CN109048376A

CN109048376A - Realize the assembly line equipment and method of manufacturing technology of chip pin high speed manufacture

Info

Publication number: CN109048376A
Application number: CN201811165043.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Wenzhou City Pui Kai Fu Automation Technology Co Ltd
Current assignee: Wenzhou City Pui Kai Fu Automation Technology Co Ltd
Priority date: 2017-02-24
Filing date: 2017-02-24
Publication date: 2018-12-21
Also published as: CN108436479A; CN109048380A; CN108436482A; CN108687527A; CN108788742A; CN109048375A; CN109048378A; CN109048379A; CN108714789A; CN106799594A; CN109048377A

Abstract

The present invention relates to a kind of industrial manufacturing apparatus and methods, and the special equipment and method of processing operation are realized more specifically to a kind of pin for power chip.The present invention realizes the assembly line equipment of chip pin high speed manufacture, include: workbench, the feeding machanism for providing power chip, the bending mechanism for realizing bending to the pin of the power chip, the cutting mechanism for realizing shearing to the pin, realize the step feeder carried to the power chip, the feeding machanism is fixed on the workbench, the track of the feeding machanism is connected to the step feeder, and the side of the step feeder is provided with the bending mechanism and cutting mechanism.It realizes the assembly line equipment of chip pin high speed manufacture, for realizing the full-automatic bending and shearing of power chip pin, realizes that unmanned operation, work efficiency is high, formed precision is high.

Description

Realize the assembly line equipment and method of manufacturing technology of chip pin high speed manufacture

Technical field

The application is divisional application, and the application number of female case is: 2017101034051.The present invention relates to a kind of industry manufactures Device and method realize special equipment and the side of processing operation more specifically to a kind of pin for power chip Method.

Background technique

Due to the compact structure of power chip, and pin length is longer, so as to the automation difficult processing of power chip It spends larger.

It is all bending and the shearing work realized by manual work to pin on power chip now.The not only amount of labour Greatly, and machining accuracy cannot ensure.

Summary of the invention

The object of the present invention is to provide a kind of assembly lines for realizing chip pin high speed manufacture to equip for realizing function The full-automatic bending and shearing of rate chip pin realize that unmanned operation, work efficiency is high, formed precision is high；The present invention realizes The assembly line equipment of chip pin high speed manufacture by feeding machanism by power chip by orbit transports to step feeder, by Bending mechanism and cutting mechanism are respectively completed the bending and shearing of power chip pin.

A kind of assembly line equipment for realizing chip pin high speed manufacture, comprising: workbench, for providing the confession of power chip Expect mechanism, the bending mechanism for realizing bending to the pin of the power chip, realize the cutting mechanism sheared to the pin, right The power chip realizes that the step feeder carried, the feeding machanism are fixed on the workbench, the feeding machanism Track be connected to the step feeder, the side of the step feeder is provided with the bending mechanism and cutter Structure.

Preferably, feeding machanism includes: feed collet, pusher cylinder, push rod, track, divider, power chip, feed collet seat, material Folder lid, the divider are fixed on the workbench, the feed collet seat, feed collet lid, institute are fixed on the turntable of the divider It states feed collet and is fixed on the feed collet seat, feed collet lid；Pusher cylinder, the work of the pusher cylinder are provided in the middle part of the divider The end of stopper rod is fixed with push rod, and the track is fixed on the shell of the divider, where the push rod towards the track Direction, be provided with the shoving hole to match with the push rod on the feed collet seat.

Preferably, the quantity of the feed collet is eight.

Preferably, the step feeder includes: feeding cylinder, feeding sliding block, feeding guide, pawl, spring, hinge Chain, material carrier platform, the feeding guide are fixed on the workbench, and the feeding sliding block is movably connected on the feeding guide；Institute State feeding sliding block one end be fixed on the feeding cylinder piston rod end, the cylinder block of the feeding cylinder is fixed on institute State workbench；The pawl is connected to the feeding sliding block by the articulate, in the pawl and the feeding sliding block Between be provided with the spring；The top of the material carrier platform is provided with cover board, the power chip be placed in the material carrier platform and Between cover board.

Preferably, stock station, bending station, shearing station, discharging station are provided on the step feeder, The quantity of the pawl is four.

Preferably, the spring is in pressured state.

Preferably, the bending mechanism includes: No.1 cylinder, upper die and lower die, No.1 bracket, the work of the No.1 cylinder The end of stopper rod is fixed on the upper mold, and the cylinder block of the No.1 cylinder is fixed on the No.1 bracket, the upper mold activity It is connected to the No.1 bracket；The lower die is located at the lower part of the upper mold and is fixed on the No.1 bracket.

