CN113431478B

CN113431478B - Green power generation new forms of energy system door and window

Info

Publication number: CN113431478B
Application number: CN202110852318.2A
Authority: CN
Inventors: 程德进; 叶长清
Original assignee: Anhui Zhichengxuan Door And Window System Technology Co ltd
Current assignee: Anhui Zhichengxuan Door And Window System Technology Co ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2022-09-13
Anticipated expiration: 2041-07-27
Also published as: CN113431478A

Abstract

The invention discloses a green power generation new energy system door window which comprises an edge frame, wherein a transverse mullion is arranged on the inner side of the edge frame, the transverse mullion divides the inner side of the edge frame to form a glass installation part and a photovoltaic panel installation part, and strip-shaped driving cavities are symmetrically arranged in the edge frame on two sides of the glass installation part and the photovoltaic panel installation part. The glass mounting part is provided with glass serving as a glass curtain wall to meet the lighting requirements of people, the photovoltaic panel mounting part is respectively provided with the wavy partition plate and the wavy transparent interlayer to form the wavy photovoltaic panel accommodating cavity, the photovoltaic module adopts the strip-shaped thin-film solar cell and can be bent, and the photovoltaic panel assembly is positioned in the wavy photovoltaic panel accommodating cavity in a wavy bent manner in a normal state, so that the area of a door and a window occupied by the photovoltaic panel assembly is reduced, the glass mounting part is ensured to have a large enough size for lighting, the photovoltaic panel assembly is also ensured to have a large-size illumination area, and the power generation capacity is improved.

Description

Green power generation new forms of energy system door and window

Technical Field

The invention relates to the technical field of new energy system doors and windows, in particular to a green power generation new energy system door and window.

Background

With the increasing severity of environmental pollution and energy crisis, the concept of energy conservation and environmental protection is increasingly emphasized by people, the simple lighting system and the air conditioning system are expensive in manufacturing cost and waste electric energy, people can completely utilize the existing conditions and self-circulation capacity in the nature to adjust the living environment of people, the development of new energy is the ultimate breakthrough of solving the energy crisis, and the solar energy is greatly developed in various aspects since the twentieth century.

In recent years, in order to meet the requirements of lighting, viewing, decoration and facade design of people, the size of a door and window opening of a building is larger and larger, a plurality of houses are even provided with glass curtain walls, and when people pursue transparent and bright large facades and large cells, the indoor heat insulation and energy saving effect is ignored.

The present case is about to provide a new energy system door and window of green electricity generation, carries on the solar photovoltaic board through the structural ingenious of window, and this solar photovoltaic board does not influence door and window's pleasing to the eye promptly, does not also influence the performance, and our door and window increases the function of a green electricity generation simultaneously, expands our door and window's function to a new field, realizes a new revolution of door and window's application, breaks the thinking of traditional door and window, gives modern door and window's new mission.

Disclosure of Invention

The invention aims to provide a green power generation new energy system door and window to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a green power generation new energy system door window comprises a side frame, wherein a transverse mullion is arranged on the inner side of the side frame, the transverse mullion divides the inner side of the side frame to form a glass installation part and a photovoltaic panel installation part, and strip-shaped driving cavities are symmetrically arranged in the side frame on two sides of the glass installation part and the photovoltaic panel installation part;

the solar photovoltaic panel is characterized in that a pair of glasses are assembled on the inner side of the glass installation part, a hollow cavity is formed between the pair of glasses, a wavy partition plate is arranged on one side, close to the interior, of the photovoltaic panel installation part, a wavy transparent interlayer matched with the wavy partition plate is arranged on one side, close to the exterior, of the photovoltaic panel installation part, a wavy photovoltaic panel accommodating cavity is formed between the wavy transparent interlayer and the wavy partition plate, the transverse middle support is provided with a strip-shaped through groove which penetrates longitudinally, the hollow cavity, the strip-shaped through groove and the wavy photovoltaic panel accommodating cavity are communicated to form a movable cavity, and a sliding groove matched with the shape of the movable cavity is formed in a penetrating manner on a side frame between the movable cavity and the strip-shaped driving cavity;

a photovoltaic panel assembly is movably arranged in the movable cavity and comprises a sliding assembly, a photovoltaic component and an angle adjusting assembly;

the sliding assembly comprises an upper transverse pipe and a lower transverse pipe which horizontally penetrate through the two sliding grooves, and limiting blocks fixed at two ends of the upper transverse pipe and the lower transverse pipe, wherein the limiting blocks are positioned in the strip-shaped driving cavity, and rolling balls which are abutted against the side walls of the strip-shaped driving cavity are arranged at one side, close to the sliding grooves, of the limiting blocks;

