CN217584906U - Adjustable installing support of photovoltaic glass - Google Patents

Abstract

An adjustable mounting bracket for photovoltaic glass, comprising: a support post; the angle adjusting assembly comprises a pair of telescopic rods, the upper ends of the telescopic rods are respectively hinged to one hinged seat, the lower ends of the telescopic rods are hinged to the same fixed shaft, the fixed shaft is connected to the support, and the telescopic rods are provided with second locking bolts for fixing the lengths of the telescopic rods; the transverse frames are symmetrically arranged, are respectively connected to the end parts of the cross rods and are perpendicular to the cross rods; the clamping seat is arranged on the transverse frame and used for clamping the photovoltaic glass. This scheme is easy to assemble photovoltaic glass, and can carry out the setting that needs the angle in the installation place so that set up better illumination receiving angle for adorning in the photovoltaic glass of support, still can adapt to the photovoltaic glass installation of different model sizes simultaneously to in maintenance change, the practicality is strong.

Description

Adjustable installing support of photovoltaic glass

Technical Field

The utility model belongs to the technical field of the photovoltaic, especially, relate to an adjustable installing support of photovoltaic glass.

Background

The photovoltaic glass is one of solar photovoltaic modules, and cadmium telluride is mostly adopted as a core material, and is also called as power generation glass. The application mode of the glass comprises the installation on the roof or in the field or the installation as the outer glass wall. When the device is installed on the roof or outdoors, a plurality of rows of the device are generally arranged side by side and are installed in a designated place through a bracket; the requirements of the current positions of different places on the sun irradiation angle are different, the angle of the support needs to be prefabricated in advance for different places, so that the mounted photovoltaic glass can better adapt to the illumination requirements of the mounting place, meanwhile, different photovoltaic glass possibly has size difference and the like, the support needs to be prepared in a targeted mode, and cost improvement and inconvenience in mounting and construction are caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned prior art defect, this application provides an adjustable installing support of photovoltaic glass, easy to assemble photovoltaic glass, and can carry out the setting that needs the angle so that set up better illumination receiving angle for adorning in the photovoltaic glass of support in the installation place, still can adapt to the photovoltaic glass installation of different model sizes simultaneously, so that maintain the change, the practicality is strong.

In order to achieve the above purpose, the utility model adopts the following technology:

an adjustable mounting bracket for photovoltaic glass, comprising:

a support post;

the straddle comprises a square sleeve, one side of the square sleeve is rotatably arranged on the support, two ends of the square sleeve are slidably inserted with straddle posts, the bottom end of the square sleeve is provided with a pair of hinged seats at intervals,

the angle adjusting assembly comprises a pair of telescopic rods, the upper ends of the telescopic rods are respectively hinged to a hinge seat, the lower ends of the telescopic rods are hinged to the same compression bolt, the compression bolt penetrates through a convex seat on the side surface of the pillar, and a second locking bolt is arranged on each telescopic rod and used for fixing the length of each telescopic rod;

the transverse frames are symmetrically arranged, are respectively connected to the end parts of the cross rods and are perpendicular to the cross rods;

the clamping seat is arranged on the transverse frame and used for clamping the photovoltaic glass. The quantity of the clamping bases on the pair of cross frames is matched and corresponds to the setting, the clamping bases comprise C-shaped bases, openings of the C-shaped bases face towards the opposite cross frames, the C-shaped bases comprise vertical plates, top plates connected to the top ends of the vertical plates, bottom plates connected to the bottom ends of the vertical plates, the bottom plates are arranged on the cross frames, vertical sliding grooves are formed in the inner walls of the vertical plates, clamping plates are arranged between the top plates and the bottom plates, one ends of the clamping plates are in sliding fit with the vertical sliding grooves, and a plurality of springs are connected between the clamping plates and the bottom plates.

Further, be equipped with the bar spout along length direction on the crossbearer, bottom plate sliding fit is in the bar spout, and the riser outer wall is equipped with the limiting plate, and the limiting plate laminating is worn to be equipped with third locking bolt in crossbearer lateral surface on the limiting plate.

Furthermore, a rotating rod is arranged on one side of the square sleeve, a rotating groove is formed in the concave shape of the top of the support column, and the rotating rod is matched with the rotating groove.

Furthermore, the hinged seats are arranged in a central symmetry mode along the length direction of the square sleeve.

Furthermore, an I-shaped groove is formed in the square sleeve, the end surface of the spanning rod is in an I-shaped shape matched with the I-shaped groove, and the spanning rod is in sliding fit with the I-shaped groove.

