CN104917028B - Full-automatic copper belt machine and copper strips riveting terminal press against the terminal machine and method of upper jacket - Google Patents

Abstract

The present invention relates to full-automatic copper belt machine and copper strips riveting terminal press against the terminal machine and method of upper jacket.Terminal machine has a work platformses and the wire agency on work platformses, electric wire cut-out apparatus for peeling off, sheath feed arrangement, the first terminal pressing device, clamping device, first relative belt conveyor structure and full-automatic copper belt machine.Its method includes divesting the insulation sheath of the first end of electric wire；The first end of electric wire is injected in the sheath provided by sheath feed arrangement；Terminal riveting is carried out to the first end of electric wire；Sheath is made tightly to entangle the terminal of the first end riveting in electric wire；Apparatus for peeling off is cut off by electric wire to cut off to form the second end by electric wire, the second end is riveted with electronic devices and components by full-automatic copper belt machine.The advantage of terminal machine and method that the full-automatic copper belt machine of the present invention and copper strips riveting terminal press against upper jacket is that structure is simpler, high degree of automation.

Description

Full-automatic copper belt machine and copper strips riveting terminal press against the terminal machine and method of upper jacket

(1) technical field

The present invention relates to full-automatic copper belt machine and copper strips riveting terminal press against the terminal machine and method of upper jacket.

(2) background technology

In order to more easily realize the electrical connection of electric wire, typically terminal is connected with its one end or two ends, is connected with terminal When one end grafting main switch or hub, need to ensure mutually non-conductive between each terminal, therefore, people require the electricity for processing Line to be furnished with the sheath of insulation.

Existing situation is that terminal machine can connect upper terminal automatically to the one or both ends of electric wire, but can not be for which certainly Screw on upper jacket dynamicly, people typically by the way of craft to the electric wire configuration sheath for processing, this not only low production efficiency, And increased the labor intensity of cost of labor and workman.

In addition, existing copper belt machine is still artificial operation, it is impossible to realize the automatization of production, cause production efficiency low and The high enterprise of cost of labor.

(3) content of the invention

In view of the shortcomings of the prior art, the first object of the present invention is to provide a kind of complete automatic copper strip machine, its knot Structure is simpler, and automatically electric wire termination and electronic devices and components can be riveted copper strips.

For achieving the above object, the present invention is employed the following technical solutions：

Full-automatic copper belt machine, including the copper strips riveting set on work platformses, electronic devices and components feed arrangement and Electric wire feed device, the copper strips riveting set include copper strips frame on work platformses, are correspondingly arranged at copper belt machine The upper die and lower die of the upper and lower side of frame, and drive upper mould that the drive mechanism of copper strips riveted is realized closer or far from the motion of lower mould, Copper strips disk is additionally provided with copper strips frame and copper strips is cut off and deliver to copper strips the copper strips shut-off mechanism of the lower mould, copper strips disk with Be provided with the feed pipe that copper strips is directed to copper strips shut-off mechanism from copper strips disk between copper strips shut-off mechanism, the upper die and lower die it Between formed riveting station；Electronic devices and components feed arrangement and electric wire feed device, by certain frequency simultaneously not by Single Electron The electric wire that components and parts and single termination insulation sheath are stripped is delivered to and is riveted on the riveting station.

The present invention can be improved by following scheme：

The electronic devices and components feed arrangement includes electronic devices and components vibrating device and the single transport path of electronic devices and components, The electronic devices and components enter the single transport path of electronic devices and components, electronics unit Jing after the vibration of electronic devices and components vibrating device is queued up The single transport path of device is placed between electronic devices and components vibrating device and copper strips riveting set.

The direction of motion of the upper mould is vertical direction, and work surface and the direction of motion of upper mould of lower mould are vertically arranged.

It is an advantage of the current invention that structure is simpler, high degree of automation can be automatically by copper strips by electric wire termination and electronics Components and parts are riveted.

In view of the shortcomings of the prior art, the second object of the present invention is that a kind of structure of offer is simpler, can be automatic The copper strips riveting terminal that sheath is put on for electric wire and terminal is stamped press against the terminal machine of upper jacket.

