CN218829721U

CN218829721U - Bicycle shed photovoltaic module

Info

Publication number: CN218829721U
Application number: CN202222005092.5U
Authority: CN
Inventors: 李爱忠; 吕学景; 王凯
Original assignee: Tianjin Chang'an Shengshi Clean Energy Technology Co ltd
Current assignee: Tianjin Chang'an Shengshi Clean Energy Technology Co ltd
Priority date: 2022-08-01
Filing date: 2022-08-01
Publication date: 2023-04-07
Anticipated expiration: 2032-08-01

Abstract

The utility model discloses a bicycle shed photovoltaic module, including adjusting the structure and cleaning the structure, it includes rectangular frame, first reciprocal slip subassembly, adjusts pole and photovoltaic board subassembly to adjust the structure, first reciprocal slip subassembly set up in rectangular frame one side, adjust pole one end with first reciprocal slip subassembly rotates to be connected, just adjust the pole other end with photovoltaic board subassembly rotates to be connected, photovoltaic board subassembly with rectangular frame rotates to be connected, it includes second reciprocal slip subassembly, connecting rod, motor, pivot and cleaning brush to clean the structure, second reciprocal slip subassembly set up in photovoltaic board subassembly one side, the connecting rod with second reciprocal slip subassembly fixed connection, the connecting rod with photovoltaic board subassembly sliding connection. In this application, bicycle shed photovoltaic module conveniently cleans the photovoltaic board.

Description

Carport photovoltaic module

Technical Field

The utility model particularly relates to a bicycle shed photovoltaic module.

Background

The solar photovoltaic panel is a power generation device which can generate direct current after being exposed to the sun and consists of a thin solid photovoltaic cell made of semiconductor materials. Solar photovoltaic panels are an important component in solar power generation devices.

The current photovoltaic bicycle shed leads to the bicycle shed to need bear too big pressure owing to be equipped with too much photovoltaic module, and the bicycle shed needs to set up too much support column and bear weight, and the parking space of bicycle shed reduces, and the structure of photovoltaic board and bicycle shed generally is fixed, and the photovoltaic board angle of elevation can't be adjusted, and is lower to the utilization ratio of solar energy when the in-service use, can't satisfy actual needs.

To this, chinese patent application number is CN202020454721.0, a solar PV modules installing support for bicycle shed is disclosed, through rectangular frame, two-way threaded rod, the cooperation of connecting piece and connecting rod is used, when servo motor drives two-way threaded rod and rotates, the connecting piece relative movement at two-way threaded rod both ends, under the effect of connecting rod, adjust the angle of elevation of two photovoltaic boards, the utilization ratio of solar energy has been improved, and rectangular frame passes through connecting screw and bicycle shed support column interconnect, support the photovoltaic board, the stability that the bicycle shed supported has been guaranteed.

However, in the process of implementing the technical scheme in the embodiment of the present application, the inventor of the present application finds that the photovoltaic panel is not conveniently cleaned in the above-mentioned technology, and the car shed photovoltaic module needs to be used outdoors, so that dust is accumulated in the car shed photovoltaic module in the above-mentioned technology, and the power generation efficiency is affected.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's weak point, provide a bicycle shed photovoltaic module to reach the convenience and clean the photovoltaic board.

The embodiment of the application provides a bicycle shed photovoltaic module, including adjusting the structure and cleaning the structure, it includes rectangular frame, first reciprocal slide subassembly, regulation pole and photovoltaic board subassembly to adjust the structure, first reciprocal slide subassembly set up in rectangular frame one side, adjust pole one end with first reciprocal slide subassembly rotates to be connected, just adjust the pole other end with photovoltaic board subassembly rotates to be connected, photovoltaic board subassembly with rectangular frame rotates to be connected, clean the structure and include second reciprocal slide subassembly, connecting rod, motor, pivot and brush cleaner, second reciprocal slide subassembly set up in photovoltaic board subassembly one side, the connecting rod with second reciprocal slide subassembly fixed connection, the connecting rod with photovoltaic board subassembly sliding connection, the motor install in connecting rod one side, the pivot with the motor output end is connected, the pivot with the connecting rod rotates to be connected, the brush cleaner set up in pivot one side, the brush cleaner with the laminating of photovoltaic board subassembly.

