CN115445950A - Multi-station electrical property detection equipment - Google Patents

Abstract

The invention provides multi-station electrical property detection equipment, and relates to the technical field of detection. The multi-station electrical property detection equipment comprises a rotating platform piece, a feeding assembly, an insulation detection assembly, a flatness detection assembly, a film sticking assembly and a discharging assembly; the insulation detection assembly and the flatness detection assembly are arranged on the rotating platform piece, and the feeding assembly, the film sticking assembly and the discharging assembly are arranged on the periphery of the rotating platform piece; wait to detect battery apron can be in proper order through material loading subassembly, insulation detection subassembly, roughness determine module, pad pasting subassembly and unloading subassembly. The technical effect of high working efficiency is achieved.

Description

Multi-station electrical property detection equipment

Technical Field

The invention relates to the technical field of detection, in particular to multi-station electrical property detection equipment.

Background

With the development of electric automobiles, batteries are increasingly demanded in the market. In recent years, each battery factory continuously expands the production, meets the market demand and occupies the market. The power battery occupies most of the cost of the electric automobile, and with the increase of the demand, the cost of the battery is more and more emphasized by enterprises, and the cost reduction is continuously carried out.

In order to ensure the quality and safety of the lithium battery during use, the shell cover plate and the lithium battery cell are generally required to be tested. Taking the lithium battery cover plate as an example, the insulation, flatness, etc. of the battery cover plate need to be detected.

However, in the traditional production process, the detection of the battery cover plate is mostly manual detection, and the working efficiency is low.

Therefore, it is an important technical problem to be solved by those skilled in the art to provide a multi-station electrical performance detection apparatus with high working effect.

Disclosure of Invention

The invention aims to provide multi-station electrical property detection equipment to solve the technical problem of low working efficiency in the prior art.

In a first aspect, an embodiment of the invention provides multi-station electrical performance detection equipment, which comprises a rotating platform part, a feeding assembly, an insulation detection assembly, a flatness detection assembly, a film sticking assembly and a discharging assembly, wherein the rotating platform part is arranged on the rotating platform part;

the insulation detection assembly and the flatness detection assembly are arranged on the rotating platform piece, and the feeding assembly, the film pasting assembly and the discharging assembly are arranged on the periphery of the rotating platform piece;

the battery cover plate to be detected can sequentially pass through the feeding assembly, the insulation detection assembly, the flatness detection assembly, the film pasting assembly and the discharging assembly.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the rotating platform includes a working platform, a rotating disc, and a tooling fixture;

the rotating disc is arranged on the working platform and can rotate relative to the working platform, and the axis of the working platform is superposed with the axis of the rotating disc;

and the plurality of tool fixtures are uniformly arranged on the rotating disc along the circumferential direction of the rotating disc.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the feeding assembly includes a feeding conveyor belt, a feeding X-axis moving member for transferring a to-be-detected battery cover plate to the feeding conveyor belt, and a feeding Y-axis moving member for transferring the to-be-detected battery cover plate on the feeding conveyor belt to the rotating disc;

the feeding conveyor belt is arranged on the outer side of the rotating platform piece, and the feeding X-axis moving piece and the feeding Y-axis moving piece are arranged on the outer side of the feeding conveyor belt;

the feeding X-axis moving piece and the feeding Y-axis moving piece are both provided with feeding Z-axis moving pieces, and the feeding Z-axis moving pieces are provided with feeding suckers.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the multi-station electrical performance detection apparatus further includes an industrial code reader, and the industrial code reader is disposed on the working platform and located between the feeding assembly and the insulation detection assembly.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the insulation detection component includes a positive electrode 500V insulation detection lifting slide pedestal, a negative electrode 500V insulation detection lifting slide pedestal, a 1500V insulation detection lifting slide pedestal, and a negative electrode 1500V insulation detection lifting slide pedestal;

the anode 500V insulation detection lifting slide pedestal, the cathode 500V insulation detection lifting slide pedestal, the 1500V insulation detection lifting slide pedestal and the cathode 1500V insulation detection lifting slide pedestal are uniformly arranged on the working platform along the circumferential direction of the working platform;

anodal 500V insulation detection lift slide carriage seat the negative pole 500V insulation detection lift slide carriage seat 1500V insulation detection lift slide carriage seat with all be provided with detection probe on the negative pole 1500V insulation detection lift slide carriage seat.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the flatness detection assembly includes a flatness support and a laser ranging sensor;

