CN115582749A - Photovoltaic aluminum frame processing equipment and processing technology thereof - Google Patents

Abstract

The utility model relates to an aluminium frame processing equipment for photovoltaic and processing technology thereof relates to aluminium frame processing technology field, and it includes the frame, the frame is provided with the transportation subassembly that is used for transporting the aluminium alloy, the frame is provided with the clearance subassembly that is used for clearing up aluminium alloy internal surface burr, the clearance subassembly includes sanding block and installation pole, sanding block demountable connection is in the installation pole, sanding block changes according to the shape of aluminium alloy, sanding block and aluminium alloy internal surface contact and production friction when transportation subassembly transports the aluminium alloy. This application has the effect of being convenient for clear up the burr of aluminium alloy internal surface.

Description

Photovoltaic aluminum frame processing equipment and processing technology thereof

Technical Field

The application relates to the technical field of aluminum frame processing, in particular to photovoltaic aluminum frame processing equipment and a processing technology thereof.

Background

The aluminum profile is very widely applied, and the aluminum profile is convenient to install and very convenient and fast after being processed. At present, the photovoltaic panel is convenient to install by splicing aluminum profiles into an aluminum frame and installing the photovoltaic panel in the aluminum frame, so that the photovoltaic panel is convenient to install.

Aluminium alloy can form the burr on the surface when the shaping, cutting, process such as punch a hole can produce the burr at the border in frame cutting department and hole, when installing the photovoltaic board to aluminium frame, the burr can fish tail photovoltaic board surface, cause the influence to the photovoltaic board, and the aluminium alloy is inconvenient to clear up the burr after splicing into aluminium frame, consequently need clear up the burr before the aluminium alloy splices into aluminium frame, and current equipment is only convenient for only clear up the burr of aluminium alloy surface usually, and be not convenient for clear up the burr of aluminium alloy internal surface.

Disclosure of Invention

In order to clear up the burr to the aluminium alloy internal surface for the convenience, this application provides an aluminium frame processing equipment for photovoltaic and processing technology thereof.

The application provides an aluminium frame processing equipment for photovoltaic and processing technology thereof adopts following technical scheme:

the utility model provides an aluminum frame processing equipment for photovoltaic, includes the frame, the frame is provided with the transportation subassembly that is used for transporting the aluminium alloy, the frame is provided with the clearance subassembly that is used for clearing up aluminium alloy internal surface burr, the clearance subassembly includes sanding block and installation pole, sanding block demountable connection is in the installation pole, sanding block changes according to the shape of aluminium alloy, sanding block and aluminium alloy internal surface contact and production friction when transportation subassembly transports the aluminium alloy.

Through adopting above-mentioned technical scheme, the aluminium alloy is through transporting to clear up the burr of aluminium alloy internal surface through the sanding block in the transportation, reduce the condition that the burr fish tail damaged the photovoltaic board, be convenient for clear up the burr of aluminium alloy internal surface, and the sanding block can be installed and removed, is convenient for change the sanding block when the aluminium alloy to the difference, makes sanding block agree with the aluminium alloy.

Optionally, the cleaning assembly further comprises a driving cylinder arranged on the frame and used for driving the mounting rod to move along the axial direction, one end of the mounting rod is connected with the polishing block, and the other end of the mounting rod is connected with an output shaft of the driving cylinder.

Through adopting above-mentioned technical scheme, drive actuating cylinder drive sanding block and reciprocate to be convenient for adapt to the aluminium alloy of different models, and adjust sanding block's position after changing sanding block.

Optionally, one end of the mounting rod, which deviates from the driving cylinder, is provided with an insertion block, the polishing block is provided with an insertion hole, the insertion block is inserted into the insertion hole, a fixing screw is arranged in the polishing block in a penetrating manner, and the fixing screw is arranged in the insertion block in a penetrating manner.

