CN111697408A

CN111697408A - Photovoltaic split type junction box production device

Info

Publication number: CN111697408A
Application number: CN202010482923.0A
Authority: CN
Inventors: 支友光
Original assignee: Ningbo Yutai Automation Technology Co ltd
Current assignee: Ningbo Yutai Automation Technology Co ltd
Priority date: 2020-06-01
Filing date: 2020-06-01
Publication date: 2020-09-22

Abstract

The invention discloses a photovoltaic split type junction box production device in the technical field of mechanical equipment, which comprises a workbench, a moving device, a processing device and two vibrating devices, wherein the front side wall of the workbench is rotatably connected with a rotating door through a hinge, the bottom of the workbench is connected with supporting legs through threads, universal wheels are fixed at the bottom of the workbench through bolts, and a safety cabinet is fixed at the top of the workbench through bolts; this split type terminal box apparatus for producing of photovoltaic device, the device of photovoltaic line processing is all adopted the design of duplex position at the top of workstation, and fortune material mechanism transports the photovoltaic line from a left side to the right side, passes through duplex position wire stripping mechanism, riveting device, pre-installation line ball device, ultrasonic welding device, function detection device and automatic sign indicating number unloader of beating in proper order, assembles two processing detection assembly lines into one, utilizes the duplex position to detect the photovoltaic line, has improved the detection efficiency of photovoltaic line when reducing equipment cost.

Description

Photovoltaic split type junction box production device

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a photovoltaic split type junction box production device.

Background

The connecting device between the solar cell array formed by the solar cell modules and the solar charging control device is mainly used for connecting and protecting the solar photovoltaic modules, connecting the electric power generated by the solar cells with an external circuit and conducting the current generated by the photovoltaic modules. The existing photovoltaic line has a serious problem that the photovoltaic line is detected and processed to be in a single station during production, so that the operation cost of equipment is increased, the detection efficiency of the photovoltaic line is influenced, and the photovoltaic split type junction box production device is provided.

Disclosure of Invention

The invention aims to provide a photovoltaic split type junction box production device, which aims to solve the problems that the operation cost of equipment is increased and the detection efficiency of a photovoltaic line is influenced because the photovoltaic line is detected and processed to be a simplex position when the photovoltaic line is produced in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a photovoltaic split type junction box production device comprises a workbench, a moving device, a machining device and two vibrating devices, wherein the front side wall of the workbench is rotatably connected with a rotating door through a hinge, the bottom of the workbench is connected with supporting legs through threads, universal wheels are fixed at the bottom of the workbench through bolts, a safety cabinet is fixed at the top of the workbench through bolts, and the front side wall of the safety cabinet is rotatably connected with a turnover door through the hinge;

the moving device is fixed on the front side of the top of the workbench through bolts and comprises a guide rail and a material conveying mechanism, and the material conveying mechanism is fixedly connected with the rear side wall of the guide rail through bolts;

the processing device is fixed at the middle position of the top of the workbench through bolts, the processing device comprises a pay-off mechanism, a double-station wire stripping mechanism, a riveting device, a pre-installed wire pressing block device, an ultrasonic welding device, a function detection device, an automatic code printing and blanking device, a storage box, a photovoltaic wire and a feeding device, the storage box is positioned at the right side of the workbench, a supporting block is welded at the top of the bottom of the storage box respectively, the pay-off mechanism, the double-station wire stripping mechanism, the riveting device, the pre-installed wire pressing block device, the ultrasonic welding device, the function detection device and the automatic code printing and blanking device are sequentially distributed at the top of the workbench from left to right, the photovoltaic wire is in sliding contact with the guide rail through the material conveying mechanism, and the feeding device is fixed at the rear side of the top of the workbench through bolts, a first feeding belt and a second feeding belt are embedded in the top of the feeding device, and the right ends of the first feeding belt and the second feeding belt are communicated with the riveting device;

the vibration device is fixed on the rear side wall of the workbench through bolts and comprises a vibration disc, a feeding track and a gripper device, one end of the feeding track extends into an inner cavity of the vibration disc, the other end of the feeding track is communicated with the gripper device, and the gripper device is communicated with the pre-pressing line block device.

Preferably, the top of the vibration plate is rotatably connected with a sealing plate through a rotating shaft.