the flatness support is arranged on the working platform, and the two laser ranging sensors are arranged on the flatness support.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, wherein the multistation electrical performance detection apparatus further includes a puncture needle for puncturing an explosion-proof sheet on a battery cover plate to be detected, the working platform is provided with a puncture support, the puncture support is provided with a puncture lifting sliding table, and the puncture needle is arranged on the puncture lifting sliding table.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the film sticking assembly includes a film sticking support, a film supplying roller, a film stopping cylinder, a film releasing block, a film absorbing seat, a tension wheel, and a film collecting roller;

the film sticking support is arranged on the outer side of the rotating platform piece, and a film sequentially passes through the film supplying roller, the film stopping cylinder, the film stripping block, the tension wheel and the film collecting roller;

the moving end of the film stopping cylinder is provided with a film stopping block for pressing the film;

the film sticking support is provided with a film removing horizontal cylinder for driving the film removing block to move horizontally;

a film sucking horizontal cylinder is arranged on the film sticking support, a film sucking vertical cylinder is arranged on the film sucking horizontal cylinder, and the film sucking seat is arranged on the moving end of the film sucking vertical cylinder;

the film sticking support is provided with an installation seat used for installing the tensioning wheel, the tensioning wheel is provided with a tensioning support, two ends of the tensioning support are respectively provided with a guide rod, the guide rods are slidably inserted in the installation seat, one end of each of the two guide rods, which is far away from the tensioning support, is provided with an adjusting plate, the adjusting plate is provided with an adjusting hole, the installation seat is provided with an adjusting screw rod, and the adjusting screw rod penetrates through the adjusting hole and is connected with an adjusting nut so as to adjust the distance between the tensioning wheel and the installation seat;

a compression spring is sleeved on the guide rod, one end of the compression spring is abutted with the tensioning bracket, and the other end of the compression spring is abutted with the mounting seat;

and a receiving motor for driving the film receiving roller to rotate is arranged on the film sticking support.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, wherein the multi-station electrical performance detection apparatus further includes a missing patch detection unit, which includes a missing patch detection support and an optical fiber sensor;

the missed sticking detection support is arranged on the working platform;

the optical fiber sensor is arranged on the leakage paste detection support.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, where the blanking assembly includes a blanking bracket, a good-product conveying belt, a bad conveying belt, a blanking suction cup, and a bad stamping part;

the blanking support is provided with a blanking X-axis moving member, the blanking X-axis moving member is provided with a blanking Y-axis moving member, the blanking Y-axis moving member is provided with a blanking Z-axis moving member, the blanking Z-axis moving member is provided with a rotary cylinder, and the blanking sucker is arranged on the rotary cylinder;

the good product conveying belt and the bad product conveying belt are both arranged below the blanking bracket;

the defective conveying belt is provided with a cover plate which can be opened and closed;

bad part of stamping sets up on the bad conveyer belt, bad part of stamping is including the support of stamping, the Y axle moving member of stamping, the Z axle that stamps triggers and the bad part of a plurality of different grade types of stamping, the support setting of stamping is in on the bad conveyer belt, the Y axle moving member that stamps sets up on the support of stamping, Z axle that stamps triggers sets up on the Y axle moving member of stamping, it is a plurality of the setting of bad part stamping is in on the support of stamping, just the Z axle that stamps triggers is located the top of bad part stamping, so that Z axle that stamps triggers the difference the bad part stamping.

Has the advantages that:

the invention provides multi-station electrical property detection equipment which comprises a rotary platform piece, a feeding assembly, an insulation detection assembly, a flatness detection assembly, a film sticking assembly and a discharging assembly, wherein the rotary platform piece is fixed on the feeding assembly; the insulation detection assembly and the flatness detection assembly are arranged on the rotating platform piece, and the feeding assembly, the film pasting assembly and the discharging assembly are arranged on the periphery of the rotating platform piece; wait to detect battery apron can be in proper order through material loading subassembly, insulating determine module, roughness determine module, pad pasting subassembly and unloading subassembly.

