CN112091352A - Space-saving solar cell panel welding device - Google Patents

Abstract

The invention discloses a space-saving solar panel welding device, which comprises a welding box and a welding cavity arranged in the welding box, wherein opposite electric guide rails are symmetrically arranged at the bottom of the welding cavity in a left-right mode, and opposite sliding blocks capable of sliding left and right are arranged in the opposite electric guide rails, the solar panel is welded and processed by utilizing longitudinal space, the stacked solar panels are required to be turned over and then separated, and a gap is reserved in the middle of the separated solar panels for welding, so that the welded solar panels can be longitudinally arranged and unfolded when being used or in subsequent processing, and the space stacking occupation phenomenon is reduced. The invention improves the production efficiency, realizes the automation of the treatment process, greatly improves the treatment efficiency and saves the labor force.

Description

Space-saving solar cell panel welding device

Technical Field

The invention relates to a space-saving solar cell panel welding device, and mainly relates to the technical field of solar cells.

Background

The solar cell panels are connected through the photovoltaic welding strips, the photovoltaic welding strips are also called tinned copper strips or tinned copper strips and are respectively divided into bus strips and interconnecting strips, when the photovoltaic welding strips are used for connecting the cell panels, the front sides of the cell panels and the back sides of the other cell panels need to be connected, the photovoltaic welding strips need to be welded in a linear running water mode in the current processing flow, the photovoltaic welding strips occupy a large space, and the solar cell panels also need to occupy a large space when stored, so that the space utilization rate is reduced, the production process of the solar cell panels in an enterprise factory building is influenced, and the photovoltaic welding strip is improved aiming at the defects.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a space-saving solar panel welding device, and the problem is solved.

The invention is realized by the following technical scheme.

The invention relates to a space-saving solar cell panel welding device, which comprises a welding box and a welding cavity arranged in the welding box, wherein opposite electric guide rails are symmetrically arranged at the bottom of the welding cavity in a left-right mode, opposite sliding blocks capable of sliding left and right are arranged in the opposite electric guide rails, a supporting and moving device is fixedly arranged on the opposite sliding blocks, a plurality of solar cell panels are placed at the bottom of the welding cavity and positioned between the supporting and moving devices, a processing support plate is fixedly arranged on the welding box, a fixed plate is fixedly arranged on the processing support plate, a fixed die is fixedly arranged at the rear end of the fixed plate, a welding strip storage cavity is arranged in the processing support plate, a welding strip shaft is rotatably arranged in the welding strip storage cavity, a welding strip roller is fixedly arranged on the welding strip shaft, a photovoltaic welding strip is wound on the welding strip roller, and a pushing motor is fixedly arranged at the rear side of the processing support plate, the photovoltaic welding belt clamping device is characterized in that a pushing rotating shaft is rotationally arranged on the pushing motor, a pushing rotating wheel is fixedly arranged on the pushing rotating shaft, a pushing connecting rod is connected to the pushing rotating wheel, a moving die is fixedly arranged on the pushing connecting rod, the moving die can move back and forth on the processing supporting plate, a shaft supporting plate is fixedly arranged on the processing supporting plate, a winding shaft is rotationally arranged on the shaft supporting plate, the winding shaft is in transmission connection with the pushing rotating shaft through a transmission belt pulley, a winding wheel is fixedly arranged on the winding shaft, a pulling wire is wound on the winding wheel, a pulley shaft is rotationally arranged on the front side of the winding shaft, a pulley is fixedly arranged on the pulley shaft, the pulling wire can move along the pulley, an electric hinge is fixedly arranged at the lower end of the pulling wire, clamping welding belt blocks are symmetrically arranged on the front side and the rear side of the electric hinge, and can clamp the photovoltaic, a motor supporting shaft is fixedly arranged on the welding box, a driving motor is fixedly arranged on the motor supporting shaft, a driving shaft is rotatably arranged on the driving motor, a movable electric guide rail is arranged in the driving shaft, a movable sliding block capable of sliding back and forth is arranged on the movable electric guide rail, a clamping telescopic rod is fixedly arranged on the movable sliding block, a rotary hinge is arranged on the clamping telescopic rod, clamping rings are symmetrically arranged on the rotary hinge back and forth, a telescopic rod supporting plate which is symmetrically arranged back and forth is arranged at the left end of the driving shaft, a plurality of telescopic rods are fixedly arranged below the telescopic rod supporting plate, a clamping block is fixedly arranged on the plurality of telescopic rods, a front electric sliding rail and a rear electric sliding rail are fixedly arranged in the welding cavity, a front sliding block and a rear sliding block capable of sliding back and forth are arranged in the front electric, the solar cell panel welding support is characterized in that a plurality of welding support rods are fixedly arranged on the welding support plate, the number of the welding support rods is equal to that of the solar cell panel, and welding devices are fixedly arranged on the welding support rods.

