CN113601045A - Single face welded solar panel production facility - Google Patents

Abstract

The invention discloses a single-side welded solar panel production device, which accurately moves and places a solar small panel onto a welding platform through a panel storage rack, a panel positioning assembly, a first transplanting mechanism and a second transplanting mechanism; the welding wire is automatically conveyed and corrected by arranging the paying-off bracket and the guide bracket; automatically cutting the welding wires and placing the welding wires on the small solar panels to be welded through the cutting module and the feeding module; the welding wire is automatically welded on the small solar panels and a plurality of small solar panels are spliced into the main solar panel through the welding platform, the infrared heating welding machine, the blanking platform, the blanking cross rod and the XY-axis moving machine; the solar panel is moved and collected on the semi-finished product collecting platform through a third transplanting mechanism, and the welded solar panel is automatically moved out of the welding platform for collection; therefore, automatic production of the solar main panel is realized, and the production efficiency and the yield of the solar panel are improved.

Description

Single face welded solar panel production facility

Technical Field

The invention relates to production of a solar panel, in particular to single-side welded solar panel production equipment.

Background

Solar energy does not cause any pollution to the environment, so the solar energy is called green clean energy and is one of the cleanest energy. Today, the environmental pollution is more and more serious, solar energy is greatly popularized and applied, and solar panels are the basis of solar energy application, so the demand of the market for the solar panels is huge.

The solar panel generally comprises a solar main panel, a panel carrier and a connecting line, wherein the solar main panel is not a panel and is made by welding and conducting a plurality of solar small panels through welding wires.

Therefore, it is urgently needed to develop an automatic solar panel production device for improving the production efficiency of the solar panel and the yield of the solar panel.

In view of the above, the present inventors have made extensive and intensive studies and improvements, and as a result, have developed and designed the present invention.

Disclosure of Invention

The invention aims to provide single-side welded solar panel production equipment which is used for improving the production efficiency of a solar panel and the yield of the solar panel.

In order to achieve the above purpose, the solution of the invention is:

a single-side welded solar panel production device comprises a plate feeding mechanism, wherein the plate feeding mechanism comprises a mechanism frame; the plate storage rack comprises a storage base, and the storage base is arranged on the mechanism frame; the movable material plate is detachably mounted on the object placing base, and at least one object placing space for containing the solar small panel is formed in the movable material plate; the plate positioning assembly comprises a positioning base, the positioning base is installed on the mechanism frame, and the front end of the positioning base is provided with at least one positioning platform and positioning notch grooves positioned on two sides of the positioning platform; the longitudinal positioning plate is movably matched on the positioning base and movably enters and exits the positioning platform; the first air cylinder is arranged on the positioning base, and a piston rod of the first air cylinder is in transmission connection with the longitudinal positioning plate; the second air cylinder is arranged on the positioning base; the transverse adjusting base plate is arranged on a piston rod of the second air cylinder, a transverse positioning plate and a longitudinal positioning plate are arranged on the transverse adjusting base plate, the transverse positioning plate is matched in the positioning notch groove, and the longitudinal positioning plate is positioned at the front end of the positioning platform; the first transplanting mechanism is arranged on the mechanism frame, movably moves to and fro between the object placing space and the positioning platform and is used for transplanting the solar small panel from the object placing space to the positioning platform; the second transplanting mechanism is arranged on the mechanism frame, movably reciprocates to the positioning platform and the welding platform and is used for transplanting the solar small panel from the positioning platform to the welding platform; the welding wire conveying tool is used for conveying welding wires on a welding wire disc and comprises a wire releasing support, a wire releasing rod is installed on one side of the wire releasing support, and a first positioning pulley, a speed reducing roller and a stretching assembly are installed on the other side of the wire releasing support from top to bottom; the upper part of the guide bracket is provided with a second positioning pulley, a pressing module and a correction module from left to right; the welding wire reel is rotationally matched on the wire laying rod, and welding wires drawn out of the welding wire reel sequentially pass through the first positioning pulley, the stretching assembly, the speed reduction roller and the second positioning pulley and then sequentially pass through the pressing module and the correction module; the welding wire shearing and feeding tool comprises a shearing module, wherein the shearing module comprises a first shearing support; the cutting assembly is arranged on the first cutting support and used for cutting the welding wire movably penetrating through the cutting assembly; the feeding module comprises a translation mechanism; the feeding support is arranged on the translation mechanism; the feeding rotating shaft is rotatably arranged at the upper part of the feeding support; the clamping module is arranged on the feeding rotating shaft and used for clamping or loosening the welding wire; the feeding motor is arranged on the feeding support, and an output shaft of the feeding motor is in transmission connection with the feeding rotating shaft through a transmission belt; a welding mechanism comprising a welding frame; the welding platform is arranged on the welding frame, and a first material moving through groove is formed in the welding platform; the heating module is matched in the welding platform; the first vertical moving mechanism is arranged on the welding frame and is positioned above the welding platform; the infrared heating welding machine is matched with the moving end of the first vertical moving mechanism; the blanking platform is arranged on the welding frame and is flush with the welding platform, and a reset through groove is formed in the blanking platform; the blanking cross rod is movably matched in the first material moving through groove and the resetting through groove;

the XY-axis moving machine is arranged on the welding frame, and the moving end of the XY-axis moving machine is connected to the blanking cross rod and used for moving the blanking cross rod in the XY-axis direction; the semi-finished product collecting platform is arranged on the blanking frame and is positioned at the rear end of the blanking platform; and the third transplanting mechanism is arranged on the blanking frame, movably reciprocates to the blanking platform and the semi-finished product collecting platform and is used for transplanting the solar panel from the blanking platform to the semi-finished product collecting platform.

The article placing base is provided with a plurality of positioning blocks, the movable material plate is matched between two adjacent positioning blocks, a plurality of partition plates are arranged on the movable material plate, the article placing space is located between two adjacent partition plates, and two sides of the article placing space are respectively provided with a limiting square column and a limiting cylinder.

