CN202717072U - Capacitor shaping packer - Google Patents

Capacitor shaping packer Download PDF

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Publication number
CN202717072U
CN202717072U CN 201220320206 CN201220320206U CN202717072U CN 202717072 U CN202717072 U CN 202717072U CN 201220320206 CN201220320206 CN 201220320206 CN 201220320206 U CN201220320206 U CN 201220320206U CN 202717072 U CN202717072 U CN 202717072U
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CN
China
Prior art keywords
cylinder
electric capacity
roller
fixed
fork
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN 201220320206
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Chinese (zh)
Inventor
王燕清
宋跃勇
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Wuxi Lead Auto Equipment Co Ltd
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Wuxi Lead Auto Equipment Co Ltd
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Priority to CN 201220320206 priority Critical patent/CN202717072U/en
Application granted granted Critical
Publication of CN202717072U publication Critical patent/CN202717072U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to a capacitor shaping packer, which is characterized by comprising a vibrating disk, a delivery mechanism, a longitudinal pushing mechanism, a longitudinal shaping mechanism, a transverse pushing mechanism, a transverse shaping mechanism, a cutting mechanism, a conveying mechanism, a capacitor arranging mechanism, a capacitor kit pushing mechanism and a capacitor kit conveying mechanism. Capacitors are fed in a vibrating way through the vibrating disk, capacitor leads are longitudinally and transversely shaped by the longitudinal shaping mechanism and the transverse shaping mechanism and are cut off by the cutting mechanism, the capacitors are arranged by the capacitor arranging mechanism, the arranged capacitors are pushed into an empty capacitor kit on the capacitor kit conveying mechanism, and the full capacitor kit is conveyed by the capacitor kit conveying mechanism. The capacitor shaping packer can shape, cut off and pack the capacitors organically, and the production efficiency is improved.

Description

Electric capacity shaping wrapping machine
Technical field
The utility model relates to a kind of electric capacity shaping wrapping machine, specifically a kind ofly realize the capacitor vibration material loading, capacitance leading wire is carried out vertical shaping and laterally shaping, capacitance leading wire is cut off, arranges electric capacity and the electric capacity of arranging is pushed in the empty capacitor box, the equipment that fuller capacitor box is transferred out belongs to electric capacity manufacturing technology field.
Background technology
After the electric capacity manufacturing is complete, need neat being arranged in the capacitor box of electric capacity, and after electric capacity made, capacitance leading wire is rule not too, and length is not too consistent, so need capacitance leading wire shaping, cutting, then pack in the capacitor box, electric capacity shaping, cut-out capacitance leading wire, packing electric capacity were separately realized action often in the past, and do not realize integrated action, electric capacity shaping packing work efficient is low.
Summary of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of electric capacity shaping wrapping machine is provided, and it can realize electric capacity shaping, cut-out, packing one body action are enhanced productivity.
The technical scheme that provides according to the utility model: electric capacity shaping wrapping machine, it is characterized in that: involving vibrations dish, connecting gear, vertical propelling movement are expected mechanism, vertical reshaping device, crosswise pushing material mechanism, horizontal reshaping device, cutting mechanism, conveying mechanism, arrangement capacitor mechanism, are pushed away capacitor box mechanism and transmission capacitor box mechanism, described vibrating disk is used for realizing the automatic charging of electric capacity, and electric capacity is delivered to connecting gear through vibrating disk; Described connecting gear is installed on the erecting frame, electric capacity is delivered to vertical propelling movement material mechanism through connecting gear, the electric capacity transfer passage entrance location place of described vertical propelling movement material mechanism is provided with first sensor, when the electric capacity that transmits is run into first sensor, vertically push the material mechanism action, make electric capacity become longitudinal movement by former cross motion; Described vertical reshaping device is arranged on vertical propelling movement material mechanism side, and vertically reshaping device is installed on the erecting frame, the electric capacity of carrying by vertical propelling movement material mechanism process under vertical reshaping device, and vertically reshaping device carries out shaping to capacitor pin; Described crosswise pushing material mechanism is installed on the erecting frame, the electric capacity transfer passage import of crosswise pushing material mechanism links to each other in turn with the electric capacity transfer passage outlet of vertical propelling movement material mechanism, the electric capacity transfer passage inflow point of crosswise pushing material mechanism is provided with the second sensor, when the electric capacity that transmits is run into the second sensor, crosswise pushing material mechanism action makes electric capacity become cross motion by former longitudinal movement again; Described horizontal reshaping device is arranged on crosswise pushing material mechanism side, and laterally reshaping device is installed on the erecting frame, the electric capacity of carrying by crosswise pushing material mechanism process under the horizontal reshaping device, and laterally reshaping device carries out horizontal shaping to electric capacity; Described cutting mechanism is arranged on crosswise pushing material mechanism's side and is positioned at after the described horizontal reshaping device, cutting mechanism is installed on the erecting frame, the electric capacity of electric capacity after horizontal shaping of carrying by crosswise pushing material mechanism passes through under cutting mechanism, cutting mechanism cuts capacitor pin, and cut pin is taken away by air suctiton ventilator; The electric capacity transfer passage import of described conveying mechanism is connected with the outlet of the electric capacity transfer passage of crosswise pushing material mechanism, the electric capacity of well cutting is delivered on the conveying mechanism under the effect of crosswise pushing material mechanism, and electric capacity is being transported under the conveying mechanism effect on the arrangement capacitor mechanism; Described arrangement capacitor mechanism is installed on the frame, arranges capacitor mechanism electric capacity is arranged, and the electric capacity that arranges is transported in the empty capacitor box that transmits in the capacitor box mechanism; The described capacitor box mechanism that pushes away is installed on the frame, pushes away capacitor box mechanism and is used for empty capacitor box is positioned, and realizes that simultaneously will expire the electric capacity magazine shifts next station onto; Described transmission capacitor box mechanism is installed on the frame, realizes on the one hand carrying empty capacitor box function, realizes on the one hand that in addition will expire the electric capacity magazine pushes on the capacitor box output track.
As further improvement of the utility model, described connecting gear comprises the first roller shaft, the first gear, the second gear, motor, the 3rd gear, the 4th gear, the second roller shaft, the first set screw, bearing seat, adjustable guide plate, the second set screw, adjustable live roller, live roller, fixed guide plate, gear case, case lid, contiguous block, the first spring, pinch roller, the second spring, nut, anchor shaft, supporting seat and permanent seat; Motor is fixedly mounted on the gear case, and the 3rd gear is installed on the output shaft of motor; The second gear is arranged on the 3rd gear side, and the second gear is installed on the anchor shaft by bearing, and described anchor shaft is fixedly mounted in the gear case, and the second gear is meshed with the 3rd gear; Described case lid is provided with for the long arc-shaped holes that the second roller shaft is installed, and the second roller shaft is installed on the case lid by bearings, and the 4th gear is fixedly mounted on the second roller shaft lower end, and the 4th gear is meshed with the 3rd gear; Described bearing seat one end is installed on the permanent seat by bearing, the bearing seat other end is installed on the second roller shaft, contiguous block is fixed on the described bearing seat, described the first set screw spiral shell is contained on the gear case, the inner of the first set screw is threaded with described contiguous block, regulate that the first set screw can drive contiguous block and bearing seat swings around permanent seat, move along long arc-shaped holes thereby drive the second roller shaft, be installed in parts on the second roller shaft also along with synchronizing moving; Be fixed with screw on the described bearing seat, the first spring one end is connected with screw on the bearing seat, and the first spring other end is connected with screw on being fixed on gear case; Described the first roller shaft is installed in the supporting seat by bearing, and supporting seat is fixed on the case lid, and the first gear is installed in the first roller shaft lower end, and the first gear is meshed with the second gear; Described live roller is fixedly mounted on the first roller shaft by bearing, described adjustable live roller is fixedly mounted on the second roller shaft by bearing, also be set with the second spring and difference mounting nuts on described the first roller shaft, the second roller shaft, the second spring one end limits by nut, and the second spring other end withstands the pinch roller that compresses live roller, adjustable live roller top; Described adjustable guide plate and fixed guide plate are arranged on the case lid top and are parallel to each other, and adjustable guide plate and fixed guide plate are the electric capacity transfer passages; The second set screw is installed on the case lid, and the second set screw is threaded with adjustable guide plate, regulates the second set screw and can drive adjustable guide plate and move, thereby change distance between adjustable guide plate and the fixed guide plate.
As further improvement of the utility model, described vertical propelling movement material mechanism comprises vertical pusher cylinder and two longitudinally guiding plates, two longitudinally guiding plates be arranged in parallel and are fixedly mounted on the erecting frame, the electric capacity transfer passage between two longitudinally guiding plates, described vertical pusher cylinder is arranged on over against the position of electric capacity transfer passage import, and vertically the rod end of pusher cylinder is equipped with for the pushing head that pushes electric capacity;
Described vertical reshaping device comprises the first fork, joint, cylinder, riser, the second fork, slide block, take-up housing, dressing stick, correction module, anchor shaft, connecting panel, set screw and L-type seat; The L-type seat is across vertically pushing two longitudinally guiding plates in the material mechanism and being fixedly mounted on the erecting frame, and set screw is threaded in L-type seat top, and riser is threaded with set screw by the contiguous block at its rear portion; Cylinder is fixedly mounted on the riser, the rod end of cylinder is equipped with joint, have the waist hole on one end of described the first fork, the second fork, the first fork, the second fork one end are by being contained in axle and bearing and the joint hinge in the described waist hole, described the first fork, the second fork are L shaped, the middle kink of described the first fork, the second fork is installed on two anchor shafts by bearing respectively, two anchor shafts are fixedly mounted on the riser, and the piston rod of cylinder can drive the first fork when flexible, the second fork swings around anchor shaft; Described the first fork, the second fork other end are hinged with a slide block respectively, and slide block and take-up housing consist of moving sets, and described take-up housing is fixed on the riser, and the first fork, the second fork are with movable slider to move along take-up housing when anchor shaft swings; Described dressing stick has two, two dressing sticks are oppositely arranged, be separately fixed on two slide blocks, described correction module is arranged between two dressing sticks, correction module is fixed on connecting panel, connecting panel is fixed on the riser, and described correction module and dressing stick cooperatively interact, and the pin of electric capacity is carried out vertical shaping.
