CN114654247A

CN114654247A - Integrated device for processing solar cell module frame

Info

Publication number: CN114654247A
Application number: CN202210302511.3A
Authority: CN
Inventors: 曹方; 苏青梅
Original assignee: Huai'an Siweila Energy Technology Co ltd
Current assignee: Huai'an Siweila Energy Technology Co ltd
Priority date: 2022-03-25
Filing date: 2022-03-25
Publication date: 2022-06-24

Abstract

The invention discloses an integrated device for processing a solar cell module frame, which comprises a bottom box, a third storage box and a second moving mechanism, wherein a first storage box, a limiting box, a processing box and the second storage box are fixed on the upper side of the bottom box, the first storage box is positioned on one side of the limiting box, a conveyor belt penetrates through the first storage box, the first moving mechanism is fixed on the inner walls of the first storage box, the limiting box, the processing box and the second storage box, a first supporting plate is fixed on the first moving mechanism, a sucker component is fixed on the first supporting plate, and a control box is fixed on the front side of the bottom box. The integrated device for processing the solar cell module frame has the advantages that the solar cell module frame can be automatically fed, unloaded and moved, the auxiliary fixing effect can be realized during the limiting and clamping of the frame, the processing treatment can be carried out in the same operation processing chamber, the interior of a processing box can be automatically cleaned, and waste materials are crushed and collected.

Description

Integrated device for processing solar cell module frame

Technical Field

The invention relates to the technical field of solar energy, in particular to an integrated device for processing a frame of a solar cell module.

Background

Solar energy is a renewable energy source. The solar cell module frame refers to an aluminum alloy section fixing frame and a bracket formed by photovoltaic solar cell panel assemblies.

The existing solar cell module frame is processed man-hour, need for manual to carry out the material loading to it and unload and remove, whole operation can increase the cost of labor, operating personnel is operating man-hour easily, cause the unnecessary injury, and after solar cell module frame extrusion stamping forming, need remove to punching equipment downside and process, need remove to cutting equipment downside after the processing is accomplished and cut again, can not once only carry out processing, whole work efficiency is lower.

Disclosure of Invention

The invention aims to provide an integrated device for processing a solar cell module frame, which aims to solve the problems that the traditional solar cell module frame in the background art needs to be manually loaded, unloaded and moved during processing, the labor cost is increased during the whole operation, an operator is easy to operate during processing to cause unnecessary injury, the solar cell module frame needs to be moved to the lower side of punching equipment for processing after being extruded and stamped, the solar cell module frame needs to be moved to the lower side of cutting equipment for cutting after being processed, the processing cannot be performed at one time, and the whole working efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: an integrated device for processing a solar cell module frame comprises a bottom box, a third storage box and a second moving mechanism,

the utility model discloses a processing device, including under casing, bottom case, processing case, first bin, spacing case, processing case and second storage box, under casing upside is fixed with first bin, spacing case, processing case and second storage box, and first bin is located spacing case one side, and the spacing case is located processing case one side simultaneously, the processing case is located second storage box one side, run through the conveyer belt in the first bin, and all be fixed with first moving mechanism on first bin, spacing case, processing case and the second storage box inner wall, be fixed with first backup pad on the first moving mechanism simultaneously, be fixed with the sucking disc subassembly in the first backup pad, and be fixed with spacing fixed subassembly on the sucking disc subassembly, the under casing front side is fixed with the control box.

Preferably, the sucker assembly comprises vacuum equipment, a pipeline and a powerful sucker, and the vacuum equipment is communicated with the powerful sucker through the pipeline.

Through adopting above-mentioned technical scheme, through the setting of sucking disc subassembly, can carry out material loading, unload and remove solar module frame.

Preferably, spacing fixed subassembly includes first electric telescopic handle, U-shaped limiting plate, second electric telescopic handle, second backup pad, third electric telescopic handle and limiting plate, first electric telescopic handle one end is fixed with the U-shaped limiting plate, and is fixed with second electric telescopic handle on the U-shaped limiting plate, and second electric telescopic handle one end is fixed with the second backup pad simultaneously, second backup pad one end is fixed with third electric telescopic handle, and third electric telescopic handle one end is fixed with the limiting plate.

