CN112264777B - Installation device for corner connectors and aluminum section pipes during production of solar cell panel - Google Patents

Abstract

The invention discloses a mounting device for an angle brace and an aluminum profile pipe during production of a solar cell panel, which relates to the technical field of mechanical assembly and comprises a mounting platform, an angle brace carrying assembly, a carrier lifting assembly, an angle brace discharging assembly and a profile feeding assembly, wherein, the angle sign indicating number is carried and is put the subassembly symmetry and locate mounting platform about both sides and be used for realizing that the angle sign indicating number is put in good order and spaced putting things in good order, the carrier lifting unit symmetry is located mounting platform about both sides and is used for realizing that the respective angle sign indicating number in both sides carries and puts the whole intermittent type of subassembly ascending or descending that lasts, angle sign indicating number ejection of compact subassembly symmetry is located mounting platform about both sides and is used for realizing that the respective angle sign indicating number in both sides carries and puts the orderly quilt of angle sign indicating number put and is called, section bar material loading subassembly is installed between two parties in mounting platform's front side and is used for the aluminium alloy pipe by orderly putting in good order and called and by orderly the call. The installation device of angle sign indicating number and aluminium alloy pipe in this application has rational in infrastructure, the material loading is light, convenient to use's characteristics.

Description

Installation device for corner connectors and aluminum section pipes during production of solar cell panel

Technical Field

The invention relates to the technical field of mechanical assembly, in particular to an installation device for corner connectors and aluminum section pipes during production of solar panels.

Background

With the gradual maturity of technologies for converting light energy into electric energy for storage, solar panels are used more and more widely. And the aluminum alloy frame and the angle sign indicating number are as solar cell panel's important part, and at present, the assembly of aluminum alloy frame and angle sign indicating number mainly still realizes through the manual work, because there is comparatively sharp cutting edge in the tip of aluminum alloy frame, can have personnel's safety problem when the manual assembly angle sign indicating number. In addition, the labor cost is high, the error rate is high, and the assembly efficiency is low. Therefore, it is very important to be able to realize the automatic assembly of the aluminum alloy frame and the corner connectors. In addition, 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, in order to improve production efficiency, reduce the injury of material loading in-process angle sign indicating number to the workman, needs carry out rationalized design again to the material loading part of angle sign indicating number.

Disclosure of Invention

The invention aims to provide an installation device for an angle bracket and an aluminum section pipe during production of a solar cell panel, so as to solve the defects caused in the prior art.

An installation device for an angle brace and an aluminum profile pipe during the production of a solar cell panel comprises an installation platform, an angle brace loading assembly, a carrier lifting assembly, an angle brace discharging assembly and a profile feeding assembly, wherein,

the corner brace carrying assemblies are symmetrically arranged on the left side and the right side of the mounting platform and are used for achieving orderly and spaced stacking of corner braces;

the carrier lifting assemblies are symmetrically arranged on the left side and the right side of the mounting platform and are used for realizing the integral intermittent rising or continuous falling of the respective corner stacking loading assemblies on the two sides;

the corner brace discharging assemblies are symmetrically arranged on the left side and the right side of the mounting platform and are used for realizing that corner braces in the corner brace loading assemblies on the two sides are orderly called out and called;

the section bar feeding assembly is arranged on the front side of the mounting platform in the middle and used for orderly stacking the aluminum section bar pipes and orderly calling out and calling the aluminum section bar pipes.

Preferably, the corner stacking loading assembly comprises a loading box, a loading strip and a loading plate, wherein the loading box is of a hollow cuboid structure and is designed with a front opening and a rear opening, the loading strip is provided with a plurality of pairs and is uniformly installed on the left inner wall and the right inner wall of the loading box, the inner side of each pair of loading strips is provided with a rectangular loading groove, the loading plate is provided with a plurality of pairs and can be correspondingly and slidably installed in each pair of loading grooves, the upper end surface of the loading plate is uniformly provided with a rectangular guide groove, the front side and the rear side of each guide groove of the loading plate are symmetrically and slidably connected with a first guide rod, the top ends of the first guide rods on the two sides are commonly connected with a positioning plate, the positioning plate is centrally provided with a rectangular positioning groove, the corner stacking and the positioning groove are in clearance fit, the bottom ends of the first guide rods on the two sides are commonly connected with a connecting sheet, and the first guide rods on the two sides are sleeved with compression springs between the connecting sheet and the loading plate, 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 carrier lifting assembly specifically comprises a supporting tube, a top plate, a bottom plate, a first driving motor, a second driving motor, lifting plates, a second guide rod and a lifting platform, the supporting tube is provided with four rectangular arrays which are vertically arranged in a 2x2 mode, the top plate and the bottom plate are respectively installed at the top end and the bottom end of the supporting tube, the bottom plate is installed on the upper end face of the installation platform, the first driving motor is provided with a pair of fixed plates and is symmetrically installed below the top plate in a front-back mode, a first synchronizing wheel is installed on an output shaft of the first driving motor, the second driving motor is provided with a pair of fixed plates and is symmetrically installed above the bottom plate in a front-back mode, a second synchronizing wheel is installed on an output shaft of the second driving motor, the first synchronizing wheel and the second synchronizing wheel which are located on the same side are connected through a synchronous belt, the lifting plates are arranged on one inner side of the two synchronous belts and are installed on the two synchronous belts in the same mode through a pair of meshing sheets On the walking belt, 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, two guide bar are 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, the up end of lift platform is equipped with the locating plate that is the L type that rectangular array arranged.

