CN108655016B - Traction device of semiconductor plastic seal strip high-voltage insulation test system - Google Patents

Abstract

The invention relates to a traction device of a semiconductor plastic seal strip high-voltage insulation test system, which is characterized in that the traction device comprises a traction track, a traction sliding block is arranged on the traction track, a traction support is arranged on the traction sliding block, an upward traction lifting cylinder is arranged on the traction support, the telescopic end of the traction lifting cylinder is connected with a traction connecting frame, and a longitudinal traction mechanism and a vertical upward traction clamping cylinder are connected on the traction connecting frame. The high-voltage insulation test system for the assembled semiconductor plastic sealing strip has the advantages of realizing automatic operation, reducing labor intensity of workers, improving production efficiency and reducing production cost of enterprises.

Description

Traction device of semiconductor plastic seal strip high-voltage insulation test system

Technical Field

The invention relates to a traction device and a traction method of a semiconductor plastic seal belt high-voltage insulation test system.

Background

The traditional insulation test of semiconductor plastic envelope strip is artifical material loading and puts into test station, and artifical pressfitting tests, and artifical unloading is received the material and is collected the waste material by the manual work, inefficiency, and workman intensity of labour is big, can not realize automated production, has reduced production efficiency, has improved the manufacturing cost of enterprise. Therefore, the semiconductor plastic seal strip high-voltage insulation test system and the test method thereof for realizing automatic operation, reducing the labor intensity of workers, improving the production efficiency and reducing the production cost of enterprises are particularly important.

Disclosure of Invention

The invention aims to overcome the defects and provide the traction device of the semiconductor plastic seal strip high-voltage insulation test system, which can be assembled into the semiconductor plastic seal strip high-voltage insulation test system for realizing automatic operation, reducing the labor intensity of workers, improving the production efficiency and reducing the production cost of enterprises.

The purpose of the invention is realized in the following way:

the utility model provides a semiconductor plastic seal strip high-voltage insulation test system draw gear, its characterized in that draw gear includes the traction track, is provided with a traction sliding block on the traction track, be provided with a traction support on the traction sliding block, be provided with an ascending traction lift cylinder on the traction support, traction lift cylinder's flexible end is connected with a traction link, is connected with fore-and-aft traction mechanism and vertical ascending traction clamping cylinder on the traction link, traction mechanism includes the vertically arranged traction lever, the front end of traction lever is provided with ascending hook, the rear end of traction lever is provided with ascending kicking block, be provided with fore-and-aft fretwork department in the middle of the front section of traction lever, be provided with a swinging rod in this fretwork department, the middle part of swinging rod is articulated with the main part of traction lever of fretwork department both sides, and the upper end of swinging rod is provided with a forward gripper jaw, and the lower extreme of swinging rod is articulated with traction clamping cylinder's flexible end.

The traction sliding block is connected with a longitudinal traction belt, and the traction belt is connected with a traction motor.

The traction connecting frame comprises a transverse plate and a vertical plate arranged downwards at the front end of the transverse plate, wherein the top of the transverse plate is connected with a longitudinal traction mechanism, and the front side of the vertical plate is provided with a vertical upward traction clamping cylinder.

The traction device further comprises a longitudinal traction drag chain, the traction drag chain is connected with the longitudinal traction drag chain guide rail in a matched mode, and the free end of the traction drag chain is connected with the traction support.

The traction method of the traction device comprises the following steps:

the traction motor acts to enable the traction belt to drive the traction sliding block to the front end, at the moment, the hook is located below the rear section of the semiconductor plastic sealing strip after the testing in the testing device, the traction lifting cylinder is ejected, the hook is inserted into a gap of the rear section of the semiconductor plastic sealing strip, the traction clamping cylinder ejects to drive the swinging rod to rotate, then the clamping claw clamps the semiconductor plastic sealing strip at the end stably, then the traction motor acts to drive the traction sliding block to the rear end until the semiconductor plastic sealing strip enters a material collecting flow channel of the material collecting device, then the traction clamping cylinder is retracted, the traction lifting cylinder is retracted, the traction mechanism is lowered below the semiconductor plastic sealing strip, then the next round of traction operation is carried out, and after the semiconductor plastic sealing strip enters the material collecting device, the follow-up seal is carried out.

