CN110421108A - Automatic riveting copper device - Google Patents

Abstract

The invention discloses automatic riveting copper devices, are related to riveting copper technology field, it is intended to solve the problem of that die opening and closing and mobile copper wire are divided into two movements and leakage riveting copper easily occur by traditional riveting copper mode.Its key points of the technical solution are that there are two transmission unit, transmission unit includes the active block being fixedly connected and Slave Block for setting on lower die holder, the interior direction of transfer along copper wire of active block is provided with tube body, the spring connecting with tube body is provided on Slave Block；Bearing surface is provided on the excircle side wall of tube body, the path length of perforation and the outer diameter trend of tube body are consistent；Ball is provided at bearing surface, when mobile to the direction far from Slave Block in tube body, ball is abutted with copper wire；Two transmission units are one end of Slave Block close to riveting drift, and the transmission unit close to riveting drift is slidably connected with lower die holder, another is fixedly connected, and is connected with spring between two transmission units.Invention achieves the effects for avoiding leakage riveting copper, improving production accuracy.

Description

Automatic riveting copper device

Technical field

The present invention relates to riveting copper technology fields, more particularly, to a kind of automatic riveting copper device.

Background technique

With the rapid development of china's national economy with the rapid raising of living standards of the people, mold have become our give birth to Indispensable a part in work, mold refers in industrial production to be molded, be blow molded, squeeze out, die casting or forging and forming, smelting The various moulds and tool of required product are obtained with the methods of punching press, in brief, mold is the work for making formed article Tool, this tool are made of various parts, and different molds is made of different parts, it mainly passes through molded material material and manages The processing of state changed to realize article shape, is known as the title of " mother of industry ".

Traditional approach carries out riveting copper using manual type, copper wire is placed on mold, then is placed a stent in mold, by copper In the hole reserved in silk alignment bracket, upper die holder downlink, using stamping device punching press copper wire, copper wire is disconnected, and copper point is riveted on branch On frame, then upper die holder uplink is enabled, the bracket after riveting copper is removed from the mold, then replaces the riveting point on bracket, mobile copper The reserved hole of silk position alignment, repeats aforesaid operations.

Prior art among the above has the following deficiencies: the uplink due to upper die holder, downward movement, the shifting with copper wire It moves as two different movements, is not moved if there is copper wire and punching press movement when continuing, it will cause to leak riveting copper, influence The quality of production, the problem have to be solved.

Summary of the invention

The object of the present invention is to provide a kind of automatic riveting copper device, has and avoid leakage riveting copper, improve production accuracy Effect.

Foregoing invention purpose of the invention has the technical scheme that

A kind of automatic riveting copper device is provided with the punching of riveting copper including being in the upper die holder and lower die holder being oppositely arranged on the lower die holder Head is provided on the lower die holder for the transmission device to riveting drift transmission copper wire, and the transmission device includes two use In the transmission unit for clamping and releasing copper wire, any transmission unit clamps copper wire, another transmission unit release Copper wire, two transmission units are arranged along the direction of transfer of copper wire；It is provided on the upper die holder in upper die holder downlink When to be pushed closer to the transmission unit of riveting drift mobile towards the direction far from riveting drift and trigger it and discharge copper wire, in upper die holder The trigger device for clamping copper wire when uplink close to the transmission unit of riveting drift, sets on the transmission unit of the riveting drift It is equipped with the return unit for enabling it reset.

By using above-mentioned technical proposal, upper die holder downlink, the transmission unit that trigger device is pushed closer to riveting drift is moved It is dynamic, and trigger it and discharge copper wire, another transmission unit clamps copper wire at this time.When upper die holder uplink, close to riveting drift The position of transmission unit after movement clamps copper wire, and another transmission unit discharges copper wire, close under the action of return unit The transmission unit of riveting drift clamps copper wire together to the movement of riveting drift, to enable the movement of copper wire.Upper die holder uplink, downlink One acts the advance of copper wire can be realized back and forth, effectively prevent forgetting mobile copper wire and caused by leakage riveting copper, improve life Product matter.

