CN219893247U

CN219893247U - Solar panel angle adjustment telescopic machanism

Info

Publication number: CN219893247U
Application number: CN202321263012.4U
Authority: CN
Inventors: 王浩宇; 黄海勇
Original assignee: Shenzhen Sunshine Solar Energy Co ltd
Current assignee: Shenzhen Sunshine Solar Energy Co ltd
Priority date: 2023-05-22
Filing date: 2023-05-22
Publication date: 2023-10-24
Anticipated expiration: 2033-05-22

Abstract

The utility model discloses a solar panel angle adjusting and telescoping mechanism which comprises a telescoping beam, a length adjusting support column and a fixed support column, wherein the upper end of the fixed support column is rotatably connected with a top plate of which the surface is provided with a solar panel, the telescoping beam is arranged on the bottom surface of the top plate, the telescoping end of the telescoping beam is far away from the fixed support column along the width direction of the top plate and is rotatably connected with the telescoping end of the length adjusting support column, and the telescoping beam is contracted and lengthened in a follow-up way along with the lengthening and shortening of the length adjusting support column. The beneficial effects are that: the length of the length-adjustable supporting rod is adjusted, the follow-up extension of the extension beam is realized, and the top plate rotates relative to the upper end of the fixed supporting column, so that the angle adjustment of the solar panel is realized, the inclination angle of the solar panel and the solar incident angle are ensured to be at the optimal positions, and the power generation efficiency of the solar panel is improved.

Description

Solar panel angle adjustment telescopic machanism

Technical Field

The utility model relates to the technical field of solar charging, in particular to a solar panel angle adjusting telescopic mechanism.

Background

In order to advocate clean energy and assist green traveling, a solar ceiling type charging device is developed for solving the charging problem of electric walking tools such as electric bicycles, electric wheelchairs and the like. However, the solar ceiling is a fixed structure, cannot be subjected to angle adjustment, and has an unsatisfactory solar light receiving effect when the incident angle of the sun is low in winter or high-latitude areas, so that the power generation efficiency is seriously affected. Therefore, the angle adjusting telescopic mechanism of the solar panel is designed, so that the angle adjustment of a solar ceiling can be realized, and the power generation efficiency is improved.

Disclosure of Invention

The present utility model aims to solve the above problems and provide a solar panel angle adjusting telescopic mechanism, which is described in detail below.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a solar panel angle adjusting and telescoping mechanism which comprises a telescoping beam, a length adjusting support column and a fixed support column, wherein the upper end of the fixed support column is rotationally connected with a top plate of which the surface is provided with a solar panel, the telescoping beam is arranged on the bottom surface of the top plate, the telescoping end of the telescoping beam is far away from the fixed support column along the width direction of the top plate and is rotationally connected with the telescoping end of the length adjusting support column, and the telescoping beam is contracted and lengthened in a follow-up way along with the lengthening and shortening of the length adjusting support column.

By adopting the solar panel angle adjusting and telescoping mechanism, when the solar panel angle adjusting and telescoping mechanism is used, the bottom ends of the fixed support column and the length-adjusting support column are connected with an electric walking aid, and when the solar panel angle adjusting and telescoping mechanism runs normally, the length-adjusting support column is extended, the telescoping cross beam is retracted in a follow-up manner, so that the top plate rotates relative to the upper end of the fixed support column, the top plate is in a horizontal state, the wind resistance of the top plate is reduced, and the electric walking aid is ensured to run smoothly; when charging is needed, the length-adjusting support column is shortened, the telescopic beam is extended in a follow-up mode, the top plate is driven to rotate relative to the upper end of the fixed support column, the inclination angle of the top plate is adjusted, the sunlight incident angle and the inclination angle of the solar panel are guaranteed to be in reasonable positions, and therefore the power generation efficiency of the solar panel is improved.

Preferably, the fixed support columns and the length-adjustable support columns are respectively arranged at two and distributed at four corners of the bottom surface of the top plate.

