CN202788534U - Independent type solar energy air flow energy window - Google Patents

Abstract

The utility model provides an independent type solar energy air flow energy window, belongs to the field of heating and cooling equipment parts, and particularly relates to a solar energy heat collection device which is used for collecting solar energy to reduce heat supply energy consumption. The independent type solar energy air flow energy window comprises a heat collection window (1), a heat exchange box (3), a fin heat exchanger (4) and a draught fan (6), wherein an air outlet (5) of the heat collection window (1) is connected with an air inlet of the heat exchange box (3), the heat collection window (1) is of a hollow structure, an air inlet (2) is formed in the bottom of the heat collection window (1), and the air outlet (5) is formed in the top of the heat collection window (1); and the air inlet is formed in the rear side of the heat exchange box (3), an air outlet is formed in the front side of the heat exchange box (3), and the draught fan (6) and the fin heat exchanger (4) which are arranged front and back are fixed between the air inlet and the air outlet of the heat exchange box (3) through bolts. The independent type solar energy air flow energy window is of an independent whole structure, is simple to manufacture and convenient to install, and can be well matched with any household or collective heating and cooling equipment.

Description

Stand alone type solar air stream energy window

Technical field

Stand alone type solar air stream energy window belongs to changes in temperature equipment part field, is specifically related to a kind of for collecting solar energy to reduce the solar energy heat collector of heating energy consumption.

Background technology

At present, the principle that air-conditioning heats winter in the conventional art mainly is to utilize the characteristic of refrigerant evaporation gasification heat absorption (refrigeration), condensation liquefaction heat release (heating), the heat energy that produces by heating wire when environment temperature is low is auxiliary to be heated indoor cold air, because north outside temperature in winter is lower, be subject to low temperature effect, the air-conditioner outdoor unit heating efficiency is low, particularly when outside temperature is lower than subzero 5 ℃, air-conditioner outdoor unit easily produces frost and heating efficiency is very low, causes air-conditioning to work.At this moment, mainly come auxiliary heating by electrical heating, the air-conditioning heating energy consumption is higher, and Energy Efficiency Ratio namely consumes 1 kilowatt electric power less than 1, produces the heat energy less than 1 kilowatt, and therefore, energy consumption height and effect were undesirable when heated winter.

But the various changes in temperature equipment that come into operation are now reequiped in the hope of can utilize outside supplementary means to guarantee the normal operation of off-premises station the time again, often need one to one Site Design repacking, need to drop into more manpower financial capacity.The utility model aims to provide a kind of free-standing overall structure, can with existing changes in temperature coordinative composition of equipments, free-standing solar air stream energy window easy for installation.

Summary of the invention

The technical problems to be solved in the utility model is: overcome the deficiencies in the prior art, provide a kind of easy to assembly, to collect solar energy efficient high, can reduce the free-standing solar air stream energy window of changes in temperature equipment energy consumption.

The technical scheme that its technical problem that solves the utility model adopts is: this stand alone type solar air stream energy window, comprise the thermal-arrest window, it is characterized in that: described thermal-arrest window is box hollow structure, and the bottom is provided with air inlet port, and top or top, side are provided with the gas outlet; Thermal-arrest window inner transverse is interval with multiple tracks air conducting dividing plate.

Preferably, described thermal-arrest window is connected by the air inlet port of air channel with the off-premises station of changes in temperature equipment.The hot air that this moment, the thermal-arrest window obtained directly by the heat exchanger of company's off-premises station heat is provided, carry out interchange of heat.

Preferably, the top of described thermal-arrest window or a side are installed heat exchange box; Air inlet port is established in the back of described heat exchange box, and the front sets out gas port, is fixed with finned heat exchanger near air inlet port one side in the heat exchange box, and gas outlet one side is fixed with blower fan; Finned heat exchanger connects with changes in temperature equipment off-premises station by two refrigerant turnover pipelines.

Concrete, heat exchange box is installed in top or a side of thermal-arrest window, and the air inlet port of heat exchange box is connected by the air channel with the gas outlet of thermal-arrest window or directly docking.When directly docking with the gas outlet, can with the glass cement slit that bonds, reveal to prevent hot blast air inlet port.

Preferably, the sheet material that is provided with curved face type in the described heat exchange box is made deflector, and deflector one end is at heat exchange box air inlet port middle part, and the other end is at the middle part near finned heat exchanger, and deflector is fixed on the casing of heat exchange box.The effect of deflector is for hot air forms drainage, with the even guide fin heat exchanger of hot air, in order to better realize exchange heat between hot air and finned heat exchanger.