Preferably, fortune material mechanism includes first servo motor, screw rod, slider, horizontal pole, connecting rod and clamping jaw, the screw rod right-hand member with first servo motor passes through threaded connection, the left end of screw rod with the slider passes through the bolt fastening, the slider with the connecting rod all through the bolt with horizontal pole fixed connection, the clamping jaw pass through the bolt with connecting rod fixed connection.

Preferably, the double-station wire stripping mechanism comprises an air cylinder, a wire stripping tool, a fixed seat and a supporting column, the wire stripping tool is connected with the air cylinder through a transmission shaft, the fixed seat is located at the lower part of the wire stripping tool, the fixed seat is fixed at the top of the workbench through the supporting column, the photovoltaic wire is embedded at the top of the fixed seat, and the wire stripping tool is in contact with the fixed seat through the photovoltaic wire.

Preferably, the riveting device comprises a terminal machine, a track, a coordinate type manipulator and a mold, the feeding device is communicated with the track through the coordinate type manipulator, the track and the photovoltaic line are communicated with the mold, and the mold is located at the lower part of the terminal machine.

Preferably, the automatic code printing and discharging device comprises a material taking mechanical arm and a code printing device, the material taking mechanical arm is fixed to the top of the workbench through a bolt, the material taking mechanical arm is connected with the photovoltaic line in a matched mode, and the code printing device is located on the lower portion of the material taking mechanical arm.

Compared with the prior art, the invention has the beneficial effects that: this split type terminal box apparatus for producing of photovoltaic sets up, structural design is reasonable, and the device of photovoltaic line processing is all adopted the design of duplex position at the top of workstation, and fortune material mechanism transports the photovoltaic line from a left side to the right side, passes through duplex position wire stripping mechanism, riveting device, pre-installation line ball device, ultrasonic welding device, function detection device and automatic sign indicating number unloader of beating in proper order, assembles two processing detection assembly lines into one, utilizes the duplex position to detect the photovoltaic line, has improved the detection efficiency of photovoltaic line when reducing equipment cost.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic structural diagram of a material conveying mechanism according to the present invention;

FIG. 4 is a schematic structural view of a pay-off mechanism of the present invention;

FIG. 5 is a schematic structural view of a double-station wire stripping mechanism of the present invention;

FIG. 6 is a schematic structural view of a riveting device according to the present invention;

FIG. 7 is a schematic structural diagram of a vibration device according to the present invention;

FIG. 8 is a schematic view of an ultrasonic welding apparatus according to the present invention;

FIG. 9 is a schematic structural view of the automatic coding and blanking device of the present invention.

In the figure: the device comprises a workbench 100, a revolving door 110, supporting legs 111, universal wheels 112, a safety cabinet 120, a turnover door 121, a moving device 200, a guide rail 210, a material conveying mechanism 220, a first servo motor 221, a screw 222, a slider 223, a cross bar 224, a connecting rod 225, a clamping jaw 226, a processing device 300, a paying-off mechanism 310, a double-station wire stripping mechanism 320, an air cylinder 321, a wire stripping tool 322, a fixing seat 323, a supporting column 324, a riveting device 330, a terminal machine 331, a rail 332, a coordinate type manipulator 333, a mold 334, a pre-installed wire pressing block device 340, an ultrasonic welding device 350, a function detection device 360, an automatic code printing and blanking device 370, a material taking manipulator 371, a code printing device 372, a material storage box 380, a supporting block 381, an optical volt wire 390, a feeding device 3100, a first feeding belt 3110, a second feeding belt 3120, a vibrating device 400, a vibrating disc 410, a feeding rail 420, a sealing.

Detailed Description

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

The invention provides a photovoltaic split type junction box production device, which utilizes double stations to detect photovoltaic lines, reduces the equipment cost and improves the detection efficiency of the photovoltaic lines, and please refer to fig. 1-9, and the photovoltaic split type junction box production device comprises a workbench 100, a moving device 200, a processing device 300 and two vibrating devices 400.

Referring to fig. 1-2 again, the front side wall of the workbench 100 is rotatably connected with a revolving door 110 through a hinge, the bottom of the workbench 100 is connected with supporting legs 111 through threads, the bottom of the workbench 100 is fixed with universal wheels 112 through bolts, the top of the workbench 100 is fixed with a safety cabinet 120 through bolts, and the front side wall of the safety cabinet 120 is rotatably connected with a turnover door 121 through a hinge; the workbench 100 is used for providing a supporting point for the components of the moving device 200 and the processing device 300, the safety cabinet 120 is used for protecting the moving device 200 and the processing device 300, the supporting legs 111 are used for supporting the workbench 100, and the universal wheels 112 are used for conveniently moving the workbench 100.