In a specific embodiment, first reciprocating sliding subassembly includes that first servo motor, two-way lead screw, two first lead screw nut are vice and first fixed block, first servo motor install in rectangular frame one side, two-way lead screw with the first servo motor output is connected, two-way lead screw with first fixed block rotates to be connected, first fixed block set up in rectangular frame one side, two first lead screw nut is vice all with two-way screw connection, two first lead screw nut is vice all with rectangular frame sliding connection, two the vice one end of first lead screw nut all articulates there is the regulation pole.

In the implementation process, the angle of the photovoltaic panel assembly can be conveniently adjusted by matching the first servo motor, the two-way screw rod, the two first screw nut pairs and the first fixing block, and the utilization rate of solar energy is improved.

In a specific implementation scheme, a first bearing is embedded on one side of the first fixed block, and one end of the bidirectional lead screw is in interference fit with an inner ring of the first bearing.

In the implementation process, one end of the bidirectional lead screw is in interference fit with the inner ring of the first bearing, so that the bidirectional lead screw can be conveniently connected with the first fixed block in a rotating mode, and meanwhile, the loss generated by rotation is reduced.

In a specific implementation scheme, two first sliding blocks are arranged on one side of each of the first lead screw nut pairs, a first sliding groove is formed in one side of the rectangular frame, and the first sliding blocks are connected with the first sliding grooves in a sliding mode.

In the implementation process, the first sliding block is connected with the first sliding groove in a sliding mode, so that the first lead screw nut pair can be connected with the rectangular frame in a sliding mode conveniently, and meanwhile the first lead screw nut pair is limited in sliding.

In a specific embodiment, the photovoltaic panel assembly comprises a mounting frame and photovoltaic panels, the photovoltaic panels are arranged in the mounting frame, one side of the mounting frame is rotatably connected with the adjusting rod, and the other side of the mounting frame is rotatably connected with the rectangular frame.

At above-mentioned implementation process, the photovoltaic board passes through the screw rod to be fixed in the installation frame, can the person of facilitating the use carry out the dismouting change.

In a specific implementation scheme, the second reciprocating sliding assembly comprises a second servo motor, a ball screw pair, a second screw nut pair and a second fixing block, the second servo motor is installed on one side of the installation frame, the ball screw pair is fixedly connected with the output end of the second servo motor, the ball screw pair is rotatably connected with the second fixing block, the second fixing block is arranged on one side of the installation frame, the second screw nut pair is connected with the ball screw pair, and the second screw nut pair is connected with the connecting rod.

In the implementation process, through the cooperation between the second servo motor, the ball screw pair, the second screw nut pair and the second fixing block, the photovoltaic panel can be conveniently cleaned by driving the connecting rod, the motor, the rotating shaft and the cleaning brush to reciprocate, and the influence on the power generation efficiency due to the accumulation of dust is avoided.

In a specific implementation scheme, a second bearing is embedded on one side of the second fixed block, and one end of the ball screw pair is in interference fit with an inner ring of the second bearing.

In the implementation process, one end of the ball screw pair is in interference fit with the inner ring of the second bearing, so that the ball screw pair can be conveniently connected with the second fixed block in a rotating mode, and meanwhile loss caused by rotation is reduced.

In a specific implementation scheme, a second sliding block is arranged on one side of the connecting rod, a second sliding groove is formed in one side of the installation frame, and the second sliding block is connected with the second sliding groove in a sliding mode.

At above-mentioned realization in-process, through second slider and second spout sliding connection, can make things convenient for the sliding connection of connecting rod and installation frame, carry on spacingly to the slip of connecting rod simultaneously.