Through adopting above-mentioned technical scheme, the grafting piece is pegged graft in the spliced eye with the installation pole to be fixed in the installation pole through set screw with the sanding block, keep sanding block's stability when polishing, and be convenient for the installation and the dismantlement of sanding block, be convenient for change the sanding block of different models.

Optionally, the transportation subassembly includes that a plurality of rotations are connected in the round roller of frame, the coaxial sprocket that is fixed in the round roller both ends, cup joint in the chain of sprocket, set up in the delivery board between the chain that is located the round roller both ends, be fixed in the delivery board lower extreme and be used for holding the layer board of aluminium alloy and be used for driving round roller pivoted first motor, the round roller sets up respectively in the both sides that the aluminium alloy passes through the route, and the aluminium alloy is held between the delivery board that is located its both sides when passing through, and the sprocket that is located both sides rotates opposite direction, layer board perpendicular to delivery board sets up, the round roller is coaxial to be fixed in first motor output shaft.

Through adopting above-mentioned technical scheme, the transport plate centre gripping aluminium alloy of both sides, first motor drive the round roller and rotate and drive a plurality of sprockets through the conduction of sprocket and chain and rotate, and the sprocket rotation opposite direction of both sides for the aluminium alloy is transported by the centre gripping, and the aluminium alloy is held in the layer board, prevents that the aluminium alloy from breaking away from the transport plate in the transportation, makes the aluminium alloy stably transport.

It is optional, the one end that the delivery board deviates from the layer board slides and is connected with the briquetting down that is used for cooperating layer board centre gripping aluminium alloy, briquetting and layer board parallel arrangement down, the groove of sliding has been seted up to the delivery board, the inslot that slides is fixed with the slide bar, the slide bar is located to the lower briquetting cover that slides, the delivery board is located the inslot that slides and is provided with the guide bar, the briquetting down is worn to locate by the guide bar, the axial of guide bar and the axial direction parallel of slide bar, the slide bar all overlaps with the guide bar and is equipped with reset spring, reset spring's one end is fixed in the inslot wall that slides, and the other end is fixed in briquetting lateral wall down, the frame is provided with the guide board that is used for making the briquetting push down, the guide board includes horizontal part and depressed part, horizontal part and depressed part level and smooth transition, briquetting upper surface and guide board depressed part butt down, the frame is provided with the adjusting part that is used for adjusting the position about the guide board.

By adopting the technical scheme, the position of the guide plate is adjusted through the adjusting assembly so as to adapt to aluminum profiles of different models, the lower pressing block is pressed downwards under the guide of the guide plate and is matched with the supporting plate to clamp the side edge of the aluminum profile, so that the aluminum profile is more stably conveyed, the aluminum profile is kept stable during polishing, and after the lower pressing block leaves the guide plate, the lower pressing block is reset to an original station through the elasticity of the reset spring so as to loosen the aluminum profile; the guide rod and the sliding rod limit the sliding direction of the lower pressing block and enable the lower pressing block to stably slide.

Optionally, the adjusting part is including being fixed in a plurality of locating pieces and the location spiral shell that the locating piece was worn to locate by the screw thread of guide board both ends tip and decide, the frame is located between two locating pieces of guide board one end, but set screw's threaded end butt in frame lateral wall, the end fixing of guide board has the slider, the spout has been seted up to the frame, the slider slides and connects in the spout, the scale groove of being convenient for observe guide board adjust distance is seted up to the frame lateral wall.

Through adopting above-mentioned technical scheme, make the guide board can stably slide through slider and spout, observe the position of guide board through the scale groove, after adjusting and making suitable position, screw up set screw and make set screw's threaded end butt in frame lateral wall to fix the guide board.

Optionally, the upper surface of the lower pressing block is arranged in an arc shape, and the arc surface is abutted to the concave part of the guide plate.

Through adopting above-mentioned technical scheme, the arc surface makes lower briquetting more smooth when moving along the guide board.

