CN219627626U - Direction-changeable light Fu Banjia of self-generating power generator - Google Patents

Abstract

The utility model discloses a direction-changeable photovoltaic panel frame of a self-generating device, which comprises a base, a photovoltaic panel body, a moving assembly, a nested column, a telescopic rod, a universal head and a second telescopic assembly, wherein a support column is arranged in the middle section of the left side of the upper surface of the base, the upper surface of the support column is nested and connected with a rotating seat, the upper end of the outer surface of the rotating seat is rotationally connected with the photovoltaic panel body, the moving assembly is arranged at the upper right corner of the upper surface of the base, the direction-changeable photovoltaic panel frame of the self-generating device can control the stability of the photovoltaic panel body and is matched with the rotatable moving seat when the angle of the photovoltaic panel body is adjusted, and a roller is arranged at the bottom of the photovoltaic panel body, so that the stability of the moving seat in rotation is improved, the friction is reduced, the second telescopic assembly for assisting is used for preventing the photovoltaic panel body from being unstable when the self-generating device is used at high, and the safety stability of the direction-changeable photovoltaic panel frame used by the self-generating device is integrally improved.

Description

Direction-changeable light Fu Banjia of self-generating power generator

Technical Field

The utility model relates to the technical field of photovoltaic panel frames of self-generating devices, in particular to a direction-changeable photovoltaic panel frame of a self-generating device.

Background

When the self-generating power generator generates power by using the photovoltaic panel, the angle of the photovoltaic panel is required to be adjusted by arranging the photovoltaic panel base supporting structure and matching with the inclined support arranged, and the stability of the electric quantity absorbed by the photovoltaic panel is improved, but the photovoltaic panel bracket used at present has some problems during working.

In the prior art, the grant publication (bulletin) number: the utility model relates to a photovoltaic bracket with a turning function in CN217240627U, which belongs to the technical field of photovoltaic power generation, and particularly relates to a photovoltaic bracket with a turning function, comprising a photovoltaic bracket main body, wherein fixed cross beams are arranged at four corners of the top of the photovoltaic bracket main body, a driving motor is arranged in the middle of the fixed cross beams, a central turntable is arranged at the top of the driving motor, a stand column is arranged at the top of the central turntable, a rotary fixing arm is arranged at the top of the stand column, and a photovoltaic frame is arranged at the top of the rotary fixing arm; according to the photovoltaic bracket, the photovoltaic bracket can be conveniently rotated by utilizing the central turntable, the included angle between the photovoltaic bracket and the ground can be adjusted by utilizing the rotary telescopic arm and the rotary fixed arm, and the photovoltaic bracket can be automatically and uniformly adjusted along with the sunlight angle according to parameters by utilizing the driving motor and the controller, so that the maximization of the photoelectric conversion rate is ensured, and the use requirements of various regional environments are met;

in the process of the device, when the device works, the photovoltaic support main body 1 is placed at a designated position, the support is fixed by the balancing weight 2, the driving motor 4 is started after the illumination angle parameter is input by the controller 12 according to the local illumination time, the driving motor 4 is used for driving the central turntable 5 to rotate and simultaneously driving the rotary telescopic arm 7 to adjust the angle, so that the photovoltaic frame 11 can always reach the optimal angle of sunlight illumination, the photovoltaic conversion efficiency of the photovoltaic panels is ensured to be maximized, but when the device is used, the gravity centers among the arranged photovoltaic panels are higher, the weight of the photovoltaic panels is arranged on the rotating shaft, the rotating shaft is very easy to damage, the photovoltaic panels are easy to adjust and unstable, and the stability of the photovoltaic panels is easy to influence when the photovoltaic panels are higher in use. For this purpose, we propose a reversible photovoltaic panel rack for a self-generator.

Disclosure of Invention

The utility model aims to provide a direction-changeable photovoltaic panel frame of a self-generating device, which aims to solve the problems that the gravity centers among photovoltaic panels proposed to be arranged in the background art are higher, the weight of the photovoltaic panels is arranged on a rotating shaft, the rotating shaft is easy to damage, the photovoltaic panels are easy to adjust and unstable, and the stability of the photovoltaic panels is easy to influence when the photovoltaic panels are higher in use.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a but from power storage unit's diversion photovoltaic grillage, includes base, photovoltaic board body, mobile unit, nested post, telescopic link, universal head and telescopic unit two, the support column is installed to the upper surface left side middle section of base, and the upper surface nested of support column is connected with the roating seat to the surface upper end rotation of roating seat is connected with the photovoltaic board body, and the mobile unit is installed at the upper surface upper right corner of base, the internal surface hub rotation of mobile unit is connected with straight-tooth gear, and the surface engagement of straight-tooth gear is connected with the rack, and the lower surface mounting of rack has spacing to with rack and spacing connection at the internal surface of mobile unit, the nested post is installed to the lower surface front end of rack simultaneously, the surface nested of nested post is connected with nested pole, and the internal surface of nested pole has seted up nested groove, and the surface left side of nested pole is installed and is removed the seat, removes the seat lower surface mounting simultaneously and remove the movable block, and with movable block sliding connection at the internal surface of base.