Referring to fig. 1-3 again, the moving device 200 is fixed on the front side of the top of the workbench 100 by bolts, the moving device 200 includes a guide rail 210 and a material conveying mechanism 220, and the material conveying mechanism 220 is fixedly connected with the rear side wall of the guide rail 210 by bolts; the guide rail 210 and the material handling mechanism 220 cooperate to move the photovoltaic line 390 mounted at the station of the pay-off mechanism 310 to the right.

Referring to fig. 1, 2, 4, 5, 6, 8 and 9 again, the processing device 300 is fixed at the middle position of the top of the workbench 100 by bolts, the processing device 300 includes a paying-off mechanism 310, a double-station wire stripping mechanism 320, a riveting device 330, a pre-installed wire-pressing block device 340, an ultrasonic welding device 350, a function detection device 360, an automatic code-pressing and blanking device 370, a material storage box 380, a photovoltaic wire 390 and a feeding device 3100, the material storage box 380 is located at the right side of the workbench 100, a supporting block 381 is welded at the top of the bottom of the material storage box 380, the paying-off mechanism 310, the double-station wire stripping mechanism 320, the riveting device 330, the pre-installed wire-pressing block device 340, the ultrasonic welding device 350, the function detection device 360 and the automatic code-pressing and blanking device 370 are distributed on the top of the workbench 100 in sequence, the photovoltaic wire 390 is in sliding contact with the guide rail 210 through the material conveying mechanism 220, the feeding device 3100 is fixed at the, a first feeding belt 3110 and a second feeding belt 3120 are embedded at the top of the feeding device 3100, and the right ends of the first feeding belt 3110 and the second feeding belt 3120 are communicated with the riveting device 330; the paying-off mechanism 310 is used for positioning a photovoltaic wire 390, the double-station wire stripping mechanism 320 is used for stripping a protective layer outside an inner core of an end of the photovoltaic wire 390, the riveting device 330 is used for connecting the photovoltaic wire 390 with a junction box, the pre-pressing wire block device 340 is used for pressing a wire block in the junction box to fix the photovoltaic wire 390, the ultrasonic welding device 350 is used for welding the wire block with the junction box, the function detection device 360 is used for detecting a connecting end of the photovoltaic wire 390, the automatic coding and blanking device 370 is used for coding and binding the connecting end, the storage box 380 is used for storing the bound photovoltaic wire 390, and a first feeding belt 3110 and a second feeding belt 3120 in the feeding device 3100 are used for transporting the junction box to the box 330.

Referring to fig. 1, 2 and 7 again, two vibrating devices 400 are fixed to the rear side wall of the workbench 100 through bolts, each vibrating device 400 includes a vibrating plate 410, a feeding rail 420 and a gripper 440, one end of each feeding rail 420 extends into the inner cavity of the vibrating plate 410, the other end of each feeding rail 420 is communicated with the gripper 440, the gripper 440 is communicated with a pre-mounted punch block device 340, the vibrating plate 410 is used for storing and arranging punch blocks, the feeding rails 420 are used for transporting the punch blocks, and the gripper 440 is used for picking up the punch blocks in the feeding rails 420 and placing the punch blocks in the junction boxes.

Referring to fig. 7, in order to prevent foreign materials from entering the inner cavity of the vibration plate 410, a sealing plate 430 seals the inside of the vibration plate 410, and the top of the vibration plate 410 is rotatably connected to the sealing plate 430 through a rotating shaft.

Referring to fig. 3 again, in order to enable the material to sequentially move to the next station in the horizontal direction, the material transporting mechanism 220 includes a first servo motor 211, a screw 222, a slider 223, a cross bar 224, a connecting rod 225 and a clamping jaw 226, the right end of the screw 222 is in threaded connection with the first servo motor 211, the left end of the screw 222 is fixed with the slider 223 through a bolt, the slider 223 and the connecting rod 225 are both fixedly connected with the cross bar 224 through a bolt, and the clamping jaw 226 is fixedly connected with the connecting rod 225 through a bolt.

