: due to the return air in the lower part and the horizontal air supply in the middle part, the return air in the lower part is always circulated and heated to improve the heating effect

[0009] 4. Vertically downward cold air curtain for air conditioners: block the penetration of hot air and reduce the cooling load of building air conditioners; but because the air curtain is formed vertically downward, the effect of heating operation is not ideal

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