Compared with the prior art, the beneficial effect of this application: through the setting of rectangular frame, first reciprocal slip subassembly and regulation pole, can conveniently adjust the angle of photovoltaic panel subassembly, improve the utilization ratio of solar energy, drive connecting rod reciprocating motion through the reciprocal slip subassembly of second, the motor drives the pivot at the connecting rod internal rotation to drive the brush cleaner rotation and reciprocate and clean photovoltaic panel subassembly, avoided because piling up of dust and influence generating efficiency.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic cross-sectional structural view of a carport photovoltaic module provided in an embodiment of the present application;

FIG. 2 is a schematic side view of a cleaning structure according to an embodiment of the present disclosure;

FIG. 3 is a schematic top view of an adjustment structure provided in an embodiment of the present application;

fig. 4 is a schematic cross-sectional structure diagram of a cleaning structure provided in the embodiment of the present application.

In the figure: 10-a modulating structure; 110-a rectangular frame; 120-a first reciprocating slide assembly; 121-a first servomotor; 122-bidirectional lead screw; 123-a first lead screw nut pair; 124-first fixed block; 130-adjusting rod; 140-a photovoltaic panel assembly; 141-a mounting frame; 142-a photovoltaic panel; 150-a first slider; 20-a sweeping structure; 210-a second reciprocating slide assembly; 211-a second servomotor; 212-ball screw pair; 213-a second screw-nut pair; 214-a second fixed block; 220-a connecting rod; 230-a motor; 240-a rotating shaft; 250-cleaning brush; 260-second slider.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1, the present application provides a carport photovoltaic module, which includes a regulating structure 10 and a sweeping structure 20.

Specifically, adjust the convenient angle of adjusting photovoltaic module of structure 10, clean structure 20 and conveniently clean photovoltaic module.

Referring to fig. 1, 2 and 3, the adjusting structure 10 includes a rectangular frame 110, a first reciprocating sliding assembly 120, an adjusting rod 130 and a photovoltaic panel assembly 140, the first reciprocating sliding assembly 120 is disposed at one side of the rectangular frame 110, one end of the adjusting rod 130 is rotatably connected to the first reciprocating sliding assembly 120, the other end of the adjusting rod 130 is rotatably connected to the photovoltaic panel assembly 140, and the photovoltaic panel assembly 140 is rotatably connected to the rectangular frame 110.

When specifically setting up, first reciprocating sliding assembly 120 includes first servo motor 121, two-way lead screw 122, two first lead screw nut pairs 123 and first fixed block 124, first servo motor 121 install in rectangular frame 110 one side, two-way lead screw 122 with first servo motor 121 output is connected, two-way lead screw 122 with first fixed block 124 rotates and connects, first fixed block 124 set up in rectangular frame 110 one side, two first lead screw nut pairs 123 all with two-way lead screw 122 rotates and connects, two first lead screw nut pairs 123 all with rectangular frame 110 sliding connection, two first lead screw nut pairs 123 one end all articulates there is regulation pole 130, wherein, through the cooperation use between first servo motor 121, two-way lead screw 122, two first lead screw nut pairs 123 and the first fixed block 124, can conveniently adjust the angle of photovoltaic board subassembly 140, has improved the utilization ratio of solar energy.

When the bidirectional screw 122 is specifically arranged, a first bearing is embedded on one side of the first fixing block 124, one end of the bidirectional screw 122 is in interference fit with the inner ring of the first bearing, wherein the bidirectional screw 122 can be conveniently connected with the first fixing block 124 in a rotating mode through interference fit of one end of the bidirectional screw 122 and the inner ring of the first bearing, and meanwhile loss caused by rotation is reduced.

When specifically setting up, two first lead screw nut is vice 123 one side all is provided with first slider 150, first spout has been seted up to rectangular frame 110 one side, first slider 150 and first spout sliding connection, wherein, through first slider 150 and first spout sliding connection, can make things convenient for the sliding connection of first lead screw nut is vice 123 and rectangular frame 110, carries on spacingly to the slip of first lead screw nut is vice 123 simultaneously.

In a specific setting, the photovoltaic panel assembly 140 includes an installation frame 141 and a photovoltaic panel 142, the photovoltaic panel 142 is disposed in the installation frame 141, one side of the installation frame 141 is rotatably connected to the adjustment rod 130, and the other side of the installation frame 141 is rotatably connected to the rectangular frame 110, wherein the photovoltaic panel 142 is fixed in the installation frame 141 by a screw, so that a user can conveniently detach, assemble and replace the photovoltaic panel.

