CN110034477A - Power supply line riveting mechanism - Google Patents

Abstract

The present invention provides power supply line riveting mechanisms, and for riveting the riveting sleeve of core and plug, power supply line riveting mechanism includes: the first compressing member, have the first pressing groove on the first compressing member；Second compressing member has the second pressing groove on the second compressing member, and the second pressing groove is oppositely arranged with the first pressing groove, and riveting sleeve is at least partially disposed between the first pressing groove and the second pressing groove；Offset assembly, offset assembly is at least partly connect with the first compressing member, by driving offset assembly to make the direction movement at least partly driving the first compressing member direction close to or far from the second compressing member of offset assembly, so that the cell wall of the first pressing groove and the cell wall of the second pressing groove compress the barrel of riveting sleeve, core to be pressed in riveting sleeve, to solve the problems, such as that power supply line production efficiency in the prior art is low.

Description

Power supply line riveting mechanism

Technical field

The present invention relates to mechanical design fields, in particular to a kind of power supply line riveting mechanism.

Background technique

It during producing three core power supply lines, needs to rivet three core power supply lines and triangle plug, with obtain can be with The power supply line of outlet progress grafting.

But current three cores power supply line predominantly manually produces, labor intensity of workers is big, and production efficiency is low.

Summary of the invention

The main purpose of the present invention is to provide a kind of power supply line riveting mechanisms, raw to solve power supply line in the prior art The problem of producing low efficiency.

To achieve the goals above, the present invention provides a kind of power supply line riveting mechanism, for by the riveting of core and plug Female connector cylinder is riveted, and power supply line riveting mechanism includes: the first compressing member, has the first pressing groove on the first compressing member；Second Compressing member has the second pressing groove on the second compressing member, and the second pressing groove is oppositely arranged with the first pressing groove, and riveting sleeve is extremely Small part is between the first pressing groove and the second pressing groove；Offset assembly, offset assembly at least partly with the first compressing member Connection, by driving offset assembly to make the first compressing member of at least partly drive of offset assembly towards close to or far from the second pressure The direction movement of tight part, so that the cell wall of the first pressing groove and the cell wall of the second pressing groove press the barrel of riveting sleeve Tightly, core is pressed in riveting sleeve.

Further, offset assembly includes: eccentric shaft, the first compressing member and eccentric axis connection, to be driven by eccentric shaft The movement of first compressing member.

Further, offset assembly further include: connection ring, connection ring are set on eccentric shaft, to be driven by eccentric shaft Connection ring movement；Sliding block is provided with limit hole on sliding block, and connection ring is at least partially seated in limit hole, so that connection ring It is moved in limit hole, makes connection ring with movable slider along close to or far from the second compressing member with the wobbler action by eccentric shaft Direction sliding；First compressing member is mounted on sliding block, to drive the movement of the second compressing member by sliding block.

Further, limit hole is strip-shaped hole, and the extending direction of limit hole and the extending direction of sliding block are vertical, so that connection Ring is moved along the length direction of limit hole, is slided with band movable slider.

Further, connection ring has the first connection plane and the second connection plane, and the first connection plane is connect with second Plane is oppositely arranged, and there are two the binding face being oppositely arranged along its length, the first connection plane and the second connections for limit hole tool Plane being at least partly bonded and moving along the extending direction of two binding faces with two binding faces respectively.

Further, power supply line riveting mechanism further include: the upper of the first compressing member is arranged in limit assembly, limit assembly Side, sliding block is at least partially seated in limit assembly, to be limited by limit assembly to sliding block.

Further, limit assembly includes: the first limited block；Second limited block, the first limited block and the second limited block phase Interval is arranged, to be constituted the limit space for installing sliding block between the first limited block and the second limited block, sliding block is being limited Sliding in bit space.

Further, the first limited block has the first stop surface, and the second limited block has the second stop surface, the first stop surface It is inclined-plane to be constituted swallow-tailed limit space between the first stop surface and the second stop surface with the second stop surface；Sliding block tool There are two the sliding surfaces being bonded respectively with the first stop surface and the second stop surface, so that sliding block is along the first stop surface and the second backstop The extending direction in face slides.

Further, threaded hole is offered on sliding block, threaded hole extends along the lifting direction of the first compressing member；Power supply line riveting Connection mechanism further include: adjusting rod offers external screw thread on the body of rod of adjusting rod, adjusting rod at least partially by threaded hole and cunning Block is threadedly coupled, and the first compressing member is mounted on the one end of adjusting rod far from sliding block, to drive the first compressing member fortune by adjusting rod It is dynamic；Latch segment, latch segment has the first recess portion compatible with the body of rod of adjusting rod, to pass through the body of rod at least portion for making adjusting rod Divide and be mounted in the first recess portion, adjusting rod to be locked between latch segment and sliding block by latch segment and sliding block connection.