Optionally, a plurality of second motors are arranged at the discharging end, located on the conveying assembly, of the rack, the second motors are respectively located on two sides and below the aluminum profile passing path, a polishing wheel is coaxially fixed to an output shaft of each second motor, and the polishing wheel is in contact with the outer surface of the aluminum profile.

Through adopting above-mentioned technical scheme, the second motor drive wheel of polishing rotates, and when the aluminium alloy passed through, each wheel of polishing was polished the three surface of aluminium alloy respectively, clearance burr.

Optionally, the frame is provided with and is used for carrying out the conveyer belt of unloading to the aluminium alloy through emery wheel clearance burr, the frame rotates and is connected with a plurality of transfer rollers, the frame is provided with the third motor, the output shaft of third motor and one of them transfer roller fixed connection, the transfer roller is located to the conveyer belt cover.

Through adopting above-mentioned technical scheme, thereby the third motor drives the transfer roller and rotates and drive the conveyer belt and rotate to carry out the unloading to the aluminium alloy of having cleared up the burr.

A processing technology of an aluminum frame for photovoltaic comprises the following steps:

s1, adjusting the position of a guide plate through an adjusting assembly to enable a lower pressing block to be pressed downwards and then matched with a supporting plate to clamp an aluminum profile;

s2, the aluminum profile is transported through a conveying plate, a supporting plate and a lower pressing block, a polishing block moves to a specified station through a driving cylinder, and the aluminum profile passes through the polishing block while being transported, so that the inner surface of the aluminum profile is polished by the polishing block;

s3, cleaning burrs on the outer surface of the aluminum profile at the blanking position of the conveying assembly through a polishing wheel;

and S4, blanking the aluminum profile subjected to deburring by the polishing wheel through a conveying belt.

By adopting the method, the burrs on the inner surface of the aluminum profile can be cleaned conveniently, the burrs on the outer surface of the aluminum profile can be cleaned simultaneously, and the situation that the burrs on the inner surface of the aluminum frame scratch the photovoltaic panel is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the conveying plate and the supporting plate clamp and convey the aluminum profile, the inner surface of the aluminum profile is scratched by the polishing block during conveying, and burrs on the inner surface are cleaned due to the contact of the inner surface of the aluminum profile and the polishing block, so that the situation that the photovoltaic panel is scratched by the burrs on the inner surface of the aluminum frame is reduced;

2. the lower pressing block is pressed on the edge of the supporting plate through the guide of the guide plate and is matched with and clamps the aluminum profile, so that the aluminum profile can be conveyed more stably;

3. and cleaning burrs on the outer surface of the aluminum profile by each polishing wheel.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a transport assembly in an embodiment of the present application.

Fig. 3 is an enlarged structural view of a portion a in fig. 2.

Fig. 4 is a schematic structural diagram of an adjusting assembly in an embodiment of the present application.

FIG. 5 is a schematic structural diagram of a cleaning assembly in an embodiment of the present application.

Description of reference numerals:

1. a frame; 2. a transport assembly; 201. a round roller; 202. a sprocket; 203. a chain; 204. a conveying plate; 205. a pallet; 206. a first motor; 3. cleaning the assembly; 301. grinding blocks; 302. mounting a rod; 303. a driving cylinder; 4. pressing the block; 5. a sliding groove; 6. a slide bar; 7. a guide bar; 8. a return spring; 9. a guide plate; 10. a horizontal portion; 11. a recessed portion; 12. an adjustment assembly; 121. positioning blocks; 122. a set screw; 13. a scale groove; 14. an insertion block; 15. inserting holes; 16. a fixing screw; 17. a second motor; 18. grinding the wheel; 19. a conveyor belt; 20. a conveying roller; 21. a third motor; 22. a slider; 23. a chute.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses photovoltaic aluminum frame processing equipment, refer to fig. 1, including frame 1, frame 1 is provided with the transportation subassembly 2 that is used for transporting the aluminium alloy, and frame 1 still is provided with the clearance subassembly 3 that is used for clearing up aluminium alloy internal surface burr. The aluminum profile is transported by the transportation component 2 and simultaneously cleaned of burrs on the inner surface of the aluminum profile through the cleaning component 3.