The pay-off support comprises a support base, a front supporting rod, a top supporting rod and an inclined supporting rod group, the two ends of the front supporting rod are connected to the front end of the support base and the front end of the top supporting rod respectively, the two ends of the inclined supporting rod group are connected to the rear ends of the support base and the top supporting rod respectively, the pay-off rod is installed on the inclined supporting rod group, and a first positioning pulley, a speed reduction roller and a stretching assembly are installed on the front supporting rod.

The stretching assembly comprises a guide vertical rod, and the guide vertical rod is arranged on the pay-off bracket; the gravity block is movably matched on the guide vertical rod and is connected to the pay-off bracket through the spring; and the stretching pulley is arranged on one side of the gravity block.

The pressing module comprises a pressing seat, and the pressing seat is arranged on the guide support; the pressing cylinder is arranged on the pressing bracket and is positioned above the pressing seat; the compression block is arranged on a piston rod of the compression cylinder; the correction module comprises a correction seat, and a correction through groove is formed in the correction seat; and the correcting block is detachably arranged at the end part of the correcting seat.

The guide bracket is also provided with a support assembly, the support assembly is positioned between the second positioning pulley and the pressing module, the support assembly comprises a support seat and a support rotating shaft, and the support rotating shaft is in rotating fit with the support seat; the supporting wheel is arranged on the supporting rotating shaft; the guide support is also provided with a welding-assisting assembly, the welding-assisting assembly is close to the second positioning pulley, the welding-assisting assembly comprises a soldering flux box body, and the soldering flux box body is arranged on the guide support; the two liquid absorbing cottons are overlapped and then placed in the soldering flux box body, and the upper end surface of the liquid absorbing cotton below the two liquid absorbing cottons is slightly higher than the upper end surface of the soldering flux box body; and the soldering flux box cover is covered on the soldering flux box body.

The shear assembly comprises a lower guide post; the cutter shearing seat is movably matched on the lower guide post; the third cylinder is arranged on the first shearing support, and a piston rod of the third cylinder is connected to the cutter shearing seat; an upper guide post; the first cutter mounting seat is movably matched on the upper guide post; the first cutter is arranged on the first cutter mounting seat and is in movable shearing fit with the cutter shearing seat; and the fourth cylinder is arranged on the first shearing support, and a piston rod of the fourth cylinder is connected to the first cutter mounting seat.

The clamping module comprises a clamping seat, and the clamping seat is installed on the feeding rotating shaft; the double-piston rod cylinder is arranged on the clamping seat, and two piston rods in the double-piston rod cylinder move relatively; and one ends of the two clamping plates are respectively connected to the two piston rods of the double-rod air cylinder, and the other ends of the two clamping plates are respectively provided with a clamping part for clamping a welding wire.

The infrared heating welding machine comprises an infrared heating machine base, the infrared heating machine base is matched with the moving end of the first vertical moving mechanism, and an infrared heating cavity is formed in the bottom of the infrared heating machine base; the infrared heating pipe is matched in the infrared heating cavity; and the heat dissipation fan is arranged on the upper part of the infrared heating base and is communicated with the infrared heating cavity.

The welding mechanism further comprises a shearing tool, the shearing tool is located between the welding platform and the blanking platform, the shearing tool comprises a second shearing support, the second shearing support is installed on the welding frame, a second material moving through groove is formed in the second shearing support, and the second material moving through groove is communicated with the first material moving through groove and the resetting through groove; the second cutter mounting seat is movably matched on the second shearing support through the guide rod; the second cutter is arranged on the second cutter mounting seat and is in shearing fit with the second shearing support; and the fifth vertical moving mechanism is arranged on the second shearing support, and the moving end of the fifth vertical moving mechanism is connected to the second cutter mounting seat and used for moving the second cutter mounting seat up and down.

By adopting the scheme, the solar panel production equipment can accurately move the solar small panel to the welding platform through the panel storage rack, the panel positioning assembly, the first transplanting mechanism and the second transplanting mechanism; the welding wire is automatically conveyed and corrected by arranging the paying-off bracket and the guide bracket; automatically cutting the welding wires and placing the welding wires on the small solar panels to be welded through the cutting module and the feeding module; the welding wire welding machine is provided with a welding platform, an infrared heating welding machine, a blanking platform, a blanking cross rod and an XY-axis moving machine, so that welding wires can be automatically welded on small solar panels, and the small solar panels are spliced into a main solar panel; the solar panel is moved and collected on the semi-finished product collecting platform through a third transplanting mechanism, and the welded solar panel is automatically moved out of the welding platform for collection; therefore, automatic production of the solar main panel is realized, and the production efficiency and the yield of the solar panel are improved.

In addition, the infrared heating welding machine is arranged, the effective welding end of the infrared heating welding machine is in a surface shape, and a plurality of welding wires with small intervals can be welded at the same time, so that the problem that in the prior art, only one welding wire can be welded by one welding knife, the interval between two adjacent welding knives in the plurality of welding knives is large, and the plurality of welding wires with small intervals cannot be welded at the same time is solved; meanwhile, the limitation of the circuit layout of the solar main panel is also solved (the existing solar main panel has the problems that the circuits are required to be respectively arranged on the front surface and the rear surface of the solar main panel because of the existence of a welding cutter, the circuits are complicated to arrange, the production is time-consuming, and the production cost is high), the circuit layout of the solar main panel is improved, the circuits are allowed to be arranged on the same surface of the solar main panel, and a larger interval is not required to be kept, so that the circuit layout of the solar main panel has the advantages of simplicity, convenience, time-saving production and low production cost.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is a first schematic structural diagram of a plate feeding mechanism according to a preferred embodiment of the present invention;

FIG. 3 is a second schematic structural view of a plate feeding mechanism according to a preferred embodiment of the present invention;

FIG. 4 is a schematic structural view of a movable plate according to a preferred embodiment of the present invention;

FIG. 5 is a schematic structural view of a plate positioning assembly according to a preferred embodiment of the present invention;

FIG. 6 is a schematic structural view of a wire feeding tool and a wire shearing and loading tool according to a preferred embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a welding wire cutting and feeding tool according to a preferred embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a loading module according to a preferred embodiment of the present invention;

FIG. 9 is a first schematic structural view of a welding mechanism according to a preferred embodiment of the present invention;

