CN217811789U - Energy-conserving curtain of formula of respiration photovoltaic - Google Patents

Abstract

The utility model discloses a formula of respiration photovoltaic energy-saving curtain wall, including outer glass curtain wall, inlayer glass curtain wall, ceiling and floor, the top of outer glass curtain wall is equipped with the upper portion air exit, the bottom is equipped with the lower part air intake, the top of inlayer glass curtain wall is equipped with inside air exit, the bottom with be provided with inside air intake, still be provided with the equipment compartment between floor and the ceiling, outer glass curtain wall includes outer glass, inlayer glass and photovoltaic cell board, setting through double-deck curtain wall, leave the layer of ventilating between the curtain, and through setting up air intake and air exit, make outdoor air can be in layer of ventilating and indoor formation air cycle, save refrigeration in summer, winter partial cost, through the glass structure and the equipment compartment's of outer glass curtain wall design, both can utilize photovoltaic cell board electricity generation, also can effectively avoid leading to the fact the overheated problem of glass because of photovoltaic cell board is overheated.

Description

Energy-conserving curtain of formula of respiration photovoltaic

Technical Field

The utility model relates to an energy-conserving curtain technical field especially relates to an energy-conserving curtain of formula of respiration photovoltaic.

Background

The curtain wall is also called as a hanging wall, is a building outer wall enclosure, is not bearing, is hung like a curtain, is a light wall with decorative effect commonly used by modern large and high-rise buildings, consists of a structural frame and an embedded plate, does not bear the load of a main structure and acts as a building enclosure structure, and appears in Europe in the 90 s, the curtain wall consists of two curtain walls, a relatively closed space is formed between the inner curtain wall and the outer curtain wall, air can enter from a lower air inlet and leave the space from an upper air outlet, so that the air in the space is in a flowing state, and heat also flows in the space, therefore, the double-layer curtain wall is also called as a curtain wall suction type.

The photovoltaic curtain wall belongs to the important application range of solar photovoltaic building integration, can be used as a part of a power generation system and a peripheral structure of a building, does not occupy extra space, does not generate any noise in the working process of the photovoltaic power generation system, and does not pollute the environment, so the photovoltaic curtain wall is widely used at present. Present widely used photovoltaic curtain is as shown in fig. 3, its main characterized in that changes traditional glass curtain's glass into photovoltaic glass, but photovoltaic curtain function is single, it is limited only to lean on photovoltaic curtain energy-conserving effect, only can utilize the light energy of solar energy, heat energy is but wasted, and respiratory curtain is because the effect on layer of ventilating, can save refrigeration in summer, the partial expense of heating in winter, it can effectively prevent to shine to set up the sunshade tripe at the layer of ventilating, respiratory curtain is energy-conserving about 50% than the individual layer curtain, be a new direction of solving the building energy conservation, consequently, need design a novel curtain, can combine photovoltaic curtain and respiratory curtain's advantage effectively.

SUMMERY OF THE UTILITY MODEL

In view of the problem of present photovoltaic curtain function singleness, the utility model provides an energy-conserving curtain of formula of breathing photovoltaic through setting up double-deck curtain with call up the layer, and outer curtain uses the photovoltaic curtain, can be when utilizing the photovoltaic curtain advantage, the advantage of the formula of breathing curtain of performance that also can be fine reaches fine energy-conserving effect.

In order to achieve the above object, the embodiments of the present invention adopt the following technical solutions:

the utility model provides a breathing type photovoltaic energy-saving curtain wall, includes outer glass curtain wall, inlayer glass curtain wall, ceiling and floor, outer glass curtain wall and inlayer glass curtain wall set up the skin of building sunny side, are equipped with the upper portion air exit between the top of outer glass curtain wall and the first day card, are equipped with the lower part air intake between the bottom of outer glass curtain wall and the first floor, are provided with inside air exit between the top of inlayer glass curtain wall and the first day card, are provided with inside air intake between the bottom of inlayer glass curtain wall and the first floor, still be provided with the equipment compartment between first floor and the second ceiling, outer glass curtain wall includes outer glass, inlayer glass and photovoltaic cell board, photovoltaic cell board sets up between outer glass and inlayer glass.

