CN219372344U - Omnibearing rotary machine head structure for photovoltaic bracket - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic power generation devices, in particular to an omnibearing rotating machine head structure for a photovoltaic bracket, which comprises a base, wherein the upper end of the base is connected with an upper cover through a bolt, the upper end of the upper cover is provided with an annular rotating groove, a transmission gear is rotationally connected with the base, the upper end of the transmission gear is penetrated and welded with a rotating block, the side surface of the transmission gear is meshed with a first main gear, and the upper end of the upper cover is connected with a first driving piece through a bolt, and the utility model has the beneficial effects that: the rotating machine head is reasonable in structural design and high in practicability, the first main gear is driven to rotate through the first driving piece, the first main gear drives the transmission gear to rotate, the rotating block drives the rotating disc to rotate left and right, the rotating disc drives the supporting plate and the side plate to rotate left and right, left and right adjustment of the photovoltaic panel is achieved, the second main gear is driven to rotate through the second driving piece, the second main gear drives the gear ring to rotate up and down, and the gear ring drives the rotating shaft to rotate up and down, so that the photovoltaic panel is adjusted up and down.

Description

Omnibearing rotary machine head structure for photovoltaic bracket

Technical Field

The utility model relates to the technical field of photovoltaic power generation devices, in particular to an omnibearing rotating machine head structure for a photovoltaic bracket.

Background

The traditional photovoltaic power station restricts the power generation amount of the photovoltaic power station due to the completely fixed installation mode, the intelligent photovoltaic rotating sun tracking system is the photovoltaic power generation sunflower technology which is commonly called, the photovoltaic power generation sunflower is a movable and adjustable photovoltaic energy storage system, and the photovoltaic panel can adjust the direction, the angle and the retraction state of the blades along the track of the movement of the sun, so that the efficiency of photovoltaic power generation is greatly improved. But steering gear in current photovoltaic power generation sunflower structure is comparatively complicated, and some photovoltaic mounting frame are mostly manual regulation, make the photovoltaic board unable in time and track the sun effectively, greatly increased staff's work load simultaneously. And the steering device in the existing photovoltaic power generation sunflower can only rotate up and down, can not rotate left and right to adjust, is limited in adjusting angle, and can not accurately adjust the angle of the photovoltaic panel when encountering strong wind.

Disclosure of Invention

The utility model aims to provide an omnibearing rotary machine head structure for a photovoltaic bracket so as to solve the problems in the background technology.

In order to achieve the above purpose, the utility model provides a technical scheme that an omnibearing rotating machine head structure for a photovoltaic bracket comprises a base, wherein an upper cover is connected to the upper end of the base through a bolt, a transmission gear is rotationally connected to the base, a first main gear is meshed with the side surface of the transmission gear, a first driving piece is mounted on the upper cover, a driving shaft of the first driving piece penetrates through the upper cover to be connected with the first main gear, a rotary table is rotationally connected to the upper cover, and a rotating mechanism is mounted on the rotary table.

In the scheme, be equipped with the accommodation space in the base, install drive gear and first master gear in the accommodation space, first master gear and drive gear meshing are connected, the upper cover is installed on the base, first driving piece is installed on the upper cover, first driving piece drive first master gear rotates, thereby drive gear and rotate, the carousel is installed to the position that the upper cover is close to drive gear, the carousel is covered the rotation about, rotary mechanism is installed to the top of carousel, the carousel drives rotary mechanism and rotates about under drive gear's effect, rotary mechanism can realize photovoltaic board and adjust from top to bottom simultaneously.

Preferably, a rotating block is arranged at the centers of the turntable, the upper cover, the transmission gear and the base, and the rotating block is cylindrical.

In the scheme, the rotating block connects the transmission gear with the turntable, and the rotating block penetrates through the upper cover and the base, so that the turntable is driven to rotate through the rotating block when the transmission gear is acted by the first main gear, and the left-right adjustment of the photovoltaic panel is realized.

Preferably, the upper end of the upper cover is provided with an annular rotary groove, the lower end of the turntable is provided with an annular plate, and the annular plate is rotationally connected with the annular rotary groove.

In the scheme, install rotary mechanism on the carousel, the carousel is direct can lead to rotating unstably because of mutual frictional force and rotary mechanism's gravity with upper cover contact to take place the skew easily when rotating, set up annular rotary groove on the upper cover, when the turning block drove the carousel and rotated, the annular plate of carousel below was rotated along annular rotary groove, thereby makes the rotation that the carousel can be stable.