Specifically, wait to detect battery apron and be transferred to the rotating platform spare on by material loading subassembly, then drive by the rotating platform spare and wait to detect battery apron and remove to insulating determine module, roughness determine module and pad pasting subassembly department in proper order to accomplish insulating detection, roughness detect and accomplish the pad pasting operation, will detect the battery apron after accomplishing by the unloading subassembly at last and carry out the unloading operation, through such setting, need not artifical the detection, improve detection efficiency.

Drawings

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

Fig. 1 is a schematic structural diagram of a multi-station electrical performance testing apparatus according to an embodiment of the present invention;

fig. 2 is a schematic view of a feeding assembly in the multi-station electrical performance testing apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a rotating platform member and an arrangement thereof in the multi-station electrical performance detection apparatus according to an embodiment of the present invention;

fig. 4 is an oblique view of a rotary platform member and an arrangement thereon in the multi-station electrical performance testing apparatus according to an embodiment of the present invention;

fig. 5 is a schematic view of a blanking assembly in the multi-station electrical performance detection apparatus provided in the embodiment of the present invention.

Icon:

100-a rotating platform member; 110-a working platform; 120-a rotating disk; 130-a tooling clamp; 131-positioning pin holes;

200-a feeding assembly; 210-a feeding conveyor belt; 220-feeding an X-axis moving part; 230-feeding Y-axis moving part; 240-feeding Z-axis moving parts; 250-feeding sucker;

300-an industrial code reader;

400-insulation detection assembly; 410-anode 500V insulation detection lifting slide pedestal; 420-cathode 500V insulation detection lifting slide pedestal; 430-1500V insulation detection lifting slide pedestal; 440-negative pole 1500V insulation detection lifting slide pedestal; 450-a detection probe;

500-a flatness detection assembly; 510-flatness support; 520-laser ranging sensor; 530-flatness slide;

610-piercing the seat; 620-pierce through the ramp; 630-a lancet;

700-a film-sticking component; 710-a film-sticking support; 720-film supply roller; 730-a membrane stopping cylinder; 731-film stop block; 732-a membrane stopping seat; 740-a stripping block; 741-a stripping horizontal cylinder; 750-a membrane suction seat; 751-a film suction horizontal cylinder; 752-suction film vertical cylinder; 760-a tension wheel; 761-mounting seat; 762-tensioning the bracket; 763-guiding rod; 764-an adjustment plate; 765-adjusting screw; 770-a film collecting roller; 771-collecting motor; 780-guide rolls; 790-missing the detection support; 791-fiber optic sensor;

800-a blanking assembly; 810-a blanking bracket; 811-blanking X-axis moving member; 812-a blanking Y-axis mover; 813-blanking Z-axis moving parts; 814-a rotary cylinder; 820-a good product conveyer belt; 830-bad conveyer belt; 840-a blanking sucker; 850-bad stamping parts; 851-stamp holder; 852-stamping the Y-axis moving member; 853-stamping Z-axis trigger; 854-sealing defective products; 860-a cover plate;

900-battery cover plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being permanently connected, detachably connected, or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

Referring to fig. 1, 2, 3, 4, and 5, an embodiment of the present invention provides a multi-station electrical performance detection apparatus, including a rotating platform 100, a feeding assembly 200, an insulation detection assembly 400, a flatness detection assembly 500, a film sticking assembly 700, and a discharging assembly 800; the insulation detection assembly 400 and the flatness detection assembly 500 are arranged on the rotating platform part 100, and the feeding assembly 200, the film pasting assembly 700 and the discharging assembly 800 are arranged on the periphery of the rotating platform part 100; the battery cover plate 900 to be detected can sequentially pass through the feeding assembly 200, the insulation detection assembly 400, the flatness detection assembly 500, the film pasting assembly 700 and the discharging assembly 800.

Specifically, wait to detect battery apron 900 and be transferred to rotating platform spare 100 by material loading subassembly 200 on, then drive by rotating platform spare 100 and wait to detect battery apron 900 and remove to insulating detection subassembly 400, roughness detection subassembly 500 and pad pasting subassembly 700 department in proper order to accomplish insulating detection, the roughness detects and accomplishes the pad pasting operation, carry out the unloading operation by the battery apron 900 after the unloading subassembly 800 will detect the completion at last, through such setting, need not artifical the detection, improve detection efficiency.