FIG. 10 is a second schematic structural view of a welding mechanism according to a preferred embodiment of the present invention;

FIG. 11 is a third schematic structural view of a welding mechanism in accordance with a preferred embodiment of the present invention;

FIG. 12 is a partial schematic view of a welding mechanism according to a preferred embodiment of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1 to 12, a solar panel production apparatus according to a preferred embodiment of the present invention includes a single-side welding solar panel production apparatus

A plate feeding mechanism 1, the plate feeding mechanism 1 comprises

A mechanism frame 11;

the plate storage rack 12, the plate storage rack 12 includes a storage base 121, and the storage base 121 is installed on the mechanism frame 11; the movable material plate 122 is detachably mounted on the object placing base 121, and at least one object placing space 1221 for containing the small solar panels is arranged on the movable material plate 122;

the plate positioning assembly 13, the plate positioning assembly 13 includes a positioning base 131, the positioning base 131 is installed on the mechanism frame 11, the front end of the positioning base 131 is provided with at least one positioning platform 1311 and positioning notch grooves 1312 located at two sides of the positioning platform 1311; the longitudinal positioning plate 132 is movably matched on the positioning base 131 and movably enters and exits the positioning platform 1311; the first air cylinder 133 is installed on the positioning base 131, and a piston rod of the first air cylinder 133 is in transmission connection with the longitudinal positioning plate 132; a second cylinder 134, wherein the second cylinder 134 is arranged on the positioning base 131; and a transverse adjusting base plate 135, wherein the transverse adjusting base plate 135 is mounted on the piston rod of the second cylinder 134, a transverse positioning plate 1351 and a longitudinal positioning plate 1352 are arranged on the transverse adjusting base plate 135, the transverse positioning plate 1351 is fitted in the positioning notch groove 1312, and the longitudinal positioning plate 1352 is positioned at the front end of the positioning platform 1311;

a first transplanting mechanism 14, wherein the first transplanting mechanism 14 is installed on the mechanism frame 11 and movably moves to and fro between the object space 1221 and the positioning platform 1311 to transplant the solar panels from the object space 1221 to the positioning platform 1311;

and a second transplanting mechanism 15, wherein the second transplanting mechanism 15 is installed on the mechanism frame 11 and movably reciprocates to the positioning platform 1311 and the welding platform 42 so as to transplant the solar small panel from the positioning platform 1311 to the welding platform 42;

a welding wire conveying tool 2, the welding wire conveying tool 2 is used for conveying the welding wire on the welding wire disc 21, and the welding wire conveying tool 2 comprises

The paying-off device comprises a paying-off bracket 22, wherein a paying-off rod 221 is installed on one side of the paying-off bracket 22, and a first positioning pulley 222, a speed-reducing roller 223 and a stretching assembly 224 are installed on the other side of the paying-off bracket 22 from top to bottom;

the upper part of the guide bracket 23 is provided with a second positioning pulley 231, a pressing module 232 and a correcting module 233 from left to right;

the wire reel 21 is rotationally matched on the pay-off rod 221, and welding wires drawn from the wire reel 21 sequentially pass through the first positioning pulley 222, the stretching assembly 224, the speed reduction roller 223 and the second positioning pulley 231 and then sequentially pass through the pressing module 232 and the correcting module 233;

a welding wire shearing and feeding tool 3, wherein the welding wire shearing and feeding tool 3 comprises

A shearing module 301, the shearing module 301 comprising a first shearing support 31; and a shearing assembly 32, the shearing assembly 32 is mounted on the first shearing support 31 and is used for shearing the welding wire movably passing through the shearing assembly 32;

and a feeding module 302, the feeding module 302 comprising a translation mechanism 33; the feeding support 34 is installed on the translation mechanism 33; the feeding rotating shaft 35 is rotatably arranged on the upper part of the feeding support 34; the clamping module 36 is mounted on the feeding rotating shaft 35 and used for clamping or loosening the welding wire; the feeding motor 37 is installed on the feeding support 34, and an output shaft of the feeding motor 37 is in transmission connection with the feeding rotating shaft 35 through a transmission belt;

the welding mechanism 4, the welding mechanism 4 comprises

A welding frame 41;

the welding platform 42 is installed on the welding frame 41, and a first material moving through groove 421 is formed in the welding platform 42;

a heating module 43, the heating module 43 is matched in the welding platform 42;

a first vertical moving mechanism 44, wherein the first vertical moving mechanism 44 is arranged on the welding frame 41 and is positioned above the welding platform 42;

an infrared heating welder 45, wherein the infrared heating welder 45 is matched on the moving end of the first vertical moving mechanism 44;

the blanking platform 46, the blanking platform 46 is installed on the welding frame 41, the blanking platform 46 is flush with the welding platform 42, the blanking platform 46 is provided with a reset through groove 461;

the blanking cross bar 47 is movably matched in the first material moving through groove 421 and the resetting through groove 461;

an XY-axis moving machine 48, wherein the XY-axis moving machine 48 is installed on the welding frame 41, and the moving end of the XY-axis moving machine 48 is connected to the blanking cross rod 47 and used for moving the blanking cross rod 47 in the XY-axis direction;

a semi-finished product collecting table 49, wherein the semi-finished product collecting table 49 is arranged on the blanking frame and is positioned at the rear end of the blanking platform 46;

and a third transplanting mechanism 40, wherein the third transplanting mechanism 40 is arranged on the blanking frame and movably reciprocates to the blanking platform 46 and the semi-finished product collecting platform 49 so as to transplant the solar panel from the blanking platform 46 to the semi-finished product collecting platform 49.

