CN210598656U - Photovoltaic energy-saving curtain wall - Google Patents

Abstract

The utility model relates to an energy-conserving curtain of photovoltaic, including wall body and glass curtain wall, glass curtain wall's upper and lower both ends are provided with wind gap one and wind gap two respectively, the upper and lower both ends of wall body are provided with wind gap three and wind gap four, be provided with the ventiduct between wall body and glass curtain wall, wind gap one, wind gap two, wind gap three all communicates with the ventiduct with wind gap four, be provided with the fan in the wind gap one, wind gap one is provided with the exterior window with the opening edge rotation of wind gap two, wind gap three is provided with the interior window with the opening edge rotation of wind gap four, be provided with the first pole that supports between the interior window that is located the exterior window in wind gap one and wind gap three, be provided with the second between the interior window that. By using the photovoltaic energy-saving curtain wall, people can conveniently close the outer window when raining, and rainwater is prevented from entering the fan.

Description

Photovoltaic energy-saving curtain wall

Technical Field

The utility model relates to a solar photovoltaic building integration technical field especially relates to an energy-conserving curtain of photovoltaic.

Background

The photovoltaic curtain wall belongs to the important application range of solar photovoltaic building integration, and has the advantages of energy conservation, environmental protection, attractiveness and the like. However, in the application process of the photovoltaic curtain wall, the photovoltaic curtain wall is low in photoelectric conversion efficiency and relatively short in service life, and can cause high room temperature in summer, the air conditioner load is large, and energy is wasted.

In the prior art, a Chinese patent with an issued publication number of CN207934266U is provided. The energy-saving photovoltaic curtain wall comprises a solar power generation plate, a glass curtain wall and a wall body; the glass curtain wall is fixed on the outer side of the wall body; the solar power generation plate is nested in the glass curtain wall; the upper end and the lower end of the glass curtain wall are respectively provided with a first air port and a second air port; the upper end and the lower end of the wall body are respectively provided with a third air port and a fourth air port; an air duct is arranged between the glass curtain wall and the wall body; the air inlet I, the air inlet II, the air inlet III and the air inlet IV are communicated with the ventilation duct; the first air port is connected with the vertical air duct; a fan is arranged in the vertical air duct; the heat channel is combined with the photovoltaic curtain wall assembly, and the temperature of the photovoltaic curtain wall is effectively reduced by utilizing the chimney effect formed in the heat channel and the forced convection heat transfer formed by the installed fan, so that the photoelectric conversion efficiency of the photovoltaic curtain wall is improved, and the energy consumption of a building is reduced.

However, the utility model discloses an in-process when using, if after raining, the rainwater then through wind gap one with wind gap two get into vertical wind channel and ventiduct in, after fan contact rainwater, probably lead to the short circuit, and the fan under the condition of long-term contact rainwater, can reduce the life of fan.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving curtain of photovoltaic has and is convenient for shelter from the advantage of rainwater for the fan.

The above object of the present invention can be achieved by the following technical solutions:

the photovoltaic energy-saving curtain wall comprises a wall body and a glass curtain wall, wherein a first air port and a second air port are respectively arranged at the upper end and the lower end of the glass curtain wall, a third air port and a fourth air port are arranged at the upper end and the lower end of the wall body, a ventilation channel is arranged between the wall body and the glass curtain wall, the first air port, the second air port, the third air port and the fourth air port are communicated with the ventilation channel, a fan is arranged in the first air port, an outer window is arranged on the opening edge of the first air port and the opening edge of the second air port in a rotating mode, an inner window is arranged on the opening edge of the third air port and the opening edge of the fourth air port in a rotating mode, a first abutting rod located below the fan is arranged between the outer window of the first air port and the inner window of the third air port in a rotating mode, a second abutting rod is arranged between the outer window of the second air port and the inner window of the fourth air port in a rotating mode, and two ends of the Connecting; when the two inner windows move towards the direction close to the air opening three and the air opening four, the two outer windows move towards the direction far away from the air opening one and the air opening two.

