CN112173679A

CN112173679A - Angle sign indicating number loading attachment when solar cell panel production

Info

Publication number: CN112173679A
Application number: CN202011171122.9A
Authority: CN
Inventors: 赵玉凤
Original assignee: Nantong Institute of Technology
Current assignee: Nantong Institute of Technology
Priority date: 2020-10-28
Filing date: 2020-10-28
Publication date: 2021-01-05
Anticipated expiration: 2040-10-28
Also published as: CN112173679B

Abstract

The invention discloses a corner brace feeding device during production of a solar cell panel, which relates to the technical field of mechanical assembly and comprises a loading assembly, a lifting assembly and a discharging assembly, wherein the loading assembly is arranged on one side close to the inner side and used for achieving orderly and spaced stacking of corner braces, the loading assembly comprises a loading box, a loading strip and a loading plate, the lifting assembly is arranged on one side close to the outer side and used for achieving integral intermittent ascending or continuous descending of the loading assembly, the lifting assembly comprises a driving motor, a lifting plate and a lifting platform, the discharging assembly is arranged on the front side and the rear side of the loading assembly and used for achieving orderly calling and calling of the corner braces in the loading assembly, and the discharging assembly comprises a telescopic cylinder, a thin cylinder, a clamping plate, a lifting plate and a pushing plate. The corner brace feeding device has the characteristics of reasonable structure, convenience in use and rapidness in feeding, and is suitable for automatic corner brace assembling equipment to improve the working efficiency of the corner brace during assembling.

Description

Angle sign indicating number loading attachment when solar cell panel production

Technical Field

The invention relates to the technical field of mechanical assembly, in particular to an angle code feeding device used in production of a solar cell panel.

Background

With the gradual maturity of technologies for converting light energy into electric energy for storage, solar panels are used more and more widely. The aluminum alloy frame and the corner connectors are used as important parts of the solar cell panel, and at present, the assembly of the aluminum alloy frame and the corner connectors is mainly realized manually, so that the automatic assembly of the aluminum alloy frame and the corner connectors is very important. Wherein, the material loading work of solar energy aluminum alloy frame angle sign indicating number is generally accomplished by the manual work, and the people is just hindered easily to inefficiency, for improve production efficiency, reduce the injury of material loading in-process angle sign indicating number to the workman, need carry out rationalized design again to the material loading part of angle sign indicating number.

Disclosure of Invention

The invention aims to provide a corner brace feeding device for solar cell panel production, which aims to overcome the defects caused in the prior art.

A corner brace loading device used in the production of solar panels comprises a loading component, a lifting component and a discharging component, wherein,

the carrying assembly is arranged at one side close to the inner side and is used for realizing orderly and spaced stacking of the corner connectors;

the lifting assembly is arranged at one side close to the outer side and is used for realizing the integral intermittent rising or continuous falling of the loading assembly;

the discharging assembly is arranged on the front side and the rear side of the loading assembly and used for realizing orderly calling out and calling of corner codes in the loading assembly.

Preferably, the carrying and placing assembly specifically comprises a carrying and placing box, a carrying and placing strip and a carrying and placing plate, the carrying and placing box is of a hollow cuboid structure and is in a front-back opening design, the carrying and placing strip is provided with a plurality of pairs and is uniformly installed on the left inner wall and the right inner wall of the carrying and placing box, the inner side of each pair of carrying and placing strip is provided with a rectangular carrying and placing groove, the carrying and placing plate is provided with a plurality of pairs and can be correspondingly and slidably installed in each pair of carrying and placing grooves, the upper end surface of the carrying and placing plate is uniformly provided with a rectangular guide groove, the carrying and placing plate is symmetrically and slidably connected with a first guide rod at the front side and the rear side of each guide groove, the top ends of the first guide rods at the two sides are commonly connected with a positioning plate, a rectangular positioning groove is arranged in the middle of the positioning plate, the corner codes are in clearance fit with the positioning grooves, the bottom ends of the, c-shaped drawing pieces are symmetrically arranged on the front side and the rear side of the upper end surface of the carrying plate.