When the plate feeding mechanism 1 is used, a small solar panel to be welded is placed in the placing space 1221 of the movable material plate 122; then, the movable material plate 122 is placed on the placement base 121; thereafter, the first transplanting mechanism 14 transplants the solar panels from the storage space 1221 onto the positioning platform 1311; then, the first cylinder 133 pushes the longitudinal positioning plate 132 through the piston rod, and the longitudinal positioning plate 132 pushes the solar small panel to abut against the longitudinal positioning plate 1352, so as to achieve accurate positioning in the longitudinal direction; the second air cylinder 134 pushes the transverse adjusting base plate 135 through a piston rod, the transverse positioning plate 1351 moves along with the transverse adjusting base plate 135 and pushes the solar small panel until the transverse positioning plate 1351 abuts against the side of the positioning platform 1311, so that accurate positioning in the transverse direction is realized; after the solar small panel is precisely positioned on the positioning platform 1311, the second transplanting mechanism 15 precisely transplants the solar small panel from the positioning platform 1311 onto the welding platform 42 to prepare for welding the solar small panel.

For the use of the welding wire conveying tool 2, before the welding wire conveying tool is used, the welding wire disc 21 is placed on the wire laying rod 221, then the welding wire is drawn out, the drawn welding wire sequentially passes through the first positioning pulley 222, the stretching assembly 224, the speed reduction roller 223 and the second positioning pulley 231, the stretching assembly 224, the first positioning pulley 222 and the speed reduction roller 223 are matched with each other, the wound welding wire has the stretching and tightening effects, then the wound welding wire sequentially passes through the pressing module 232 and the correction module 233, the correction module 233 has the welding wire correcting effect, the welding wire is prevented from being bent, and after the welding wire penetrates out of the correction module 233, the pressing module 232 is used for pressing and fixing the welding wire; and the penetrated welding wire is cut towards the welding wire and fed into the tool 3.

For the use of the welding wire shearing and feeding tool 3, one end of the welding wire shearing and feeding tool 3 faces the welding wire conveying tool 2, the other end of the welding wire shearing and feeding tool 3 faces the solar panel welding platform 42, then the feeding motor 37 rotates the feeding rotating shaft 35 through the transmission belt, so that the clamping module 36 rotates along with the feeding rotating shaft 35 and faces the welding wire, then the translation mechanism 33 moves the feeding support 34 towards the welding wire, so that the clamping module 36 can clamp the welding wire, then the shearing module 32 cuts off the welding wire, the translation mechanism 33 moves the feeding support 34 towards the welding platform 42, the feeding motor 37 rotates the feeding rotating shaft 35 in the reverse direction through the transmission belt, so that the clamping module 36 clamping the welding wire rotates in the reverse direction along with the feeding rotating shaft 35, the welding wire is placed on the solar panel to be processed, and the clamping module 36 is loosened after the welding is completed.

For the use of the welding mechanism 4, before the use, the heating module 43 preheats the welding platform 42 to make the temperature reach 180 ℃; when the solar panel welding device is used, the panel feeding mechanism 1 moves the first solar small panel to the welding platform 42; then, the welding wire feeding mechanism moves the first welding wire to the first small solar panel; then, the first vertical moving mechanism 44 moves the infrared heating welder 45 to press the infrared heating welder against the first welding wire, and the first welding wire is welded on the first solar small panel; then, the XY-axis moving machine 48 firstly moves the blanking cross bar 47 transversely toward the welding platform 42, so that the blanking cross bar 47 enters the first material moving through groove 421; then, the XY-axis moving machine 48 moves the blanking cross rod 47 upwards, and the first solar small panel is lifted up through the blanking cross rod 47; then, the XY-axis moving machine 48 moves the blanking cross bar 47 transversely towards the blanking platform 46, and the first solar small panel moves a certain distance towards the blanking platform 46; then, the XY-axis moving machine 48 moves the blanking cross bar 47 downward to place the first solar small panel on the blanking platform 46.

Moving the first small solar panel a certain distance towards the blanking platform 46 so that the panel feeding mechanism 1 can move the second small solar panel to the welding platform 42; then, the XY-axis moving machine 48 moves the first small solar panel to the welding platform 42 again, the first small solar panel is attached to one side of the second small solar panel, the first welding wire is pressed on the second small solar panel, and the welding wire feeding mechanism moves the second welding wire to the second small solar panel; then, the first vertical moving mechanism 44 moves the infrared heating welder 45 to press the first welding wire and the second welding wire, and the first welding wire and the second welding wire are welded on the second solar small panel; and so on, until welding the last solar small panel to obtain a solar main panel; then, the XY-axis moving machine 48 moves the solar main panel toward the end of the blanking platform 46, and the next solar main panel is welded according to the above steps; thereafter, the third transplanting mechanism 40 can move the solar panels on the blanking platform 46 to the semi-finished product collecting table 49 for collection.

The key point of the invention is that the solar panel production equipment can accurately move and place the solar small panel onto the welding platform 42 through the panel storage rack 12, the panel positioning component 13, the first transplanting mechanism 14 and the second transplanting mechanism 15; the welding wire is automatically conveyed and corrected by arranging the wire releasing bracket 22 and the guide bracket 23; automatically cutting the welding wires and placing the welding wires on the small solar panels to be welded through the cutting module 301 and the feeding module 302; the welding wire can be automatically welded on the small solar panels and a plurality of small solar panels are spliced into the main solar panel by arranging the welding platform 42, the infrared heating welding machine 45, the blanking platform 46, the blanking cross rod 47 and the XY-axis moving machine 48; the solar panels are moved and collected on a semi-finished product collecting table 49 through a third transplanting mechanism 40, and the welded solar panels are automatically moved out of the welding platform 42 for collection; therefore, automatic production of the solar main panel is realized, and the production efficiency and the yield of the solar panel are improved.

Moreover, the infrared heating welding machine 45 is arranged, the effective welding end of the infrared heating welding machine 45 is in a surface shape, and a plurality of welding wires with small intervals can be welded at the same time, so that the problem that in the prior art, only one welding wire can be welded by one welding knife, two adjacent welding knives in the plurality of welding knives have large intervals, and a plurality of welding wires with small intervals cannot be welded at the same time is solved; meanwhile, the limitation of the circuit layout of the solar main panel is also solved (the existing solar main panel has the problems that the circuits are required to be respectively arranged on the front surface and the rear surface of the solar main panel because of the existence of a welding cutter, the circuits are complicated to arrange, the production is time-consuming, and the production cost is high), the circuit layout of the solar main panel is improved, the circuits are allowed to be arranged on the same surface of the solar main panel, and a larger interval is not required to be kept, so that the circuit layout of the solar main panel has the advantages of simplicity, convenience, time-saving production and low production cost.