For achieving the above object, the present invention is employed the following technical solutions：

Full-automatic copper band riveting terminal press against the terminal machine of upper jacket, with a work platformses and on work platformses Wire agency, electric wire cut-out apparatus for peeling off, sheath feed arrangement, the first terminal pressing device, clamping device, first band transmission Mechanism and copper strips lock seaming machine；The wire agency is used for the conveying of electric wire, and the electric wire for being conveyed can be made to advance or retreat；Electric wire is cut Disconnected apparatus for peeling off is on the first processing stations, to the next electric wire cutting by wire agency conveying and to the first termination of electric wire Insulation sheath is divested；Sheath feed arrangement on the second processing stations, by certain frequency by the of single sheath supply lines Inject one end；The first terminal pressing device on the 3rd processing stations, go by the first termination for terminal riveting to be pressed onto electric wire At insulation sheath；After clamping device is used to clamp the length for having packaged the electric wire of sheath and having pulled setting, cut off by electric wire Apparatus for peeling off is cut off electric wire and forms the second end of electric wire；First relative belt conveyor structure is used for wire agency and processes work described first Position, switch between the second processing stations and the 3rd processing stations three；Copper strips lock seaming machine be it is any of the above-described it is described it is complete from Dynamic copper belt machine, electric wire feed device will be put on sheath and accomplish fluently the electric wire of first end terminal and deliver to the riveting station by electric wire the One end is riveted with electronic devices and components.

The present invention can be improved by following scheme：

Also include second belt conveyor structure and the clamping device transmitted by second belt conveyor structure, clamping device is used to clamp After having packaged the electric wire of sheath and pulling the length of setting, apparatus for peeling off is cut off by electric wire it is cut off electric wire forming electric wire the Two ends, and the electric wire clamped by which is delivered to into copper strips lock seaming machine with by electric wire first under the transmission of the second belt conveyor structure End is riveted with electronic devices and components.

Sheath feed arrangement includes sheath feed arrangement, sheath Turnoverplatform and ejecting mechanism, the sheath feed arrangement With feed block and vibrating mechanism, the feed block is provided with the feeding-passage for stacking sheath, and the vibrating mechanism acts on charging Block make sheath from the feeding-passage it is single discharge fall on the sheath Turnoverplatform and ejecting mechanism described in Jing effect And be delivered on a sheath berth.

The ejecting mechanism includes lateral cylinder arranged in a crossed manner and straight to cylinder, the lateral cylinder and directly to cylinder The cross point of piston rod extended line forms the interim berth of sheath, and the piston rod of the lateral cylinder will be single from the feeding-passage It is individual discharge push to the interim berth of sheath in the sheath Turnoverplatform upper jacket, the straight piston rod to cylinder is by sheath The sheath in interim berth is pushed on sheath berth.

The piston rod of the lateral cylinder single from the feeding-passage will be discharged on the sheath Turnoverplatform During sheath pushes to the interim berth of sheath, the discharging of the feeding-passage is blocked in the side of the piston rod of lateral cylinder Mouthful.

It is an advantage of the current invention that simple structure, high degree of automation, can stamp terminal and be for electric wire first end automatically Electric wire is put on sheath and rivets electronic devices and components for the second end of electric wire.

The third object of the present invention is to provide a kind of full automatic terminal to press against method with upper jacket, be capable of achieving be automatically Electric wire first end is stamped terminal and puts on sheath for electric wire and the purpose of electronic devices and components is riveted for the second end of electric wire.

For achieving the above object, the present invention is employed the following technical solutions：

The method that copper strips riveting terminal press against the terminal machine of upper jacket, comprises the steps：

Step one, cuts off apparatus for peeling off by electric wire in the first processing stations and shells the insulation sheath of the first end of electric wire Remove；

Electric wire is moved to the second processing stations and the first end of electric wire is injected sheath feeding dress by wire agency by step 2 Put in provided sheath；

Step 3, will move to the 3rd processing stations with the electric wire of sheath by first relative belt conveyor structure, the to electric wire One end carries out terminal riveting；

Step 4, returns to the first processing stations, and electric wire is moved back and send the first end for making sheath tightly entangle in electric wire by wire agency The terminal of riveting；

Step 5, after clamping the length for having packaged the electric wire of sheath and having pulled setting, cutting off apparatus for peeling off by electric wire will Electric wire cuts off to form the second end；

Step 6, the wire segment for having been packaged sheath by second belt conveyor structure are delivered to the 4th from the first processing stations and are added Work station, by copper strips lock seaming machine so that electronic devices and components to be riveted to the second end of electric wire.