When the technical scheme is implemented, two inner windows are opened respectively during raining, the two inner windows rotate to drive the first abutting rod and the second abutting rod to move, the first abutting rod moves to drive the outer window rotationally connected with the first abutting rod to close, the second abutting rod moves to drive the outer window rotationally connected with the second abutting rod to close, the fan is blocked by the outer window, and rainwater cannot enter the ventilation duct through the first air opening and the second air opening; when not raining, close two interior windows respectively, two interior windows rotate and drive first butt pole and second butt pole and remove, and first butt pole removes and drives the outer window of being connected rather than rotating and open, and second butt pole drives the outer window of being connected rather than rotating and opens, opens the fan, and under the effect of fan, wind gap one forms circulation of air with the wind gap two to reduce the temperature of glass curtain wall and wall body.

Furthermore, a connecting rod is arranged between the first abutting rod and the second abutting rod, and two ends of the connecting rod in the length direction are respectively connected with the first abutting rod and the second abutting rod.

Implement above-mentioned technical scheme, when rotating the interior window that is located wind gap three, the interior window rotates and drives first butt pole and remove, and first butt pole removes the outer window that the butt is located wind gap one and rotates, and drives the second butt pole through the connecting rod and remove, then rotates interior window and the outer window of being connected with the both ends of second butt pole length direction, and along with the removal of second butt pole and rotate. Through the arrangement of the connecting rod, when one inner window is rotated, the other inner window and the two outer windows can be rotated at the same time.

Further, an inner concave platform for placing the inner window is arranged on the wall body, and an outer concave platform for placing the outer window is arranged on the glass curtain wall.

By implementing the technical scheme, the inner window can be flush with the surface of the wall body when placed on the inner concave platform through the arrangement of the inner concave platform and the outer concave platform; when the outer window is placed on the outer concave table, the outer window can be flush with the surface of the glass curtain wall. Through the arrangement, the attractiveness of the wall body and the glass curtain wall can be enhanced.

Further, one surface of the outer window facing the outer concave platform is provided with a sealing element along the circumferential direction of the outer window.

Implement above-mentioned technical scheme, through the setting of sealing member, can improve the leakproofness that outer window seals outer concave station, further avoid the rainwater to get into in wind gap one and the wind gap two.

Furthermore, be provided with on the interior window and be used for being fixed in the first mounting on the concave station, be provided with on the interior window and be used for being fixed in with wind gap three or wind gap four between gapped second mounting with the interior window.

When the technical scheme is implemented, the inner window is closed, and the first fixing piece is operated, so that the inner window is fixed at the closed position, and the outer window is opened at the moment; and opening the inner window, operating the second fixing piece, fixing the inner window at the opened position, and closing the outer window at the moment.

Further, first mounting is including sliding the gleitbretter that sets up in the deviation wind gap three or four one sides in the wind gap of interior window, the bottom of interior window is provided with the gliding spout that supplies the gleitbretter, spout length direction's one end is provided with the first through-hole that supplies the gleitbretter roll-off, be provided with the second through-hole that aligns with first through-hole on the lateral wall of interior concave station.

By implementing the technical scheme, the inner window is closed, the sliding sheet slides into the second through hole through the first through hole, and then the inner window positioned at the third air port is fixed in a closed state.

Further, the second mounting includes the bracing piece, the one side of interior window orientation exterior window is provided with the holding tank that is used for holding the bracing piece, bracing piece length direction's one end is rotated and is set up in the holding tank, but the one end butt that the holding tank was kept away from to the bracing piece is on the lateral wall of indent platform orientation exterior window one side.

By implementing the technical scheme, the inner windows at the three positions of the air opening are opened, the supporting rods in the accommodating grooves are rotated out, and when the supporting rods are rotated to abut against the side wall of the inner concave platform, the inner windows at the three positions of the air opening are fixed in an opening state.

Further, the one side that the gleitbretter deviates from the spout is provided with the plectrum perpendicularly, the plectrum sets up in the gleitbretter and keeps away from the one end of first through-hole.

According to the technical scheme, the sliding sheet is convenient for workers to pull through the shifting sheet.