As further improvement of the utility model, described crosswise pushing material mechanism comprises horizontal pusher cylinder and two transverse guide fences, two transverse guide fences be arranged in parallel and are fixedly mounted on the erecting frame, the electric capacity transfer passage between two transverse guide fences, described horizontal pusher cylinder is arranged on over against the position of electric capacity transfer passage import, and laterally the rod end of pusher cylinder is equipped with for the pushing head that pushes electric capacity;
Described horizontal reshaping device comprises the first fork, joint, cylinder, riser, the second fork, slide block, take-up housing, dressing stick, anchor shaft, set screw and L-type seat; The L-type seat is across two transverse guide fences in the crosswise pushing material mechanism and be fixedly mounted on the erecting frame, and set screw is threaded in L-type seat top, and riser is threaded with set screw by the contiguous block at its rear portion; Cylinder is fixedly mounted on the riser, the rod end of cylinder is equipped with joint, described joint respectively with the first fork, one end of the second fork is hinged by axle and bearing, described the first fork, the second fork is L shaped, described the first fork, the middle kink of the second fork is installed on two anchor shafts by bearing respectively, two anchor shafts are fixedly mounted on the riser, the piston rod of cylinder can drive the first fork when flexible, the second fork swings around anchor shaft, described the first fork, the second fork other end is hinged with a slide block respectively, slide block and take-up housing consist of moving sets, described take-up housing is fixed on the riser, the first fork, the second fork is with movable slider to move along take-up housing when anchor shaft swings; Described dressing stick has two, and two dressing sticks are oppositely arranged, and is separately fixed on two slide blocks, and two dressing sticks cooperatively interact, and electric capacity is carried out horizontal shaping.
As further improvement of the utility model, described cutting mechanism comprises movable tool rest, pressing plate, Connection Block, cutting knife, cylinder block, cylinder push pedal, joint, cylinder, positioning guide rail, right angle seat, set screw, Immovable support and exhaust column; The right angle seat is fixed on the erecting frame, and described set screw is threaded on the right angle seat, and set screw is threaded with cylinder block, and cylinder block is fixed on the Connection Block; Described Immovable support is fixed on the Connection Block, and exhaust column is fixed on the Immovable support, and cutting knife is fixed on the exhaust column; Described cylinder is fixedly mounted on the cylinder block, the rod end of the cylinder joint that is spirally connected, described joint and cylinder push pedal are hinged, be connected by spring between cylinder push pedal and the pressing plate, pressing plate is arranged in the movable tool rest and with movable tool rest and consists of moving sets, described movable tool rest matches with cutting knife, is used for cutting off the pin of electric capacity; Described movable tool rest is fixed on the slide block, and slide block consists of moving sets with the positioning guide rail that is fixed on the right angle seat leading flank.
As further improvement of the utility model, described conveying mechanism comprises the first roller, load-transfer device, the second roller, motor, driving wheel, the 3rd roller, the 4th roller, deflector apron and stay bearing plate; Two deflector aprons are arranged in parallel and are fixed on the stay bearing plate, are the electric capacity transfer passages between two deflector aprons; Motor is arranged under the stay bearing plate, on the output shaft of motor driving wheel is installed, the first roller, the 4th roller are separately positioned on the two ends of two deflector aprons, the second roller, the 3rd roller are separately positioned on the both sides of driving wheel top, described load-transfer device is on the first roller, the second roller, driving wheel, the 3rd roller and the 4th roller, and load-transfer device is corresponding to the electric capacity transfer passage between two deflector aprons.
As further improvement of the utility model, described arrangement capacitor mechanism comprises the first cylinder, the first push pedal, roller, the second push pedal, the second cylinder, the 3rd push pedal, the 3rd cylinder, slide block, four-cylinder, the 4th push pedal, deck plate, roller shaft, connecting panel, cliding seat, First Line rail, the second line rail and the 3rd line rail; Offer roller mounting slot on the described deck plate, described roller mounting slot is equipped with a row roller by the roller shaft support over against the electric capacity transfer passage outlet of conveying mechanism in the roller mounting slot, and the electric capacity that transports from conveying mechanism is arranged on the roller; Described the first cylinder is arranged on the roller mounting slot left side, the first cylinder is fixed on the deck plate, the rod end of the first cylinder connects the first push pedal, the electric capacity that the first push pedal is used for will being arranged on the roller is pushed the right side to, described the first push pedal is fastened on the slide block of First Line rail, and the First Line rail is fixedly mounted on the deck plate; Described the second cylinder, the 3rd cylinder are arranged on the roller mounting slot right side, the second cylinder and the first cylinder vis-a-vis, the second cylinder is fixed on the deck plate, the rod end of the second cylinder connects the second push pedal, the second push pedal is used for the position of restriction right side one column capacitance, described the second push pedal is fastened on the slide block of the second line rail, and the second line rail is fixedly mounted on the deck plate; Described cliding seat is arranged on the deck plate below, cliding seat is fixedly connected on the deck plate by connecting panel, cliding seat is provided with the slide block with its formation moving sets, described four-cylinder is fixed on the cliding seat, the rod end connection sliding block of four-cylinder, the 4th push pedal is fixed on the slide block, and the piston rod of four-cylinder stretches out and can promote the 4th push pedal upwards; Roller mounting slot right side opening on the described deck plate is provided with slotted eye, and described the 4th push pedal can upwards pass from slotted eye, and the electric capacity after arranging limits the position of left side one column capacitance by the 4th push pedal; Described the 3rd cylinder and the second cylinder are arranged vertically, the 3rd cylinder is fixed on the deck plate, the rod end of the 3rd cylinder connects the 3rd push pedal, it is parallel with the direct of travel of electric capacity on roller that the piston rod of the 3rd cylinder stretches out direction, electric capacity after the 3rd push pedal is used for arranging is pushed in the empty capacitor box that transmits in the capacitor box mechanism, described the 3rd push pedal is fastened on the slide block of the 3rd line rail, and the 3rd line rail is fixedly mounted on the deck plate.
As further improvement of the utility model, the described capacitor box mechanism that pushes away comprises the first sleeve, Rodless cylinder, swing arm, the second sleeve, riser, pushing block, cylinder, the first S. A., the second S. A., pipe link, pivoted arm and centering block; Riser vertically is installed on the frame, be provided with the passage that enters capacitor box be used to the electric capacity after arranging under the riser, the first sleeve is fixed on the riser, the first S. A. is assemblied in the first sleeve by bearings, two the second sleeves are fixed on the riser, by bearing assemble second S. A. is arranged respectively in two the second sleeves, the respectively fixedly swing arm of one end of two the second S. A.s, the other end of two the second S. A.s is separately installed with pivoted arm, pivoted arm on two the second S. A.s is hinged with two rod ends that are hinged at the cylinder on the riser respectively, flexible second S. A. that drives of the piston rod of cylinder rotates, thereby driving swing arm swings, swing arm is used for locating the position of empty capacitor box, so that the electric capacity after arranging can enter the sky capacitor box smoothly; Described Rodless cylinder one end is fixed on the first S. A., and the Rodless cylinder other end is connected with centering block and distance the first S. A. second S. A. far away by pipe link, is fixed wtih on the slide block of Rodless cylinder for the pushing block that promotes capacitor box.
As further improvement of the utility model, described transmission capacitor box mechanism comprises the first cylinder, the second cylinder, the 3rd cylinder, the first slide block, First Line rail, the second slide block, starting stave, the first adapter plate, the second adapter plate, the first L-type bearing, the second riser, rotary cylinder, roller, the second L-type bearing, joint, four-cylinder, guide plate, supporting plate, pushing block, Rodless cylinder, pipe link, the first connecting panel, the second connecting panel, shifting board, stay bearing plate, pipe link and the second line rail; Described supporting plate is fixedly mounted on the frame, and supporting plate is used for holding capacitor box, and described guide plate is fixed on the supporting plate sidepiece, and guide plate is used for spacing capacitor box; Described Rodless cylinder is fixed on the frame, and the slide block of Rodless cylinder is connected with the first connecting panel by the second connecting panel, and the first connecting panel is connected and fixed by pipe link and pushing block, and Rodless cylinder drives described pushing block empty electric capacity capacitor box is pushed to next station; The first adapter plate is fixed on the frame, is installed with two First Line rails that be arranged in parallel on the first adapter plate, and the First Line rail is provided with the first slide block with its formation moving sets, and described the first slide block is fixed on the shifting board; Two starting staves vertically are fixed on the shifting board, connect by pipe link between two starting staves, and described joint is fixed on the pipe link, and four-cylinder one end is fixed on the bottom of capacitor box output track, and the piston rod of four-cylinder is connected with joint; Be installed with two the 3rd cylinders that vertically arrange on the described shifting board, the rod end of two the 3rd cylinders connects the second riser by joint, two the second risers are positioned at two starting stave outsides, fixed installation the second slide block on the second riser medial surface, be fixed with the second line rail on the starting stave lateral surface, the second slide block and the second line rail consist of moving sets, and the piston rod of the 3rd cylinder drives the second riser when flexible and moves up and down; Described stay bearing plate is fixedly mounted on the top of two the second risers, and rotary cylinder is fixed on the stay bearing plate, and the second adapter plate is fixedly mounted on the rotary cylinder top, and rotary cylinder can drive the rotation of the second adapter plate; Described the first L-type bearing is fixedly mounted on the second adapter plate, is provided with roller on the first L-type bearing, and the second L-type bearing is placed on the first L-type bearing and with roller and consists of revolute pair; The second cylinder is installed on the first L-type bearing, and the rod end of the second cylinder is connected with the second L-type bearing, and the flexible second L-type bearing that promotes of the piston rod of the second cylinder moves; Described the second L-type bearing is used for the carrying capacitor box, is installed with two first cylinders on the second L-type bearing, when the piston rod of two first cylinders stretches out capacitor box is pushed on the capacitor box output track.
The utility model compared with prior art, advantage is:The utility model structure is ingenious rationally, can realize electric capacity shaping, cut-out, packing one body action are enhanced productivity.
Description of drawings
Fig. 1 is integral structure birds-eye view of the present utility model.
Fig. 2 .1 is the structure birds-eye view of connecting gear in the utility model.
Fig. 2 .2 is the structural front view of connecting gear in the utility model.
Fig. 2 .3 is that A-A among Fig. 2 .2 is to partial view.
Fig. 3 .1 is the structure birds-eye view of vertical reshaping device in the utility model.
Fig. 3 .2 is the structural front view of vertical reshaping device in the utility model.
Fig. 3 .3 is the structure left view of vertical reshaping device in the utility model.
Fig. 3 .4 is the second fork detail drawing among Fig. 3 .2.
Fig. 3 .5 is that B-B among Fig. 3 .4 is to section's view.
Fig. 4 .1 is the structure birds-eye view of horizontal reshaping device in the utility model.
Fig. 4 .2 is the structural front view of horizontal reshaping device in the utility model.