Preferably, the discharging assembly of the corner brace discharging assembly specifically comprises a first overhanging plate, a first telescopic cylinder, a thin cylinder, a second overhanging 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 provided with a semicircular clamping opening, and the left side and the right side of the displacement plate are symmetrically connected with a third guide rod, 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 section material feeding assembly specifically comprises two mounting pipes, a mounting frame, a mounting plate, a driving motor III and a telescopic cylinder IV, the mounting pipes are symmetrically arranged on the upper end surface of the mounting platform in a bilateral mode, the mounting frame is provided with two mounting pipes correspondingly arranged on the upper portion of the front side of the mounting pipes on the two sides, the mounting plate is provided with two mounting pipes correspondingly arranged above the mounting frames on the two sides, the driving motor III is provided with four mounting pipes correspondingly arranged on the front end and the rear end of the mounting plates on the two sides, friction wheels are arranged on output shafts of the driving motor III, the friction wheels on the front side and the rear side on the same side are connected through a conveying belt, a placing plate is connected between the mounting plates on the left side and the right side in a crossing mode, the height difference of the placing plate, which is lower than the upper conveying belt, limiting plates are arranged at the tops of the mounting plates on, the four vertical settings up of telescopic cylinder and install in the centre of fixed plate six, the piston rod end-to-end connection of telescopic cylinder four has the board of getting, the top of getting the board leans on back one side to be equipped with the back backup plate, the left and right sides symmetric connection who gets the board has guide bar five, guide bar five down overhang set up and with fixed plate six between sliding fit.

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: firstly, manually placing an angle code in each guide groove of each carrying plate, positioning the angle code through the positioning groove of the corresponding positioning piece, manually lifting and placing the carrying box filled with the angle code to a lifting platform, positioning the carrying box through four positioning plates on the lifting platform, driving a synchronous belt to run through a driving motor I and a driving motor II, further realizing the intermittent rising of the lifting plate, the lifting platform and the carrying box, gradually calling and calling the angle code in each guide groove of each carrying plate through the mutual linkage and the mutual matching of a telescopic cylinder I, a thin cylinder, a telescopic cylinder II and a telescopic cylinder III in a discharging assembly when the carrying plate of a certain layer in the carrying box rises to be as high as the telescopic cylinder I, and orderly stacking and placing a plurality of aluminum profile pipes on two conveying belts, and through two conveyer belt hold-in ranges of three drive motors drive, until the aluminium alloy pipe landing of leaning on back get a board and lean on the backup plate of back, the extension of the piston rod of rethread telescopic cylinder four, until getting a board and flushing with the guide piece, gradually with the aluminium alloy pipe on the conveyer belt call out and call. In conclusion, the mounting device for the corner connectors and the aluminum profile pipes has the characteristics of reasonable structure, easiness in feeding and convenience in use.

Drawings

Fig. 1 is a schematic structural diagram of an overall three-dimensional body according to the present invention.

Fig. 2 is a schematic structural view of the corner stacking and placing assembly of the present invention.

Fig. 3 is a schematic diagram of a partial explosion of the corner stacking assembly of fig. 2.

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

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

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

Fig. 7 is a schematic structural view of an engaging piece of the carrier lifting assembly in fig. 5.

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

Fig. 10 is a schematic structural view of the profile feeding assembly in the present invention.

Fig. 11 is a schematic view of the profile feeding assembly of fig. 10 from another perspective.

Fig. 12 is a schematic structural diagram before and after the aluminum profile pipe and the corner connector are assembled.