According to an aspect of the utility model, the upper portion air exit all is equipped with the electronic tripe curtain in wind gap with lower part air intake.

According to an aspect of the utility model, inside air exit and inside air intake department are provided with electronic air door.

According to the utility model discloses an aspect, still be provided with the electronic tripe curtain in layer of taking a breath between outer glass curtain wall and the inlayer glass curtain wall.

According to the utility model discloses an aspect, be provided with battery, control module and signal receiver in the equipment cabin, photovoltaic cell board is connected to the battery for control module, signal receiver, the electronic shutter blind in wind gap, electronic air door and the electronic shutter blind power supply in layer of taking a breath.

According to an aspect of the utility model, control module is used for controlling opening and closing of electronic venetian blind in wind gap, electronic air door and the electronic venetian blind in layer of taking a breath.

According to an aspect of the utility model, signal receiver is used for receiving the control command to the electronic venetian blind in wind gap, electronic air door and the electronic venetian blind in layer of taking a breath and forwards control module.

According to one aspect of the utility model, the outer surface of the outer glass is provided with a shockproof film.

According to an aspect of the utility model, photovoltaic cell panel's internal surface is provided with the support that extends inwards, the support butt in inlayer glass.

According to the utility model discloses an aspect, a plurality of louvres that run through inlayer glass are seted up to inlayer glass inner and outer surface.

The utility model discloses the advantage of implementing: the utility model provides a formula of breathing photovoltaic energy-saving curtain wall, including outer glass curtain wall, inlayer glass curtain wall, ceiling and floor, outer glass curtain wall and inlayer glass curtain wall set up the skin of building sunny side, are equipped with the upper portion air exit between the top of outer glass curtain wall and the first day card, are equipped with the lower part air intake between the bottom of outer glass curtain wall and the first floor, are provided with inside air exit between the top of inlayer glass curtain wall and the first day card, are provided with inside air intake between the bottom of inlayer glass curtain wall and the first floor, still be provided with the equipment cabin between first floor and the second ceiling, outer glass curtain wall includes outer glass, inlayer glass and photovoltaic cell panel, photovoltaic cell panel sets up between outer glass and inlayer glass, through the setting of double glazing wall, leaves the layer of taking a breath between the curtain to and through setting up air intake and air exit between inlayer curtain wall and ceiling, floor, make outdoor air can form air circulation in indoor, can save the part expense of refrigeration, summer, set up the tripe layer and can effectively prevent to shine the air intake and air exit through the glass curtain, through the solar energy-saving solar panel, and solar energy generation equipment through the overheated electricity generation equipment design of glass, and also can effectively utilize the solar heating solar cell panel, and solar energy generation equipment, and solar heating problem because of taking a solar energy generation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of an outer glass curtain wall according to the present invention;

figure 3 background art the utility model discloses a photovoltaic glass curtain wall.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, a respiratory photovoltaic energy-saving curtain wall, including outer glass curtain wall 1, inlayer glass curtain wall 2, ceiling and floor, its characterized in that, outer glass curtain wall 1 sets up the skin in the building sunny side with inlayer glass curtain wall 2, is equipped with upper portion air exit 61 between the top of outer glass curtain wall 1 and the first ceiling 31, is equipped with lower part air intake 62 between the bottom of outer glass curtain wall 1 and the first floor 41, is provided with inside air exit 63 between the top of inlayer glass curtain wall 2 and the first ceiling 31, is provided with inside air intake 64 between the bottom of inlayer glass curtain wall 2 and the first floor 41, still be provided with equipment compartment 5 between first floor 41 and the second ceiling 32, outer glass curtain wall 1 includes outer glass 11, inlayer glass 12 and photovoltaic cell panel 13, photovoltaic cell panel 13 sets up between outer glass 11 and inlayer glass 12.

In practical application, a certain distance is arranged between the outer layer glass curtain wall 1 and the inner layer glass curtain wall 2, and the distance is generally set to be 60-80cm.