To sum up, the utility model discloses following beneficial effect has:

the first butt joint rod and the second butt joint rod are arranged, so that the outer window can be opened when the inner window is pushed to be closed, and the outer window is closed when the inner window is opened, so that people can close or open the outer window conveniently;

and secondly, the openings at the first air opening and the second air opening can be plugged through the arrangement of the outer window, so that rainwater is prevented from entering the ventilation channel.

Drawings

Fig. 1 is a schematic structural view of the whole of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the glass curtain wall and the wall body of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic structural view of the inner window at three positions of the tuyere of the present invention;

fig. 5 is a schematic structural view for showing the opening of the inner window of the present invention.

Reference numerals: 1. a wall body; 11. a third air port; 12. a fourth air port; 13. an inner window; 131. a chute; 1311. a first through hole; 132. accommodating grooves; 14. an inner concave platform; 141. a second through hole; 2. a glass curtain wall; 21. a first air port; 211. a fan; 212. a supporting seat; 22. a second air port; 23. an outer window; 231. a seal member; 24. an outer concave platform; 3. an air duct; 4. a connecting rod; 41. a first abutting rod; 42. a second butting rod; 5. sliding blades; 51. a shifting sheet; 6. a support rod.

Detailed Description

The technical solution of the embodiment of the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the photovoltaic energy-saving curtain wall comprises a wall body 1 and a glass curtain wall 2, wherein the wall body 1 is arranged on one side close to the indoor space, the glass curtain wall 2 is arranged on one side of the wall body 1 deviating from the indoor space, a first air opening 21 and a second air opening 22 are respectively arranged at the upper end and the lower end of the glass curtain wall 2, a third air opening 11 and a fourth air opening 12 are arranged at the upper end and the lower end of the wall body 1, a ventilation duct 3 is arranged between the wall body 1 and the glass curtain wall 2, and the first air opening 21, the second air opening 22, the third air opening 11. The fan 211 is arranged at the opening of the first air opening 21, the supporting seat 212 used for supporting the fan 211 is arranged at the opening edge of the first air opening 21, and two ends of the supporting seat 212 are vertically connected with the inner side wall of the opening edge of the first air opening 21.

A fan 211 is arranged in the first air opening 21, outer windows 23 are hinged to the top ends of the opening edges of the first air opening 21 and the second air opening 22, and the two outer windows 23 can respectively block the first air opening 21 and the second air opening 22; the top ends of the opening edges of the third tuyere 11 and the fourth tuyere 12 are hinged with inner windows 13, and the two inner windows 13 can respectively block the third tuyere 11 and the fourth tuyere 12. A first abutting rod 41 positioned below the supporting seat 212 is arranged between the outer window 23 of the first air opening 21 and the inner window 13 of the third air opening 11, and a second abutting rod 42 is arranged between the outer window 23 of the second air opening 22 and the inner window 13 of the fourth air opening 12; when the two inner windows 13 move towards the direction close to the tuyere three 11 and the tuyere four 12, the two outer windows 23 move towards the direction far away from the tuyere one 21 and the tuyere two 22; the openings of the first tuyere 21 and the third tuyere 11 can be used for the movement of the first abutting rod 41, and the openings of the second tuyere 22 and the fourth tuyere 12 can be used for the movement of the second abutting rod 42. A connecting rod 4 is arranged between the first abutting rod 41 and the second abutting rod 42, and two ends of the connecting rod 4 in the length direction are respectively connected with the first abutting rod 41 and the second abutting rod 42.

As shown in fig. 2 and 3, an inner concave platform 14 for placing the inner window 13 is arranged on the wall body 1, and when the inner window 13 rotates to the inner concave platform 14, one surface of the inner window 13 departing from the outer window 23 is flush with one surface of the wall body 1 departing from the glass curtain wall 2; be provided with the outer concave station 24 that supplies outer window 23 to place on the glass curtain wall 2, when outer window 23 rotated to outer concave station 24, the one side that outer window 23 deviates from interior window 13 flushed with the one side that glass curtain wall 2 deviates from wall body 1, and outer window 23 is provided with sealing member 231 towards the one side of outer concave station 24 along its circumference, and sealing member 231 is rubber seal, has waterproof effect.

