CN221026679U - Photovoltaic support production feeding system and photovoltaic support production line - Google Patents

Abstract

The utility model relates to a feeding system for producing a photovoltaic bracket and a photovoltaic bracket production line, comprising a tensioning and unwinding mechanism and a vertical spiral loop, wherein a rotating mechanism and a power feeding mechanism which are sequentially arranged along a feeding direction are arranged between the tensioning and unwinding mechanism and the vertical spiral loop; the rotating mechanism comprises a first bracket, the first bracket is provided with two angle adjusting rollers which are arranged in parallel, the end part of each angle adjusting roller is in sliding connection with the first bracket through an arc groove of the first bracket, and a locking piece is arranged between the angle adjusting roller and the first bracket; the power feeding mechanism comprises a second bracket, the second bracket is provided with a driving roller and a driven roller, the axis of the driving roller is vertically arranged, the driving roller is connected with a rotation driving mechanism arranged on the second bracket, the driven roller is rotationally connected with a moving piece, the moving piece is connected with the movement driving mechanism to move towards the rear and away from the driving roller, and the feeding system realizes the organic combination of the tensioning and uncoiling mechanism and the vertical spiral loop.

Description

Photovoltaic support production feeding system and photovoltaic support production line

Technical Field

The utility model relates to the technical field of photovoltaic bracket processing, in particular to a photovoltaic bracket production and feeding system and a photovoltaic bracket production line.

Background

The statements herein merely provide background information related to the present disclosure and may not necessarily constitute prior art.

At present, in the photovoltaic field, in the cold bending forming process of a photovoltaic support, when a coiled steel belt is used up, a forming unit needs to be stopped, the existing forming speed can reach more than 40m/min, and the supplementary materials need to be stopped frequently. The spiral storage bin is used as important equipment of a straight welded pipe production line, is novel storage equipment, plays roles in storing, feeding and guaranteeing continuous operation of a main rolling mill, has fixed storage bin turns, and ensures continuous feeding by tightening the materials leaning against an outer cage in the storage bin one by one when reel changing, uncoiling, shearing and butt welding stop feeding into the storage bin. Therefore, the strip steel is required to intermittently enter the storage bin in the production process of the photovoltaic bracket, and then is continuously fed to the forming unit by the storage bin, so that continuous and stable production of the forming unit without stopping is ensured, the strip steel is not scratched, and the strip steel does not expand and is not held, and the strip steel becomes a trend of developing in the current market.

In the existing photovoltaic bracket production line, a tensioning and uncoiling mechanism is adopted to receive a raw material steel coil and realize uncoiling, the tensioning and uncoiling mechanism is a common device in the photovoltaic bracket production line, a vertical spiral loop which can store and feed photovoltaic bracket raw materials exists at present, for example, a spiral loop disclosed in patent application CN202824236U, the section bar output by the tensioning and uncoiling mechanism is horizontally arranged, the input section bar of the spiral loop is vertically arranged, when the distance between the tensioning and uncoiling mechanism and the spiral loop is far, if the output section bar of the tensioning and uncoiling mechanism is directly sent into the spiral loop, the phenomenon of winding and coiling easily occurs, so that the problem of how to smoothly send the section bar output by the tensioning and uncoiling mechanism into the spiral loop in the prior art is a technical problem to be solved in the art,

Disclosure of utility model

The utility model aims to overcome the defects in the prior art, and provides a feeding system for photovoltaic bracket production and a photovoltaic bracket production line, so that a vertical spiral loop can be organically combined with a tensioning and uncoiling mechanism, and the feeding requirement of photovoltaic bracket production is met.

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

In a first aspect, an embodiment of the utility model provides a feeding system for producing a photovoltaic bracket, which comprises a tensioning and unwinding mechanism and a vertical spiral loop, wherein a rotating mechanism and a power feeding mechanism which are sequentially arranged along a feeding direction are arranged between the tensioning and unwinding mechanism and the vertical spiral loop;

The rotating mechanism comprises a first bracket, the first bracket is provided with two angle adjusting rollers which are arranged in parallel, the end part of each angle adjusting roller is in sliding connection with the first bracket through an arc groove of the first bracket, and a locking piece is arranged between the angle adjusting roller and the first bracket;

The power feeding mechanism comprises a second bracket, the second bracket is provided with a driving roller and a driven roller, the axis of the driving roller is vertically arranged, the driving roller is connected with a rotation driving mechanism arranged on the second bracket, the driven roller is rotationally connected with a moving piece, and the moving piece is connected with the movement driving mechanism to move towards the rear part far away from the driving roller.