Wherein:

100-mounting a platform;

200-corner stacking and placing components; 201-carrying box; 202-carrying and placing strips; 2021-a loading trough; 203-carrying plate; 2031-a guide groove; 204-a guide rod I; 205-spacer; 2051-positioning groove; 206-connecting pieces; 207-compression spring; 208-a barrier rib; 209-buffer bar; 210-a handle; 211-drawer;

300-a carrier lift assembly; 301-support tube; 302-a top plate; 303-a bottom plate; 304-driving the motor one; 305-fixing the plate I; 306-a first synchronizing wheel; 307-driving motor two; 308-fixing the second plate; 309-synchronous wheel two; 310-a synchronous belt; 311-a lifter plate; 312-engaging pieces; 313-an engagement strip; 314-guide bar two; 315-connecting seat one; 316-connecting seat two; 317-connecting blocks; 318-lifting platform; 319-positioning plate;

400-corner brace discharging component; 401-overhanging plate one; 402-a telescopic cylinder I; 403-a displacement plate; 404-fixed plate three; 405-a thin cylinder; 406-hinge plate one; 407-hinge plate two; 408-a clamping plate; 4081-mounting groove; 4082-grip orifice; 409-guide rod III; 410-a second overhanging plate; 411-fixed plate four; 412-telescopic cylinder two; 413-lifting plate; 414-lift columns; 415-guide bar four; 416-fixing plate five; 417-telescopic cylinder three; 418-push plate; 4181-push trough; 419-a guide sheet;

500-section bar feeding assembly; 501-installing a pipe; 502-a mounting frame; 503-mounting plate; 504-driving motor three; 505-a friction wheel; 506-a conveyor belt; 507-placing a plate; 508-a limiting plate; 509-fixing plate six; 510-a telescopic cylinder IV; 511-a pickup plate; 512-back plate; 513-guide rod five;

600-corner connector;

700-aluminum profile tube.

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 11, an installation apparatus for corner brace and aluminum profile pipe in solar cell panel production includes an installation platform 100, a corner brace loading assembly 200, a carrier lifting assembly 300, a corner brace discharging assembly 400 and a profile loading assembly 500, wherein,

the corner brace carrying assemblies 200 are symmetrically arranged on the left side and the right side of the mounting platform 100 and are used for achieving orderly and spaced stacking of the corner braces 600;

the carrier lifting assemblies 300 are symmetrically arranged at the left side and the right side of the mounting platform 100 and are used for realizing the intermittent rising or continuous falling of the whole corner stacking loading assembly 200 at the two sides;

the corner brace discharging assemblies 400 are symmetrically arranged on the left side and the right side of the mounting platform 100 and are used for realizing that the corner braces 600 in the corner brace loading assemblies 200 on the two sides are orderly called out and called;

the section feeding assembly 500 is centrally installed at the front side of the installation platform 100 and is used for orderly stacking the aluminum section tubes 700 and orderly taking out and calling the aluminum section tubes.

In this embodiment, the corner code loading assembly 200 specifically includes a loading box 201, loading strips 202 and a loading plate 203, the loading box 201 is a hollow cuboid structure and is designed with a front opening and a rear opening, the loading strips 202 are provided with a plurality of pairs and are uniformly installed on the left inner wall and the right inner wall of the loading box 201, a rectangular loading groove 2021 is provided on the inner side of each pair of loading strips 202, the loading plate 203 is provided with a plurality of corresponding sliding installed in each pair of loading grooves 2021, the upper end surface of the loading plate 203 is uniformly provided with rectangular guide grooves 2031, the loading plate 203 is symmetrically and slidably connected with a first guide rod 204 on the front side and the rear side of each guide groove 1, the top ends of the first guide rods 204 on both sides are commonly connected with a positioning plate 205, the positioning plate 205 is provided with a rectangular positioning groove 2051 in the middle, the corner codes 600 and the positioning grooves 2051 are in clearance fit, the bottom ends of the first guide rods 204 on both sides are commonly connected with a connecting plate 206, the first guide rods 204 on the two sides are respectively sleeved with a compression spring 207 between the connecting piece 206 and the carrying plate 203, and C-shaped drawing pieces 211 are symmetrically arranged on the front side and the rear side of the upper end surface of the carrying plate 203. The empty loading plate 203 is manually drawn out from the loading box 201, then a corner code 600 is placed in each guide groove 2031 of each loading plate 203, the corner code is positioned by the positioning groove 2051 of the corresponding positioning sheet 205, and then the loading plate 203 filled with the corner code 600 is placed back into the loading box 201.