As shown in fig. 4 and 5, the inner window 13 is provided with two first fixing members for fixing the inner window 13 on the concave platform 14, the two first fixing members are respectively disposed at two ends of the inner window 13 in the length direction, the first fixing members include a sliding piece 5, a shifting piece 51 is perpendicularly disposed on a side of the sliding piece 5 departing from the sliding groove 131, and the shifting piece 51 is disposed at one end of the sliding piece 5 far away from the first through hole 1311. The one side that interior window 13 deviates from outer window 23 and the position that is located interior window 13 bottom is provided with spout 131, and spout 131 sets up along interior window 13 width direction, and the one end that plectrum 51 was kept away from to gleitbretter 5 slides and sets up in spout 131. One end of the sliding chute 131 in the length direction is provided with a first through hole 1311 for sliding out of the sliding sheet 5, when the inner window 13 is located on the inner concave platform 14, a second through hole 141 aligned with the first through hole 1311 is arranged at the position of the inner concave platform 14 opposite to the first through hole 1311, and the sliding sheet 5 is clamped in the second through hole 141 after sliding out of the sliding chute 131 through the first through hole 1311.

Be provided with on interior window 13 and be used for being fixed in with interior window 13 with the gapped second mounting of interior concave station 14, the second mounting includes bracing piece 6, interior window 13 is provided with the holding tank 132 that is used for holding bracing piece 6 towards the one side of outer window 23, and 6 length direction's of bracing piece one end articulates in holding tank 132, but the one end that holding tank 132 was kept away from to bracing piece 6 butt on the lateral wall of interior concave station 14.

The working principle is as follows: when raining, the inner window 13 at the third air port 11 is rotated towards the direction far away from the third air port 11, and the inner window 13 drives the first abutting rod 41 to move when rotating; the first butting rod 41 moves to drive the outer window 23 connected with the first butting rod to move towards the direction close to the first air port 21 and drive the connecting rod 4 to move; when the connecting rod 4 moves, the second abutting rod 42 is driven to move, the second abutting rod 42 moves to drive the inner window 13 and the outer window 23 which are rotatably connected with the two ends of the second abutting rod to rotate, the outer window 23 positioned at the second air port 22 rotates towards the direction close to the second air port 22, and the inner window 13 positioned at the fourth air port 12 rotates towards the direction far away from the fourth air port 12; the fan 211 is blocked by the outer window 23, and the rainwater cannot enter the ventilation duct 3 through the first air opening 21 and the second air opening 22. At this time, the two inner windows 13 are in the open state, the support rod 6 in the accommodation groove 132 is rotated out, and when the support rod 6 is rotated to be supported on the side wall of the inner concave table 14, the support rod 6 is in the inclined state, the inner windows 13 are fixed in the open state, and the outer windows 23 are fixed in the closed state.