Compared with the prior art, the invention has the beneficial effects that:

the high-voltage insulation test system for the assembled semiconductor plastic sealing strip has the advantages of realizing automatic operation, reducing labor intensity of workers, improving production efficiency and reducing production cost of enterprises.

Drawings

Fig. 1 is a schematic diagram of a semiconductor plastic package strip high voltage insulation test system.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a schematic diagram of the cooperation of the frame and the feeding device.

Fig. 4 is a schematic view of the semiconductor plastic sealing strip in the feeding device in a low position.

Fig. 5 is a schematic diagram of two switching states of a cartridge in a loading device.

Fig. 6 is a schematic view of the semiconductor plastic sealing strip in the feeding device in a high position.

Fig. 7 is a schematic diagram of the upper structure of the feeding device.

Fig. 8 is an exploded view of fig. 7.

Fig. 9 is a schematic view of the lower structure of the feeding device.

Fig. 10 is an exploded view of fig. 9.

Fig. 11 is a schematic view of a dispensing device.

Fig. 12 is an exploded view of fig. 11.

FIG. 13 is a schematic diagram of a test apparatus.

FIG. 14 is a schematic view of a supporting mechanism of the testing device.

Fig. 15 is a schematic view of a pressing mechanism of the testing device.

Fig. 16 is an exploded view of fig. 15.

FIG. 17 is a schematic diagram of a jack up mechanism of the test apparatus.

Fig. 18 is an exploded view of fig. 17.

Fig. 19 is a schematic view of a traction device.

Fig. 20 is an exploded view of fig. 19.

Fig. 21 is a schematic view of a traction mechanism of the traction device.

Fig. 22 is a schematic view of the traction device in a traction gripping cylinder extended state.

Fig. 23 is a schematic view of the traction device in a traction gripping cylinder retracted state.

Fig. 24 is a schematic view of a receiving device.

Fig. 25 is an exploded view of fig. 24.

Fig. 26 is a schematic diagram of a unidirectional feed mechanism of the receiving device.

Fig. 27 is an exploded view of fig. 26.

Fig. 28 is a schematic view of a waste collection device.

Fig. 29 is a positional relationship diagram of the scrap collecting device and the collecting device.

Wherein:

frame 1, frame channel 101, guide bar 102, guide bar fixing base 103, and frame connecting hole 104

The feeding device 2, the feeding device frame 201, the connecting rod 202, the bin track 203, the bin moving seat 204, the bin 205, the bin fixing frame 206, the tightening cylinder seat 206.1, the tightening cylinder 206.2, the baffle rod 206.3, the tightening bolt 206.4, the bin moving limit seat 207, the vertical support 208, the feeding device servo motor 209, the feeding device supporting rod 210, the feeding device supporting seat 211, the feeding device rotating rod connecting seat 212, the feeding device rotating rod 213, the rotating connecting block 214, the lifting rod fixing seat 215, the lifting rod 216, the lifting plate 217, the gear 218 and the feeding device traversing cylinder 219

The device comprises a distributing device 3, a portal 301, a transverse guide rail 302, a distributing device drag chain installation seat 303, a distributing device motor 304, a distributing device drag chain 305, a transverse mechanism 306, a transverse mechanism limit switch 307, a distributing absorbing mechanism 308, a distributing absorbing cylinder 308.1, a distributing absorbing guide sleeve 308.2, a distributing absorbing guide rod 308.3, an upper connecting rod 308.4, a lower connecting plate 308.5 and a suction head 308.6

Test device 4, support mechanism 401, support mechanism support 401.1, test flow channel 401.2, lower insulation block 401.3, lower pressing mechanism 402, lower pressing mechanism support 402.1, lower pressing mechanism slide rail 402.2, lower pressing mechanism lifting seat 402.3, lower pressing mechanism cylinder 402.4, test board mounting seat 402.5, test board 402.6, upper insulation block 402.7, upper jacking mechanism 403, upper jacking mechanism support 403.1, upper jacking mechanism slide rail 403.2, upper jacking mechanism lifting seat 403.3, electrode seat 403.4, test electrode 403.6