Preferably, the telescopic cross beam comprises a fixed pipe, the fixed pipe is connected to the bottom surface of the bottom plate, the fixed pipe is close to the edge of the bottom plate in the length direction and extends along the width direction of the bottom plate, a sliding pipe is arranged inside the fixed pipe in a sliding mode, and the sliding pipe penetrates out of the fixed pipe in the direction away from the fixed support column and is connected with the telescopic end of the length-adjusting support column in a rotating mode.

Preferably, the length-adjusting support column comprises a bearing tube, a plurality of positioning holes are uniformly formed in the outer wall of the bearing tube along the axis direction of the bearing tube, a lifting tube is slidably arranged in the bearing tube, a spring positioning bead matched with the positioning holes is arranged at the bottom end of the lifting end, and the upper end of the lifting tube is rotationally connected with the outer end of the sliding tube.

Preferably, the upper end of the lifting tube is rotationally connected with the outer end of the sliding tube through a rotary joint, the rotary joint comprises a first threaded tube and a second threaded tube, the end parts of the first threaded tube and the second threaded tube are respectively provided with a U-shaped seat and a rotary plate, the rotary plate is rotationally arranged inside the U-shaped seat through bolts and nuts, relative rotation of the first threaded tube and the second threaded tube is achieved, and the first threaded tube and the second threaded tube are respectively in threaded connection with the lifting tube and the sliding tube.

Preferably, both side surfaces in the thickness direction of the rotating plate are respectively abutted against the inner wall of the U-shaped seat.

Preferably, the bottom surface of the top plate is provided with a fixed lug plate, the upper end of the fixed supporting column is provided with a connecting lug plate, and the connecting lug plate is rotationally connected with the fixed lug plate through bolts and nuts.

Preferably, two fixed ear plates connected with the connecting ear plates are arranged, the connecting ear plates are positioned between the two fixed ear plates, and the connecting ear plates are abutted with the two fixed ear plates.

The beneficial effects are that: by adjusting the length of the length-adjusting supporting rod, the follow-up extension of the extension beam is realized, the top plate rotates relative to the upper end of the fixed supporting column, the angle adjustment of the top plate is realized, the effect of adjusting the angle of the solar panel is achieved, the sunlight incident angle and the inclination angle of the solar panel are ensured to be at reasonable positions, and therefore the power generation efficiency of the solar panel is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the connection structure of the length-adjustable support column and the telescopic cross beam of the utility model;

FIG. 3 is a schematic view of the rotary joint of the present utility model;

FIG. 4 is a schematic view of the connection structure of the fixed support column and the top plate of the present utility model;

FIG. 5 is a schematic view of the device for adjusting the angle of the top plate;

FIG. 6 shows an example of the present utility model;

FIG. 7 shows a second practical application example of the present utility model;

fig. 8 is a practical example three of the present utility model.

The reference numerals are explained as follows:

1. a telescopic cross beam; 101. a fixed tube; 102. a sliding tube; 2. a length-adjustable support column; 201. a lifting tube; 202. a spring positioning bead; 203. a carrier tube; 204. positioning holes; 3. fixing the support column; 4. a top plate; 401. connecting an ear plate; 402. fixing the ear plate; 5. a solar panel; 6. a rotary joint; 601. a first threaded pipe; 602. a U-shaped seat; 603. a rotating plate; 604. and a second threaded pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Referring to fig. 1-5, the utility model provides a solar panel angle adjusting and telescoping mechanism, which comprises a telescoping beam 1, a length adjusting support column 2 and a fixed support column 3, wherein the upper end of the fixed support column 3 is rotationally connected with a top plate 4 with a solar panel 5 mounted on the surface, the telescoping beam 1 is arranged on the bottom surface of the top plate 4, the telescoping end of the telescoping beam 1 is far away from the fixed support column 3 along the width direction of the top plate 4 and is rotationally connected with the telescoping end of the length adjusting support column 2, and the telescoping beam 1 is correspondingly contracted and lengthened along with the length and the length of the length adjusting support column 2.