Referring to fig. 2, the transportation assembly 2 includes a plurality of round rollers 201 rotatably connected to the frame 1 through bearings, chain wheels 202 coaxially welded to both ends of the round rollers 201, a conveying plate 204 welded between the chains 203 at both ends of the round rollers 201 and the chains 203 sleeved on the chain wheels 202, a support plate 205 welded to the lower end of the conveying plate 204 and used for supporting an aluminum profile, and a first motor 206 for driving the round rollers 201 to rotate, wherein the round rollers 201 are coaxially fixed to an output shaft of the first motor 206 through screws; the round rollers 201 are respectively positioned at two sides of the aluminum profile passing path, the aluminum profile is clamped between the conveying plates 204 positioned at two sides of the aluminum profile passing path, the rotating directions of the chain wheels 202 positioned at two sides are opposite, and the aluminum profile is conveyed by being clamped by the conveying plates 204; the supporting plate 205 is positioned on the side of the conveying plate 204, which faces away from the chain wheel 202, and is arranged perpendicular to the conveying plate 204, so as to support the aluminum profile.

Referring to fig. 2 and 3, one end of the conveying plate 204, which is away from the supporting plate 205, is connected with a lower press block 4, which is used for matching the supporting plate 205 to clamp an aluminum profile in a sliding manner, the lower press block 4 is arranged in parallel with the supporting plate 205, the conveying plate 204 is provided with a sliding groove 5, a sliding rod 6 is welded in the sliding groove 5, the axial direction of the sliding rod 6 is parallel to the axial direction of the round roller 201, two guide rods 7 are welded in the sliding groove 5, the two guide rods 7 are respectively positioned at two sides of the sliding rod 6, the lower press block 4 is simultaneously sleeved on the sliding rod 6 and the guide rods 7 in a sliding manner, the sliding rod 6 and the guide rods 7 are both sleeved with return springs 8, one end of each return spring 8 is welded on the inner wall of the sliding groove 5, the other end of each return spring is welded on the side wall of the lower press block 4, and the guide rods 7 and the sliding rods 6 limit the sliding direction of the lower press block 4 and enable the lower press block 4 to stably slide; the guide plate 9 for pressing the lower pressing block 4 down is connected to the frame 1 in a sliding manner, the guide plate 9 comprises a horizontal part 10 and a depressed part 11, and the horizontal part 10 and the depressed part 11 are in smooth transition. First motor 206 drive circle roller 201 rotates, thereby drive sprocket 202 and chain 203 and rotate, and then drive delivery plate 204 and remove, the aluminium alloy is transported in delivery plate 204 centre gripping, delivery plate 204 is followed to lower briquetting 4 and is removed, lower briquetting 4 is because the guide of guide board 9 gradually pushes down and layer board 205 cooperation centre gripping aluminium alloy, the upper surface of lower briquetting 4 is the arc setting and makes 4 upper surface butt of lower briquetting more smooth when sliding in guide board 9, the lower briquetting leaves guide board 9 because reset spring 8's elasticity resumes to former station, thereby loosen the aluminium alloy.