Concrete, described finned heat exchanger is in parallel with the heat exchanger in the changes in temperature equipment off-premises station by refrigerant turnover pipeline.

Concrete, described blower fan is axial fan.Install and fix conveniently, low price can satisfy various hot air flowrate requirements.

Concrete, the heat sink that is coated with the solar absorption selective coating that is fixed on the rear plate is arranged in the described thermal-arrest window.Can better absorbing heat, the air that flows through in the heating thermal-arrest window.

Concrete, be provided with retractable solar protection devices in the described thermal-arrest window, preferred, solar protection devices is high reflective material.When do not need to add hot air summer, heat sink can be hidden, so that fin radiator has the air heat radiation of normal temperature.

Described thermal-arrest window is self-contained unit, can design different big or small forms areas with sunlight strength according to the different weather of different regions, to realize better heating air.

Compared with prior art, the beneficial effect that free-standing solar air stream energy window of the present utility model has is: energy window described in the utility model is free-standing overall structure, make simple, easy for installation, batch production that can batch production, can be well agree with the changes in temperature equipment of any family or collective type, can be to the easily supporting repacking of mounted equipment, also can be directly and changes in temperature coordinative composition of equipments production integral installation.The utility model energy window can absorb efficiently solar energy and make hot air, provides enough energy during for changes in temperature equipment heating, can directly realize the heating in winter when heat winter, and it is auxiliary to need not heating wire, greatly reduces energy consumption, realizes energy-saving and emission-reduction.

Description of drawings

Fig. 1 is the left TV structure schematic diagram of air outlet formula on the utility model stand alone type solar air stream energy window.

Fig. 2 is the utility model stand alone type solar air stream energy window right air outlet formula master's TV structure schematic diagram (without blower fan and heat exchange box header board).

Fig. 3 is the right air outlet formula of the utility model stand alone type solar air stream energy window plan structure schematic diagram.

Wherein: 1, thermal-arrest window 2, air inlet port 3, heat exchange box 4, finned heat exchanger 5, gas outlet 6, blower fan 7, deflector.

Fig. 1 ~ 3rd, the most preferred embodiment of the utility model stand alone type solar air stream energy window is described further below in conjunction with 1 ~ 3 pair of the utility model of accompanying drawing.

The specific embodiment

Embodiment 1

With reference to accompanying drawing 1: air outlet formula on the utility model stand alone type solar air stream energy window comprises thermal-arrest window 1, heat exchange box 3, finned heat exchanger 4 and blower fan 6.Air inlet port 2 is arranged at described thermal-arrest window 1 bottom, sets out gas port 5 on the upper face of top, is located in gas outlet 5 and the heat exchange box 3 that back lower place air inlet port directly docks and with the glass adhesive sealing, is convenient the connection, and heat exchange box 3 is fixed on thermal-arrest window 1 top.There is the curved deflector 7 on fixing heat exchange box 3 casings at heat exchange box 3 air inlet port places, can evenly pass through from finned heat exchanger 4 is interior to guarantee the warm air in the forms.Be provided with blower fan 6 before the heat exchange box 3 inner fin heat exchangers 4, air inducing before forming.

Described thermal-arrest window 1 is case structure, is provided with diaphragm in it to prolong the air heated time.

In heat exchange box 3 with hot air in thermal energy transfer to finned heat exchanger 4, blower fan 6 wherein provides power, and the air inlet port 2 of air from thermal-arrest window 1 bottom sucked, and blows out at the air outlet of heat exchange box 3.

Finned heat exchanger 4 connects independent heat exchanger as off-premises station by two refrigerant turnover pipelines with changes in temperature equipment off-premises station.The utility model device is in parallel with the heat exchanger in the off-premises station, and it is hot standby to obtain the heat transferred changes in temperature.

Pack up solar protection devices during changes in temperature equipment heating winter, allows heat sink absorb enough heats.When summer, changes in temperature equipment freezed, solar protection devices is launched, solar energy reflection is fallen, normal temperature air does not affect the finned heat exchanger heat radiation.

The free-standing solar air stream energy window of described accompanying drawing 1 is fit to be installed in the sufficient metope of installing space or the roof, inclined-plane of building.The hot air of this device is not carried in the long distance by the air channel, can effectively prevent thermal loss.