Referring to fig. 1, 2 and 4, the cleaning structure 20 includes a second reciprocating sliding assembly 210, a connecting rod 220, a motor 230, a rotating shaft 240 and a cleaning brush 250, the second reciprocating sliding assembly 210 is disposed on one side of the photovoltaic panel assembly 140, the connecting rod 220 is fixedly connected to the second reciprocating sliding assembly 210, the connecting rod 220 is slidably connected to the photovoltaic panel assembly 140, the motor 230 is mounted on one side of the connecting rod 220, the rotating shaft 240 is connected to an output end of the motor 230, the rotating shaft 240 is rotatably connected to the connecting rod 220, the cleaning brush 250 is disposed on one side of the rotating shaft 240, and the cleaning brush 250 is attached to the photovoltaic panel assembly 140.

When specifically setting up, the second reciprocating sliding assembly 210 includes a second servo motor 211, a ball screw pair 212, a second screw nut pair 213 and a second fixed block 214, the second servo motor 211 is installed on one side of the installation frame 141, the ball screw pair 212 is fixedly connected with the output end of the second servo motor 211, the ball screw pair 212 is rotatably connected with the second fixed block 214, the second fixed block 214 is disposed on one side of the installation frame 141, the second screw nut pair 213 is rotatably connected with the ball screw pair 212, the second screw nut pair 213 is connected with the connecting rod 220, wherein the connecting rod 220, the motor 230, the rotating shaft 240 and the sweeping brush 250 can be conveniently driven to sweep the photovoltaic panel 142 in a reciprocating manner through the cooperation among the second servo motor 211, the ball screw pair 212, the second screw nut pair 213 and the second fixed block 214, and the power generation efficiency is prevented from being influenced by the accumulation of dust.

When the ball screw pair is specifically arranged, a second bearing is embedded on one side of the second fixed block 214, one end of the ball screw pair 212 is in interference fit with the inner ring of the second bearing, and the ball screw pair 212 can be conveniently in rotation connection with the second fixed block 214 through interference fit of one end of the ball screw pair 212 and the inner ring of the second bearing, and meanwhile, the loss generated by rotation is reduced.

When specifically setting up, connecting rod 220 one side is provided with second slider 260, the second spout has been seted up to installation frame 141 one side, second slider 260 and second spout sliding connection, wherein, through second slider 260 and second spout sliding connection, can make things convenient for the sliding connection of connecting rod 220 and installation frame 141, carry on spacingly to the slip of connecting rod 220 simultaneously.

This bicycle shed photovoltaic module's theory of operation: when the carport photovoltaic module is used, the rectangular frame 110 is in threaded fixation with a support column for supporting a carport through a connecting screw rod, when the angle of the photovoltaic panel 142 needs to be adjusted, the first servo motor 121 is started, the bidirectional screw rod 122 is driven to rotate in the first fixed block 124 through the rotation of the first servo motor 121, so that the two first screw nut pairs 123 are close to or away from each other, the adjusting rods 130 respectively fixed on one sides of the two first screw nut pairs 123 support the photovoltaic panel 142, the angle of the photovoltaic panel 142 is changed, when the surface of the photovoltaic panel 142 needs to be cleaned, the motor 230 and the second servo motor 211 are started, the ball screw pair 212 is driven to rotate in the second fixed block 214 through the second servo motor 211, the second screw nut pair 213 reciprocates on the ball screw pair 212, the connecting rod 220 fixed on one side of the second screw nut pair 213 slides in a reciprocating manner, the motor 230, the rotating shaft 240 and the cleaning brush 250 slide in a reciprocating manner, and the motor 230 drives the rotating shaft 240 to rotate in the connecting rod 220, so that the cleaning brush 250 fixed on one end of the rotating shaft 240 rotates, and the surface of the cleaning panel 142 is cleaned.

It should be noted that the specific model specifications of the first servo motor 121, the photovoltaic panel 142, the second servo motor 211, the motor 230, and the cleaning brush 250 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art, so detailed description is omitted.

