CN205529105U - Electrically conductive copper target device - Google Patents

Abstract

The utility model relates to an electrically conductive copper target device mainly comprises actuating mechanism, moving mechanism, fixture and tilting mechanism. Actuating mechanism drives moving mechanism and carries out the displacement, and moving mechanism is located to the tilting mechanism pivot to can swing between the position in demolising of fixture with not being connected in fixture's assembled position connecting. By this, tilting mechanism lies in assembled position, and the fixture clamping is plated the thing, makes moving mechanism can drive fixture and moves to the plating bath and electroplate the operation, is produced any different form when plating the thing occasionally electroplating the operation, can with the tilting mechanism upset to removing the position, make fixture remove from moving mechanism, and then reduce the scope that the thing damaged of being plated.

Description

Conductive copper target assembly

Technical field

This utility model relates to a kind of conductive copper target assembly for electroplating activity, particularly relates to one and can carry out constant speed and move, and by turning over rotation mechanism of throwing so that clamping device can be located away from the conductive copper target assembly of driving means.

Background technology

Electrolytic process is mainly passed through in general plating processing, after anode with negative electrode input current, the metal ion in electroplate liquid is attracted to swim to negative electrode, and reduce and plate on the plated body that negative electrode is continued, the metal re-dissolved that anode is continued simultaneously, the more metal ion of electroplate liquid is provided, makes electroplating process persistently carry out, until depositing enough coating on plated body.

But, general plating processing is by the existing clamping plated body of conductive copper target assembly 1, and electroplate to electroplate liquid a plated body is moved, refer to shown in Fig. 1, described existing conductive copper target assembly 1 has clamping device 10 and a travel mechanism 11, described clamping device 10 side has a clamping part 101 being clamped on described plated body, another opposite side has a projection 102, and described travel mechanism 11 has a driver element 111 and and is installed in the pushing and pressing unit 112 of described driver element 111, and described driver element 111 can drive described pushing and pressing unit 112 to move along a straight line.

As shown in the figure, when described existing conductive copper target assembly 1 is specifically applied, the clamping described plated body (not shown) of clamping part 101 of described clamping device 10, and the driver element 111 of described travel mechanism 11 drives described pushing and pressing unit 112 to move, make described pushing and pressing unit 112 touch the projection 102 of described clamping device 10, and then described plated body (not shown) is moved to electroplate liquid carry out electroplating activity by the promotion of described pushing and pressing unit 112 by described clamping device 10.

Due to, described clamping device 10 is affected by the promotion of described pushing and pressing unit 112 and moves, thus, described clamping device 10 in movement probably due to produce sliding phenomenon and neglect fast neglect slow, and then cannot move in the way of constant speed, when causing described plated body (not shown) to carry out electroplating activity, possibly cannot obtain the coating of preferable yield, the most then described plated body (not shown) may be caused to damage and cannot re-use.

In view of this, existing conductive copper target assembly still has weak point when carrying out electroplating activity, there is the necessity improveing existing conductive copper target assembly in fact, a kind of clamping device can be carried out the conductive copper target assembly that constant speed moves by createing, when making back thing carry out electroplating activity, yield preferably coating can be produced.

Utility model content

Main purpose of the present utility model is when plated body carries out electroplating activity, operator can be according to the plating situation (such as: plated body produces different shape) of plated body, rapidly clamping device is taken out with plated body from electroplate liquid simultaneously, and then reduce the probability that plated body damages.

Secondary objective of the present utility model is that clamping device can move in the way of constant speed and fricton-tight phenomenon, makes plated body move to electroplate liquid and will not neglect soon the most slowly, and then can form yield preferably coating on plated body surface.

For reaching described purpose, this utility model provides a kind of conductive copper target assembly, applies to an electroplating machine, and described electroplating machine has one first guide member and one second guide member, and described conductive copper target assembly, it is characterised in that including:

One drive mechanism；

One travel mechanism, is connected to described first guide member, and is driven by described drive mechanism and move along described first guide member；

One clamping device, is connected to described second guide member, and is used for a clamping plated body；And

One switching mechanism, it is pivotally connected to described travel mechanism, and it is connected to described clamping device to be positioned at an assembling position, and described switching mechanism can be carried out turning over lifting with a upset path so that described switching mechanism can be moved to a removal position being not attached to described clamping device by described assembling position.

In a preferred embodiment, described clamping device has one first connecting piece, and described switching mechanism has one and can dismount in the second connecting piece of described first connecting piece by selectivity, when described switching mechanism is positioned at assembling position, described first connecting piece is connected to described second connecting piece, and when described switching mechanism is positioned at removal position, described first connecting piece is located away from described second connecting piece.