Embodiment 2

With reference to accompanying drawing 2 ~ 3: the right air outlet formula of the utility model stand alone type solar air stream energy window, gas outlet 5 is located on the top right panel face of thermal-arrest window 1, directly dock with the air inlet port of heat exchange box 3, and with the glass cement sealing, heat exchange box 3 air inlet ports is driveed in the left back; Finned heat exchanger 4 connects with changes in temperature equipment off-premises station by two refrigerant turnover pipelines, and the heat exchanger of off-premises station self is in parallel; Heat exchanger transducing when being responsible for heating winter by valve regulated the utility model, the heat exchanger transducing when former heat exchanger is responsible for freezing summer.Other device and the upper air outlet formula of annexation with accompanying drawing 1 ~ 2.This kind device is fit to be installed in the sufficient metope in space or the roof of building.In order to make thermal-arrest window 1 can better accept solar irradiation, can fixedly between thermal-arrest window and horizontal plane 50 ° ~ 70 ° angle be arranged with bracing frame when being installed in plane roof.The hot air of this device is no longer carried by the long distance in air channel, prevents thermal loss.

Embodiment 3

Device and annexation are with embodiment 1, and difference is that gas outlet 5 is connected by the air channel with the air inlet port of heat exchange box 3.This kind device is fit to be fixed on the Chaoyang metope of building.Can adjust flexibly by the air channel distance of thermal-arrest window and heat exchange box when not being very sufficient in the space.

Embodiment 4

Device and annexation are with embodiment 2, and difference is that gas outlet 5 is connected by the air channel with the air inlet port of heat exchange box 3.This kind device is fit to be fixed on the Chaoyang metope of building.Can adjust flexibly by the air channel distance of thermal-arrest window and heat exchange box when not being very sufficient in the space.

Embodiment 5

The thermal-arrest window 1 as described in Example 1, and the gas outlet of thermal-arrest window connects the air inlet port of common changes in temperature equipment off-premises station by the air channel.This kind device is fit to mounted changes in temperature equipment is reequiped.

The above, it only is preferred embodiment of the present utility model, be not to be the restriction of the utility model being made other form, any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the equivalent embodiment of equivalent variations.But every technical solutions of the utility model content that do not break away to any simple modification, equivalent variations and remodeling that above embodiment does, still belongs to the protection domain of technical solutions of the utility model according to technical spirit of the present utility model.

Claims (7)

1. free-standing solar air stream energy window comprises thermal-arrest window (1), it is characterized in that: described thermal-arrest window (1) is box hollow structure, and the bottom is provided with air inlet port (2), and top or top, side are provided with gas outlet (5); Thermal-arrest window (1) inner transverse is interval with multiple tracks air conducting dividing plate.

2. free-standing solar air stream energy window according to claim 1, it is characterized in that: described thermal-arrest window (1) is connected by the air inlet port of air channel with the off-premises station of changes in temperature equipment.

3. free-standing solar air stream energy window according to claim 1 is characterized in that: the top of described thermal-arrest window (1) or side installation heat exchange box (3); Air inlet port is established in the back of described heat exchange box (3), and the front sets out gas port, is fixed with finned heat exchanger (4) near air inlet port one side in the heat exchange box (3), and gas outlet one side is fixed with blower fan (6); Finned heat exchanger (4) connects with changes in temperature equipment off-premises station by two refrigerant turnover pipelines.

4. free-standing solar air stream energy window according to claim 3, it is characterized in that: heat exchange box (3) is installed in top or a side of thermal-arrest window (1), and the air inlet port of heat exchange box (3) is connected by the air channel with the gas outlet (5) of thermal-arrest window (1) or directly docking.

5. according to claim 3 or 4 described free-standing solar air stream energy windows, it is characterized in that: the sheet material that is provided with curved face type in the described heat exchange box (3) is made deflector (7), deflector (7) one ends are at heat exchange box (3) air inlet port middle part, the other end is at the middle part near finned heat exchanger (4), and deflector (7) is fixed on the casing of heat exchange box (3).

6. free-standing solar air stream energy window according to claim 3 is characterized in that: described finned heat exchanger (4) is in parallel with the heat exchanger in the changes in temperature equipment off-premises station by refrigerant turnover pipeline.

7. free-standing solar air stream energy window according to claim 3, it is characterized in that: described blower fan (6) is axial fan.