It is an advantage of the current invention that high degree of automation, be capable of achieving terminal to be stamped for electric wire first end automatically and be electric wire Put on sheath and the purpose of electronic devices and components is riveted for the second end of electric wire.

(4) illustrate

Fig. 1 is the three-dimensional state structural representation of the terminal machine that copper strips riveting terminal press against upper jacket；

Fig. 2 is the three-dimensional state structural representation at another visual angle of the terminal machine that copper strips riveting terminal press against upper jacket；

Fig. 3 is only to show the three-dimensional state structural representation of wire agency and first relative belt conveyor structure on work platformses；

Fig. 4 is the three-dimensional state knot for only showing another visual angle of wire agency and first relative belt conveyor structure on work platformses Structure schematic diagram；

Fig. 5 is a three-dimensional state structural representation of wire agency；

Fig. 6 is the three-dimensional state structural representation at another visual angle of wire agency；

Fig. 7 is only to show wire agency, first relative belt conveyor structure and electric wire cut-out apparatus for peeling off on work platformses three Dimension status architecture schematic diagram；

Fig. 8 is only to show that wire agency, first relative belt conveyor structure and electric wire cut-out apparatus for peeling off is another on work platformses The three-dimensional state structural representation at one visual angle；

Fig. 9 is the three-dimensional state structural representation that electric wire cuts off apparatus for peeling off；

Figure 10 is the three-dimensional state structural representation at another visual angle of electric wire cut-out apparatus for peeling off；

Figure 11 is the three-dimensional state structural representation of sheath feed arrangement；

Figure 12 is that (section is through feeding-passage and laterally for a three-dimensional state cross section structure diagram of sheath feed arrangement The central shaft of the piston rod of cylinder)；

Figure 13 is that (section is through directly to the piston of cylinder for a three-dimensional state cross section structure diagram of sheath feed arrangement The central shaft of bar)；

Figure 14 is a three-dimensional state structural representation of the first terminal pressing device；

Figure 15 is three-dimensional state structural representation of the clamping device on second belt conveyor structure；

Figure 16 is the three-dimensional state structural representation at clamping device another visual angle on second belt conveyor structure.

(5) specific embodiment

Full-automatic copper band riveting terminal as shown in Figures 1 and 2 press against the terminal machine of upper jacket, flat with a job Platform 100 and the cut-out apparatus for peeling off 3 of the wire agency 2, electric wire on work platformses 100, sheath feed arrangement 5, first end Sub- pressing device 1, clamping device 4, first relative belt conveyor structure 9 and copper strips lock seaming machine 6.

The wire agency 2 is used for the conveying of electric wire, and the electric wire for being conveyed can be made to advance or retreat.

As shown in accompanying drawing 5 and accompanying drawing 6, the wire agency 2 includes line sending frame 21, at least one pair of Wire Wheel 22 and feed The line sending wheel seat 23 of 22 corresponding installation of line wheel, is provided with line sending wheel seat installation axle 24 in line sending frame 21, line sending wheel seat 23 is pacified It is mounted in and is arranged in line sending wheel seat installation axle 24, the Wire Wheel 22 can be in the 23 cofree rotation of line sending wheel seat, line sending wheel seat The lower end of installation axle 24 is connected with and makes the pair of Wire Wheel 22 relative to opposite direction rotation with the wire agency drive mechanism of line sending.

After the input and outfan of Wire Wheel 22 is each provided with line sending mouth front stall 251 and line sending mouth in the line sending frame 21 Seat 252, is provided with line sending line mouth, is connected with line sending conduit, on line sending mouth back seat 252 on line sending line mouth on line sending mouth front stall 251 It is provided with the line sending guide hole coaxial with the line sending line mouth.

Wire agency 2 has paired two group Wire Wheel 22, and 22 groups of Wire Wheel is provided with line sending line bridge 27 and group between.Institute State and extension spring (not indicating in figure) is connected between paired Wire Wheel 22 and line sending adjusting means is provided with, line sending adjusting means includes Fine setting screw mandrel 281 in line sending frame 21, can when being connected to the line sending adjustment block 282 of fine setting screw mandrel 281 lower end, rotating Adjust the elliptical blocks (not indicating in figure) being spaced between line sending wheel seat installation axle 24, and connection line sending adjustment block 282 and ellipse Block regulating rod (is not indicated in figure), and adjusting fine setting screw mandrel 281 can make connection line sending adjustment block rise for 282 times or make line sending when sinking Adjustment block 282 is rotated and drives elliptical blocks and then to rotate.