Traction device 5, traction track 501, traction slider 502, traction connection 503, traction belt 504, traction motor 505, traction support 506, traction lift cylinder 507, traction connection 508, cross plate 508.1, riser 508.2, traction mechanism 509, traction bar 509.1, hook 509.2, push block 509.3, swing bar 509.4, grip pawl 509.5, traction grip cylinder 510, traction tow chain 511, traction tow chain guide 512

The material collecting device 6, the material collecting flow channel 601, the front material guiding flow channel 602, the material collecting box 603, the corner post 603.1, the front connecting plate 603.2, the rear connecting plate 603.3, the lifting mechanism 604, the lifting mechanism supporting frame 604.1, the lifting mechanism rail 604.2, the lifting mechanism sliding block 604.3, the lifting plate 604.4, the lifting mechanism cylinder 604.5, the unidirectional material distributing mechanism 605, the material distributing mechanism support 605.1, the pin shaft 605.2, the material distributing plate 605.3 and the supporting block 605.4

Waste collection device 7, waste collection frame 701, and guide plate 702

A semiconductor plastic sealing strip 8.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-29, the invention relates to a semiconductor plastic seal strip high-voltage insulation test system, which comprises a frame 1, a feeding device 2, a distributing device 3, a test device 4, a traction device 5, a receiving device 6 and a waste collection device 7; the feeding device 2, the distributing device 3, the testing device 4, the traction device 5, the receiving device 6 and the waste collecting device 7 are arranged on the frame 1;

wherein: a working method of a semiconductor plastic seal strip high-voltage insulation test system comprises the following steps:

the loading attachment 2 is used for depositing the semiconductor plastic seal strip 8 before the test, feed divider 3 is used for removing semiconductor plastic seal strip 8 in the loading attachment 2 to testing arrangement 4, testing arrangement 4 is used for the insulating test of semiconductor plastic seal strip 8, draw gear 5 is used for taking off semiconductor plastic seal strip 8 that insulating test ended from testing arrangement 4 to send into receiving device 6 with semiconductor plastic seal strip 8 that wherein satisfy insulating test requirement, and then receive the material to semiconductor plastic seal strip 8 that satisfies insulating test requirement through receiving device 6, wherein semiconductor plastic seal strip 8 that does not satisfy insulating test requirement is ejecting in order by follow-up semiconductor plastic seal strip 8 and send into waste collection device 7 and collect.

Preferably, the testing device 4, the traction device 5 and the material receiving device 6 are all provided with two groups in parallel.

The machine frame 1 is horizontally arranged, a machine frame channel 101 through which the semiconductor plastic sealing strip 8 in the feeding device 2 ascends is formed in the middle of the front section of the machine frame 1, a plurality of guide rods 102 for guiding the ascending semiconductor plastic sealing strip 8 are arranged at the inner ring of the machine frame channel 101, and the guide rods 102 are fixed on a guide rod fixing seat 103 positioned on the upper surface of the machine frame 1;