Furthermore, a plurality of first locking bolts are arranged on the outer wall of the square sleeve and used for locking the cross rod.

Furthermore, the telescopic link includes outer loop bar and interior pole, and interior pole slides and wears to locate in the outer loop bar, and second locking bolt wears to locate outer loop bar outer wall for the position of pole in outer loop bar in the locking. Specifically, the upper end of the inner rod is in sliding fit with the outer loop bar, the lower end of the inner rod is hinged to the pressing bolt, and the upper end of the outer loop bar is hinged to the hinge base.

Further, the bottom of the support column is provided with a mounting seat used for mounting the support column on an application place.

The utility model discloses beneficial effect lies in:

the bracket provided by the scheme is convenient, rapid and flexible to install the photovoltaic assembly, can be used for setting a required angle in an installation place so as to set a better illumination receiving angle for photovoltaic glass installed on the bracket, and can be suitable for installing the photovoltaic glass with different types and sizes so as to be convenient to maintain and replace, and the practicability is high; the photovoltaic glass is clamped in an elastic clamping mode, so that the problem that the photovoltaic glass is fixed in a bolt mode and is complex to operate is solved.

Drawings

Fig. 1 is a schematic view of a stent structure according to an embodiment of the present application.

Fig. 2 is a schematic structural view of a support column, a straddle and an angle adjusting assembly according to an embodiment of the application.

Fig. 3 is a schematic structural diagram of a clamping seat according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a cross frame and a clamping seat according to an embodiment of the application.

Fig. 5 is a schematic view of a stent in a paired application according to an embodiment of the present application.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings, however, the described embodiments of the present invention are some, not all embodiments of the present invention.

The embodiment of the application provides an adjustable installing support of photovoltaic glass, as shown in fig. 1-3, including pillar 1, span frame 2, angle adjusting component 3, crossbearer 4, grip slipper 5 etc. for install photovoltaic glass.

The bottom of the support 1 is provided with a mounting seat 10 for mounting the support 1 to an application place. The top of the support 1 is concavely formed with a rotation groove 11.

The straddle carrier 2 comprises a square sleeve 20, and a rotating rod 21 is arranged on one side of the square sleeve 20, and the rotating rod 21 is matched with the rotating groove 11. Two ends of the square sleeve 20 are slidably inserted with a cross rod 23. Specifically, an i-shaped groove 22 is formed in the square sleeve 20, the end face of the cross rod 23 is in an i-shaped shape matched with the i-shaped groove 22, the cross rod 23 is in sliding fit with the i-shaped groove 22, and better fit stability can be provided through the fit mode of the i-shaped groove. The outer wall of the square sleeve 20 is provided with a plurality of first locking bolts 24 for locking the cross rod 23. The bottom end of the square sleeve 20 is provided with a pair of hinge seats 25 at intervals. The hinge seats 25 are arranged in central symmetry along the length of the square sleeve 20.

The angle adjusting assembly 3 comprises a pair of telescopic rods 30, the upper ends of the telescopic rods 30 are hinged to a hinged seat 25 respectively, the lower ends of the telescopic rods 30 are hinged to the same compression bolt 31, the compression bolt 31 penetrates through the convex seat 12 on the side face of the supporting column 1, and a second locking bolt 32 is arranged on each telescopic rod 30 and used for fixing the length of each telescopic rod 30. Specifically, the telescopic rod 30 comprises an outer loop bar and an inner rod, the inner rod is slidably arranged in the outer loop bar in a penetrating manner, and the second locking bolt 32 is arranged on the outer wall of the outer loop bar in a penetrating manner and used for locking the position of the inner rod in the outer loop bar. Specifically, the upper end of the inner rod is slidably fitted into the outer loop bar, the lower end is hinged to the pressing bolt 31, and the upper end of the outer loop bar is hinged to the hinge base 25. The compression bolt 31 is used to provide a hinge point and to lock the lower ends of the inner rods of the two telescopic rods 30 to the boss 12.

The crossbearers 4 are symmetrically arranged and connected to the ends of the cross rods 23 respectively and are perpendicular to the cross rods 23.