One of them of described first connecting piece and the second connecting piece is a projection, another is a groove, and described groove has one first section and intersects at the second section of described first section, and, when described switching mechanism is positioned at described assembling position, gap can be produced and form a spacing distance between described switching mechanism bottom and the top of described clamping device.

Additionally, described switching mechanism has an accommodation space, described accommodation space has an opening, support mechanism described in and to be mainly made up of a supporting member and a pushing and pressing spring, described press part has a compression zone and a contact part, described compression zone is positioned at described accommodation space, and described pushing and pressing spring is positioned at described accommodation space, and one end contacts at described accommodation space end, the other end pushes against in described compression zone, the contact part making described press part externally protrudes out in described opening to form described pressure section, wherein, described open volume is less than the volume of the compression zone of described press part.

From preceding description, this utility model feature is when switching mechanism is positioned at assembling position, clamping device is assembled in travel mechanism by switching mechanism, make drive mechanism can synchronize to drive travel mechanism to carry out constant speed with clamping device to move, and then plated body moves to electroplate liquid to neglect and neglects slowly soon, cause and yield preferably coating on plated body surface, can be formed.

In addition, when operator finds that plated body has any different shape when carrying out electroplating activity, switching mechanism can be turned over and lift to removal position, make clamping device can be located away from travel mechanism, and then clamping device can take out with plated body from electroplate liquid simultaneously, cause and can effectively reduce the scope that plated body damages, the most relatively reduce cost of manufacture.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of existing conductive copper target assembly；

Fig. 2 is the schematic diagram of this utility model conductive copper target assembly；

Fig. 3 is the exploded view of this utility model conductive copper target assembly；

Fig. 4 is the sectional block diagram of switching mechanism；

Fig. 5 A is that switching mechanism is positioned at assembling position schematic diagram；

Fig. 5 B is that switching mechanism is positioned at removal position schematic diagram；

Fig. 5 C is to support device to contact at the schematic diagram of clamping device；

Fig. 6 is the schematic diagram of the clamping plated body of this utility model clamping device；

Fig. 7 is the schematic diagram that this utility model clamping device moves with first path；

Fig. 8 is the schematic diagram that this utility model clamping device moves with the second path.

Description of reference numerals: 1-existing conductive copper target assembly；10-clamping device；101-clamping part；102-projection；11-travel mechanism；111-driver element；112-pushes against unit；2-conductive copper target assembly；20-drive mechanism；21-driver element；211--motor；212-gear；22-gear unit；221-chain；23-path of motion；30-travel mechanism；31-moving assembly；32-protuberance；321-sliding space；33-articulated section；34-connecting portion；40-clamping device；41-connects unit；411-connector；412-embeded slot；413--group fishplate bar；The clamping unit of 42-；421-fixture；43-the first connecting piece；431-projection；44-first path；45-the second path；50-switching mechanism；51-turns over and lifts assembly；511-accommodation space；511a-opening；511b-blind end；511c-opening；52-the second connecting piece；521-groove；521a-the first section；521b-the second section；521c-headspace；53-assembling position；54-swing path；55-removal position；60-supports device；61-press part；611-compression zone；612-contact part；62-pushes against spring；63-pressure section；70-electroplating machine；71-electroplating bath；72-the first guide member；73-the second guide member；80-spacing distance；90-plated body.

Detailed description of the invention

Further describe this utility model below in conjunction with specific embodiments and the drawings, advantage of the present utility model and feature will be with describe and apparent.

Refer to shown in Fig. 2 and Fig. 3, this utility model conductive copper target assembly 2 mainly applies to an electroplating machine 70, described electroplating machine 70 has an electroplating bath 71 (as shown in Figure 6), one first guide member 72 and one second guide member 73, and described second guide member 73 is positioned at described first guide member 72 with described electroplating bath 71 between the two.

Constituted as it can be seen, described conductive copper target assembly 2 is mainly supported mechanism 60 by drive mechanism 20, travel mechanism 30, clamping device 40, switching mechanism 50 and one.

Described drive mechanism 20 has driver element 21 and a gear unit 22, described driver element 21 is mutually assembled with both gear units 22, in this preferred embodiment, described driver element 21 has a motor 211 and and is fixed on the gear 212 of described motor 211, and described gear unit 22 has a chain 221 being embedded in described gear 212.

