CN111702437A

CN111702437A - Split type terminal box assembly device of photovoltaic

Info

Publication number: CN111702437A
Application number: CN202010483636.1A
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: 2020-09-25

Abstract

The invention discloses a photovoltaic split type junction box assembling device in the technical field of mechanical equipment, which comprises three storage devices, a working cabinet, diode breaking devices, diode feeding devices and defective product taking devices, wherein the three storage devices are distributed on the left side of the working cabinet and comprise a material arranging box and a first support frame, and the material arranging box is fixed on the top of the first support frame through bolts; this split type terminal box assembly device of photovoltaic sets up, structural design is reasonable, installs the transportation track through the top at the work cabinet, and the transportation track can transport the positive pole, negative pole and the anodal of photovoltaic terminal box simultaneously, integrates into a processing equipment with three production water lines and processes the photovoltaic terminal box to carry out the classified collection to the photovoltaic terminal box, make the terminal box of positive pole, negative pole and anodal simultaneously processing production, and then by a wide margin improvement the production efficiency of photovoltaic terminal box.

Description

Split type terminal box assembly device of photovoltaic

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a photovoltaic split type junction box assembling 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 junction box has a serious problem that the photovoltaic junction box is divided into three types during production and manufacturing: the photovoltaic split type junction box assembling device comprises a positive pole, a negative pole and a middle pole, wherein the positive pole, the negative pole and the middle pole need to be processed by three assembly lines, so that the production efficiency of the junction box can be influenced, and the photovoltaic split type junction box assembling device is provided for the purpose.

Disclosure of Invention

The invention aims to provide a photovoltaic split type junction box assembling device, which aims to solve the problem that when the photovoltaic junction box provided in the background technology is produced and manufactured, the photovoltaic junction box is divided into three types: the positive pole, the negative pole and the intermediate pole need to be processed by using three assembly lines, so that the production efficiency of the junction box can be influenced.

In order to achieve the purpose, the invention provides the following technical scheme: the photovoltaic split type junction box assembling device comprises three storage devices, a working cabinet, diode breaking devices, diode feeding devices and defective product taking devices, wherein the three storage devices are distributed on the left side of the working cabinet, each storage device comprises a material arranging box and a first support frame, the material arranging boxes are fixed to the tops of the first support frames through bolts, and discharging guide rails are inserted into the outer side walls of the three material arranging boxes;

the top of the working cabinet is fixedly provided with a conveying track, a three-axis manipulator automatic feeding device, a rotary servo automatic feeding device, a diode position detection device, a hot riveting device, a diode detection station and a laser coding device through bolts, the right side wall of the working cabinet is provided with three material storage boxes, the right side wall of the conveying track is fixedly provided with three material guide plates through bolts, the three material guide plates respectively correspond to the three material storage boxes, the bottom of the conveying track is fixedly connected with the working cabinet through a positioning frame, three guide rails are arranged inside the conveying track, and the three guide rails respectively correspond to the material guide plates; the three-axis manipulator automatic feeding device and the rotary servo automatic feeding device are communicated with the conveying track through the discharging guide rail, the diode position detection device is positioned in the middle of the conveying track, the hot riveting device is positioned on the right side of the diode position detection device, the diode detection station is positioned on the right side of the hot riveting device, and the laser coding device is positioned on the right side of the diode detection station;

the diode breaking device is positioned on the rear side of the top of the working cabinet and comprises two terminal machines, a first servo material taking device and a cutting device, the two terminal machines are distributed in parallel, the first servo material taking device is fixedly connected with a terminal machine shell through a bolt, the right side wall of the first servo material taking device is connected with a clamping hand in a sliding mode, the cutting device is positioned at the bottom of the first servo material taking device, the left side wall and the right side wall of the cutting device are respectively communicated with the two terminal machines, and the clamping hand is respectively contacted with the cutting device and the conveying track through the first servo material taking device;

the diode feeding device is positioned on the right side of the top of the working cabinet and comprises a second support frame, a third support frame, a storage guide rail, a second servo material taking device, a slide rail and a diode rotary material taking device, the third support frame is welded to the top of the second support frame, an air cylinder is embedded in the top of the third support frame, the storage guide rail and the second servo material taking device are fixed to the top of the third support frame through bolts, a diode storage box is vertically placed in the material guide rail, the diode rotary material taking device is fixed to the top of the second support frame through bolts, the slide rail penetrates through the third support frame, one end of the slide rail is communicated with the second servo material taking device, and the other end of the slide rail is communicated with the diode rotary material taking device;

the defective product material taking device is fixed to the top of the working cabinet through a bolt, is located on the right side of the laser coding device and comprises a material taking servo mechanism and a storage box, and the material taking servo mechanism is in contact with the conveying track.

