CN205774864U - A kind of volume to volume plating pusher-type conductive mechanism - Google Patents

Abstract

The utility model discloses a kind of volume to volume plating pusher-type conductive mechanism, including: conductive copper is flat, it is fixedly installed on the insulation guide block on the flat side of conductive copper, run through the upper and lower side of insulation guide block and be slidably arranged in the lifting guide pillar on insulation guide block, the conduction copper billet being fixedly installed on lifting guide pillar lower end, the compression spring being set on lifting guide pillar, is arranged on the Electroplating Rack that conduction copper billet lower end is slidably connected, and a plurality of conductive shorting line with conduction copper billet；The two ends of conductive shorting line connect respectively conductive copper flat and conduction copper billet；The upper end of lifting guide pillar is provided with one for stopping that lifting guide pillar skids off the guide rod cap of insulation guide block；The upper end of compression spring is against on insulation guide block, and lower end is against on conduction copper billet, compressing conduction copper billet contact plating hanger.Described volume to volume plating pusher-type conductive mechanism, by using compression spring to make conduction copper billet hold out against on the upside of hanger, it is ensured that conduction copper billet and the close contact of hanger, substantially increases the conductive stability of Electroplating Rack.

Description

A kind of volume to volume plating pusher-type conductive mechanism

Technical field

This utility model relates to field of electroplating, particularly relates to a kind of volume to volume plating pusher-type conductive mechanism.

Background technology

In field of electroplating, plated item is to turn on cathode current by hanger, thus plates metal on plated item, typically comes Saying, during volume to volume plating, the upper top of Electroplating Rack connects conductive guide conducting electric current, and lower end connects hanger, on hanger Being provided for clamping the fixture of plated item, therefore, volume to volume plating is produced most important by the conduction situation of Electroplating Rack.Existing The general upper end using spring bearer plate to be fixedly installed on electrical contact of Electroplating Rack conduction in technology, utilizes the elastic work of pressing plate With, the top of compressing electrical contact contact conductive guide, but the elastic force of pressing plate is limited, easily causes loose contact, conduction shakiness Fixed, thus affect plating and produce.

Therefore, prior art has yet to be improved and developed.

Utility model content

In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of volume to volume plating pusher-type to lead Motor structure, thus overcome hanger of the prior art conduction to use pressing plate compressing electrical contact contact conductive guide, easily contact is not Good, conduction instability, thus affect the problem that plating produces.

The technical solution of the utility model is as follows:

A kind of volume to volume plating pusher-type conductive mechanism, including: conductive copper is flat, is fixedly installed on the flat side of described conductive copper On insulation guide block, run through the upper and lower side of described insulation guide block and be slidably arranged in the lifting guide pillar on described insulation guide block, Gu Surely it is arranged on the conduction copper billet on described lifting guide pillar lower end, is set in the compression spring on described lifting guide pillar, be arranged on institute State the Electroplating Rack that conduction copper billet lower end is slidably connected, and a plurality of conductive shorting line with described conduction copper billet；

The two ends of described conductive shorting line connect the flat and described conduction copper billet of described conductive copper respectively；Described lifting guide pillar Upper end is provided with one for stopping that described lifting guide pillar skids off the guide rod cap of described insulation guide block；The upper end of described compression spring is supported On described insulation guide block, lower end is against on described conduction copper billet, oppresses described conduction copper billet and contacts described Electroplating Rack.

Described volume to volume plating pusher-type conductive mechanism, wherein, screw is passed through at the two ends of described conductive shorting line respectively It is fixedly installed on the flat and described conduction copper billet of described conductive copper.

Described volume to volume plating pusher-type conductive mechanism, wherein, described insulation guide block is fixedly installed by multiple screws On the flat side of described conductive copper.

Described volume to volume plating pusher-type conductive mechanism, wherein, the material of described insulation guide block is PE plastics.

Described volume to volume plating pusher-type conductive mechanism, wherein, described lifting guide pillar is half tooth screw.

Described volume to volume plating pusher-type conductive mechanism, wherein, described conduction copper billet is provided with multiple, each described in lead Two described lifting guide pillars are connected on electrolytic copper block.

Described volume to volume plating pusher-type conductive mechanism, wherein, described conduction copper billet has the lower flat of a flat smooth Face, the upper end of described Electroplating Rack is the conductive copper bent angle of a upper surface flat smooth, and the lower surface of described conduction copper billet is in institute Level on the upper surface of conductive copper bent angle of stating is slided.