Further, all be equipped with the motion chamber in the support telecontrol equipment, the fixed front side electric guide rail that is equipped with of motion chamber back wall, it is equipped with a plurality of front side sliding blocks to slide on the front side electric guide rail, front side sliding block quantity is half of solar cell panel quantity, all be fixed on the front side sliding block and press from both sides tight movable plate, the top press from both sides and fixedly be equipped with motor power on the tight movable plate, the last power threaded rod that rotates of motor power, threaded connection has power threaded block on the power threaded rod, the last extrusion block that is fixed of power threaded block, extrusion block with through compression spring elastic connection between the power threaded block, the power threaded rod right-hand member is fixed and is equipped with power gear, is in the below press from both sides tight movable plate and does not all be equipped with motor power, and all the rest things are the same with the clamp of top tightly, the clamping movable plate at the top end is in transmission connection with the clamping movable plate below through a power belt pulley, the clamping movable plate at the third end is in transmission connection with the clamping movable plate below through a linkage belt pulley, a rear side electric guide rail is fixedly arranged at the rear side of the front side electric guide rail, a plurality of rear side sliding blocks are arranged on the rear side electric guide rail in a sliding manner, the number of the rear side sliding blocks is half of that of the solar cell panel, turning plates are fixedly arranged on the rear side sliding blocks, the turning plates are positioned between the clamping movable plates, rotatable driven threaded rods are arranged on the turning plates, driven threaded blocks are in threaded connection with the driven threaded rods, rotating motors are fixedly arranged on the driven threaded blocks, rotating shafts are arranged on the rotating motors in a rotating manner, and the rotating shafts are elastically connected with the rotating motors through extrusion springs, the fixed driven gear that is equipped with of driven threaded rod right-hand member, driven gear with power gear can mesh, the second returning face plate and third returning face plate are connected through the driven pulley transmission between the returning face plate, the fixed a plurality of gear telescopic links that are equipped with of motion chamber antetheca, gear telescopic link quantity with it is the same to press from both sides tight movable plate quantity, equal longitudinal symmetry is equipped with the pivoted meshing pivot on the gear telescopic link, all fixed meshing gear that is equipped with in the meshing pivot, intermeshing gear is intermeshing.

Furthermore, the pushing motor can be started to enable the movable die to move leftwards to extrude the photovoltaic welding strip into a required pattern, so that subsequent welding is simpler and more convenient, and the stay wire can fall onto the processing support plate from the pulley again to clamp the photovoltaic welding strip again after extrusion is completed.

Furthermore, the driving shaft can rotate leftwards, the photovoltaic welding strip can be clamped and placed below the clamping block by the clamping ring after being extruded and formed, after the clamping block is clamped, the photovoltaic welding strip is clamped by the clamping ring after being extruded and formed again, and then the clamping ring moves backwards to the position below the clamping block at the rear end to clamp the clamping block, so that two sections of photovoltaic welding strips can be welded together during welding, and the efficiency is improved.