The present invention is further arranged to: the transmission unit includes the active block being fixed to each other and Slave Block, the active Direction of transfer in block along copper wire is provided with perforation, and tube body is provided in the perforation, is provided on the Slave Block and tube body The elastic component of connection, copper wire pass through the tube body and Slave Block and are slidably matched with transmission unit；The outer circumferential sides of the tube body Its circumferential direction is provided with inclined bearing surface on wall, direction of the path length edge far from Slave Block at the bearing surface of the tube body is gradually Reduce, the path length of the perforation and the outer diameter trend of tube body are consistent；It is located at bearing surface on the tube body and is provided in tube body phase For active block to the ball when direction movement far from Slave Block, abutted with copper wire；Two transmission units are driven One end of block is close to riveting drift, and the transmission unit close to the riveting drift is slidably connected with lower die holder, far from the riveting copper The transmission unit of formed punch is fixedly connected with lower die holder, single close to the active block of the transmission unit of the riveting drift and another transmission Return unit is connected between the Slave Block of member.

By using above-mentioned technical proposal, by using above-mentioned technical proposal, by copper wire also cross two transmission units, In the initial state, copper wire is clamped by ball, and copper wire position is fixed.When needing to transmit copper wire to riveting drift, it is pushed closer to The transmission unit of riveting drift is slided to the direction far from riveting drift, and the active block and Slave Block of the transmission unit are far from riveting copper Formed punch, tube body is mobile to Slave Block relative to active block, to release ball to the withstanding effect power of copper wire, close to riveting drift Transmission unit release to the clamping force of copper wire.At the same time, it is resetted close to the mobile order of the transmission unit of riveting drift Part compression.And the transmission unit far from riveting drift is fixed in position due to fixing with lower die holder.At this point, riveting copper rushes Primary drying breaks copper wire, and upper die holder comes downwards to copper wire compressive strain and buries product inner hole of producing at full capacity, and completes riveting process for copper.When releasing is pushed closer to riveting copper After the active force of the transmission unit of formed punch, under the action of return unit, the active block and Slave Block close to riveting drift are to close The direction of riveting drift is mobile, and the tube body of the transmission unit is mobile to the direction far from Slave Block relative to active block, ball folder Tight copper wire, and have jointly with active block to the trend close to the movement of the direction of riveting drift.Another riveting drift at this time On ball still clamp copper wire, when copper wire have mobile trend when, tube body has mobile trend, folder of the ball to copper wire therewith Tight active force is gradually reduced, until copper wire and tube body are mobile.When return unit restores deformation to the transmission unit close to riveting drift When stopping mobile, the ball on the transmission unit clamps copper wire, and the ball on another transmission unit to copper wire without active force.This When, copper wire has advanced a distance, so as to complete the feeding of copper wire.The transmission unit close to riveting drift is pressed again, In the case where the ball on the transmission unit compresses copper wire, copper wire has to the movement tendency far from riveting drift, to drive The tube body on another transmission unit is moved under the rubbing action with copper wire, it is mobile towards the direction far from riveting drift, so that ball Copper wire is clamped, copper wire position is fixed.Aforesaid operations are constantly repeated, can constantly push copper wire mobile.

The present invention is further arranged to: the trigger device is the inserted block being arranged on upper die holder bottom wall, the inserted block position In above the transmission unit of riveting drift, the inserted block is provided with drive surface far from a side bottom of riveting drift, close The active block of the transmission unit of the riveting drift is provided with guide surface at the top of one end of riveting drift, the guide surface with Drive surface is slidably matched.

By using above-mentioned technical proposal, inserted block pushes active block mobile under the mating reaction of guide surface and drive surface, Until inserted block and active block are abutted against close to the side wall of riveting drift, one side upper die holder downlink can push active block mobile, It is mobile relative to the direction of active block to close riveting drift to enable tube body, to trigger the transmission unit release close to riveting drift Copper wire, and realize upper die holder one it is next on back and forth, copper wire advances primary, ensure that the supply of copper wire.On the other hand, it inserts The size of block is fixed, i.e. the moving range of active block is fixed, to achieve the effect that the advance length of copper wire is fixed, is more convenient It is directed at riveting copper position, so that production is more efficient.