Preferably, the cutting mechanism includes: No. two cylinders, No. two brackets, upright guide rail, upper sliding block, cutter, preload Block, supporting plate, preloading spring, the cylinder block of No. two cylinders are fixed on No. two brackets, and the upright guide rail is arranged vertically In No. two brackets, the upper sliding block is movably connected on the upright guide rail, the end of the piston rod of No. two cylinders It is fixed on the upper sliding block；The cutter is fixed on the upper sliding block, and the preload block is movably connected on the upper downslide Block is provided with the preloading spring between the preload block and the upper sliding block；It is arranged in the lower part of the upper sliding block There is the supporting plate, the supporting plate is fixed on No. two brackets.

It is compared with traditional technology, the present invention realizes that the assembly line equipment of chip pin high speed manufacture has following positive effect With the utility model has the advantages that

The present invention realizes the assembly line equipment of chip pin high speed manufacture, realizes the Automatic-feeding of the power chip, described After power chip is delivered to the step feeder, bending is realized to the pin by the bending mechanism, then by described Cutting mechanism is realized the pin and is sheared, and the power chip completed the process is finally exported, and realizes to the complete of the pin Automatically, unmanned bending and shearing, work efficiency is high, machining accuracy is high.

The quantity of the feed collet is eight, and the power chip is prefilled with all feed collets.The feed collet passes through The feed collet seat and feed collet lid are fixed on the turntable.The turntable is rotated under the driving of the divider, is turned every time Dynamic angle is 45 degree of angles.At any time, the feed collet and the track always match.The pusher cylinder The end of piston rod be fixed with push rod, the direction where the push rod towards the track, be provided on the feed collet seat and The shoving hole that the push rod matches.The cylinder block of the pusher cylinder is fixed on the shell.

The piston rod of the pusher cylinder stretches out, and after the push rod enters the shoving hole, pushes and is located at the feed collet The power chip of lowest part enters in the track, and the power chip slides to the stepping feeder along the track The stock station of structure.

Start, the piston rod of the feeding cylinder is in retracted mode.The pawl is under the thrust of the spring And it is affixed on the feeding sliding block.Then the piston rod of the feeding cylinder stretches out, and the pawl pushes the power chip feeding A distance makes the power chip be moved to the bending station from the stock station.

Then, the piston rod of the feeding cylinder retracts, and the pawl touches the power core during retracting The spring is compressed after piece, and the pawl is allowed to return to original position.It is described standby to make the pawl correspond respectively to Expect station, bending station, shearing station, discharging station.And there is the power chip to enter the stock station.

Then, the bending mechanism realizes bending operation to the pin.Then, the piston rod of the feeding cylinder is stretched Out, make the pawl that the power chip be pushed to feed a distance.Make the power core for being in the bending station originally Piece reaches the shearing station, makes to reach the bending station in the power chip of the stock station originally.Then, The piston rod of the feeding cylinder retracts, and the pawl returns to original position.

Then, the cutting mechanism realizes shearing work to the pin.Then, the piston rod of the feeding cylinder is stretched Out, make the pawl that the power chip be pushed to feed a distance.Make the power core originally in the shearing station Piece reaches the discharging station, makes the power chip arrival shearing station in the bending station originally, makes original This described power chip in the stock station reaches the bending station.Then, the piston rod contracting of the feeding cylinder It returns, the pawl returns to original position.

Again and again, the feeding cylinder is constantly stretched out, is retracted, realize to the continuous bending of the pin, shearing, Output.

The course of work of the bending mechanism is described below.The power chip is located at the bending station, the pin Between the upper die and lower die.The end of the piston rod of the No.1 cylinder is fixed on the upper mold, the upper mold activity It is connected to the No.1 bracket, the piston rod of the No.1 cylinder, which stretches out, drives the upper mold to transport to the lower die direction Dynamic, the upper die and lower die close up, and realize the extrusion deformation to the pin.

The course of work of the cutting mechanism is described below.The power chip is located at the shearing station, the pin Between the cutter and supporting plate.The cylinder block of No. two cylinders is fixed on No. two brackets, and the upright guide rail is perpendicular No. two brackets are directly arranged in, the upper sliding block is movably connected on the upright guide rail, the piston rod of No. two cylinders End be fixed on the upper sliding block, the piston rod of No. two cylinders stretches out, and the preload block and cutter are to the pin Direction movement.Since the preload block first touches the pin than the cutter, the preload block is in the preloading spring Under thrust, the preload block and supporting plate realization are fixedly clamped to the pin.Then, the cutter continues fortune downwards Dynamic, the downward impact force of the cutter realizes the shearing work to the pin.