the feeding device 2 comprises a feeding device frame 201, the feeding device frame 201 is horizontally arranged below the frame 1, four upward connecting rods 202 which are uniformly arranged are arranged on the feeding device frame 201, the top ends of the four connecting rods 202 are respectively connected with four frame connecting holes 104 on the frame 1, a transverse bin track 203 is arranged on the upper surface of the feeding device frame 201, a bin moving seat 204 is arranged on the bin track 203, a bin fixing frame 206 is arranged on the bin moving seat 204, at least two bins 205 are arranged in the bin fixing frame 206 from left to right, a front side opening of the bin fixing frame 206 is provided with a bin opening tightening mechanism, the bin opening tightening mechanism comprises a tightening cylinder seat 206.1 arranged on the left side and the right side of the bin fixing frame 206, a forward tightening cylinder 206.2 is arranged on the tightening cylinder seat 206.1, a stop rod 206.3 is arranged at the front end of the tightening cylinder 206.2 towards the opening direction of the material box 205, a tightening bolt 206.4 is arranged on the stop rod 206.3, a bin moving limit seat 207 is respectively arranged on the upper surfaces of the left and right feeding device racks 201 of the bin moving seat 204, a vertical feeding device vertical bracket 208 is arranged below the feeding device racks 201, a feeding device servo motor 209 is arranged on the right side of the feeding device vertical bracket 208, a vertical feeding device supporting rod 210 is arranged on the left side of the feeding device vertical bracket 208, a feeding device supporting seat 211 on the left side is connected with the lower end of the feeding device supporting rod 210, a feeding device rotating rod connecting seat 212 is fixed on the feeding device supporting seat 211, an upward feeding device rotating rod 213 is arranged on the feeding device rotating rod connecting seat 212, a rotating connecting block 214 is sleeved on the feeding device rotating rod 213, the rotating connecting block 214 is connected with a lifting rod fixing seat 215, two lifting rods 216 are connected to the lifting rod fixing seat 215, the top ends of the two lifting rods 216 are connected with a lifting plate 217, the power output end of the servo motor 209 is in power connection with a gear 218 at the lower end of the feeding device rotating rod 213, a transverse feeding device traversing cylinder 219 is arranged below the feeding device rack 201, and the piston rod end of the feeding device traversing cylinder 219 is connected with the bottom of the stock bin moving seat 204;

the distributing device 3 comprises a portal 301 crossing the front section of the frame 1, a transverse moving guide rail 302 and a distributing device drag chain installation seat 303 are arranged on a beam of the portal 301, the distributing device drag chain installation seat 303 is positioned above the transverse moving guide rail 302, a distributing device motor 304 is arranged behind the left section of the distributing device drag chain installation seat 303, a distributing device drag chain 305 is arranged at the rear side of the distributing device drag chain installation seat 303, a transverse moving mechanism 306 capable of performing transverse moving action on the transverse moving guide rail 302 is arranged on the transverse moving guide rail 302, the distributing device motor 304 is in power connection with the transverse moving mechanism 306, the free end of the distributing device drag chain 305 is connected with the transverse moving mechanism 306, a transverse moving mechanism limit switch 307 is respectively arranged at the left section and the rear section of the front side of the portal 301, the transverse moving mechanism 306 comprises a transverse moving seat 306.1, the transverse moving seat 306.1 is in sliding connection with the transverse moving guide rail 302, the traversing seat 306.1 is connected with a drag chain 305 of the distributing device, the traversing seat 306.1 is provided with a hanging bracket 306.2 in an up-down hanging manner, the traversing mechanism 306 is provided with a distributing and sucking mechanism 308 in a down-down manner, the distributing and sucking mechanism 308 comprises an upward distributing and sucking air cylinder 308.1, two distributing and sucking guide sleeves 308.2, two distributing and sucking guide rods 308.3, an upper connecting rod 308.4, a lower connecting plate 308.5 and a plurality of sucking heads 308.6, the distributing and sucking air cylinder 308.1 is positioned in the middle part of a supporting plate of the hanging bracket 306.2, two distributing and sucking guide sleeves 308.2 are positioned at the front side and the rear side of the distributing and sucking air cylinder 308.1, the two distributing and sucking guide rods 308.3 are respectively arranged in the two distributing and sucking guide sleeves 308.2 in a penetrating manner, the upper connecting rod 308.4 is connected with the upper ends of the two distributing and sucking guide rods 308.3 and the telescopic ends of the distributing and sucking air cylinder 308.1, the lower connecting plate 308.5 is connected with the lower ends of the two distributing and sucking guide rods 308.3, a plurality of suction heads 308.6 are arranged downwards on the bottom surface of the lower connecting plate 308.5; the suction head 308.6 is connected with an air extractor;

the testing device 4 is positioned on the front section of the frame 1 and is symmetrically arranged in two groups, taking one testing device 4 on the left side as an example, the testing device 4 comprises a supporting mechanism 401, a pressing mechanism 402 and an upper pushing mechanism 403, the supporting mechanism 401 is used for supporting the semiconductor plastic sealing strip 8 entering the testing device 4, the pressing mechanism 402 is used for pressing the semiconductor plastic sealing strip 8 entering the testing device 4, and the upper pushing mechanism 403 is used for pushing the upper pushing mechanism to contact with the semiconductor plastic sealing strip 8, so that the semiconductor plastic sealing strip 8 is electrified for insulation test;