The present invention is further arranged to: the angle between the guide surface and drive surface and horizontal plane is 45 °, described to lead It is parallel to each other to face and drive surface.

By using above-mentioned technical proposal, guide surface is parallel to each other with drive surface, during inserted block is with upper die holder downlink, Guide surface is bonded to each other with drive surface, and it is opposite slide, until the two separates, the side wall of inserted block and active block close to riveting drift It abuts against.Fitting sliding enables the relative movement between inserted block and active block more steady, i.e. transmission unit movement is more stable.

The present invention is further arranged to: the Slave Block is provided with placing groove, the elasticity on the side wall of active block Part is located in placing groove.

By using above-mentioned technical proposal, the placing groove placed for elastic component is opened up, avoids it from being exposed to outer, to play The effect of protection elastic component.

The present invention is further arranged to: the through-hole through tube body circumferential side wall is provided at the bearing surface of the tube body, institute It states ball to be located in through-hole, the path length of the through-hole is gradually increased along the direction far from body central axis.

By using above-mentioned technical proposal, ball moves in through-hole, limits the moving range of ball, to reach energy Enough effects for preferably controlling ball.

The present invention is further arranged to: the diameter of the ball is less than bearing surface close to one end path length of Slave Block and is greater than One end path length of the bearing surface far from Slave Block.

By using above-mentioned technical proposal, when tube body is mobile to the direction far from Slave Block relative to active block, ball It offsets with bearing surface, bearing surface, which generates extruding force to ball, enables it compress copper wire, to clamp copper wire.And when tube body is relative to master When motion block is to close to the movement of the direction of Slave Block, bearing surface is gradually decrease to copper wire to the active force of ball can be in tube body certainly By activity.

The present invention is further arranged to: the ball diameter is greater than through-hole and extends to the path length of tube body inner sidewall and be less than logical Hole extends to the path length of tube body lateral wall.

By using above-mentioned technical proposal, the moving range of ball is further limited, so that it is controllable to have reached raising ball The effect of property.

The present invention is further arranged to: the elastic component and return unit are spring.

By using above-mentioned technical proposal, the processing technology of spring is mature and is difficult to reduce elasticity due to aging, extends Service life.

The present invention is further arranged to: being provided with binder block on the upper die holder, is provided on the lower die holder and binder The opposite retainer block of block.

By using above-mentioned technical proposal, entire riveting copper process carries out between binder block and retainer block, effectively prevents Material splashes, to improve the safety of production.

In conclusion advantageous effects of the invention are as follows:

1. passing through the setting of transmission unit, trigger device and return unit, avoids leakage riveting copper to reach, improves production quality Effect；

2. passing through the setting of active block, Slave Block, tube body, ball, elastic component, return unit, to reach two transmission units In, a clamping copper wire, while the effect of another release copper wire；

3. by the setting of placing groove, to achieve the effect that protect elastic component.

Detailed description of the invention

Fig. 1 is the overall structure diagram of die opening state of the embodiment of the present invention；

Fig. 2 is the overall structure diagram of closed mode state of the embodiment of the present invention；

Fig. 3 is the structural schematic diagram of transmission unit in the embodiment of the present invention；

Fig. 4 is the cross-sectional view of transmission unit in the embodiment of the present invention.