Optionally, be equipped with first positioning mechanism between tight unwinding mechanism and the rotary mechanism that rises, first positioning mechanism includes the third support, along the pay-off direction, is equipped with first positioning roller subassembly and second positioning roller subassembly on the third support, and two first positioning rollers of first positioning roller subassembly set up from top to bottom the level, and two second positioning rollers of second positioning roller subassembly set up vertically and the distance between two second positioning rollers and the width phase-match of section bar.

Optionally, the ends of the two angle adjusting rollers are rotationally connected with the sliding plate, the sliding plate is slidably connected with the arc groove arranged on the first bracket, and a locking piece is arranged between the sliding plate and the second bracket to lock and fix the sliding plate and the second bracket.

Optionally, the sliding plate that is located angle adjusting roller lower extreme portion is provided with the backing roll, and the backing roll is connected in order to support the profile through bearing frame and sliding plate rotation.

Optionally, along the pay-off direction, the place ahead of drive roll and driven voller is equipped with the second positioning mechanism of installing at the second support, and the second positioning mechanism includes first vertical positioning roller subassembly and flattening subassembly, and first vertical positioning roller subassembly includes at least a set of pair roller mechanism along the vertical setting of axis, flattening subassembly includes the fixed plate fixed with the second support, and the contralateral of fixed plate is equipped with the movable plate, and the movable plate is connected with flattening the driving piece in order to realize the motion towards or keep away from the fixed plate direction.

Optionally, a horizontal roller is provided in front of the first vertical positioning roller assembly to support the bottom of the vertical profile.

Optionally, along the pay-off direction, the rear of drive roll and driven voller is equipped with third positioning mechanism, and third positioning mechanism includes the vertical positioning roller assembly of second, and the vertical positioning roller assembly of second includes two relative settings and the vertical second positioning roller that sets up of axis, and the place ahead of the vertical positioning roller assembly of second is equipped with horizontal positioning roller assembly, and horizontal positioning roller assembly includes the horizontal positioning roller that two axes level set up, and the distance between two horizontal positioning rollers and section bar width assorted.

Optionally, the rotation driving mechanism comprises a motor fixed at the bottom of the second bracket, an output shaft of the motor is connected with a speed reducer, and an output shaft of the speed reducer is connected with the driving roller through a universal connecting shaft.

Optionally, along the pay-off direction, the rear of vertical spiral loop is equipped with the fourth support, and fourth support top is along being equipped with two horizontal backing rolls, and the rear of the horizontal backing roll that is located the rear is provided with two vertical rollers, and the interval between two vertical rollers matches with the width phase-match of section bar.

In a second aspect, the utility model provides a photovoltaic bracket production line, which is provided with the feeding system for photovoltaic bracket production in the first aspect.

The beneficial effects of the utility model are as follows:

1. According to the feeding system, the rotating mechanism and the power feeding mechanism are arranged between the tensioning and uncoiling mechanism and the vertical spiral loop, the rotating mechanism comprises the two angle adjusting rollers, the angle adjusting rollers are connected with the first support in a sliding mode through the arc grooves of the first support, horizontal sectional materials can pass through the angle adjusting rollers after rotating for a certain angle, transition from the horizontal sectional materials to the vertical sectional materials is achieved, the driving roller and the driven roller of the power feeding mechanism can clamp the vertical sectional materials under the action of the moving driving mechanism, then the driving roller rotates under the action of the rotating driving mechanism, the vertical sectional materials are fed into the vertical spiral loop, further raw materials of the sectional materials are smoothly fed into the vertical spiral loop by the tensioning and uncoiling mechanism, the tensioning and uncoiling mechanism and the vertical spiral loop are organically combined, winding and coiling phenomena of the sectional materials during transmission between the tensioning and uncoiling mechanism and the vertical spiral loop are avoided, and smooth production of a production line is guaranteed.