the supporting mechanism 401 comprises a supporting mechanism bracket 401.1, the supporting mechanism bracket 401.1 is fixed on the frame 1, a longitudinal testing runner 401.2 is arranged on the supporting mechanism bracket 401.1, a concave step is arranged in the middle of the testing runner 401.2, the middle of the testing runner 401.2 is hollowed out, a lower insulating block 401.3 is embedded in the testing runner 401.2, a positioning hole is arranged on the upper surface of the testing runner 401.2,

the pressing mechanism 402 includes a pressing mechanism bracket 402.1, the pressing mechanism bracket 402.1 is fixed on the rack 1, the pressing mechanism bracket 402.1 is located at the distal end of the distributing device 3, a vertical pressing mechanism sliding rail 402.2 is disposed on the pressing mechanism bracket 402.1, a pressing mechanism lifting seat 402.3 is disposed on the pressing mechanism sliding rail 402.2, the pressing mechanism lifting seat 402.3 is connected with the telescopic end of an upward pressing mechanism cylinder 402.4, the bottom of the pressing mechanism cylinder 402.4 is fixed on the rack 1, the pressing mechanism lifting seat 402.3 is connected to the right side by a connecting piece with a test board mounting seat 402.5, the bottom of the test board mounting seat 402.5 is connected with a test board 402.6, the test board 402.6 is electrically connected with a tester, an upper insulating block 402.7 is embedded in the test board 402.6 at intervals, a downward positioning needle is disposed at the bottom of the test board 402.6, and the lower insulating block 401.3 and the upper insulating block 402.7 are used for wrapping the portion of the semiconductor sealing tape 8 that should be exposed to air in the testing process;

the jacking mechanism 403 includes a jacking mechanism bracket 403.1, the jacking mechanism bracket 403.1 is fixed on the frame 1, a vertical jacking mechanism sliding rail 403.2 is arranged on the jacking mechanism bracket 403.1, a jacking mechanism lifting seat 403.3 is arranged on the jacking mechanism sliding rail 403.2, an electrode seat 403.4 is arranged on the jacking mechanism lifting seat 403.3, and a test electrode 403.6 is arranged on the electrode seat 403.4; the lifting seat 403.3 of the jacking mechanism is connected with the telescopic end of an upward cylinder 403.5 of the jacking mechanism;

the test method of the test device 4 comprises the following steps:

in a normal state, the semiconductor plastic sealing strip 8 is placed into a runner by a suction head 308.6 of the distributing device 3, after the suction head 308.6 is removed, a test plate is pressed down, positioning on the test plate is used for guiding the semiconductor plastic sealing strip 8 to be subjected to insulation test, after the test plate is pressed down, the semiconductor plastic sealing strip 8 is fully wrapped, and the semiconductor plastic sealing strip 8 forms a negative electrode;

in the pressing state, the test electrode is controlled to be propped by the cylinder 404.5 of the propping mechanism and is contacted with the pin of the semiconductor plastic sealing strip 8, after the test electrode is in place, the machine supplies a signal tester, the tester is pressurized for insulation test, under a certain parameter setting, if the semiconductor plastic sealing strip 8 is intact, the tester supplies a machine good signal, and if the semiconductor plastic sealing strip 8 is not completely encapsulated, the tester supplies a machine bad signal.