In figure, 1, upper die holder；11, binder block；12, inserted block；13, drive surface；2, lower die holder；21, riveting drift；22, it holds in the palm Expect block；3, transmission unit；31, active block；32, it perforates；33, tube body；34, bearing surface；35, ball；36, guide surface；37, lead to Hole；4, Slave Block；41, elastic component；42, placing groove；5, return unit；6, copper wire；7, screw.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

It referring to Fig.1, is a kind of automatic riveting copper device disclosed by the invention, including in the upper die holder 1 and lower die being oppositely arranged Seat 2, is fixed with binder block 11 on the bottom wall of upper die holder 1, is relatively set with retainer block with binder block 11 on the roof of lower die holder 2 22, the riveting drift 21 for thrusting copper wire is provided in retainer block 22.It is provided on lower die holder 2 positioned at 21 right side of riveting drift Transmission device, for riveting drift 21 transmit copper wire.

Referring to Figures 1 and 2, transmission device includes the transmission unit 3 that two direction of transfers along copper wire are distributed.Transmission unit 3 include active block 31 and Slave Block 4, and active block 31 and Slave Block 4 are fixed to each other.In the present embodiment, active block 31 with it is driven Block 4 is fixed by screw 7.Two transmission units 3 are Slave Block 4 close to riveting drift 21, wherein being located at the transmission list in left side Active block 31 and Slave Block 4 in member 3 can be slided on lower die holder 2 along the direction of transfer of copper wire, the transmission list positioned at right side Active block 31 and Slave Block 4 in member 3 are fixedly connected with lower die holder 2.It is connected between two transmission units 3 by return unit 5.In In the present embodiment, return unit 5 is compressed spring, and one end of compressed spring is connect with the active block 31 of left side transmission unit 3, another End is connect with the Slave Block 4 of right side transmission unit 3.

Referring to Fig. 3 and Fig. 4, the upper direction of transfer along copper wire is provided with perforation 32 in active block 31, perforates and is provided in 32 Tube body 33, tube body 33 are slidably connected with perforation 32.Slave Block 4 offers placing groove 42 on the side wall of active block 31, places Slot 42 is communicated with tube body 33, and elastic component 41 is provided in placing groove 42.In the present embodiment, elastic component 41 is spring, spring one End is connect with the bottom wall of placing groove 42, and the other end is connect with tube body 33 close to one end of placing groove 42.Copper wire 6 is also cross two The tube body 33 and Slave Block 4 of transmission unit 3.

Referring to Fig. 3 and Fig. 4, its circumferential direction is provided with inclined bearing surface 34 on the excircle side wall at 33 middle part of tube body, supports Junction 34 is in pyramid type, i.e., the path length at bearing surface 34 is gradually reduced along the direction far from Slave Block 4.The path length and pipe of perforation 32 The outer diameter trend of body 33 is consistent.

Referring to Fig. 3 and Fig. 4, through-hole 37 is provided at the bearing surface 34 of tube body 33, through-hole 37 runs through 33 circumferential side wall of tube body Setting, i.e. one end of through-hole 37 extend to the inner circumferential side wall of tube body 33, and the other end extends to bearing surface 34.Setting in through-hole 37 There is ball 35, ball 35 is move freely in through-hole 37.Along the direction far from 33 central axis of tube body, the path length of through-hole 37 is gradually Increase.Bearing surface 34 is greater than the diameter of ball 35 close to one end path length of Slave Block 4, and the path length of 34 other end of bearing surface is less than rolling The diameter of pearl 35.The path length that through-hole 37 extends to 33 inner circumferential side wall of tube body is less than 35 diameter of ball, and through-hole 37 extends to abutting The path length in face 34 is less than the diameter of ball 35.When tube body 33 moves right relative to active block 31, ball 35 is moved with through-hole 37 Move to the right end of bearing surface 34, between 6 circumferential side wall of 32 circumferential side walls and copper wire of perforating at this time between distance be less than ball 35 it is straight Diameter, therefore ball 35 is closely abutted with copper wire 6, copper wire 6 is clamped at this time, can not be moved.When tube body 33 is relative to active block 31 When being moved to the left, ball 35 is moved to the left end of bearing surface 34 with through-hole 37, perforate at this time 32 circumferential side walls and 6 circumference of copper wire Distance is greater than the diameter of ball 35 between wall, therefore ball 35 releases the withstanding effect power to copper wire 6, and copper wire 6 is in tube body 33 It is interior to move freely.

