CN214995014U - Aluminum alloy glass curtain wall structure convenient for mounting photovoltaic module - Google Patents

Abstract

The utility model belongs to the technical field of glass curtain wall and specifically relates to an aluminum alloy glass curtain wall structure of photovoltaic module easy to assemble is related to, including the frame, be equipped with inlayer glass and outer glass on the frame, be equipped with photovoltaic module, its characterized in that between inlayer glass and the outer glass: the inside cavity of frame forms the cavity, and frame inner circle bottom is equipped with logical groove along self length direction, is equipped with the clamp splice in the cavity, and the clamp splice can be followed logical groove and stretched out the cavity, and the clamp splice upper surface is equipped with first slot along leading to groove length direction, and the photovoltaic module bottom can insert in the first slot, and frame inner circle top is equipped with the second slot, and the photovoltaic module top still includes the drive arrangement that the drive clamp splice goes up and down in can inserting the second slot. This application has the effect of being convenient for install photovoltaic module.

Description

Aluminum alloy glass curtain wall structure convenient for mounting photovoltaic module

Technical Field

The application relates to the field of glass curtain walls, in particular to an aluminum alloy glass curtain wall structure convenient for mounting a photovoltaic assembly.

Background

At present, the photovoltaic curtain wall is widely applied in life, and the photoelectric curtain wall converts solar energy into electric energy by utilizing the photoelectric effect and utilizes the electric energy.

The utility model discloses a novel patent of use that the publication number is CN205604543U discloses an aluminum alloy glass curtain wall structure who is fit for installing photovoltaic module, be equipped with photovoltaic module's aluminum alloy curtain wall component including outer facade, be equipped with aluminum alloy frame in the aluminum alloy curtain wall component, be equipped with the outer mounting bar that a level set up, can inlay photovoltaic module routing cable in the upper portion lower limb of the outer facade of aluminum alloy frame. This glass curtain wall structure can accomodate the cable, makes glass curtain wall more pleasing to the eye clean and tidy.

With respect to the related art in the above, the inventors consider that there is a drawback that the photovoltaic module is inconvenient to mount.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the installation of photovoltaic module, this application provides an aluminum alloy glass curtain wall structure of easy to assemble photovoltaic module.

The application provides a pair of easy to assemble photovoltaic module's aluminum alloy glass curtain wall structure adopts following technical scheme:

the utility model provides an aluminum alloy glass curtain wall structure easy to assemble photovoltaic module, which comprises a frame, be equipped with inlayer glass and outer glass on the frame, be equipped with photovoltaic module between inlayer glass and the outer glass, the inside cavity vacuole formation of frame, frame inner circle bottom is equipped with logical groove along self length direction, be equipped with the clamp splice in the cavity, the clamp splice can stretch out the cavity from leading to the groove, the clamp splice upper surface is equipped with first slot along leading to groove length direction, the photovoltaic module bottom can insert in the first slot, frame inner circle top is equipped with the second slot, the photovoltaic module top can insert in the second slot, still include the drive arrangement that the drive clamp splice goes up and down.

Through adopting above-mentioned technical scheme, when needs installation photovoltaic module, put into the frame with photovoltaic module in, then slide photovoltaic module to first slot in, control drive arrangement upwards promotes the clamp splice this moment, and photovoltaic module risees with the clamp splice is synchronous, and when the second slot was inserted at the photovoltaic module top, the photovoltaic module installation was finished, and it can with inlayer glass install the both sides at photovoltaic module at last.

Optionally, the driving device comprises a first rotating rod and a cam, the first rotating rod is located in a cavity below the clamping block and penetrates through the cam, the first rotating rod can drive the cam to rotate around the axis of the cam, a rotating wheel is rotatably connected to the lower portion of the clamping block, and the arc surface of the cam abuts against the arc surface of the rotating wheel.

Through adopting above-mentioned technical scheme, the first bull stick of drive is rotatory, and first bull stick drives the cam rotation, and the cam supports the runner, and the cam makes the runner rise, and the runner drives the clamp splice and rises, and in addition, the setting up of runner has reduced the frictional force that the cam received, makes the cam rotation more smooth.

Optionally, a second rotating rod is arranged in the cavity, the second rotating rod can rotate around the axis of the second rotating rod, the second rotating rod is perpendicular to the first rotating rod, one end of the second rotating rod protrudes out of the outer wall of the frame, the other end of the second rotating rod is meshed with the first rotating rod through a group of bevel gears, a control device is arranged at one end of the second rotating rod, which protrudes out of the outer wall of the frame, and the control device is used for rotating or locking the second rotating rod.

By adopting the technical scheme, the control device is used for controlling the second rotating rod to rotate, the second rotating rod drives the first rotating rod to rotate through the group of mutually meshed bevel gears, and when the cam completely jacks up the clamping block, the control device is used for locking the second rotating rod, so that the second rotating rod and the first rotating rod are prevented from rotating automatically.