The invention has the beneficial effects that: the solar panel welding device utilizes the longitudinal space to weld the solar panel, turns the stacked solar panel as required, separates the solar panel and leaves a gap in the middle for welding, so that the welded solar panel can be longitudinally arranged and unfolded when being used or subsequently processed, and the phenomenon of space stacking occupation is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

fig. 5 is a schematic diagram of the structure of D-D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The space-saving solar cell panel welding device disclosed by the attached drawings 1 to 5 comprises a welding box 10 and a welding cavity 11 arranged in the welding box 10, wherein opposite electric guide rails 12 are symmetrically arranged at the bottom of the welding cavity 11 in a bilateral mode, opposite sliding blocks 13 capable of sliding left and right are arranged in the opposite electric guide rails 12, a supporting movement device 14 is fixedly arranged on the opposite sliding blocks 13, a plurality of solar cell panels 15 are placed at the bottom of the welding cavity 11, the solar cell panels 15 are positioned between the supporting movement devices 14, a processing support plate 16 is fixedly arranged on the welding box 10, a fixed plate 17 is fixedly arranged on the processing support plate 16, a fixed die 59 is fixedly arranged at the rear end of the fixed plate 17, a welding strip storage cavity 53 is arranged in the processing support plate 16, and a welding strip shaft 54 is rotatably arranged in the welding strip storage cavity 53, the welding strip roll 54 is fixedly provided with a welding strip roll 55, the welding strip roll 55 is wound with a photovoltaic welding strip 56, the rear side of the processing support plate 16 is fixedly provided with a push motor 69, the push motor 69 is rotatably provided with a push rotating shaft 70, the push rotating shaft 70 is fixedly provided with a push rotating wheel 71, the push rotating wheel 71 is connected with a push connecting rod 68, the push connecting rod 68 is fixedly provided with a movable die 60, the movable die 60 can move back and forth on the processing support plate 16, the processing support plate 16 is fixedly provided with a shaft support plate 62, the shaft support plate 62 is rotatably provided with a winding roll 65, the winding roll 65 is in transmission connection with the push rotating shaft 70 through a transmission belt pulley 67, the winding roll 65 is fixedly provided with a winding roll 66, the winding roll 66 is wound with a pull wire 61, the front side of the winding roll 65 is rotatably provided with a pulley shaft 63, a pulley 64 is fixedly arranged on the pulley shaft 63, the pull wire 61 can move along the pulley 64, an electric hinge 57 is fixedly arranged at the lower end of the pull wire 61, clamping and welding belt blocks 58 are symmetrically arranged on the electric hinge 57 in the front-back direction, the clamping and welding belt blocks 58 can clamp the photovoltaic welding belt 56, a motor support shaft 18 is fixedly arranged on the welding box 10, a driving motor 19 is fixedly arranged on the motor support shaft 18, a driving shaft 20 is rotatably arranged on the driving motor 19, a movable electric guide rail 21 is arranged in the driving shaft 20, a movable sliding block 22 capable of sliding in the front-back direction is arranged on the movable electric guide rail 21, a clamping telescopic rod 23 is fixedly arranged on the movable sliding block 22, a rotary hinge 77 is arranged on the clamping telescopic rod 23, clamping rings 24 are symmetrically arranged on the front-back direction on the rotary hinge 77, and a telescopic rod 25 symmetrically arranged on the front-back direction, the fixed multisection telescopic link 26 that is equipped with in telescopic link backup pad 25 below, the fixed tight piece 27 of clamp that is equipped with on the multisection telescopic link 26, welding chamber 11 internal fixation is equipped with front and back electronic slide rail 73, be equipped with gliding front and back slider 74 around can in the electronic slide rail 73 of front and back, the fixed welding backup pad 72 that is equipped with on the slider 74 of front and back, welding backup pad 72 is located the support telecontrol equipment 14 rear, the fixed a plurality of welding bracing pieces 75 that are equipped with on the welding backup pad 72, welding bracing piece 75 quantity with solar cell panel 15 is the same, all fix being equipped with welding set 76 on the welding bracing piece 75.