Referring to fig. 1-5, in an alternative embodiment, the rotary platform member 100 includes a work platform 110, a rotary disc 120, and a tooling fixture 130; the rotating disc 120 is arranged on the working platform 110, the rotating disc 120 can rotate relative to the working platform 110, and the axis of the working platform 110 is overlapped with the axis of the rotating disc 120; the plurality of tool holders 130 are uniformly arranged on the rotary plate 120 in the circumferential direction of the rotary plate 120.

Specifically, the working platform 110 is fixedly arranged in a factory building, the rotating disc 120 is sleeved outside the working platform 110, the rotating disc 120 can rotate relative to the working platform 110, and a rotating motor for driving the rotating disc 120 to rotate is arranged at the bottom of the working platform 110.

The rotating disc 120 is provided with a plurality of tool fixtures 130, the tool fixtures 130 are used for bearing the battery cover plate 900 to be detected, and a guide inclined plane is arranged at a notch of the tool fixtures 130, where the battery cover plate 900 to be detected is placed, and guides the battery cover plate 900 to be detected.

In addition, two positioning pin holes 131 are formed in the tooling fixture 130 to ensure the position accuracy of each tooling fixture 130 on the rotating disc 120.

Referring to fig. 1 to 5, in an alternative of the present embodiment, the feeding assembly 200 includes a feeding conveyor belt 210, a feeding X-axis moving member 220 for transferring the to-be-detected battery cover plates 900 onto the feeding conveyor belt 210, and a feeding Y-axis moving member 230 for transferring the to-be-detected battery cover plates 900 on the feeding conveyor belt 210 onto the rotating disc 120; the feeding conveyor belt 210 is arranged at the outer side of the rotating platform part 100, and the feeding X-axis moving part 220 and the feeding Y-axis moving part 230 are arranged at the outer side of the feeding conveyor belt 210; the feeding X-axis moving piece 220 and the feeding Y-axis moving piece 230 are both provided with a feeding Z-axis moving piece 240, and the feeding Z-axis moving piece 240 is provided with a feeding sucker 250.

Specifically, the battery cover plate 900 to be detected, which is conveyed by other conveyor belts, can be transferred onto the feeding conveyor belt 210 through the feeding suction cups 250 on the feeding X-axis moving member 220, then the battery cover plate 900 to be detected is transferred to the foremost end of the feeding conveyor belt 210 through the feeding conveyor belt 210, and then the battery cover plate 900 to be detected is transferred into the tooling fixture 130 on the rotating disc 120 through the feeding suction cups 250 on the feeding Y-axis moving member 230.

Wherein, material loading Z axle moving member 240 can drive material loading sucking disc 250 and reciprocate to make material loading sucking disc 250 can snatch and put down and wait to detect battery apron 900.

Referring to fig. 1 to 5, in an alternative embodiment, the multi-station electrical performance testing apparatus further includes an industrial code reader 300, and the industrial code reader 300 is disposed on the working platform 110 and located between the feeding assembly 200 and the insulation testing assembly 400.

Specifically, the industrial code reader 300 is disposed on the working platform 110, and the information of each battery cover plate 900 to be detected can be read by the industrial code reader 300, and can be used as a tracing starting point and for judging the polarity of the cover plate 860 and the polarity of the cover plate 860.

Referring to fig. 1-5, in an alternative version of this embodiment, insulation detection assembly 400 includes positive 500V insulation detection elevator slide pedestal 410, negative 500V insulation detection elevator slide pedestal 420, 1500V insulation detection elevator slide pedestal 430, and negative 1500V insulation detection elevator slide pedestal 440; the positive 500V insulation detection lifting slide pedestal 410, the negative 500V insulation detection lifting slide pedestal 420, the 1500V insulation detection lifting slide pedestal 430 and the negative 1500V insulation detection lifting slide pedestal 440 are uniformly arranged on the working platform 110 along the circumferential direction of the working platform 110; detection probes 450 are arranged on the positive electrode 500V insulation detection lifting slide pedestal 410, the negative electrode 500V insulation detection lifting slide pedestal 420, the 1500V insulation detection lifting slide pedestal 430 and the negative electrode 1500V insulation detection lifting slide pedestal 440.

Specifically, after the battery cover plate 900 to be detected finishes scanning codes, the battery cover plate is conveyed to the positive electrode 500V insulation detection lifting slide pedestal 410 by the rotating disc 120, and the detection probe 450 on the positive electrode 500V insulation detection lifting slide pedestal 410 descends to perform insulation detection on the battery cover plate 900.