Preferably, the base forms a nested rotating structure with the rotating seat through the supporting column, the rotating seat and the photovoltaic panel body form a rotating structure, and the base and the end part of the lower surface of the moving assembly are embedded and arranged.

Preferably, the moving assembly forms a meshing structure through the straight-tooth gear and the rack, the rack forms a limiting penetrating structure through the limiting strip and the moving assembly, the rack forms an integrated structure with the limiting strip and the nested column, and meanwhile, the shape of the outer surface of the nested column is an inverted T-shaped cylindrical structure.

Preferably, the nested column and the nested rod form a limiting sliding structure through the nested groove, the nested rod, the movable seat and the movable block form an integrated structure, and the outer surface of the movable block is in an arc-shaped structure.

Preferably, the upper surface of moving the seat rotates and is connected with flexible subassembly one, and flexible subassembly one internal surface upper end telescopic connection has the telescopic link to the upper surface of telescopic link rotates and is connected with the photovoltaic board body, and installs the universal seat in the upper surface left side of base and the lower surface left side of photovoltaic board body respectively, and the internal surface of the universal seat of relative equipment is all nested to be connected with the universal head, and installs flexible subassembly two at the surface mounting of universal head.

Preferably, the movable seat forms a telescopic linkage rotating structure with the photovoltaic panel body through the telescopic component I and the telescopic rod, the universal seat is respectively in a nested integral structure with the base and the photovoltaic panel body, the universal seat forms a nested rotating structure with the telescopic component II through the universal head, and meanwhile, the telescopic component I and the telescopic component II are symmetrically arranged relative to the middle end of the outer surface of the base.

Compared with the prior art, the utility model has the beneficial effects that:

1. the direction-changeable photovoltaic panel frame of the self-power storage device is provided with the supporting columns and the rotating seats which are stably supported and positioned to rotate, can control the stability of the photovoltaic panel body when the angle of the photovoltaic panel body is adjusted, is matched with the rotatable moving seat, is provided with the rollers at the bottom, improves the stability of the moving seat when the moving seat rotates and reduces friction, prevents the photovoltaic panel body from being unstable when the photovoltaic panel body is higher than the photovoltaic panel frame for use through the second telescopic assembly for assistance, and integrally improves the safety stability of the direction-changeable photovoltaic panel frame used by the self-power storage device.

2. The direction-changeable photovoltaic panel frame of the self-power generator is provided with the racks which are convenient for the assembly of the limit strips for limiting movement, the nested columns which are arranged at the lower side of the front end of the racks are matched with the nested grooves which are arranged on the nested rods to slide in a matched manner, and rotation adjustment is formed, so that the photovoltaic panel body is controlled to rotate in an angle, the rotation stability is improved, the length of the racks can be increased on the photovoltaic panel bodies which are connected in a row, and the nested columns are uniformly arranged to carry out multi-group synchronous adjustment control.

Drawings

FIG. 1 is a schematic view of a base of the present utility model;

FIG. 2 is a schematic view of a semi-sectional perspective structure of a base of the present utility model;

FIG. 3 is a schematic perspective view of a semi-cutaway view of the telescoping assembly of the present utility model;

FIG. 4 is a schematic view of a partially cut-away perspective structure of a mobile assembly according to the present utility model;

fig. 5 is an enlarged perspective view of fig. 4 a according to the present utility model.