Optionally, the control device comprises a rotary disc and an insert block, the rotary disc is fixedly connected with the second rotary rod in a coaxial mode, one face, close to the frame, of the rotary disc is provided with a jack, the bottom wall of the jack is connected with a first spring, the other end of the first spring is connected with the insert block, the outer wall of the frame is provided with a limiting groove, the insert block can abut against the outer wall of the frame or the bottom wall of the limiting groove, one end, close to the first spring, of the insert block is fixed with a pull rod, and the pull rod protrudes out of the surface of the rotary disc.

Through adopting above-mentioned technical scheme, it can be convenient laborsaving to drive the second bull stick rotatory to rotate the carousel, and when the cam jack-up clamp splice completely, first spring extension impels the inserted block spacing inslot to make the carousel unable rotatory, thereby realized the locking to second bull stick and first bull stick, in addition, when needs rotate the carousel once more, utilize the pull rod with the inserted block from the spacing inslot pull out can.

Optionally, the arc surface of the turntable is provided with anti-slip lines.

Through adopting above-mentioned technical scheme, the setting of anti-skidding line is convenient for operating personnel to rotate the carousel.

Optionally, the bottom of the first slot is provided with a soft pad, and the bottom of the photovoltaic module can be attached to the soft pad.

Through adopting above-mentioned technical scheme, the wearing and tearing that photovoltaic module received have been reduced to cushion and photovoltaic module bottom flexible contact.

Optionally, the side wall of the clamping block is provided with a vertical sliding rail, the inner wall of the through groove is provided with a sliding groove, and the sliding groove is in sliding fit with the sliding rail.

Through adopting above-mentioned technical scheme, the clamp splice slides in first slot through the cooperation of slide rail and spout, and is more smooth and easy.

Optionally, the bottom of the second slot is provided with a hollow tube, the mouth of the hollow tube is vertical and downward, the bottom wall of the hollow tube is provided with a second spring, a slide bar is connected in the hollow tube in a sliding mode and connected with the second spring, one end, extending out of the hollow tube, of the slide bar is connected with a buffer board, and the lower surface of the buffer board can be attached to the top of the photovoltaic module.

Through adopting above-mentioned technical scheme, when the clamp splice jack-up photovoltaic module that makes progress, the buffer board atress, the second spring is compressed, and the buffer board also can reduce the wearing and tearing that photovoltaic module received when withstanding photovoltaic module, extension photovoltaic module's life.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the clamping block moves upwards to enable the top of the photovoltaic assembly to be inserted into the second slot, and the photovoltaic assembly is clamped by the clamping block and the buffer plate, so that the photovoltaic assembly is installed;

2. the control device can drive the second rotating rod to rotate or lock the rotating disc, so that the second rotating rod cannot rotate.

Drawings

FIG. 1 is a front view of an aluminum alloy glass curtain wall structure for facilitating installation of a photovoltaic module according to an embodiment of the present application;

FIG. 2 is a cross-sectional view taken along A-A of FIG. 1;

fig. 3 is a partial exploded view of an aluminum alloy glass curtain wall structure for conveniently installing a photovoltaic module according to an embodiment of the present application, which is mainly used for showing the structure inside a second slot;

fig. 4 is a partial exploded view of an aluminum alloy glass curtain wall structure convenient for installation of a photovoltaic module according to an embodiment of the application, and the partial exploded view is mainly used for showing the structure of a control device.

Description of reference numerals: 1. a frame; 2. inner layer glass; 3. outer layer glass; 4. a photovoltaic module; 5. a cavity; 6. a through groove; 7. a clamping block; 8. a first slot; 9. a second slot; 10. a first rotating lever; 11. a cam; 12. a rotating wheel; 13. a second rotating rod; 14. a bevel gear; 15. a turntable; 16. inserting a block; 17. a jack; 18. a first spring; 19. a limiting groove; 20. a pull rod; 21. anti-skid lines; 22. a soft cushion; 23. a slide rail; 24. a chute; 25. a hollow tube; 26. a second spring; 27. a slide bar; 28. a buffer plate; 29. a bearing seat; 30. a first plane; 31. a second plane; 32. a third plane.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses photovoltaic module's aluminum alloy glass curtain wall structure easy to assemble. Referring to fig. 1 and 2, the aluminum alloy glass curtain wall structure convenient for installation of the photovoltaic module comprises a hollow frame 1, a space inside the frame 1 is marked as a cavity 5, and outer glass 3, the photovoltaic module 4 and inner glass 2 are sequentially installed on the frame 1 from outside to inside. In addition, the surface of the bottom of the inner ring of the frame 1 is referred to as a first plane 30, the surface of the top of the inner ring of the frame 1 is referred to as a second plane 31, and the surface of the frame 1 which is parallel to the outer layer glass 3 and close to the inner layer glass 2 is referred to as a third plane 32.