As an alternative embodiment, the fixed support columns 3 and the length-adjustable support columns 2 are respectively provided with two fixed support columns and distributed at four corners of the bottom surface of the top plate 4, and thus, the stability of the top plate 4 can be ensured.

The telescopic beam 1 comprises a fixed pipe 101, the fixed pipe 101 is connected to the bottom surface of the bottom plate, the fixed pipe 101 is close to the edge of the bottom plate in the length direction and extends along the width direction of the bottom plate, a sliding pipe 102 is arranged inside the fixed pipe 101 in a sliding mode, the sliding pipe 102 penetrates out of the fixed pipe 101 in the direction away from the fixed support column 3 and is rotationally connected with the telescopic end of the length-adjusting support column 2, and thus, when the length of the length-adjusting support column 2 is adjusted, the sliding pipe 102 is driven to slide inside the fixed pipe 101, the follow-up telescopic beam 1 is realized, the upper end of the top plate 4 is driven to rotate relative to the upper end of the fixed support column 3 through the fixed pipe 101, and the inclination angle of the top plate 4 is adjusted.

The length-adjusting support column 2 comprises a bearing tube 203, a plurality of positioning holes 204 are uniformly formed in the outer wall of the bearing tube 203 along the axial direction of the bearing tube, a lifting tube 201 is slidably arranged in the bearing tube 203, a spring positioning bead 202 matched with the positioning holes 204 is arranged at the bottom end of the lifting end, the upper end of the lifting tube 201 is rotatably connected with the outer end of the sliding tube 102, and thus the lifting tube 201 is slidably lifted in the bearing tube 203, and the lifting tube 201 is fixed in the bearing tube 203 by being matched with the spring positioning bead 202 and the positioning holes 204, so that the length adjustment of the length-adjusting support column 2 is realized.

The upper end of the lifting tube 201 is rotationally connected with the outer end of the sliding tube 102 through a rotary joint 6, the rotary joint 6 comprises a first threaded tube 601 and a second threaded tube 604, the ends of the first threaded tube 601 and the second threaded tube 604 are respectively provided with a U-shaped seat 602 and a rotary plate 603, the rotary plate 603 is rotationally arranged inside the U-shaped seat 602 through bolts and nuts, the first threaded tube 601 and the second threaded tube 604 are relatively rotated, the first threaded tube 601 and the second threaded tube 604 are respectively in threaded connection with the lifting tube 201 and the sliding tube 102, the first threaded tube 601 and the second threaded tube 604 are relatively rotated through the rotary plate 603 and the U-shaped seat 602, the lifting tube 201 is rotationally connected with the sliding tube 102, the lifting tube 201 is lifted and lowered, the sliding tube 102 is driven to slide inside the fixed tube 101, and the top plate 4 is driven to rotate relative to the upper end of the fixed column through the fixed tube 101, and the inclination angle of the top plate 4 is adjusted.

The two side surfaces in the thickness direction of the rotating plate 603 are respectively abutted against the inner wall of the U-shaped seat 602, and thus the stability of the rotary connection between the length-adjusting support column 2 and the telescopic cross beam 1 can be improved.

The bottom surface of the top plate 4 is provided with a fixed lug plate 402, the upper end of the fixed support column 3 is provided with a connecting lug plate 401, and the connecting lug plate 401 is rotationally connected with the fixed lug plate 402 through bolts and nuts.

The fixed otic placode 402 that is connected with the connection otic placode 401 is provided with two, and the connection otic placode 401 is located between two fixed otic placodes 402, and the connection otic placode 401 and two fixed otic placode 402 butt set up like this, can improve the swivelling joint stability of fixed support column 3 and roof 4.