Beneficially, all be equipped with motion chamber 28 in the support telecontrol equipment 14, the fixed front side electric guide rail 39 that is equipped with of motion chamber 28 back wall, it is equipped with a plurality of front side sliding blocks 40 to slide on the electric guide rail 39 of front side, front side sliding block 40 quantity is half of solar cell panel 15 quantity, all fixedly on the front side sliding block 40 be equipped with and press from both sides tight movable plate 30, the top press from both sides and tightly be equipped with motor power 29 on the movable plate 30, rotate on the motor power 29 and be equipped with power threaded rod 32, threaded connection has power threaded block 31 on the power threaded rod 32, fixedly on the power threaded block 31 be equipped with the extrusion piece 48, through compression spring 49 elastic connection between extrusion piece 48 and the power threaded block 31, power threaded rod 32 right-hand member is fixed and is equipped with power moving plate gear 33, is in the below press from both sides and tightly and do not be equipped with motor power 29 on 30, and all the other things are the same as the top of the clamping moving plate 30, the top of the clamping moving plate 30 and the below of the clamping moving plate 30 are in transmission connection through the power pulley 34, the third of the clamping moving plate 30 and the below of the clamping moving plate 30 are in transmission connection through the linkage pulley 44, the rear side of the front side electric guide rail 39 is fixedly provided with the rear side electric guide rail 41, the rear side electric guide rail 41 is provided with a plurality of rear side sliding blocks 42 in a sliding manner, the number of the rear side sliding blocks 42 is half of the number of the solar cell panels 15, the rear side sliding blocks 42 are fixedly provided with the turnover plate 35, the turnover plate 35 is positioned between the clamping moving plates 30, the turnover plate 35 is provided with the driven threaded rods 37 capable of rotating, the driven threaded rods 37 are all in threaded connection with the driven threaded blocks 36, the driven threaded blocks 36 are all fixedly provided with the rotating motors 50, all rotate on the rotating electrical machines 50 and be equipped with rotation axis 52, rotation axis 52 with pass through extrusion spring 51 elastic connection between rotating electrical machines 50, the fixed driven gear 38 that is equipped with of driven threaded rod 37 right-hand member, driven gear 38 with power gear 33 can mesh, the second piece returning face plate 35 and third are connected through driven pulley 43 transmission between returning face plate 35, the fixed a plurality of gear telescopic links 45 that are equipped with of motion chamber 28 antetheca, gear telescopic link 45 quantity with press from both sides tight movable plate 30 the same in quantity, equal longitudinal symmetry is equipped with pivoted meshing pivot 46 on the gear telescopic link 45, all fixed meshing gear 47 that is equipped with on the meshing pivot 46, intermeshing gear 47 is intermeshing.

Advantageously, activation of the pushing motor 69 causes the moving die 60 to move to the left to extrude the photovoltaic solder ribbon 56 into the desired pattern, which makes subsequent welding easier, while the wire 61 is again pulled by the pulley 64 onto the tooling support plate 16 to re-clamp the photovoltaic solder ribbon 56 after extrusion is completed.

Advantageously, the driving shaft 20 can rotate leftwards, the clamping ring 24 can clamp the photovoltaic solder strip 56 and then place the photovoltaic solder strip 56 below the clamping block 27 after the photovoltaic solder strip 56 is extruded, the clamping block 27 clamps the photovoltaic solder strip 56 after the photovoltaic solder strip 56 is extruded again, and then the clamping ring 24 moves backwards to the position below the clamping block 27 at the rear end after the photovoltaic solder strip 56 is extruded again to clamp the photovoltaic solder strip 56, so that two sections of photovoltaic solder strips 56 can be welded together at the same time during welding, and the efficiency is improved.