Referring to fig. 2, a through groove 6 is formed in the first plane 30 along the length direction of the first plane, a first rotating rod 10 is erected on the bottom wall of the cavity 5 through a bearing seat 29, a second rotating rod 13 is further installed in the cavity 5, the first rotating rod 10 is arranged along the length direction of the through groove 6, the second rotating rod 13 is arranged along the width direction of the through groove 6, bevel gears 14 are coaxially fixed on the first rotating rod 10 and the second rotating rod 13, and the two bevel gears 14 are meshed with each other.

Referring to fig. 2, a cam 11 is coaxially fixed on the first rotating rod 10, a clamping block 7 is installed above the cam 11, the outer wall of the clamping block 7 is attached to the inner wall of the through groove 6, the clamping block 7 is in sliding fit with the through groove 6, a vertical sliding rail 23 is fixed on the surface of the clamping block 7 parallel to the third plane 32, a vertical sliding groove 24 is formed in the inner wall of the through groove 6, and the sliding rail 23 can be inserted into the sliding groove 24 to slide. The rotating wheels 12 with the same number as the cams 11 are rotatably connected below the clamping block 7, the rotating shafts of the rotating wheels 12 are parallel to the rotating shaft of the cam 11, and the cambered surfaces of the cam 11 are attached to the cambered surfaces of the rotating wheels 12.

Referring to fig. 2 and 3, the upper surface of the clamping block 7 is provided with a first slot 8 along the length direction thereof, and a soft pad 22 is glued at the bottom of the first slot 8. Second slot 9 has been opened along self length direction on the second plane 31, second slot 9 tank bottom vertical fixation has hollow tube 25, equal sliding connection has slide bar 27 in each hollow tube 25, slide bar 27 outer wall pastes with hollow tube 25 inner wall mutually, slide bar 27 one end is connected with second spring 26, the one end and the hollow tube 25 diapire that slide bar 27 was kept away from to second spring 26 are connected, hollow tube 25 and fixedly connected with buffer board 28 are stretched out to the one end that second spring 26 was kept away from to slide bar 27, buffer board 28 is perpendicular with slide bar 27.

Referring to fig. 2, the first rotating lever 10, the cam 11, the second rotating lever 13, and the two bevel gears 14 constitute a driving means. It should be noted that the photovoltaic module 4, the inner layer glass 2 and the outer layer glass 3 are all the same size; the clamping blocks 7 can be received in the through slots 6 so as not to interfere with the insertion of the photovoltaic modules 4 into the first slots 8.

Referring to fig. 2 and 4, one end of the second rotating rod 13, which is far away from the bevel gear 14, extends out of the third plane 32 and is coaxially fixed with the rotating disc 15, a gap is left between the rotating disc 15 and the third plane 32 to reduce friction force applied when the rotating disc 15 rotates, the arc surface of the rotating disc 15 is provided with anti-skid grains 21, and the anti-skid grains 21 can increase friction force between fingers of an operator and the rotating disc 15, so that the operator can rotate the rotating disc 15 conveniently.

Referring to fig. 2 and 4, an insertion hole 17 is formed in one end, close to the third plane 32, of the rotary table 15, an insertion block 16 is connected in the insertion hole 17 in a sliding mode, the outer wall of the insertion block 16 is attached to the inner wall of the insertion hole 17, one end of the insertion block 16 is connected with a first spring 18, one end, far away from the insertion block 16, of the first spring 18 is connected with the bottom wall of the insertion hole 17, and a limiting groove 19 is formed in the third plane 32. When the photovoltaic module 4 is installed in place, the first spring 18 is in a compressed state, and one end of the insert block 16 away from the first spring 18 abuts against the third plane 32; when the photovoltaic module 4 is installed, the first spring 18 extends to push the insert block 16 into the limiting groove 19, and at the moment, the outer wall of the insert block 16 is attached to the inner wall of the limiting groove 19.

Referring to fig. 4, in order to reduce the friction between the insert 16 and the third plane 32, one end of the insert 16 near the third plane 32 is designed to be spherical.

Referring to fig. 4, when the insert 16 is inserted into the limiting groove 19, in order to facilitate the operator to rotate the rotary plate 15 again, a pull rod 20 is coaxially fixed at one end of the insert 16 close to the first spring 18, the pull rod 20 passes through the first spring 18 and extends out from one side of the rotary plate 15 far away from the third plane 32, and the pull rod 20 is in sliding fit with the rotary plate 15. The operator pulls the pull rod 20 to pull the insert 16 out of the limit groove 19.