On the first processing stations, the electric wire to being conveyed by wire agency 2 enters the electric wire cut-out apparatus for peeling off 3 Row cutting and the insulation sheath to the first termination of electric wire are divested.

As shown in accompanying drawing 7 to accompanying drawing 10, electric wire cut-out apparatus for peeling off 3 includes cutting knife frame 31, upper slitter stand 321, lower knife Stand 322 and thread-cutting driving device 33, upper slitter stand 321 and lower slide seat 322 are arranged in cutting knife frame 31 and are correspondingly arranged Have a blade assembly, thread-cutting driving device 33 drive upper slitter stand 321 or lower slide seat 322 to make blade assembly with to electric wire cut-out and Peeling, the blade assembly include three groups of set of blades that are arranged in parallel and respectively having top cutter and bottom knife, positioned at middle knife Piece group is used to cut off electric wire, and the set of blades positioned at both sides is for the peeling to wire ends.

Thread-cutting driving device 33 includes motor cabinet, motor, belt pulley, synchronous belt, timing belt pulley, gear shaft, Gear shaft block, gear, tooth frame, slide block, track base, motor are arranged on motor cabinet, the output shaft connection skin of motor Belt wheel, synchronous belt connection belt pulley and timing belt pulley, the tooth inframe side side are provided with teeth groove, and the slide block can be slided Be arranged on tooth inframe and its face relative with the side that tooth frame is provided with tooth bar dynamicly and be provided with teeth groove, one end of gear shaft with it is synchronous Belt pulley is coaxial docking, and the other end is passed through gear shaft block and falls Close connection, the track base be arranged on cutting-off tool rest on, the upper slitter stand 321 or be fixedly mounted in cutting knife frame 31 and under Carriage saddle 322 is connected with the slide block, or the upper slitter stand 321 is connected with slide block and lower slide seat 322 is fixedly mounted In cutting knife frame 31.

Sheath feed arrangement 5, can be by certain frequency by the first of single sheath supply lines on the second processing stations Inject at end.

As shown in accompanying drawing 11 to accompanying drawing 13, the sheath feed arrangement 5 includes the conveyer on work platformses 100 Single sheath can be delivered to the shield by certain frequency with the sheath berth 51 for being available for sheath to berth, the conveying mechanism by structure On set berth 51.

The conveying mechanism includes sheath feed arrangement 52, sheath Turnoverplatform 53 and ejecting mechanism 54, and the sheath enters Material device 52 has feed block 521 and vibrating mechanism 522, and the feed block 521 is provided with the feeding-passage for stacking sheath, described to shake Motivation structure 522 acts on feed block 521 makes sheath single discharge from the feeding-passage fall in the sheath Turnoverplatform 53 Go up the simultaneously effect of ejecting mechanism 54 described in Jing and be delivered on the sheath berth 51.

The ejecting mechanism 54 includes lateral cylinder 541 arranged in a crossed manner and directly to cylinder 542, the lateral cylinder 541 Directly the interim berth of sheath is formed to the cross point of the piston rod extended line of cylinder 542, the piston rod of the lateral cylinder 541 will The single discharge from the feeding-passage to fall and push to the interim berth of sheath in 53 upper jacket of sheath Turnoverplatform, described straight The sheath in sheath interim berth is pushed on sheath berth 51 to the piston rod of cylinder 542.

The piston rod of the lateral cylinder 541 and straight being arranged with to the piston rod front end face of cylinder 542 are suitable to accommodate sheath Recess (543,544).

The piston rod of the lateral cylinder 541 single from the feeding-passage will be discharged in the sheath Turnoverplatform During 53 upper jackets push to the interim berth of sheath, the feeding-passage is blocked in the side of the piston rod of lateral cylinder 541 Discharging opening 523 preventing next sheath from dropping out from discharging opening 523 in this process.

The work platformses 100 are provided with sheath clamping device 55, sheath clamping device 55 by can closing or separate One fixture block 551 and the second fixture block 552 are constituted, and first fixture block 551 is provided with the first cavity, and the second fixture block 552 is provided with Two cavitys, the first fixture block 551 and the second fixture block 552 are close together makes the first cavity and the second cavity merge to form the sheath pool Position 51.The sheath clamping device 55 also includes the gripping block pushing mechanism 553 on the work platformses 100, clamps The output shaft of block pushing mechanism 553 connects first fixture block 551 or the second fixture block 552 to be made its closing or separates.