The power supply of the first servo motor 121, the second servo motor 211, and the motor 230, and the principle thereof will be apparent to those skilled in the art, and will not be described in detail herein.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. The carport photovoltaic module is characterized by comprising an adjusting structure (10), wherein the adjusting structure (10) comprises a rectangular frame (110), a first reciprocating sliding assembly (120), an adjusting rod (130) and a photovoltaic panel assembly (140), the first reciprocating sliding assembly (120) is arranged on one side of the rectangular frame (110), one end of the adjusting rod (130) is rotatably connected with the first reciprocating sliding assembly (120), the other end of the adjusting rod (130) is rotatably connected with the photovoltaic panel assembly (140), and the photovoltaic panel assembly (140) is rotatably connected with the rectangular frame (110);

cleaning structure (20), cleaning structure (20) includes second reciprocal slip subassembly (210), connecting rod (220), motor (230), pivot (240) and brush cleaner (250), second reciprocal slip subassembly (210) set up in photovoltaic board subassembly (140) one side, connecting rod (220) with reciprocal slip subassembly (210) fixed connection of second, connecting rod (220) with photovoltaic board subassembly (140) sliding connection, motor (230) install in connecting rod (220) one side, pivot (240) with motor (230) output is connected, pivot (240) with connecting rod (220) rotate to be connected, brush cleaner (250) set up in pivot (240) one side, brush cleaner (250) with photovoltaic board subassembly (140) laminating.

2. The carport photovoltaic module of claim 1, wherein: the first reciprocating sliding assembly (120) comprises a first servo motor (121), a two-way lead screw (122), two first lead screw nut pairs (123) and a first fixing block (124), the first servo motor (121) is installed on one side of the rectangular frame (110), the two-way lead screw (122) is connected with the output end of the first servo motor (121), the two-way lead screw (122) is connected with the first fixing block (124) in a rotating mode, the first fixing block (124) is arranged on one side of the rectangular frame (110), the two first lead screw nut pairs (123) are connected with the two-way lead screw (122), the two first lead screw nut pairs (123) are connected with the rectangular frame (110) in a sliding mode, and one end of each first lead screw nut pair (123) is hinged with an adjusting rod (130).

3. The carport photovoltaic module of claim 2, wherein: and a first bearing is embedded on one side of the first fixing block (124), and one end of the bidirectional screw rod (122) is in interference fit with the inner ring of the first bearing.

4. The carport photovoltaic module of claim 2, wherein: two first sliding blocks (150) are arranged on one side of each first lead screw nut pair (123), a first sliding groove is formed in one side of the rectangular frame (110), and the first sliding blocks (150) are connected with the first sliding grooves in a sliding mode.

5. The carport photovoltaic module of claim 1, wherein: the photovoltaic panel assembly (140) comprises a mounting frame (141) and photovoltaic panels (142), the photovoltaic panels (142) are arranged in the mounting frame (141), one side of the mounting frame (141) is rotatably connected with the adjusting rod (130), and the other side of the mounting frame (141) is rotatably connected with the rectangular frame (110).

6. The carport photovoltaic module of claim 5, wherein: the second reciprocating sliding assembly (210) comprises a second servo motor (211), a ball screw pair (212), a second screw nut pair (213) and a second fixing block (214), the second servo motor (211) is installed on one side of the installation frame (141), the ball screw pair (212) is fixedly connected with the output end of the second servo motor (211), the ball screw pair (212) is rotatably connected with the second fixing block (214), the second fixing block (214) is arranged on one side of the installation frame (141), the second screw nut pair (213) is connected with the ball screw pair (212), and the second screw nut pair (213) is connected with the connecting rod (220).

7. The carport photovoltaic module of claim 6, wherein: and a second bearing is embedded at one side of the second fixed block (214), and one end of the ball screw pair (212) is in interference fit with the inner ring of the second bearing.

8. The carport photovoltaic module of claim 5, wherein: connecting rod (220) one side is provided with second slider (260), the second spout has been seted up to installation frame (141) one side, second slider (260) and second spout sliding connection.