Sequence of mechanical actions of the whole device: the initial position is that the relative sliding block 13 and the supporting and moving device 14 are driven to move to the extreme side in opposite directions relative to the electric guide rail 12, after the solar panel 15 is stacked in the welding cavity 11, the relative sliding block 13 is driven to move in opposite directions relative to the electric guide rail 12, so that the supporting and moving device 14 moves in opposite directions, the solar panel 15 is clamped between the supporting and moving devices 14 under the action of the extrusion block 48 and the rotating shaft 52, the compression spring 49 and the extrusion spring 51 prevent the solar panel 15 from being damaged due to overlarge stress when being clamped, the power motor 29 is started to drive the power threaded rod 32 to rotate so that the power threaded block 31 moves backwards, the power threaded rod 32 drives the power gear 33 to rotate to drive the driven gear 38 to rotate, the driven gear 38 drives the driven threaded rod 37 to rotate so that the driven threaded block 36 moves forwards, and the power threaded rod 32 drives the second, the third power threaded rod 32 drives the fourth power threaded rod 32 to rotate through the linkage belt pulley 44, the second driven threaded rod 37 drives the third driven threaded rod 37 to rotate, each power gear 33 and each driven gear 38 are in relative rotation transmission, so that all adjacent solar panels 15 are changed into the front and back position conditions, the rear side electric guide rail 41 is started to drive the rear side sliding block 42 to move upwards sequentially, so that the turnover plate 35 moves upwards, the space between the solar panels 15 on the driven threaded blocks 36 is enlarged, the front side electric guide rail 39 is started to drive the front side sliding block 40 to move upwards sequentially, the clamping moving plate 30 moves upwards sequentially, the space between the solar panels 15 clamped between the power threaded blocks 31 is enlarged, the rotating motor 50 is started to drive the rotating shaft 52 to rotate, and the solar panels 15 on the driven threaded blocks 36 are turned over by one hundred eighty degrees, the pushing motor 69 is started to drive the pushing rotating shaft 70 and the pushing rotating wheel 71 to rotate, the pushing rotating wheel 71 drives the pushing connecting rod 68 on the pushing rotating wheel 71 to move forwards to push the moving die 60 to move forwards, meanwhile, the pushing rotating shaft 70 drives the winding shaft 65 to rotate through the transmission belt pulley 67 so that the winding wheel 66 pulls the wire 61 back, the wire 61 drives the electric hinge 57, the clamping solder strip block 58 and the clamped photovoltaic solder strip 56 to move upwards, the solder strip roller 55 is pulled to rotate continuously to release the photovoltaic solder strip 56, the moving die 60 collides with the fixed die 59 after the wire 61 moves to the top end to press the photovoltaic solder strip 56 into a required pattern, the driving motor 19 is started to drive the driving shaft 20 and the whole body on the driving shaft to rotate leftwards, the clamping telescopic rod 23 is started to extend so that the clamping ring 24 is positioned between the photovoltaic solder strips 56, the rotating hinge 77 is started so that the clamping ring 24 clamps the photovoltaic solder strip 56, the moving electric guide rail 21 is, the clamping telescopic rod 23, the clamping ring 24 and the photovoltaic solder strip 56 move backwards, the multi-section telescopic rod 26 drives the clamping block 27 to extend to enable the clamping block 27 to clamp the photovoltaic solder strip 56, the moving slide block 22 moves back to the middle, the pushing motor 69 rotates reversely to enable the moving die 60 to move backwards, meanwhile, the pull wire 61 moves downwards along the pulley 64 to enable the clamping solder strip block 58 to abut against the photovoltaic solder strip 56 again and clamp the photovoltaic solder strip 56, the pushing motor 69 is started again to enable the moving die 60 to collide with the fixed die 59 to squeeze the photovoltaic solder strip 56 for molding, the clamping telescopic rod 23 extends to enable the clamping ring 24 to clamp the photovoltaic solder strip 56, the moving electric guide rail 21 is started to drive the moving slide block 22 to move forwards to enable the photovoltaic solder strip 56 to be clamped below the telescopic rod supporting plate 25 at the front end, the moving slide block 22 moves back to the original position, the front and back multi-section telescopic rods 26 extend simultaneously to enable the clamping block 27 to convey the photovoltaic solder strip, the gear telescopic rod 45 extends to the clamping moving plate 30 and the overturning plate 35 to enable the meshing gear 47 to be meshed with the power gear 33 and the driven gear 38 respectively, the power motor 29 rotates reversely to enable the power threaded rod 32 to rotate reversely, the power threaded block 31 drives the solar cell panel 15 on the power threaded block to move back to the original position, the power threaded rod 32 drives the power gear 33 to rotate, the power gear 33 drives the meshing gear 47 to rotate and drive the