Preferably, the diode rotary material taking device comprises a U-shaped frame, a rotary material taking mechanical arm, a diode rotary positioning mechanism and a conveying device, wherein the rotary material taking mechanical arm is fixed on the bottom surface of the top of the U-shaped frame through a bolt, and the diode rotary positioning mechanism is sleeved on the top of the conveying device.

Preferably, the top of the material arranging box is provided with a turnover plate through a hinge.

Preferably, the diode position detection device comprises a sliding table cylinder, a detection rod and a photoelectric sensor, wherein the photoelectric sensor is inserted in the bottom of the detection rod, and the detection rod is inserted in the bottom of the sliding table cylinder and the sliding table cylinder.

Preferably, the hot riveting device comprises an electric heating tube, a hot riveting die and a gas-liquid pressure cylinder, a hot riveting needle is inserted into the bottom of the hot riveting die, the electric heating tube is embedded in the hot riveting die, and the hot riveting die is fixed to the bottom of the gas-liquid pressure cylinder through a bolt.

Compared with the prior art, the invention has the beneficial effects that: this split type terminal box assembly device of photovoltaic sets up, structural design is reasonable, installs the transportation track through the top at the work cabinet, and the transportation track can transport the positive pole, negative pole and the anodal of photovoltaic terminal box simultaneously, integrates into a processing equipment with three production water lines and processes the photovoltaic terminal box to carry out the classified collection to the photovoltaic terminal box, make the terminal box of positive pole, negative pole and anodal simultaneously processing production, and then by a wide margin improvement the production efficiency of photovoltaic terminal box.

Drawings

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

FIG. 2 is a schematic view of the structure of the storing device of the present invention;

FIG. 3 is a schematic structural view of the three-axis manipulator automatic feeding device of the present invention;

FIG. 4 is a schematic structural view of a rotary servo automatic feeding device according to the present invention;

FIG. 5 is a schematic view of the construction of the transportation rail of the present invention;

FIG. 6 is a schematic structural diagram of a diode breaking apparatus according to the present invention;

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

FIG. 8 is a schematic structural view of a hot riveting apparatus according to the present invention;

FIG. 9 is a schematic structural diagram of a diode position detecting device according to the present invention.

In the figure: the device comprises a storage device 100, a material arranging box 110, a material discharging guide rail 111, a turnover plate 112, a first support frame 120, a work cabinet 200, a transportation rail 210, a material guiding plate 211, a positioning frame 212, a guide rail 213, a three-axis manipulator automatic feeding device 220, a rotary servo automatic feeding device 230, a diode position detection device 240, a sliding table cylinder 241, a detection rod 242, a photoelectric sensor 243, a hot riveting device 250, an electric heating tube, a hot riveting die 252, a gas-liquid pressurizing cylinder 253, a hot riveting needle 254, a diode detection station 260, a laser coding device 270, a storage box 280, a diode punching device 300, a terminal machine 310, a first servo material taking device 320, a clamping hand 321, a cutting device 330, a diode feeding device 400, a second support frame 410, a third support frame 420, a cylinder 421, a storage guide rail 430, a diode storage box 431, a second servo material taking device 440, a slide rail 450 and a diode rotary material taking device 460, a U-shaped frame 461, a rotary material taking manipulator 462, a diode rotary positioning mechanism 463, a conveying device 464, a defective material taking device 500, a material taking servo mechanism 510 and a storage box 520.

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 assembling device which is used for simultaneously processing and producing a positive electrode, a negative electrode and a middle electrode so as to greatly improve the production efficiency of a photovoltaic junction box, and please refer to fig. 1-9, and the photovoltaic split type junction box assembling device comprises a material storage device 100, a work cabinet 200, a diode punching device 300, a diode feeding device 400 and a defective product taking device 500.

Referring to fig. 1-2 again, the number of the storage devices 100 is three, three storage devices 100 are distributed on the left side of the work cabinet 200, each storage device 100 includes a material arranging box 110 and a first support frame 120, the material arranging box 110 is fixed on the top of the first support frame 120 through bolts, and the outer side walls of the three material arranging boxes 110 are all inserted with the discharging guide rails 111; the three material arranging boxes 100 are respectively provided with a positive terminal box, a negative terminal box and a middle terminal box, the material arranging boxes 110 are used for arranging the terminal boxes, the discharging guide rails 111 are used for guiding the terminal boxes in the inner cavities of the material arranging boxes 110 to the conveying rails 210, and the first supporting frames 120 are used for supporting the material arranging boxes 110.