In this embodiment, the carrier lifting assembly 300 specifically includes a support tube 301, a top plate 302, a bottom plate 303, a first driving motor 304, a second driving motor 307, a lifting plate 311, a second guiding rod 314, and a lifting platform 318, where the support tube 301 has four pieces arranged vertically in a rectangular array of "2 x 2", the top plate 302 and the bottom plate 303 are respectively installed at the top end and the bottom end of the support tube 301, the bottom plate 303 is installed at the upper end surface of the installation platform 100, the first driving motor 304 has a pair and is installed below the top plate 302 in a front-back symmetrical manner by means of a pair of first fixing plates 305, first synchronizing wheels 306 are installed on output shafts of the first driving motor 304, the second driving motor 307 has a pair and is installed above the bottom plate 303 in a front-back symmetrical manner by means of a pair of second fixing plates 308, and second synchronizing wheels 309 are installed on output shafts of the second driving motor 307, the first synchronizing wheel 306 and the second synchronizing wheel 309 which are positioned on the same side are connected through a synchronous belt 310, the lifting plate 311 is arranged on one side, close to the inner side, of the two synchronous belts 310 and is installed on the two synchronous belts 310 through a pair of meshing pieces 312, meshing strips 313 which can be meshed with the synchronous belts 310 are arranged on the contact surface of the meshing pieces 312 and the synchronous belts 310, the two guide rods 314 are arranged symmetrically in front and back and are vertically arranged, the upper end and the lower end of the two guide rods 314 are connected with the top plate 302 and the bottom plate 303 through a first connecting seat 315 and a second connecting seat 316 respectively, the two guide rods 314 are provided with connecting blocks 317 in a sliding mode and are fixed on one side, close to the outer side, of the lifting plate 311, the lifting platform 318 is welded to the top of the lifting plate 311 in a horizontal and overhanging mode, and the upper end face of the lifting platform 318 is provided with L-shaped positioning plates 319 which are arranged in a rectangular array mode. The loading box 201 filled with the corner connectors 600 is lifted to the lifting platform 318 manually, the loading box 201 is positioned by the four positioning plates 319 on the lifting platform 318, and the synchronous belt 310 is driven to run by the first driving motor 304 and the second driving motor 307, so that the intermittent ascending or continuous descending of the lifting plate 311, the lifting platform 318 and the loading box 201 is realized.

In this embodiment, the discharging assembly 400 of the corner brace discharging assembly 400 specifically includes a first overhanging plate 401, a first telescopic cylinder 402, a thin cylinder 405, a second overhanging plate 410, a second telescopic cylinder 412, and a third telescopic cylinder 417,

the suspension plate I401 is horizontally arranged on the two support tubes 301 at the back and is arranged in an inward suspension manner, the telescopic cylinder I402 is horizontally arranged at the suspension end of the suspension plate I401 forwards, the tail end of a piston rod of the telescopic cylinder I402 is connected with a displacement plate 403, a fixing plate III 404 in a shape like a Chinese character 'ji' is welded in the middle of the front side of the displacement plate 403, the thin cylinder 405 is horizontally arranged in the middle of the fixing plate III 404 forwards, the tail end of the piston rod of the thin cylinder 405 is connected with a hinge plate I406, two hinge plates 407 are symmetrically welded on the front end surface of the fixing plate III 404 from top to bottom, the hinge plate II 407 is horizontally arranged in a suspension manner forwards and is hinged with an L-shaped clamping plate 408 at the suspension end, the long edge end of the clamping plate 408 is provided with a strip-shaped installation groove 4081 and is connected with the hinge plate I406 by a pin shaft, and the short edge end of the clamping plate 408 is provided with a semicircular clamping opening 4082, the left side and the right side of the displacement plate 403 are symmetrically connected with a third guide rod 409, the third guide rod 409 is arranged in a rearward overhanging manner and is in sliding fit with the first overhanging plate 401,

the two overhanging plates 410 are horizontally arranged on the two support pipes 301 close to the front and are arranged in an inwards overhanging manner, the top of the overhanging ends of the two overhanging plates 410 is horizontally welded with a fixed plate four 411, the two telescopic cylinders 412 are vertically upwards arranged on one side close to the fixed plate four 411, the tail ends of the piston rods of the two telescopic cylinders 412 are connected with lifting plates 413, lifting columns 414 are uniformly arranged on the upper end surfaces of the lifting plates 413, the left side and the right side of the lifting plates 413 are symmetrically connected with guide rod four 415, the guide rod four 415 is arranged in a downwards overhanging manner and is in sliding fit with the fixed plate four 411,