By adopting the structure, when the electric walking aid is used, the bottom ends of the fixed support columns 3 and the length-adjustable support columns 2 are connected with the electric walking aid, and when the electric walking aid runs normally, the length-adjustable support columns 2 are extended, the telescopic cross beams 1 shrink in a follow-up manner, so that the top plate 4 rotates relative to the upper ends of the fixed support columns 3, the top plate 4 is in a horizontal state, the wind resistance of the top plate 4 is reduced, and the electric walking aid is ensured to run smoothly; when charging is needed, the length-adjusting support column 2 is shortened, the telescopic beam is extended in a follow-up mode, the top plate 4 is driven to rotate relative to the upper end of the fixed support column 3, the inclination angle of the top plate 4 is adjusted, the effect of adjusting the angle of the solar panel 5 is achieved, the sunlight incident angle and the inclination angle of the solar panel 5 are guaranteed to be at reasonable positions, and therefore the power generation efficiency of the solar panel 5 is improved.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a solar panel angle modulation telescopic machanism which characterized in that: including flexible crossbeam (1), accent long support column (2) and fixed support column (3), roof (4) that fixed support column (3) upper end and surface mounting have solar panel (5) rotate to be connected, flexible crossbeam (1) set up in roof (4) bottom surface, the flexible end of flexible crossbeam (1) is kept away from fixed support column (3) and is connected with the flexible end rotation of accent long support column (2) along roof (4) width direction, flexible crossbeam (1) is along with the lengthening of accent long support column (2), shorten and follow-up shrink, extension.

2. The solar panel angle adjustment telescoping mechanism of claim 1, wherein: the fixed support columns (3) and the length-adjustable support columns (2) are respectively provided with two fixed support columns and distributed at four corners of the bottom surface of the top plate (4).

3. The solar panel angle adjustment telescoping mechanism of claim 2, wherein: the telescopic cross beam (1) comprises a fixed pipe (101), the fixed pipe (101) is connected to the bottom surface of the bottom plate, the fixed pipe (101) is close to the edge of the bottom plate in the length direction and extends along the width direction of the bottom plate, a sliding pipe (102) is arranged in the fixed pipe (101) in a sliding mode, and the sliding pipe (102) penetrates out of the fixed pipe (101) in the direction away from the fixed support column (3) and is connected with the telescopic end of the length-adjusting support column (2) in a rotating mode.

4. A solar panel angle adjustment telescoping mechanism as claimed in claim 3, wherein: the length-adjustable support column (2) comprises a bearing tube (203), a plurality of positioning holes (204) are uniformly formed in the outer wall of the bearing tube (203) along the axis direction of the bearing tube, a lifting tube (201) is arranged in the bearing tube (203) in a sliding mode, a spring positioning bead (202) matched with the positioning holes (204) is arranged at the bottom end of the lifting end, and the upper end of the lifting tube (201) is connected with the outer end of the sliding tube (102) in a rotating mode.

5. The solar panel angle adjustment telescoping mechanism of claim 4, wherein: the lifting tube is characterized in that the upper end of the lifting tube (201) is rotationally connected with the outer end of the sliding tube (102) through a rotary joint (6), the rotary joint (6) comprises a first threaded tube (601) and a second threaded tube (604), U-shaped seats (602) and rotating plates (603) are respectively arranged at the ends of the first threaded tube (601) and the second threaded tube (604), the rotating plates (603) are rotationally arranged inside the U-shaped seats (602) through bolts and nuts, relative rotation of the first threaded tube (601) and the second threaded tube (604) is achieved, and the first threaded tube (601) and the second threaded tube (604) are respectively in threaded connection with the lifting tube (201) and the sliding tube (102).

6. The solar panel angle adjustment telescoping mechanism of claim 5, wherein: both side surfaces in the thickness direction of the rotating plate (603) are respectively abutted against the inner wall of the U-shaped seat (602).

7. The solar panel angle adjustment telescoping mechanism of claim 2, wherein: the bottom surface of the top plate (4) is provided with a fixed lug plate (402), the upper end of the fixed support column (3) is provided with a connecting lug plate (401), and the connecting lug plate (401) is rotationally connected with the fixed lug plate (402) through bolts and nuts.

8. The solar panel angle adjustment telescoping mechanism of claim 7, wherein: the two fixed lug plates (402) connected with the connecting lug plates (401) are arranged, the connecting lug plates (401) are positioned between the two fixed lug plates (402), and the connecting lug plates (401) are abutted with the two fixed lug plates (402).