The beneficial effects of the utility model are: a kind of volume to volume plating pusher-type conductive mechanism that this utility model provides, Including: conductive copper is flat, is fixedly installed on the insulation guide block on the flat side of described conductive copper, runs through the upper and lower side of described insulation guide block And it is slidably arranged in the lifting guide pillar on described insulation guide block, it is fixedly installed on the conduction copper billet on described lifting guide pillar lower end, It is set in the compression spring on described lifting guide pillar, is arranged on what described conduction copper billet lower end and described conduction copper billet were slidably connected Electroplating Rack, and a plurality of conductive shorting line；The two ends of described conductive shorting line connect the flat and described conduction of described conductive copper respectively Copper billet；The upper end of described lifting guide pillar is provided with one for stopping that described lifting guide pillar skids off the guide rod cap of described insulation guide block； The upper end of described compression spring is against on described insulation guide block, and lower end is against on described conduction copper billet, oppresses described conduction copper billet Contact described Electroplating Rack.Described volume to volume plating pusher-type conductive mechanism, by using compression spring to make conduction copper billet hold out against On the upside of hanger, it is ensured that conduction copper billet and the close contact of hanger, substantially increase the conductive stability of Electroplating Rack.

Accompanying drawing explanation

Fig. 1 is the perspective view of this utility model volume to volume plating pusher-type conductive mechanism.

Fig. 2 is the Facad structure schematic diagram of this utility model volume to volume plating pusher-type conductive mechanism.

Fig. 3 is the structure schematic diagram of this utility model volume to volume plating pusher-type conductive mechanism.

Fig. 4 is the side structure schematic diagram of this utility model volume to volume plating pusher-type conductive mechanism.

Fig. 5 is the structural representation that Electroplating Rack described in the utility model is arranged on elastic stainless steel steel band.

Detailed description of the invention

This utility model provides a kind of volume to volume plating pusher-type conductive mechanism, for making the purpose of this utility model, technology Scheme and effect are clearer, clear and definite, and this utility model is further described by the embodiment that develops simultaneously referring to the drawings.Should Understanding, specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

This utility model provides a kind of volume to volume plating pusher-type conductive mechanism, as shown in Figures 1 to 4, including: conduction Copper flat 1, is fixedly installed on the insulation guide block 2 on flat 1 side of conductive copper, runs through the upper and lower side of insulation guide block 2 and is slidably arranged in Lifting guide pillar 3 on insulation guide block 2, is fixedly installed on the conduction copper billet 4 on lifting guide pillar 3 lower end, is set on lifting guide pillar 3 Compression spring 5, be arranged on conduction copper billet 4 lower end and conduct electricity the Electroplating Rack 6 that is slidably connected of copper billet 4, and a plurality of conductive shorting Line 7.

Further, as shown in Figures 1 to 4, the two ends of described conductive shorting line 7 connect conductive copper flat 1 and conduction respectively Copper billet 4；The upper end of described lifting guide pillar 3 is provided with one for stopping that lifting guide pillar 3 skids off the guide rod cap 31 of insulation guide block 2；Institute The upper end stating compression spring 5 is against on insulation guide block 2, and lower end is against on conduction copper billet 4, thus oppresses conduction copper billet 4 and contact electricity Plating hanger 6.

It should be noted that the Electroplating Rack 6 of this utility model embodiment is integrally fixed on an elastic stainless steel steel band 9 (as shown in Figure 5), by belt pulley and strainer thereof, make elastic stainless steel steel band 9 rotate, drive Electroplating Rack 6 to move；Bullet Property rustless steel steel 9 drives Electroplating Rack 6 to move horizontally, and also limit Electroplating Rack 6 moves downward simultaneously, it is ensured that compression spring Conduction copper billet can be oppressed and touch Electroplating Rack, without because Electroplating Rack moves downward and causes the effect of compression spring to be lost Effect.In the prior art, there is also the mode of other fixing Electroplating Racks, such as, described Electroplating Rack is arranged on a level sliding Electroplating Rack level on horizontal slide rail is made to slide on rail, it is also possible to meet and make Electroplating Rack move in the horizontal direction, exist simultaneously Vertical direction preserves stable.

Preferably, the two ends of described conductive shorting line 7 are fixedly installed on conductive copper flat 1 and conduction copper billet by screw respectively On 4.

Further, described insulation guide block 2 is fixedly installed on flat 1 side of conductive copper by multiple screws.

Preferably, the material of described insulation guide block 2 is PE plastics, that is to say that insulation guide block 2 is PE guide block, at the present embodiment In, described PE guide block can limit sliding up and down of lifting guide pillar 3.

Preferably, described lifting guide pillar 3 is half tooth screw.

Further, as shown in Figures 1 to 4, described conduction copper billet 4 is provided with multiple, and each conduction copper billet 4 connects two Individual lifting guide pillar 3, it is preferred that conduction copper billet 4 continuous distribution, it is ensured that the seriality of conduction, makes conduction more stable.