driven gear 38 to rotate, the driven threaded rod 37 rotates to drive the driven threaded block 36 and the solar cell panel 15 on the driven threaded block to move back to the original position together, the solar cell panel 15 on the power threaded block 31 faces upwards, the solar cell panel 15 on the driven threaded block 36 faces upwards, the gear telescopic rod 45 retracts back to the original position, the photovoltaic welding strip 56 is located between the solar cell panels 15 which are longitudinally arranged, the front and back electric sliding rails 73 are started to drive the front and, The welding support rod 75 moves forwards, the welding device 76 welds the place needing to be welded, the front and rear sliders 74 move back to the original place after the completion, the front side sliding block 40 on the front side electric guide rail 39 moves downwards to the original place, meanwhile, the rear side sliding block 42 on the rear side electric guide rail 41 moves back to the original place, so that the welded solar cell panels 15 are stacked again, the relative sliding block 13 drives the support movement device 14 to move back to the original place in the opposite direction, the top solar cell panel 15 only needs to be lifted up when the solar cell panel 15 needs to be unfolded, the solar cell panel 15 at the rear end can both enable the solar cell panels 15 to be arranged in a row along the track of the photovoltaic welding strip 56, the solar cell panels can be longitudinally stacked and transferred when the solar cell panel is not used, and the problem that a large amount of space is.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a solar cell panel welding set who saves space, includes the welding case and set up in welding chamber in the welding case, its characterized in that: the welding device is characterized in that opposite electric guide rails are symmetrically arranged at the bottom of the welding cavity in the left-right direction, opposite sliding blocks capable of sliding left and right are arranged in the opposite electric guide rails, a supporting movement device is fixedly arranged on the opposite sliding blocks, a plurality of solar cell panels are arranged at the bottom of the welding cavity and positioned between the supporting movement devices, a processing support plate is fixedly arranged on the welding box, a fixed plate is fixedly arranged on the processing support plate, a fixed die is fixedly arranged at the rear end of the fixed plate, a welding strip storage cavity is arranged in the processing support plate, a welding strip shaft is rotatably arranged in the welding strip storage cavity, a welding strip roller is fixedly arranged on the welding strip shaft, a photovoltaic welding strip is wound on the welding strip roller, a pushing motor is fixedly arranged at the rear side of the processing support plate, a pushing rotating shaft is rotatably arranged on the pushing motor, and a pushing rotating wheel is, the photovoltaic welding belt clamping device is characterized in that a pushing connecting rod is connected to the pushing rotating wheel, a moving die is fixedly arranged on the pushing connecting rod and can move back and forth on the processing supporting plate, a shaft supporting plate is fixedly arranged on the processing supporting plate, a winding shaft is rotatably arranged on the shaft supporting plate and is in transmission connection with the pushing rotating shaft through a transmission belt pulley, a winding wheel is fixedly arranged on the winding shaft, a pulling wire is wound on the winding wheel, a pulley shaft is rotatably arranged on the front side of the winding shaft, a pulley is fixedly arranged on the pulley shaft and can move along the pulley, an electric hinge is fixedly arranged at the lower end of the pulling wire, clamping belt blocks are symmetrically arranged on the electric hinge front and back, the photovoltaic welding belt can be clamped by the clamping belt blocks, a motor supporting shaft is fixedly arranged on the welding box, and a driving motor is fixedly arranged on the motor supporting shaft, the solar cell panel welding device is characterized in that a driving shaft is rotatably arranged on the driving motor, a movable electric guide rail is arranged in the driving shaft, a movable sliding block capable of sliding back and forth is arranged on the movable electric guide rail, a clamping telescopic rod is fixedly arranged on the movable sliding block, a rotary hinge is arranged on the clamping telescopic rod, clamping rings are symmetrically arranged on the rotary hinge back and forth, a telescopic rod supporting plate symmetrical back and forth is arranged at the left end of the driving shaft, a plurality of sections of telescopic rods are fixedly arranged below the telescopic rod supporting plate, a clamping block is fixedly arranged on the plurality of sections of telescopic rods, a front electric sliding rail and a rear electric sliding rail are fixedly arranged in the welding cavity, a front sliding block and a rear sliding block capable of sliding back and forth are arranged in the front electric sliding rail and the rear sliding block, a welding supporting plate is fixedly arranged on the, and welding devices are fixedly arranged on the welding support rods.