Further, sliding block has interconnecting piece, and interconnecting piece has the connecting end surface for connecting with latch segment, connecting end surface On be provided with the second recess portion with the first recesses fit, with when latch segment is connect with sliding block, by making the first recess portion and second Recess portion mutually splices to constitute the receiving hole for accommodating adjusting rod, and the hole heart line of receiving hole and the hole heart line of threaded hole are the same as always On line, the internal screw thread for being threadedly engaged with adjusting rod is offered on the hole wall of receiving hole.

Further, power supply line riveting mechanism further include: the first driving assembly, the first driving assembly and offset assembly drive Connection, to drive offset assembly to move.

Further, the first driving assembly includes: transmission shaft, and the end of transmission shaft is arranged in offset assembly, is passed with passing through Moving axis drives offset assembly movement；Driving device, driving device and transmission shaft are drivingly connected, and are driven with being driven by driving device Axis rotation.

Further, transmission shaft is provided with sensor block far from one end of offset assembly, is provided with below transmission shaft close Switch is connect close to switch with driving device；When transmission shaft drives sensor block rotation until being close between switch and sensor block When predetermined distance of reaction, stop driving close to switch control driving device.

Further, power supply line riveting mechanism further include: the second transmission component, the second compressing member and the second transmission component connect It connects, to drive the second compressing member to move towards the direction close to the first compressing member by the second transmission component.

Further, the second transmission component includes: cushion block, and cushion block is movably disposed at the second compressing member along predetermined direction Lower section, predetermined direction is vertical with the direction of motion of the second compressing member, cushion block have jacking table top, in cushion block along predetermined direction In mobile process, the second compressing member is pushed to move towards the direction close to the first compressing member by jacking table top.

Further, cushion block has first end face, and first end face is ladder-like, first end face and Lifting bench with jacking table top Face is connected by transition end face；Transition end face extends along the direction of predetermined angular towards jacking table top, so that the second compressing member edge Transition end face is moved on jacking table top.

Further, the second transmission component further include: first baffle, first baffle are two, two first baffle difference The two sides of cushion block are set, so that cushion block slides between two first baffles.

Further, first baffle has the first sliding end face and the second sliding end face being disposed adjacent, the first sliding end Constitute sliding space between face and the second sliding end face, cushion block at least partly respectively with the first sliding end face and the second sliding end Face paste is closed to slide in sliding space.

Further, the second transmission component further include: driving cylinder, driving cylinder and cushion block are drivingly connected, with actuator pad Block is moved along predetermined direction.

Further, power supply line riveting mechanism further include: pedestal, the second transmission component are installed on the base；Reset spring, On the base, the other end of reset spring is connect with the second compressing member for one end installation of reset spring, in the second compressing member and After the cooperation of first compressing member compresses, moved by the direction that reset spring drives the second compressing member to be directed away from the first compressing member.

The power supply line riveting mechanism that applies the technical scheme of the present invention is used to rivet the riveting sleeve of core and plug, Power supply line riveting mechanism includes: the first compressing member, the second compressing member and offset assembly, has first to compress on the first compressing member Slot；There is the second pressing groove, the second pressing groove is oppositely arranged with the first pressing groove, at least portion of riveting sleeve on second compressing member Quartile is between the first pressing groove and the second pressing groove；Offset assembly is at least partly connect with the first compressing member, is driven with passing through Dynamic offset assembly makes the direction fortune at least partly driving the first compressing member direction close to or far from the second compressing member of offset assembly It is dynamic, so that the cell wall of the first pressing groove and the cell wall of the second pressing groove compress the barrel of riveting sleeve, by core pressure Tightly in riveting sleeve, wherein by the way that core to be pressed in riveting sleeve, realize the riveting between core and plug, pass through Offset assembly drives the movement of the first compressing member, and to realize riveting action, structure is simple, and may be implemented between core and plug Automation riveting function, solve the problems, such as that power supply line riveting mechanism production efficiency in the prior art is low.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 shows the structural schematic diagram of the embodiment of power supply line riveting mechanism according to the present invention；

Fig. 2 shows the enlarged drawings according to the part A of the power supply line riveting mechanism of Fig. 1；

Fig. 3 shows the structural schematic diagram of the embodiment of the first driving assembly according to the present invention；

Fig. 4 shows the structural schematic diagram of the embodiment of the second transmission component according to the present invention；

Fig. 5 shows the structural schematic diagram of the embodiment of eccentric shaft according to the present invention；

Fig. 6 shows the structural schematic diagram of the embodiment of connection ring according to the present invention；

Fig. 7 shows the structural schematic diagram at the first visual angle of sliding block according to the present invention；

Fig. 8 shows the structural schematic diagram at the second visual angle of sliding block according to the present invention；

Fig. 9 shows the structural schematic diagram of the embodiment of latch segment according to the present invention；

Figure 10 shows the structural schematic diagram of the embodiment of adjusting rod according to the present invention；

Figure 11 shows the structural schematic diagram of the embodiment of the first compressing member according to the present invention；

Figure 12 shows the structural schematic diagram of the embodiment of the second compressing member according to the present invention；

Figure 13 shows the structural schematic diagram of the embodiment of plug according to the present invention.