the photovoltaic component comprises photovoltaic modules which are uniformly arranged between an upper transverse pipe and a lower transverse pipe, the adjacent photovoltaic modules are in mutual side contact, each photovoltaic module comprises a banded thin-film solar cell and U-shaped clamping blocks arranged at two ends of the banded thin-film solar cell, a rotating shaft is fixed on one side, away from the banded thin-film solar cell, of each U-shaped clamping block, the two rotating shafts are respectively in rotating connection with the upper transverse pipe and the lower transverse pipe, and a gear I is fixedly connected to the rotating shaft and extends into the upper transverse pipe;

the angle adjusting assembly comprises a fixing box arranged at one end of the upper transverse pipe, a first motor fixed inside the fixing box and a second gear fixed at the output end of the first motor, wherein a chain is arranged between the second gear and the first gears of the photovoltaic modules;

the top and the bottom of the bar-shaped driving cavity are respectively provided with a driving piece I and a driving piece II, the driving piece I is used for driving the upper horizontal pipe to move upwards or downwards, the driving piece II is used for synchronously driving the lower horizontal pipe to move upwards when the driving piece I drives the upper horizontal pipe to move upwards, and the driving piece I drives the upper horizontal pipe to move downwards and synchronously drives the lower horizontal pipe to move downwards.

Preferably, the first driving part comprises a first positioning box body fixed at the top inside the bar-shaped driving cavity, a second motor fixed inside the first positioning box body, and a first winding wheel arranged inside the bar-shaped driving cavity on one side of the first positioning box body, wherein the output end of the second motor extends to be fixedly connected with an axle center of the first winding wheel, a first steel wire rope is wound on the outer side of the first winding wheel, and the free end of the first steel wire rope extends to be connected with the upper transverse pipe.

Preferably, driving piece two is including fixing the location box body two in the inside bottom in bar drive chamber, fixing at the inside motor three of location box body two and set up at the inside rolling wheel two of two side bar drive chambers of location box body, wherein, the output of motor three extends and two axle center fixed connection of rolling wheel, the outside winding of rolling wheel two has wire rope two, just the free end of wire rope two extends and violently union coupling down.

Preferably, the strip-shaped thin film solar cell has a first position completely located in the hollow cavity and a second position completely located in the wavy photovoltaic panel accommodating cavity.

Preferably, when the strip-shaped thin-film solar cell is located at the first position, the strip-shaped thin-film solar cell is in a spread straight plate shape, and when the strip-shaped thin-film solar cell is located at the second position, the strip-shaped thin-film solar cell is in a curved wave shape.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the transverse mullion is arranged on the inner side of the side frame, and divides the inner side of the side frame into the glass installation part and the photovoltaic panel installation part, wherein the glass installation part is provided with glass serving as a glass curtain wall to meet the lighting requirement of people, the photovoltaic panel installation part is respectively provided with the wavy partition plate and the wavy transparent interlayer to form the wavy photovoltaic panel accommodating cavity, the photovoltaic module adopts the strip-shaped thin-film solar cell and can be bent, and the photovoltaic panel assembly is formed into a wavy bent shape and is positioned in the wavy photovoltaic panel accommodating cavity in a normal state, so that the area of a door and a window occupied by the photovoltaic panel assembly is reduced, the glass installation part is ensured to have a large size for lighting, meanwhile, the large-size illumination area of the photovoltaic panel assembly is ensured, and the generating capacity is improved.

(2) According to the invention, the first driving part and the second driving part are arranged, when people are not at home or sunlight is too much to be shielded, the first winding wheel is driven by the second motor of the first driving part to rotate to wind the first steel wire rope, so that the upper transverse pipe moves upwards along the chute, meanwhile, the second winding wheel is driven by the third motor of the second driving part to rotate to unwind the second steel wire rope, the lower transverse pipe moves upwards along the chute, the photovoltaic panel assembly slides into a hollow cavity formed between a pair of glasses, the strip-shaped thin-film solar cell of the photovoltaic module is in an unfolded straight plate shape in the hollow cavity to block the sunlight, and meanwhile, the effective illumination area is further increased after the strip-shaped thin-film solar cell is unfolded, and the generated energy is improved.