Preferably, the lifting assembly specifically comprises a supporting tube, a top plate, a bottom plate, a first driving motor, a second driving motor, a lifting plate, a second guide rod and a lifting platform, the supporting tube is provided with four pieces which are vertically arranged in a 2x2 rectangular array, the top and the bottom plate are respectively installed at the top end and the bottom end of the supporting tube, the first driving motor is provided with a pair of first synchronous wheels and is symmetrically installed below the top plate in a front-back manner by means of a pair of fixing plates, the output shaft of the first driving motor is provided with the first synchronous wheels, the second driving motor is provided with a pair of second synchronous wheels and is symmetrically installed above the bottom plate in a front-back manner by means of the pair of fixing plates, the output shaft of the second driving motor is provided with the second synchronous wheels, the first synchronous wheels and the second synchronous wheels which are positioned on the same side are connected through a synchronous belt, the lifting plate is, the meshing piece is equipped with the meshing strip that can with hold-in range intermeshing on the contact surface with the hold-in range, guide bar two is equipped with two and front and back symmetry and vertical arranging, the upper and lower both ends of guide bar two are connected with roof and bottom plate with the help of connecting seat one and connecting seat two respectively, and equal slidable mounting has the connecting block on two guide bar two and is fixed in the outer one side that leans on of lifter plate with the connecting block, the lift platform level and overhang weld in the top of lifter plate, lift platform's up end is equipped with the locating plate that is the L type that rectangular array arranged.

Preferably, the discharging assembly specifically comprises a first suspension plate, a first telescopic cylinder, a thin cylinder, a second suspension plate, a second telescopic cylinder and a third telescopic cylinder,

the first overhanging plate is horizontally arranged on the two supporting tubes behind and arranged in an inward overhanging manner, the first telescopic cylinder is horizontally arranged at the overhanging end of the first overhanging plate forward, the tail end of a piston rod of the first telescopic cylinder is connected with a displacement plate, a third fixing plate in a shape like a Chinese character 'ji' is welded in the middle of the front side of the displacement plate, the thin cylinder is horizontally arranged in the middle of the third fixing plate forward, the tail end of a piston rod of the thin cylinder is connected with a first hinged plate, the front end surface of the third fixing plate is symmetrically welded with a second hinged plate up and down, the second hinged plate is horizontally arranged in an overhanging manner forward and is hinged with an L-shaped clamping plate at the overhanging end, the long edge end part of the clamping plate is provided with a strip-shaped mounting groove and is connected with the first hinged plate by a pin shaft, the short edge end part of the clamping plate is, the guide rod III is arranged in a rearward overhanging manner and is in sliding fit with the overhanging plate I,

the second overhanging plate is horizontally arranged on the two support tubes in front and is inwardly overhung, the top of the overhanging end of the second overhanging plate is horizontally welded with a fourth fixed plate, the second telescopic cylinder is vertically upwards arranged on one side of the fourth fixed plate, which is close to the inner side, the tail end of a piston rod of the second telescopic cylinder is connected with a lifting plate, lifting columns are uniformly arranged on the upper end surface of the lifting plate, the left side and the right side of the lifting plate are symmetrically connected with a fourth guide rod, the fourth guide rod is arranged in an overhung manner downwards and is in sliding fit with the fourth fixed plate,

the three levels of telescopic cylinder set up inwards and install in the outer one side that leans on of fixed plate four through fixed plate five, telescopic cylinder three's piston rod end-to-end connection has the thrust plate, one side is equipped with the thrust groove in leaning on of thrust plate, be clearance fit between angle sign indicating number and the thrust groove, the guide piece is installed to fixed plate five in the below of thrust plate, be clearance fit between the lower surface of thrust plate and the upper surface of guide piece.