In addition, after the battery cover 900 to be tested completes the positive 500V insulation detection, the battery cover 900 is conveyed to the negative 500V insulation detection lifting slide pedestal 420 by the rotating disc 120, and the detection probe 450 on the negative 500V insulation detection lifting slide pedestal 420 descends to perform insulation detection on the battery cover 900.

In addition, after the battery cover 900 to be tested completes the negative 500V insulation detection, the battery cover 900 is conveyed to the negative 500V insulation detection lifting slide pedestal 420 by the rotating disc 120, and the detection probe 450 on the negative 500V insulation detection lifting slide pedestal 420 descends to perform insulation detection on the battery cover 900.

In addition, after the battery cover 900 to be tested completes the negative 500V insulation detection, the battery cover 900 is transferred to the positive 500V insulation detection lifting slide pedestal 410 by the rotating disc 120, and the detection probe 450 on the positive 500V insulation detection lifting slide pedestal 410 descends to perform the insulation detection on the battery cover 900.

Referring to fig. 1-5, in an alternative version of the present embodiment, the flatness detection assembly 500 includes a flatness support 510 and a laser range sensor 520; the flatness support 510 is disposed on the work platform 110, and two laser ranging sensors 520 are disposed on the flatness support 510.

Specifically, after the battery cover plate 900 to be detected completes insulation detection, the battery cover plate is conveyed to the flatness support 510 by the rotating disc 120, and then the laser ranging sensor 520 on the flatness support 510 detects the flatness of the battery cover plate 900 to be detected.

Wherein, the flatness support 510 can be arranged on the flatness sliding table 530, so that the laser ranging sensor 520 can perform flatness detection on the surface of the battery cover plate 900 to be detected.

Referring to fig. 1 to 5, in an alternative of this embodiment, the multi-station electrical performance detection apparatus further includes a piercing needle 630 for piercing an explosion-proof sheet on the battery cover plate 900 to be detected, the work platform 110 is provided with a piercing support 610, the piercing support 610 is provided with a piercing lifting sliding table 620, and the piercing needle 630 is provided on the piercing lifting sliding table 620.

Specifically, after the flatness detection of the battery cover plate 900 to be detected is completed, the battery cover plate is conveyed to the piercing support 610 by the rotating disc 120, and then the piercing lifting sliding table 620 on the piercing support 610 drives the piercing needle 630 to descend, so that the piercing needle 630 can pierce the explosion-proof sheet on the battery cover plate 900 to be detected.

Referring to fig. 1-5, in an alternative of the present embodiment, a film sticking assembly 700 includes a film sticking support 710, a film supply roller 720, a film stopping cylinder 730, a film stripping block 740, a film absorbing support 750, a tension wheel 760 and a film absorbing roller 770; the film sticking support 710 is arranged on the outer side of the rotating platform member 100, and the film sticking passes through a film supplying roller 720, a film stopping cylinder 730, a film stripping block 740, a tension wheel 760 and a film collecting roller 770 in sequence; a moving end of the film stopping cylinder 730 is provided with a film stopping block 731 for pressing the film; a film removing horizontal cylinder 741 for driving the film removing block 740 to horizontally move is arranged on the film sticking support 710; a film suction horizontal cylinder 751 is arranged on the film sticking support 710, a film suction vertical cylinder 752 is arranged on the film suction horizontal cylinder 751, and a film suction seat 750 is arranged on the moving end of the film suction vertical cylinder 752; the film sticking support 710 is provided with an installation seat 761 for installing a tension wheel 760, the tension wheel 760 is provided with a tension bracket 762, two ends of the tension bracket 762 are respectively provided with a guide rod 763, the guide rods 763 are slidably inserted into the installation seat 761, one end of each of the two guide rods 763, which is far away from the tension bracket 762, is provided with an adjusting plate 764, the adjusting plate 764 is provided with an adjusting hole, the installation seat 761 is provided with an adjusting screw 765, and the adjusting screw 765 penetrates through the adjusting hole and is connected with an adjusting nut so as to adjust the distance between the tension wheel 760 and the installation seat 761; a compression spring is sleeved on the guide rod 763, one end of the compression spring is abutted with the tensioning bracket 762, and the other end of the compression spring is abutted with the mounting seat 761; the film sticking support 710 is provided with a material receiving motor 771 for driving the film receiving roller 770 to rotate.