Preferably, the rotating mechanism comprises a supporting component and a rotating component, the supporting component comprises a supporting plate, two sides of the supporting plate are symmetrically connected with side plates through fixing plates, and one side surface of one side plate and one side surface of the supporting plate are provided with annular limiting grooves.

In the scheme, the rotating assembly is arranged on the supporting assembly, the side plates are arranged on two sides of the supporting plate, and the annular limiting grooves on the supporting plate and one of the side plates are used for limiting the rotating direction of the rotating assembly, so that the stability of the rotating assembly is ensured.

Preferably, one end of the side plate and one end of the supporting plate are connected with the turntable, and round through holes are formed in the side surfaces of the supporting plate and the side plate.

In the scheme, the side plate and the supporting plate are connected with the turntable, so that the whole rotating mechanism is connected with the turntable, the rotating mechanism can move left and right under the driving of the turntable, the photovoltaic plate is adjusted left and right, and the circular through holes on the side surfaces of the supporting plate and the side plate are used for installing the rotating assembly.

Preferably, the rotating assembly comprises a gear ring, a rotating shaft, a plane bearing, a second driving piece and a second main gear, wherein the gear ring is installed between the supporting plate and the side plate, the rotating shaft penetrates through the gear ring, the plane bearing is symmetrically installed on two sides of the gear ring, and the plane bearing is rotationally connected with the annular limiting groove.

In the scheme, the plane bearing rotates in the annular limiting groove in the side plate and the supporting plate, the gear ring is arranged between the two plane bearings, the eccentric rotating shaft penetrates through the gear ring, the second driving piece drives the second main gear to rotate, and the second main gear drives the gear ring to rotate, so that the rotating shaft moves up and down in the rotating process.

Preferably, the second driving member is mounted on the side plate, a driving shaft of the second driving member penetrates through the side plate to be connected with the second main gear, and the gear ring is meshed with the second main gear.

In the scheme, the second main gear is connected with the driving shaft of the second driving piece arranged on the side plate, and when the second driving piece drives the second main gear to rotate, the second main gear drives the gear ring meshed with the second main gear to rotate, so that the rotating shaft moves up and down to adjust the photovoltaic panel up and down.

Compared with the prior art, the utility model has the beneficial effects that: the rotating machine head is reasonable in structural design and high in practicability, the first main gear is driven to rotate through the first driving piece, the first main gear drives the transmission gear to rotate, the rotating block drives the rotating plate to rotate left and right, the rotating plate drives the supporting plate and the side plates to rotate left and right, so that the photovoltaic panel is adjusted left and right, the second main gear is driven to rotate through the second driving piece, the gear ring is driven to rotate up and down through the second main gear, the gear ring drives the rotating shaft to rotate up and down, the photovoltaic panel is adjusted up and down, the photovoltaic panel can be always subjected to vertical irradiation of sunlight, illumination efficiency is improved, and when a strong wind is met, the photovoltaic panel is adjusted through the cooperation of the first driving piece and the second driving piece, and damage of the photovoltaic panel caused by the strong wind is prevented.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a rotary nose structure of the present utility model;

FIG. 3 is a schematic view of the structure of the base and the upper cover of the present utility model;

FIG. 4 is a schematic view of the structure of the transmission gear and turntable of the present utility model;

fig. 5 is a schematic structural view of a rotating mechanism according to the present utility model.

In the figure: 1. a base; 2. an upper cover; 21. an annular rotary groove; 3. a transmission gear; 4. a first main gear; 5. a first driving member; 6. a turntable; 61. an annular plate; 7. a rotation mechanism; 71. a support assembly; 72. a rotating assembly; 711. a support plate; 712. a side plate; 713. an annular limit groove; 721. a gear ring; 722. a rotating shaft; 723. a planar bearing; 724. a second driving member; 725. a second main gear; 8. and rotating the block.