Preferably, the carrying box is provided with a blocking strip at the rear end of each pair of carrying strips, and a buffering strip made of rubber is arranged in the middle of the front side of each blocking strip.

Preferably, the top of the carrying box is centrally provided with a circular arch-shaped handle.

The invention has the advantages that: the corner brace feeding device used in the production of the solar cell panel is characterized in that: put an angle sign indicating number in every guide way of putting the board through the manual work earlier, and fix a position the angle sign indicating number through the constant head tank of the spacer that corresponds simultaneously, carry through the manual work again and put the box with filling up the angle sign indicating number and put to lift platform, and realize putting the box through four locating plates on the lift platform and fix a position, rethread driving motor one and driving motor two drive hold-in range and operate, and then realize the lifter plate, lift platform and the intermittent type who puts the box rises, when carrying and putting the board of a certain layer in the box and rising to the height with telescopic cylinder one, rethread telescopic cylinder one in the ejection of compact subassembly, slim cylinder, telescopic cylinder two and telescopic cylinder three mutual linkage and mutually supporting, the angle sign indicating number in every guide way of putting the board is carried to every piece gradually is transferred and is called. Therefore, the corner brace feeding device has the characteristics of reasonable structure, convenience in use and rapidness in feeding, is suitable for automatic corner brace assembling equipment, and improves the working efficiency of the corner brace during assembling.

Drawings

Fig. 1 is a schematic overall three-dimensional structure of the present invention.

Fig. 2 is a schematic structural diagram of a loading assembly according to the present invention.

Fig. 3 is a schematic diagram of a partial explosion of the load module of fig. 2.

Fig. 4 is a schematic structural view of a carrier plate of the carrier assembly of fig. 2.

Fig. 5 is a schematic structural diagram of the lifting assembly of the present invention.

Fig. 6 is a schematic structural view of another view angle of the lifting assembly in fig. 5.

Fig. 7 is a schematic view of the structure of the engaging piece of the lifting assembly of fig. 5.

Fig. 8 and 9 are partial schematic structural views of the discharging assembly in the present invention.

Wherein:

100-a load-and-unload assembly; 101-carrying box; 102-carrying and placing strip; 1021-a loading slot; 103-carrying plate; 1031-guide groove; 104-a first guide rod; 105-a spacer; 1051-a positioning groove; 106-connecting piece; 107-compression spring; 108-barrier ribs; 109-buffer bar; 110-a handle; 111-a drawer;

200-a lifting assembly; 201-supporting tube; 202-a top plate; 203-a backplane; 204-driving a motor I; 205-fixing the plate one; 206-synchronous wheel one; 207-driving motor two; 208-a second fixing plate; 209-synchronous wheel two; 210-a synchronous belt; 211-lifter plate; 212-a meshing patch; 213-engaging strips; 214-guide bar two; 215-connecting seat one; 216-connecting seat two; 217-connecting block; 218-a lifting platform; 219-positioning plate;

300-a discharge assembly; 301-overhanging plate one; 302-a telescopic cylinder I; 303-a displacement plate; 304-fixing plate III; 305-thin cylinder; 306-hinge plate one; 307-hinge plate two; 308-a clamping plate; 3081-mounting grooves; 3082-grip orifice; 309-guide rod three; 310-a second overhanging plate; 311-fixed plate four; 312-telescopic cylinder two; 313-a lifting plate; 314-lift posts; 315-guide bar four; 316-fixed plate five; 317-a telescopic cylinder III; 318-a push plate; 3181-push groove; 319-leader sheet;

400-corner connector.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 9, a corner brace loading device for solar panel production includes a loading assembly 100, a lifting assembly 200 and a discharging assembly 300, wherein,

the carrying assembly 100 is arranged at one side close to the inner side and is used for realizing orderly and spaced stacking of the corner connectors 400;

the lifting assembly 200 is arranged at one side close to the outer side and is used for realizing the whole intermittent rising or continuous falling of the loading assembly 100;

the discharging assemblies 300 are disposed at the front and rear sides of the loading assembly 100 and are used for realizing the ordered calling and calling of the corner connectors 400 in the loading assembly 100.