2. According to the feeding system, the flattening device is arranged in front of the driving roller and the driven roller, so that the flattening effect on the profile raw materials is achieved, and the profile raw materials can enter the vertical spiral loop and are processed later.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application.

FIG. 1 is a schematic view showing the overall structure of embodiment 1 of the present utility model;

FIG. 2 is a schematic view of a first positioning mechanism according to embodiment 1 of the present utility model;

FIG. 3 is a schematic view showing a structure of a rotary mechanism according to embodiment 1 of the present utility model;

FIG. 4 is a schematic diagram of a power feeding mechanism according to embodiment 1 of the present utility model;

FIG. 5 is a schematic diagram of a power feeding mechanism according to embodiment 1 of the present utility model;

FIG. 6 is a schematic view of the structure of a vertical spiral loop according to example 1 of the present utility model;

FIG. 7 is a schematic view of the swivel mechanism of the vertical spiral loop of example 1 of the present utility model;

FIG. 8 is a schematic view of a material guiding mechanism according to embodiment 1 of the present utility model;

The device comprises a first positioning mechanism, a rotating mechanism, a power feeding mechanism, a vertical spiral loop and a material guiding mechanism, wherein the first positioning mechanism, the rotating mechanism, the power feeding mechanism, the vertical spiral loop and the material guiding mechanism are arranged in sequence;

1.1. the third bracket, 1.2, the first positioning roller, 1.3, the second positioning roller;

2.1. The first bracket is provided with 2.2 parts of holes, 2.3 parts of angle adjusting rollers, 2.4 parts of sliding plates, 2.5 parts of arc grooves and 2.6 parts of supporting rollers;

3.1. The device comprises a motor, a 3.2 speed reducer, a 3.3 universal coupling, a 3.4 first vertical positioning roller, a 3.5 fixed plate, a 3.6 movable driving cylinder, a 3.7 movable plate, a 3.8 sliding chute, a 3.9 driving roller, a 3.10 driven roller, a 3.11 horizontal roller, a 3.12 movable plate, a 3.13 flattening driving cylinder, a 3.14 guide post, a 3.15 second vertical positioning roller and a 3.16 horizontal positioning roller.

4.1. The device comprises a power mechanism, a 4.2 lower supporting component, a 4.3 protecting mechanism, a 4.3.1 outer vertical roll, a 4.4 rotary mechanism, a 4.4.1 inner vertical roll, a 4.4.2 large inclined roll, a 4.4.3 guiding mechanism, a 4.5 upper tray component and a 4.5.1 horizontal roll.

5.1. Fourth support, 5.2 horizontal backing roll, 5.3 vertical roller.

Detailed Description

Example 1

The embodiment provides a feeding system for photovoltaic support production, as shown in fig. 1, the feeding system comprises a tensioning and uncoiling mechanism, a first positioning mechanism 1, a rotating mechanism 2, a power feeding mechanism 3, a vertical spiral loop 4 and a material guiding mechanism 5, wherein the tensioning and uncoiling mechanism, the first positioning mechanism 1, the rotating mechanism 2, the power feeding mechanism 3 and the vertical spiral loop 4 are sequentially arranged along a feeding direction.

The tensioning and uncoiling mechanism can be realized by adopting existing equipment, for example, a tensioning and uncoiling mechanism disclosed in a light steel profile rolling and stamping production line in patent application CN114683053A, and the specific structure of the tensioning and uncoiling mechanism is not described in detail herein.

As shown in fig. 2, the first positioning mechanism includes a third bracket 1.1, the third bracket 1.1 includes a plurality of columns, the bottom ends of the columns are used for being fixed on the ground, and the top ends of the columns are fixed with a top plate.

Along the pay-off direction, set gradually first positioning roller subassembly and second positioning roller subassembly on the roof.

The first positioning roller assembly comprises two first positioning rollers 1.2 which are arranged up and down, the axes of the two first positioning rollers 1.2 are horizontally arranged, a horizontal profile sent out by the tensioning and uncoiling mechanism is used for passing through the two first positioning rollers 1.2, the end parts of the two first positioning rollers 1.2 are rotationally connected with positioning roller seats, and the positioning roller seats are fixed on the top plate.