The object placing base 121 is provided with a plurality of positioning blocks 1211, the movable material plate 122 is fitted between two adjacent positioning blocks 1211, the movable material plate 122 is provided with a plurality of partition plates 1222, the object placing space 1221 is located between two adjacent partition plates 1222, and two sides of the object placing space 1221 are respectively provided with a limit square column 1223 and a limit cylinder 1224.

The placement base 121 is provided with a positioning block 1211, so that the movable material plate 122 can be positioned, and the first transplanting mechanism 14 can accurately grab the solar panels; a plurality of movable material plates 122 are accommodated among the plurality of positioning blocks 1211, and each movable material plate 122 accommodates small solar panels with different specifications so as to be adapted to the small solar panels with different specifications in the solar main panel; the movable material plate 122 can limit the solar small panel in the storage space 1221 by being provided with the limit square column 1223 and the limit cylinder 1224, so that the first transplanting mechanism 14 can accurately grab the solar small panel.

The first transplanting mechanism 14 includes a first traversing mechanism 141, and the first traversing mechanism 141 is mounted on the mechanism frame 11; a second vertical moving mechanism 142, the second vertical moving mechanism 142 is matched on the first transverse moving mechanism 141; the first suction disc mounting seat 143, the first suction disc mounting seat 143 is fitted on the second vertical movement mechanism 142; and at least one set of first take-up suction cups 144, the first take-up suction cups 144 being mounted on the first suction cup mounting base 143.

During the use, first sideslip mechanism 141 and second erect and move mechanism 142 and mutually support, can get material sucking disc 144 and remove between object space 1221 and location platform 1311 to make first material sucking disc 144 of getting can snatch, move and put the solar energy small panel.

The first material taking suction cups 144 corresponding to each group of the first suction cup mounting seats 143 are provided with first waist-shaped holes 1431, and the first material taking suction cups 144 are adjustably mounted in the first waist-shaped holes 1431.

A plurality of first material taking suction cups 144 are allowed to be installed in the first waist-shaped hole 1431, and the solar small panel is grabbed through the plurality of first material taking suction cups 144, so that the grabbing success rate can be improved; in addition, the position of the first material taking suction cup 144 can be freely adjusted in the first waist-shaped hole 1431 so as to be adapted to grasp solar panels with different specifications.

The second transplanting mechanism 15 includes a second traversing mechanism 151, and the second traversing mechanism 151 is mounted on the mechanism frame 11; a third vertical moving mechanism 152, wherein the third vertical moving mechanism 152 is matched on the second transverse moving mechanism 151; the second sucker mounting seat 153 is matched with the third vertical moving mechanism 152; and at least one set of second take-out suction cups 154, the second take-out suction cups 154 being mounted on the second suction cup mounting base 153.

During the use, second sideslip mechanism 151 and third erect and move mechanism 152 and mutually support, can get material sucking disc 154 with the second and move between location platform 1311 and welded platform 42 to make second get material sucking disc 154 can snatch, move and put the solar energy small panel.

The second suction cup mounting seat 153 is provided with a second waist-shaped hole 1531 corresponding to each group of second material taking suction cups 154, and the second material taking suction cups 154 are adjustably mounted in the second waist-shaped holes 1531.

A plurality of second material taking suction cups 154 are allowed to be installed in the second waist-shaped holes 1531, and the solar panels are grabbed through the plurality of second material taking suction cups 154, so that the grabbing success rate can be improved; moreover, the position of the second material taking suction cup 154 can be freely adjusted in the second kidney-shaped hole 1531 to be adapted to grasp solar panels of different specifications.

The pay-off stand 22 includes a stand base 225, a front support bar 226, a top support bar 227, and a diagonal support bar group 228, both ends of the front support bar 226 are respectively connected to the front ends of the stand base 225 and the top support bar 227, both ends of the diagonal support bar group 228 are respectively connected to the rear ends of the stand base 225 and the top support bar 227, the pay-off bar 221 is mounted on the diagonal support bar group 228, and the first positioning pulley 222, the deceleration roller 223, and the tension assembly 224 are all mounted on the front support bar 226.

The inclined strut set 228 includes two inclined struts 2281, two opposite sides of the two inclined struts 2281 are used for installing the wire-placing rod 221, and one opposite side of the two inclined struts 2281 is provided with an accommodating groove 2282 for accommodating the wire-placing rod 221.

Two oblique branch 2281 of oblique branch group 228 are through being equipped with the storage tank 2282 for can all set up the wire pole 221 in two oblique branch 2281's both sides and centre, when needing to change wire reel 21, only need take off wire pole 221, sheathe in new wire reel 21 can, it has simple structure, convenient to use's advantage.

The stretching assembly 224 comprises a guide upright 2241, and the guide upright 2241 is arranged on the pay-off bracket 22; the spring 2242, the gravity block 2243 and the gravity block 2243 are movably matched on the guide upright stanchion 2241 and are connected to the pay-off bracket 22 through the spring 2242; and a tension pulley 2244, the tension pulley 2244 being installed at one side of the weight block 2243.

During the use, the welding wire is walked around first positioning pulley 222, tensile pulley 2244, speed reduction roller 223 and second positioning pulley 231 in proper order, and under the cooperation of spring 2242 and gravity piece 2243, tensile pulley 2244 can stretch the welding wire tightly all the time.

The pressing module 232 comprises a pressing seat 2321, and the pressing seat 2321 is installed on the guide bracket 23; the pressing device comprises a pressing support 2322 and a pressing cylinder 2323, wherein the pressing cylinder 2323 is installed on the pressing support 2322 and is positioned above the pressing seat 2321; and a compressing block 2324, wherein the compressing block 2324 is installed on the piston rod of the compressing cylinder 2323. During the use, compress tightly cylinder 2323 drives compact 2324 through the piston rod and reciprocates for compact 2324 compresses tightly the welding wire and fixes on compressing tightly seat 2321, perhaps loosens the welding wire, makes it can be pulled out.