In practical application, a ventilation layer is formed between the outer glass curtain wall 1 and the inner glass curtain wall 2, when the outdoor air temperature is lower than the indoor air temperature, the inner air outlet 63 and the inner air inlet 64 are opened, because the indoor temperature is higher than the outdoor temperature, the indoor air is in ascending air flow and enters the ventilation layer through the inner air outlet 63, and then is discharged from the upper air outlet 61, the outdoor air enters the ventilation layer through the lower air inlet 62, one part of the outdoor air entering the ventilation layer is discharged through the upper air outlet 61, and the other part of the outdoor air enters the room through the inner air inlet 64, so that the air forms air flow circulation in the ventilation layer and the room.

In practical application, when the outdoor air temperature is higher than the indoor temperature, open inside air exit 63 and inside air intake 64, because the indoor temperature is lower than the outdoor temperature, outdoor temperature is ascending air current and enters into the layer of taking a breath through lower air intake 62, later get into indoor through inside air intake 64, take a breath intraformational air current also is ascending state, and then can drive the indoor air and pass through inside air exit 63 and get into in the layer of taking a breath, indoor outdoor air that flows in through lower air intake, discharge through upper portion air exit 61, and then form indoor air current circulation.

In practical application, the upper air outlet 61 and the lower air inlet 62 are both provided with the electric air port blind 7, and the electric air port blind 7 can prevent light and mosquitoes from entering the ventilation layer.

In practical applications, the electric damper 8 is disposed at the internal air outlet 63 and the internal air inlet 64, and the electric damper 8 can close the internal air outlet 63 and the internal air inlet 64.

In practical application, still be provided with the electronic tripe curtain of layer of taking a breath 9 between outer glass curtain wall 1 and the inlayer glass curtain wall 2, when the electronic tripe curtain of layer of taking a breath 9 opens, can effectively block and get into indoor ultraviolet ray, guarantee indoor heat preservation, be favorable to energy-conservation.

In practical application, be provided with battery, control module and signal receiver in the equipment cabin 5, photovoltaic cell board 13 is connected to the battery, collects the sunlight through photovoltaic cell board to the storage battery, can take out the use when needs, can be for control module, signal receiver, the electronic tripe curtain 7 in wind gap, electronic air door 8 and the electronic tripe curtain 9 power supply in layer of taking a breath, also can assemble and transmit electric power through connecting other equipment.

In practical application, control module is connected with the battery, can control opening and closing of the electronic tripe curtain 7 in wind gap, electronic air door 8 and the electronic tripe curtain 9 in layer of taking a breath after starting through the battery power supply, and control module can select for use the singlechip, for example STM32F103C8T6.

In practical application, the signal receiver is connected with the control module, the signal receiver can select a Bluetooth module, a WiFi module, a Zigbee module, a 4G module or a 5G module, the signal receiver is used for receiving opening and closing instructions of the electric air port shutter 7, the electric air door 8 and the electric ventilation layer shutter 9 and transmitting the opening and closing instructions to the control module, and remote controller control using a mobile phone or the corresponding module can be realized by programming a program of the control module.

In practical application, the outer surface of the outer layer glass 11 is provided with a shockproof film 14, so that the glass can be prevented from being damaged by breakage to people in the case of earthquake, typhoon or foreign object impact, and the glass of the inner layer glass curtain wall can also be provided with the shockproof film.

In practical application, photovoltaic cell panel 13's internal surface is provided with support 15 that extends inwards, support 15 butt in inlayer glass 12 for form the heat dissipation chamber between photovoltaic cell panel 13 and the inlayer glass 12, the heat dissipation chamber can prevent effectively that photovoltaic cell panel 13 from overheated leading to the fact the harm to inlayer glass 12, and asbestos or foam can be chooseed for use to the material of support 15.

In practical application, a plurality of louvres 16 that run through inlayer glass 12 have been seted up to inlayer glass 12 internal and external surface, louvre 16 and heat dissipation chamber intercommunication, and the heat dissipation chamber can in time dispel the heat through the louvre, avoids photovoltaic cell board intensification too high, and the louvre is the circular port, and the louvre diameter can set up to 20mm.

In practical application, the surface of the outer layer glass 11 is concave-convex, so that light pollution can be prevented to a certain extent.