the telescopic cylinder III 417 is horizontally and inwards arranged and is installed on the outer side of the fixing plate IV 411 through a fixing plate V416, the tail end of a piston rod of the telescopic cylinder III 417 is connected with a pushing plate 418, a pushing groove 4181 is formed in the inner side of the pushing plate 418, the corner brace 600 is in clearance fit with the pushing groove 4181, a guide piece 419 is installed below the pushing plate 418 on the fixing plate V416, and the lower surface of the pushing plate 418 is in clearance fit with the upper surface of the guide piece 419. When the loading plate 203 of a certain layer in the loading box 201 rises to be equal to the height of the first telescopic cylinder 402, the upper clamping plate 408 and the lower clamping plate 408 are displaced to be between the pull-out pieces 211 behind the loading plate 203 of the layer by the extension of the first telescopic cylinder 402, the pull-out pieces 211 are firmly clamped by the upper clamping plate 408 and the lower clamping plate 408 by the contraction of the piston rod of the thin cylinder 405, the connecting piece 206 at the most front is displaced to be right above the lifting plate 413 by the extension of the first telescopic cylinder 402, the lifting plate 413 is lifted up and drives the lifting column 414 to lift up the connecting piece 206, the first guide rod 204 and the positioning piece 205 by the extension of the piston rod of the second telescopic cylinder 412, the angle code 600 is separated from the limitation of the positioning piece 205, the pushing plate 418 moves towards the angle code 600 by the extension of the piston rod of the third telescopic cylinder 417, and the angle code 600 is transferred out of the guide groove 2031 of the loading plate 203, until the corner brace 600 is assembled to the aluminum profile tube.

In this embodiment, the section feeding assembly 500 specifically includes two mounting pipes 501, a mounting frame 502, a mounting plate 503, a third driving motor 504 and a fourth telescopic cylinder 510, the mounting pipes 501 are symmetrically mounted on the upper end surface of the mounting platform 100, the mounting frame 502 is provided with two mounting pipes 501 mounted on two sides and corresponding to the two mounting pipes, the mounting plate 503 is provided with two mounting frames 502 mounted on two sides and corresponding to the two mounting pipes, the third driving motor 504 is provided with four mounting plates mounted on two sides and corresponding to the front and rear ends of the mounting plates 503, friction wheels 505 are mounted on output shafts of the third driving motor 504, the front and rear friction wheels 505 on the same side are connected by a conveyor belt 506, a placing plate 507 is connected between the mounting plates 503 on the left and right sides in a crossing manner, and the height difference of the placing plate 507 lower than the upper conveyor belt 506 is 3-5mm, the limiting plate 508 is all installed at the top of the mounting panel 503 on the left and right sides, and the top of the installation pipe 501 on the left and right sides spans and is connected with six 509 fixed plates, four 510 vertical settings up of telescopic cylinder are installed in the centre of six 509 fixed plates, four 510's of telescopic cylinder piston rod end-to-end connection has a board 511 of getting, the top of getting board 511 leans on back one side to be equipped with back backup plate 512, the left and right sides symmetric connection who gets board 511 has five 513 guide bars, five 513 guide bars overhang down set up and with six 509 fixed plates between sliding fit. A plurality of aluminum profile pipes 700 are orderly stacked on two conveying belts 506, then the driving motor III 504 drives two conveying belts 506 to rotate synchronously, until the aluminum profile pipe 700 at the back slides onto the piece taking plate 511 and leans against the back backup plate 512, then the extension of the piston rod of the telescopic cylinder IV 510 is carried out until the piece taking plate 511 is flush with the guide piece 419, and the aluminum profile pipe 700 is just positioned between the corner connectors 600 at the left side and the right side.

In this embodiment, the loading box 201 is provided with a stop strip 208 at the rear end of each pair of loading strips 202, and a buffering strip 209 made of rubber is arranged in the center of the front side of the stop strip 208. The limit position of the carrier plate 203 that can be moved backward on the carrier strip 202 can be limited by the stop strip 208, the carrier plate 203 can be prevented from slipping out from the rear end of the carrier strip 202, and the inertia impact when the carrier plate 203 slides backward and contacts the stop strip 208 can be reduced or weakened by the added buffer strip 209.

In this embodiment, a dome-shaped handle 210 is centrally mounted on the top of the carrying case 201. The lifting of the whole corner stacking and placing assembly 200 can be conveniently realized by installing the handle 210.

In this embodiment, the working principle and the working process of the installation device for the corner brace and the aluminum profile pipe 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 203 out of the carrying box 201, then placing a corner code 600 in each guide groove 2031 of each carrying plate 203, positioning the corner code through the positioning groove 2051 of the corresponding positioning sheet 205, and then placing the carrying plates 203 filled with the corner code 600 back into the carrying box 201;

step two: rising the corner code: firstly, manually lifting the loading box 201 filled with the corner connectors 600 to the lifting platform 318, positioning the loading box 201 through four positioning plates 319 on the lifting platform 318, and driving the synchronous belt 310 to run through a first driving motor 304 and a second driving motor 307, so that the lifting plate 311, the lifting platform 318 and the loading box 201 are lifted intermittently;

step three: and (3) taking out an aluminum section pipe: a plurality of aluminum profile tubes 700 are orderly stacked on the two conveying belts 506, the driving motor III 504 drives the two conveying belts 506 to run, the aluminum profile tubes 700 at the most back slide on the taking plate 511 and lean on the back backup plate 512, and the piston rods of the telescopic cylinders IV 510 extend until the taking plate 511 is flush with the guide piece 419.