In the figure: 1. a base; 2. a support column; 3. a rotating seat; 4. a photovoltaic panel body; 5. a moving assembly; 6. a spur gear; 7. a rack; 8. a limit bar; 9. a nested column; 10. a nested rod; 11. a nesting groove; 12. a moving block; 13. a movable seat; 14. a first telescopic component; 15. a telescopic rod; 16. a universal seat; 17. a universal head; 18. and a second telescopic component.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a but from power generator's diversion photovoltaic grillage, including base 1, photovoltaic board body 4, remove subassembly 5, nested post 9, telescopic link 15, universal head 17 and telescopic link second 18, support column 2 is installed to the upper surface left side middle section of base 1, and the upper surface nested of support column 2 is connected with roating seat 3, and the surface upper end rotation of roating seat 3 is connected with photovoltaic board body 4, and the upper surface upper right corner of base 1 installs remove subassembly 5, the internal surface axle rotation of remove subassembly 5 is connected with spur gear 6, and spur gear 6's surface engagement is connected with rack 7, and rack 7's lower surface installs spacing 8, and with rack 7 and spacing 8 spacing connection at removal subassembly 5's internal surface, nested post 9 is installed to rack 7's lower surface front end simultaneously, nested post 9's surface nested is connected with nested pole 10, and nested post 10's internal surface has seted up nested groove 11, and nested post 10's surface left side installs removal seat 13, remove 13 lower surface mounting and remove the piece 12 at the same time, and with the internal surface of removal piece 12 of base 1 sliding connection.

The base 1 forms nested revolution mechanic through support column 2 and roating seat 3, and roating seat 3 forms revolution mechanic with photovoltaic board body 4 to the embedded installation of lower surface tip of base 1 and mobile assembly 5 sets up, carries out stable low altitude support rotation through above-mentioned structure, when improving the supporting force, prevents to cause excessive damage to rotatory seat 3 and support column 2.

The movable assembly 5 and the rack 7 form a meshing structure through the straight-tooth gear 6, the rack 7 and the movable assembly 5 form a limiting penetrating structure through the limiting strip 8, the rack 7, the limiting strip 8 and the nested column 9 form an integrated structure, meanwhile, the shape of the outer surface of the nested column 9 is of an inverted T-shaped cylindrical structure, limiting meshing straight line adjustment is formed through the structure, and the position of the nested column 9 is adjusted while the position of the rack 7 is controlled.

The nested column 9 forms a limiting sliding structure with the nested rod 10 through the nested groove 11, the nested rod 10 forms an integral structure with the movable seat 13 and the movable block 12, the outer surface of the movable block 12 is of an arc-shaped structure, the movable seat 13 assembled by the nested rod 10 can be regulated and controlled through the movement of the nested column 9, and the angle and the position of the photovoltaic panel body 4 are regulated.

The upper surface rotation of remove seat 13 is connected with flexible subassembly one 14, and flexible subassembly one 14 internal surface upper end telescopic connection has telescopic link 15, and the upper surface rotation of telescopic link 15 is connected with photovoltaic board body 4, and install universal seat 16 respectively in the upper surface left side of base 1 and the lower surface left side of photovoltaic board body 4, and the equal nested universal head 17 that is connected with of the internal surface of the universal seat 16 of relative equipment, and install flexible subassembly two 18 at the surface mounting of universal head 17, assemble the extending structure that stabilizes through above-mentioned structure, but the supplementary extending structure of cooperation setting when flexible angle regulation, when providing flexible supporting force, improve the stability of photovoltaic board body 4.

The movable seat 13 forms a telescopic linkage rotating structure with the photovoltaic panel body 4 through the telescopic component I14 and the telescopic rod 15, the universal seat 16 forms a nested integral structure with the base 1 and the photovoltaic panel body 4 respectively, the universal seat 16 forms a nested rotating structure with the telescopic component II 18 through the universal head 17, and meanwhile, the telescopic component I14 and the telescopic component II 18 are symmetrically arranged relative to the middle end of the outer surface of the base 1, and the angle of the photovoltaic panel body 4 is effectively adjusted in a telescopic mode through the structure.