Referring to fig. 1, 3, 4, 5, 8 and 9 again, a transportation rail 210, a three-axis manipulator automatic feeding device 220, a rotary servo automatic feeding device 230, a diode position detection device 240, a hot riveting device 250, a diode detection station 260 and a laser coding device 270 are fixed on the top of the work cabinet 200 through bolts, three material storage boxes 280 are placed on the right side wall of the work cabinet 200, three material guide plates 211 are fixed on the right side wall of the transportation rail 210 through bolts, the three material guide plates 211 correspond to the three material storage boxes 280 respectively, the bottom of the transportation rail 210 is fixedly connected with the work cabinet 200 through a positioning frame 212, three guide rails 213 are arranged inside the transportation rail 210, and the three guide rails 213 correspond to the material guide plates 211 respectively; the three-axis manipulator automatic feeding device 220 and the rotary servo automatic feeding device 230 are communicated with the conveying track 210 through the discharging guide rail 111, the diode position detection device 240 is located in the middle of the conveying track 210, the hot riveting device 250 is located on the right side of the diode position detection device 240, the diode detection station 260 is located on the right side of the hot riveting device 250, and the laser coding device 270 is located on the right side of the diode detection station 260; the transportation track 210 is used for moving the terminal box from the left end to the right end and sequentially passes through the processing detection station, the three-axis manipulator automatic feeding device 220 and the rotary servo automatic feeding device 230 are used for grabbing the terminal box in the discharging guide rail 111 to 210 for storage, the diode position detection device 240 is used for detecting whether the position of the diode mounted in the terminal box reaches the standard, 250 is used for melting plastics and fixing the diode in the inside of the terminal box, the diode detection station 260 is used for detecting the diode, the laser coding device 270 is used for coding the terminal box, and the storage box 280 is used for storing the processed terminal box.

Referring to fig. 1 and 6 again, the diode breaking device 300 is located at the rear side of the top of the work cabinet 200, the diode breaking device 300 includes two terminal machines 310, a first servo material taking device 320 and a cutting device 330, the two terminal machines 310 are distributed in parallel, the first servo material taking device 320 is fixedly connected with the housing of the terminal machine 310 through a bolt, the right side wall of the first servo material taking device 320 is connected with a clamping hand 321 in a sliding manner, the cutting device 330 is located at the bottom of the first servo material taking device 320, the left side wall and the right side wall of the cutting device 330 are respectively communicated with the two terminal machines 310, and the clamping hand 321 is respectively contacted with the cutting device 330 and the transportation track 210 through the first servo material taking device 320; the first servo material taking device 320 and the gripper 321 are used for taking the diode in the diode rotary material taking device 460, the cutting device 330 is used for storing the taken diode, and the terminal machine 310 is used for punching the end of the diode in the cutting device 330.

Referring to fig. 1 and 7 again, the diode feeding device 400 is located at the right side of the top of the work cabinet 200, the diode feeding device 400 includes a second support frame 410, a third support frame 420, a storage guide rail 430, a second servo material taking device 440, a slide rail 450 and a diode rotary material taking device 460, the third support frame 420 is welded at the top of the second support frame 410, a cylinder 421 is embedded at the top of the third support frame 420, the storage guide rail 430 and the second servo material taking device 440 are fixed at the top of the third support frame 420 through bolts, a diode storage box 431 is vertically placed in the material guide rail 430, the diode rotary material taking device 460 is fixed at the top of the second support frame 410 through bolts, the slide rail 450 penetrates through the third support frame 420, one end of the slide rail 450 is communicated with the second servo material taking device 440, and the other end of the slide rail 450 is communicated with; the second support frame 410 and the third support frame 420 are used for providing support points for all parts, the air cylinder 421 is used for pushing the diode storage box 431 at the bottom into an inner cavity of the third support frame 420 to be grabbed by the second servo material fetching device 440, the storage guide rail 430 is used for orderly placing the diode storage box 431, the diode storage box 431 is used for storing diodes, the second servo material fetching device 440 is used for grabbing and transferring the diode storage box 431 onto the slide rail 450, the slide rail 450 is used for guiding the diodes into the diode rotary material fetching device 460, and the diode rotary material fetching device 460 is used for conveying the diodes into the diode breaking device 300.