Through adopting above-mentioned technical scheme, can assist spacingly to solar module frame through the setting of spacing fixed subassembly.

Preferably, all be fixed with stop gear on third storage box and the spacing incasement wall, and the spacing case upside is fixed with the pneumatic cylinder, the pneumatic cylinder is fixed with forming die through the piston rod, and goes up forming die and be located forming die upside down, forming die fixes the inside downside at first bin down, and all is provided with electric sealing door on spacing case and the processing case.

Through adopting above-mentioned technical scheme, through setting up forming die and last forming die down can become solar module frame with the punching press processing of solar module board.

Preferably, the second moving mechanism is fixed on the upper side inside the machining box, a fourth electric telescopic rod is fixed on the second moving mechanism, a third supporting plate is fixed on the fourth electric telescopic rod, a drilling assembly, a cutting assembly and a cleaning assembly are fixed on the third supporting plate, the cutting assembly is located on one side of the drilling assembly, and the cutting assembly is located on one side of the cleaning assembly.

Through adopting above-mentioned technical scheme, can adjust downside drilling subassembly, cutting assembly and clean subassembly's height through fourth electric telescopic handle's setting.

Preferably, the drilling assembly comprises a first driving motor, a drilling head and a high-pressure air supply fan, the output end of the first driving motor is rotatably connected with the drilling head, and the drilling head is located between the high-pressure air supply fans.

Through adopting above-mentioned technical scheme, can carry out drilling processing through the setting of drilling subassembly.

Preferably, the cutting assembly comprises a second driving motor and a cutting blade, the output end of the second driving motor is connected with the cutting blade in a rotating mode, the cutting assembly is located on the upper side of the frame supporting frame, a sliding block is fixed to the lower side of the frame supporting frame, the sliding block is connected with the processing box in a sliding mode, one end of the sliding block is fixed with a fifth electric telescopic rod, and the other end of the fifth electric telescopic rod is fixed to the supporting block.

Through adopting above-mentioned technical scheme, can carry out cutting process through cutting assembly's setting.

Preferably, clean subassembly includes manipulator, fourth backup pad, high pressure fan, air exit and clean brush, manipulator one end is fixed with the fourth backup pad, and runs through high pressure fan in the fourth backup pad, and high pressure fan is linked together through gas-supply pipe and air exit simultaneously.

Through adopting above-mentioned technical scheme, can clean in the processing case through the setting of clean subassembly.

Preferably, the processing case downside is linked together through feed inlet and crushing unit, crushing unit is including smashing case, third driving motor, drive gear, crushing roller and discharge gate, and is fixed with third driving motor on the crushing case, and third driving motor passes through drive gear simultaneously and drives crushing roller and rotate, crushing roller is located the discharge gate upside, and the discharge gate is located the collecting box upside.

Through adopting above-mentioned technical scheme, can handle the waste material through crushing unit's setting.

Compared with the prior art, the invention has the beneficial effects that: the integrated device for processing the frame of the solar cell component,

(1) the solar cell module frame automatic feeding, discharging and moving device has the advantages that the solar cell module frame automatic feeding, discharging and moving device can automatically feed, discharge and move the solar cell module frame, can play a role of auxiliary fixing when the frame is limited and clamped, can be processed in the same operation processing chamber, can automatically clean the interior of the processing box, and can crush and collect waste materials, can crush and treat the waste materials twice under the auxiliary action of the two groups of crushing rollers, and finally stores the waste materials in the collecting box, so that the waste materials can be uniformly treated in the later period;

(2) according to the solar cell module frame plate, the sucker component and the limiting fixing component on the first supporting plate can be driven to move under the auxiliary action of the first moving mechanism, so that the solar cell module frame plate and the solar cell module forming frame can be subjected to loading, unloading and moving, adsorption and fixing can be carried out under the auxiliary action of the sucker component, auxiliary limiting and fixing can be carried out under the auxiliary action of the limiting fixing component, and the solar cell module frame is prevented from falling;