Referring to fig. 5 again, in order to simultaneously strip the ends of two photovoltaic wires, the double-station wire stripping mechanism 320 includes an air cylinder 321, a wire stripping tool 322, a fixing seat 323 and a supporting column 324, the wire stripping tool 322 is connected to the air cylinder 321 through a transmission shaft, the fixing seat 323 is located at the lower part of the wire stripping tool 322, the fixing seat 323 is fixed to the top of the worktable 100 through the supporting column 324, the photovoltaic wire 390 is embedded in the top of the fixing seat 323, and the wire stripping tool 322 is in contact with the fixing seat 323 through the photovoltaic wire 390.

Referring to fig. 6, in order to increase the speed of mounting the junction box to the photovoltaic wire 390, the riveting device 330 includes a terminal machine 331, a rail 332, a coordinate type manipulator 333 and a mold 334, the feeding device 3100 is connected to the rail 332 through the coordinate type manipulator 333, the rail 332 and the photovoltaic wire 390 are both connected to the mold 334, and the mold 334 is located at the lower portion of the terminal machine 331.

Referring to fig. 9 again, in order to quantitatively bind the photovoltaic line 390, firstly, a qualified product is coded, every 50 coded photovoltaic lines 390 are bound one by one, the automatic coding and blanking device 370 includes a material taking manipulator 371 and a coding device 372, the material taking manipulator 371 is fixed on the top of the workbench 100 through bolts, the material taking manipulator 371 is connected with the photovoltaic line 390 in a matching manner, and the coding device 372 is located at the lower part of the material taking manipulator 371.

The working principle is as follows: firstly, the power supply of the equipment is switched on, so that each equipment is electrified to normally operate, two photovoltaic wires 390 are respectively and manually inserted into positioning grooves in the pay-off mechanism 310, at the moment, the screw 222 drives the slide block 223, the cross bar 224 and the connecting rod 225 to move rightwards under the action of the first servo motor 221, the cross bar 224 moves two clamping jaws 226 which clamp the photovoltaic wires 390 in the pay-off mechanism 310 to a double-station wire stripping mechanism 320 station, at the moment, the guide rail 210 returns to the original position, the air cylinder 321 and the wire stripping cutter 322 in the double-station wire stripping mechanism 320 are matched for use to simultaneously strip the ends of the two photovoltaic wires 390, after the strip is finished, the clamping jaws 226 which clamp the two stripped photovoltaic wires 390 in the double-station wire stripping mechanism 320 station move to the next station riveting device 330 under the action of the guide rail 210, meanwhile, the junction boxes move along the first feeding belt 3110 and the second feeding belt 3120, the two coordinate type manipulators 333 respectively clamp and move right, the junction box moves into a die 334 along a rail 332, the end of the photovoltaic wire 390 is clamped into the junction box at the moment, a terminal machine 331 rivets the end of the photovoltaic wire 390 with a terminal inside the junction box, the photovoltaic wire 390 riveted with the junction box moves rightwards under the action of a guide rail 210 to a station of a wire pressing block pre-installing device 340, a wire pressing block in a vibrating disc 410 is led out along the feeding rail 420, a gripping device 440 takes the wire pressing block in the feeding rail 420 to be placed inside the junction box to complete pre-installation, the photovoltaic wire 390 pre-installed with the wire pressing block moves downwards to a station of an ultrasonic welding device 350 under the action of the guide rail 210, the ultrasonic welding device 350 carries out ultrasonic welding on the wire pressing block and the junction box, after welding is completed, the photovoltaic wire 390 moves downwards to a station of a function detection device 360 under the action of the guide rail 210, the function detection device 360 detects whether the connection end of the photovoltaic, qualified photovoltaic lines 390 move to the automatic code printing and blanking device 370 at the next station under the action of the guide rail 210, the code printing device 372 prints codes on the junction box, the material taking manipulator 371 bundles the photovoltaic lines 390, one roll is bound for every 50 photovoltaic lines, and the photovoltaic lines are conveyed to the material storage box 380 for storage under the action of the manipulator after the binding is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a split type terminal box apparatus for producing of photovoltaic which characterized in that: the safety device comprises a workbench (100), a moving device (200), a machining device (300) and two vibrating devices (400), wherein the front side wall of the workbench (100) is rotatably connected with a rotating door (110) through a hinge, the bottom of the workbench (100) is connected with supporting feet (111) through threads, the bottom of the workbench (100) is fixedly provided with universal wheels (112) through bolts, the top of the workbench (100) is fixedly provided with a safety cabinet (120) through bolts, and the front side wall of the safety cabinet (120) is rotatably connected with a turnover door (121) through a hinge;