The second positioning roller assembly comprises two second positioning rollers 1.3 with vertically arranged axes, and the distance between the two second positioning rollers 1.3 is matched with the width of the section bar and is respectively used for being in contact with two side edges of the section bar along the width direction.

The profile in this embodiment is a steel strip.

The bottom of the second positioning roller 1.3 is rotationally connected with the top plate, and the top of the second positioning roller 1.3 is rotationally connected with the connecting plate.

In this embodiment, the first positioning roller 1.2 is used for fixing a position the vertical position of section bar, and the second positioning roller 1.3 is used for fixing a position the horizontal position of section bar, and then has realized the position location of section bar, makes things convenient for the section bar to get into rotary mechanism 2.

As shown in fig. 3, the rotating mechanism 2 comprises a first bracket 2.1, the first bracket 2.1 comprises two upright posts, a mounting plate is arranged between the top ends of the two upright posts, and an opening 2.2 for a section bar to pass through is arranged in the center of the mounting plate.

The place ahead of mounting panel is provided with two angle adjustment rollers 2.3, and the axis parallel arrangement of two angle adjustment rollers 2.3, and two tip of angle adjustment roller 2.3 all rotate with slide plate 2.4 to be connected, and slide plate 2.4 passes through the circular arc groove 2.5 and the mounting panel sliding connection that the mounting panel set up, and the circumference and the trompil 2.2 coaxial setting of two circular arc grooves 2.5 place, and the axis of the central line in space between two angle adjustment rollers 2.3 through trompil 2.2.

The space between the two angle adjusting rollers 2.3 is used for the section bar to pass through, and the section bar can be twisted to a set angle through the two angle adjusting rollers 2.3, so that the transition of the section bar from a horizontal state to a vertical state is realized.

A locking piece is arranged between the sliding plate 2.4 and the mounting plate and used for locking and fixing the sliding plate 2.4 and the mounting plate, the locking piece adopts a locking bolt and a locking nut, and the locking nut is screwed after the locking bolt passes through the sliding plate and the circular arc groove 2.5, so that the locking and fixing of the sliding plate 2.4 and the mounting plate are realized.

In order to position the section bar in the axial direction of the angle adjusting roller, a supporting roller 2.6 is arranged on a sliding plate 2.4 positioned below, the axial line of the supporting roller 2.6 is perpendicular to the axial line of the angle adjusting roller 2.3, two ends of the supporting roller 2.6 are rotatably connected with bearing seats, and the bearing seats are fixed on the sliding plate 2.4.

The locking bolt and the locking nut are loosened, the sliding plate 2.4 moves along the arc groove 2.5, the angle of the two angle adjusting rollers 2.3 can be adjusted, and then the angle of the profile is adjusted.

As shown in fig. 4-5, the power feeding mechanism 3 includes a second bracket, the second bracket includes two risers, the bottom ends of the two risers are fixed on the bottom horizontal plate, and the top ends of the two risers are fixed with the top horizontal plate.

The top horizontal plate is provided with a power roller support, the power roller support is rotationally connected with a driving roller 3.9, the axis of the driving roller 3.9 is vertically arranged, the bottom end of the driving roller 3.9 is connected with a rotation driving mechanism, and the rotation driving mechanism can drive the driving roller 3.9 to rotate around the axis of the driving roller.

The rotation driving mechanism comprises a motor 3.1 and a speed reducer 3.2 which are fixed on a bottom horizontal plate, an output shaft of the motor 3.1 is connected with the speed reducer 3.2, and an output shaft of the speed reducer 3.2 is connected with the bottom end of a driving roller 3.9 through a universal coupling 3.3, so that the driving roller 3.9 can be driven to rotate.

The power roller support is also connected with a driven roller 3.10 in a sliding manner, specifically, two ends of the driven roller 3.10 are rotationally connected with a movable plate 3.7, the movable plate 3.7 is connected with the power roller support in a sliding manner through a sliding groove 3.8 formed in the power roller support, a connecting vertical plate is arranged between the two movable plates 3.7 and is connected with a movable driving mechanism, and the movable driving mechanism can drive the movable plate and the driven roller 3.10 to move towards or away from the driving roller.