Referring to fig. 1 again, the defective product pickup device 500 is fixed to the top of the work cabinet 200 by bolts, and the defective product pickup device 500 is located on the right side of the laser coding device 270, the defective product pickup device 500 includes a pickup servo 510 and a storage box 520, the pickup servo 510 is in contact with the transportation rail 210, the pickup servo 510 is used for picking up defective products, and the storage box 520 is used for storing defective products.

Referring to fig. 7, the diode rotary reclaiming device 460 includes a U-shaped frame 461, a rotary reclaiming manipulator 462, a diode rotary positioning mechanism 463 and a conveying device 464, the rotary reclaiming manipulator 462 is fixed on the bottom surface of the top of the U-shaped frame 461 through bolts, the diode rotary positioning mechanism 463 is sleeved on the top of the conveying device 464, the rotary reclaiming manipulator 462 is used for grabbing the diodes on the slide rail 450 into the diode rotary positioning mechanism 463, and the conveying device 464 conveys the diodes stored in the diode rotary positioning mechanism 463 to the first servo reclaiming device 320.

Referring to fig. 1-2 again, a folding plate 112 is mounted on the top of the material arranging box 110 through hinges, and the folding plate 112 is used for conveniently feeding and maintaining the inner cavity of the material arranging box 110.

Referring to fig. 9, the diode position detecting device 240 includes a sliding table cylinder 241, a detecting rod 242 and a photoelectric sensor 243, the photoelectric sensor 243 is inserted into the bottom of the detecting rod 242, the detecting rod 242 is inserted into the bottom of the sliding table cylinder 241, and the sliding table cylinder 241, the detecting rod 242 and the photoelectric sensor 243 are used for detecting the position of a diode placed in a terminal box running in the transportation track 210.

Referring to fig. 8 again, the hot riveting device 250 includes an electric heating tube 251, a hot riveting mold 252 and a hydraulic pressure cylinder 253, a hot riveting needle 254 is inserted into the bottom of the hot riveting mold, the electric heating tube 251 is embedded in the hot riveting mold 252, the hot riveting mold 252 is fixed to the bottom of the hydraulic pressure cylinder 253 through bolts, and the electric heating tube 251, the hot riveting mold 252, the hydraulic pressure cylinder and the hot riveting needle 254 are used for melting the top of the plastic cylinder in the junction box.

The working principle is as follows: by starting the switches of the devices, each device automatically operates under the power-on according to a preset program, the positive terminal box, the negative terminal box and the middle terminal box are respectively placed in the three material arranging boxes 110, the terminal boxes are sequentially led out through the discharging guide rail 111, the three-axis manipulator automatic feeding device 220 and the rotary servo automatic feeding device 230 grab the terminal boxes in the discharging guide rail 111 and place the terminal boxes in the conveying rail 210, the three terminal boxes move to the diode breaking device 300, at the moment, the cylinder 421 pushes the diode storage box 431 at the bottommost part to the inside of the third support frame 420, the second servo material taking device 440 grabs the diode storage box 431, the diode storage box 431 is inclined downwards, the diode storage box 431 in the diode storage box 431 slides downwards along the slide rail on the surface of the slide rail 450, and the rotary material taking manipulator 462 grabs three diodes at one time, the picked diodes are placed in a diode rotary positioning mechanism 463, the diode rotary positioning mechanism 463 enters a diode breaking device 300 along a conveying device 464, a clamping hand 321 synchronously picks three diodes in the diode rotary positioning mechanism 463, the picked diodes move to the top of a cutting device 330 along a first servo material taking device 320 and then are released, the ends of the conveyed diodes are broken by two terminal machines 310, after the diodes are broken, the clamping hand 321 picks the diodes again and moves to a conveying track 210 along the first servo material taking device 320, the three broken diodes are placed in three junction boxes respectively, a diode position detection device 240, a hot riveting device 250 and a diode detection station 260 carry out processing detection on the wires, if the diodes pass through a laser coding device 270, the laser coding device 270 codes the junction boxes, if the junction boxes are not qualified, when the junction boxes pass through the defective product taking device 500, the material taking servo mechanism 510 picks the unqualified products to the storage boxes 520, and the qualified junction boxes are sequentially guided into the corresponding storage boxes 280 through the material guide plates 211 to be stored.