the moving device (200) is fixed on the front side of the top of the workbench (100) through bolts, the moving device (200) comprises a guide rail (210) and a material conveying mechanism (220), and the material conveying mechanism (220) is fixedly connected with the rear side wall of the guide rail (210) through bolts;

the processing device (300) is fixed at the middle position of the top of the workbench (100) through bolts, the processing device (300) comprises a pay-off mechanism (310), a double-station wire stripping mechanism (320), a riveting device (330), a pre-installed wire pressing block device (340), an ultrasonic welding device (350), a function detection device (360), an automatic code printing and blanking device (370), a storage box (380), a photovoltaic wire (390) and a feeding device (3100), wherein the storage box (380) is positioned at the right side of the workbench (100), supporting blocks (381) are welded at the top of the bottom of the storage box (380) respectively, the pay-off mechanism (310), the double-station wire stripping mechanism (320), the riveting device (330), the pre-installed wire pressing block device (340), the ultrasonic welding device (350), the function detection device (360) and the automatic code printing and blanking device (370) are sequentially distributed at the top of the workbench (100) from left to right, the photovoltaic line (390) is in sliding contact with the guide rail (210) through the material conveying mechanism (220), the feeding device (3100) is fixed to the rear side of the top of the workbench (100) through bolts, a first feeding belt (3110) and a second feeding belt (3120) are embedded in the top of the feeding device (3100), and the right ends of the first feeding belt (3110) and the second feeding belt (3120) are communicated with the riveting device (330);

two vibrating device (400) are fixed in through the bolt the back lateral wall of workstation (100), vibrating device (400) are including vibration dish (410), pay-off track (420) and tongs (440), pay-off track (420) one end extends to in the inner chamber of vibration dish (410), the other end of pay-off track (420) with tongs (440) intercommunication, tongs (440) with pre-installation line ball device (340) intercommunication.

2. The photovoltaic split junction box production device of claim 1, wherein: the top of the vibration disk (410) is rotatably connected with a sealing plate (430) through a rotating shaft.

3. The photovoltaic split junction box production device of claim 1, wherein: the material conveying mechanism (220) comprises a first servo motor (211), a screw rod (222), a sliding block (223), a cross rod (224), a connecting rod (225) and a clamping jaw (226), the right end of the screw rod (222) is in threaded connection with the first servo motor (211), the left end of the screw rod (222) is fixed to the sliding block (223) through bolts, the sliding block (223) and the connecting rod (225) are fixedly connected with the cross rod (224) through bolts, and the clamping jaw (226) is fixedly connected with the connecting rod (225) through bolts.

4. The photovoltaic split junction box production device of claim 1, wherein: the double-station wire stripping mechanism (320) comprises an air cylinder (321), a wire stripping cutter (322), a fixed seat (323) and a supporting column (324), wherein the wire stripping cutter (322) is connected with the air cylinder (321) through a transmission shaft, the fixed seat (323) is positioned at the lower part of the wire stripping cutter (322), the fixed seat (323) is fixed at the top of the workbench (100) through the supporting column (324), the photovoltaic wire (390) is embedded at the top of the fixed seat (323), and the wire stripping cutter (322) is in contact with the fixed seat (323) through the photovoltaic wire (390).

5. The photovoltaic split junction box production device of claim 1, wherein: the riveting device (330) comprises a terminal machine (331), a rail (332), a coordinate type manipulator (333) and a mold (334), the feeding device (3100) is communicated with the rail (332) through the coordinate type manipulator (333), the rail (332) and the photovoltaic line (390) are both communicated with the mold (334), and the mold (334) is located at the lower portion of the terminal machine (331).

6. The photovoltaic split junction box production device of claim 1, wherein: automatic beat sign indicating number unloader (370) including getting material manipulator (371) and beating sign indicating number device (372), get material manipulator (371) through the bolt fastening in the top of workstation (100), get material manipulator (371) with photovoltaic line (390) cooperation is connected, beat sign indicating number device (372) and be located get the lower part of material manipulator (371).