The first terminal pressing device 1 on the 3rd processing stations, go by the first termination for terminal riveting to be pressed onto electric wire At insulation sheath.

As shown in Figure 14, the first terminal pressing device 1 includes terminal stamping station 11, staking punch 12 and for clamping transmission The feed mechanism 13 of terminal material belt, the first terminal pressing device 1 are a kind of common terminal crimping apparatus, therefore, here is not Repeat.

After clamping device 4 is used to clamp the length for having packaged the electric wire of sheath and having pulled setting, peeling is cut off by electric wire Device 3 is cut off electric wire and forms the second end of electric wire, as shown in accompanying drawing 15 and accompanying drawing 16.

First relative belt conveyor structure 9 is used for wire agency 2 in first processing stations, the second processing stations and the 3rd processing Switch between station three.

As shown in accompanying drawing 3 and Fig. 4, work platformses 100 are provided with transfer slide 91, install that be connected with can on transfer slide 91 Along the mounting seat 92 that transfer slide 91 slides, office is installed in the two of 91 two ends of the transfer slide on work platformses 100 Individual driven pulley (93a, 93b) and the drivewheel 94 between two driven pulleys (93a, 93b), the drivewheel 94 deviate two Driven pulley (93a, 93b) line of centres side is arranged, and has a feed belt 95 to be sequentially connected driven pulley (93a, 93b) and drivewheel 94, mounting seat 92 is fixedly connected with feed belt 95, and transmission is ordered about in the forward and reverse rotation under driving means driving of drivewheel 94 Belt 95 transmits mounting seat 92 and switches in first processing stations, between the second processing stations and the 3rd processing stations three.

The driving means of first relative belt conveyor structure 9 be one be arranged on work platformses 100 on motor 961, motor 961 it is defeated Shaft is articulated with a drive sprocket axle to being connected to a motor wheel, work platformses 100, and the drivewheel is installed in one end of drive sprocket axle 94, the other end is provided with driving wheel and is connected with motor wheel by driving belt.

Transverse teeth is distributed with 95 inner surface of the feed belt equidistantly and wound on the drivewheel 94 and driven pulley On (93a, 93b), the drivewheel 94 and driven pulley (93a, 93b) are equipped with the teeth groove being meshed with the transverse teeth.

First relative belt conveyor structure 9 also includes transmission tensioner, and in this embodiment, the transmission tensioner has two Cover and be respectively symmetrically the both sides for being arranged in the drivewheel 94.The transmission tensioner is included on work platformses 100 Tension screw (not indicating in figure) and slip be arranged on work platformses 100 on tensioning wheel mounting seat 972, tensioning wheel install Seat 972 is pivoted with a tensioning wheel 973, and the tension screw is advanced or retreating makes tensioning wheel 973 be tensioned or loosen the transmission skin Band 95.

Wire agency 2 is arranged in the mounting seat 92.

Copper strips lock seaming machine includes copper strips riveting set 6, electronic devices and components feed arrangement and electric wire feed device.Wire-feeding Device will be put on sheath and accomplish fluently the electric wire of first end terminal and delivers to the riveting station by electric wire first end and electronic devices and components Riveting.

Copper strips riveting set 6 includes copper strips frame on work platformses, is correspondingly arranged at the upper and lower of copper strips frame The upper die and lower die at end, and drive upper mould that the drive mechanism of copper strips riveted, copper strips frame are realized closer or far from the motion of lower mould On be additionally provided with copper strips disk and copper strips cut off and deliver to copper strips the copper strips shut-off mechanism of the lower mould, copper strips disk is cut off with copper strips The feed pipe that copper strips is directed to from copper strips disk copper strips shut-off mechanism is provided between mechanism, between the upper die and lower die, riveting is formed Connect station；

Electronic devices and components feed arrangement and electric wire feed device, by certain frequency simultaneously not by Single Electron components and parts and The electric wire that single termination insulation sheath is stripped is delivered to and is riveted on the riveting station.