The clamping seat 5 is arranged on the transverse frame 4. The clamping bases 5 on the pair of cross frames 4 are matched in number and are correspondingly arranged, each clamping base 5 comprises a C-shaped base 51, the opening of each clamping base faces towards the opposite cross frame 4, each C-shaped base 51 comprises a vertical plate, a top plate connected to the top end of the vertical plate and a bottom plate connected to the bottom end of the vertical plate, each bottom plate is arranged on the corresponding cross frame 4, a vertical sliding groove 52 is formed in the inner wall of the corresponding vertical plate, a clamping plate 53 is arranged between the top plate and the bottom plate, one end of each clamping plate 53 is in sliding fit with the corresponding vertical sliding groove 52, and a plurality of springs 54 are connected between the clamping plate 53 and the bottom plate. Photovoltaic glass is clamped between the clamping plate 53 and the top plate.

During application, the bracket is installed in a designated application place through the installation seat 10, then the rotating rod 21 of the spanning frame 2 is matched with the rotating groove 11 of the strut 1, then the telescopic rod 30 is installed, the upper end of the telescopic rod is hinged to the hinge seat 25, the lower ends of the telescopic rod are hinged to the compression bolt 31, and the compression bolt 31 penetrates through the convex seat 12 to be fastened. Then, the spanning frame 2 is rotated according to the installation angle required by the current application place, after the rotation angle is determined, the lengths of the two telescopic rods 30 are fixed through the second locking bolt 32, the two telescopic rods 30 and the cross frame 2 form a triangular stable structure, then the posture is maintained, the pressing bolt 31 is screwed, and the lower ends of the two telescopic rods 30 are fixed on the boss 12. Then, the length of the cross rod 23 extending out of the square sleeve 20 is adjusted to be adapted to the size of the photovoltaic glass to be installed, and after adjustment, the position of the cross rod 23 is locked by the first locking bolt 24. And then, installing the photovoltaic glass on the clamping seat 5, specifically, clamping the installation side edge of the photovoltaic glass between the clamping plate 53 and the top plate of the C-shaped seat 51, slightly pressing down the clamping plate 53 to enable a space capable of containing the photovoltaic glass to be formed between the clamping plate 53 and the top plate, then clamping the photovoltaic glass, and after the clamping, continuously acting the spring 54 on the clamping plate 53 to clamp the photovoltaic glass in the C-shaped seat 51.

In order to facilitate a faster installation, the other end of the clamping plate 53, i.e. the outer end, is provided with an inclined surface which can be arranged towards the opposite side and which can also be formed at the same time on both sides of the clamping plate 53. For the case that the inclined plane is formed to both sides, the photovoltaic glass can be installed to the C-shaped seat 51 from the side surfaces of the two paired clamping plates 53 after the positions of the two cross rods 23 are adjusted and fixed, the photovoltaic glass can contact the inclined plane first through the entrance provided by the inclined plane, then the clamping plates 53 can be pressed down along with the pushing of the photovoltaic glass, the springs 54 are compressed until the portions of the photovoltaic glass for clamping are all accommodated in the C-shaped seat 31, and the springs 54 can continuously act on the clamping plates 53 to maintain the clamping effect on the photovoltaic glass. Another installation method may be that only one side of the cross rod 23 is fixed, then one side of the photovoltaic glass is installed to the C-shaped seat 31 on the cross frame 4 on which one side of the cross rod 23 is fixed, the inclined surface formed at the outer side end of the clamping plate 53 facilitates the provision of the photovoltaic glass clamping inlet, after the photovoltaic glass is clamped, the clamping plate 53 is also in a clamping state for the photovoltaic glass, meanwhile, the vertical plate of the C-shaped seat 31 limits the photovoltaic glass, then the position of the other cross rod 23 is adjusted, so that the other side of the photovoltaic glass is clamped into the C-shaped seat 51 on the cross frame 4 of the other cross rod 23, the clamping is completed, and then the position of the cross rod 23 is fixed.

In a word, through the application of this embodiment, can be convenient for receive irradiant condition according to the place in the installation place, carry out installation angle's setting, then can press from both sides the regulation of establishing the span according to the model size of the photovoltaic glass who treats the installation, also be convenient for utilize the elasticity centre gripping mode to accomplish to press from both sides and establish.

As a preferable example, as shown in fig. 4, a strip-shaped chute 41 is arranged on the cross frame 4 along the length direction, the bottom plate is slidably fitted in the strip-shaped chute 41, a limiting plate 50 is arranged on the outer wall of the vertical plate, the limiting plate 50 is attached to the outer side surface of the cross frame 4, and a third locking bolt 55 is arranged on the limiting plate 50 in a penetrating manner.