(3) The photovoltaic component of the photovoltaic module is formed by combining a plurality of photovoltaic modules, the adjacent photovoltaic modules are mutually contacted at the side edges, the photovoltaic panel component also comprises an angle adjusting component, when the photovoltaic module is applied, a first gear rotates by the rotation of a motor, and the rotation of the first gear can enable the plurality of photovoltaic modules to simultaneously deflect through a chain, so that a structure similar to a louver is formed, and indoor light transmission is adjusted.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side sectional view of the present invention;

FIG. 3 is a schematic view of a portion of the structure of FIG. 1 at A;

FIG. 4 is a schematic view of a portion of the structure of FIG. 1 at B;

fig. 5 is a partial structural view at C of fig. 1.

In the figure: 1. a side frame; 2. transversely erecting; 3. a glass mounting portion; 4. a photovoltaic panel mounting section; 5. a strip drive cavity; 6. glass; 7. a hollow cavity; 8. a corrugated partition plate; 9. a wavy transparent interlayer; 10. a corrugated photovoltaic panel receiving cavity; 11. a strip-shaped through groove; 12. a movable cavity; 13. a chute; 14. an upper horizontal pipe; 15. a lower transverse pipe; 16. a limiting block; 17. rolling a ball; 18. a strip-shaped thin film solar cell; 19. a U-shaped clamping block; 20. a rotating shaft; 21. a first gear; 22. a fixed box; 23. a first motor; 24. a second gear; 25. a chain; 26. a first driving part; 261. positioning the box body I; 262. a second motor; 263. a first winding wheel; 264. a first steel wire rope; 27. a driving part II; 271. positioning a second box body; 272. a third motor; 273. a second winding wheel; 274. and a second steel wire rope.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: a green power generation new energy system door window comprises a side frame 1, wherein a transverse mullion 2 is arranged on the inner side of the side frame 1, the transverse mullion 2 divides the inner side of the side frame 1 into a glass installation part 3 and a photovoltaic panel installation part 4, and strip-shaped driving cavities 5 are symmetrically arranged in the side frame 1 on two sides of the glass installation part 3 and the photovoltaic panel installation part 4;

the inner side of the glass mounting part 3 is provided with a pair of glasses 6, a hollow cavity 7 is formed between the pair of glasses 6, one side of the photovoltaic panel mounting part 4 close to the indoor is provided with a wavy partition plate 8, one side of the photovoltaic panel mounting part 4 close to the outdoor is provided with a wavy transparent interlayer 9 matched with the wavy partition plate 8, a wavy photovoltaic panel accommodating cavity 10 is formed between the wavy transparent interlayer 9 and the wavy partition plate 8, the transverse middle support 2 is provided with a strip-shaped through groove 11 which penetrates longitudinally, the hollow cavity 7, the strip-shaped through groove 11 and the wavy photovoltaic panel accommodating cavity 10 are communicated to form a movable cavity 12, and a sliding groove 13 matched with the movable cavity 12 in shape is arranged on the side frame 1 between the movable cavity 12 and the strip-shaped driving cavity 5 in a penetrating manner;

a photovoltaic panel assembly is movably arranged in the movable cavity 12 and comprises a sliding assembly, a photovoltaic component and an angle adjusting assembly;

the sliding assembly comprises an upper transverse pipe 14 and a lower transverse pipe 15 which horizontally penetrate through the two sliding grooves 13 and limiting blocks 16 fixed at two ends of the upper transverse pipe 14 and the lower transverse pipe 15, and the limiting blocks 16 are positioned in the strip-shaped driving cavity 5 and are provided with rolling balls 17 which are butted against the side walls of the strip-shaped driving cavity 5 at one side close to the sliding grooves 13;

the photovoltaic component comprises photovoltaic modules which are uniformly arranged between an upper transverse pipe 14 and a lower transverse pipe 15, the adjacent photovoltaic modules are in mutual side contact, each photovoltaic module comprises a strip-shaped thin-film solar cell 18 and U-shaped clamping blocks 19 arranged at two ends of the strip-shaped thin-film solar cell 18, a rotating shaft 20 is fixed on one side, far away from the strip-shaped thin-film solar cell 18, of each U-shaped clamping block 19, the two rotating shafts 20 are respectively in rotating connection with the upper transverse pipe 14 and the lower transverse pipe 15, and a first gear 21 is fixedly connected to the rotating shaft 20 and extends into the upper transverse pipe 14;

the angle adjusting assembly comprises a fixing box 22 arranged at one end of the upper transverse pipe 14, a first motor 23 fixed inside the fixing box 22 and a second gear 24 fixed at the output end of the first motor 23, wherein a chain 25 is arranged between the second gear 24 and the first gears 21 of the photovoltaic modules;

the top and the bottom of the strip-shaped driving cavity 5 are respectively provided with a first driving part 26 and a second driving part 27, the first driving part 26 is used for driving the upper transverse pipe 14 to move upwards or downwards, the second driving part 27 is used for synchronously driving the lower transverse pipe 15 to move upwards when the first driving part 26 drives the upper transverse pipe 14 to move upwards, and the first driving part 26 drives the upper transverse pipe 14 to move downwards and synchronously drives the lower transverse pipe 15 to move downwards.