Step four: and (3) calling out corner connectors: when the loading plate 203 of a certain layer in the loading box 201 rises to be equal to the height of the first telescopic cylinder 402, the upper clamping plate 408 and the lower clamping plate 408 are displaced to be between the pull-out pieces 211 at the back of the loading plate 203 of the layer by the extension of the first telescopic cylinder 402, the pull-out pieces 211 are firmly clamped by the upper clamping plate 408 and the lower clamping plate 408 by the contraction of the piston rod of the thin cylinder 405, the connecting piece 206 at the front is displaced to be right above the supporting plate 413 by the extension of the first telescopic cylinder 402, the aluminum profile pipe 700 is positioned between the corner codes 600 at the left side and the right side, the supporting plate 413 is lifted by the extension of the piston rod of the second telescopic cylinder 412, the supporting column 414 on the supporting plate is lifted and lifts the connecting piece 206, the first guide rod 204 and the positioning piece 205, the corner code 600 is separated from the limitation of the positioning piece 205, the piston rod 203418 is moved towards the corner code 600 direction and the corner code 600 is transferred out of the guide groove 1 of the loading plate 203 by the extension of the third telescopic cylinder 417, until the corner connector 600 is assembled on the aluminum section pipe;

step five: continuously calling out corner codes: the pushing plate 418 is retracted to the initial position above the guide piece 419 by the contraction of the piston rod of the telescopic cylinder three 417, the lifting plate 413 is retracted to the initial position above the fixed plate four 411 by the contraction of the piston rod of the telescopic cylinder two 412, the next connecting plate 206 adjacent to the lifting plate 413 is displaced to … … right above the lifting plate 413 by the extension of the telescopic cylinder one 402, and the like, so that the corner code 600 on the layer of the loading plate 203 is continuously called out and called.

Step six: continuously taking out the aluminum profile pipe: the workpiece taking plate 511 is retracted to the initial position above the fixed plate six 509 by the contraction of the piston rod of the telescopic cylinder four 510, and then the two conveyor belts 506 are driven by the driving motor three 504 to run synchronously until the next aluminum profile pipe 700 next to the workpiece taking plate 511 slides down and leans against the rear backup plate 512, and so on, so that the aluminum profile pipes 700 on the conveyor belts 506 are continuously called out and called.

In summary, the corner brace feeding device for solar panel production in the present invention is, in practical application: firstly, manually placing an angle code 600 in each guide groove 2031 of each loading plate 203, positioning the angle code through the positioning groove 2051 of the corresponding positioning sheet 205, manually lifting the loading box 201 filled with the angle code 600 to the lifting platform 318, positioning the loading box 201 through the four positioning plates 319 on the lifting platform 318, driving the synchronous belt 310 to operate through the first driving motor 304 and the second driving motor 307, further realizing the intermittent lifting of the lifting plate 311, the lifting platform 318 and the loading box 201, when the loading plate 203 of a certain layer in the loading box 201 rises to be equal to the height of the first telescopic cylinder 402, then gradually calling and calling the angle code 600 in each guide groove 2031 of each loading plate 203 through the mutual linkage and mutual matching of the first telescopic cylinder 402, the thin cylinder 405, the second telescopic cylinder 412 and the third telescopic cylinder 417 in the discharging assembly 400, and a plurality of aluminum profile pipes 700 are neatly stacked on the two conveying belts 506, the driving motor III 504 drives the two conveying belts 506 to run synchronously until the aluminum profile pipe 700 at the back slides onto the taking plate 511 and leans against the back backing plate 512, and the extension of the piston rod of the telescopic cylinder IV 510 is performed until the taking plate 511 is flush with the guide piece 419, so that the aluminum profile pipes 700 on the conveying belts 506 are gradually taken out and called. Therefore, the mounting device for the corner connectors and the aluminum profile pipes has the characteristics of reasonable structure, easiness in feeding and convenience in use.