Wherein, the above drawings include the following reference numerals:

1, plug；10, riveting sleeve；

21, the first compressing member；210, the first pressing groove；211, the first escape groove；22, adjusting rod；23, latch segment；24, it passes Movable plate；25, guidance set；250, guiding axis；251, loading plate；252, compressed spring；26, the first driving assembly；260, it is driven Axis；261, driving device；262, sensor block；263, close to switch；27, baffle；

3, the second transmission component；31, the second compressing member；310, the second pressing groove；311, the second escape groove；32, cushion block； 320, table top is jacked；33, first baffle；34, cylinder is driven；35, sliding rail；36, the second mounting base；

40, offset assembly；41, eccentric shaft；42, connection ring；420, lubrication portion；43, sliding block；430, limit hole；431, even Socket part；4310, connecting end surface；44, lubricating cup；

50, limit assembly；51, the first limited block；52, the second limited block；53, the first mounting plate；54, the second mounting plate； 6, pedestal；60, limiting slot；7, pedestal；8, reset spring；9, vertical plate.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

The present invention provides a kind of power supply line riveting mechanisms, please refer to Fig. 1 to Figure 13, for by the riveting of core and plug 1 Female connector cylinder 10 is riveted, and power supply line riveting mechanism includes: the first compressing member 21, has the first pressing groove on the first compressing member 21 210；Second compressing member 31 has the second pressing groove 310, the second pressing groove 310 and the first pressing groove 210 on second compressing member 31 It is oppositely arranged, riveting sleeve 10 is at least partially disposed between the first pressing groove 210 and the second pressing groove 310；Offset assembly 40, Offset assembly 40 is at least partly connect with the first compressing member 21, by driving offset assembly 40 to make offset assembly 40 at least Part drives the first compressing member 21 to move towards the direction close to or far from the second compressing member 31, so that the first pressing groove 210 Cell wall and the cell wall of the second pressing groove 310 compress the barrel of riveting sleeve 10, and core is pressed on riveting sleeve 10 It is interior.

The power supply line riveting mechanism provided according to the present invention, for the riveting sleeve 10 of core and plug 1 to be riveted, Power supply line riveting mechanism includes: the first compressing member 21, the second compressing member 31 and offset assembly 40, has the on the first compressing member 21 One pressing groove 210；There is the second pressing groove 310, the second pressing groove 310 and the first pressing groove 210 are opposite on second compressing member 31 Setting, riveting sleeve 10 are at least partially disposed between the first pressing groove 210 and the second pressing groove 310；Offset assembly 40 is extremely Small part is connect with the first compressing member 21, by driving offset assembly 40 to press at least partly drive first of offset assembly 40 Tight part 21 is towards the direction movement close to or far from the second compressing member 31, so that the cell wall of the first pressing groove 210 and second compresses The cell wall of slot 310 compresses the barrel of riveting sleeve 10, and core is pressed in riveting sleeve 10, wherein pass through by Core is pressed in riveting sleeve 10, realizes the riveting between core and plug 1, drives the first compressing member by offset assembly 40 21 movements, to realize riveting action, structure is simple, and the automation riveting function between core and plug may be implemented, solution The low problem of power supply line riveting mechanism production efficiency in the prior art of having determined.

Specifically, as shown in Figures 1 to 5, offset assembly 40 includes: eccentric shaft 41, the first compressing member 21 and eccentric shaft 41 Connection, to drive the movement of the first compressing member 21 by eccentric shaft 41, wherein offset assembly 40 has cam and axis body, axis body phase Central axis for cam is eccentric shaft.

During specific implementation, as shown in Figure 6 to 8, offset assembly 40 further include: connection ring 42, connection ring 42 It is set on eccentric shaft 41, to drive connection ring 42 to move by eccentric shaft 41；Sliding block 43 is provided with limit hole on sliding block 43 430, connection ring 42 is at least partially seated in limit hole 430, so that connection ring 42 moves in limit hole 430, to pass through The wobbler action of eccentric shaft 41 makes connection ring 42 with movable slider 43 along the direction sliding close to or far from the second compressing member 31；First Compressing member 21 is mounted on sliding block 43, to drive the movement of the second compressing member 31 by sliding block 43, wherein be provided with oil on sliding block 43 Cup 44 is provided with multiple oil leak slots on the sliding surface of sliding block 43, with sliding block 43 slidably during be lubricated.