Through this kind of structural design, can adjust the position of C type seat 51 on crossbearer 4 to the point position that further adaptation needs the centre gripping, then through the C type seat 51 position after the fixed adjustment of third locking bolt 55, adaptability demand characteristic when providing more installations, practicality and flexibility are all good.

In application, the brackets of the present example may be used in pairs, as shown in fig. 5, to provide a better mounting means and ensure mounting stability.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and it is apparent that those skilled in the art can make various changes and modifications to the present application without departing from the spirit and scope of the present application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. The utility model provides an adjustable installing support of photovoltaic glass which characterized in that includes:

a strut (1);

the straddle frame (2) comprises a square sleeve (20), one side of the square sleeve is rotatably arranged on the support column (1), two ends of the square sleeve (20) are slidably inserted with straddle rods (23), and a pair of hinge seats (25) is arranged at the bottom end of the square sleeve (20) at intervals;

the angle adjusting assembly (3) comprises a pair of telescopic rods (30), the upper ends of the telescopic rods (30) are respectively hinged to a hinged seat (25), the lower ends of the telescopic rods (30) are hinged to the same compression bolt (31), the compression bolt (31) penetrates through a convex seat (12) on the side face of the support column (1), and a second locking bolt (32) is arranged on each telescopic rod (30) and used for fixing the length of each telescopic rod (30);

a pair of crossbearers (4) which are symmetrically arranged, are respectively connected with the end part of the spanning rod (23) and are vertical to the spanning rod (23);

the clamping seat (5) comprises a C-shaped seat (51) arranged on the transverse frame (4), a clamping plate (53) is arranged in the C-shaped seat in a sliding mode, a plurality of springs (54) are connected between the clamping plate (53) and a bottom plate of the C-shaped seat (51), and photovoltaic glass is clamped between the clamping plate (53) and a top plate of the C-shaped seat (51).

2. The adjustable photovoltaic glass mounting bracket of claim 1, wherein the clamping seats (5) on the pair of crossbearers (4) are matched in number and arranged correspondingly, the opening of the C-shaped seat (51) faces the opposite crossbearer (4), the C-shaped seat (51) comprises a vertical plate, a top plate connected to the top end of the vertical plate and a bottom plate connected to the bottom end of the vertical plate, the bottom plate is arranged on the crossbearers (4), a vertical sliding groove (52) is formed in the inner wall of the vertical plate, one end of the clamping plate (53) is in sliding fit with the vertical sliding groove (52), and the spring (54) is arranged between the clamping plate (53) and the bottom plate.

3. The adjustable mounting bracket of claim 2, wherein the other end of the clamping plate (53) has an inclined surface.

4. The adjustable photovoltaic glass mounting bracket according to claim 2, wherein the cross frame (4) is provided with a strip-shaped chute (41) along the length direction, the bottom plate is in sliding fit with the strip-shaped chute (41), the outer wall of the vertical plate is provided with a limiting plate (50), the limiting plate (50) is attached to the outer side surface of the cross frame (4), and the limiting plate (50) is provided with a third locking bolt (55) in a penetrating manner.

5. The adjustable photovoltaic glass mounting bracket according to claim 1, characterized in that a rotating rod (21) is arranged on one side of the square sleeve (20), a rotating groove (11) is concavely formed on the top of the pillar (1), and the rotating rod (21) is matched with the rotating groove (11).

6. The adjustable mounting bracket of claim 1, wherein the hinge seats (25) are arranged centrally symmetrically along the length of the square sleeve (20).

7. The adjustable photovoltaic glass mounting bracket according to claim 1, wherein the square sleeve (20) has an i-shaped groove (22) therein, the end of the cross rod (23) is in an i-shaped shape matching the i-shaped groove (22), and the cross rod (23) is slidably fitted in the i-shaped groove (22).

8. The adjustable mounting bracket for photovoltaic glass according to claim 1, characterized in that the outer wall of the square sleeve (20) is provided with a plurality of first locking bolts (24) for locking the cross rod (23).

9. The adjustable mounting bracket for photovoltaic glass as claimed in claim 1, wherein the telescopic rod (30) comprises an outer sleeved rod and an inner rod, the inner rod is slidably disposed in the outer sleeved rod, and the second locking bolt (32) is disposed on the outer wall of the outer sleeved rod for locking the position of the inner rod in the outer sleeved rod.

10. The adjustable mounting bracket for photovoltaic glass according to claim 1, characterized in that the bottom of the pillar (1) is provided with a mounting seat (10) for mounting the pillar (1) in an application place.

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