The traction device 5 comprises a traction track 501, wherein a traction sliding block 502 is arranged on the traction track 501, the traction sliding block 502 is connected with a longitudinal traction belt 504 through a traction connecting piece 503 at the bottom of the traction sliding block, the traction belt 504 is connected with a traction motor 505, a traction support 506 is arranged on the traction sliding block 502, an upward traction lifting cylinder 507 is arranged on the traction support 506, the telescopic end of the traction lifting cylinder 507 is connected with a traction connecting frame 508, the traction connecting frame 508 comprises a transverse plate 508.1 and a vertical plate 508.2 which is arranged at the front end of the transverse plate 508.1 downwards, the top of the transverse plate 508.1 is connected with a longitudinal traction mechanism 509, the front side of the vertical plate 508.2 is provided with a vertical traction clamping cylinder 510, the traction mechanism 509 comprises a traction rod 509.1 which is longitudinally arranged, the front end of the traction rod 509.1 is provided with an upward hook 509.2, the rear end of the traction rod 509.1 is provided with an upward push block 509.3, the middle of the front section of the traction rod 509.1 is provided with a longitudinal hollow rod 509, the hollow rod 509 is arranged at the middle of the front section of the traction rod 509.1, the hollow rod 509 is provided with a hollow rod 509, the hollow rod 509 is hinged with the hollow rod 509, the hollow rod 509 is arranged at the two hollow rod 4 side 4 is hinged with the hollow rod 509, and the hollow rod 509 is hinged with the hollow rod 4, and the hollow rod 509 4 is hinged with the hollow rod 4. The traction device 5 further comprises a longitudinal traction drag chain 511, the traction drag chain 511 is in matched connection with a longitudinal traction drag chain guide rail 512, and the free end of the traction drag chain 511 is connected with a traction support 506.

The traction method of the traction device 5 comprises the following steps:

the traction motor 505 acts to enable the traction belt 504 to drive the traction sliding block 502 to the front end, at the moment, the hook 509.2 is positioned below the rear section of the semiconductor plastic sealing strip 8 tested in the testing device 4, the traction lifting cylinder 507 is ejected, the hook 509.2 is inserted into a gap of the rear section of the semiconductor plastic sealing strip 8, the traction clamping cylinder 510 ejects to drive the swinging rod 509.4 to rotate, then the clamping claw 509.5 clamps the end of the semiconductor plastic sealing strip 8 stably, then the traction motor 505 acts on the traction belt 504 to drive the traction sliding block 502 to the rear end until the semiconductor plastic sealing strip 8 enters the material collecting flow channel 601 of the material collecting device 6, then the traction clamping cylinder 510 is retracted, the traction lifting cylinder 507 is retracted, the traction mechanism 509 descends below the semiconductor plastic sealing strip 8, then the next round of traction operation is carried out, and the semiconductor plastic sealing strip 8 enters the material collecting device 6 and then the subsequent material collecting operation is carried out, at the moment, if the waste material of the semiconductor plastic sealing strip 8 is not lifted in the material collecting flow channel 601 of the material collecting device 6, the traction mechanism 509.3 pushes the waste material of the semiconductor plastic sealing strip 8 to the rear end.