Specifically, after the battery cover plate 900 to be detected completes the piercing process, the film is conveyed to the film sticking support 710 by the rotating disc 120, then the material receiving motor 771 drives the film receiving roller 770 to rotate, then the film supplying roller 720 is driven to rotate by each guide roller 780, then the film absorbing seat 750 is driven by the film absorbing horizontal cylinder 751 and the film absorbing vertical cylinder 752 to move to the film removing block 740, the film absorbing seat 750 can absorb the sticking film, then the film removing horizontal cylinder 741 drives the film removing block 740 to move horizontally, so that the film removing is completed, then the film absorbing horizontal cylinder 751 and the film absorbing vertical cylinder 752 drive the film absorbing seat 750 to move to the tooling clamp 130 on the rotating disc 120, and then the sticking film on the film absorbing seat 750 is attached to the explosion-proof sheet on the battery cover plate 900 to be detected.

It should be noted that, the worker can adjust the position of the adjusting screw 765 relative to the adjusting plate 764 by adjusting the adjusting nut, so that the position of the mounting seat 761 relative to the adjusting plate 764 is fixed on the tensioning bracket 762 by the mounting seat 761, i.e., the position of the tensioning wheel 760 on the tensioning bracket 762 relative to the adjusting plate 764 can be adjusted. Further, a compression spring is fitted around the guide bar 763, and the tension roller 760 can be held in contact with the guide roller 780, thereby adjusting the tension of the film.

The film stopping cylinder 730 can drive the film stopping block 731 to move, and the film stopping block 731 can tightly press the film against the film stopping seat 732, so that the film cannot be conveyed downwards continuously.

Wherein, the pad pasting is attached on the membrane area, and the membrane area is used for bearing the pad pasting, and the membrane area can be in proper order through supplying membrane roller 720, stopping membrane cylinder 730, demoulding piece 740, take-up pulley 760 and receiving membrane roller 770.

Referring to fig. 1-5, in an alternative embodiment, the multi-station electrical performance testing apparatus further includes a missing patch detector including a missing patch detection support 790 and an optical fiber sensor 791; the missed paste detection support 790 is arranged on the working platform 110; the optical fiber sensor 791 is provided on the missing patch detection support 790.

Specifically, after the battery cover plate 900 to be detected is subjected to film pasting, the film is conveyed to the missed pasting detection support 790 by the rotating disc 120, and then the optical fiber sensor 791 can detect whether the film is pasted on the battery cover plate 900 to be detected.

Referring to fig. 1 to 5, in an alternative of this embodiment, the blanking assembly 800 includes a blanking bracket 810, a good product conveyor belt 820, a bad product conveyor belt 830, a blanking suction cup 840, and a bad stamping part 850; the blanking support 810 is provided with a blanking X-axis moving part 811, the blanking X-axis moving part 811 is provided with a blanking Y-axis moving part 812, the blanking Y-axis moving part 812 is provided with a blanking Z-axis moving part 813, the blanking Z-axis moving part 813 is provided with a rotary cylinder 814, and the blanking sucker 840 is arranged on the rotary cylinder 814; the good product conveyer belt 820 and the bad product conveyer belt 830 are both arranged below the blanking bracket 810; the bad conveying belt 830 is provided with a cover plate 860 which can be opened and closed; bad stamping piece 850 sets up on bad conveyer belt 830, bad stamping piece 850 is including the support 851 of stamping, Y axle moving piece 852 of stamping, Z axle trigger 853 of stamping and the bad product of a plurality of different grade types 854, support 851 of stamping sets up on bad conveyer belt 830, Y axle moving piece 852 of stamping sets up on support 851 of stamping, Z axle trigger 853 of stamping sets up on Y axle moving piece 852 of stamping, a plurality of bad product stamping 854 sets up on support 851 of stamping, and Z axle trigger 853 of stamping is located the top of bad product stamping 854, so that Z axle trigger 853 of stamping triggers different bad product stamping 854.

Specifically, the blanking X-axis moving member 811, the blanking Y-axis moving member 812, the blanking Z-axis moving member 813, and the rotary cylinder 814 can realize the movement of the blanking sucker 840 in multiple directions of rotation of the X-axis, the Y-axis, the Z-axis, and the Z-axis, so that the blanking sucker 840 can transfer the detected battery cover 900 to the non-defective product conveyor belt 820 or the defective product conveyor belt 830.