Detailed description of the invention

Fig. 1,2 be the present invention realize chip pin high speed manufacture assembly line equipment structural schematic diagram；

Fig. 3,4 be the present invention realize chip pin high speed manufacture assembly line equipment feeding machanism structural schematic diagram；

Fig. 5,6 be the present invention realize chip pin high speed manufacture assembly line equipment step feeder structural schematic diagram.

Fig. 7 is the structural schematic diagram of the bending mechanism for the assembly line equipment that the present invention realizes chip pin high speed manufacture；

Fig. 8,9,10 are the structural schematic diagrams of the cutting mechanism for the assembly line equipment that the present invention realizes chip pin high speed manufacture.

1 workbench, 2 feeding machanisms, 3 bending mechanisms, 4 cutting mechanisms, 5 step feeders, 6 feed collets, 7 push away Expect cylinder, 8 push rods, 9 tracks, 10 dividers, 11 power chips, 12 feed collet seats, 13 feed collet lids, 14 shoving holes, 15 Feeding cylinder, 16 feeding sliding blocks, 17 feeding guides, 18 pawls, 19 springs, 20 hinges, 21 material carrier platforms, 22 stock works Position, 23 bending stations, 24 shearing stations, 25 discharging stations, 26 No.1 cylinders, 27 upper molds, 28 lower dies, 29 pins, 30 No. two cylinders, 31 No. two brackets, 32 upright guide rails, sliding block on 33,34 cutters, 35 pre-tighten blocks, 36 supporting plates, 37 pre- Tight spring.

Specific embodiment

The present invention is described in further detail below in conjunction with attached drawing, but does not constitute any limitation of the invention, Similar element numbers represent similar element in attached drawing.As described above, the present invention provides a kind of realization chip pin high speeds The assembly line of manufacture is equipped, and for realizing the full-automatic bending and shearing of power chip pin, realizes unmanned operation, work effect Rate is high, formed precision is high；The present invention realizes that the assembly line equipment of chip pin high speed manufacture is led to power chip by feeding machanism Orbit transports are crossed to step feeder, the bending of power chip pin is respectively completed by bending mechanism and cutting mechanism and is cut It cuts.

Fig. 1,2 be the present invention realize chip pin high speed manufacture assembly line equipment structural schematic diagram, Fig. 3,4 are this hairs The structural schematic diagram of the feeding machanism of the bright assembly line equipment for realizing chip pin high speed manufacture, Fig. 5,6 are that the present invention realizes core The structural schematic diagram of the step feeder of the assembly line equipment of piece pin high speed manufacture, Fig. 7 are that the present invention realizes chip pin The structural schematic diagram of the bending mechanism of the assembly line equipment of high speed manufacture, Fig. 8,9,10 are that the present invention realizes that chip pin high speed is made The structural schematic diagram of the cutting mechanism for the assembly line equipment made.

The present invention realizes the assembly line equipment of chip pin high speed manufacture, comprising: workbench 1, for providing power chip 11 feeding machanism 2, is cut the pin 29 realization the bending mechanism 3 that bending is realized to the pin 29 of the power chip 11 The cutting mechanism 4 cut, the step feeder 5 carried to the power chip 11 realization, the feeding machanism 2 are fixed on described Workbench 1, the track 9 of the feeding machanism 2 are connected to the step feeder 5, and the side of the step feeder 5 is set It is equipped with the bending mechanism 3 and cutting mechanism 4.

More specifically, feeding machanism 2 includes: 6 feed collets, pusher cylinder 7, push rod 8, track 9, divider 10, power chip 11, feed collet seat 12, feed collet lid 13, the divider 10 are fixed on the workbench 1, are connected on the turntable 39 of the divider 10 There are the feed collet seat 12, feed collet lid 13, the feed collet 6 is fixed on the feed collet seat 12, feed collet lid 13；In the divider 10 Portion is provided with pusher cylinder 7, and the end of the piston rod of the pusher cylinder 7 is fixed with push rod 8, and the track 9 is fixed on described The shell 38 of divider 10, the direction where the push rod 8 towards the track 9, be provided on the feed collet seat 12 with it is described The shoving hole 14 that push rod 8 matches.

More specifically, the quantity of the feed collet 6 is eight.

