CN202689886U - Building integrated energy window - Google Patents

Abstract

The utility model discloses a building integrated energy window, belongs to the technical field of doors and windows of building houses and particularly relates to a building integrated energy window used for collecting solar energy and reducing energy consumption of air conditioners. The building integrated energy window is composed of a window frame, an inner layer window sash, an outer layer window sash and a lateral window and is characterized in that an air inlet (7) capable of being closed is arranged on the lower portion of the outer layer window sash, an air outlet (8) is arranged on the upper portion of the outer layer window sash, a fin heat exchanger (3) and a fan (4) are fixed on the upper portion of a window body (1) corresponding to the air outlet (8), the fin heat exchanger (3) is connected with a refrigerant inlet and outlet of a main machine of a cold-warm device through an upper refrigerant inlet and outlet (9) and a lower refrigerant inlet and outlet (10), and a retractable heat absorption device is arranged in the window body (1). According to the building integrated energy window, an energy input device of the air conditioner is organically combined with the window body, so that flowing air in the window body can be effectively absorbed to collect solar energy, and energy consumption of the air conditioner is reduced. The building integrated energy window is compact in structure and convenient to maintain and does not influence attractive appearance of buildings.

Description

The architecture-integral energy window

Technical field

The architecture-integral energy window belongs to the building window technology field, is specifically related to a kind of for collecting solar energy, the architecture-integral energy window of reduction air conditioning energy consumption.

Background technology

When air-conditioning heats winter, because winter, outside temperature was lower, need to utilize that heat energy that heating wire produces is auxiliary to carry out heat supply to indoor, but in the weather below 0 ℃, be subject to low temperature effect, during air-conditioning heating temperature raising slow, when outside temperature is lower than subzero 5 when spending, air-conditioner outdoor unit easily produces frost, causes air-conditioning to work.It is higher to cause heating energy consumption, and Energy Efficiency Ratio does not reach 1, namely consumes 1 kilowatt electric power, does not produce 1 kilowatt heat energy, and therefore, the actual heating energy efficiency ratio of air-conditioning is very low, and its comfort level and heating effect are all undesirable.But in northerly winter, sunny weather is in the majority, if can effectively collect solar energy, the air themperature of air-conditioning air intake is raise, can the heat of outdoor hot air be moved on to by refrigerant indoorly, this will reduce the electric energy consumption of air-conditioning greatly, improve the heating efficiency of air-conditioning.

The most solar energy that adopt of solar facilities in the market directly heat water, and solar energy water collecting equipment volume is large, and installation difficulty is large, and how high-rise building does not allow to use, this drawback caused solar water heater be limited utilize the corresponding life energy consumption that increased.

The height of high-rise building is more and more higher at present, in the built-up city life, for the daylighting that guarantees to build good, roomy bright building forms are more and more liked by people, but people have also brought many problems when enjoying fine view and good daylighting: with respect to building masonry wall, the building forms are excessively thin, are unfavorable for the warming of house in winter; In order to address this problem, adopt is arranged at heating installation under the building forms more in architectural process, but the generally use owing to panorama French window and floor heating in the recent building, it is very fast to tend to cause in the room in winter building forms place heat to run off, not only can reduce interior temperature, also can cause in the room temperature uneven, sometimes cold and sometimes hot, be unfavorable for that the occupants's is healthy.

The present invention directly acts on air with solar energy, by hot air and air-conditioning heat exchange, improve air-conditioning heating efficient, reach and realize energy-conservation purpose, simultaneously heat collector and building forms are combined as a whole, have overcome the installation question of the solar energy heat collection equipment of high-rise building.

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 simple in structure, can effectively collect solar heat, and can directly replace common building thing forms, directly and the architecture-integral energy window of building integrative installation technology.

The technical scheme that its technical problem that solves the utility model adopts is: this architecture-integral energy window, comprise forms, described forms are by window frame, inner layer sash, outer layer leaf and side window form, it is characterized in that: described outer layer leaf bottom is provided with air intake to be opened/closed, outer layer leaf top is provided with air outlet, corresponding air outlet rear, forms top is fixed with finned heat exchanger and blower fan, finned heat exchanger is imported and exported by the top refrigerant and refrigerant import and export in below connect with the import and export of changes in temperature device Host refrigerant, the finned heat exchanger below is provided with drip tray, drip tray one side is connected with overflow pipe, is provided with retractable heat sink in the forms.Described inner layer sash is common plug-type sash, is convenient to daily ventilation and uses.The drip tray bottom is attached with heat insulating material.

Described blower fan adopts cross flow fan, installs near air outlet and forms front air inducing, and described finned heat exchanger mounted angle matches with the assembling inclination angle.

Preferably, described finned heat exchanger mounted angle is 60 °～70 °.

Described heat sink is the curtain of installing near inner layer sash in the forms, and described curtain adopts the heat absorption cloth to make, and is interval with light transmission strip on the curtain.

Described curtain is the curtain of controlling manually or automatically.

Described air outlet adopts grid type.

Described air intake is plug-type or outer pushing-type, has been arranged side by side a plurality of.

Described forms inside bottom is provided with buckle, and curtain can be flexibly connected with buckle.

Compared with prior art, the beneficial effect that architecture-integral energy window of the present utility model has is: air conditioner energy input unit and forms are organically combined, effectively absorb the solar energy that moving air obtains in the forms, reduce air conditioning energy consumption.Drip tray in the energy window and finned heat exchanger and blower fan are combined, and compact conformation be convenient to safeguard, and it is attractive in appearance not affect building; Drip tray is connected with overflow pipe, and thawing water can smooth and easy flowing out in user's storm sewer when guaranteeing unit defrost in winter.Heat-absorbing material is combined with curtain in the window, in heat absorption simultaneously, do not affect forms daylighting.Simultaneously, architecture-integral energy window of the present utility model is when heat winter, curtain absorbs solar energy by the heat absorption cloth, the forms internal temperature is raise, solved the use of and floor heating because of the building window bulk area excessive in winter, and the indoor heat that causes runs off and the phenomenon of indoor temperature distribution inequality.