(3) according to the invention, drilling and cutting operations can be completed in the same processing box under the action of the drilling assembly and the cutting assembly without moving, and the frame supporting frame can be driven to perform distance adjustment under the auxiliary action of the fifth electric telescopic rod and the sliding block, so that frames with different lengths can be cut in the later period, and the frame supporting frame is provided with the supporting and limiting mechanism, so that the frames with different inner diameters can be supported in an auxiliary manner, and the processing quality is facilitated;

(4) the cleaning brush on the fourth supporting plate can be driven to move under the auxiliary action of the manipulator, so that the cleaning brush can automatically clean the interior of the processing box, and the pressurized natural wind can clean the interior of the processing box through the air exhaust port through the air delivery pipe under the auxiliary action of the high-pressure fan, so that the cleaning quality in the processing box is ensured.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic diagram of the right-view structure of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic diagram of the right-view structure of the present invention;

FIG. 5 is a schematic view of the structure of the left view-finding cloth of the present invention;

FIG. 6 is a schematic view of the feed ports of the present invention distributed over the size reduction assembly;

FIG. 7 is an enlarged view of the structure at A in FIG. 5 according to the present invention;

FIG. 8 is an enlarged view of the structure at B in FIG. 6 according to the present invention;

fig. 9 is a schematic view of a three-dimensional structure of the spacing and fixing component of the invention distributed in the first storage box.

In the figure: 1. a bottom box, 2, a conveyor belt, 3, a first storage box, 4, a limiting box, 5, a processing box, 6, a second storage box, 7, a first moving mechanism, 8, a first supporting plate, 9, a sucker component, 901, a vacuum device, 902, a pipeline, 903, a powerful sucker, 10, a limiting fixing component, 1001, a first electric telescopic rod, 1002, a U-shaped limiting plate, 1003, a second electric telescopic rod, 1004, a second supporting plate, 1005, a third electric telescopic rod, 1006, a limiting plate, 11, a third storage box, 12, a limiting mechanism, 13, a lower forming die, 14, a hydraulic cylinder, 15, an upper forming die, 16, an electric sealing door, 17, a second moving mechanism, 18, a fourth electric telescopic rod, 19, a third supporting plate, 20, a drilling component, 2001, a first driving motor, 2002, a drilling head, 2003, a high-pressure air fan, 21, a cutting component, 2101 and a second driving motor, 2102. cutting blade, 22, cleaning component, 2201, manipulator, 2202, fourth supporting plate, 2203, high-pressure fan, 2204, air outlet, 2205, cleaning brush, 23, supporting block, 24, fifth electric telescopic rod, 25, slider, 26, frame supporting frame, 27, feed inlet, 28, crushing component, 2801, crushing box, 2802, third driving motor, 2803, driving gear, 2804, crushing roller, 2805, discharge outlet, 2806, collecting box, 29 and control box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: an integrated device for processing a solar cell module frame is disclosed, as shown in fig. 1, fig. 2, fig. 7 and fig. 9, a first storage box 3, a limit box 4, a processing box 5 and a second storage box 6 are fixed on the upper side of a bottom box 1, the first storage box 3 is positioned on one side of the limit box 4, the limit box 4 is positioned on one side of the processing box 5, a sucker assembly 9 comprises a vacuum device 901, a pipeline 902 and a strong suction cup 903, the vacuum device 901 is communicated with the strong suction cup 903 through the pipeline 902, a limit fixing assembly 10 comprises a first electric telescopic rod 1001, a U-shaped limit plate 1002, a second electric telescopic rod 1003, a second support plate 1004, a third electric telescopic rod 1005 and a limit plate 1006, one end of the first electric telescopic rod 1001 is fixed with the U-shaped limit plate 1002, the U-shaped limit plate 1002 is fixed with the second electric telescopic rod 1003, one end of the second electric telescopic rod 1003 is fixed with the second support plate 1004, a third electric telescopic rod 1005 is fixed at one end of the second supporting plate 1004, a limiting plate 1006 is fixed at one end of the third electric telescopic rod 1005, the solar cell module frame can be absorbed by the powerful suction cups 903 under the auxiliary action of the vacuum equipment 901, five groups of powerful suction cups 903 are arranged, and five groups of strong suction cups 903 are equidistantly distributed on the U-shaped limiting plate 1002, so that the auxiliary fixing quality of the frame of the solar cell component can be ensured, the distance between the second supporting plates 1004 can be driven to be adjusted under the auxiliary action of the first electric telescopic rod 1001, so that the solar cell module frames with different widths can be conveniently limited and clamped in the later period, the limiting plate 1006 can limit the solar cell module frame in an auxiliary manner under the auxiliary action of the third electric telescopic rod 1005, when the sucker component 9 can not work normally, unnecessary loss caused by the frame falling of the solar cell component is avoided.