Preferably, limit hole 430 is strip-shaped hole, and the extending direction of limit hole 430 is vertical with the extending direction of sliding block 43, with It moves connection ring 42 along the length direction of limit hole 430, is slided with band movable slider 43；Wherein, connection ring 42 is due to being set in On the axis body of eccentric shaft 41, eccentric shaft 41 rotationally during, since connection ring 42 is mounted in limit hole 430, partially The circumferential movement of mandrel 41, to the backstop action of connection ring 42, makes connection ring 42 along the length of limit hole 430 by limit hole 430 Direction is mobile, by the wobbler action of eccentric shaft 41, makes connection ring 42 while moving along the length direction of limit hole 430, Displacement with up and down motion is slided with band movable slider 43.

Specifically, for connection ring 42 by deviating from limit hole 430, connection ring 42 has the first connection plane and the in order to prevent Two connection planes, the first connection plane connect plane with second and are oppositely arranged, and there are two opposite along its length for the tool of limit hole 430 The binding face of setting, the first connection plane and the second connection plane are at least partly bonded and with two binding faces along two respectively The extending direction of binding face is mobile；Wherein, lubrication portion 420 is provided in connection ring 42, lubrication portion 420 includes oil storage tank and oil leak Hole, the lubricating oil in lubricating cup 44 are flow on the hole wall of limit hole 430 through the oil leak channel in sliding block 43, further, the company of inflow It connects in the oil storage tank and oil leaking hole on ring 42, to be lubricated to connection ring 42.

As shown in Figure 1, power supply line riveting mechanism further include: limit assembly 50, limit assembly 50 are arranged in the first compressing member 21 top, sliding block 43 are at least partially seated in limit assembly 50, to be limited by limit assembly 50 to sliding block 43.

Specifically, limit assembly 50 includes: the first limited block 51；Second limited block 52, the first limited block 51 and the second limit Position 52 relative spacing of block setting, to be constituted the limit for installing sliding block 43 between the first limited block 51 and the second limited block 52 Space, sliding block 43 slide in limit space.

Preferably, in order to prevent sliding block 43 by deviating from limit space, the first limited block 51 have the first stop surface, second Limited block 52 has the second stop surface, and the first stop surface and the second stop surface are inclined-plane in the first stop surface and the second backstop Swallow-tailed limit space is constituted between face；There are two the cunnings being bonded respectively with the first stop surface and the second stop surface for the tool of sliding block 43 Dynamic face, so that sliding block 43 is slided along the extending direction of the first stop surface and the second stop surface；Wherein, the first stop surface stops with second Block face is inclined-plane so that one end of the first stop surface and one end of the second stop surface are close to each other, the first stop surface it is another It holds and is located remotely from each other with the other end of the second stop surface, to constitute swallow-tailed limit space.

In embodiment provided by the invention, as shown in Figure 9 and Figure 10, threaded hole, threaded hole edge are offered on sliding block 43 The lifting direction of first compressing member 21 extends；Power supply line riveting mechanism further include: adjusting rod 22 opens up on the body of rod of adjusting rod 22 There is external screw thread, adjusting rod 22 is threadedly coupled at least partially by threaded hole with sliding block 43, and the first compressing member 21 is mounted on adjusting The one end of bar 22 far from sliding block 43, to drive the movement of the first compressing member 21 by adjusting rod 22；Latch segment 23, latch segment 23 have First recess portion compatible with the body of rod of adjusting rod 22, by making the body of rod of adjusting rod 22 be at least partially seated at the first recess portion It is interior, adjusting rod 22 to be locked between latch segment 23 and sliding block 43 by latch segment 23 and the connection of sliding block 43, in installation first During compressing member 21, the height of the first compressing member 21 can be adjusted by rotation adjusting lever 22, after having adjusted, passes through latch segment 23 are locked at adjusting rod 22 on sliding block 43.