Fig. 4 .3 is the structure left view of horizontal reshaping device in the utility model.
Fig. 5 .1 is the structure birds-eye view of cutting mechanism in the utility model.
Fig. 5 .2 is the C-C structure cutaway view among Fig. 5 .1.
Fig. 5 .3 is the D-D structure cutaway view among Fig. 5 .2.
The structure birds-eye view of conveying mechanism in Fig. 6 .1 the utility model.
Fig. 6 .2 is the left view of Fig. 6 .1.
Fig. 7 .1 is the structure birds-eye view of arranging capacitor mechanism in the utility model.
Fig. 7 .2 is the structural front view of arranging capacitor mechanism in the utility model.
Fig. 8 .1 is the structure birds-eye view that pushes away capacitor box mechanism in the utility model.
Fig. 8 .2 is the structural front view that pushes away capacitor box mechanism in the utility model.
Fig. 9 .1 is the structure birds-eye view that transmits capacitor box mechanism in the utility model.
Fig. 9 .2 is the structure birds-eye view that transmits capacitor box mechanism in the utility model.
Fig. 9 .3 is the structure left view that transmits capacitor box mechanism in the utility model.
Fig. 9 .4 is the E section enlarged diagram among Fig. 9 .2.
Description of reference numerals: 1-vibrating disk, 2-connecting gear, 2.1 the-the first roller shaft, 2.2 the-the first gear, 2.3 the-the second gear, 2.4-motor, 2.5 the-the three gear, 2.6 the-the four gear, 2.7 the-the second roller shaft, 2.8 the-the first set screw, 2.9-bearing seat, 2.10-adjustable guide plate, 2.11 the-the second set screw, 2.12-adjustable live roller, 2.13-live roller, 2.14-fixed guide plate, 2.15-gear case, 2.16-case lid, 2.17-contiguous block, 2.18 the-the first spring, 2.19-pinch roller, 2.20 the-the second spring, 2.21-nut, 2.22-anchor shaft, 2.23-supporting seat, 2.24-long arc-shaped holes, 2.25-permanent seat, 3-vertically push material mechanism, 3.1-vertical pusher cylinder, 3.2-longitudinally guiding plate, 4-vertically reshaping devices, 4.1 the-the first fork, 4.2-joint, 4.3-cylinder, 4.4-riser, 4.5 the-the second fork, 4.6-slide block, 4.7-take-up housing, 4.8-dressing stick, 4.9-correction module, 4.10-anchor shaft, 4.11-connecting panel, 4.12-set screw, 4.13-L-type seat, 5-laterally reshaping devices, 5.1 the-the first fork, 5.2-joint, 5.3-cylinder, 5.4-riser, 5.5 the-the second fork, 5.6-slide block, 5.7-take-up housing, 5.8-dressing stick, 5.9-anchor shaft, 5.10-set screw, 5.11-L-type seat, 6-cutting mechanism, 6.1-movable tool rest, 6.2-pressing plate, 6.3-Connection Block, 6.4-cutting knife, 6.5-cylinder block, 6.6-cylinder push pedal, 6.7-joint, 6.8-cylinder, 6.9-positioning guide rail, 6.10-right angle seat, 6.11-set screw, 6.12-Immovable support, 6.13-exhaust column, 7-conveying mechanism, 7.1 the-the first roller, 7.2-load-transfer device, 7.3 the-the second roller, 7.4-motor, 7.5-driving wheel, 7.6 the-the three roller, 7.7 the-the four roller, 7.8-deflector apron, 7.9-stay bearing plate, 8-arrangement capacitor mechanism, 8.1 the-the first cylinder, 8.2 the-the first push pedal, 8.3-roller, 8.4 the-the second push pedal, 8.5 the-the second cylinder, 8.6 the-the three push pedal, 8.7 the-the three cylinder, 8.8-slide block, 8.9 the-the four-cylinder, 8.10 the-the four push pedal, 8.11-deck plate, 8.12-roller shaft, 8.13-connecting panel, 8.14-cliding seat, 8.15-First Line rail, 8.16 the-the second line rail, 9-push away capacitor box mechanism, 9.1 the-the first sleeve, 9.2-Rodless cylinder, 9.3-swing arm, 9.4 the-the second sleeve, 9.5-riser, 9.6-pushing block, 9.7-cylinder, 9.8 the-the first S. A., 9.9 the-the second S. A., 9.10-pipe link, 9.11-pivoted arm, 9.12-centering block, 10-transmission capacitor box mechanism, 10.1 the-the first cylinder, 10.2 the-the second cylinder, 10.3 the-the three cylinder, 10.4 the-the first slide block, 10.5-First Line rail, 10.6 the-the second slide block, 10.7-starting stave, 10.8 the-the first adapter plate, 10.9 the-the second adapter plate, 10.10 the-the first L-type bearing, 10.11 the-the second riser, 10.12-rotary cylinder, 10.13-roller, 10.14 the-the second L-type bearing, 10.15-joint, 10.16 the-the four-cylinder, 10.17-guide plate, 10.18-supporting plate, 10.19-pushing block, 10.20-Rodless cylinder, 10.21-pipe link, 10.22 the-the first connecting panel, 10.23 the-the second connecting panel, 10.24-shifting board, 10.25-stay bearing plate, 10.26-pipe link, 10.27 the-the second line rail, 11-crosswise pushing material mechanism, 11.1-horizontal pusher cylinder, 11.2-transverse guide fence, 12-first sensor, the 13-the second sensor, 14-erecting frame, 15-frame, 16-capacitor box output track.
The specific embodiment
The utility model is described in further detail below in conjunction with concrete drawings and Examples.
As shown in the figure, electric capacity shaping wrapping machine described in the utility model mainly by vibrating disk 1, connecting gear 2, vertically push material mechanism 3, vertically reshaping device 4, laterally reshaping device 5, cutting mechanism 6, conveying mechanism 7, arrange capacitor mechanism 8, push away capacitor box mechanism 9, transmit capacitor box mechanism 10, crosswise pushing material mechanism 11, first sensor 12, the second sensor 13, erecting frame 14, frame 15 and capacitor box output track 16 etc. and partly form.
Described vibrating disk 1 is used for realizing the automatic charging of electric capacity, and electric capacity is delivered to connecting gear 2 through vibrating disk 1; Described connecting gear 2 is installed on the erecting frame 14, electric capacity is delivered to vertical propelling movement material mechanism 3 through connecting gear 2, the electric capacity transfer passage entrance location place of described vertical propelling movement material mechanism 3 is provided with first sensor 12, when the electric capacity that transmits is run into first sensor 12, vertically push 3 actions of material mechanism, make electric capacity become longitudinal movement by former cross motion; Described vertical reshaping device 4 is arranged on vertical propelling movement material mechanism 3 sides, and vertically reshaping device 4 is installed on the erecting frame 14, the electric capacity of carrying by vertical propelling movement material mechanism 3 process under vertical reshaping device 4, and vertically 4 pairs of capacitor pins of reshaping device carry out shaping; Described crosswise pushing material mechanism 11 is installed on the erecting frame 14, the electric capacity transfer passage import of crosswise pushing material mechanism 11 links to each other in turn with the electric capacity transfer passage outlet of vertical propelling movement material mechanism 3, the electric capacity transfer passage inflow point of crosswise pushing material mechanism 11 is provided with the second sensor 13, when the electric capacity that transmits is run into the second sensor 13,11 actions of crosswise pushing material mechanism make electric capacity become cross motion by former longitudinal movement again; Described horizontal reshaping device 5 is arranged on crosswise pushing material mechanism 11 sides, laterally reshaping device 5 is installed on the erecting frame 14, the electric capacity of carrying by crosswise pushing material mechanism 11 process under the horizontal reshaping device 5, laterally 5 pairs of electric capacity of reshaping device carry out horizontal shaping; Described cutting mechanism 6 is arranged on crosswise pushing material mechanism 11 sides and is positioned at after the described horizontal reshaping device 5, cutting mechanism 6 is installed on the erecting frame 14, the electric capacity of carrying by crosswise pushing material mechanism 11 passes through under cutting mechanism 6 through the electric capacity after the horizontal shaping, 6 pairs of capacitor pins of cutting mechanism cut, and cut pin is taken away by air suctiton ventilator; The electric capacity transfer passage import of described conveying mechanism 7 is connected with the outlet of the electric capacity transfer passage of crosswise pushing material mechanism 11, the electric capacity of well cutting is delivered on the conveying mechanism 7 under 11 effects of crosswise pushing material mechanism, and electric capacity is transported under conveying mechanism 7 effects and arranges on the capacitor mechanism 8; Described arrangement capacitor mechanism 8 is installed on the frame 15, arranges 8 pairs of electric capacity of capacitor mechanism and arranges, and the electric capacity that arranges is transported in the empty capacitor box that transmits in the capacitor box mechanism 10; The described capacitor box mechanism 9 that pushes away is installed on the frame 15, pushes away capacitor box mechanism 9 and is used for empty capacitor box is positioned, and realizes that simultaneously will expire the electric capacity magazine shifts next station onto; Described transmission capacitor box mechanism 10 is installed on the frame 15, realizes on the one hand carrying empty capacitor box function, realizes on the one hand that in addition will expire the electric capacity magazine pushes on the capacitor box output track.
The capacitor box of filling electric capacity is delivered to capacitor box output track 16 under the effect that transmits capacitor box mechanism 10.