In this embodiment, the loading assembly 100 specifically includes a loading box 101, a loading strip 102 and a loading plate 103, the loading box 101 is a hollow rectangular parallelepiped structure and has a front and rear opening design, the loading strip 102 is provided with a plurality of pairs and uniformly installed on the left and right inner walls of the loading box 101, the inner side of each pair of loading strips 102 is provided with a rectangular loading slot 1021, the loading plate 103 is provided with a plurality of pairs and correspondingly slidably installed in each pair of loading slots 1021, the upper end surface of the loading plate 103 is uniformly provided with a rectangular guide slot 1031, the loading plate 103 is symmetrically and slidably connected with a first guide bar 1031 104 at the front and rear sides of each guide slot, the top ends of the first guide bars 104 at both sides are connected with a positioning plate 105, the positioning plate 105 is provided with a rectangular positioning slot 1051 in the middle, the corner connectors 400 are in clearance fit with the positioning slots 1051, the bottom ends of the first guide bars 104 at both sides are connected with a connecting plate 106, the first guide rods 104 on two sides are sleeved with compression springs 107 between the connecting pieces 106 and the carrying plate 103, and C-shaped drawing pieces 111 are symmetrically arranged on the front side and the rear side of the upper end surface of the carrying plate 103. The empty carrier plates 103 are manually pulled out of the carrier box 101, one corner brace 400 is placed in each guide slot 1031 of each carrier plate 103, the corner brace is positioned by the positioning slot 1051 of the corresponding positioning plate 105, and the carrier plates 103 filled with the corner braces 400 are placed back into the carrier box 101.

In this embodiment, the lifting assembly 200 specifically includes a support tube 201, a top plate 202, a bottom plate 203, a first driving motor 204, a second driving motor 207, a lifting plate 211, a second guiding rod 214 and a lifting platform 218, the support tube 201 is provided with four pieces which are vertically arranged in a rectangular array of "2 x 2", the top plate 202 and the bottom plate 203 are respectively installed at the top end and the bottom end of the support tube 201, the first driving motor 204 is provided with a pair of fixing plates 205 and is installed below the top plate 202 in a front-back symmetrical manner, output shafts of the first driving motor 204 are respectively provided with a first synchronizing wheel 206, the second driving motor 207 is provided with a pair of fixing plates 208 and is installed above the bottom plate 203 in a front-back symmetrical manner, output shafts of the second driving motor 207 are respectively provided with a second synchronizing wheel 209, the first synchronizing wheel 206 and the second synchronizing wheel 209 which are located on the same side are connected, the lifter plate 211 is located one side and installs it on two hold-in ranges 210 by means of a pair of meshing piece 212 of leaning on of two hold-in ranges 210, the meshing piece 212 be equipped with on the contact surface with hold-in range 210 can with hold-in range 210 intermeshing mesh strip 213, two guide bar 214 are equipped with two and front and back symmetry and vertical arrangement, the upper and lower both ends of two guide bar 214 are connected with roof 202 and bottom plate 203 with the help of connecting seat 215 and connecting seat two 216 respectively, and equal slidable mounting has connecting block 217 and is fixed in the outer one side that leans on of lifter plate 211 with connecting block 217 on two guide bar 214, the lift platform 218 level and overhang weld in the top of lifter plate 211, the up end of lift platform 218 is equipped with the locating plate 219 that is the L type that rectangular array arranged. The loading box 101 filled with the corner connectors 400 is lifted to the lifting platform 218 manually, the loading box 101 is positioned by the four positioning plates 219 on the lifting platform 218, and the synchronous belt 210 is driven to run by the first driving motor 204 and the second driving motor 207, so that the intermittent ascending or continuous descending of the lifting plate 211, the lifting platform 218 and the loading box 101 is realized.