Sliding block 43 has interconnecting piece 431, and interconnecting piece 431 has the connecting end surface 4310 for connecting with latch segment 23, even The second recess portion with the first recesses fit is provided on contact surface 4310, with when latch segment 23 is connect with sliding block 43, by making First recess portion mutually splices with the second recess portion to constitute the receiving hole for accommodating adjusting rod 22, the hole heart line and threaded hole of receiving hole Hole heart line on the same line, the internal screw thread for being threadedly engaged with adjusting rod 22 is offered on the hole wall of receiving hole；Having When body is processed, latch segment 23 is connected on sliding block 43 first, the screw thread in the screw thread and threaded hole in receiving hole is added simultaneously Work, after processing is completed, the end face mill off 0.5mm that latch segment 23 is bonded with sliding block 43, with latch segment 23 unclamp when, receiving hole There is gap between threaded hole, so as to adjust adjusting rod 22.

Further, for the ease of the first limited block 51 of installation and the second limited block 52, limit assembly 50 further include: first Mounting plate 53, the first limited block 51 are fixedly mounted on the first mounting plate 53；Second mounting plate 54, the first mounting plate 53 and second Mounting plate 54 is at least partly oppositely arranged, and the second limited block 52 is fixedly mounted on the second mounting plate 54.

In order to make the first compressing member 21 steadily towards local to movement, power supply line riveting close to or far from the second compressing member 31 Connection mechanism further include: driver plate 24, the first compressing member 21 are mounted on driver plate 24, and offset assembly 40 and the driving of driver plate 24 connect It connects, to drive the movement of the first compressing member 21 by driver plate 24；Guidance set 25, guidance set 25 are arranged in the first compressing member 21 Two sides, guidance set 25 at least partly connect with driver plate 24, when driver plate 24 drives the movement of the first compressing member 21 Driver plate 24 is oriented to.

Specifically, guidance set 25 includes guiding axis 250 and loading plate 251, is provided with pilot hole on driver plate 24, is oriented to Axis 250 is mounted on loading plate 251, and guiding axis 250 passes through pilot hole far from one end of loading plate 251 and limit assembly 50 connects Connect, driver plate 24 drive the first compressing member 21 movably during, make driver plate 24 along guiding axis 250 slide to be led To；Wherein, guidance set 25 further includes compressed spring 252, and compressed spring 252 is arranged between driver plate 24 and loading plate 251, Compressed spring 252 is set on guiding axis 250, mobile with the direction for driving driver plate 24 to be directed away from the second compressing member 31；This Outside, the lower section of driver plate 24 is additionally provided with baffle 27, to prevent in the first compressing member 21 and the second compressing member 31 in the completion that presses Afterwards, the first compressing member 21 will drive plug 1 and be moved, and leads to baffle 27 and carries out backstop to plug 1.

During specific implementation, as shown in figure 3, power supply line riveting mechanism further include: the first driving assembly 26, first Driving assembly 26 and offset assembly 40 are drivingly connected, to drive offset assembly 40 to move.

Specifically, as shown in figure 5, the first driving assembly 26 includes: transmission shaft 260, offset assembly 40 is arranged in transmission shaft 260 end, to drive offset assembly 40 to move by transmission shaft 260；Driving device 261, driving device 261 and transmission shaft 260 are drivingly connected, to drive transmission shaft 260 to rotate by driving device 261；Specifically, the end of transmission shaft 260 is connected with convex Wheel, is provided with axis body on cam, the center line of the axis of transmission shaft and cam on the same line, to drive axis body to do eccentric fortune It is dynamic.

Transmission shaft 260 is provided with sensor block 262 far from one end of offset assembly 40, and the lower section of transmission shaft 260, which is provided with, to be connect Nearly switch 263, connect close to switch 263 with driving device 261；When transmission shaft 260 drives the rotation of sensor block 262 until close to opening When being predetermined distance of reaction between pass 263 and sensor block 262, driving device 261 is controlled close to switch 263 and stops driving；Wherein, Sensor block 262 is set on transmission shaft 260, and predetermined induction region is provided on sensor block 262, and predetermined induction region is sensor block The one third of 262 blocks, when transmission shaft 260 rotates a circle, the one third region on sensor block 262 is approached switch 263 are sensed, control driving device 261 stops driving, and driving device 261 is preferably driving motor, and driving motor is stopping When, since effect of inertia will not stop operating immediately, predetermined induction region is arranged in sensor block 262 and only driving motor is needed to stop When, close to switch 263 still in predetermined induction region.

As shown in figure 4, for the compression being better achieved between the first compressing member 21 and the second compressing member 31, power supply line riveting Connection mechanism further include: the second transmission component 3, the second compressing member 31 are connect with the second transmission component 3, to pass through the second transmission component 3 drive the second compressing member 31 to move towards the direction close to the first compressing member 21.

Second transmission component 3 includes: cushion block 32, and cushion block 32 is movably disposed at the second compressing member 31 along predetermined direction Lower section, predetermined direction is vertical with the direction of motion of the second compressing member 31, and cushion block 32 has jacking table top 320, on 32 edge of cushion block During predetermined direction is mobile, push the second compressing member 31 towards the side close to the first compressing member 21 by jacking table top 320 To movement.