Referring to fig. 4, the frame 1 is provided with an adjustment assembly 12 for adjusting the up-down position of the guide plate 9. The adjusting assembly 12 comprises a plurality of positioning blocks 121 welded to the end portions of two ends of the guide plate 9 and positioning screws 122 threaded through the positioning blocks 121, the rack 1 is located between the two positioning blocks 121 at one end of the guide plate 9, the threaded ends of the positioning screws 122 can be abutted to the side wall of the rack 1, the side wall of the rack 1 is provided with scale grooves 13 convenient for observing the adjusting distance of the guide plate 9, the position of the guide plate 9 is determined by observing the scale grooves 13, the position of the guide plate 9 is convenient to adjust when aluminum profiles of different models need to be processed, and therefore the lower pressing block 4 and the supporting plate 205 are convenient to cooperate to clamp the aluminum profiles; guide plate 9's end fixing has slider 22, and frame 1 has seted up spout 23, and slider 22 slides and connects in spout 23, and slider 22 all is the T type setting with spout 23's cross-section to make guide plate 9 can carry out stable sliding.

Referring to fig. 5, the cleaning assembly 3 includes a polishing block 301, a mounting rod 302, and a driving cylinder 303 fixed to the frame 1 through screws for driving the mounting rod 302 to move along the axial direction, one end of the mounting rod 302 is coaxially welded to an output shaft of the driving cylinder 303, and the polishing block 301 is detachably connected to one end of the mounting rod 302 departing from the driving cylinder 303. The welding of the one end that installation pole 302 deviates from and drives actuating cylinder 303 has insertion block 14, and mating hole 15 has been seted up to sanding block 301, and insertion block 14 pegs graft in mating hole 15, and sanding block 301 screw is worn to be equipped with set screw 16, and set screw 16 simultaneously screw thread is worn to locate insertion block 14 to be convenient for sanding block 301's installation and dismantlement, and then be convenient for change sanding block 301 according to the shape of aluminium alloy. When the aluminum profile is transported, the grinding block 301 is kept still, and the inner surface of the aluminum profile is in contact with the grinding block 301 and generates friction, so that burrs on the inner surface of the aluminum profile are cleaned.

Referring to fig. 1, frame 1 is located the unloading end of transportation subassembly 2 and has three second motors 17 through the fix with screw, three second motors 17 are located the both sides and the below that the aluminium alloy passes through the route respectively, the second motor 17 that is located the aluminium alloy below staggers the setting with the second motor 17 that is located the aluminium alloy both sides, the output shaft of three second motors 17 all has the wheel 18 of polishing through the fix with screw, second motor 17 bores the hole and drives the wheel 18 of polishing and rotate, its surface and the wheel 18 contact of polishing when the aluminium alloy passes through, thereby clear up the burr of aluminium alloy surface. Frame 1 is provided with the conveyer belt 19 that is used for carrying out the unloading to the aluminium alloy through 18 clearance burrs of grinding wheel, and frame 1 rotates through the bearing and is connected with a plurality of transfer rollers 20, and a plurality of transfer rollers 20 are located to conveyer belt 19 cover, and frame 1 has third motor 21 through the fix with screw, and the output shaft of third motor 21 passes through the coaxial fixed of screw with one of them transfer roller 20. The third motor 21 rotates to drive the conveying roller 20 connected with the third motor to rotate, so that the conveying belt 19 is driven to rotate, and the aluminum profile is discharged and conveyed.

According to the embodiment, the processing technology of the aluminum frame for the photovoltaic comprises the following steps:

s1, adjusting the position of the guide plate 9 according to the scale, and then screwing down the positioning screw 122 to fix the position of the guide plate 9, so that the lower pressing block 4 is pressed down under the action of the guide plate 9 to be matched with the supporting plate 205 to clamp the aluminum profile;

s2, the first motor 206 rotates to drive the chain wheel 202 and the chain 203 to rotate, so that the conveying plates 204 are driven to rotate, the conveying plates 204 positioned on two sides of the aluminum profile clamp and transport the aluminum profile, meanwhile, the lower pressing block 4 and the supporting plate 205 are matched to clamp and transport the aluminum profile, the polishing block 301 moves to a specified station through the driving cylinder 303, the aluminum profile passes through the polishing block 301 during transportation, and the polishing block 301 is in contact with the inner surface of the aluminum profile, so that the inner surface of the aluminum profile is polished;