As shown in fig. 1, 3, 4 and 5, the processing box 5 is located at one side of the second storage box 6, the conveyor belt 2 penetrates through the first storage box 3, the limiting box 4, the processing box 5 and the second storage box 6 are all fixed with the first moving mechanism 7, the first moving mechanism 7 is fixed with the first supporting plate 8, the lower side of the processing box 5 is communicated with the crushing assembly 28 through the feeding port 27, the crushing assembly 28 comprises a crushing box 2801, a third driving motor 2802, a driving gear 2803, a crushing roller 2804 and a discharging port 2805, the crushing box 2801 is fixed with the third driving motor 2802, the third driving motor 2802 drives the crushing roller 2804 to rotate through the driving gear 2803, the crushing roller 2804 is located at the upper side of the discharging port 2805, the discharging port 2805 is located at the upper side of the collecting box 2806, waste falls between the crushing rollers 2804 through the feeding port 27, the crushing rollers 4 are provided with upper and lower groups 280, the upper crushing roller 2804 can pre-crush the waste material, the pre-crushed waste material is crushed again under the auxiliary action of the lower crushing roller 2804, so the crushing quality can be ensured, the upper and lower crushing rollers 2804 can be protected, the service life of the waste material is prolonged, the waste material crushed by the crushing rollers 2804 is finally stored in the collection box 2806, the waste material in the collection box 2806 can be taken out by manually pulling the collection box 2806, so the waste material can be uniformly recovered and treated, the waste of resources is avoided, the first support plate 8 can be driven to move under the auxiliary action of the first moving mechanism 7, the first support plate 8 can drive the sucker assembly 9 and the limiting fixing assembly 10 to move, the frame of the solar cell assembly can be loaded, unloaded and moved, and the operator is protected without manual carrying, the whole processing efficiency can be improved, and the processing box 5 is provided with a waste gas treatment mechanism to ensure the quality of the operating environment.

As shown in fig. 1, 2 and 3, a sucker assembly 9 is fixed on a first supporting plate 8, a limiting fixing assembly 10 is fixed on the sucker assembly 9, a control box 29 is fixed on the front side of a bottom box 1, limiting mechanisms 12 are fixed on the inner walls of a third storage box 11 and a limiting box 4, a hydraulic cylinder 14 is fixed on the upper side of the limiting box 4, an upper forming die 15 is fixed on the hydraulic cylinder 14 through a piston rod, the upper forming die 15 is positioned on the upper side of a lower forming die 13, the lower forming die 13 is fixed on the lower side inside the first storage box 3, electric sealing doors 16 are arranged on the limiting box 4 and a processing box 5, three sets of limiting mechanisms 12 are arranged, the three sets of limiting mechanisms 12 can assist and accurately limit solar cell assembly plates on the two sets of lower forming dies 13, the sucker assembly 9 is arranged in the lower forming die 13, and the sucker assembly 9 is accurately positioned on the solar cell assembly plates, supplementary spacing is carried out under solar module board's supplementary effect, avoids rocking when guaranteeing to carry out stamping forming at last forming die 15 and lower forming die 13 to solar module board, influences later stage solar module board stamping forming quality.