The movable driving mechanism adopts two movable driving air cylinders 3.6, the axis of each movable driving air cylinder 3.6 is horizontally arranged, the cylinder body of each movable driving air cylinder 3.6 is fixedly connected with the power roller bracket, and the piston rod of each movable driving air cylinder is connected with the connecting vertical plate to drive the driven roller to horizontally move.

After the driving roller 3.9 and the driven roller 3.10 clamp the profile in vertical arrangement, the driving roller rotates under the action of the motor 3.1 to drive the profile to advance, and the driven roller performs driven motion.

A second positioning mechanism and a flattening mechanism are sequentially arranged in front of the driving roller 3.9 and the driven roller 3.10 along the feeding direction.

The second positioning mechanism is arranged on the positioning mechanism seat, and the positioning mechanism is fixed at the front end of the top horizontal plate.

The second positioning mechanism comprises at least one group of first vertical positioning roller assemblies, in this embodiment, two groups of first vertical positioning roller assemblies are arranged, and the two groups of first vertical positioning roller assemblies are arranged along the feeding direction.

The first vertical positioning roller assembly comprises two first vertical positioning rollers 3.4 which are matched for use, the axes of the two first vertical positioning rollers 3.4 are vertically arranged, the bottom ends of the first vertical positioning rollers 3.4 are rotationally connected with the positioning mechanism seat, and the top ends of all the first vertical positioning rollers 3.4 are rotationally connected with the connecting plate.

The vertically arranged section bar is used for penetrating through the space between the two first vertical positioning rollers 3.4 of the first vertical positioning roller assembly and horizontally positioning the vertical section bar.

The place ahead of the first vertical positioning roller subassembly that is located the front side is provided with horizontal roller 3.11, and horizontal roller 3.11 rotates with the roller stand to be connected, and the roller stand is fixed on positioning mechanism seat, and horizontal roller 3.11 is used for contacting with the bottom edge of the section bar of vertical setting, carries out vertical location to the section bar.

The flattening mechanism comprises a fixed plate 3.5, the fixed plate 3.5 is vertically arranged, the fixed plate 3.5 is fixed with a plate seat, the plate seat is fixed with a top horizontal plate, the opposite side of the fixed plate 3.5 is provided with a movable plate 3.12, the movable plate 3.12 is arranged in parallel with the fixed plate 3.5, the movable plate 3.12 is connected with a flattening driving piece, the flattening driving piece can drive the movable plate to move towards or away from the fixed plate, and the movable plate 3.12 can clamp a section bar in cooperation with the fixed plate, so that flattening of the section bar is realized.

The flattening driving piece adopts a flattening driving air cylinder 3.13, the cylinder body of the flattening driving air cylinder 3.13 is fixed on a cylinder seat, a piston rod of the flattening driving air cylinder is connected with a movable plate 3.12, and the cylinder seat is fixedly connected with a top horizontal plate.

The moving plate 3.12 is also vertically fixed with a guide post 3.14, the guide post 3.14 penetrates through a guide cylinder fixed on the cylinder seat and is in sliding connection with the guide cylinder, and the movement of the moving plate is guided through the cooperation of the guide post 3.14 and the guide cylinder.

A third positioning mechanism is arranged behind the driving roller 3.9 and the driven roller 3.10 along the feeding direction.

The third positioning mechanism comprises a second vertical positioning roller assembly, the second vertical positioning roller assembly comprises two second vertical positioning rollers 3.15 which are oppositely arranged and are vertically arranged on the axis, a profile which is vertically arranged is used for penetrating through the space between the two second vertical positioning rollers 3.15 to realize the horizontal positioning of the profile which is vertically arranged, the bottom ends of the two second vertical positioning rollers 3.15 are rotationally connected with a top horizontal plate, and the top ends of the two second vertical positioning rollers are rotationally connected with a connecting plate.

The place ahead of the vertical positioning roller subassembly of second is equipped with two horizontal positioning rollers 3.16 that set up from top to bottom, and the axis level of horizontal positioning roller 3.16 sets up, and the both ends and the roller frame rotation of horizontal positioning roller 3.16 are connected, and the distance between two horizontal positioning rollers 3.16 and the width phase-match of section bar are used for contacting with the upper edge and the lower edge of vertical section bar respectively, realize the vertical location to the section bar.