In this embodiment, the first driving element 26 includes a first positioning box 261 fixed on the top inside the strip-shaped driving cavity 5, a second motor 262 fixed inside the first positioning box 261, and a first winding wheel 263 disposed inside the strip-shaped driving cavity 5 on the side of the first positioning box 261, wherein an output end of the second motor 262 extends to be fixedly connected with an axial center of the first winding wheel 263, a first steel wire rope 264 is wound on the outer side of the first winding wheel 263, and a free end of the first steel wire rope 264 extends to be connected with the upper cross tube 14.

In this embodiment, the second driving element 27 includes a second positioning box 271 fixed at the bottom end inside the strip-shaped driving cavity 5, a third motor 272 fixed inside the second positioning box 271, and a second winding wheel 273 arranged inside the strip-shaped driving cavity 5 at the side of the second positioning box 271, wherein an output end of the third motor 272 extends to be fixedly connected with an axis of the second winding wheel 273, a second steel wire rope 274 is wound outside the second winding wheel 273, and a free end of the second steel wire rope 274 extends to be connected with the lower transverse pipe 15.

In this embodiment, the strip-shaped thin-film solar cell 18 has a first position completely located in the hollow cavity 7 and has a second position completely located in the corrugated photovoltaic panel accommodating cavity 10.

In this embodiment, when the strip-shaped thin-film solar cell 18 is located at the first position, the strip-shaped thin-film solar cell 18 is in a spread straight plate shape, and when the strip-shaped thin-film solar cell 18 is located at the second position, the strip-shaped thin-film solar cell 18 is in a curved wavy shape.

The working principle is as follows: when the glass curtain wall is used, the glass 6 is arranged on the glass mounting part 4 and used as a glass curtain wall to meet the lighting requirement of people, the wavy partition plates 8 and the wavy transparent partition layers 9 are respectively arranged on the photovoltaic panel mounting part 5 to form a wavy photovoltaic panel accommodating cavity 10, the photovoltaic module adopts the strip-shaped thin-film solar cells 18 which can be bent, and under the normal state, the photovoltaic panel assembly forms a wavy bent shape and is positioned in the wavy photovoltaic panel accommodating cavity 10, so that the area of doors and windows occupied by the photovoltaic panel assembly is reduced, the glass mounting part 4 is ensured to have a large enough size to carry out lighting, meanwhile, the photovoltaic panel assembly is also ensured to have a large-size lighting area, the generating capacity is improved, when people are not at home or the sunshine is too big to shield the sunshine, the motor two 262 of the driving part one 26 drives the winding wheel one 263 to rotate to wind the steel wire rope one 264, and the upper transverse pipe 14 moves upwards along the sliding chute 13, meanwhile, a third motor 272 of the second driving piece 27 drives a second winding wheel 273 to rotate so as to unwind the second steel wire rope 274, the lower transverse pipe 15 moves upwards along the sliding groove 13, the photovoltaic panel assembly slides into a hollow cavity 7 formed between the pair of glass 6, the strip-shaped thin-film solar cells 18 of the photovoltaic module are in an unfolded straight plate shape in the hollow cavity 7 and block sunlight, and meanwhile, the effective illumination area is further increased after the strip-shaped thin-film solar cells are unfolded, so that the generating capacity is improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The door and window of the green power generation new energy system is characterized by comprising a side frame (1), wherein a transverse mullion (2) is arranged on the inner side of the side frame (1), the transverse mullion (2) divides the inner side of the side frame (1) to form a glass installation part (3) and a photovoltaic panel installation part (4), and strip-shaped driving cavities (5) are symmetrically arranged in the side frame (1) on two sides of the glass installation part (3) and the photovoltaic panel installation part (4);