Wherein, after the unqualified back of being transferred to bad conveyer belt 830 of battery apron 900, the bad piece 850 of stamping on the bad conveyer belt 830 can be stamped unqualified battery apron 900 to each unqualified reason of battery apron 900 in surface, and be provided with apron 860 on bad conveyer belt 830, apron 860 can be sheltered from the battery apron 900 after bad piece 850 of stamping changes the seal, avoids the staff to mix unqualified battery apron 900 in the qualified battery apron 900 when the unloading.

Wherein, when needs are stamped, Y axle moving member 852 of stamping can drive Z axle trigger 853 horizontal migration of stamping to the top of defective products stamp 854, then Z axle trigger 853 of stamping can descend and trigger defective products stamp 854 to make defective products stamp 854 stamp unqualified battery apron 900.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the scope of the embodiments of the present invention in nature.

Claims (10)

1. A multistation electrical property check out test set, characterized in that includes: the device comprises a rotary platform piece (100), a feeding assembly (200), an insulation detection assembly (400), a flatness detection assembly (500), a film pasting assembly (700) and a discharging assembly (800);

the insulation detection assembly (400) and the flatness detection assembly (500) are arranged on the rotating platform piece (100), and the feeding assembly (200), the film sticking assembly (700) and the discharging assembly (800) are arranged on the periphery of the rotating platform piece (100);

the battery cover plate (900) to be detected can sequentially pass through the feeding assembly (200), the insulation detection assembly (400), the flatness detection assembly (500), the film pasting assembly (700) and the discharging assembly (800).

2. The multi-station electrical performance detection apparatus according to claim 1, wherein the rotary platform member (100) includes a work platform (110), a rotary disc (120), and a tooling clamp (130);

the rotating disc (120) is arranged on the working platform (110), the rotating disc (120) can rotate relative to the working platform (110), and the axis of the working platform (110) is overlapped with the axis of the rotating disc (120);

the plurality of tool fixtures (130) are uniformly arranged on the rotating disc (120) along the circumferential direction of the rotating disc (120).

3. The multistation electrical performance detection apparatus according to claim 2, wherein the feeding assembly (200) comprises a feeding conveyor belt (210), a feeding X-axis moving member (220) for transferring the battery cover plates (900) to be detected to the feeding conveyor belt (210), and a feeding Y-axis moving member (230) for transferring the battery cover plates (900) to be detected on the feeding conveyor belt (210) to the rotating disc (120);

the feeding conveyor belt (210) is arranged on the outer side of the rotating platform piece (100), and the feeding X-axis moving piece (220) and the feeding Y-axis moving piece (230) are arranged on the outer side of the feeding conveyor belt (210);

the feeding X-axis moving piece (220) and the feeding Y-axis moving piece (230) are both provided with a feeding Z-axis moving piece (240), and the feeding Z-axis moving piece (240) is provided with a feeding sucker (250).

4. The multi-station electrical performance testing apparatus according to claim 2, further comprising an industrial code reader (300), wherein the industrial code reader (300) is disposed on the working platform (110) between the feeding assembly (200) and the insulation testing assembly (400).

5. The multi-station electrical performance testing apparatus according to claim 2, wherein the insulation testing assembly (400) comprises a positive 500V insulation testing lift slide pedestal (410), a negative 500V insulation testing lift slide pedestal (420), a 1500V insulation testing lift slide pedestal (430), and a negative 1500V insulation testing lift slide pedestal (440);

the positive 500V insulation detection lifting slide pedestal (410), the negative 500V insulation detection lifting slide pedestal (420), the 1500V insulation detection lifting slide pedestal (430) and the negative 1500V insulation detection lifting slide pedestal (440) are uniformly arranged on the working platform (110) along the circumferential direction of the working platform (110);

anodal 500V insulation detection lift slide pedestal (410), negative pole 500V insulation detection lift slide pedestal (420) 1500V insulation detection lift slide pedestal (430) and negative pole 1500V insulation detection all is provided with on the lift slide pedestal (440) and detects probe (450).