The calibration module 233 includes a calibration seat 2331, and a calibration through-slot 2333 is disposed on the calibration seat 2331; and a correction block 2332, the correction block 2332 being detachably mounted on an end of the correction block 2331. In use, welding wire passes through the leveling channel 2333, and the inner wall of the leveling channel 2333 and the leveling blocks 2332 at the ends have a limited leveling effect on the welding wire.

The guide bracket 23 is further provided with a support assembly 234, the support assembly 234 is located between the second positioning pulley 231 and the pressing module 232, the support assembly 234 includes a support base 2341 and a support rotating shaft 2342, and the support rotating shaft 2342 is rotatably fitted on the support base 2341; and a supporting wheel 2343, the supporting wheel 2343 being installed on the supporting rotation shaft 2342. Through being equipped with supporting component 234, supporting wheel 2343 on the pivot 2342 supports the effect that the welding wire has the support, avoids the welding wire flagging, and the welding wire in-process of taking out, supporting wheel 2343 also can rotate, avoids welding wire and supporting wheel 2343 direct friction to cause wearing and tearing.

The guide bracket 23 is also provided with a welding assisting assembly 235, the welding assisting assembly 235 is close to the second positioning pulley 231, the welding assisting assembly 235 comprises a soldering flux box 2351, and the soldering flux box 2351 is arranged on the guide bracket 23; two pieces of liquid absorbing cotton 2352, the two pieces of liquid absorbing cotton 2352 are overlapped and then placed in the soldering flux box 2351, and the upper end surface of the liquid absorbing cotton 2352 below is slightly higher than the upper end surface of the soldering flux box 2351; and a soldering flux box cover 2353, wherein the soldering flux box cover 2353 covers the soldering flux box body 2351.

When the soldering flux box is used, soldering flux can be poured into the soldering flux box body 2351, the liquid absorption cotton 2352 also absorbs the soldering flux, when a welding wire passes through the liquid absorption cotton 2352, the welding wire can be soaked in the soldering flux, and the soldering flux can assist in subsequent welding; the soldering flux box body 2351 is matched with the soldering flux box cover 2353, so that the volatilization of the soldering flux can be avoided; the wicking cotton 2352 can absorb more soldering flux, so that the soldering wire can be fully infiltrated, and frequent addition of the soldering flux by workers can be avoided.

The shearing module 32 includes a lower guide post 321; the cutter shearing seat 322 is movably matched on the lower guide post 321; the third air cylinder 323 is installed on the first shearing support 31, and a piston rod of the third air cylinder 323 is connected to the cutter shearing seat 322; upper guide posts 324; a first cutter mounting seat 325, the first cutter mounting seat 325 being movably fitted on the upper guide post 324; a first cutter 326, the first cutter 326 is mounted on the first cutter mounting seat 325 and is movably matched with the cutter shearing seat 322 in a shearing manner; and a fourth cylinder 327, the fourth cylinder 327 being mounted on the first shearing support 31, a piston rod of the fourth cylinder 327 being connected to the first cutter mounting seat 325.

When the welding wire cutting machine is used, a welding wire penetrates through the position between the cutter shearing seat 322 and the first cutter mounting seat 325, and when the welding wire is to be sheared, the third air cylinder 323 and the fourth air cylinder 327 respectively synchronously control the cutter shearing seat 322 and the first cutter mounting seat 325 to move relatively until the first cutter 326 and the cutter shearing seat 322 are matched to cut off the welding wire.

The first cutting blade 326 and the cutting blade cutting base 322 are both elongated. It should be noted that the number of the clamping modules 36 is determined according to how many welding stations are on the welding platform 42 and how many welding wires need to be welded at each welding station, so the first elongated cutter 326 and the cutter shearing base 322 have the advantage of long shearing working surface, and can simultaneously shear a plurality of welding wires.

The translation mechanism 33 includes a slider 331; the upper part of the sliding block 332 is fixed at the bottom of the feeding support 34, and the lower part of the sliding block 332 is in sliding fit with the sliding seat 331; and a fifth cylinder 333, a piston rod of the fifth cylinder 333 being connected to the charging stand 34. When the welding wire feeding device is used, the fifth air cylinder 333 drives the feeding support 34 to move back and forth on the sliding seat 331 through the piston rod, so that the welding wire is moved in a matching manner.

The clamping module 36 comprises a clamping seat 361, and the clamping seat 361 is installed on the feeding rotating shaft 35; a double-piston-rod cylinder 362, wherein the double-piston-rod cylinder 362 is arranged on the clamping seat 361, and two piston rods in the double-piston-rod cylinder 362 move relatively; and two clamping plates 363, one end of two clamping plates 363 is connected to two piston rods of the double-rod cylinder respectively, and the other end of two clamping plates 363 is provided with a clamping part 3631 for clamping a welding wire respectively.

When the welding wire clamping device is used, the double-piston-rod air cylinder 362 drives the two clamping plates 363 to move oppositely or oppositely through the two piston rods, so that the two clamping parts 3631 on the two clamping plates 363 can clamp or loosen the welding wire.

The clamping part 3631 of one clamping plate 363 inclines downwards, the clamping part 3631 of the other clamping plate 363 inclines upwards, and the tail ends of the two clamping parts 3631 are respectively provided with a clamping plane. When the two clamping plates 363 move relatively, they can approach a little bit, so that the clamping planes on the two clamping portions 3631 can firmly clamp the welding wire, and prevent the welding wire from loosening and falling.

The heating module 43 comprises a heating rod 431 and a heating control mechanism 432; the heating rod 431 is fitted in the welding platform 42; a heating control mechanism 432 is mounted on the welding frame 41 and connected to the heating rod 431. In use, the heating control mechanism 432 controls the operation of the heating rod 431 to heat the welding platform 42.

The infrared heating welder 45 comprises an infrared heating machine base 451, the infrared heating machine base 451 is matched with the moving end of the first vertical moving mechanism 44, and an infrared heating cavity 451 is arranged at the bottom of the infrared heating machine base 451; an infrared heating pipe 452, the infrared heating pipe 452 being fitted in the infrared heating chamber 451; and a heat dissipation fan 453, the heat dissipation fan 453 being installed at an upper portion of the infrared heating base 451 and communicating with the infrared heating chamber 451.