In this embodiment, the discharging assembly 300 specifically includes a first suspension plate 301, a first telescopic cylinder 302, a thin cylinder 305, a second suspension plate 310, a second telescopic cylinder 312, and a third telescopic cylinder 317,

the suspension plate I301 is horizontally arranged on the two support tubes 201 at the back and is arranged in an inward suspension manner, the telescopic cylinder I302 is horizontally arranged at the suspension end of the suspension plate I301 forwards, the tail end of a piston rod of the telescopic cylinder I302 is connected with a displacement plate 303, a fixing plate III 304 in a shape like a Chinese character 'ji' is welded in the middle of the front side of the displacement plate 303, the thin cylinder 305 is horizontally arranged in the middle of the fixing plate III 304 forwards, the tail end of the piston rod of the thin cylinder 305 is connected with a hinge plate I306, the front end surface of the fixing plate III 304 is symmetrically welded with two hinge plates 307 up and down, the hinge plate II 307 is horizontally arranged in a suspension manner forwards and is hinged with an L-shaped clamping plate 308 at the suspension end, the long edge end of the clamping plate 308 is provided with a strip-shaped installation groove 3081 and is connected with the hinge plate I306 by a pin shaft, the left side and the right side of the displacement plate 303 are symmetrically connected with a third guide rod 309, the third guide rod 309 is arranged in a rearward overhanging way and is in sliding fit with the first overhanging plate 301,

the second overhanging plate 310 is horizontally arranged on the two support tubes 201 close to the front and is arranged in an inwards overhanging manner, the top of the overhanging end of the second overhanging plate 310 is horizontally welded with a fourth fixed plate 311, the second telescopic cylinder 312 is vertically upwards arranged on one side close to the inner side of the fourth fixed plate 311, the tail end of a piston rod of the second telescopic cylinder 312 is connected with a lifting plate 313, lifting columns 314 are uniformly arranged on the upper end surface of the lifting plate 313, the left side and the right side of the lifting plate 313 are symmetrically connected with a fourth guide rod 315, the fourth guide rod 315 is arranged in an downwards overhanging manner and is in sliding fit with the fourth fixed plate 311,

the three telescopic cylinders 317 are horizontally arranged inwards and are arranged on one side, close to the outside, of the four fixed plates 311 through five fixed plates 316, the tail ends of piston rods of the three telescopic cylinders 317 are connected with a pushing plate 318, one side, close to the inside, of the pushing plate 318 is provided with a pushing groove 3181, the corner connectors 400 are in clearance fit with the pushing groove 3181, the five fixed plates 316 are provided with guide pieces 319 below the pushing plate 318, and the lower surfaces of the pushing plate 318 are in clearance fit with the upper surfaces of the guide pieces 319. When the loading plate 103 of a certain layer in the loading box 101 rises to be equal to the height of the first telescopic cylinder 302, the upper clamping plate 308 and the lower clamping plate 308 are displaced to be between the pull-out pieces 111 behind the loading plate 103 of the layer through the extension of the first telescopic cylinder 302, the upper clamping plate 308 and the lower clamping plate 308 are firmly clamped on the pull-out pieces 111 through the contraction of the piston rod of the thin cylinder 305, the connecting piece 106 at the most front is displaced to be right above the lifting plate 313 through the extension of the first telescopic cylinder 302, the lifting plate 313 is lifted up and drives the lifting column 314 thereon to lift up the connecting piece 106, the first guide rod 104 and the positioning piece 105 through the extension of the piston rod of the second telescopic cylinder 312, the angle code 400 is separated from the limitation of the positioning piece 105, the pushing plate 318 moves towards the angle code 400 direction through the extension of the piston rod of the third telescopic cylinder 317, and the angle code 400 is transferred out of the guide groove 1031 of the loading plate 103, until the corner brace 400 is assembled to the aluminum alloy tube.