Working principle: when the photovoltaic panel body 4 arranged from the power generator is used, the support column 2 assembled through the base 1 and the rotating seat 3 assembled by nesting the support column 2 are rotationally connected with the left side of the lower surface of the photovoltaic panel body 4, the adjustment of the horizontal angle can also be used for adjusting the vertical angle and is positioned on the left side of the outer surface of the photovoltaic panel body 4, the stability of the photovoltaic panel body 4 can be improved, the service life of the support column 2 for rotation is prolonged, when lighting and power storage are carried out later, the motor arranged through the base 1 adjusts the straight-tooth gear 6 nested by the moving assembly 5 through the rotating shaft to rotate, the control rack 7 is meshed with the control rack 7 under the limit control of the limit strip 8 to carry out limit movement, the control rack 7 is used for assembling the nesting column 9, the nesting rod 10 is adjusted to rotate, and the nesting column 9 is controlled to form limit movement in the process of rotating in the nesting groove 11, the movable block 12 installed on the movable seat 13 is synchronously regulated in the base 1, positioning rotation is formed through the support column 2, rollers arranged on the movable block 12 are matched, abrasion among devices is reduced, when the movable seat 13 is regulated in angle, the telescopic component I14 which is synchronously driven to rotate and regulate on the movable seat 13 and the photovoltaic panel body 4 which is rotationally connected with the telescopic rod 15 arranged on the telescopic component I14 are rotationally regulated, linkage rotation regulation is formed, the telescopic control of the telescopic component I14 and the telescopic rod 15 is controlled, the photovoltaic panel body 4 is controlled to form linkage regulation, when the photovoltaic panel body 4 rotates, the telescopic component II 18 which is arranged to assist in telescopic is nested with the universal head 17 and the universal seat 16 which are assembled on the telescopic component II 18, the stability of the photovoltaic panel body 4 is improved, excessive inclination of the photovoltaic panel body 4 is prevented, and stability of the support column 2.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a but from power storage device's diversion photovoltaic grillage, includes base (1), photovoltaic board body (4), remove subassembly (5), nested post (9), telescopic link (15), universal head (17) and flexible subassembly two (18), its characterized in that: support column (2) are installed in upper surface left side middle section of base (1), and the upper surface nest of support column (2) is connected with roating seat (3) to the surface upper end rotation of roating seat (3) is connected with photovoltaic board body (4), and remove subassembly (5) are installed in the upper surface upper right corner of base (1), the internal surface axle rotation of removing subassembly (5) is connected with straight tooth gear (6), and the surface engagement of straight tooth gear (6) is connected with rack (7), and the lower surface mounting of rack (7) has spacing (8), and with rack (7) and spacing (8) spacing internal surface at remove subassembly (5), nested post (9) are installed to the lower surface front end of rack (7) simultaneously, nested pole (10) are connected with of surface nest post (9), and nested groove (11) are seted up to the internal surface of nested pole (10), and remove seat (13) are installed in the surface left side of nested pole (10), remove seat (13) lower surface mounting and remove piece (12) and will remove piece (1) at the surface sliding connection in base (1).

2. The reversible photovoltaic panel rack of a self-generator as claimed in claim 1, wherein: the base (1) and the rotating seat (3) form a nested rotating structure through the supporting columns (2), the rotating seat (3) and the photovoltaic panel body (4) form a rotating structure, and the lower surface end parts of the base (1) and the moving assembly (5) are embedded and arranged.

3. The reversible photovoltaic panel rack of a self-generator as claimed in claim 1, wherein: the movable assembly (5) and the rack (7) form a meshing structure through the straight-tooth gear (6), the rack (7) and the movable assembly (5) form a limiting penetrating structure through the limiting strip (8), the rack (7), the limiting strip (8) and the nested column (9) form an integrated structure, and meanwhile, the shape of the outer surface of the nested column (9) is of an inverted T-shaped cylindrical structure.

4. The reversible photovoltaic panel rack of a self-generator as claimed in claim 1, wherein: the nested column (9) and the nested rod (10) form a limiting sliding structure through the nested groove (11), the nested rod (10), the movable seat (13) and the movable block (12) form an integrated structure, and the outer surface of the movable block (12) is in an arc-shaped structure.

5. The reversible photovoltaic panel rack of a self-generator as claimed in claim 1, wherein: the upper surface of remove seat (13) rotates and is connected with flexible subassembly one (14), and flexible subassembly one (14) internal surface upper end telescopic connection has telescopic link (15), and the upper surface of telescopic link (15) rotates and is connected with photovoltaic board body (4), and install universal seat (16) respectively in the upper surface left side of base (1) and the lower surface left side of photovoltaic board body (4), and the internal surface of the equal nested universal head (17) that is connected with of universal seat (16) of relative equipment, and install flexible subassembly two (18) at the surface of universal head (17).

6. The photovoltaic panel rack of claim 5, wherein: the movable seat (13) forms a telescopic linkage rotating structure with the photovoltaic panel body (4) through the telescopic component I (14) and the telescopic rod (15), the universal seat (16) is respectively in a nested integral structure with the base (1) and the photovoltaic panel body (4), the universal seat (16) forms a nested rotating structure with the telescopic component II (18) through the universal head (17), and meanwhile the telescopic component I (14) and the telescopic component II (18) are symmetrically arranged with respect to the middle end of the outer surface of the base (1).