When raining does not occur, the inner window 13 positioned at the third air port 11 is rotated towards the direction close to the third air port 11, and the inner window 13 drives the first abutting rod 41 to move when rotating; the first abutting rod 41 moves to drive the outer window 23 connected with the first abutting rod to move towards the direction far away from the first air port 21 and drive the connecting rod 4 to move; when the connecting rod 4 moves, the second abutting rod 42 is driven to move, when the second abutting rod 42 moves, the inner window 13 and the outer window 23 which are rotatably connected with the two ends of the second abutting rod are driven to rotate, the outer window 23 positioned at the second air port 22 rotates in the direction far away from the second air port 22, and the inner window 13 positioned at the fourth air port 12 rotates in the direction close to the fourth air port 12; when the two inner windows 13 respectively seal the third tuyere 11 and the fourth tuyere 12, the poking sheet 51 is poked, the sliding sheet 5 slides into the second through hole 141 through the first through hole 1311, the inner window 13 at the third tuyere 11 is fixed, and the inner windows 13 at the remaining fourth tuyere 12 are fixed with the two outer windows 23; and finally, starting the fan 211, wherein the air opening I21 and the air opening II 22 form air circulation under the action of the fan 211 so as to reduce the temperature of the glass curtain wall 2 and the wall 1.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an energy-conserving curtain of photovoltaic, includes wall body (1) and glass curtain wall (2), the upper and lower both ends of glass curtain wall (2) are provided with wind gap one (21) and wind gap two (22) respectively, and the upper and lower both ends of wall body (1) are provided with wind gap three (11) and wind gap four (12), are provided with air duct (3) between wall body (1) and glass curtain wall (2), and wind gap one (21), wind gap two (22), wind gap three (11) and wind gap four (12) all communicate with air duct (3), characterized by: a fan (211) is arranged in the first air inlet (21), an outer window (23) is rotatably arranged at the opening edge of the first air inlet (21) and the second air inlet (22), an inner window (13) is rotatably arranged at the opening edge of the third air port (11) and the fourth air port (12), a first abutting rod (41) positioned below the fan (211) is arranged between the outer window (23) positioned at the first air port (21) and the inner window (13) positioned at the third air port (11), two ends of the first abutting rod (41) in the length direction are respectively rotatably connected with an outer window (23) positioned at the first air opening (21) and an inner window (13) positioned at the third air opening (11), a second abutting rod (42) is arranged between the outer window (23) positioned at the second air opening (22) and the inner window (13) positioned at the fourth air opening (12), two ends of the second abutting rod (42) in the length direction are respectively in rotating connection with an outer window (23) located at the air opening II (22) and an inner window (13) located at the air opening IV (12); when the two inner windows (13) move towards the direction close to the third tuyere (11) and the fourth tuyere (12), the two outer windows (23) move towards the direction far away from the first tuyere (21) and the second tuyere (22).

2. The photovoltaic energy-saving curtain wall as claimed in claim 1, wherein: a connecting rod (4) is arranged between the first abutting rod (41) and the second abutting rod (42), and two ends of the connecting rod (4) in the length direction are respectively connected with the first abutting rod (41) and the second abutting rod (42).

3. The photovoltaic energy-saving curtain wall as claimed in claim 1, wherein: an inner concave platform (14) for placing an inner window (13) is arranged on the wall body (1), and an outer concave platform (24) for placing an outer window (23) is arranged on the glass curtain wall (2).

4. The photovoltaic energy-saving curtain wall as claimed in claim 3, wherein: and one surface of the outer window (23) facing the outer concave platform (24) and one surface of the inner window (13) facing the inner concave platform (14) are both provided with sealing pieces (231) along the circumferential direction of the outer window.

5. The photovoltaic energy-saving curtain wall as claimed in claim 4, wherein: the inner window (13) is provided with a first fixing piece used for fixing the inner window (13) on the inner concave platform (14), and the inner window (13) is provided with a second fixing piece used for fixing the inner window (13) on the air port III (11) or the air port IV (12) with a gap.

6. The photovoltaic energy-saving curtain wall as claimed in claim 5, wherein: first mounting is including sliding sheet (5) that slide setting up in deviating from wind gap three (11) or wind gap four (12) one side of interior window (13), the bottom of interior window (13) is provided with supplies gliding spout (131) of gleitbretter (5), spout (131) length direction's one end is provided with first through-hole (1311) that supply gleitbretter (5) roll-off, be provided with second through-hole (141) that align with first through-hole (1311) on the lateral wall of indent platform (14).

7. The photovoltaic energy-saving curtain wall as claimed in claim 5, wherein: the second mounting includes bracing piece (6), interior window (13) are provided with holding tank (132) that are used for holding bracing piece (6) towards the one side of outer window (23), bracing piece (6) length direction's one end is rotated and is set up in holding tank (132), but holding tank (132) was kept away from in bracing piece (6) one end butt on the lateral wall of interior concave station (14) towards outer window (23) one side.

8. The photovoltaic energy-saving curtain wall as claimed in claim 6, wherein: one surface of the sliding piece (5) departing from the sliding groove (131) is vertically provided with a shifting piece (51), and the shifting piece (51) is arranged at one end, far away from the first through hole (1311), of the sliding piece (5).

Images