In this embodiment, the loading box 101 is provided with a stop strip 108 at the rear end of each pair of loading strips 102, and a rubber buffer strip 109 is arranged in the center of the front side of the stop strip 108. The limit position of the carrier plate 103 moving backwards on the carrier strip 102 can be limited by the stop strip 108, the carrier plate 103 is prevented from sliding out of the rear end of the carrier strip 102, and the inertia impact when the carrier plate 103 slides backwards and contacts with the stop strip 108 can be reduced or weakened by the added buffer strip 109.

In this embodiment, a dome-shaped handle 110 is centrally mounted on the top of the carrying case 101. The lifting of the carrying assembly 100 can be conveniently realized by installing the handle 110.

In this embodiment, the working principle and the working process of the corner brace feeding device during the production of the solar cell panel are as follows:

the method comprises the following steps: angle stacking: firstly, manually drawing the empty carrying plates 103 out of the carrying box 101, then placing an angle code 400 in each guide groove 1031 of each carrying plate 103, positioning the angle code through the corresponding positioning groove 1051 of the positioning sheet 105, and then placing the carrying plates 103 filled with the angle code 400 back into the carrying box 101;

step two: rising the corner code: firstly, manually lifting the loading box 101 filled with the corner connectors 400 to the lifting platform 218, positioning the loading box 101 through four positioning plates 219 on the lifting platform 218, and driving the synchronous belt 210 to run through the first driving motor 204 and the second driving motor 207 so as to realize intermittent lifting of the lifting plate 211, the lifting platform 218 and the loading box 101;

step three: and (3) calling out corner connectors: when the uppermost carrier plate 103 in the carrier box 101 rises to the same height as the first telescopic cylinder 302, the upper and lower clamping plates 308 are displaced between the pull-out pieces 111 behind the carrier plate 103 by the extension of the first telescopic cylinder 302, the upper and lower clamping plates 308 are firmly clamped to the pull-out pieces 111 by the contraction of the piston rod of the thin cylinder 305, the connecting piece 106 closest to the front is displaced to the position right above the lifting plate 313 by the extension of the first telescopic cylinder 302, the lifting plate 313 is lifted up and drives the lifting column 314 thereon to lift up the connecting piece 106, the first guide rod 104 and the positioning piece 105 by the extension of the piston rod of the second telescopic cylinder 312, the corner brace 400 is separated from the limit of the positioning piece 105, the pushing plate 318 is moved towards the corner brace 400 by the extension of the piston rod of the third telescopic cylinder 317, and the corner brace 400 is transferred out of the guide groove 1031 of the carrier plate 103, until the corner connector 400 is assembled on the aluminum alloy pipe;

step four: continuously calling out corner codes: the pushing plate 318 is retracted to the initial position above the guide piece 319 by the contraction of the piston rod of the telescopic cylinder 317, the lifting plate 313 is retracted to the initial position above the fixed plate four 311 by the contraction of the piston rod of the telescopic cylinder two 312, the next connecting plate 106 adjacent to the lifting plate is displaced to … … right above the lifting plate 313 by the extension of the telescopic cylinder one 302, and the like, so that the angle code 400 on the layer of the carrying plate 103 is continuously called out and called.