s3, the aluminum profile is polished through the polishing wheel 18 under the clamping and conveying of the conveying assembly, the third motor 21 drives the polishing wheel 18 to rotate, and the two sides and the outer surface below the aluminum profile are polished by the polishing wheel 18;

s4, the aluminum profile is subjected to blanking through the conveying belt 19 after burrs are cleaned through the grinding wheel 18, one end of the aluminum profile is located on the conveying belt 19 to be conveyed, and the other end of the aluminum profile is continuously clamped and pushed by the conveying assembly 2, so that the aluminum profile is stably blanked.

The implementation principle of the embodiment of the application is as follows: the position of the guide plate 9 is adjusted through the adjusting assembly 12 according to the model size of the aluminum profile, the aluminum profile enters from the feeding end and is stably clamped and conveyed by the matching of the conveying plate, the lower pressing plate and the supporting plate 205; before feeding the aluminum profile, the polishing block 301 runs to a station convenient for cleaning burrs on the inner surface of the aluminum profile through the driving cylinder 303, and the aluminum profile is transported while the polishing block 301 cleans the burrs on the inner surface of the aluminum profile; the aluminum profile is transported further by the transport assembly 2 and is ground by the grinding wheel 18 to remove burrs on the outer surface thereof, and then the aluminum profile enters the conveyor belt 19 to be discharged by the conveyor belt 19.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an aluminium frame processing equipment for photovoltaic, includes frame (1), its characterized in that: frame (1) is provided with transportation subassembly (2) that are used for transporting the aluminium alloy, frame (1) is provided with clearance subassembly (3) that are used for clearing up aluminium alloy internal surface burr, clearance subassembly (3) are including sanding block (301) and installation pole (302), sanding block (301) demountable connection is in installation pole (302), sanding block (301) are changed according to the shape of aluminium alloy, sanding block (301) and aluminium alloy internal surface contact and production friction when transportation subassembly (2) transport aluminium alloy.

2. The aluminum frame processing equipment for photovoltaic use according to claim 1, characterized in that: the cleaning assembly (3) further comprises a driving cylinder (303) which is arranged on the rack (1) and used for driving the mounting rod (302) to move along the axial direction, one end of the mounting rod (302) is connected with the polishing block (301), and the other end of the mounting rod is connected with an output shaft of the driving cylinder (303).

3. The photovoltaic aluminum frame processing equipment according to claim 2, characterized in that: one end of the mounting rod (302) departing from the driving cylinder (303) is provided with an insertion block (14), the grinding block (301) is provided with an insertion hole (15), the insertion block (14) is inserted into the insertion hole (15), a fixing screw (16) penetrates through the thread of the grinding block (301), and the fixing screw (16) penetrates through the thread of the insertion block (14).

4. The aluminum frame processing equipment for photovoltaic use according to claim 1, characterized in that: the transportation assembly (2) comprises a plurality of round rollers (201) which are rotatably connected to the rack (1), chain wheels (202) which are coaxially fixed at two ends of the round rollers (201), chains (203) which are sleeved on the chain wheels (202), conveying plates (204) which are arranged between the chains (203) at two ends of the round rollers (201), supporting plates (205) which are fixed at the lower ends of the conveying plates (204) and used for supporting aluminum profiles and first motors (206) which are used for driving the round rollers (201) to rotate, wherein the round rollers (201) are respectively arranged at two sides of a path through which the aluminum profiles pass, the aluminum profiles are clamped between the conveying plates (204) which are arranged at two sides of the aluminum profiles when passing through, the rotating directions of the chain wheels (202) which are arranged at two sides are opposite, the supporting plates (205) are perpendicular to the conveying plates (204), and the round rollers (201) are coaxially fixed on output shafts of the first motors (206).