Specifically, the electronic devices and components feed arrangement includes that electronic devices and components vibrating device and electronic devices and components are single Transport path, the electronic devices and components enter the single transport road of electronic devices and components Jing after the vibration of electronic devices and components vibrating device is queued up Footpath, the single transport path of electronic devices and components are placed between electronic devices and components vibrating device and copper strips riveting set.

In addition, the direction of motion of the upper mould is vertical direction, the work surface of lower mould is vertical with the direction of motion of upper mould to be set Put, be beneficial to the automatization of production.

Copper strips lock seaming machine also includes second belt conveyor structure 8 and the clamping device 4 transmitted by second belt conveyor structure 8, folder Hold device 4 for clamping packaged the electric wire of sheath and pulled after the length of setting, electric wire is made by electric wire cut-out apparatus for peeling off It is cut off and forms the second end of electric wire, and the electric wire clamped by which is delivered to into copper strips under the transmission of the second belt conveyor structure 8 Lock seaming machine is so that electric wire first end and electronic devices and components to be riveted.The frame mode of second belt conveyor structure 8 can be passed such as first band Mechanism is sent, certainly, as long as its effect can be realized using more simple frame mode transmission clamping device 4.

Full automatic terminal introduced below press against the method with upper jacket, and which comprises the steps：

Step one, cuts off apparatus for peeling off 3 by electric wire in the first processing stations and shells the insulation sheath of the first end of electric wire Remove.

Electric wire is moved to the second processing stations and the first end of electric wire is injected sheath feeding by wire agency 2 by step 2 In the sheath provided by device 5；In this step, rambling numerous sheath Jing vibrating mechanisms are sent into sheath feed arrangement 5 And discharged from sheath feed arrangement 5 alone by certain frequency and fixed, after the insertion of supply lines, unclamping sheath makes sheath The second processing stations are left together with electric wire.

Step 3, will move to the 3rd processing stations with the electric wire of sheath by first relative belt conveyor structure 9, the to electric wire One end carries out terminal riveting.

Step 4, returns to the first processing stations, and electric wire is moved back and send the first end for making sheath tightly entangle in electric wire by wire agency 2 The terminal of riveting.

Step 5, after clamping the length for having packaged the electric wire of sheath and having pulled setting, cutting off apparatus for peeling off 3 by electric wire will Electric wire cuts off to form the second end.

Step 6, the step are sent from the first processing stations by the wire segment that second belt conveyor structure 8 has been packaged sheath To the 4th processing stations, using copper strips lock seaming machine so that electronic devices and components to be riveted to the second end of electric wire.In concrete application When, the electronic devices and components such as resistance wire enter the single conveying of electronic devices and components Jing after the vibration of electronic devices and components vibrating device is queued up Path, the single transport path of electronic devices and components are placed between electronic devices and components vibrating device and copper strips riveting set.

Above-described embodiment is the better embodiment of the present invention, but embodiments of the present invention not limited to this, and other are any Spirit and the change, modification, replacement made under principle without departing from the present invention, combine, simplification, be equivalent displacement side Formula, is included within protection scope of the present invention.

Claims (9)

1. full-automatic copper belt machine, including the copper strips riveting set on work platformses, electronic devices and components feed arrangement and electricity Line feed arrangement；Copper strips riveting set includes copper strips frame on work platformses, is correspondingly arranged at the upper of copper strips frame The upper die and lower die of lower end, and drive upper mould that the drive mechanism of copper strips riveted, copper belt machine are realized closer or far from the motion of lower mould Copper strips disk is additionally provided with frame and copper strips is cut off and copper strips is delivered to the copper strips shut-off mechanism of the lower mould, copper strips disk is cut with copper strips The feed pipe that copper strips is directed to from copper strips disk copper strips shut-off mechanism is provided between breaking mechanism, is formed between the upper die and lower die Riveting station；Electronic devices and components feed arrangement and electric wire feed device are by certain frequency simultaneously respectively by Single Electron components and parts The electric wire being stripped with single termination insulation sheath is delivered to and is riveted on the riveting station.

2. full-automatic copper belt machine according to claim 1, it is characterised in that：The electronic devices and components feed arrangement includes electricity Sub- components and parts vibrating device and the single transport path of electronic devices and components, the electronic devices and components Jing electronic devices and components vibrating devices shake The single transport path of electronic devices and components is entered after dynamic queuing, the single transport path of electronic devices and components is placed in electronic devices and components vibration dress Put and copper strips riveting set between.