Described travel mechanism 30 has a moving assembly 31, described moving assembly 31 upper horizontal extends and forms a protuberance 32, and an articulated section 33 it is provided with in bottom, described protuberance 32 depression forms a sliding space 321 being slidably connected to described first guide member 72, wherein, described moving assembly 31 has the connecting portion 34 being connected to described gear unit 22 between described sliding space 321 and articulated section 33, thereby, described driver element 21 drives described moving assembly 31 to carry out constant speed and nonslipping displacement along a path of motion 23 by described gear unit 22, and described path of motion 23 is parallel to the long axis direction of described first guide member 72.

As shown in the figure, described clamping device 40 has a unit 41 and that connects being slidably connected to described second guide member 73 and is installed in the clamping unit 42 of described connection unit 41, described connection unit 41 has one first connecting piece 43, in this preferred embodiment, described connection unit 41 is set to a connection piece 411, there is on the upside of described connector 411 embeded slot 412 being slidedly arranged on described second guide member 73 top, and there is one group of fishplate bar 413 in bottom side, and described clamping unit 42 is set to multiple fixture 421 being installed in described group of fishplate bar 413, wherein, described first connecting piece 43 is set in the projection 431 being integrally formed in described connector 411.

Refer to shown in Fig. 3 and Fig. 4, described switching mechanism 50 has to turn over and lifts assembly 51, described turning over is lifted assembly 51 and is pivotally connected to the articulated section 33 of described moving assembly 31, and have one can selectivity dismount in the second connecting piece 52 of described first connecting piece 43, support mechanism 60 one end described in and to be installed in and turn over that to lift assembly 51 internal, the other end externally protrude out in described in turn over and lift assembly 51 to form a pressure section 63.

nullAs shown in the figure，Described turn over to lift there are bottom assembly 51 two accommodation spaces 511，Support mechanism 60 described in and and there is press part 61 and a pushing and pressing spring 62，The most described second connecting piece 52 is set to be lifted assembly 51 caved in the groove 521 formed by described turning over，Wherein，Described accommodation space 511 has an an opening 511a and blind end 511b，Described opening 511a is provided with an opening 511c，And described press part 61 has a compression zone 611 and and is connected to the contact part 612 of described compression zone 611，Wherein，Described pushing and pressing spring 62 is all positioned at described accommodation space 511 with both compression zones 611 of described press part 61，And described opening 511c volume is less than the volume of described compression zone 611，And，Described pushing and pressing spring 62 one end contacts at the blind end 511b of described accommodation space 511，Another opposite end pushes against in the compression zone 611 of described press part 61，Described pushing and pressing spring 62 is made to push against in the compression zone 611 of described press part 61，And then make the contact part 612 of described press part 61 externally protrude out in described opening 511c to form described pressure section 63，In addition，Owing to compression zone 611 volume of described press part 61 is more than described opening 511c volume，The compression zone 611 making described press part 61 can't be externally protruded out in described opening 511c by the pushing and pressing of described pushing and pressing spring 62.

As it can be seen, described groove 521 has one first section 521a and is perpendicular to the second section 521b of described first section 521a.But, described first connecting piece 43 is set to described projection 431 and described second connecting piece 52 is set to described groove 521 and only facilitates purposes of discussion, that is described first connecting piece 43 can be set to described groove 521, and described second connecting piece 52 is set to described projection 431.

Refer to shown in Fig. 5 A to Fig. 5 C, owing to turning over of described switching mechanism 50 is lifted assembly 51 and be pivotally connected to the articulated section 33 of described moving assembly 31, thus described switching mechanism 50 can be installed in the assembling position 53 of the second connecting piece 52 by the first connecting piece 43 described in turns over a swing path 54 to lift to the first connecting piece 43 described in and be located away from the removal position 55 of described second connecting piece 52, thereby, described switching mechanism 50 can swing back and forth between described assembling position 53 and removal position 55, wherein, when described switching mechanism 50 is positioned at described assembling position 53, the described pressure section 63 supporting mechanism 60 contacts at the connection unit 41 of described clamping device 40, described connection unit 41 is made to be closely contacted with each other with the second guide member 73.

nullAs shown in the figure，Described switching mechanism 50 is turned over by described assembling position 53 and lifts to described removal position 55，Described projection 431 changes, from being positioned at the first section 521a of described groove 521, the second section 521b of being positioned at described groove 521，And it is subsequently isolated the second section 521b in described groove 521，Make described clamping device 40 can be located away from described second guide member 73，But，When described switching mechanism 50 is positioned at described assembling position 53，Described groove 521 can mutually wear with the first section 521a of described projection 431，Wherein，Described projection 431 is arranged in the regional area of described first section 521a，The the first section 521a making described groove 521 is not affected by the part that described projection 431 wears and forms a headspace 521c，And，Turning over of described switching mechanism 50 produces gap between connection unit 41 top lifting assembly 51 bottom and clamping device 40 and forms a spacing distance 80，In addition，Described press part 61 is pushed against by described pushing and pressing spring 62，The contact part 612 compressed described in making presses on described connector 411.