Cushion block 32 has first end face, and first end face is ladder-like, first end face and jacking table top with jacking table top 320 320 are connected by transition end face；Transition end face extends along the direction of predetermined angular towards jacking table top 320, so that second compresses Part 31 is moved on jacking table top 320 along transition end face, while cushion block 32 being made to be able to bear the pressing force of the first compressing member 21, with Carry the second compressing member 31.

In order to limit to cushion block 32, keep cushion block 32 more stable during pushing the second compressing member 31, second Transmission component 3 further include: first baffle 33, first baffle 33 are two, and two first baffles 33 are separately positioned on cushion block 32 Two sides, so that cushion block 32 slides between two first baffles 33.

Specifically, first baffle 33 has the first sliding end face and the second sliding end face being disposed adjacent, the first sliding end Sliding space is constituted between face and the second sliding end face, cushion block 32 is at least partly slided with the first sliding end face and second respectively End face is bonded to slide in sliding space.

It is moved for the ease of driving cushion block 32, the second transmission component 3 further include: driving cylinder 34 drives cylinder 34 It is drivingly connected with cushion block 32, to drive cushion block 32 to move along predetermined direction；Wherein, power supply line riveting mechanism further include: pedestal 6, Second transmission component 3 is at least partially seated on pedestal 6, limiting slot 60 is provided on pedestal 6, limiting slot 60 is along cushion block 32 Moving direction extends, and cushion block 32 is at least partially seated in limiting slot 60, and limiting slot 60 has the first opening, so that cushion block 32 At least partially in being slided in limiting slot 60.

Specifically, power supply line riveting mechanism further include: pedestal 7, the second transmission component 3 are mounted on pedestal 7；Reset spring 8, one end of reset spring 8 is mounted on pedestal 7, and the other end of reset spring 8 is connect with the second compressing member 31, in the second pressure After tight part 31 and the cooperation of the first compressing member 21 compress, the second compressing member 31 is driven to be directed away from the first compression by reset spring 8 The direction of part 21 moves.

Further, power supply line riveting mechanism further includes vertical plate 9, and vertical plate 9 is mounted on pedestal 7, the second compressing member 31 peace In the second mounting base 36, it is provided with sliding rail 35 between the second mounting base 36 and vertical plate 9, when the second compressing member 31 is mobile Second compressing member 31 is oriented to.

During specific implementation, power supply line is three core power supply lines, by two connector sleeves of zero curve and firewire and plug Cylinder is riveted, at this point, since ground wire is arranged between zero curve and firewire, as is illustrated by figs. 11 and 12, the first compressing member It is additionally provided with the first escape groove 211 on 21, the second escape groove 311 is provided on the second compressing member 31, in the first compressing member 21 When being compressed with the second compressing member 31, ground wire is placed between the first escape groove 211 and the second escape groove 311；Wherein, One pressing groove 210 is two, and two the first pressing grooves 210 are separately positioned on the two sides of the first escape groove 211, the second pressing groove 310 be two, and two the second pressing grooves 310 are separately positioned on the two sides of the second escape groove 311, the notch of the first pressing groove 210 Make the second pressing groove when so that more than 21 second compressing member 31 of the first compressing member being compressed greater than the notch of the second pressing groove 310 310 be at least partly caught in the first pressing groove 210, core is compacted in connection sleeve, in reality provided by the invention It applies in example, core is pressed into along the vertical direction in connection sleeve, therefore, by pushing on the first compressing member 21 and the second compressing member 31 Tightly to be riveted to core and plug.

It can be seen from the above description that the above embodiments of the present invention realized the following chievements:

The power supply line riveting mechanism provided according to the present invention, for the riveting sleeve 10 of core and plug 1 to be riveted, Power supply line riveting mechanism includes: the first compressing member 21, the second compressing member 31 and offset assembly 40, has the on the first compressing member 21 One pressing groove 210；There is the second pressing groove 310, the second pressing groove 310 and the first pressing groove 210 are opposite on second compressing member 31 Setting, riveting sleeve 10 are at least partially disposed between the first pressing groove 210 and the second pressing groove 310；Offset assembly 40 is extremely Small part is connect with the first compressing member 21, by driving offset assembly 40 to press at least partly drive first of offset assembly 40 Tight part 21 is towards the direction movement close to or far from the second compressing member 31, so that the cell wall of the first pressing groove 210 and second compresses The cell wall of slot 310 compresses the barrel of riveting sleeve 10, and core is pressed in riveting sleeve 10, wherein pass through by Core is pressed in riveting sleeve 10, realizes the riveting between core and plug 1, drives the first compressing member by offset assembly 40 21 movements, to realize riveting action, structure is simple, and the automation riveting function between core and plug may be implemented, solution The low problem of power supply line riveting mechanism production efficiency in the prior art of having determined.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (20)