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 (3)

1. The utility model provides an installation device about angle sign indicating number and aluminium alloy pipe during solar cell panel production which characterized in that: including mounting platform (100), angle sign indicating number carry put subassembly (200), carrier lifting unit (300), angle sign indicating number ejection of compact subassembly (400) and section bar material loading subassembly (500), wherein:

the corner code carrying and placing assembly (200) is symmetrically arranged on the left side and the right side of the mounting platform (100) and used for achieving orderly and spaced stacking of corner codes (600), the corner code carrying and placing assembly (200) specifically comprises a carrying and placing box (201), carrying and placing strips (202) and carrying and placing plates (203), the carrying and placing box (201) is of a hollow cuboid structure and is designed with a front opening and a rear opening, the carrying and placing strips (202) are provided with a plurality of pairs and are uniformly mounted on the left inner wall and the right inner wall of the carrying and placing box (201), rectangular carrying and placing grooves (2021) are formed in the inner sides of each pair of the carrying and placing strips (202), the carrying and placing plates (203) are provided with a plurality of guide grooves (2031) which can be correspondingly and slidably mounted in each pair of the carrying and placing grooves (2021), rectangular guide grooves (2031) are uniformly formed in the upper end faces of the carrying and placing plates (203), and guide rods (204) are symmetrically and slidably connected to the front side and the rear side of each guide groove (2031), the top ends of the first guide rods (204) on the two sides are connected with a positioning piece (205) together, a rectangular positioning groove (2051) is formed in the middle of the positioning piece (205), the corner connectors (600) are in clearance fit with the positioning groove (2051), the bottom ends of the first guide rods (204) on the two sides are connected with a connecting piece (206) together, compression springs (207) are sleeved between the connecting piece (206) and the carrying and placing plate (203) of the first guide rods (204) on the two sides, and C-shaped drawing pieces (211) are symmetrically arranged on the front side and the rear side of the upper end surface of the carrying and placing plate (203);

the carrier lifting components (300) are symmetrically arranged on the left side and the right side of the mounting platform (100) and used for realizing the intermittent lifting or continuous descending of the whole of the corner code carrying components (200) on the two sides, the carrier lifting components (300) specifically comprise support pipes (301), top plates (302), bottom plates (303), first driving motors (304), second driving motors (307), lifting plates (311), second guide rods (314) and lifting platforms (318), the support pipes (301) are provided with four rectangular arrays of 2x 2), the top plates (302) and the bottom plates (303) are respectively mounted at the top end and the bottom end of the support pipes (301), the bottom plates (303) are mounted on the upper end face of the mounting platform (100), the first driving motors (304) are provided with a pair and are symmetrically mounted below the top plates (302) in the front-back direction by means of a pair of first fixing plates (305), the output shaft of the first driving motor (304) is provided with a first synchronizing wheel (306), the second driving motor (307) is provided with a pair of first synchronizing wheels and is symmetrically arranged above the bottom plate (303) in a front-back mode by virtue of a pair of second fixing plates (308), the output shaft of the second driving motor (307) is provided with a second synchronizing wheel (309), the first synchronizing wheels (306) and the second synchronizing wheels (309) which are positioned on the same side are connected through a synchronous belt (310), the lifting plate (311) is arranged on one side, close to the inner side, of the two synchronous belts (310) and is arranged on the two synchronous belts (310) by virtue of a pair of meshing pieces (312), the meshing pieces (312) are provided with meshing strips (313) which can be meshed with the synchronous belt (310) on the contact surface of the meshing pieces (310), the second guide rods (314) are provided with two connecting seats (315), are symmetrically arranged in a front-back mode and vertically, and the upper ends and the lower ends of the second guide rods (314) are respectively connected with the top plate (302) and the bottom plate (302) by virtue of the first connecting seat (315) and the second connecting seat (316) The plates (303) are connected, the two second guide rods (314) are respectively provided with a connecting block (317) in a sliding mode and are fixed on one outer side of the lifting plate (311), the lifting platform (318) is horizontally welded to the top of the lifting plate (311) in an overhanging mode, and L-shaped positioning plates (319) which are arranged in a rectangular array mode are arranged on the upper end face of the lifting platform (318);