5. The aluminum frame processing equipment for photovoltaic use according to claim 4, wherein: conveying board (204) deviates from one end of layer board (205) and slides and is connected with briquetting (4) down that is used for cooperation layer board (205) centre gripping aluminium alloy, briquetting (4) and layer board (205) parallel arrangement down, conveying board (204) have been seted up and have been slided groove (5), it is equipped with slide bar (6) to slide groove (5) internal fixation down, slide bar (6) are located to briquetting (4) slip cover down, conveying board (204) are located and are provided with guide bar (7) in slide groove (5), briquetting (4) are worn to locate down in guide bar (7), the axial of guide bar (7) and the axial direction parallel of slide bar (6), slide bar (6) and guide bar (7) all overlap and are equipped with reset spring (8), the one end of reset spring (8) is fixed in slide groove (5) inner wall, and the other end is fixed in briquetting (4) lateral wall down, frame (1) is provided with guide board (9) that are used for making briquetting (4) push down, horizontal part (9) include horizontal part (10) and depressed part (11), horizontal part (9) and depressed part (11) are used for adjusting about smooth part (11) adjustment board (9) upper and smooth part (11) adjust guide board (11) lower part (11) upper and lower part (11) is used for briquetting (11) lower part (11) adjusting plate (11) adjusting part (9) lower part (11) down ).

6. The photovoltaic aluminum frame processing equipment according to claim 5, characterized in that: adjusting part (12) including being fixed in a plurality of locating pieces (121) and the screw thread of guide board (9) both ends tip and wear to locate set screw (122) of locating piece (121), frame (1) is located between two locating pieces (121) of guide board (9) one end, but the screw thread end butt of set screw (122) is in frame (1) lateral wall, the end fixing of guide board (9) has slider (22), spout (23) have been seted up in frame (1), slider (22) slide and connect in spout (23), scale groove (13) convenient to observe guide board (9) adjusting distance are seted up to frame (1) lateral wall.

7. The aluminum frame processing equipment for photovoltaic use according to claim 6, wherein: the upper surface of the lower pressing block (4) is arc-shaped and the arc-shaped surface is abutted to the concave part (11) of the guide plate (9).

8. The aluminum frame processing equipment for photovoltaic use according to claim 4, wherein: frame (1) is located the unloading end of transportation subassembly (2) and is provided with a plurality of second motors (17), and is a plurality of second motor (17) are located the both sides and the below that the aluminium alloy passes through the route respectively, the output shaft coaxial fixation of second motor (17) has wheel (18) of polishing, wheel (18) and the contact of aluminium alloy surface.

9. The aluminum frame processing equipment for photovoltaic use according to claim 8, wherein: frame (1) is provided with conveyer belt (19) that are used for carrying out the unloading to the aluminium alloy through emery wheel (18) clearance burr, frame (1) rotates and is connected with a plurality of transfer rollers (20), frame (1) is provided with third motor (21), the output shaft of third motor (21) and one of them transfer roller (20) fixed connection, transfer roller (20) are located to conveyer belt (19) cover.

10. A processing technology of an aluminum frame for photovoltaic, which applies the processing equipment of the aluminum frame for photovoltaic of any one of claims 1 to 9, and is characterized in that: the method comprises the following steps:

s1, adjusting the position of a guide plate (9) through an adjusting assembly (12), so that a lower pressing block (4) is pressed down and then matched with a supporting plate (205) to clamp an aluminum profile;

s2, the aluminum profile is transported through a transport plate (204), a supporting plate (205) and a lower pressing block (4), a polishing block (301) runs to a designated station through a driving cylinder (303), and the aluminum profile passes through the polishing block (301) while being transported, so that the inner surface of the aluminum profile is polished by the polishing block (301);

s3, cleaning burrs on the outer surface of the aluminum profile at the blanking position of the conveying assembly through a polishing wheel (18);

and S4, blanking the aluminum profile subjected to burr removal by the grinding wheel (18) through the conveying belt (19).

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