As shown in fig. 1, 4, 5 and 8, a second moving mechanism 17 is fixed on the upper side inside the processing box 5, a fourth electric telescopic rod 18 is fixed on the second moving mechanism 17, a third supporting plate 19 is fixed on the fourth electric telescopic rod 18, a drilling assembly 20, a cutting assembly 21 and a cleaning assembly 22 are fixed on the third supporting plate 19, the cutting assembly 21 is positioned on one side of the drilling assembly 20, the cutting assembly 21 is positioned on one side of the cleaning assembly 22, the drilling assembly 20 comprises a first driving motor 2001, a drilling head 2002 and a high-pressure blowing fan 2003, the output end of the first driving motor 2001 is rotatably connected with the drilling head 2002, the drilling head 2002 is positioned between the high-pressure blowing fans 2003, the cutting assembly 21 comprises a second driving motor 2101 and a cutting blade 2102, the output end of the second driving motor 2101 is rotatably connected with the cutting blade 2102, the cutting assembly 21 is positioned on the upper side of the frame supporting frame 26, a slide block 25 is fixed on the lower side of the frame support frame 26, the slide block 25 is connected with the processing box 5 in a sliding manner, one end of the slide block 25 is fixed with a fifth electric telescopic rod 24, the other end of the fifth electric telescopic rod 24 is fixed on a supporting block 23, a length measuring mechanism is fixed on the processing box 5 to ensure accurate cutting in the later period, the third supporting plate 19 can be driven to move downwards under the auxiliary action of a fourth electric telescopic rod 18, so that the drilling component 20 and the cutting component 21 can be adjusted in height, the drilling head 2002 can be driven to rotate under the auxiliary action of a first driving motor 2001, the drilling head 2002 can be used for drilling the frame of the solar cell component, the high-pressure air supply fan 2003 can play a role in auxiliary cleaning to ensure the drilling quality, the frame support frame 26 on the slide block 25 can drive the drilled frame of the solar cell component to move in position under the auxiliary action of the fifth electric telescopic rod 24, the later stage cutting blade 2102 of being convenient for like this cuts the processing, but drilling assembly 20 and cutting assembly 21 carry out the processing in same environment, can shorten length when whole processing like this, increase its practicality, can adjust cutting blade 2102 position equally under the supporting role of second moving mechanism 17, ensure later stage cutting quality, be provided with on the frame support frame 26 and support stop gear, can carry on spacingly to the solar module frame of different widths as required like this, increase the practicality.

As shown in fig. 6 and 8, the cleaning assembly 22 includes a mechanical arm 2201, a fourth support plate 2202, a high-pressure fan 2203, an air outlet 2204 and a cleaning brush 2205, one end of the mechanical arm 2201 is fixed with the fourth support plate 2202, the high-pressure fan 2203 penetrates through the fourth support plate 2202, the high-pressure fan 2203 is communicated with the air outlet 2204 through an air pipe, a rotating mechanism is arranged on the upper side of the mechanical arm 2201, so that the lower cleaning brush 2205 can be rotated, the cleaning brush 2205 can be driven to move under the auxiliary action of the mechanical arm 2201, so that the cleaning brush 2205 can clean the inside of the processing box 5, natural wind pressurized under the auxiliary action of the high-pressure fan 2203 is sprayed out through the air outlet 2204 on the air pipe, so that gaps inside the processing box 5 can be cleaned without manual operation, the practicability is increased, and the recovery quality is ensured.