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 assembly device of photovoltaic which characterized in that: the diode punching and cutting device comprises three storage devices (100), a work cabinet (200), diode punching and cutting devices (300), diode feeding devices (400) and defective product taking devices (500), wherein the three storage devices (100) are distributed on the left side of the work cabinet (200), each storage device (100) comprises a material arranging box (110) and a first support frame (120), the material arranging box (110) is fixed to the top of the first support frame (120) through bolts, and discharging guide rails (111) are inserted into the outer side walls of the three material arranging boxes (110);

a conveying track (210), a three-axis manipulator automatic feeding device (220), a rotary servo automatic feeding device (230), a diode position detection device (240), a hot riveting device (250), a diode detection station (260) and a laser coding device (270) are fixed at the top of the working cabinet (200) through bolts, three material storage boxes (280) are placed on the right side wall of the work cabinet (200), three material guide plates (211) are fixed on the right side wall of the transportation track (210) through bolts, the three material guide plates (211) respectively correspond to the three material storage boxes (280), the bottom of the transportation track (210) is fixedly connected with the work cabinet (200) through a positioning frame (212), three guide rails (213) are arranged inside the transportation track (210), and the three guide rails (213) respectively correspond to the material guide plates (211); the three-axis manipulator automatic feeding device (220) and the rotary servo automatic feeding device (230) are communicated with the conveying track (210) through the discharging guide rail (111), the diode position detection device (240) is located in the middle of the conveying track (210), the hot riveting device (250) is located on the right side of the diode position detection device (240), the diode detection station (260) is located on the right side of the hot riveting device (250), and the laser coding device (270) is located on the right side of the diode detection station (260);

the diode breaking device (300) is located on the rear side of the top of the work cabinet (200), the diode breaking device (300) comprises two terminal machines (310), a first servo material taking device (320) and a cutting device (330), the two terminal machines (310) are distributed in parallel, the first servo material taking device (320) is fixedly connected with a shell of the terminal machine (310) through a bolt, a clamping hand (321) is connected to the right side wall of the first servo material taking device (320) in a sliding mode, the cutting device (330) is located at the bottom of the first servo material taking device (320), the left side wall and the right side wall of the cutting device (330) are respectively communicated with the two terminal machines (310), and the clamping hand (321) is respectively contacted with the cutting device (330) and the transportation rail (210) through the first servo material taking device (320);

the diode feeding device (400) is positioned on the right side of the top of the working cabinet (200), the diode feeding device (400) comprises a second support frame (410), a third support frame (420), a storage guide rail (430), a second servo material taking device (440), a slide rail (450) and a diode rotary material taking device (460), the third support frame (420) is welded on the top of the second support frame (410), a cylinder (421) is embedded in the top of the third support frame (420), the storage guide rail (430) and the second servo material taking device (440) are fixed on the top of the third support frame (420) through bolts, a diode storage box (431) is vertically placed in the material guide rail (430), the diode rotary material taking device (460) is fixed on the top of the second support frame (410) through bolts, and the slide rail (450) penetrates through the third support frame (420), one end of the sliding rail (450) is communicated with a second servo material taking device (440), and the other end of the sliding rail (450) is communicated with the diode rotary material taking device (460);

the defective product material taking device (500) is fixed to the top of the working cabinet (200) through bolts, the defective product material taking device (500) is located on the right side of the laser coding device (270), the defective product material taking device (500) comprises a material taking servo mechanism (510) and a storage box (520), and the material taking servo mechanism (510) is in contact with the conveying track (210).

2. The photovoltaic split junction box assembly device of claim 1, wherein: the diode rotating material taking device (460) comprises a U-shaped frame (461), a rotating material taking mechanical arm (462), a diode rotating positioning mechanism (463) and a conveying device (464), wherein the rotating material taking mechanical arm (462) is fixed on the bottom surface of the top of the U-shaped frame (461) through a bolt, and the diode rotating positioning mechanism (463) is sleeved on the top of the conveying device (464).

3. The photovoltaic split junction box assembly device of claim 1, wherein: the top of the material arranging box (110) is provided with a turnover plate (112) through a hinge.

4. The photovoltaic split junction box assembly device of claim 1, wherein: diode position detecting device (240) include slip table cylinder (241), detect pole (242) and photoelectric sensing ware (243), photoelectric sensing ware (243) peg graft in the bottom of detecting pole (242), detect pole (242) peg graft in the bottom of slip table cylinder (241).

5. The photovoltaic split junction box assembly device of claim 1, wherein: the hot riveting device (250) comprises an electric heating pipe (251), a hot riveting die (252) and a gas-liquid pressure cylinder (253), a hot riveting needle (254) is inserted into the bottom of the hot riveting die, the electric heating pipe (251) is embedded in the hot riveting die (252), and the hot riveting die (252) is fixed to the bottom of the gas-liquid pressure cylinder (253) through bolts.