The structure of described connecting gear 2 is shown in Fig. 2 .1 ~ Fig. 2 .3, and it is mainly by the first roller shaft 2.1, the first gear 2.2, the second gear 2.3, motor 2.4, the 3rd gear 2.5, the 4th gear 2.6, the second roller shaft 2.7, the first set screw 2.8, bearing seat 2.9, adjustable guide plate 2.10, the second set screw 2.11, adjustable live roller 2.12, live roller 2.13, fixed guide plate 2.14, gear case 2.15, case lid 2.16, contiguous block 2.17, the first spring 2.18, pinch roller 2.19, the second spring 2.20, nut 2.21, anchor shaft 2.22, supporting seat 2.23 and permanent seat 2.25 form; Motor 2.4 is fixedly mounted on the gear case 2.15, and the 3rd gear 2.5 is installed on the output shaft of motor 2.4; The second gear 2.3 is arranged on the 3rd gear 2.5 sides, and the second gear 2.3 is installed on the anchor shaft 2.22 by bearing, and described anchor shaft 2.22 is fixedly mounted in the gear case 2.15, and the second gear 2.3 is meshed with the 3rd gear 2.5; Described case lid 2.16 is provided with for the long arc-shaped holes 2.24 that the second roller shaft 2.7 is installed, the second roller shaft 2.7 is installed on the case lid 2.16 by bearings, the 4th gear 2.6 is fixedly mounted on the second roller shaft 2.7 lower ends, and the 4th gear 2.6 is meshed with the 3rd gear 2.5; Described bearing seat 2.9 1 ends are installed on 2.26 permanent seats by bearing, bearing seat 2.9 1 ends are installed on the second roller shaft 2.7, contiguous block 2.17 is fixed on the described bearing seat 2.9, described the first set screw 2.8 spiral shells are contained on the gear case 2.15, the inner of the first set screw 2.8 is threaded with described contiguous block 2.17, regulating the first set screw 2.8 can drive contiguous block 2.17 and bearing seat 2.9 and swing around permanent seat 2.26, move along long arc-shaped holes 2.24 thereby drive the second roller shaft 2.7, be installed in parts on the second roller shaft 2.7 also along with synchronizing moving; Be fixed with screw on the described bearing seat 2.9, the first spring 2.18 one ends are connected with screw on the bearing seat 2.9, and the first spring 2.18 other ends are connected with screw on being fixed on gear case 2.15; Described the first roller shaft 2.1 is installed in the supporting seat 2.23 by bearing, and supporting seat 2.23 is fixed on the case lid 2.16, and the first gear 2.2 is installed in the first roller shaft 2.1 lower ends, and the first gear 2.2 is meshed with the second gear 2.3; Described live roller 2.13 is fixedly mounted on the first roller shaft 2.1 by bearing, described adjustable live roller 2.12 is fixedly mounted on the second roller shaft 2.7 by bearing, also be set with the second spring 2.20 and difference mounting nuts 2.21 on described the first roller shaft 2.1, the second roller shaft 2.7, the second spring 2.20 one ends are by nut 2.21 restrictions, and the second spring 2.20 other ends withstand the pinch roller 2.19 that compresses live roller 2.13, adjustable live roller 2.12 tops; Described adjustable guide plate 2.10 and fixed guide plate 2.14 are arranged on case lid 2.16 tops and are parallel to each other, and adjustable guide plate 2.10 is electric capacity transfer passages with fixed guide plate 2.14; The second set screw 2.11 is installed on the case lid 2.16, the second set screw 2.11 is threaded with adjustable guide plate 2.10, regulate the second set screw 2.11 and can drive adjustable guide plate 2.10 and move, thereby change distance between adjustable guide plate 2.10 and the fixed guide plate 2.14.
During concrete the application, the course of action of connecting gear 2 is as follows:
Electric capacity continues to be transported to the connecting gear 2 from vibrating disk 1, enter between adjustable guide plate 2.10 and the fixed guide plate 2.14, motor 2.4 starts, driving the 3rd gear 2.5 rotates, the 3rd gear 2.5 drives the second gear 2.3 with its engagement, the 4th gear 2.6 rotates synchronously, the second gear 2.3 drives the first gear 2.2 again and rotates synchronously, thereby make the first roller shaft 2.1, the second roller shaft 2.7 locking phases are to rotation, live roller 2.13 on the first roller shaft 2.1 is installed, be installed on the 4th gear 2.6 on the second wheel axle 2.7 adjustable live roller 2.12 also locking phase to rotation the electric capacity between adjustable guide plate 2.10 and the fixed guide plate 2.14 continue is transmitted.
In actual production, regulate the second set screw 2.11 by turn, electric capacity shaping wrapping machine of the present utility model can drive adjustable guide plate 2.10 and move, thereby change distance between adjustable guide plate 2.10 and the fixed guide plate 2.14, so that can be applicable to the electric capacity of different specification size.
The structure of described vertical propelling movement material mechanism 3 as shown in Figure 1, it mainly is comprised of vertical pusher cylinder 3.1 and two longitudinally guiding plates 3.2, two longitudinally guiding plates 3.2 be arranged in parallel and are fixedly mounted on the erecting frame 14, the electric capacity transfer passage between two longitudinally guiding plates 3.2, described vertical pusher cylinder 3.1 is arranged on over against the position of electric capacity transfer passage import, and vertically the rod end of pusher cylinder 3.1 is equipped with for the pushing head that pushes electric capacity.
During concrete the application, the course of action that vertically pushes material mechanism 3 is as follows:
Electric capacity is delivered to vertical propelling movement material mechanism 3 by connecting gear 2, when electric capacity arrives the electric capacity transfer passage entrance location place that vertically pushes material mechanism 3, the electric capacity that transmits is run into first sensor 12, vertically pusher cylinder 3.1 actions, vertically the piston rod of pusher cylinder 3.1 stretches out, and by pushing head electric capacity is pushed in two electric capacity transfer passages between the longitudinally guiding plate 3.2; Along with the continuous transmission of connecting gear 2, vertically pusher cylinder 3.1 reciprocating actions are realized the lasting conveying of electric capacity.
The structure of described vertical reshaping device 4 is shown in Fig. 3 .1 ~ Fig. 3 .5, and it mainly is comprised of the first fork 4.1, joint 4.2, cylinder 4.3, riser 4.4, the second fork 4.5, slide block 4.6, take-up housing 4.7, dressing stick 4.8, correction module 4.9, anchor shaft 4.10, connecting panel 4.11, set screw 4.12 and L-type seat 4.13; L-type seat 4.13 is across vertically pushing two longitudinally guiding plates 3.2 in the material mechanism 3 and being fixedly mounted on the erecting frame 14, and set screw 4.12 is threaded in L-type seat 4.13 tops, and riser 4.4 is threaded with set screw 4.12 by the contiguous block at its rear portion; Cylinder 4.3 is fixedly mounted on the riser 4.4, the rod end of cylinder 4.3 is equipped with joint 4.2, described the first fork 4.1, have the waist hole on one end of the second fork 4.5, the first fork 4.1, the second fork 4.5 1 ends are by being contained in axle and bearing and joint 4.2 hinges in the described waist hole, described the first fork 4.1, the second fork 4.5 is L shaped, described the first fork 4.1, the middle kink of the second fork 4.5 is installed on two anchor shafts 4.10 by bearing respectively, two anchor shafts 4.10 are fixedly mounted on the riser 4.4, and the piston rod of cylinder 4.3 can drive the first fork 4.1 when flexible, the second fork 4.5 swings around anchor shaft; Described the first fork 4.1, the second fork 4.5 other ends are hinged with a slide block 4.6 respectively, slide block 4.6 consists of moving sets with take-up housing 4.7, described take-up housing 4.7 is fixed on the riser 4.4, and band movable slider 4.6 moved along take-up housing 4.7 when the first fork 4.1, the second fork 4.5 swung around anchor shaft 4.10; Described dressing stick 4.8 has two, two dressing sticks 4.8 are oppositely arranged, be separately fixed on two slide blocks 4.6, described correction module 4.9 is arranged between two dressing sticks 4.8, correction module 4.9 is fixed on connecting panel 4.11, connecting panel 4.11 is fixed on the riser 4.4, and described correction module 4.9 cooperatively interacts with dressing stick 4.8, and the pin of electric capacity is carried out vertical shaping.
During concrete the application, vertically the course of action of reshaping device 4 is as follows:
Electric capacity is carried at the electric capacity transfer passage that vertically pushes material mechanism 3, in the time of under electric capacity arrives vertical reshaping device 4, vertically reshaping device 4 actions, the piston rod of cylinder 4.3 is retracted, drive the first fork 4.1, the second fork 4.5 is respectively around separately anchor shaft 4.10 swings at middle part, the first fork 4.1, band movable slider 4.6 moved along take-up housing 4.7 when the second fork 4.5 swung around anchor shaft 4.10, the dressing stick 4.8 that is installed on the slide block 4.6 moves towards the direction near correction module 4.9, dressing stick 4.8 matches with correction module 4.9, and the pin of the electric capacity between the two at them is carried out vertical shaping.
The structure of described crosswise pushing material mechanism 11 as shown in Figure 1, it mainly is comprised of horizontal pusher cylinder 11.1 and two transverse guide fences 11.2, two transverse guide fences 11.2 be arranged in parallel and are fixedly mounted on the erecting frame 14, the electric capacity transfer passage between two transverse guide fences 11.2, described horizontal pusher cylinder 11.1 is arranged on over against the position of electric capacity transfer passage import, and laterally the rod end of pusher cylinder 11.1 is equipped with for the pushing head that pushes electric capacity.
During concrete the application, the course of action of crosswise pushing material mechanism 11 is as follows:
Electric capacity is delivered to crosswise pushing material mechanism 11 by vertical propelling movement material mechanism 3, when electric capacity arrives the electric capacity transfer passage entrance location place of crosswise pushing material mechanism 11, the electric capacity that transmits is run into the second sensor 13, laterally pusher cylinder 11.1 actions, laterally the piston rod of pusher cylinder 11.1 stretches out, and by pushing head electric capacity is pushed in two electric capacity transfer passages between the transverse guide fence 11.2; Along with the continuous transmission of connecting gear 3, vertically pusher cylinder 11.1 reciprocating actions are realized the lasting conveying of electric capacity.
The structure of described horizontal reshaping device 5 is shown in Fig. 4 .1 ~ Fig. 4 .3, and it mainly is comprised of the first fork 5.1, joint 5.2, cylinder 5.3, riser 5.4, the second fork 5.5, slide block 5.6, take-up housing 5.7, dressing stick 5.8, anchor shaft 5.9, set screw 5.10 and L-type seat 5.11; L-type seat 5.11 is across two transverse guide fences 11.2 in the crosswise pushing material mechanism 11 and be fixedly mounted on the erecting frame 14, and set screw 5.10 is threaded in L-type seat 5.11 tops, and riser 5.4 is threaded with set screw 5.10 by the contiguous block at its rear portion; Cylinder 5.3 is fixedly mounted on the riser 5.4, the rod end of cylinder 5.3 is equipped with joint 5.2, described joint 5.2 respectively with the first fork 5.1, one end of the second fork 5.5 is hinged by axle and bearing, described the first fork 5.1, the second fork 5.5 is L shaped, described the first fork 5.1, the middle kink of the second fork 5.5 is installed on two anchor shafts 5.9 by bearing respectively, two anchor shafts 5.9 are fixedly mounted on the riser 5.4, the piston rod of cylinder 5.3 can drive the first fork 5.1 when flexible, the second fork 5.5 swings around anchor shaft, described the first fork 5.1, the second fork 5.5 other ends are hinged with a slide block 5.6 respectively, slide block 5.6 consists of moving sets with take-up housing 5.7, described take-up housing 5.7 is fixed on the riser 5.4, the first fork 5.1, band movable slider 5.6 moved along take-up housing 5.7 when the second fork 5.5 swung around anchor shaft 5.9; Described dressing stick 5.8 has two, and two dressing sticks 5.8 are oppositely arranged, and is separately fixed on two slide blocks 5.6, and two dressing sticks cooperatively interact, and electric capacity is carried out horizontal shaping.