In summary, the corner brace feeding device for solar panel production in the present invention is, in practical application: an angle code 400 is manually placed in each guide slot 1031 of each carrier plate 103, and at the same time, the corner connector is positioned by the positioning slot 1051 of the corresponding positioning sheet 105, and the loading box 101 filled with the corner connector 400 is lifted and placed to the lifting platform 218 by manpower, the loading box 101 is positioned by four positioning plates 219 on the lifting platform 218, the synchronous belt 210 is driven to run by the first driving motor 204 and the second driving motor 207, thereby realizing the intermittent ascending of the lifting plate 211, the lifting platform 218 and the loading box 101, when the loading plate 103 of a certain level in the loading cassette 101 rises to the same level as the first telescopic cylinder 302, then, the corner codes 400 in each guide groove 1031 of each loading plate 103 are gradually called out and called through the mutual linkage and mutual cooperation of the first telescopic cylinder 302, the thin cylinder 305, the second telescopic cylinder 312 and the third telescopic cylinder 317 in the discharging assembly 300. Therefore, the corner brace feeding device has the characteristics of reasonable structure, convenience in use and rapidness in feeding, is suitable for automatic corner brace assembling equipment, and improves the working efficiency of the corner brace during assembling.

The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims

1. The utility model provides a corner brace loading attachment when regarding solar cell panel production which characterized in that: comprises a loading assembly (100), a lifting assembly (200) and a discharging assembly (300), wherein,

the carrying and placing assembly (100) is arranged at one side close to the inner side and is used for achieving orderly and spaced stacking of the corner connectors (400);

the lifting assembly (200) is arranged at one side close to the outer side and is used for realizing the integral intermittent rising or continuous falling of the loading assembly (100);

the discharging assembly (300) is arranged on the front side and the rear side of the loading assembly (100) and is used for realizing orderly calling and calling of corner codes (400) in the loading assembly (100).

2. The corner brace loading attachment of claim 1, wherein the corner brace loading attachment is configured to: the carrying and placing assembly (100) specifically comprises a carrying and placing box (101), carrying and placing strips (102) and a carrying and placing plate (103), wherein the carrying and placing box (101) is of a hollow cuboid structure and is designed with a front opening and a rear opening, the carrying and placing strips (102) are provided with a plurality of pairs and are uniformly installed on the left inner wall and the right inner wall of the carrying and placing box (101), rectangular carrying and placing grooves (1021) are formed in the inner sides of each pair of carrying and placing strips (102), the carrying and placing plate (103) is provided with a plurality of pairs and can be correspondingly and slidably installed in each pair of carrying and placing grooves (1021), rectangular guide grooves (1031) are uniformly formed in the upper end face of the carrying and placing plate (103), the carrying and placing plate (103) is symmetrically and slidably connected with guide rod I (104) on the front side and the rear side of each guide groove (1031), the top ends of the guide rod I (104) on the two sides are commonly connected with a positioning piece (105), and, the angle sign indicating number (400) and constant head tank (1051) are clearance fit, the bottom of the guide rod one (104) of both sides is connected with a connection piece (106) jointly, the guide rod one (104) of both sides all is equipped with compression spring (107) between connection piece (106) and carrying board (103), carry the pull piece (111) of C type to install the both sides symmetry around the up end of carrying board (103).

3. The corner brace loading attachment of claim 2, wherein: the lifting assembly (200) specifically comprises a supporting pipe (201), a top plate (202), a bottom plate (203), a first driving motor (204), a second driving motor (207), a lifting plate (211), a second guide rod (214) and a lifting platform (218), wherein the supporting pipe (201) is provided with four parts which are vertically arranged in a rectangular array of 2x2, the top part (202) and the bottom plate (203) are respectively installed at the top end and the bottom end of the supporting pipe (201), the first driving motor (204) is provided with a pair of fixed plates (205) and is symmetrically installed below the top plate (202) in the front-back direction, output shafts of the first driving motor (204) are respectively provided with a first synchronizing wheel (206), the second driving motor (207) is provided with a pair of synchronous wheels and is symmetrically installed above the bottom plate (203) in the front-back direction by means of a pair of fixed plates (208), and output shafts of the second driving motor (207) are respectively provided with a, the synchronous wheels I (206) and the synchronous wheels II (209) which are positioned on the same side are connected through a synchronous belt (210), the lifting plate (211) is arranged on one side, close to the inner side, of the two synchronous belts (210) and is arranged on the two synchronous belts (210) through a pair of meshing pieces (212), meshing strips (213) which can be meshed with the synchronous belts (210) are arranged on the contact surface of the meshing pieces (212) and the synchronous belts (210), two guide rods II (214) are arranged symmetrically in a front-back and vertical mode, the upper end and the lower end of each guide rod II (214) are connected with the top plate (202) and the bottom plate (203) through a connecting seat I (215) and a connecting seat II (216), connecting blocks (217) are arranged on the two guide rods II (214) in a sliding mode and are fixed on the outer side, close to the lifting plate (211), the lifting platform (218) is horizontally welded to the top of the lifting plate (211) in an overhanging mode, the upper end face of the lifting platform (218) is provided with L-shaped positioning plates (219) which are arranged in a rectangular array.