Further, as shown in Figure 2 and Figure 3, described conduction copper billet 4 has the lower plane of a flat smooth, and described plating is hung The upper end of frame 6 is the conductive copper bent angle 61 of a upper surface flat smooth, upper at conductive copper bent angle 61 of lower surface of conduction copper billet 4 On surface, level is slided.

In this utility model embodiment, described lifting guide pillar 3 and compression spring 5 are used for making conduction copper billet 4 slide up and down also Hold out against the conductive copper bent angle 61 on Electroplating Rack 6；And conductive shorting line 7 makes the negative electrode conductance in conductive copper flat 1 pass to conductive copper Block 4, and by conductive copper bent angle 61 sliding contact of conduction copper billet 4 with Electroplating Rack 6, thus by the negative electrode on conduction copper billet 4 Conductance passes on Electroplating Rack 6.

The volume to volume plating pusher-type conductive mechanism of this utility model embodiment has an above advantage:

1, conduction copper billet holds out against conductive copper bent angle on the upside of hanger by compression spring, it is ensured that conduction copper billet is tight with hanger Contiguity is touched, and pusher-type conducts electricity；

2, conduction copper billet continuous distribution, it is ensured that the seriality of conduction, conducts electricity more stable.

Therefore, a kind of volume to volume plating pusher-type conductive mechanism that this utility model provides, including: conductive copper is flat, fixing Be arranged on the insulation guide block on the flat side of described conductive copper, run through the upper and lower side of described insulation guide block and be slidably arranged in described absolutely Lifting guide pillar on edge guide block, is fixedly installed on the conduction copper billet on described lifting guide pillar lower end, is set in described lifting guide pillar On compression spring, be arranged on the Electroplating Rack that described conduction copper billet lower end is slidably connected with described conduction copper billet, and a plurality of lead Electricity shorting stub；The two ends of described conductive shorting line connect the flat and described conduction copper billet of described conductive copper respectively；Described lifting guide pillar Upper end be provided with one for stopping that described lifting guide pillar skids off the guide rod cap of described insulation guide block；The upper end of described compression spring Being against on described insulation guide block, lower end is against on described conduction copper billet, oppresses described conduction copper billet and contacts described Electroplating Rack.Institute State volume to volume plating pusher-type conductive mechanism, by using compression spring to make conduction copper billet hold out against on the upside of hanger, it is ensured that conduction Copper billet and the close contact of hanger, substantially increase the conductive stability of Electroplating Rack.

It should be appreciated that application of the present utility model is not limited to above-mentioned citing, those of ordinary skill in the art are come Saying, can be improved according to the above description or convert, all these modifications and variations all should belong to the appended power of this utility model The protection domain that profit requires.

Claims (7)

1. a volume to volume plating pusher-type conductive mechanism, it is characterised in that including:

Conductive copper is flat,

It is fixedly installed on the insulation guide block on the flat side of described conductive copper,

Run through the upper and lower side of described insulation guide block and be slidably arranged in the lifting guide pillar on described insulation guide block,

It is fixedly installed on the conduction copper billet on described lifting guide pillar lower end,

It is set in the compression spring on described lifting guide pillar,

It is arranged on the Electroplating Rack that described conduction copper billet lower end is slidably connected with described conduction copper billet,

And a plurality of conductive shorting line；

The two ends of described conductive shorting line connect the flat and described conduction copper billet of described conductive copper respectively；The upper end of described lifting guide pillar It is provided with one for stopping that described lifting guide pillar skids off the guide rod cap of described insulation guide block；The upper end of described compression spring is against institute Stating on insulation guide block, lower end is against on described conduction copper billet, oppresses described conduction copper billet and contacts described Electroplating Rack.

Volume to volume the most according to claim 1 plating pusher-type conductive mechanism, it is characterised in that described conductive shorting line Two ends are fixedly installed on the flat and described conduction copper billet of described conductive copper by screw respectively.

Volume to volume the most according to claim 1 plating pusher-type conductive mechanism, it is characterised in that described insulation guide block passes through Multiple screws are fixedly installed on the flat side of described conductive copper.

Volume to volume the most according to claim 1 plating pusher-type conductive mechanism, it is characterised in that the material of described insulation guide block Matter is PE plastics.

Volume to volume the most according to claim 1 plating pusher-type conductive mechanism, it is characterised in that described lifting guide pillar is half Tooth screw.

Volume to volume the most according to claim 1 plating pusher-type conductive mechanism, it is characterised in that described conduction copper billet is arranged Have multiple, each described conduction copper billet connects two described lifting guide pillars.

Volume to volume the most according to claim 1 plating pusher-type conductive mechanism, it is characterised in that described conduction copper billet has The lower plane of one flat smooth, the upper end of described Electroplating Rack is the conductive copper bent angle of a upper surface flat smooth, described conduction The lower surface of copper billet level on the upper surface of described conductive copper bent angle is slided.