the corner code discharging assembly (400) is symmetrically arranged on the left side and the right side of the mounting platform (100) and used for achieving orderly calling and calling of corner codes (600) in the corner code loading assembly (200) on the two sides, the corner code discharging assembly (400) specifically comprises a first overhanging plate (401), a first telescopic cylinder (402), a thin cylinder (405), a second overhanging plate (410), a second telescopic cylinder (412) and a third telescopic cylinder (417), the first overhanging plate (401) is horizontally arranged on two support tubes (301) close to the back and is arranged in an inward overhanging mode, the first telescopic cylinder (402) is horizontally arranged at the overhanging end of the first overhanging plate (401) forwards, the tail end of a piston rod of the first telescopic cylinder (402) is connected with a displacement plate (403), and a third fixing plate (404) in a shape like a Chinese character 'ji' is welded in the middle of the front side of the displacement plate (403), the thin cylinder (405) is horizontally installed in the middle of the third fixing plate (404) forwards, the tail end of a piston rod of the thin cylinder (405) is connected with a first hinge plate (406), the front end face of the third fixing plate (404) is welded with a second hinge plate (407) in an up-and-down symmetrical mode, the second hinge plate (407) is horizontally arranged in a forward overhanging mode and hinged with an L-shaped clamping plate (408) at the overhanging end of the second hinge plate, a long-edge end portion of the clamping plate (408) is provided with a strip-shaped installation groove (4081) and connected with the first hinge plate (406) through a hinge pin, a short-edge end portion of the clamping plate (408) is provided with a semicircular clamping opening (4082), the left side and the right side of the displacement plate (403) are symmetrically connected with a third guide rod (409), the third guide rod (409) is arranged in an overhanging mode backwards and is in sliding fit with the first overhanging plate (401), and the second overhanging plate (410) is horizontally installed on the two supporting tubes (301) close to the front and arranged in an overhanging mode inwards overhanging mode, the top of the overhanging end of the overhanging plate II (410) is horizontally welded with a fixed plate IV (411), the telescopic cylinder II (412) is vertically upwards installed on one side, close to the inner side, of the fixed plate IV (411), the tail end of a piston rod of the telescopic cylinder II (412) is connected with a lifting plate (413), lifting columns (414) are evenly installed on the upper end face of the lifting plate (413), the left side and the right side of the lifting plate (413) are symmetrically connected with a guide rod IV (415), the guide rod IV (415) is downwards overhung and arranged and is in sliding fit with the fixed plate IV (411), the telescopic cylinder III (417) is horizontally inwards arranged and is installed on one side, close to the outer side, of the fixed plate IV (411) through a fixed plate V (416), the tail end of the piston rod of the telescopic cylinder III (417) is connected with a pushing plate (418), one side, close to the inner side, of the pushing plate (418) is provided with a pushing groove (4181), and the corner code (600) and the pushing groove (4181) are in clearance fit, a guide piece (419) is arranged below the push plate (418) of the fixed plate five (416), and the lower surface of the push plate (418) is in clearance fit with the upper surface of the guide piece (419);

the section bar feeding assembly (500) is arranged on the front side of the mounting platform (100) in the middle and used for orderly stacking aluminum section bar tubes (700) and orderly calling out and calling, the section bar feeding assembly (500) specifically comprises two mounting tubes (501), a mounting frame (502), mounting plates (503), three driving motors (504) and four telescopic cylinders (510), the mounting tubes (501) are arranged on the upper end face of the mounting platform (100) in a bilateral symmetry mode, the mounting frame (502) is provided with two mounting tubes (501) which are correspondingly arranged on two sides, the mounting plates (503) are provided with two mounting frames (502) which are correspondingly arranged on two sides, the three driving motors (504) are provided with four mounting tubes which are correspondingly arranged on the front end and the rear end of the mounting plates (503) on two sides, and output shafts of the three driving motors (504) are respectively provided with friction wheels (505), the front and the back friction wheels (505) positioned at the same side are connected by a conveyer belt (506), the mounting plates (503) at the left and the right sides are connected with a lapping plate (507) in a crossing way, the height difference of the placing plate (507) lower than the upper conveying belt (506) is 3-5mm, the tops of the mounting plates (503) on the left side and the right side are respectively provided with a limiting plate (508), the tops of the mounting pipes (501) on the left side and the right side are connected with a fixing plate six (509) in a crossing manner, the telescopic cylinder IV (510) is vertically upwards arranged and installed in the middle of the fixed plate VI (509), the tail end of a piston rod of the telescopic cylinder IV (510) is connected with a pickup plate (511), a rear backup plate (512) is arranged at one side of the top of the pickup plate (511) close to the rear, five guide rods (513) are symmetrically connected at the left side and the right side of the pickup plate (511), and the guide rod five (513) is arranged in a downward overhanging manner and is in sliding fit with the fixed plate six (509).

2. The mounting device for the corner brace and the aluminum profile pipe in the production of the solar panel, according to claim 1, is characterized in that: the rear end of each pair of carrying and placing strips (202) of the carrying and placing box (201) is provided with a stop strip (208), and a buffer strip (209) made of rubber is arranged in the middle of the front side of each stop strip (208).

3. The mounting device for the corner brace and the aluminum profile pipe in the production of the solar panel, according to claim 1, is characterized in that: the top of the loading box (201) is provided with a circular arch-shaped handle (210) in the middle.

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