The infrared heating welder 45 further comprises a plurality of heat-resistant reinforcing bars 454, and the plurality of heat-resistant reinforcing bars 454 are fixed at the opening of the infrared heating cavity 451 in a row. The infrared heating cavity 451 is partitioned by the heat-resistant reinforcing steel bar 454, so that the infrared heating pipe 452 in the infrared heating cavity 451 is protected.

The XY-axis moving machine 48 includes an X-axis moving machine 481, and the X-axis moving machine 481 is mounted on the blanking frame; a Y-axis mover 482, the Y-axis mover 482 being fitted to the X-axis mover 481; and a cross bar mounting seat 483, the cross bar mounting seat 483 is fitted on the Y-axis mover 482, and the blanking cross bar 47 is mounted on the cross bar mounting seat 483. During the use, X axle locomotive 481 can move Y axle locomotive 482 in horizontal direction, and Y axle locomotive 482 can move horizontal pole mount pad 483 in vertical to the realization is to the removal of unloading horizontal pole 47 in horizontal direction and vertical.

The third transplanting mechanism 40 comprises a third transverse moving mechanism 401, and the third transverse moving mechanism 401 is arranged on the blanking frame; a fourth vertical moving mechanism 402, wherein the fourth vertical moving mechanism 402 is matched with the third transverse moving mechanism 401; a third suction cup mounting seat 403, the third suction cup mounting seat 403 being fitted on the fourth vertical movement mechanism 402; and a third take-out suction cup 404, the third take-out suction cup 404 being mounted on the third suction cup mounting base 403.

When the device is used, the third transverse moving mechanism 401 can move the fourth vertical moving mechanism 402 in the transverse direction, and the fourth vertical moving mechanism 402 can move the third sucker mounting seat 403 in the vertical direction, so that the suckers can move in the transverse direction and the vertical direction, and the third material taking sucker 404 is controlled to move to and fro between the blanking platform 46 and the semi-finished product collecting platform 49; the transfer of the solar panels from the blanking platform 46 to the semi-finished product collection table 49 is achieved by sucking or dropping the solar panels with the third take-out suction cups 404.

The third suction cup mounting seat 403 is in a long strip shape, and a plurality of third material taking suction cups 404 are mounted on the third suction cup mounting seat 403 along the length direction. Thus, the third transplanting mechanism 40 can absorb a plurality of solar panels at one time, and the number of times of reciprocating is reduced, so that the production efficiency is improved.

The welding mechanism 4 further comprises a shearing tool 5, the shearing tool 5 is located between the welding platform 42 and the blanking platform 46, the shearing tool 5 comprises a second shearing support 51, the second shearing support 51 is installed on the welding frame 41, a second material moving through groove 511 is formed in the second shearing support 51, and the second material moving through groove 511 is communicated with the first material moving through groove 421 and the resetting through groove 461; the second cutter mounting seat 52 is movably matched on the second shearing support 51 through the guide rod 53; the second cutter 54 is arranged on the second cutter mounting seat 52, and is in shearing fit with the second shearing support 51; and a fifth vertical moving mechanism 55, wherein the fifth vertical moving mechanism 55 is installed on the second shearing support 51, and the moving end of the fifth vertical moving mechanism 55 is connected to the second cutter installation seat 52 for moving the second cutter installation seat 52 up and down. When the welding wire trimming device is used, the fifth vertical moving mechanism 55 drives the second cutter mounting seat 52 to move up and down, so that the second cutter 54 is matched with the second shearing support 51, and the welding wire on the welded solar small panel is trimmed neatly.

The foregoing description of specific exemplary embodiments of the invention has been presented for the purposes of illustration and description and is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as may be appropriate to those skilled in the art without departing from the scope of the invention.

Claims (10)

1. The utility model provides a single face welded solar panel production facility which characterized in that: the solar panel production equipment comprises

A plate feeding mechanism, the plate feeding mechanism comprises

A mechanism frame;

the plate storage rack comprises a storage base, and the storage base is arranged on the mechanism frame; the movable material plate is detachably mounted on the object placing base, and at least one object placing space for containing the solar small panel is formed in the movable material plate;

the plate positioning assembly comprises a positioning base, the positioning base is installed on the mechanism frame, and the front end of the positioning base is provided with at least one positioning platform and positioning notch grooves positioned on two sides of the positioning platform; the longitudinal positioning plate is movably matched on the positioning base and movably enters and exits the positioning platform; the first air cylinder is arranged on the positioning base, and a piston rod of the first air cylinder is in transmission connection with the longitudinal positioning plate; the second air cylinder is arranged on the positioning base; the transverse adjusting base plate is arranged on a piston rod of the second air cylinder, a transverse positioning plate and a longitudinal positioning plate are arranged on the transverse adjusting base plate, the transverse positioning plate is matched in the positioning notch groove, and the longitudinal positioning plate is positioned at the front end of the positioning platform;

the first transplanting mechanism is arranged on the mechanism frame, movably moves to and fro between the object placing space and the positioning platform and is used for transplanting the solar small panel from the object placing space to the positioning platform;

the second transplanting mechanism is arranged on the mechanism frame, movably reciprocates to the positioning platform and the welding platform and is used for transplanting the solar small panel from the positioning platform to the welding platform;

the welding wire conveying tool is used for conveying welding wires on a welding wire disc and comprises