4. The corner brace feeding device in the production of solar panels as claimed in claim 3, wherein: the discharging assembly (300) specifically comprises a first suspension plate (301), a first telescopic cylinder (302), a thin cylinder (305), a second suspension plate (310), a second telescopic cylinder (312) and a third telescopic cylinder (317),

the suspension plate I (301) is horizontally arranged on two support tubes (201) at the back and arranged in a suspension manner inwards, the first telescopic cylinder (302) is horizontally arranged at the suspension end of the suspension plate I (301) forwards, the tail end of a piston rod of the first telescopic cylinder (302) is connected with a displacement plate (303), a fixing plate III (304) in a shape like a Chinese character 'ji' is welded in the middle of the front side of the displacement plate (303), the thin cylinder (305) is horizontally arranged in the middle of the fixing plate III (304) forwards, the tail end of the piston rod of the thin cylinder (305) is connected with a hinge plate I (306), hinge plate II (307) is welded on the front end surface of the fixing plate III (304) in an up-and-down symmetrical manner, the hinge plate II (307) is horizontally arranged in a suspension manner forwards and is hinged with an L-shaped clamping plate (308) at the suspension end, the end part of the long edge of the clamping plate (308) is provided with a long strip, the end part of the short side of the clamping plate (308) is provided with a semicircular clamping opening (3082), the left side and the right side of the displacement plate (303) are symmetrically connected with a third guide rod (309), the third guide rod (309) is arranged in a rearward overhanging way and is in sliding fit with the first overhanging plate (301),

the cantilever plate II (310) is horizontally arranged on two support pipes (201) in front and arranged in a cantilever manner, a fixing plate IV (311) is horizontally welded at the top of the cantilever end of the cantilever plate II (310), a telescopic cylinder II (312) is vertically upwards arranged at one side of the fixing plate IV (311) in the front, the tail end of a piston rod of the telescopic cylinder II (312) is connected with a lifting plate (313), lifting columns (314) are uniformly arranged on the upper end surface of the lifting plate (313), guide rod IV (315) are symmetrically connected with the left side and the right side of the lifting plate (313), the guide rod IV (315) is arranged in a cantilever manner downwards and is in sliding fit with the fixing plate IV (311),

the telescopic cylinder three (317) level sets up inwards and installs in the outer one side that leans on of fixed plate four (311) through fixed plate five (316), the piston rod end connection of telescopic cylinder three (317) has thrust plate (318), one side is equipped with thrust groove (3181) in leaning on of thrust plate (318), be clearance fit between angle sign indicating number (400) and thrust groove (3181), guide piece (319) are installed to fixed plate five (316) in the below of thrust plate (318), be clearance fit between the lower surface of thrust plate (318) and the upper surface of guide piece (319).

5. The corner brace loading attachment of claim 2, wherein: the rear end of each pair of carrying and placing strips (102) of the carrying and placing box (101) is provided with a barrier strip (108), and a buffer strip (109) made of rubber is arranged in the middle of the front side of the barrier strip (108).

6. The corner brace loading attachment of claim 2, wherein: the top of the loading box (101) is provided with a circular arch-shaped handle (110) in the middle.