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 to 5, in a preferred embodiment, an omnibearing rotary machine head structure for a photovoltaic bracket comprises a base 1, an upper cover 2 is connected to the upper end of the base 1 through a bolt, a transmission gear 3 is rotationally connected to the base 1, a first main gear 4 is meshed with the side surface of the transmission gear 3, a first driving member 5 is mounted on the upper cover 2, a driving shaft of the first driving member 5 penetrates through the upper cover 2 to be connected with the first main gear 4, a rotary table 6 is rotationally connected to the upper cover 2, and a rotary mechanism 7 is mounted on the rotary table 6. The base 1 is internally provided with a containing space, a transmission gear 3 and a first main gear 4 are arranged in the containing space, the first main gear 4 is connected with the transmission gear 3 in a meshed manner, the upper cover 2 is arranged on the base 1, the first driving piece 5 is arranged on the upper cover 2, the first driving piece 5 drives the first main gear 4 to rotate, thereby driving the transmission gear 3 to rotate, the rotary table 6 is arranged at the position, close to the transmission gear 3, of the upper cover 2, the rotary table 6 rotates left and right on the upper cover 2, a rotating mechanism 7 is arranged above the rotary table 6, the rotary table 6 drives the rotating mechanism 7 to rotate left and right under the action of the transmission gear 3, and meanwhile, the rotating mechanism 7 can realize up-down adjustment of a photovoltaic panel.

Referring to fig. 2 and 4, in some embodiments, a rotating block 8 is installed at the center of the turntable 6, the upper cover 2, the transmission gear 3, and the base 1, and the rotating block 8 is cylindrical. The rotating block 8 connects the transmission gear 3 with the turntable 6, the rotating block 8 penetrates through the upper cover 2 and the base 1, and when the transmission gear 3 rotates under the action of the first main gear 4, the turntable 6 is driven to rotate through the rotating block 8, so that the left-right adjustment of the photovoltaic panel is realized.

Referring to fig. 2 to 4, in some embodiments, an annular rotating groove 21 is formed at an upper end of the upper cover 2, and an annular plate 61 is provided at a lower end of the turntable 6, and the annular plate 61 is rotatably connected to the annular rotating groove 21. The rotary mechanism 7 is installed on the rotary table 6, the rotary table 6 is in direct contact with the upper cover 2 to cause unstable rotation due to the friction force between the rotary table 6 and the gravity of the rotary mechanism 7, and the rotary table is easy to deviate during rotation, the annular rotary groove 21 is formed in the upper cover 2, and when the rotary block 8 drives the rotary table 6 to rotate, the annular plate 61 below the rotary table 6 rotates along the annular rotary groove 21, so that the rotary table 6 can stably rotate.

Referring to fig. 1, 2 and 5, in some embodiments, the rotation mechanism 7 includes a support assembly 71 and a rotation assembly 72, the support assembly 71 includes a support plate 711, two sides of the support plate 711 are symmetrically connected with side plates 712 through fixing plates, and an annular limiting groove 713 is formed in a side surface of one side plate 712 and one side surface of the support plate 711. The rotating assembly 72 is mounted on the supporting assembly 71, side plates 712 are mounted on both sides of the supporting plate 711, and the supporting plate 711 and an annular limiting groove 713 on one of the side plates 712 are used for limiting the rotating direction of the rotating assembly 72, thereby ensuring the stability of the rotating assembly 72.

Referring to fig. 1 and 2, in some embodiments, one ends of the side plates 712 and the support plates 711 are connected to the turntable 6, and both sides of the support plates 711 and the side plates 712 are provided with circular through holes. The side plate 712 and the support plate 711 are connected with the turntable 6, so that the whole rotating mechanism 7 is connected with the turntable 6, and the rotating mechanism 7 can move left and right under the driving of the turntable 6, so as to realize left and right adjustment of the photovoltaic panel, and circular through holes on the sides of the support plate 711 and the side plate 712 are used for installing the rotating assembly 72.

Referring to fig. 2 and 5, in some embodiments, the rotation assembly 72 includes a gear ring 721, a rotation shaft 722, a plane bearing 723, a second driving member 724, and a second main gear 725, the gear ring 721 is installed between the support plate 711 and the side plate 712, the rotation shaft 722 is penetrated through the gear ring 721, the plane bearing 723 is symmetrically installed at both sides of the gear ring 721, and the plane bearing 723 is rotatably connected with the annular limiting groove 713. The planar bearings 723 rotate in the annular limiting grooves 713 on the side plates 712 and the support plates 711, a gear ring 721 is arranged between the two planar bearings 723, an eccentric rotating shaft 722 is arranged in the gear ring 721 in a penetrating manner, the second driving piece 724 drives the second main gear 725 to rotate, and the second main gear 725 drives the gear ring 721 to rotate, so that the rotating shaft 722 moves up and down in the rotating process.