The material receiving device 6 is positioned on the middle section of the frame 1 and is arranged in two groups in a bilateral symmetry way, taking one material receiving device 6 on the left side as an example, the material receiving device 6 is also in a bilateral symmetry structure, the material receiving device 6 comprises a material receiving runner 601 which is longitudinally arranged in the middle, the front end of the material receiving runner 601 is connected with a front material guiding runner 602, the rear end of the material receiving runner 601 is connected with a rear material guiding runner, the front end of the front material guiding runner 602 is close to the rear end of a test runner 401.2 of the test device 4, the rear end of the material receiving runner 601 and the front end of the front material guiding runner 602 are both provided with inclined downward guiding inclined planes, a material receiving box 603 is fixed above the middle part of the material receiving runner 601, a lifting mechanism 604 for lifting a semiconductor plastic sealing strip 8 is arranged below the left side and the right side of the material receiving box 603, the material receiving box 603 comprises four corner posts 603.1 which are positioned at ninety-degree folds, a front connecting plate 603.2 is connected between the front two corner posts 603.1, the upper section between the two rear corner posts 603.1 is connected with a rear connecting plate 603.3, the inner side surfaces of the front connecting plate 603.2 and the rear connecting plate 603.3 are respectively provided with a photoelectric sensor, the lower section of the corner post 603.1 is respectively provided with a notch for the lifting mechanism 604 to act, the lifting mechanism 604 comprises a lifting mechanism supporting frame 604.1 which is respectively positioned below the outer side of the corner post 603.1, a vertical lifting mechanism rail 604.2 is arranged outside the lifting mechanism supporting frame 604.1, a lifting mechanism sliding block 604.3 is arranged on the lifting mechanism rail 604.2, the upper and lower strokes of the lifting mechanism sliding blocks 604.3 are matched with the height of the notch of the lower section of the corner post 603.1, the left side two lifting mechanism sliding blocks 604.3 and the right side two lifting mechanism sliding blocks 604.3 are respectively provided with a longitudinal lifting plate 604.4, the middle part of the lifting plate 604.4 is connected with the telescopic end of an upward lifting mechanism cylinder 604.5, the lower end of a lifting mechanism cylinder 604.5 is fixed on a frame 1, the front end, the middle section and the rear end of the inner side of a lifting plate 604.4 are respectively provided with a front lifting rod, a middle lifting rod and a rear lifting rod which are transversely inwards, the front lifting rod and the rear lifting rod are rectangular rods, the upper surface of the free end of the middle lifting rod is provided with a notch to form a step surface, the step surface is provided with a limit for the left side and the right side of a semiconductor plastic belt 8 due to the height matching of the notch corresponding to a material collecting runner 601, the front section and the rear section of the lifting plate 604.4 are respectively provided with a group of unidirectional material distributing mechanisms 605, the unidirectional material distributing mechanisms 605 comprise material distributing mechanism supports 605.1, the material distributing mechanism supports 605.1 are fixed on the upper surface of the lifting plate 604.4, the material distributing mechanism supports 605.1 are hinged with transversely inwards material distributing plates 605.3 through pin shafts 605.2, the upper surface of the material distributing plates 605.3 form a folded edge of the inner section, the folded edge is formed at the step surface for limiting the left side and the right side of the semiconductor plastic belt 8, the material distributing mechanism 605.3 is arranged in a state of supporting the material distributing blocks 605.1.3 at the moment, and the material distributing mechanism supports 605.3 are arranged in a state of being in the horizontal state for supporting the material distributing plates 653; that is, the top surface of the supporting block 605.4 is consistent with the height of the pin shaft 605.2;

the receiving method of the receiving device 6 comprises the following steps:

the tested semiconductor plastic sealing strip 8 enters a receiving flow channel 601 through a front guide flow channel 602, if the semiconductor plastic sealing strip 8 is a qualified product, a lifting mechanism cylinder 604.5 acts, a lifting mechanism cylinder 604.5 acts to enable a lifting plate 604.4 to lift, a front lifting rod, a middle lifting rod and a rear lifting rod on the lifting plate 604.4 respectively lift the front section, the middle section and the rear section of the semiconductor plastic sealing strip 8 in the receiving flow channel 601, so that the semiconductor plastic sealing strip 8 is integrally lifted, when the semiconductor plastic sealing strip 8 is lifted, the left edge and the right edge of the semiconductor plastic sealing strip 8 touch a material distributing plate 605.3 of a unidirectional material distributing mechanism 605, the material distributing plate 605.3 rotates upwards around a pin shaft 605.2 until the vertical state, the lifting plate 604.4 continues to lift until the semiconductor plastic sealing strip 8 is higher than the height of the material distributing plate 605.3, at the moment, the lifting plate 604.4 descends to the original position, the material distributing plate 605.3 also rotates downwards around a pin shaft 605.2 due to the action of gravity until the horizontal state, the semiconductor plastic sealing strip 8 is lifted until the semiconductor plastic sealing strip 8 is placed at the bottom of the upper part of the semiconductor plastic sealing strip 8, the semiconductor plastic sealing strip 8 is received until the semiconductor plastic sealing strip is required to be received at the height of the receiving box 603, and the semiconductor plastic sealing strip 8 is recovered until the semiconductor plastic sealing strip is required to be recovered at the height of a certain level; if the semiconductor plastic sealing strip 8 is not a qualified product, the lifting mechanism cylinder 604.5 does not act, and when the next semiconductor plastic sealing strip 8 is a qualified product, the lifting mechanism cylinder 604.5 acts, in the process, the unqualified semiconductor plastic sealing strip 8 is ejected backwards by the next semiconductor plastic sealing strip 8 entering the material collecting flow passage 601, and finally the unqualified semiconductor plastic sealing strip 8 is collected by the waste collecting device 7.