During concrete the application, laterally the course of action of reshaping device 5 is as follows:
Electric capacity is carried at the electric capacity transfer passage of crosswise pushing material mechanism 11, in the time of under electric capacity arrives horizontal reshaping device 5, laterally reshaping device 5 actions, the piston rod of cylinder 5.3 is retracted, drive the first fork 5.1, the second fork 5.5 respectively around separately anchor shaft 5.9 swings at middle part, band movable slider 5.6 moved along take-up housing 5.7 when the first fork 5.1, the second fork 5.5 swung around anchor shaft 5.9, the dressing stick 5.8 that is installed on the slide block 5.6 is close in opposite directions, two dressing sticks 4.8 match, to the electric capacity between the two carries out horizontal shaping at them.
The structure of described cutting mechanism 6 is shown in Fig. 5 .1 ~ Fig. 5 .3, and it mainly is comprised of movable tool rest 6.1, pressing plate 6.2, Connection Block 6.3, cutting knife 6.4, cylinder block 6.5, cylinder push pedal 6.6, joint 6.7, cylinder 6.8, positioning guide rail 6.9, right angle seat 6.10, set screw 6.11, Immovable support 6.12 and exhaust column 6.13; Right angle seat 6.10 is fixed on the erecting frame 14, and described set screw 6.11 is threaded on the right angle seat 6.10, and set screw 6.11 is threaded with cylinder block 6.5, and cylinder block 6.5 is fixed on the Connection Block 6.3; Described Immovable support 6.12 is fixed on the Connection Block 6.3, and exhaust column 6.13 is fixed on the Immovable support 6.12, and cutting knife 6.4 is fixed on the exhaust column 6.13; Described cylinder 6.8 is fixedly mounted on the cylinder block 6.5, the rod end of cylinder 6.8 joint 6.7 that is spirally connected, described joint 6.7 is hinged with cylinder push pedal 6.6, be connected by spring between cylinder push pedal 6.6 and the pressing plate 6.2, pressing plate 6.2 is arranged in the movable tool rest 6.1 and with movable tool rest 6.1 and consists of moving sets, described movable tool rest 6.1 matches with cutting knife 6.4, is used for cutting off the pin of electric capacity; Described movable tool rest 6.1 is fixed on the slide block 6.14, and slide block 6.14 consists of moving sets with the positioning guide rail 6.9 that is fixed on right angle seat 6.10 leading flanks.
During concrete the application, the course of action of cutting mechanism 6 is as follows:
Electric capacity is carried at the electric capacity transfer passage of crosswise pushing material mechanism 11, in the time of under electric capacity arrives cutting mechanism 6, cutting mechanism 6 actions, the piston rod of cylinder 6.8 stretches out, move to the direction near cutting knife 6.4 with dynamic air cylinder push pedal 6.6 and movable tool rest 6.7, the pin cutting of electric capacity is neat; Described cutting knife 6.4 is installed on the exhaust column 6.13, and the capacitor pin of cutting-out siphons away from exhaust column 6.13.
The structure of described conveying mechanism 7 is shown in Fig. 6 .1, Fig. 6 .2, and it mainly is comprised of the first roller 7.1, load-transfer device 7.2, the second roller 7.3, motor 7.4, driving wheel 7.5, the 3rd roller 7.6, the 4th roller 7.7, deflector apron 7.8 and stay bearing plate 7.9; Two deflector aprons 7.8 are arranged in parallel and are fixed on the stay bearing plate 7.9, are the electric capacity transfer passages between two deflector aprons 7.8; Motor 7.4 is arranged under the stay bearing plate 7.9, driving wheel 7.5 is installed on the output shaft of motor 7.4, the first roller 7.1, the 4th roller 7.7 are separately positioned on the two ends of two deflector aprons 7.8, the second roller 7.3, the 3rd roller 7.6 are separately positioned on the both sides of driving wheel 7.5 tops, described load-transfer device 7.2 is on the first roller 7.1, the second roller 7.3, driving wheel 7.5, the 3rd roller 7.6 and the 4th roller 7.7, and load-transfer device 7.2 is corresponding to the electric capacity transfer passage between two deflector aprons 7.8.
During concrete the application, the course of action of conveying mechanism 7 is as follows:
Electric capacity is delivered on the conveying mechanism 7 from the electric capacity transfer passage outlet of crosswise pushing material mechanism 11; Motor 7.4 in the conveying mechanism 7 starts, and drives driving wheel 7.5 runnings, thereby makes load-transfer device 7.2 continuous runnings, realizes the lasting conveying of electric capacity.
The structure of described arrangement capacitor mechanism 8 is shown in Fig. 7 .1, Fig. 7 .2, and it mainly is comprised of the first cylinder 8.1, the first push pedal 8.2, roller 8.3, the second push pedal 8.4, the second cylinder 8.5, the 3rd push pedal 8.6, the 3rd cylinder 8.7, slide block 8.8, four-cylinder 8.9, the 4th push pedal 8.10, deck plate 8.11, roller shaft 8.12, connecting panel 8.13, cliding seat 8.14, First Line rail 8.15, the second line rail 8.16 and the 3rd line rail; Offer roller mounting slot on the described deck plate 8.11, described roller mounting slot is over against the electric capacity transfer passage outlet of conveying mechanism 7, by roller shaft 8.12 supports one row roller 8.3 is installed in the roller mounting slot, the electric capacity that transports from conveying mechanism 7 is arranged on the roller 8.3; Described the first cylinder 8.1 is arranged on the roller mounting slot left side, the first cylinder 8.1 is fixed on the deck plate 8.11, the rod end of the first cylinder 8.1 connects the first push pedal 8.2, the electric capacity that the first push pedal 8.2 is used for will being arranged on the roller 8.3 is pushed the right side to, described the first push pedal 8.2 is fastened on the slide block of First Line rail 8.15, and First Line rail 8.15 is fixedly mounted on the deck plate 8.11; Described the second cylinder 8.5, the 3rd cylinder 8.7 are arranged on the roller mounting slot right side, the second cylinder 8.5 and the first cylinder 8.1 vis-a-vis, the second cylinder 8.5 is fixed on the deck plate 8.11, the rod end of the second cylinder 8.5 connects the second push pedal 8.4, the second push pedal 8.4 is used for the position of restriction right side one column capacitance, described the second push pedal 8.4 is fastened on the slide block of the second line rail 8.16, and the second line rail 8.16 is fixedly mounted on the deck plate 8.11; Described cliding seat 8.14 is arranged on deck plate 8.11 belows, cliding seat 8.14 is fixedly connected on the deck plate 8.11 by connecting panel 8.13, cliding seat 8.14 is provided with the slide block 8.8 with its formation moving sets, described four-cylinder 8.9 is fixed on the cliding seat 8.14, the rod end connection sliding block 8.8 of four-cylinder 8.9, the 4th push pedal 8.10 is fixed on the slide block 8.8, and the piston rod of four-cylinder 8.9 stretches out and can promote the 4th push pedal 8.10 upwards; Roller mounting slot right side opening on the described deck plate 8.11 is provided with slotted eye, and described the 4th push pedal 8.10 can upwards pass from slotted eye, and the electric capacity after arranging limits the position of left side one column capacitance by the 4th push pedal 8.10; Described the 3rd cylinder 8.7 and the second cylinder 8.5 are arranged vertically, the 3rd cylinder 8.7 is fixed on the deck plate 8.11, the rod end of the 3rd cylinder 8.7 connects the 3rd push pedal 8.6, it is parallel with the direct of travel of electric capacity on roller 8.3 that the piston rod of the 3rd cylinder 8.7 stretches out direction, electric capacity after the 3rd push pedal 8.6 is used for arranging is pushed in the empty capacitor box that transmits in the capacitor box mechanism 10, described the 3rd push pedal 8.6 is fastened on the slide block of the 3rd line rail, and the 3rd line rail is fixedly mounted on the deck plate 8.11.
During concrete the application, the course of action of arranging capacitor mechanism 8 is as follows:
The 4th push pedal 8.10 rises under the effect of four-cylinder 8.9, and be higher than roller 8.3, the electric capacity of conveying mechanism 7 exports on the row roller 8.3 that is delivered in the roller mounting slot by transfer passage, behind the suitable quantity that electric capacity is carried, four-cylinder 8.9 drives the 4th push pedal 8.10 and descends, 8.1 actions of the first cylinder, it is mobile to the right that the piston rod of the first cylinder 8.1 stretches out promotion the first push pedal 8.2, the electric capacity that the first push pedal 8.2 will be arranged on the roller 8.3 is pushed the right side to, it is mobile backward that the electric capacity that is pushed drives the second push pedal 8.4 simultaneously, be cycled to repeat above-mentioned action, final the second push pedal 8.4 is pushed end position, and the electric capacity after then the 3rd push pedal 8.6 will arrange is pushed in the empty capacitor box that transmits in the capacitor box mechanism 10.
The described capacitor box mechanism 9 that pushes away comprises the first sleeve 9.1, Rodless cylinder 9.2, swing arm 9.3, the second sleeve 9.4, riser 9.5, pushing block 9.6, cylinder 9.7, the first S. A. 9.8, the second S. A. 9.9, pipe link 9.10, pivoted arm 9.11 and centering block 9.12; Riser 9.5 vertically is installed on the frame 15, be provided with the passage that enters capacitor box be used to the electric capacity after arranging under the riser 9.5, the first sleeve 9.1 is fixed on the riser 9.5, the first S. A. 9.8 is assemblied in the first sleeve 9.1 by bearings, two the second sleeves 9.4 are fixed on the riser 9.5, two the second sleeves 9.4 are interior to have second S. A. 9.9 by bearing assemble respectively, one end of two the second S. A.s 9.9 is fixedly swing arm 9.3 respectively, the other end of two the second S. A.s 9.9 is separately installed with pivoted arm 9.11, pivoted arm 9.11 on two the second S. A.s 9.9 is hinged with two rod ends that are hinged at the cylinder 9.7 on the riser 9.5 respectively, flexible second S. A. 9.9 that drives of the piston rod of cylinder 9.7 rotates, thereby driving swing arm 9.3 swings, swing arm 9.3 is used for locating the position of empty capacitor box, so that the electric capacity after arranging can enter the sky capacitor box smoothly; Described Rodless cylinder 9.2 1 ends are fixed on the first S. A. 9.8, Rodless cylinder 9.2 other ends are connected with centering block by pipe link 9.10 and are connected apart from the first S. A. 9.8 second S. A. 9.9 far away, are fixed wtih the pushing block 9.6 for the promotion capacitor box on the slide block of Rodless cylinder 9.2.