6. The multi-station electrical performance detection apparatus according to claim 2, wherein the flatness detection assembly (500) includes a flatness support (510) and a laser ranging sensor (520);

the flatness support (510) is arranged on the working platform (110), and two laser ranging sensors (520) are arranged on the flatness support (510).

7. The multistation electrical performance detection apparatus according to claim 2, further comprising a puncture needle (630) for puncturing an explosion-proof sheet on a battery cover plate (900) to be detected, wherein a puncture support (610) is arranged on the working platform (110), a puncture lifting sliding table (620) is arranged on the puncture support (610), and the puncture needle (630) is arranged on the puncture lifting sliding table (620).

8. The multi-station electrical performance detection equipment according to claim 2, wherein the film sticking assembly (700) comprises a film sticking support (710), a film supply roller (720), a film stopping air cylinder (730), a film stripping block (740), a film absorbing seat (750), a tension wheel (760) and a film collecting roller (770);

the film sticking support (710) is arranged on the outer side of the rotating platform piece (100), and a film is stuck to the film sequentially through the film supplying roller (720), the film stopping cylinder (730), the film stripping block (740), the tension wheel (760) and the film collecting roller (770);

a film stopping block (731) used for pressing the film is arranged at the moving end of the film stopping cylinder (730);

a film removing horizontal cylinder (741) for driving the film removing block (740) to horizontally move is arranged on the film sticking support (710);

a film absorbing horizontal cylinder (751) is arranged on the film sticking support (710), a film absorbing vertical cylinder (752) is arranged on the film absorbing horizontal cylinder (751), and the film absorbing seat (750) is arranged on the moving end of the film absorbing vertical cylinder (752);

the film sticking support (710) is provided with an installation seat (761) for installing the tension wheel (760), the tension wheel (760) is provided with a tension support (762), two ends of the tension support (762) are respectively provided with a guide rod (763), the guide rods (763) are slidably inserted into the installation seat (761), one ends of the two guide rods (763) far away from the tension support (762) are provided with an adjusting plate (764), the adjusting plate (764) is provided with an adjusting hole, the installation seat (761) is provided with an adjusting screw (765), and the adjusting screw (765) penetrates through the adjusting hole and is connected with an adjusting nut so as to adjust the distance between the tension wheel (760) and the installation seat (761);

a compression spring is sleeved on the guide rod (763), one end of the compression spring is abutted with the tensioning bracket (762), and the other end of the compression spring is abutted with the mounting seat (761);

the film sticking support (710) is provided with a material receiving motor (771) used for driving the film receiving roller (770) to rotate.

9. The multistation electrical performance inspection apparatus according to claim 2, further comprising a missing patch detector comprising a missing patch detection support (790) and an optical fiber sensor (791);

the leakage sticking detection support (790) is arranged on the working platform (110);

the optical fiber sensor (791) is arranged on the leakage paste detection support (790).

10. The multi-station electrical performance detection equipment according to claim 8, wherein the blanking assembly (800) comprises a blanking bracket (810), a good product conveyer belt (820), a bad product conveyer belt (830), a blanking sucker (840) and a bad stamping part (850);

a blanking X-axis moving member (811) is arranged on the blanking support (810), a blanking Y-axis moving member (812) is arranged on the blanking X-axis moving member (811), a blanking Z-axis moving member (813) is arranged on the blanking Y-axis moving member (812), a rotary cylinder (814) is arranged on the blanking Z-axis moving member (813), and the blanking sucker (840) is arranged on the rotary cylinder (814);

the good product conveying belt (820) and the bad product conveying belt (830) are arranged below the blanking bracket (810);

a cover plate (860) capable of being opened and closed is arranged on the defective conveying belt (830);

the bad stamping part (850) is arranged on the bad conveying belt (830), the bad stamping part (850) comprises a stamping support (851), a stamping Y-axis moving part (852), a stamping Z-axis triggering part (853) and a plurality of bad stamping parts (854) of different types, the stamping support (851) is arranged on the bad conveying belt (830), the stamping Y-axis moving part (852) is arranged on the stamping support (851), the stamping Z-axis triggering part (853) is arranged on the stamping Y-axis moving part (852), the defective stamping parts (854) are arranged on the stamping support (851), and the stamping Z-axis triggering part (853) is located above the bad stamping parts (854), so that the stamping Z-axis triggering part (853) triggers the different bad stamping parts (854).

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