1. a kind of power supply line riveting mechanism, for riveting the riveting sleeve (10) of core and plug (1), feature exists In the power supply line riveting mechanism includes:

First compressing member (21) has the first pressing groove (210) on first compressing member (21)；

Second compressing member (31) has the second pressing groove (310) on second compressing member (31), second pressing groove (310) it is oppositely arranged with first pressing groove (210), the riveting sleeve (10) is at least partially disposed at first compression Between slot (210) and second pressing groove (310)；

Offset assembly (40), the offset assembly (40) at least partly connect with first compressing member (21), are driven with passing through Moving the offset assembly (40) makes at least partly drive of the offset assembly (40) first compressing member (21) towards close Or the direction far from second compressing member (31) moves, so that the cell wall of first pressing groove (210) and second pressure The cell wall of tight slot (310) compresses the barrel of the riveting sleeve (10), and the core is pressed on the riveting sleeve In cylinder (10).

2. power supply line riveting mechanism according to claim 1, which is characterized in that the offset assembly (40) includes:

Eccentric shaft (41), first compressing member (21) connect with the eccentric shaft (41), to pass through the eccentric shaft (41) band Move the first compressing member (21) movement.

3. power supply line riveting mechanism according to claim 2, which is characterized in that the offset assembly (40) further include:

Connection ring (42), the connection ring (42) are set on the eccentric shaft (41), to be driven by the eccentric shaft (41) Connection ring (42) movement；

Sliding block (43) is provided with limit hole (430) on the sliding block (43), and the connection ring (42) is at least partially seated at institute It states in limit hole (430), so that connection ring (42) moves in the limit hole (430), to pass through the eccentric shaft (41) Wobbler action makes the connection ring (42) to drive the sliding block (43) along the direction close to or far from second compressing member (31) Sliding；First compressing member (21) is mounted on the sliding block (43), to drive second pressure by the sliding block (43) Tight part (31) movement.

4. power supply line riveting mechanism according to claim 3, which is characterized in that the limit hole (430) is strip-shaped hole, institute The extending direction for stating limit hole (430) is vertical with the extending direction of the sliding block (43), so that the connection ring (42) is along described The length direction of limit hole (430) is mobile, to drive the sliding block (43) to slide.

5. power supply line riveting mechanism according to claim 4, which is characterized in that the connection ring (42) has the first connection Plane and the second connection plane, the first connection plane connect plane with described second and are oppositely arranged, the limit hole (430) Tool is there are two the binding face that is oppositely arranged along its length, and the first connection plane and the second connection plane are respectively with two A binding face is at least partly bonded and moves along the extending direction of two binding faces.

6. power supply line riveting mechanism according to claim 3, which is characterized in that the power supply line riveting mechanism further include:

Limit assembly (50), the limit assembly (50) are arranged in the top of first compressing member (21), the sliding block (43) Be at least partially seated in the limit assembly (50), to be limited by the limit assembly (50) the sliding block (43) Position.

7. power supply line riveting mechanism according to claim 6, which is characterized in that the limit assembly (50) includes:

First limited block (51)；

Second limited block (52), first limited block (51) and the second limited block (52) relative spacing are arranged, in institute State the limit space constituted between the first limited block (51) and second limited block (52) for installing the sliding block (43), institute Sliding block (43) is stated to slide in the limit space.

8. power supply line riveting mechanism according to claim 7, which is characterized in that first limited block (51) has first Stop surface, second limited block (52) have the second stop surface, and first stop surface and second stop surface are oblique Face is to be constituted swallow-tailed limit space between first stop surface and second stop surface；The sliding block (43) has Two sliding surfaces being bonded respectively with first stop surface and second stop surface, so that the sliding block (43) is along described The sliding of the extending direction of one stop surface and second stop surface.

9. power supply line riveting mechanism according to claim 3, which is characterized in that offer screw thread on the sliding block (43) Hole, the threaded hole extend along the lifting direction of first compressing member (21)；The power supply line riveting mechanism further include:

Adjusting rod (22), offers external screw thread on the body of rod of the adjusting rod (22), the adjusting rod (22) it is at least partly logical It crosses the threaded hole to be threadedly coupled with the sliding block (43), it is separate that first compressing member (21) is mounted on the adjusting rod (22) One end of the sliding block (43), to drive the first compressing member (21) movement by the adjusting rod (22)；

Latch segment (23), the latch segment (23) have the first recess portion compatible with the body of rod of the adjusting rod (22), with logical Crossing is at least partially seated at the body of rod of the adjusting rod (22) in first recess portion, to pass through the latch segment (23) and institute It states sliding block (43) connection the adjusting rod (22) is locked between the latch segment (23) and the sliding block (43).