During concrete the application, the course of action that pushes away capacitor box mechanism 9 is as follows:
Empty capacitor box is placed on and transmits in the capacitor box mechanism 10, arranging before capacitor mechanism 8 pushes electric capacity in the empty capacitor box, need to position by pushing away 9 pairs of capacitor boxes of capacitor box mechanism; At first the piston rod of two cylinders 9.7 stretches out, on the one hand so that two fixedly swing arm 9.3 locate empty capacitor box, in addition on the one hand so that upwards swing of Rodless cylinder 9.2, electric capacity after arrange this moment can push in the sky capacitor box from the passage under the riser 9.5 by arranging capacitance structure 8, after capacitor box is filled, the piston rod of two cylinders 9.7 contracts, drive simultaneously Rodless cylinder 9.2 around the first S. A. 9.8 to lower swing, then Rodless cylinder drives pushing block 9.6 will expire capacitor box and shift the next position onto.
The structure of described transmission capacitor box mechanism 10 is shown in Fig. 9 .1 ~ Fig. 9 .4, and it is mainly by the first cylinder 10.1, the second cylinder 10.2, the 3rd cylinder 10.3, the first slide block 10.4, First Line rail 10.5, the second slide block 10.6, starting stave 10.7, the first adapter plate 10.8, the second adapter plate 10.9, the first L-type bearing 10.10, the second riser 10.11, rotary cylinder 10.12, roller 10.13, the second L-type bearing 10.14, joint 10.15, four-cylinder 10.16, guide plate 10.17, supporting plate 10.18, pushing block 10.19, Rodless cylinder 10.20, pipe link 10.21, the first connecting panel 10.22, the second connecting panel 10.23, shifting board 10.24 and stay bearing plate 10.25, pipe link 10.26 and the second line rail 10.27 form;
Described supporting plate 10.18 is fixedly mounted on the frame 15, and supporting plate 10.18 is used for holding capacitor box, and described guide plate 10.17 is fixed on supporting plate 10.18 sidepieces, and guide plate 10.17 is used for spacing capacitor box; Described Rodless cylinder 10.20 is fixed on the frame 15, the slide block of Rodless cylinder 10.20 is connected with the first connecting panel 10.22 by the second connecting panel 10.23, the first connecting panel 10.22 is connected and fixed by pipe link 10.21 and pushing block 10.19, and Rodless cylinder 10.20 drives described pushing block 10.19 empty capacitor box is pushed to next station; The first adapter plate 10.8 is fixed on the frame 15, be installed with two First Line rails 10.5 that be arranged in parallel on the first adapter plate 10.8, First Line rail 10.5 is provided with the first slide block 10.4 with its formation moving sets, and described the first slide block 10.4 is fixed on the shifting board 10.24; Two starting staves 10.7 vertically are fixed on the shifting board 10.24, connect by pipe link 10.26 between two starting staves 10.7, described joint 10.15 is fixed on the pipe link 10.26, four-cylinder 10.16 one ends are fixed on the bottom of capacitor box output track 16, and the piston rod of four-cylinder 10.16 is connected with joint 10.15; Be installed with two the 3rd cylinders 10.3 that vertically arrange on the described shifting board 10.24, the rod end of two the 3rd cylinders 10.3 connects the second riser 10.11 by joint, two the second risers 10.11 are positioned at two starting stave 10.7 outsides, fixed installation the second slide block 10.6 on the second riser 10.11 medial surfaces, be fixed with the second line rail 10.27 on starting stave 10.7 lateral surfaces, the second slide block 10.6 and the second line rail 10.27 consist of moving sets, and the piston rod of the 3rd cylinder 10.3 drives the second riser 10.11 when flexible and moves up and down; Described stay bearing plate 10.25 is fixedly mounted on the top of two the second risers 10.11, rotary cylinder 10.12 is fixed on the stay bearing plate 10.25, the second adapter plate 10.9 is fixedly mounted on rotary cylinder 10.12 tops, and rotary cylinder 10.12 can drive 10.9 rotations of the second adapter plate; Described the first L-type bearing 10.10 is fixedly mounted on the second adapter plate 10.9, is provided with on the first L-type bearing 10.10 that roller 10.13, the second L-type bearings 10.14 are placed on the first L-type bearing 10.10 and consist of revolute pairs with roller 10.13; The second cylinder 10.2 is installed on the first L-type bearing 10.10, and the rod end of the second cylinder 10.2 is connected with the second L-type bearing 10.14, and the flexible second L-type bearing 10.14 that promotes of the piston rod of the second cylinder 10.2 moves; Described the second L-type bearing 10.14 is used for the carrying capacitor box, when the piston rod that is installed with two first cylinders, 10.1, two first cylinders 10.1 on the second L-type bearing 10.14 stretches out capacitor box is pushed on the capacitor box output track 16.
During concrete the application, the course of action that transmits capacitor box mechanism 10 is as follows:
Capacitor box is held by supporting plate 10.18 and is spacing by guide plate 10.17, after filling electric capacity in the capacitor box, Rodless cylinder 10.20 actions, the slider-actuated pushing block 10.19 of Rodless cylinder 10.20 is transported to next station with empty capacitor box, by Rodless cylinder 9.2, pushing block 9.6 will be expired capacitor box and be pushed on the second L-type bearing 10.14, two the 3rd cylinders, 10.3 piston rods stretch out, driving the second riser 10.11 moves up, driving simultaneously the second adapter plate 10.9 moves up, so that the second L-type bearing 10.14 one end height are high and capacitor box output track 16, then rotary cylinder 10.12 actions, drive 10.9 rotations of the second adapter plate, thereby make the first L-type bearing 10.10 and the second L-type bearing 10.14 90-degree rotations, the capacitor box of filling electric capacity is 90-degree rotation thereupon also, be installed in the second cylinder 10.2 actions on the first L-type bearing 10.10, the piston rod of the second cylinder 10.2 stretches out and to promote the second L-type bearing 10.14 close to capacitor box output track 16, when the second L-type bearing 10.14 docks with capacitor box output track 16, be installed in two first cylinders, 10.1 actions on the second L-type bearing 10.14, the piston rod of two first cylinders 10.1 stretches out, capacitor box is pushed on the capacitor box output track 16, then two the 3rd cylinders, 10.3 piston rods are retracted, and drive the second riser 10.11 and move down.

Claims (9)

1. electric capacity shaping wrapping machine, it is characterized in that: involving vibrations dish (1), connecting gear (2), vertical propelling movement are expected mechanism (3), vertical reshaping device (4), crosswise pushing material mechanism (11), horizontal reshaping device (5), cutting mechanism (6), conveying mechanism (7), arrangement capacitor mechanism (8), are pushed away capacitor box mechanism (9) and transmission capacitor box mechanism (10), described vibrating disk (1) is used for realizing the automatic charging of electric capacity, and electric capacity is delivered to connecting gear (2) through vibrating disk (1); Described connecting gear (2) is installed on the erecting frame (14), electric capacity is delivered to vertical propelling movement material mechanism (3) through connecting gear (2), the electric capacity transfer passage entrance location place of described vertical propelling movement material mechanism (3) is provided with first sensor (12), when the electric capacity that transmits is run into first sensor (12), vertically push material mechanism (3) action, make electric capacity become longitudinal movement by former cross motion; Described vertical reshaping device (4) is arranged on vertical propelling movement material mechanism (3) side, vertically reshaping device (4) is installed on the erecting frame (14), the electric capacity of carrying by vertical propelling movement material mechanism (3) process under vertical reshaping device (4), vertically reshaping device (4) carries out shaping to capacitor pin; Described crosswise pushing material mechanism (11) is installed on the erecting frame (14), the electric capacity transfer passage import of crosswise pushing material mechanism (11) links to each other in turn with the electric capacity transfer passage outlet that vertically pushes material mechanism (3), the electric capacity transfer passage inflow point of crosswise pushing material mechanism (11) is provided with the second sensor (13), when the electric capacity that transmits is run into the second sensor (13), crosswise pushing material mechanism (11) action makes electric capacity become cross motion by former longitudinal movement again; Described horizontal reshaping device (5) is arranged on crosswise pushing material mechanism (11) side, laterally reshaping device (5) is installed on the erecting frame (14), the electric capacity of carrying by crosswise pushing material mechanism (11) process under the horizontal reshaping device (5), laterally reshaping device (5) carries out horizontal shaping to electric capacity; Described cutting mechanism (6) is arranged on crosswise pushing material mechanism (11) side and is positioned at described horizontal reshaping device (5) afterwards, cutting mechanism (6) is installed on the erecting frame (14), the electric capacity of carrying by crosswise pushing material mechanism (11) passes through under cutting mechanism (6) through the electric capacity after the horizontal shaping, cutting mechanism (6) cuts capacitor pin, and cut pin is taken away by air suctiton ventilator; The electric capacity transfer passage import of described conveying mechanism (7) is connected with the outlet of the electric capacity transfer passage of crosswise pushing material mechanism (11), the electric capacity of well cutting is delivered on the conveying mechanism (7) under crosswise pushing material mechanism (11) effect, and electric capacity is transported under conveying mechanism (7) effect and arranges on the capacitor mechanism (8); Described arrangement capacitor mechanism (8) is installed on the frame (15), arranges capacitor mechanism (8) electric capacity is arranged, and the electric capacity that arranges is transported in the empty capacitor box that transmits in the capacitor box mechanism (10); The described capacitor box mechanism (9) that pushes away is installed on the frame (15), pushes away capacitor box mechanism (9) and is used for empty capacitor box is positioned, and realizes that simultaneously will expire the electric capacity magazine shifts next station onto; Described transmission capacitor box mechanism 10 is installed on the frame 15, realizes on the one hand carrying empty capacitor box function, realizes on the one hand that in addition will expire the electric capacity magazine pushes on the capacitor box output track.
2. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described connecting gear (2) comprises the first roller shaft (2.1), the first gear (2.2), the second gear (2.3), motor (2.4), the 3rd gear (2.5), the 4th gear (2.6), the second roller shaft (2.7), the first set screw (2.8), bearing seat (2.9), adjustable guide plate (2.10), the second set screw (2.11), adjustable live roller (2.12), live roller (2.13), fixed guide plate (2.14), gear case (2.15), case lid (2.16), contiguous block (2.17), the first spring (2.18), pinch roller (2.19), the second spring (2.20), nut (2.21), anchor shaft (2.22), supporting seat (2.23) and permanent seat (2.25); Motor (2.4) is fixedly mounted on the gear case (2.15), and the 3rd gear (2.5) is installed on the output shaft of motor (2.4); The second gear (2.3) is arranged on the 3rd gear (2.5) side, the second gear (2.3) is installed on the anchor shaft (2.22) by bearing, described anchor shaft (2.22) is fixedly mounted in the gear case (2.15), and the second gear (2.3) is meshed with the 3rd gear (2.5); Described case lid (2.16) is provided with for the long arc-shaped holes (2.24) that the second roller shaft (2.7) is installed, the second roller shaft (2.7) is installed on the case lid (2.16) by bearings, the 4th gear (2.6) is fixedly mounted on the second roller shaft (2.7) lower end, and the 4th gear (2.6) is meshed with the 3rd gear (2.5); Described bearing seat (2.9) one ends are installed on the permanent seat (2.25) by bearing, bearing seat (2.9) other end is installed on the second roller shaft (2.7), contiguous block (2.17) is fixed on the described bearing seat (2.9), described the first set screw (2.8) spiral shell is contained on the gear case (2.15), the inner of the first set screw (2.8) is threaded with described contiguous block (2.17), regulate that the first set screw (2.8) can drive contiguous block (2.17) and bearing seat (2.9) swings around permanent seat (2.26), thereby it is mobile along long arc-shaped holes (2.24) to drive the second roller shaft (2.7), is installed in parts on the second roller shaft (2.7) also along with synchronizing moving; Described bearing seat is fixed with screw on (2.9), and the first spring (2.18) one ends are connected with screw on the bearing seat (2.9), and the first spring (2.18) other end is connected with screw on being fixed on gear case (2.15); Described the first roller shaft (2.1) is installed in the supporting seat (2.23) by bearing, supporting seat (2.23) is fixed on the case lid (2.16), the first gear (2.2) is installed in the first roller shaft (2.1) lower end, and the first gear (2.2) is meshed with the second gear (2.3); Described live roller (2.13) is fixedly mounted on the first roller shaft (2.1) by bearing, described adjustable live roller (2.12) is fixedly mounted on the second roller shaft (2.7) by bearing, also be set with the second spring (2.20) and difference mounting nuts (2.21) on described the first roller shaft (2.1), the second roller shaft (2.7), the second spring (2.20) one ends are by nut (2.21) restriction, and the second spring (2.20) other end withstands the pinch roller (2.19) that compresses live roller (2.13), adjustable live roller (2.12) top; Described adjustable guide plate (2.10) and fixed guide plate (2.14) are arranged on case lid (2.16) top and are parallel to each other, and adjustable guide plate (2.10) is the electric capacity transfer passage with fixed guide plate (2.14); The second set screw (2.11) is installed on the case lid (2.16), the second set screw (2.11) is threaded with adjustable guide plate (2.10), regulate the second set screw (2.11) and can drive adjustable guide plate (2.10) movement, thereby change the distance between adjustable guide plate (2.10) and the fixed guide plate (2.14).
3. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described vertical propelling movement material mechanism (3) comprises vertical pusher cylinder (3.1) and two longitudinally guiding plates (3.2), two longitudinally guiding plates (3.2) be arranged in parallel and are fixedly mounted on the erecting frame (14), the electric capacity transfer passage between two longitudinally guiding plates (3.2), described vertical pusher cylinder (3.1) is arranged on over against the position of electric capacity transfer passage import, and vertically the rod end of pusher cylinder (3.1) is equipped with for the pushing head that pushes electric capacity;
Described vertical reshaping device (4) comprises the first fork (4.1), joint (4.2), cylinder (4.3), riser (4.4), the second fork (4.5), slide block (4.6), take-up housing (4.7), dressing stick (4.8), correction module (4.9), anchor shaft (4.10), connecting panel (4.11), set screw (4.12) and L-type seat (4.13); L-type seat (4.13) is across vertically pushing two the longitudinally guiding plates (3.2) in the material mechanism (3) and being fixedly mounted on the erecting frame (14), set screw (4.12) is threaded in L-type seat (4.13) top, and riser (4.4) is threaded with set screw (4.12) by the contiguous block at its rear portion; Cylinder (4.3) is fixedly mounted on the riser (4.4), and the rod end of cylinder (4.3) is equipped with joint (4.2); Described the first fork (4.1), have the waist hole on one end of the second fork (4.5), the first fork (4.1), the second fork (4.5) one ends are by being contained in axle and bearing and joint (4.2) hinge in the described waist hole, described the first fork (4.1), the second fork (4.5) is L shaped, described the first fork (4.1), the middle kink of the second fork (4.5) is installed on two anchor shafts (4.10) by bearing respectively, two anchor shafts (4.10) are fixedly mounted on the riser (4.4), and the piston rod of cylinder (4.3) can drive the first fork (4.1) when flexible, the second fork (4.5) swings around anchor shaft; Described the first fork (4.1), the second fork (4.5) other end are hinged with a slide block (4.6) respectively, slide block (4.6) consists of moving sets with take-up housing (4.7), described take-up housing (4.7) is fixed on the riser (4.4), and the first fork (4.1), the second fork (4.5) are with movable slider (4.6) mobile along take-up housing (4.7) when anchor shaft (4.10) swings; Described dressing stick (4.8) has two, two dressing sticks (4.8) are oppositely arranged, be separately fixed on two slide blocks (4.6), described correction module (4.9) is arranged between two dressing sticks (4.8), correction module (4.9) is fixed on connecting panel (4.11), connecting panel (4.11) is fixed on the riser (4.4), and described correction module (4.9) and dressing stick (4.8) cooperatively interact, and the pin of electric capacity is carried out vertical shaping.
4. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described crosswise pushing material mechanism (11) comprises horizontal pusher cylinder (11.1) and two transverse guide fences (11.2), two transverse guide fences (11.2) be arranged in parallel and are fixedly mounted on the erecting frame (14), the electric capacity transfer passage between two transverse guide fences (11.2), described horizontal pusher cylinder (11.1) is arranged on over against the position of electric capacity transfer passage import, and laterally the rod end of pusher cylinder (11.1) is equipped with for the pushing head that pushes electric capacity;
Described horizontal reshaping device (5) comprises the first fork (5.1), joint (5.2), cylinder (5.3), riser (5.4), the second fork (5.5), slide block (5.6), take-up housing (5.7), dressing stick (5.8), anchor shaft (5.9), set screw (5.10) and L-type seat (5.11); L-type seat (5.11) is across two transverse guide fences (11.2) in the crosswise pushing material mechanism (11) and be fixedly mounted on the erecting frame (14), set screw (5.10) is threaded in L-type seat (5.11) top, and riser (5.4) is threaded with set screw (5.10) by the contiguous block at its rear portion; Cylinder (5.3) is fixedly mounted on the riser (5.4), the rod end of cylinder (5.3) is equipped with joint (5.2), described joint (5.2) respectively with the first fork (5.1), one end of the second fork (5.5) is hinged by axle and bearing, described the first fork (5.1), the second fork (5.5) is L shaped, described the first fork (5.1), the middle kink of the second fork (5.5) is installed on two anchor shafts (5.9) by bearing respectively, two anchor shafts (5.9) are fixedly mounted on the riser (5.4), the piston rod of cylinder (5.3) can drive the first fork (5.1) when flexible, the second fork (5.5) swings around anchor shaft, described the first fork (5.1), the second fork (5.5) other end is hinged with a slide block (5.6) respectively, slide block (5.6) consists of moving sets with take-up housing (5.7), described take-up housing (5.7) is fixed on the riser (5.4), the first fork (5.1), the second fork (5.5) is with movable slider (5.6) mobile along take-up housing (5.7) when anchor shaft (5.9) swings; Described dressing stick (5.8) has two, and two dressing sticks (5.8) are oppositely arranged, and is separately fixed on two slide blocks (5.6), and two dressing sticks cooperatively interact, and electric capacity is carried out horizontal shaping.
5. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described cutting mechanism (6) comprises movable tool rest (6.1), pressing plate (6.2), Connection Block (6.3), cutting knife (6.4), cylinder block (6.5), cylinder push pedal (6.6), joint (6.7), cylinder (6.8), positioning guide rail (6.9), right angle seat (6.10), set screw (6.11), Immovable support (6.12) and exhaust column (6.13); Right angle seat (6.10) is fixed on the erecting frame (14), and described set screw (6.11) is threaded on the right angle seat (6.10), and set screw (6.11) is threaded with cylinder block (6.5), and cylinder block (6.5) is fixed on the Connection Block (6.3); Described Immovable support (6.12) is fixed on the Connection Block (6.3), and exhaust column (6.13) is fixed on the Immovable support (6.12), and cutting knife (6.4) is fixed on the exhaust column (6.13); Described cylinder (6.8) is fixedly mounted on the cylinder block (6.5), the rod end of cylinder (6.8) joint (6.7) that is spirally connected, described joint (6.7) is hinged with cylinder push pedal (6.6), be connected by spring between cylinder push pedal (6.6) and the pressing plate (6.2), pressing plate (6.2) is arranged in the movable tool rest (6.1) and with movable tool rest (6.1) and consists of moving sets, described movable tool rest (6.1) matches with cutting knife (6.4), is used for cutting off the pin of electric capacity; Described movable tool rest (6.1) is fixed on the slide block (6.14), and slide block (6.14) consists of moving sets with the positioning guide rail (6.9) that is fixed on right angle seat (6.10) leading flank.
6. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described conveying mechanism (7) comprises the first roller (7.1), load-transfer device (7.2), the second roller (7.3), motor (7.4), driving wheel (7.5), the 3rd roller (7.6), the 4th roller (7.7), deflector apron (7.8) and stay bearing plate (7.9); Two deflector aprons (7.8) are arranged in parallel and are fixed on the stay bearing plate (7.9), are the electric capacity transfer passages between two deflector aprons (7.8); Motor (7.4) is arranged under the stay bearing plate (7.9), driving wheel (7.5) is installed on the output shaft of motor (7.4), the first roller (7.1), the 4th roller (7.7) is separately positioned on the two ends of two deflector aprons (7.8), the second roller (7.3), the 3rd roller (7.6) is separately positioned on the both sides of driving wheel (7.5) top, described load-transfer device (7.2) is around the first roller (7.1), the second roller (7.3), driving wheel (7.5), on the 3rd roller (7.6) and the 4th roller (7.7), load-transfer device (7.2) is corresponding to the electric capacity transfer passage between two deflector aprons (7.8).
7. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described arrangement capacitor mechanism (8) comprises the first cylinder (8.1), the first push pedal (8.2), roller (8.3), the second push pedal (8.4), the second cylinder (8.5), the 3rd push pedal (8.6), the 3rd cylinder (8.7), slide block (8.8), four-cylinder (8.9), the 4th push pedal (8.10), deck plate (8.11), roller shaft (8.12), connecting panel (8.13), cliding seat (8.14), First Line rail (8.15), the second line rail (8.16) and the 3rd line rail; Described deck plate offers roller mounting slot on (8.11), described roller mounting slot is over against the electric capacity transfer passage outlet of conveying mechanism (7), by roller shaft (8.12) support one row roller (8.3) is installed in the roller mounting slot, the electric capacity that transports from conveying mechanism (7) is arranged on the roller (8.3); Described the first cylinder (8.1) is arranged on the roller mounting slot left side, the first cylinder (8.1) is fixed on the deck plate (8.11), the rod end of the first cylinder (8.1) connects the first push pedal (8.2), the electric capacity that the first push pedal (8.2) is used for will being arranged on the roller (8.3) is pushed the right side to, described the first push pedal (8.2) is fastened on the slide block of First Line rail (8.15), and First Line rail (8.15) is fixedly mounted on the deck plate (8.11); Described the second cylinder (8.5), the 3rd cylinder (8.7) are arranged on the roller mounting slot right side, the second cylinder (8.5) and the first cylinder (8.1) vis-a-vis, the second cylinder (8.5) is fixed on the deck plate (8.11), the rod end of the second cylinder (8.5) connects the second push pedal (8.4), the second push pedal (8.4) is used for the position of restriction right side one column capacitance, described the second push pedal (8.4) is fastened on the slide block of the second line rail (8.16), and the second line rail (8.16) is fixedly mounted on the deck plate (8.11); Described cliding seat (8.14) is arranged on deck plate (8.11) below, cliding seat (8.14) is fixedly connected on the deck plate (8.11) by connecting panel (8.13), cliding seat (8.14) is provided with the slide block (8.8) with its formation moving sets, described four-cylinder (8.9) is fixed on the cliding seat (8.14), the rod end connection sliding block (8.8) of four-cylinder (8.9), the 4th push pedal (8.10) is fixed on the slide block (8.8), and the piston rod of four-cylinder (8.9) stretches out and can promote the 4th push pedal (8.10) upwards; Roller mounting slot right side opening on the described deck plate (8.11) is provided with slotted eye, and described the 4th push pedal (8.10) can upwards pass from slotted eye, and the electric capacity after arranging limits the position of left side one column capacitance by the 4th push pedal (8.10); Described the 3rd cylinder (8.7) is arranged vertically with the second cylinder 8.5, the 3rd cylinder (8.7) is fixed on the deck plate (8.11), the rod end of the 3rd cylinder (8.7) connects the 3rd push pedal (8.6), it is parallel with the direct of travel of electric capacity on roller (8.3) that the piston rod of the 3rd cylinder (8.7) stretches out direction, electric capacity after the 3rd push pedal (8.6) is used for arranging is pushed in the empty capacitor box that transmits in the capacitor box mechanism (10), described the 3rd push pedal (8.6) is fastened on the slide block of the 3rd line rail, and the 3rd line rail is fixedly mounted on the deck plate (8.11).
8. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: the described capacitor box mechanism (9) that pushes away comprises the first sleeve (9.1), Rodless cylinder (9.2), swing arm (9.3), the second sleeve (9.4), riser (9.5), pushing block (9.6), cylinder (9.7), the first S. A. (9.8), the second S. A. (9.9), pipe link (9.10), pivoted arm (9.11) and centering block (9.12); Riser (9.5) vertically is installed on the frame (15), be provided with the passage that enters capacitor box be used to the electric capacity after arranging under the riser (9.5), the first sleeve (9.1) is fixed on the riser (9.5), the first S. A. (9.8) is assemblied in the first sleeve (9.1) by bearings, two the second sleeves (9.4) are fixed on the riser (9.5), by bearing assemble second S. A. (9.9) is arranged respectively in two the second sleeves (9.4), one end of two the second S. A.s (9.9) is fixedly swing arm (9.3) respectively, the other end of two the second S. A.s (9.9) is separately installed with pivoted arm (9.11), pivoted arm (9.11) on two the second S. A.s (9.9) is hinged with two rod ends that are hinged at the cylinder (9.7) on the riser (9.5) respectively, flexible the second S. A. (9.9) that drives of the piston rod of cylinder (9.7) rotates, thereby driving swing arm (9.3) swings, swing arm (9.3) is used for locating the position of empty capacitor box, so that the electric capacity after arranging can enter the sky capacitor box smoothly; Described Rodless cylinder (9.2) one ends are fixed on the first S. A. (9.8), Rodless cylinder (9.2) other end is connected 9.12 with centering block by pipe link (9.10)) be connected with distance the first S. A. (9.8) second S. A. (9.9) far away, be fixed wtih the pushing block (9.6) for the promotion capacitor box on the slide block of Rodless cylinder (9.2).
9. electric capacity shaping wrapping machine as claimed in claim 1, it is characterized in that: described transmission capacitor box mechanism (10) comprises the first cylinder (10.1), the second cylinder (10.2), the 3rd cylinder (10.3), the first slide block (10.4), First Line rail (10.5), the second slide block (10.6), starting stave (10.7), the first adapter plate (10.8), the second adapter plate (10.9), the first L-type bearing (10.10), the second riser (10.11), rotary cylinder (10.12), roller (10.13), the second L-type bearing (10.14), joint (10.15), four-cylinder (10.16), guide plate (10.17), supporting plate (10.18), pushing block (10.19), Rodless cylinder (10.20), pipe link (10.21), the first connecting panel (10.22), the second connecting panel (10.23), shifting board (10.24), stay bearing plate (10.25), pipe link (10.26) and the second line rail (10.27); Described supporting plate (10.18) is fixedly mounted on the frame (15), and supporting plate (10.18) is used for holding capacitor box, and described guide plate (10.17) is fixed on supporting plate (10.18) sidepiece, and guide plate (10.17) is used for spacing capacitor box; Described Rodless cylinder (10.20) is fixed on the frame (15), the slide block of Rodless cylinder (10.20) is connected with the first connecting panel (10.22) by the second connecting panel (10.23), the first connecting panel (10.22) is connected and fixed by pipe link (10.21) and pushing block (10.19), and Rodless cylinder (10.20) drives described pushing block (10.19) empty capacitor box is pushed to next station; The first adapter plate (10.8) is fixed on the frame (15), be installed with two First Line rails (10.5) that be arranged in parallel on the first adapter plate (10.8), First Line rail (10.5) is provided with the first slide block (10.4) with its formation moving sets, and described the first slide block (10.4) is fixed on the shifting board (10.24); Two starting staves (10.7) vertically are fixed on the shifting board (10.24), connect by pipe link (10.26) between two starting staves (10.7), described joint (10.15) is fixed on the pipe link 10.26, four-cylinder (10.16) one ends are fixed on the bottom of capacitor box output track (16), and the piston rod of four-cylinder (10.16) is connected with joint (10.15); Be installed with two the 3rd cylinders (10.3) that vertically arrange on the described shifting board (10.24), the rod end of two the 3rd cylinders (10.3) connects the second riser (10.11) by joint, two the second risers (10.11) are positioned at two starting staves (10.7) outside, fixed installation the second slide block (10.6) on the second riser (10.11) medial surface, be fixed with the second line rail (10.27) on starting stave (10.7) lateral surface, the second slide block (10.6) consists of moving sets with the second line rail (10.27), and the piston rod of the 3rd cylinder (10.3) drives the second riser (10.11) when flexible and moves up and down; Described stay bearing plate (10.25) is fixedly mounted on the top of two the second risers (10.11), rotary cylinder (10.12) is fixed on the stay bearing plate (10.25), the second adapter plate (10.9) is fixedly mounted on rotary cylinder (10.12) top, and rotary cylinder (10.12) can drive the second adapter plate (10.9) rotation; Described the first L-type bearing (10.10) is fixedly mounted on the second adapter plate (10.9), be provided with roller (10.13) on the first L-type bearing (10.10), the second L-type bearing (10.14) is placed on the first L-type bearing (10.10) upward and consists of revolute pair with roller (10.13); The second cylinder (10.2) is installed on the first L-type bearing (10.10), and the rod end of the second cylinder (10.2) is connected with the second L-type bearing (10.14), and the flexible second L-type bearing (10.14) that promotes of the piston rod of the second cylinder (10.2) moves; Described the second L-type bearing (10.14) is used for the carrying capacitor box, be installed with two first cylinders (10.1) on the second L-type bearing (10.14), when the piston rod of two first cylinders (10.1) stretches out capacitor box pushed on the capacitor box output track (16).
CN 201220320206 2012-07-03 2012-07-03 Capacitor shaping packer Withdrawn - After Issue CN202717072U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220320206 CN202717072U (en) 2012-07-03 2012-07-03 Capacitor shaping packer

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Application Number Priority Date Filing Date Title
CN 201220320206 CN202717072U (en) 2012-07-03 2012-07-03 Capacitor shaping packer

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Publication Number Publication Date
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102745365A (en) * 2012-07-03 2012-10-24 无锡先导自动化设备股份有限公司 Capacitor shaping and packaging machine
CN105217081A (en) * 2015-07-17 2016-01-06 广州紫怡机电有限公司 A kind of even bag auto arrangement combination unit
CN111169747A (en) * 2020-01-19 2020-05-19 温州源利智能科技有限公司 Electronic chip packaging equipment and method

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102745365A (en) * 2012-07-03 2012-10-24 无锡先导自动化设备股份有限公司 Capacitor shaping and packaging machine
CN102745365B (en) * 2012-07-03 2014-01-08 无锡先导自动化设备股份有限公司 Capacitor shaping and packaging machine
CN105217081A (en) * 2015-07-17 2016-01-06 广州紫怡机电有限公司 A kind of even bag auto arrangement combination unit
CN105217081B (en) * 2015-07-17 2017-04-12 广州紫怡机电有限公司 Automatic arranging combination device for connected bags
CN111169747A (en) * 2020-01-19 2020-05-19 温州源利智能科技有限公司 Electronic chip packaging equipment and method
CN111169747B (en) * 2020-01-19 2021-08-20 温州华邦安全封条股份有限公司 Electronic chip packaging equipment and method

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