Referring to fig. 4, the rotary plate 15, the insertion hole 17, the insertion block 16, the first spring 18, the stopper groove 19, and the pull rod 20 constitute a control device.

The embodiment of the application provides an aluminum alloy glass curtain wall structure convenient for installation of photovoltaic module, and the implementation principle is as follows: when the photovoltaic module 4 needs to be installed, the photovoltaic module 4 is placed into the frame 1, then the photovoltaic module 4 slides into the first slot 8, the rotating disc 15 rotates at the moment, the rotating disc 15 sequentially drives the second rotating rod 13, the first rotating rod 10 and the cam 11 to rotate, the cam 11 pushes the clamping block 7 to move upwards, the photovoltaic module 4 and the clamping block 7 rise synchronously, when the top of the photovoltaic module 4 is inserted into the second slot 9 and is tightly abutted to the buffer plate 28, the photovoltaic module 4 is installed completely, the inserting block 16 is inserted into the limiting groove 19 to lock the rotating disc 15 at the moment, and finally, the outer glass 3 and the inner glass 2 are installed on two sides of the photovoltaic module 4.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an aluminum alloy glass curtain wall structure easy to assemble photovoltaic module, includes frame (1), is equipped with inlayer glass (2) and outer glass (3) on frame (1), is equipped with photovoltaic module (4), its characterized in that between inlayer glass (2) and outer glass (3): the hollow cavity (5) is formed in the inner part of the frame (1), a through groove (6) is formed in the bottom of the inner ring of the frame (1) along the length direction of the inner ring, clamping blocks (7) are arranged in the cavity (5), the clamping blocks (7) can stretch out the cavity (5) from the through groove (6), a first slot (8) is formed in the upper surface of each clamping block (7) along the length direction of the through groove (6), the bottom end of a photovoltaic assembly (4) can be inserted into the first slot (8), a second slot (9) is formed in the top of the inner ring of the frame (1), the top of the photovoltaic assembly (4) can be inserted into the second slot (9), and the hollow cavity further comprises a driving device for driving the clamping blocks (7) to ascend and descend.

2. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as claimed in claim 1, wherein: the driving device comprises a first rotating rod (10) and a cam (11), the first rotating rod (10) is located in a cavity (5) below the clamping block (7), the cam (11) penetrates through the first rotating rod (10), the cam (11) can be driven by the first rotating rod (10) to rotate around the axis of the cam (11), the rotating wheel (12) is connected to the lower portion of the clamping block (7) in a rotating mode, and the cambered surface of the cam (11) supports the cambered surface of the rotating wheel (12).

3. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as claimed in claim 2, wherein: be equipped with second bull stick (13) in cavity (5), second bull stick (13) can be rotatory around self axis, second bull stick (13) are perpendicular with first bull stick (10), second bull stick (13) one end protrusion frame (1) outer wall, the other end is connected through a set of bevel gear (14) meshing with first bull stick (10), second bull stick (13) one end of protrusion frame (1) outer wall is equipped with controlling means, controlling means is used for rotatory or locking second bull stick (13).

4. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as claimed in claim 3, wherein: controlling means includes carousel (15) and inserted block (16), carousel (15) and the coaxial fixed connection of second bull stick (13), one side that carousel (15) are close to frame (1) is equipped with jack (17), jack (17) diapire is connected with first spring (18), first spring (18) other end is connected with inserted block (16), be equipped with spacing groove (19) on frame (1) outer wall, inserted block (16) can support frame (1) outer wall or spacing groove (19) diapire, the one end that inserted block (16) are close to first spring (18) is fixed with pull rod (20), pull rod (20) protrusion carousel (15) surface.

5. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as recited in claim 4, wherein: the cambered surface of the turntable (15) is provided with anti-skid grains (21).

6. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as claimed in claim 1, wherein: the bottom of the first slot (8) is provided with a soft pad (22), and the bottom of the photovoltaic module (4) can be attached to the soft pad (22).

7. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as claimed in claim 1, wherein: the side wall of the clamping block (7) is provided with a vertical sliding rail (23), the inner wall of the through groove (6) is provided with a sliding groove (24), and the sliding groove (24) is in sliding fit with the sliding rail (23).

8. The aluminum alloy glass curtain wall structure convenient for mounting the photovoltaic module as claimed in claim 1, wherein: the bottom of the second slot (9) is provided with a hollow tube (25), the opening of the hollow tube (25) is vertical and downward, the bottom wall of the hollow tube (25) is provided with a second spring (26), the hollow tube (25) is internally connected with a sliding rod (27), the sliding rod (27) is connected with the second spring (26), one end of the sliding rod (27) extending out of the hollow tube (25) is connected with a buffer board (28), and the lower surface of the buffer board (28) can be attached to the top of the photovoltaic module (4).

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