More specifically, the step feeder 5 includes: feeding cylinder 15, feeding sliding block 16, feeding guide 17, pawl 18, spring 19, hinge 20, material carrier platform 21, the feeding guide 17 are fixed on the workbench 1,16 activity of feeding sliding block It is connected to the feeding guide 17；One end of the feeding sliding block 16 is fixed on the end of the piston rod of the feeding cylinder 15, The cylinder block of the feeding cylinder 15 is fixed on the workbench 1；The pawl 18 is movably connected on institute by the hinge 20 Feeding sliding block 16 is stated, the spring 19 is provided between the pawl 18 and the feeding sliding block 16；The material carrier platform 21 Top is provided with cover board 40, and the power chip 11 is placed between the material carrier platform 21 and cover board 40.

More specifically, be provided on the step feeder 5 stock station 22, bending station 23, shearing station 24, Discharge station 25, and the quantity of the pawl 18 is four.

More specifically, the spring 19 is in pressured state.

More specifically, the bending mechanism 3 includes: No.1 cylinder 26, upper mold 27, lower die 28, No.1 bracket 41, described one The end of the piston rod of number cylinder 26 is fixed on the upper mold 27, and the cylinder block of the No.1 cylinder 26 is fixed on the No.1 branch Frame 41, the upper mold 27 are movably connected on the No.1 bracket 41；The lower die 28 is located at the lower part of the upper mold 27 and is connected In the No.1 bracket 41.

More specifically, the cutting mechanism 4 includes: 30, No. two brackets 31, upright guide rail 32, upper sliding blocks of No. two cylinders 33, cutter 34, preload block 35, supporting plate 36, preloading spring 37, the cylinder block of No. two cylinders 30 are fixed on No. two brackets 31, the upright guide rail 32 is vertically disposed to No. two brackets 31, and the upper sliding block 33 is movably connected on described leads vertically The end of rail 32, the piston rod of No. two cylinders 30 is fixed on the upper sliding block 33；The cutter 34 is fixed on described Sliding block 33, the preload block 35 are movably connected on the upper sliding block 33, in the preload block 35 and the upper sliding block 33 Between be provided with the preloading spring 37；The lower part of the upper sliding block 33 is provided with the supporting plate 36, the supporting plate 36 is solid It is connected in No. two brackets 31.

Below in conjunction with Fig. 1 to 10, the work that the present invention realizes the assembly line equipment of chip pin high speed manufacture is further described Make principle and the course of work:

The present invention realizes the assembly line equipment of chip pin high speed manufacture, realizes the Automatic-feeding of the power chip 11, institute It states after power chip 11 is delivered to the step feeder 5, bending is realized to the pin 29 by the bending mechanism 3, is connect The pin 29 realized by the cutting mechanism 4 shear, finally export the power chip completed the process, realize to institute Full-automatic, the unmanned bending and shearing of pin 29 are stated, work efficiency is high, machining accuracy is high.

The quantity of the feed collet 6 is eight, and the power chip 11 is prefilled with all feed collets 6.The feed collet 6 The turntable 39 is fixed on by the feed collet seat 12 and feed collet lid 13.The turntable 39 under the driving of the divider 10 into Row rotation, the angle rotated every time are 45 degree of angles.At any time, always there is 9 phase of a feed collet 6 and the track Match.The end of the piston rod of the pusher cylinder 7 is fixed with push rod 8, the direction where the push rod 8 towards the track 9, institute State the shoving hole 14 for being provided on feed collet seat 12 and matching with the push rod 8.The cylinder block of the pusher cylinder 7 is fixed on described Shell 38.

The piston rod of the pusher cylinder 7 stretches out, and after the push rod 8 enters the shoving hole 14, pushes and is located at the material The power chip 11 of the lowest part of folder 6 enters in the track 9, and the power chip 11 slides to institute along the track 9 State the stock station 22 of step feeder 5.

Start, the piston rod of the feeding cylinder 15 is in retracted mode.Thrust of the pawl 18 in the spring 19 Effect is lower and is affixed on the feeding sliding block 16.Then the piston rod of the feeding cylinder 15 stretches out, and the pawl 18 pushes described Power chip 11 feeds a distance, and the power chip 11 is made to be moved to the bending station 23 from the stock station 22.

Then, the piston rod of the feeding cylinder 15 retracts, and the pawl 18 touches the function during retracting The spring 19 is compressed after rate chip 11, and the pawl 18 is allowed to return to original position.To make the pawl 18 distinguish Corresponding to the stock station 22, bending station 23, shearing station 24, discharging station 25.And there is the power core Piece 11 enters the stock station 22.