3. the full-automatic copper belt machine according to claim 1 or 2 any claims, it is characterised in that：The fortune of the upper mould Dynamic direction is vertical direction, and work surface and the direction of motion of upper mould of lower mould are vertically arranged.

4. copper strips riveting terminal press against the terminal machine of upper jacket, with a work platformses and on work platformses：

Wire agency, for the conveying of electric wire, can make the electric wire for being conveyed advance or retreat；

Electric wire cuts off apparatus for peeling off, on the first processing stations, to the next electric wire cutting by wire agency conveying and to electricity The insulation sheath of the first termination of line is divested；

The first end of single sheath supply lines, on the second processing stations, is injected by sheath feed arrangement by certain frequency；

The first terminal pressing device, on the 3rd processing stations, the first termination for terminal riveting to be pressed onto electric wire removes exhausted At edge crust；

First relative belt conveyor structure, for wire agency in first processing stations, the second processing stations and the 3rd processing stations Switch between three；

Copper strips lock seaming machine, the copper strips lock seaming machine are the arbitrary described full-automatic copper belt machine of claims 1 to 3, electric wire feed device The electric wire put on sheath and accomplish fluently first end terminal is delivered to into the riveting station by electric wire first end and electronic devices and components riveting.

5. copper strips riveting terminal according to claim 4 press against the terminal machine of upper jacket, it is characterised in that：Also include second Tape transport and the clamping device transmitted by second belt conveyor structure, clamping device are used to clamp the electric wire for having packaged sheath simultaneously After pulling the length of setting, apparatus for peeling off is cut off by electric wire it is cut off electric wire forming the second end of electric wire, and described second The electric wire clamped by which is delivered to into copper strips lock seaming machine with by electric wire first end and electronic devices and components riveting under the transmission of tape transport Connect.

6. the copper strips riveting terminal according to claim 4 or 5 any claims press against the terminal machine of upper jacket, its feature It is：Sheath feed arrangement includes sheath feed arrangement, sheath Turnoverplatform and ejecting mechanism, and the sheath feed arrangement has Feed block and vibrating mechanism, the feed block are provided with the feeding-passage for stacking sheath, and the vibrating mechanism acts on feed block and makes Sheath from the feeding-passage it is single discharge fall on the sheath Turnoverplatform and the effect of ejecting mechanism described in Jing and it is defeated Deliver on a sheath berth.

7. copper strips riveting terminal according to claim 6 press against the terminal machine of upper jacket, it is characterised in that：The kickoff mechanism Structure includes lateral cylinder arranged in a crossed manner and the straight intersection to cylinder, the lateral cylinder and the straight piston rod extended line to cylinder Point forms the interim berth of sheath, and the piston rod of the lateral cylinder single from the feeding-passage will be discharged in the sheath Turnoverplatform upper jacket pushes to the interim berth of sheath, and the sheath in sheath interim berth is pushed by the straight piston rod to cylinder To sheath berth.

8. copper strips riveting terminal according to claim 7 press against the terminal machine of upper jacket, it is characterised in that：The horizontal gas The piston rod of cylinder single from the feeding-passage will discharge that to push to sheath in the sheath Turnoverplatform upper jacket interim During berth, the discharging opening of the feeding-passage is blocked in the side of the piston rod of lateral cylinder.

9. copper strips riveting terminal press against the using method of the terminal machine of upper jacket, comprise the steps：

Step one, cuts off apparatus for peeling off by electric wire in the first processing stations and divests the insulation sheath of the first end of electric wire；

Electric wire is moved to the second processing stations and the first end of electric wire is injected sheath feed arrangement institute by wire agency by step 2 In the sheath of offer；

Electric wire with sheath is moved to the 3rd processing stations by first relative belt conveyor structure, the first end to electric wire by step 3 Carry out terminal riveting；

Step 4, returns to the first processing stations, and electric wire is moved back and send the first end riveting for making sheath tightly entangle in electric wire by wire agency Terminal；

Step 5, after clamping the length for having packaged the electric wire of sheath and having pulled setting, cuts off apparatus for peeling off by electric wire by electric wire Cut-out forms the second end；

Step 6, the wire segment for having been packaged sheath by second belt conveyor structure deliver to the 4th processing work from the first processing stations Position, by copper strips lock seaming machine so that electronic devices and components to be riveted to the second end of electric wire.