2. A space-saving solar panel welding apparatus as claimed in claim 1, wherein: all be equipped with the motion chamber in the support motion device, the fixed front side electric guide rail that is equipped with of motion chamber back wall, it is equipped with a plurality of front side sliding block to slide on the electric guide rail of front side, front side sliding block quantity is half of solar cell panel quantity, all be fixed on the front side sliding block and press from both sides tight movable plate, the top press from both sides and tightly be equipped with motor power on the movable plate fixedly, the last rotation of motor power is equipped with the power threaded rod, threaded connection has the power threaded block on the power threaded rod, the last fixed extrusion piece that is equipped with of power threaded block, the extrusion piece with through compression spring elastic connection between the power threaded block, the fixed power gear that is equipped with of power threaded rod right-hand member, be in the below all be equipped with motor power on pressing from both sides tight movable plate, and all the rest things all are the same with the tight movable, the clamping movable plate at the top end is in transmission connection with the clamping movable plate below through a power belt pulley, the clamping movable plate at the third end is in transmission connection with the clamping movable plate below through a linkage belt pulley, a rear side electric guide rail is fixedly arranged at the rear side of the front side electric guide rail, a plurality of rear side sliding blocks are arranged on the rear side electric guide rail in a sliding manner, the number of the rear side sliding blocks is half of that of the solar cell panel, turning plates are fixedly arranged on the rear side sliding blocks, the turning plates are positioned between the clamping movable plates, rotatable driven threaded rods are arranged on the turning plates, driven threaded blocks are in threaded connection with the driven threaded rods, rotating motors are fixedly arranged on the driven threaded blocks, rotating shafts are arranged on the rotating motors in a rotating manner, and the rotating shafts are elastically connected with the rotating motors through extrusion springs, the fixed driven gear that is equipped with of driven threaded rod right-hand member, driven gear with power gear can mesh, the second returning face plate and third returning face plate are connected through the driven pulley transmission between the returning face plate, the fixed a plurality of gear telescopic links that are equipped with of motion chamber antetheca, gear telescopic link quantity with it is the same to press from both sides tight movable plate quantity, equal longitudinal symmetry is equipped with the pivoted meshing pivot on the gear telescopic link, all fixed meshing gear that is equipped with in the meshing pivot, intermeshing gear is intermeshing.

3. A space-saving solar panel welding apparatus as claimed in claim 1, wherein: the pushing motor can be started to enable the moving die to move leftwards to extrude the photovoltaic welding strip into a required pattern, so that subsequent welding is simpler and more convenient, and meanwhile the stay wire can fall onto the processing supporting plate from the pulley again to clamp the photovoltaic welding strip again after extrusion is completed.

4. A space-saving solar panel welding apparatus as claimed in claim 1, wherein: the driving shaft can rotate leftwards, the photovoltaic welding strip can be clamped and placed below the clamping block by the clamping ring after the photovoltaic welding strip is extruded, after the clamping block is clamped, the photovoltaic welding strip is clamped by the clamping ring after the photovoltaic welding strip is extruded again, and then the clamping ring moves backwards to the position below the clamping block at the rear end to clamp the clamping block, so that two sections of photovoltaic welding strips can be welded together during welding, and the efficiency is improved.

Images