Referring to Figures 1 and 2, the active block 31 on left side transmission unit 3 is set close to one end top droop of riveting drift 21 It is equipped with guide surface 36, trigger device is provided on upper die holder 1, trigger device includes the inserted block 12 for being fixed on 1 bottom wall of upper die holder, is inserted Block 12 is located at the surface of left side transmission unit 3.Inserted block 12 is provided with drive surface far from the side bottom angled of riveting drift 21 13, drive surface 13 is mutually slidably matched with guide surface 36.Angle between guide surface 36 and drive surface 13 and horizontal plane is 45 °, guide surface 36 is oppositely arranged and is parallel to each other with drive surface 13.

The implementation principle of the present embodiment are as follows: will be placed in retainer block 22 to riveting coppersmith part, 21 face bracket of riveting drift On reserved inner hole, copper wire is fixed in transmission device.Enable 1 downlink of upper die holder, the active on inserted block 12 and left side transmission unit 3 Block 31 contacts, and continues traveling downwardly, and guide surface 36 is bonded sliding with drive surface 13, until the active of inserted block 12 and left side transmission unit 3 Block 31 offsets close to the side wall of riveting drift 21.In the process, the active block 31 of left side transmission unit 3 and Slave Block 4 be simultaneously It moves to the left, releases clamping of the ball 35 to copper wire 6, therefore 3 entirety of transmission unit is moved to the left relative to copper wire 6, is resetted Part 5 compresses.And since copper wire 6 remains stationary, the transmission unit 3 on right side still maintains the clamped condition to copper wire 6.Upper die holder 1 It comes downwards to inserted block 12 and after left side transmission unit 3 offsets, riveting drift 21 thrusts copper wire, and upper die holder 1, which is continued traveling downwardly to copper wire, to be become Shape buries and completely evens inner hole out, completes riveting process for copper.

1 uplink of upper die holder later, inserted block 12 is far from transmission unit 3, under the action of second spring, left side transmission unit 3 On active block 31 and Slave Block 4 be moved to the left, tube body 33 moves right relative to active block 31, so that copper wire be clamped.It is left After side transmission unit 3 clamps copper wire 6, second spring continues that it is driven to move to the left, so that copper wire 6 is pulled to be moved to the left, Since in the mobile moment of copper wire 6, ball 35 still clamps copper wire 6, therefore tube body 33 is with copper wire 6 on right side transmission unit 3 It moving to the left, right side transmission unit 3 releases the clamping force to copper wire 6, and facilitate copper wire 6 mobile with left side transmission unit 3, To complete the conveying of copper wire.

In 1 downlink of upper die holder next time, the driving of inserted block 12 left side transmission unit 3 mobile moment, left side transmission unit 3 On ball 35 still clamp copper wire 6, therefore transmission unit 3 with copper wire 6 is whole moves right, right side transmission unit 3 is in copper wire When mobile, tube body 33 moves right jointly with copper wire, so that right sided cell be enabled to clamp copper wire, copper wire can not be continued to move to, left side Active block 31 and Slave Block 4 on unit move right relative to corresponding tube body 33, release the clamping force to copper wire.It repeats Aforesaid operations, the fixed length that copper wire can be realized are continuously advanced, to complete automatic riveting copper, are greatly improved work efficiency, and are improved Job security.

The embodiment of present embodiment is presently preferred embodiments of the present invention, not limits protection of the invention according to this Range, therefore: the equivalence changes that all structures under this invention, shape, principle are done, should all be covered by protection scope of the present invention it It is interior.