The wire releasing device comprises a wire releasing support, wherein a wire releasing rod is arranged on one side of the wire releasing support, and a first positioning pulley, a speed reducing roller and a stretching assembly are arranged on the other side of the wire releasing support from top to bottom;

the upper part of the guide bracket is provided with a second positioning pulley, a pressing module and a correction module from left to right;

the welding wire reel is rotationally matched on the wire laying rod, and welding wires drawn out of the welding wire reel sequentially pass through the first positioning pulley, the stretching assembly, the speed reduction roller and the second positioning pulley and then sequentially pass through the pressing module and the correction module;

welding wire shearing and feeding tool, which comprises

A shear module comprising a first shear support; the cutting assembly is arranged on the first cutting support and used for cutting the welding wire movably penetrating through the cutting assembly;

the feeding module comprises a translation mechanism; the feeding support is arranged on the translation mechanism; the feeding rotating shaft is rotatably arranged at the upper part of the feeding support; the clamping module is arranged on the feeding rotating shaft and used for clamping or loosening the welding wire; the feeding motor is arranged on the feeding support, and an output shaft of the feeding motor is in transmission connection with the feeding rotating shaft through a transmission belt;

a welding mechanism, the welding mechanism comprising

Welding the frame;

the welding platform is arranged on the welding frame, and a first material moving through groove is formed in the welding platform;

the heating module is matched in the welding platform;

the first vertical moving mechanism is arranged on the welding frame and is positioned above the welding platform;

the infrared heating welding machine is matched with the moving end of the first vertical moving mechanism;

the blanking platform is arranged on the welding frame and is flush with the welding platform, and a reset through groove is formed in the blanking platform;

the blanking cross rod is movably matched in the first material moving through groove and the resetting through groove;

the XY-axis moving machine is arranged on the welding frame, and the moving end of the XY-axis moving machine is connected to the blanking cross rod and used for moving the blanking cross rod in the XY-axis direction;

the semi-finished product collecting platform is arranged on the blanking frame and is positioned at the rear end of the blanking platform;

and the third transplanting mechanism is arranged on the blanking frame, movably reciprocates to the blanking platform and the semi-finished product collecting platform and is used for transplanting the solar panel from the blanking platform to the semi-finished product collecting platform.

2. The single-side welded solar panel production apparatus of claim 1, wherein: the article placing base is provided with a plurality of positioning blocks, the movable material plate is matched between two adjacent positioning blocks, a plurality of partition plates are arranged on the movable material plate, the article placing space is located between two adjacent partition plates, and two sides of the article placing space are respectively provided with a limiting square column and a limiting cylinder.

3. The single-side welded solar panel production apparatus of claim 1, wherein: the pay-off support comprises a support base, a front supporting rod, a top supporting rod and an inclined supporting rod group, the two ends of the front supporting rod are connected to the front end of the support base and the front end of the top supporting rod respectively, the two ends of the inclined supporting rod group are connected to the rear ends of the support base and the top supporting rod respectively, the pay-off rod is installed on the inclined supporting rod group, and a first positioning pulley, a speed reduction roller and a stretching assembly are installed on the front supporting rod.

4. The single-side welded solar panel production apparatus of claim 1, wherein: the stretching component comprises

The guide vertical rod is arranged on the pay-off bracket;

the gravity block is movably matched on the guide vertical rod and is connected to the pay-off bracket through the spring;

and the stretching pulley is arranged on one side of the gravity block.

5. The single-side welded solar panel production apparatus of claim 1, wherein: the pressing module comprises

The pressing seat is arranged on the guide bracket;

the pressing cylinder is arranged on the pressing bracket and is positioned above the pressing seat;

the compression block is arranged on a piston rod of the compression cylinder;

the correction module comprises

The correcting seat is provided with a correcting through groove;

and the correcting block is detachably arranged at the end part of the correcting seat.

6. The single-side welded solar panel production apparatus of claim 1, wherein: still install supporting component on the guide bracket, supporting component is located between second locating pulley and the compression module, supporting component includes

The supporting rotary shaft is rotationally matched on the supporting seat;

the supporting wheel is arranged on the supporting rotating shaft;

still install on the guide bracket and help and weld the subassembly, help and weld the subassembly and be close to second positioning pulley, help and weld the subassembly and include

The soldering flux box body is arranged on the guide bracket;

the two liquid absorbing cottons are overlapped and then placed in the soldering flux box body, and the upper end surface of the liquid absorbing cotton below the two liquid absorbing cottons is slightly higher than the upper end surface of the soldering flux box body;

and the soldering flux box cover is covered on the soldering flux box body.

7. The single-side welded solar panel production apparatus of claim 1, wherein: the shearing assembly comprises

A lower guide post;

the cutter shearing seat is movably matched on the lower guide post;

the third cylinder is arranged on the first shearing support, and a piston rod of the third cylinder is connected to the cutter shearing seat;

an upper guide post;

the first cutter mounting seat is movably matched on the upper guide post;

the first cutter is arranged on the first cutter mounting seat and is in movable shearing fit with the cutter shearing seat;

and the fourth cylinder is arranged on the first shearing support, and a piston rod of the fourth cylinder is connected to the first cutter mounting seat.

8. The single-side welded solar panel production apparatus of claim 1, wherein: the clamping module comprises

The clamping seat is arranged on the feeding rotating shaft;

the double-piston rod cylinder is arranged on the clamping seat, and two piston rods in the double-piston rod cylinder move relatively;

and one ends of the two clamping plates are respectively connected to the two piston rods of the double-rod air cylinder, and the other ends of the two clamping plates are respectively provided with a clamping part for clamping a welding wire.

9. The single-side welded solar panel production apparatus of claim 1, wherein: the infrared heating welding machine comprises

The infrared heating machine base is matched with the moving end of the first vertical moving mechanism, and an infrared heating cavity is formed in the bottom of the infrared heating machine base;

the infrared heating pipe is matched in the infrared heating cavity;

and the heat dissipation fan is arranged on the upper part of the infrared heating base and is communicated with the infrared heating cavity.

10. The single-side welded solar panel production apparatus of claim 1, wherein: welding mechanism still includes the shearing frock, the shearing frock is located between welded platform and the unloading platform, the shearing frock includes

The second shearing support is arranged on the welding frame, a second material moving through groove is formed in the second shearing support, and the second material moving through groove is communicated with the first material moving through groove and the resetting through groove;

the second cutter mounting seat is movably matched on the second shearing support through the guide rod;

the second cutter is arranged on the second cutter mounting seat and is in shearing fit with the second shearing support;

and the fifth vertical moving mechanism is arranged on the second shearing support, and the moving end of the fifth vertical moving mechanism is connected to the second cutter mounting seat and used for moving the second cutter mounting seat up and down.

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