The working principle is as follows: when the integrated device for processing the frame of the solar cell module is used, an external power supply is switched on, a raw material plate is moved to the inside of a first storage box 3 on a bottom box 1 through a conveyor belt 2, a U-shaped limiting plate 1002 can be driven to move downwards under the auxiliary action of a first electric telescopic rod 1001 on a first supporting plate 8, a strong suction cup 903 on the U-shaped limiting plate 1002 is attached to the raw material plate finally, the strong suction cup 903 on a pipeline 902 carries out auxiliary adsorption treatment on the raw material plate under the auxiliary action of a vacuum device 901, if the raw material plate is too wide, a second supporting plate 1004 is driven to move oppositely to a required position under the auxiliary action of a second electric telescopic rod 1003, a limiting plate 1006 is driven to move relatively under the auxiliary action of a third electric telescopic rod 1005, the limiting plate 1006 can limit and fix the raw material plate finally, the raw material plate 1006 can be moved to the required position in a limiting box 4 under the auxiliary action of a first moving mechanism 7, finally, the raw material plate is placed on a forming die 13, the raw material plate is accurately limited under the auxiliary action of a limiting mechanism 12 on a third storage box 11 and a limiting box 4, finally, the limiting mechanism 12 is separated from the raw material plate, an upper forming die 15 is driven to move downwards under the auxiliary action of a hydraulic cylinder 14, the raw material plate can be subjected to punch forming, a slide block 25 drives a frame supporting frame 26 to be subjected to position adjustment to a required position under the auxiliary action of a fifth electric telescopic rod 24 on a supporting block 23, a formed solar cell module frame can be subjected to limiting clamping under the auxiliary action of a sucker assembly 9 and a limiting fixing assembly 10, the formed solar cell module frame is finally moved to the frame supporting frame 26 on the processing box 5 and is subjected to limiting support, a drilling assembly 20, a cutting assembly 21 and a cleaning assembly 22 on a third supporting plate 19 can be driven to move to the required position under the auxiliary action of a fourth electric telescopic rod 18, the drilling head 2002 can be driven to rotate under the auxiliary action of the first driving motor 2001, so that the drilling head can be drilled, the chips generated during drilling can be cleaned under the auxiliary action of the high-pressure air supply fan 2003, so that the drilling quality can be ensured, the cutting component 21 on the third supporting plate 19 can be driven to adjust under the auxiliary action of the second moving mechanism 17, so that the frame of the solar cell component can be cut, the electric sealing door 16 is closed during cutting, the cleaning brush 2205 on the fourth supporting plate 2202 can be driven to move under the auxiliary action of the manipulator 2201, finally the cleaning brush 2205 can clean the processing box 5, natural air pressurized under the auxiliary action of the high-pressure fan 2203 is exhausted through the exhaust port 2204 on the air conveying pipe, so that the auxiliary cleaning can be performed in the processing box 5, the cleaning quality is ensured, the waste materials after cutting and drilling enter the crushing box 2801 through the feeding hole 27, the crushing roller 2804 is driven to rotate through the driving gear 2803 under the auxiliary action of the third driving motor 2802, the crushing roller 2804 can be crushed, crushed waste scraps are stored in the collecting box 2806 through the discharging hole 2805, the waste scraps are convenient to recycle at a later stage, the processed solar cell module frame is moved to the conveying belt 2 in the second storage box 6 under the auxiliary action of the sucker assembly 9 and the limiting fixing assembly 10 on the first moving mechanism 7 and the first supporting plate 8, and finally the processed solar cell module frame is moved to a required position.

The terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for simplicity of description only and are not intended to indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operative in a particular orientation, and are not to be considered limiting of the claimed invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof.

Claims

1. The utility model provides an integrated device is used in processing of solar module frame, includes under casing (1), third storage box (11) and second moving mechanism (17), its characterized in that:

a first storage box (3), a limit box (4), a processing box (5) and a second storage box (6) are fixed on the upper side of the bottom box (1), the first storage box (3) is positioned on one side of the limit box (4), meanwhile, the limit box (4) is positioned at one side of the processing box (5), the processing box (5) is positioned at one side of the second storage box (6), the conveying belt (2) penetrates through the first storage box (3), and the inner walls of the first storage box (3), the limit box (4), the processing box (5) and the second storage box (6) are all fixed with a first moving mechanism (7), meanwhile, a first supporting plate (8) is fixed on the first moving mechanism (7), a sucker component (9) is fixed on the first supporting plate (8), and a limiting fixing component (10) is fixed on the sucker component (9), and a control box (29) is fixed on the front side of the bottom box (1).