a pair of glasses (6) is assembled at the inner side of the glass mounting part (3), a hollow cavity (7) is formed between the pair of glasses (6), one side of the photovoltaic panel mounting part (4) close to the room is provided with a wavy clapboard (8), one side of the photovoltaic panel installation part (4) close to the outdoor is provided with a wavy transparent interlayer (9) matched with the wavy clapboard (8), a wavy photovoltaic panel accommodating cavity (10) is formed between the wavy transparent interlayer (9) and the wavy clapboard (8), the transverse mullion (2) is provided with a strip-shaped through groove (11) which penetrates through in the longitudinal direction, the hollow cavity (7), the strip-shaped through groove (11) and the wavy photovoltaic panel accommodating cavity (10) are communicated to form a movable cavity (12), a sliding groove (13) matched with the shape of the movable cavity (12) is arranged on the side frame (1) between the movable cavity (12) and the strip-shaped driving cavity (5) in a penetrating way;

a photovoltaic panel assembly is movably arranged in the movable cavity (12), and comprises a sliding assembly, a photovoltaic component and an angle adjusting assembly;

the sliding assembly comprises an upper transverse pipe (14) and a lower transverse pipe (15) which horizontally penetrate through the two sliding chutes (13) and limiting blocks (16) fixed at two ends of the upper transverse pipe (14) and the lower transverse pipe (15), and the limiting blocks (16) are positioned in the strip-shaped driving cavity (5) and are provided with rolling balls (17) which are abutted against the side wall of the strip-shaped driving cavity (5) at one side close to the sliding chutes (13);

the photovoltaic component comprises photovoltaic modules which are uniformly arranged between an upper transverse pipe (14) and a lower transverse pipe (15), the adjacent photovoltaic modules are in mutual side contact, each photovoltaic module comprises a strip-shaped thin-film solar cell (18) and U-shaped clamping blocks (19) arranged at two ends of the strip-shaped thin-film solar cell (18), a rotating shaft (20) is fixed on one side, away from the strip-shaped thin-film solar cell (18), of each U-shaped clamping block (19), the two rotating shafts (20) are respectively in rotating connection with the upper transverse pipe (14) and the lower transverse pipe (15), and a first gear (21) is fixedly connected to the rotating shaft (20) and extends to the inner part of the upper transverse pipe (14);

the angle adjusting assembly comprises a fixing box (22) arranged at one end of the upper transverse pipe (14), a first motor (23) fixed inside the fixing box (22) and a second gear (24) fixed at the output end of the first motor (23), wherein a chain (25) is arranged between the second gear (24) and the first gears (21) of the photovoltaic modules;

the top and the bottom of the strip-shaped driving cavity (5) are respectively provided with a driving piece I (26) and a driving piece II (27), the driving piece I (26) is used for driving the upper transverse pipe (14) to move upwards or downwards, the driving piece II (27) is used for synchronously driving the lower transverse pipe (15) to move upwards when the driving piece I (26) drives the upper transverse pipe (14) to move upwards, and the driving piece I (26) drives the upper transverse pipe (14) to move downwards and synchronously drives the lower transverse pipe (15) to move downwards.

2. The green new energy system door and window that generates electricity of claim 1, its characterized in that: the driving piece I (26) comprises a first positioning box body (261) fixed at the top inside the strip-shaped driving cavity (5), a second motor (262) fixed inside the first positioning box body (261) and a first winding wheel (263) arranged inside the strip-shaped driving cavity (5) on the first positioning box body (261), wherein the output end of the second motor (262) extends to be fixedly connected with the axle center of the first winding wheel (263), a first steel wire rope (264) is wound on the outer side of the first winding wheel (263), and the free end of the first steel wire rope (264) extends to be connected with the upper transverse pipe (14).

3. The green new energy system door and window that generates electricity of claim 1, its characterized in that: the driving piece II (27) comprises a positioning box body II (271) fixed at the bottom end inside the strip-shaped driving cavity (5), a motor III (272) fixed inside the positioning box body II (271) and a winding wheel II (273) arranged inside the strip-shaped driving cavity (5) on the side of the positioning box body II (271), wherein the output end of the motor III (272) extends to be fixedly connected with the axle center of the winding wheel II (273), a steel wire rope II (274) is wound on the outer side of the winding wheel II (273), and the free end of the steel wire rope II (274) extends to be connected with the lower transverse pipe (15).

4. The green new energy system door and window that generates electricity of claim 1, its characterized in that: the strip-shaped thin-film solar cell (18) has a first position completely located in the hollow cavity (7) and a second position completely located in the corrugated photovoltaic panel accommodating cavity (10).

5. The green new energy system door and window that generates electricity of claim 1, its characterized in that: the strip-shaped thin-film solar cells (18) are in the shape of a spread straight plate when the strip-shaped thin-film solar cells (18) are located at a first position, and the strip-shaped thin-film solar cells (18) are in the shape of a curved wave when the strip-shaped thin-film solar cells (18) are located at a second position.