Description of drawings

Fig. 1 is the utility model architecture-integral energy window master TV structure schematic diagram.

Fig. 2 is the utility model architecture-integral energy window side-looking structural representation.

Wherein: 1, forms; 2, drip tray; 3, finned heat exchanger; 4, blower fan; 5, curtain; 6, overflow pipe; 7, air intake; 8, air outlet; 9, the top refrigerant is imported and exported; 10, the below refrigerant is imported and exported.

Fig. 1～2nd, the most preferred embodiment of the utility model architecture-integral energy window is described further below in conjunction with 1～2 pair of the utility model of accompanying drawing.

The specific embodiment

With reference to accompanying drawing 1:

This architecture-integral energy window, formed by forms 1, described forms 1 are by window frame, inner layer sash, outer layer leaf and side window form, inner layer sash is common plug-type sash, the outer layer leaf bottom is provided with air intake 7 to be opened/closed, outer layer leaf top is provided with air outlet 8, corresponding air outlet 8 rears, forms 1 top are fixed with finned heat exchanger 3 and blower fan 4, finned heat exchanger 3 is imported and exported with changes in temperature device Host refrigerant by the import and export 9 of top refrigerant and the import and export 10 of below refrigerant and is connected, finned heat exchanger 3 belows are provided with drip tray 2, drip tray 2 one sides are connected with overflow pipe 6, are provided with retractable heat sink in the forms 1.Blower fan 4 adopts cross flow fan, installs near air outlet 8 and forms front air inducing, and described finned heat exchanger 3 mounted angles match with blower fan 4 mounted angles.Finned heat exchanger 3 mounted angles are 60 °～70 °.Heat sink is the forms 1 interior curtain 5 of installing near inner layer sash, and described curtain 5 adopts the heat absorption cloth to make, and on the interval light transmission strip is arranged on the curtain 5.Curtain 5 is the curtain of controlling manually or automatically.Air outlet 8 adopts grid type.Air intake 7 is plug-type or outer pushing-type, has been arranged side by side a plurality of.Forms 1 inside bottom is provided with buckle, and curtain 5 can be flexibly connected with buckle.

Operating principle and the course of work are as follows:

Heat winter

Architecture-integral energy window of the present utility model is installed on the building double window, and the inner layer sash of described forms 1 is the interior window of building double window.The outer layer leaf of described forms 1 is the exterior window of building double window.

During use, plugged, it is inboard to make curtain 5 hang on forms 1 rear plate, and curtain 5 absorbs solar energy by the heat absorption cloth, and forms 1 internal temperature is raise.Start blower fan 4, air enters forms 1 inside through air intake 7, become hot air by the air heat that will circulate in forms 1 successively, hot air is through finned heat exchanger 3, and the hot air in refrigerant and the finned heat exchanger 3 carries out heat exchange, and refrigerant temperature raises, refrigerant after the rising enters main frame, HTHP cold media gas after the compression enters heat exchanger, is used for indoor heating, and the cold air after the interchange of heat is discharged from air outlet 8.

Freeze summer:

Plugged starts the curtain drive motors, makes curtain 5(heat absorption cloth) roll, start blower fan 4, outdoor air enters forms 1 inside through air intake 7, and forms 1 do not absorb solar energy, therefore ventilating air is suitable with outside air temperature in the forms, does not affect the discharging of refrigerant heat.

Heat the thawing water that produces in the defrost process, can be accepted by drip tray 2, and drain into the architecture-integral energy window by overflow pipe 6.

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 (8)

1. architecture-integral energy window, comprise forms (1), described forms (1) are by window frame, inner layer sash, outer layer leaf and side window form, it is characterized in that: described outer layer leaf bottom is provided with air intake to be opened/closed (7), outer layer leaf top is provided with air outlet (8), corresponding air outlet (8) rear, forms (1) top is fixed with finned heat exchanger (3) and blower fan (4), finned heat exchanger (3) imports and exports (9) by the top refrigerant and below refrigerant import and export (10) connect with the import and export of changes in temperature device Host refrigerant, finned heat exchanger (3) below is provided with drip tray (2), drip tray (2) one sides are connected with overflow pipe (6), and forms are provided with retractable heat sink in (1).

2. architecture-integral energy window according to claim 1, it is characterized in that: described blower fan (4) adopts cross flow fan, near air outlet (8) the front air inducing of formation is installed, described finned heat exchanger (3) mounted angle matches with blower fan (4) mounted angle.

3. architecture-integral energy window according to claim 1 and 2, it is characterized in that: described finned heat exchanger (3) mounted angle is 60 °～70 °.

4. architecture-integral energy window according to claim 1, it is characterized in that: described heat sink is the curtain (5) of installing near inner layer sash in the forms (1), described curtain (5) adopts the heat absorption cloth to make, and curtain is interval with light transmission strip on (5).

5. architecture-integral energy window according to claim 4 is characterized in that: the curtain of described curtain (5) for controlling manually or automatically.

6. architecture-integral energy window according to claim 1 is characterized in that: described air outlet (8) employing grid type.

7. architecture-integral energy window according to claim 1 is characterized in that: described air intake (7) is plug-type or outer pushing-type, has been arranged side by side a plurality of.

8. architecture-integral energy window according to claim 1, it is characterized in that: described forms (1) inside bottom is provided with buckle, and curtain (5) can be flexibly connected with buckle.

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