The utility model discloses the advantage of implementing: the utility model provides a breathing type photovoltaic energy-saving curtain wall, including outer glass curtain wall 1, inlayer glass curtain wall 2, ceiling and floor, be equipped with upper portion air exit 61 between the top of outer glass curtain wall 1 and the first ceiling 31, be equipped with lower part air intake 62 between the bottom of outer glass curtain wall 1 and the first floor 41, be provided with inside air exit 63 between the top of inlayer glass curtain wall 2 and the first ceiling 31, be provided with inside air intake 64 between the bottom of inlayer glass curtain wall 2 and the first floor 41, still be provided with equipment compartment 5 between first floor 41 and the second ceiling 32, outer glass curtain wall 1 includes outer glass 11, inlayer glass 12 and photovoltaic cell board 13, photovoltaic cell board 13 sets up between outer glass 11 and inlayer glass 12, through the setting of double glazing wall, leaves the layer of taking a breath between the curtain wall to and through setting up air intake and air exit between inlayer curtain wall and ceiling, floor, make outdoor air can form air cycle in outer layer and indoor, can save refrigeration, the partial expense of winter, set up the tripe layer of taking a breath and can prevent effectively to shine the solar panel through the solar protection device 13 and the overheated electricity generation problem that solar energy-saving solar cell board can also utilize, photovoltaic cell board 13, the overheated electricity generation equipment that can effectively.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are all covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a breathing type photovoltaic energy-saving curtain wall, includes outer glass curtain wall (1), inlayer glass curtain wall (2), ceiling and floor, its characterized in that, outer glass curtain wall (1) and inlayer glass curtain wall (2) set up the skin in the building sunny side, are equipped with upper portion air exit (61) between the top of outer glass curtain wall (1) and first day card (31), are equipped with lower part air intake (62) between the bottom of outer glass curtain wall (1) and first floor (41), are provided with inside air exit (63) between the top of inlayer glass curtain wall (2) and first day card (31), are provided with inside air intake (64) between the bottom of inlayer glass curtain wall (2) and first floor (41), still be provided with equipment cabin (5) between first floor (41) and second ceiling (32), outer glass curtain wall (1) includes outer glass (11), inlayer glass (12) and photovoltaic cell board (13), photovoltaic cell board (13) set up between outer glass (11) and inlayer glass (12).

2. The energy-conserving curtain of a kind of breathing type photovoltaic of claim 1, characterized by, the said upper air outlet (61) and lower air intake (62) are equipped with the electronic louver curtain of wind gap (7).

3. The energy-conserving curtain of formula of breathing photovoltaic of claim 1, characterized in that, be provided with electronic air door (8) in inside air exit (63) and inside air intake (64) department.

4. A respiratory photovoltaic energy-saving curtain wall according to claim 1, characterized in that an electric louver curtain (9) of an air exchange layer is arranged between the outer glass curtain wall (1) and the inner glass curtain wall (2).

5. A breathing photovoltaic energy-saving curtain wall as claimed in any one of claims 1 to 4, characterized in that a storage battery, a control module and a signal receiver are arranged in the equipment compartment (5), and the storage battery is connected with a photovoltaic cell panel (13) and is used for supplying power to the control module, the signal receiver, the electric air port shutter (7), the electric air door (8) and the electric ventilation layer shutter (9).

6. The energy-conserving curtain of formula of breathing photovoltaic of claim 5, characterized in that, the control module is used for controlling the electronic shutter blind (7) in wind gap, electronic air door (8) and electronic shutter blind (9) in layer of taking a breath open and close.

7. A respiratory photovoltaic energy-saving curtain wall according to claim 5, characterized in that the signal receiver is used for receiving control commands to the electric louvre blinds (7) of the air inlet, the electric air door (8) and the electric louvre blinds (9) of the air exchange layer and forwarding the control commands to the control module.

8. A respiratory photovoltaic energy-saving curtain wall as claimed in claim 1, characterized in that the outer surface of the outer glass (11) is provided with a shockproof film (14).

9. A respiratory photovoltaic energy-saving curtain wall according to claim 1, characterized in that the inner surface of the photovoltaic cell panel (13) is provided with inwardly extending brackets (15), said brackets (15) abutting against the inner glass (12).

10. The energy-conserving curtain wall of a type of respiration photovoltaic of claim 1, characterized in that, the inside and outside surface of the inner glass (12) is equipped with a plurality of louvres (16) that run through the inner glass (12).

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