Referring to fig. 5, in some embodiments, a second drive member 724 is mounted on the side plate 712, and a drive shaft of the second drive member 724 is coupled to the second main gear 725 through the side plate 712, with the gear ring 721 being in meshed connection with the second main gear 725. The second main gear 725 is connected with the drive shaft of the second driving piece 724 of installing on curb plate 712, and when second driving piece 724 drive second main gear 725 rotated, second main gear 725 drove the gear ring 721 rotation with it meshing to make pivot 722 reciprocate to adjust the photovoltaic board, and then make the photovoltaic board can receive the perpendicular irradiation of sunlight all the time, improve illumination efficiency, when meetting the strong wind, adjust the photovoltaic board through first driving piece 5 and second driving piece 724 cooperation, prevent that the strong wind from causing the photovoltaic board damage.

Working principle: the first main gear 4 is driven to rotate along the upper cover 2 through the first driving piece 5, the first main gear 4 drives the transmission gear 3 to rotate, the transmission gear 3 drives the rotating block 8 to rotate along the upper cover 2, the rotating block 8 drives the rotating disc 6 to rotate left and right along the upper cover 2, the rotating disc 6 drives the supporting plate 711 and the side plate 712 to rotate left and right, thereby realizing left and right adjustment of the photovoltaic panel, the second main gear 725 is driven to rotate through the second driving piece 724, the gear ring 721 is driven to rotate up and down through the second main gear 725, the gear ring 721 drives the rotating shaft 722 to rotate up and down, thereby enabling the photovoltaic panel to adjust up and down, and further enabling the photovoltaic panel to be always subjected to vertical irradiation of sunlight, improving illumination efficiency, and when encountering strong wind, the photovoltaic panel is adjusted through the cooperation of the first driving piece 5 and the second driving piece 724, and damage of the photovoltaic panel caused by strong wind is prevented.

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 (7)

1. The utility model provides an all-round rotation aircraft nose structure for photovoltaic support, includes base (1), its characterized in that, the upper end of base (1) is connected with upper cover (2) through the bolt, the rotation of base (1) is connected with drive gear (3), the side meshing of drive gear (3) has first master gear (4), install first driving piece (5) on upper cover (2), the drive shaft of first driving piece (5) pass upper cover (2) with first master gear (4) are connected, the upper cover is rotated and is connected with carousel (6), install rotary mechanism (7) on carousel (6).

2. The omnibearing rotary machine head structure for a photovoltaic bracket according to claim 1, wherein a rotary block (8) is installed at the centers of the rotary table (6), the upper cover (2), the transmission gear (3) and the base (1), and the rotary block (8) is cylindrical.

3. The omnibearing rotary machine head structure for a photovoltaic bracket according to claim 1, wherein an annular rotary groove (21) is formed in the upper end of the upper cover (2), an annular plate (61) is arranged at the lower end of the rotary disc (6), and the annular plate (61) is rotationally connected with the annular rotary groove (21).

4. The omnibearing rotary machine head structure for a photovoltaic bracket according to claim 1, wherein the rotary mechanism (7) comprises a supporting component (71) and a rotary component (72), the supporting component (71) comprises a supporting plate (711), two sides of the supporting plate (711) are symmetrically connected with side plates (712) through fixing plates, and one side surface of one side plate (712) and one side surface of the supporting plate (711) are both provided with annular limiting grooves (713).

5. The omnibearing rotary machine head structure for a photovoltaic bracket according to claim 4, wherein one ends of the side plate (712) and the supporting plate (711) are connected with a turntable (6), and round through holes are formed in the side surfaces of the supporting plate (711) and the side plate (712).

6. The omnibearing rotary head structure for a photovoltaic bracket according to claim 4, wherein the rotary component (72) comprises a gear ring (721), a rotary shaft (722), a plane bearing (723), a second driving piece (724) and a second main gear (725), the gear ring (721) is installed between the supporting plate (711) and the side plate (712), the rotary shaft (722) penetrates through the gear ring (721), the plane bearing (723) is symmetrically installed on two sides of the gear ring (721), and the plane bearing (723) is rotationally connected with the annular limiting groove (713).

7. The omni-directional rotating head structure for a photovoltaic bracket according to claim 6, wherein: the second driving piece (724) is arranged on the side plate (712), a driving shaft of the second driving piece (724) penetrates through the side plate (712) to be connected with the second main gear (725), and the gear ring (721) is meshed with the second main gear (725).