Claims (10)

1. a kind of automatic riveting copper device is set on the lower die holder (2) including being in the upper die holder (1) and lower die holder (2) being oppositely arranged It is equipped with riveting drift (21), it is characterised in that: be provided on the lower die holder (2) for transmitting copper wire to riveting drift (21) (6) transmission device, the transmission device includes two for clamping and releasing the transmission unit (3) of copper wire (6), any The transmission unit (3) clamps copper wire (6), another transmission unit (3) release copper wire (6), two transmission units (3) Direction of transfer along copper wire (6) is arranged；It is provided on the upper die holder (1) for being pushed closer to riveting in upper die holder (1) downlink The transmission unit (3) of drift (21) is mobile towards the direction far from riveting drift (21) and triggers its release copper wire (6), in upper mold The trigger device for clamping copper wire (6) when seat (1) uplink close to the transmission unit (3) of riveting drift (21), is rushed close to the riveting copper The return unit (5) for enabling it reset is provided on the transmission unit (3) of head (21).

2. automatic riveting copper device according to claim 1, it is characterised in that: the transmission unit (3) includes being fixed to each other Active block (31) and Slave Block (4), the direction of transfer in the active block (31) along copper wire (6) be provided with perforation (32), institute It states and is provided with tube body (33) in perforation (32), the elastic component (41) connecting with tube body (33), copper are provided on the Slave Block (4) Silk (6) passes through the tube body (33) and Slave Block (4) and is slidably matched with transmission unit (3)；The excircle of the tube body (33) Be provided with inclined bearing surface (34) on side wall along its circumferential direction, path length at the bearing surface (34) of the tube body (33) along far from from The direction of motion block (4) is gradually reduced, and the path length of the perforation (32) and the outer diameter trend of tube body (33) are consistent；The tube body (33) It is upper to be provided at bearing surface (34) in tube body (33) relative to active block (31) to the direction movement far from Slave Block (4) When, the ball (35) that is abutted with copper wire (6)；Two transmission units (3) are one end of Slave Block (4) close to riveting drift (21), it is slidably connected close to the transmission unit (3) of the riveting drift (21) with lower die holder (2), far from the riveting drift (21) transmission unit (3) is fixedly connected with lower die holder (2), close to the active of the transmission unit (3) of the riveting drift (21) Return unit (5) are connected between block (31) and the Slave Block (4) of another transmission unit (3).

3. automatic riveting copper device according to claim 2, it is characterised in that: the trigger device is to be arranged in upper die holder (1) inserted block on bottom wall (12), the inserted block (12) are located above the transmission unit (3) of riveting drift (21), described to insert Block (12) is provided with drive surface (13) far from a side bottom of riveting drift (21), close to the transmission list of the riveting drift (21) The active block (31) of first (3) is provided with guide surface (36) at the top of the one end of riveting drift (21), the guide surface (36) with Drive surface (13) is slidably matched.

4. automatic riveting copper device according to claim 3, it is characterised in that: the guide surface (36) and drive surface (13) with Angle between horizontal plane is 45 °, and the guide surface (36) is parallel to each other with drive surface (13).

5. automatic riveting copper device according to claim 4, it is characterised in that: the Slave Block (4) is close to active block (31) Side wall on be provided with placing groove (42), the elastic component (41) is located in placing groove (42).

6. automatic riveting copper device according to claim 5, it is characterised in that: set at the bearing surface (34) of the tube body (33) It is equipped with the through-hole (37) through tube body (33) circumferential side wall, the ball (35) is located in through-hole (37), the through-hole (37) Path length is gradually increased along the direction far from tube body (33) central axis.

7. automatic riveting copper device according to claim 6, it is characterised in that: the diameter of the ball (35) is less than bearing surface (34) one end path length of close Slave Block (4) and one end path length greater than bearing surface (34) far from Slave Block (4).

8. automatic riveting copper device according to claim 7, it is characterised in that: ball (35) diameter is greater than through-hole (37) It extends to the path length of tube body (33) inner sidewall and is less than the path length that through-hole (37) extend to tube body (33) lateral wall.

9. automatic riveting copper device according to claim 8, it is characterised in that: the elastic component (41) and return unit (5) are equal For spring.

10. automatic riveting copper device according to claim 9, it is characterised in that: be provided with binder block on the upper die holder (1) (11), it is provided on the lower die holder (2) and binder block (11) opposite retainer block (22).