Refer to shown in Fig. 6, in time specifically applying, the clamping plated body 90 of clamping unit 42 of described clamping device 40, and the driver element 21 of described drive mechanism 20 drives described gear unit 22 to move, make described travel mechanism 30 move along described path of motion 23, and then make described second connecting piece 52 push against to drive described clamping device 40 to carry out constant speed with described path of motion 23 towards described electroplating bath 71 move in described first connecting piece 43.

Refer to shown in Fig. 7 and Fig. 8, when operator finds that described plated body 90 is when carrying out electroplating activity and having the different shape of generation, described switching mechanism 50 can be overturn to described removal position 55 by operator by described assembling position 53, described projection 431 is made to be located away from described groove 521, subsequently, described clamping device 40 upwards moves linearly with a first path 44 again, makes the embeded slot 412 of described clamping device 40 be separated from each other with described first guide member 72 top.

Next, operator is being perpendicular to the second path 45 of described first path 44 with one, described clamping device 40 is removed by described travel mechanism 30, and described clamping device 40 is taken out with plated body 90 from electroplate liquid simultaneously, and then reduce the scope that described plated body 90 damages, and reduce cost of manufacture.

Relatively, when operator confirms that described plated body 90 does not has difference when, also described clamping device 40 first can be moved above described second guide member 73 with described second path 45, with described first path 44, described embeded slot 412 is placed in described second guide member 73 top again, subsequently, again described switching mechanism 50 is overturn to described assembling position 53 by described removal position 55, make described clamping device 40 be arranged in described groove 521 by described projection 431 and be connected to described switching mechanism 50.

Above explanation and embodiment are only exemplary, scope of the present utility model are not constituted any restriction.It will be understood by those skilled in the art that and the details of technical solutions of the utility model and form can be modified or replace under without departing from spirit and scope of the present utility model, but these amendments and replacement each fall within protection domain of the present utility model.

Claims (9)

1. a conductive copper target assembly, applies to an electroplating machine, and described electroplating machine has one first guide member and one second guide member, and described conductive copper target assembly, it is characterised in that including:

One drive mechanism；

One travel mechanism, is connected to described first guide member, and is driven by described drive mechanism and move along described first guide member；

One clamping device, is connected to described second guide member, and is used for a clamping plated body；And

One switching mechanism, it is pivotally connected to described travel mechanism, and it is connected to described clamping device to be positioned at an assembling position, and described switching mechanism can be carried out turning over lifting with a upset path so that described switching mechanism can be moved to a removal position being not attached to described clamping device by described assembling position.

Conductive copper target assembly the most according to claim 1, it is characterised in that: described travel mechanism is driven by described drive mechanism and moves with a path of motion being parallel to described first guide member long axis direction.

Conductive copper target assembly the most according to claim 1, it is characterized in that: described clamping device has one first connecting piece, and described switching mechanism has one and can dismount in the second connecting piece of described first connecting piece by selectivity, when described switching mechanism is positioned at assembling position, described first connecting piece is connected to described second connecting piece, and when described switching mechanism is positioned at removal position, described first connecting piece is located away from described second connecting piece.

Conductive copper target assembly the most according to claim 3, it is characterised in that: one of them of described first connecting piece and the second connecting piece is a projection, and another is a groove.

Conductive copper target assembly the most according to claim 4, it is characterised in that: described groove has one first section and and intersects at the second section of described first section.

Conductive copper target assembly the most according to claim 1, it is characterised in that: when described switching mechanism is positioned at described assembling position, gap can be produced and form a spacing distance between described switching mechanism bottom and the top of described clamping device.

Conductive copper target assembly the most according to claim 1, it is characterised in that: described conductive copper target assembly has further supports mechanism, described in support mechanism one end and be assembled in described switching mechanism, described in other end evagination, switching mechanism is to form a pressure section.

Conductive copper target assembly the most according to claim 7, it is characterised in that: described switching mechanism has an accommodation space, and described accommodation space has an opening, and described in support mechanism, comprise:

One press part, has a compression zone and a contact part, and described compression zone is positioned at described accommodation space；And

One pushing and pressing spring, is positioned at described accommodation space, and one end contacts at described accommodation space end, and the other end pushes against in described compression zone, makes the contact part of described press part externally protrude out in described opening to form described pressure section.

Conductive copper target assembly the most according to claim 8, it is characterised in that: described open volume is less than the volume of the compression zone of described press part.