The waste collection device 7 is located on the frame 1 behind the material receiving device 6, the waste collection device 7 comprises a waste collection frame 701, the waste collection frame 701 is arranged on the frame 1, two groups of waste guide plates 702 are arranged in the waste collection frame 701, the two groups of waste guide plates 702 are respectively located behind a rear material guide runner of the material receiving device 6, and the waste guide plates 702 are provided with an inclined plane pointing to the right lower side, so that the semiconductor plastic sealing strip 8 waste entering the waste guide plates 702 falls into the waste collection frame 701.

The foregoing is merely a specific application example of the present invention, and the protection scope of the present invention is not limited in any way. All technical schemes formed by equivalent transformation or equivalent substitution fall within the protection scope of the invention.

Claims (3)

1. The traction device is characterized in that the traction device (5) comprises a traction track (501), a traction sliding block (502) is arranged on the traction track (501), a traction support (506) is arranged on the traction sliding block (502), an upward traction lifting cylinder (507) is arranged on the traction support (506), the telescopic end of the traction lifting cylinder (507) is connected with a traction connecting frame (508), a longitudinal traction mechanism (509) and a vertical upward traction clamping cylinder (510) are connected on the traction connecting frame (508), the traction mechanism (509) comprises a traction rod (509.1) which is longitudinally arranged, an upward hook (509.2) is arranged at the front end of the traction rod (509.1), an upward pushing block (509.3) is arranged at the rear end of the traction rod (509.1), a longitudinal hollow part is arranged in the middle of the front section of the traction rod (509.1), a swinging rod (509) is arranged in the hollow part, a clamping claw (509) is arranged at the middle part of the swinging rod (509) and at the two sides of the hollow part (509) and the upper ends (509) of the swinging rod (509) and the lower ends (38.4) of the swinging rod (509) are hinged with the telescopic claw (510); the traction sliding block (502) is connected with a longitudinal traction belt (504), and the traction belt (504) is connected with a traction motor (505); the traction connecting frame (508) comprises a transverse plate (508.1) and a vertical plate (508.2) which is arranged at the front end of the transverse plate (508.1) downwards, wherein the top of the transverse plate (508.1) is connected with a longitudinal traction mechanism (509), and a vertical upward traction clamping cylinder (510) is arranged at the front side of the vertical plate (508.2).

2. A semiconductor plastic sealing strip high-voltage insulation test system traction device according to claim 1, characterized in that the traction device (5) further comprises a longitudinal traction drag chain (511), the traction drag chain (511) is connected with a longitudinal traction drag chain guide rail (512) in a matching way, and the free end of the traction drag chain (511) is connected with a traction support (506).

3. A semiconductor plastic seal strip high voltage insulation test system traction device according to claim 1, characterized in that the traction method of the traction device (5) is as follows:

the traction motor (505) acts to enable the traction belt (504) to drive the traction sliding block (502) to the front end, at the moment, the hook (509.2) is positioned below the rear section of the semiconductor plastic sealing strip (8) tested in the testing device (4), the traction lifting cylinder (507) is ejected, the hook (509.2) is inserted into a gap of the rear section of the semiconductor plastic sealing strip (8), the traction clamping cylinder (510) ejects to drive the swinging rod (509.4) to rotate, then the clamping claw (509.5) clamps the end of the semiconductor plastic sealing strip (8) stably, then the traction motor (505) acts to drive the traction sliding block (502) to the rear end until the semiconductor plastic sealing strip (8) enters a material collecting flow channel (601) of the material collecting device (6), then the traction lifting cylinder (510) is retracted, the traction lifting cylinder (507) is retracted, the traction mechanism (509) is lowered below the semiconductor plastic sealing strip (8), then the next traction operation is carried out, and the semiconductor plastic sealing strip (8) enters the material collecting flow channel (601) of the semiconductor plastic sealing strip (6) of the subsequent material collecting device (6) if the material collecting device does not collect the semiconductor plastic sealing strip (6), the pushing block (509.3) of the traction mechanism (509) pushes the scrap of the semiconductor plastic sealing tape (8) backward.