Then, the bending mechanism 3 realizes bending operation to the pin 29.Then, the piston of the feeding cylinder 15 Bar stretches out, and makes the pawl 18 that the power chip 11 be pushed to feed a distance.Make to be in the bending station 23 originally The power chip 11 reaches the shearing station 24, makes to reach in the power chip 11 of the stock station 22 originally The bending station 23.Then, the piston rod of the feeding cylinder 15 retracts, and the pawl 18 returns to original position.

Then, the cutting mechanism 4 realizes shearing work to the pin 29.Then, the piston of the feeding cylinder 15 Bar stretches out, and makes the pawl 18 that the power chip 11 be pushed to feed a distance.Make originally in the shearing station 24 The power chip 11 reaches the discharging station 25, makes the arrival of the power chip 11 in the bending station 23 originally The shearing station 24 makes to reach the bending station 23 in the power chip 11 of the stock station 22 originally.It connects , the piston rod of the feeding cylinder 15 retracts, and the pawl 18 returns to original position.

Again and again, the feeding cylinder 15 is constantly stretched out, is retracted, realize continuous bending to the pin 29, Shearing, output.

The course of work of the bending mechanism 3 is described below.The power chip 11 is located at the bending station 23, described Pin 29 is between the upper mold 27 and lower die 28.The end of the piston rod of the No.1 cylinder 26 is fixed on the upper mold 27, the upper mold 27 is movably connected on the No.1 bracket 41, and the piston rod of the No.1 cylinder 26, which stretches out, drives the upper mold 27 move to 28 direction of lower die, and the upper mold 27 and lower die 28 are closed up, and realize the extrusion deformation to the pin 29.

The course of work of the cutting mechanism 4 is described below.The power chip 11 is located at the shearing station 24, described Pin 29 is between the cutter 34 and supporting plate 36.The cylinder block of No. two cylinders 30 is fixed on No. two brackets 31, The upright guide rail 32 is vertically disposed to No. two brackets 31, and the upper sliding block 33 is movably connected on the upright guide rail 32, the end of the piston rod of No. two cylinders 30 is fixed on the upper sliding block 33, and the piston rod of No. two cylinders 30 is stretched Out, the preload block 35 and cutter 34 are moved to the pin direction.Since the preload block 35 is first contacted than the cutter 34 To the pin 29, for the preload block 35 under the thrust of the preloading spring 37, the preload block 35 and supporting plate 36 are real Now being fixedly clamped to the pin 29.Then, the cutter 34 continues to move downward, and the downward impact force of the cutter 34 is real The shearing work to the pin 29 is showed.

Finally it is pointed out that above embodiments be only the present invention realize chip pin high speed manufacture assembly line equipment compared with Representational example.It is clear that the invention is not restricted to above-described embodiment, acceptable there are many deformations.It is all according to the present invention Technical spirit any simple modification, equivalent change and modification to the above embodiments are considered as belonging to guarantor of the invention Protect range.

Claims

1. a kind of assembly line equipment for realizing chip pin high speed manufacture, which is characterized in that workbench, for providing power chip Feeding machanism, bending is realized to the pin of the power chip bending mechanism, the cutter of shearing is realized to the pin Structure realizes that the step feeder carried, the feeding machanism are fixed on the workbench, the feed to the power chip The track of mechanism is connected to the step feeder, and the side of the step feeder is provided with the bending mechanism and cuts Cut mechanism；

Preferably, the step feeder includes: feeding cylinder, feeding sliding block, feeding guide, pawl, spring, hinge, load Expect that platform, the feeding guide are fixed on the workbench, the feeding sliding block is movably connected on the feeding guide；The feeding One end of sliding block is fixed on the end of the piston rod of the feeding cylinder, and the cylinder block of the feeding cylinder is fixed on the work Platform；The pawl is connected to the feeding sliding block by the articulate, sets between the pawl and the feeding sliding block It is equipped with the spring；The top of the material carrier platform is provided with cover board, the power chip be placed in the material carrier platform and cover board it Between；

The bending mechanism includes: No.1 cylinder, upper die and lower die, No.1 bracket, and the end of the piston rod of the No.1 cylinder is solid It is connected in the upper mold, the cylinder block of the No.1 cylinder is fixed on the No.1 bracket, and the upper mold is movably connected on described one Number bracket；The lower die is located at the lower part of the upper mold and is fixed on the No.1 bracket；

The power chip is located at the bending station, and the pin is between the upper die and lower die；The No.1 cylinder The end of piston rod be fixed on the upper mold, the upper mold is movably connected on the No.1 bracket, the work of the No.1 cylinder Stopper rod, which stretches out, drives the upper mold to move to the lower die direction, and the upper die and lower die close up, and realize to the pin Extrusion deformation.