As shown in fig. 6-7, the vertical spiral loop 4 may be an existing device, for example, the spiral loop disclosed in the patent application CN202824236U, and includes a power mechanism 4.1, a protection mechanism 4.3, a rotating mechanism 4.4, an upper tray assembly 4.5 and a lower support assembly 4.2, where the lower support assembly 4.2 is disposed between the power mechanism 4.1 and the upper tray assembly 4.5, and provides rotational power. An outer vertical roller 4.3.1 is arranged on the inner side of the protection mechanism 4.3, the outer ring is fed, and a plurality of horizontal rollers 4.5.1 are uniformly distributed on the upper tray assembly 4.5. As shown in fig. 6, the inner vertical roll 4.4.1 is arranged on the outer 4.4 side of the rotary mechanism, and the large inclined roll 4.4.2 is arranged on the inner side. The strip is fed through large inclined rolls 4.4.2 along guide means 4.4.3 to a feed mechanism 5. The vertical spiral loop is provided by existing equipment, further details of which are not described in detail herein.

Along the pay-off direction, the rear of vertical spiral loop is provided with guide mechanism 5, as shown in fig. 8, guide mechanism includes fourth support 5.1, fourth support 5.1 top is along being equipped with two horizontal support rollers 5.2, the axis parallel arrangement of two horizontal support rollers 5.2 and its both ends are rotated with the roller frame and are connected, the upper surface at the fourth support is fixed to the roller frame, the rear that is located horizontal support roller 5.2 at rear is provided with two vertical rollers 5.3, two vertical rollers 5.3 vertical setting of axis, interval and the width phase-match of section bar between two vertical rollers, the bottom and the fourth support top rotation of vertical roller are connected, the top and the connecting plate rotation of two vertical rollers are connected.

The horizontal supporting roller 5.2 is used for receiving the profile sent out by the vertical spiral loop 4 and vertically positioning the profile, the vertical supporting roller 5.3 is used for contacting two side edges of the profile which is horizontally arranged, horizontally positioning the profile, and the profile is sent to the next working procedure through the horizontal supporting roller 5.2 and the vertical supporting roller 5.3.

The working method of the feeding system of the embodiment is as follows:

The profile output by the tensioning uncoiling mechanism passes through two first positioning rollers and two second positioning rollers, the two first positioning rollers and the second positioning rollers are utilized to position and then enter a space between the two angle adjusting rollers, the two angle adjusting rollers rotate the profile by a set angle, the profile is initially rotated from a horizontal state to a vertical state, transition is realized, the profile passing through the angle adjusting rollers sequentially passes through the first vertical positioning rollers and the flattening mechanism of the second positioning mechanism and then enters a space between the driving roller and the driven roller, the driving roller actively rotates under the action of a motor, the driven roller rotates in a driven manner, the vertically arranged profile is conveyed, the fixing plate and the moving plate press the profile before entering the space between the driving roller and the driven roller, the profile is leveled, the driving roller and the driven roller convey the vertically arranged profile to the third positioning mechanism, the profile enters the vertical spiral loop to store after being positioned again by the second vertical positioning rollers, and the vertical spiral loop conveys the profile to a next working procedure through the horizontal supporting roller and the vertical roller during production.

Adopt the feeding system of this embodiment, through the angle of rotary mechanism preliminary regulation section bar, provide power through power feeding mechanism and send into vertical spiral loop with the section bar, will rise tight mechanism of rolling up and vertical spiral loop organic combination, avoided the section bar to rise tightly to roll up and roll up the material phenomenon of twining and coil up that the transmission appears between mechanism and the vertical spiral loop, guaranteed that the production of production line goes on smoothly.

Example 2

The embodiment provides a photovoltaic support production line, is provided with the charging system for photovoltaic support production of embodiment 1, and other equipment of the production line only adopts prior art, and detailed description is omitted here.

While the foregoing description of the embodiments of the present utility model has been presented in conjunction with the drawings, it should be understood that it is not intended to limit the scope of the utility model, but rather, it is intended to cover all modifications or variations within the scope of the utility model as defined by the claims of the present utility model.