10. power supply line riveting mechanism according to claim 9, which is characterized in that the sliding block (43) has interconnecting piece (431), the interconnecting piece (431) has the connecting end surface (4310) for connecting with the latch segment (23), the connecting pin The second recess portion with first recesses fit is provided on face (4310), in the latch segment (23) and the sliding block (43) When connection, by splicing that first recess portion mutually to constitute the appearance for accommodating the adjusting rod (22) with second recess portion Receive hole, the hole heart line of the hole heart line of the receiving hole and the threaded hole on the same line, is opened on the hole wall of the receiving hole Equipped with the internal screw thread for being threadedly engaged with the adjusting rod (22).

11. power supply line riveting mechanism according to claim 1, which is characterized in that the power supply line riveting mechanism further include:

First driving assembly (26), first driving assembly (26) and the offset assembly (40) are drivingly connected, to drive State offset assembly (40) movement.

12. power supply line riveting mechanism according to claim 11, which is characterized in that the first driving assembly (26) packet It includes:

Transmission shaft (260), offset assembly (40) setting is in the end of the transmission shaft (260), to pass through the transmission shaft (260) offset assembly (40) movement is driven；

Driving device (261), the driving device (261) and the transmission shaft (260) are drivingly connected, to be filled by the driving It sets (261) and drives transmission shaft (260) rotation.

13. power supply line riveting mechanism according to claim 12, which is characterized in that the transmission shaft (260) is far from described One end of offset assembly (40) is provided with sensor block (262), is provided with below the transmission shaft (260) close to switch (263), It is described to be connect close to switch (263) with the driving device (261)；When the transmission shaft (260) drive the sensor block (262) Rotation is described close to switch when being predetermined distance of reaction between the close switch (263) and the sensor block (262) (263) it controls the driving device (261) and stops driving.

14. power supply line riveting mechanism according to claim 1, which is characterized in that the power supply line riveting mechanism further include:

Second transmission component (3), second compressing member (31) connect with second transmission component (3), to pass through described the Two transmission components (3) drive second compressing member (31) to move towards the direction close to first compressing member (21).

15. power supply line riveting mechanism according to claim 14, which is characterized in that second transmission component (3) includes:

Cushion block (32), the cushion block (32) are movably disposed at the lower section of second compressing member (31), institute along predetermined direction It is vertical with the direction of motion of second compressing member (31) to state predetermined direction, the cushion block (32) has jacking table top (320), with During the cushion block (32) is moved along predetermined direction, second compressing member is pushed by the jacking table top (320) (31) it is moved towards the direction close to first compressing member (21).

16. power supply line riveting mechanism according to claim 15, which is characterized in that the cushion block (32) has first end Face, the first end face and the jacking table top (320) be it is ladder-like, the first end face and the jacking table top (320) are led to The connection of transition end face；The transition end face extends along the direction of predetermined angular towards jacking table top (320), so that described Second compressing member (31) is moved on the jacking table top (320) along the transition end face.

17. power supply line riveting mechanism according to claim 15, which is characterized in that second transmission component (3) is also wrapped It includes:

First baffle (33), the first baffle (33) are two, and two first baffles (33) are separately positioned on the pad The two sides of block (32), so that the cushion block (32) slides between two first baffles (33).

18. power supply line riveting mechanism according to claim 17, which is characterized in that the first baffle (33) has adjacent The first sliding end face and the second sliding end face being arranged are constituted between first sliding end face and second sliding end face and are slided Dynamic space, the cushion block (32) be at least partly bonded respectively with first sliding end face and second sliding end face with Sliding in the sliding space.

19. power supply line riveting mechanism according to claim 15, which is characterized in that second transmission component (3) is also wrapped It includes:

It drives cylinder (34), the driving cylinder (34) and the cushion block (32) are drivingly connected, to drive the cushion block (32) edge Predetermined direction is mobile.

20. power supply line riveting mechanism according to claim 14, which is characterized in that the power supply line riveting mechanism also wraps It includes:

Pedestal (7), second transmission component (3) are mounted on the pedestal (7)；

One end of reset spring (8), the reset spring (8) is mounted on the pedestal (7), the reset spring (8) it is another One end is connect with second compressing member (31), to match combined pressure in second compressing member (31) and first compressing member (21) It is next, the side of first compressing member (21) is directed away from by the reset spring (8) drive second compressing member (31) To movement.