2. The integrated device for processing the frame of the solar cell module according to claim 1, wherein: the sucker assembly (9) comprises vacuum equipment (901), a pipeline (902) and a powerful sucker (903), wherein the vacuum equipment (901) is communicated with the powerful sucker (903) through the pipeline (902).

3. The integrated device for processing the frame of the solar cell module according to claim 1, wherein: spacing fixed subassembly (10) include first electric telescopic handle (1001), U-shaped limiting plate (1002), second electric telescopic handle (1003), second backup pad (1004), third electric telescopic handle (1005) and limiting plate (1006), first electric telescopic handle (1001) one end is fixed with U-shaped limiting plate (1002), and is fixed with second electric telescopic handle (1003) on U-shaped limiting plate (1002), and second electric telescopic handle (1003) one end is fixed with second backup pad (1004) simultaneously, second backup pad (1004) one end is fixed with third electric telescopic handle (1005), and third electric telescopic handle (1005) one end is fixed with limiting plate (1006).

4. The integrated device for processing the frame of the solar cell module according to claim 1, wherein: all be fixed with stop gear (12) on third storage box (11) and spacing case (4) inner wall, and spacing case (4) upside is fixed with pneumatic cylinder (14), pneumatic cylinder (14) are fixed with forming die (15) through the piston rod, and go up forming die (15) and be located forming die (13) upside down, forming die (13) are fixed at the inside downside of first bin (3) down, and all are provided with electric sealing door (16) on spacing case (4) and processing case (5).

5. The integrated device for processing the frame of the solar cell module according to claim 1, wherein: the cutting machine is characterized in that the second moving mechanism (17) is fixed on the upper side inside the processing box (5), a fourth electric telescopic rod (18) is fixed on the second moving mechanism (17), a third supporting plate (19) is fixed on the fourth electric telescopic rod (18), a drilling assembly (20), a cutting assembly (21) and a cleaning assembly (22) are fixed on the third supporting plate (19), the cutting assembly (21) is located on one side of the drilling assembly (20), and the cutting assembly (21) is located on one side of the cleaning assembly (22).

6. The integrated device for processing the frame of the solar cell module according to claim 5, wherein: the drilling assembly (20) comprises a first driving motor (2001), a drilling head (2002) and high-pressure air supply fans (2003), wherein the output end of the first driving motor (2001) is rotatably connected with the drilling head (2002), and the drilling head (2002) is positioned between the high-pressure air supply fans (2003).

7. The integrated device for processing the frame of the solar cell module according to claim 5, wherein: cutting subassembly (21) include second driving motor (2101) and cutting blade (2102), and second driving motor (2101) output rotates and is connected with cutting blade (2102), cutting subassembly (21) are located frame support frame (26) upside, and frame support frame (26) downside is fixed with slider (25), and slider (25) sliding connection has processing case (5) simultaneously, slider (25) one end is fixed with fifth electric telescopic handle (24), and fifth electric telescopic handle (24) other end is fixed on supporting shoe (23).

8. The integrated device for processing the frame of the solar cell module according to claim 5, wherein: the cleaning assembly (22) comprises a mechanical arm (2201), a fourth supporting plate (2202), a high-pressure fan (2203), an air outlet (2204) and a cleaning brush (2205), wherein the fourth supporting plate (2202) is fixed at one end of the mechanical arm (2201), the high-pressure fan (2203) penetrates through the fourth supporting plate (2202), and the high-pressure fan (2203) is communicated with the air outlet (2204) through an air conveying pipe.

9. The integrated device for processing the frame of the solar cell module according to claim 1, wherein: the processing case (5) downside is linked together through feed inlet (27) and crushing subassembly (28), crushing subassembly (28) are including smashing case (2801), third driving motor (2802), drive gear (2803), crushing roller (2804) and discharge gate (2805), and are fixed with third driving motor (2802) on smashing case (2801), and third driving motor (2802) drive crushing roller (2804) through drive gear (2803) and rotate simultaneously, crushing roller (2804) are located discharge gate (2805) upside, and discharge gate (2805) are located collecting box (2806) upside.