Claims (10)

1. The feeding system for the production of the photovoltaic bracket comprises a tensioning and uncoiling mechanism and a vertical spiral loop, and is characterized in that a rotating mechanism and a power feeding mechanism which are sequentially arranged along the feeding direction are arranged between the tensioning and uncoiling mechanism and the vertical spiral loop;

The rotating mechanism comprises a first bracket, the first bracket is provided with two angle adjusting rollers which are arranged in parallel, the end part of each angle adjusting roller is in sliding connection with the first bracket through an arc groove of the first bracket, and a locking piece is arranged between the angle adjusting roller and the first bracket;

The power feeding mechanism comprises a second bracket, the second bracket is provided with a driving roller and a driven roller, the axis of the driving roller is vertically arranged, the driving roller is connected with a rotation driving mechanism arranged on the second bracket, the driven roller is rotationally connected with a moving piece, and the moving piece is connected with the movement driving mechanism to move towards the rear part far away from the driving roller.

2. The feeding system for photovoltaic bracket production according to claim 1, wherein a first positioning mechanism is arranged between the tensioning and unwinding mechanism and the rotating mechanism, the first positioning mechanism comprises a third bracket, a first positioning roller assembly and a second positioning roller assembly are arranged on the third bracket along the feeding direction, two first positioning rollers of the first positioning roller assembly are horizontally arranged up and down, two second positioning rollers of the second positioning roller assembly are vertically arranged, and the distance between the two second positioning rollers is matched with the width of the profile.

3. The photovoltaic bracket production feeding system according to claim 1, wherein the ends of the two angle adjusting rollers are rotatably connected with the sliding plate, the sliding plate is slidably connected with the circular arc groove provided on the first bracket, and a locking member is provided between the sliding plate and the second bracket to lock and fix the sliding plate and the second bracket.

4. A feeding system for photovoltaic bracket production according to claim 3, wherein the sliding plate at the lower end of the angle adjusting roller is provided with a supporting roller, and the supporting roller is rotatably connected with the sliding plate through a bearing block to support the profile.

5. The photovoltaic rack production of claim 1, wherein a second positioning mechanism mounted on the second rack is arranged in front of the driving roller and the driven roller along the feeding direction, the second positioning mechanism comprises a first vertical positioning roller assembly and a flattening assembly, the first vertical positioning roller assembly comprises at least one group of paired roller mechanisms vertically arranged along the axis, the flattening assembly comprises a fixed plate fixed with the second rack, a movable plate is arranged on the opposite side of the fixed plate, and the movable plate is connected with a flattening driving piece to realize movement towards or away from the fixed plate.

6. The photovoltaic rack production feed system of claim 5, wherein a horizontal roller is provided in front of the first vertical positioning roller assembly to support the bottom of the vertical profile.

7. A feeding system for producing photovoltaic brackets according to claim 3, wherein a third positioning mechanism is arranged behind the driving roller and the driven roller along the feeding direction, the third positioning mechanism comprises a second vertical positioning roller assembly, the second vertical positioning roller assembly comprises two second vertical positioning rollers which are oppositely arranged and have vertical axes, a horizontal positioning roller assembly is arranged in front of the second vertical positioning roller assembly, the horizontal positioning roller assembly comprises two horizontal positioning rollers which are horizontally arranged along the axes, and the distance between the two horizontal positioning rollers is matched with the width of the profile.

8. The feeding system for photovoltaic bracket production according to claim 1, wherein the rotation driving mechanism comprises a motor fixed at the bottom of the second bracket, an output shaft of the motor is connected with a speed reducer, and an output shaft of the speed reducer is connected with the driving roller through a universal connecting shaft.

9. The feeding system for photovoltaic bracket production according to claim 1, wherein a fourth bracket is arranged at the rear of the vertical spiral loop along the feeding direction, two horizontal supporting rollers are arranged at the top of the fourth bracket, two vertical rollers are arranged at the rear of the horizontal supporting rollers at the rear, and the distance between the two vertical rollers is matched with the width of the profile.

10. A photovoltaic bracket production line, characterized in that a feeding system for photovoltaic bracket production according to any one of claims 1 to 9 is provided.