CN205616981U - Electroplating rack electrically conducts mechanism - Google Patents

Abstract

The utility model relates to an electroplating rack electrically conducts mechanism, include: stores pylon, connecting piece, slider, torsional spring, electrically conductive head track, the slider includes slide block body, one side edge at electrically conductive head track is fixed to the connecting piece, the pin joint end -journal of slider connects and inclines at the both sides of connecting piece inboard, the distortion coiling portion pin joint of torsional spring is inclined at the both sides of connecting piece inboard, and a torsion arm of torsional spring is on the roof inner wall in the connecting piece, and another torsion arm supports on slide block body, and the inclined plane that produces torsion effect messenger slide block body's free end contacts the basal surface of the electrically conductive spout of stores pylon body. Electroplating rack electrically conducts mechanism, with the slider pin joint on a connecting piece, set up on electrically conductive head track the connecting piece is fixed simultaneously, set up the torsional spring again in the connecting piece, the oppression slider slides electrically conductively in the electrically conductive spout of stores pylon, has overcome the not enough defect of clamp plate elasticity on the one hand, makes the electrical contact good, on the other hand has avoided the slider card dead again, has improved electroplating rack's electrically conductive stability greatly.

Description

A kind of Electroplating Rack conductive mechanism

Technical field

The utility model relates to field of electroplating, particularly relates to a kind of Electroplating Rack conductive mechanism.

Background technology

In field of electroplating, plated item is to turn on cathode current by hanger, thus power at plated item and plate metal, in general, during continuous electroplating, connect conductive guide in hanger upper end or top, lower end connects hanger, hanger is provided for clamp the fixture of plated item, and described hanger plays connection hanger, the central action of turn-on current, therefore, plating is produced most important by the conduction situation of Electroplating Rack.The general upper end using pressing plate (or connecting plate) to be fixedly installed on electrical contact (that is to say slide block) of hanger of the prior art conduction, utilize the elastic reaction of pressing plate, the top of compressing electrical contact contact conductive guide, but owing to electrical contact is to slide on conductive guide, the elastic force of pressing plate is limited, easily causing loose contact, impact plating produces.Additionally, prior art also there is employing straight spring is installed on electrical contact top, contact with conductive guide to oppress electrical contact, but it is because that electrical contact has slip relatively at conductive guide, straight spring at the bearing of trend of conductive guide by horizontal pull, easily lead to straight spring yaw tilt and cause electrical contact stuck, plating can be had a strong impact on 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 Electroplating Rack conductive mechanism, thus overcome Electroplating Rack of the prior art conduction to use pressing plate compressing electrical contact contact conductive guide, easy loose contact, use and contact conductive guide at straight spring forces electrical contact, it is easily caused stuck, thus affect the problem that plating produces.

The technical solution of the utility model is as follows:

A kind of Electroplating Rack conductive mechanism, comprising: hanger, connector, slide block, torsion spring, conduction head track；

Described hanger includes hanger body, and the upper end of described hanger body is provided with a conduction chute, and described conduction chute includes the basal surface of a surfacing；Described connector includes a top board and two side plates being symmetricly set on described top board two ends；Described slide block includes slider body, and described slider body includes a pivot end, a free end；It is provided with the inclined plane of a surfacing on described free end；Described torsion spring includes a distortion winder and two torque arm being arranged on described distortion winder both sides；

Described connector is fixed on a side of described conduction head track；The pivot end of described slide block is articulated in inside the biside plate of described connector；The distortion winder of described torsion spring is articulated in inside the biside plate of described connector, one torque arm of described torsion spring is butted on the top board inwall of described connector, another torque arm is butted on described slider body, and generation twisting force makes the basal surface of the conduction chute of the described hanger body of inclined plane contact of the free end of described slider body.

Described Electroplating Rack conductive mechanism, described Electroplating Rack conductive mechanism includes: the first bolt, the second bolt and connection wire；Described slider body is provided with the first screw；The upper surface of described conduction head track is provided with the second screw；Described connection wire one end is fixed by described first bolt, connects described first screw, and the other end is fixed by described second bolt, connects described second screw.

Described Electroplating Rack conductive mechanism, multiple described hangers are arranged along the bearing of trend headtotail successively of described conduction head track.

Described Electroplating Rack conductive mechanism, head that described hanger body includes being sequentially connected with, connecting portion, afterbody；Described conduction chute is arranged on described head, described afterbody and described connecting portion, and the end of described afterbody is provided with a depressed part, and described depressed part is provided with a groove, and described groove is for accommodating the head of adjacent described hanger.

Described Electroplating Rack conductive mechanism, described Electroplating Rack conductive mechanism includes: the 3rd bolt, the 4th bolt；It is provided with the first perforation, the second perforation, the 3rd perforation, the 4th perforation on described connecting plate；Described first perforation, described second perforation are symmetrical arranged, and described 3rd perforation, described 4th perforation are symmetrical arranged；It is provided with the 3rd screw, the 4th screw on described conducting top trackside limit；The position of described first perforation, described second perforation and described 3rd screw is corresponding and aperture suitable, and the position of described 3rd perforation, described 4th perforation and described 4th screw is corresponding and aperture is suitable；First perforation described in described 3rd screw bolt passes, described second perforation, and final and described 3rd screw locking；3rd perforation described in described 4th screw bolt passes, described distortion winder, described 4th perforation, and final and described 4th screw locking.

Described Electroplating Rack conductive mechanism, described Electroplating Rack conductive mechanism includes the 5th bolt, 6th bolt, it is symmetrically arranged with the 5th perforation on described connecting plate, 6th perforation, it is provided with a slider throughbores running through described pivot end on the pivot end of described slide block, it is provided with a sleeve in described slider throughbores, described sleeve interior surface is provided with internal thread, described 5th perforation, described 6th perforation is corresponding to described sleeve portion, described 5th bolt passes through the described 5th perforation, one end locking with described sleeve, described 6th bolt passes through the described 6th perforation, other end locking with described sleeve.

Described Electroplating Rack conductive mechanism, described first punch inside diameter is equal to described 3rd punch inside diameter, and the internal diameter of described 5th perforation is more than the internal diameter of described first perforation.

Described Electroplating Rack conductive mechanism, described slide block is copper material.

The beneficial effects of the utility model are: a kind of Electroplating Rack conductive mechanism that the utility model provides, comprising: hanger, connector, slide block, torsion spring, conduction head track；Described slide block includes slider body；Described connector is fixed on a side of described conduction head track；The pivot end of described slide block is articulated in inside the biside plate of described connector；The distortion winder of described torsion spring is articulated in inside the biside plate of described connector, one torque arm of described torsion spring is butted on the top board inwall of described connector, another torque arm is butted on described slider body, and generation twisting force makes the basal surface of the conduction chute of the described hanger body of inclined plane contact of the free end of described slider body.Described Electroplating Rack conductive mechanism, slider pivot is connected on a connection piece, connector is fixedly installed on conduction head track simultaneously, torsion spring is set again in connector, compressing slide block sliding conduction in the conduction chute of hanger, on the one hand overcomes the hypodynamic defect of pressing plate bullet, makes electrical contact good, on the other hand turn avoid slide block stuck, substantially increase the conductive stability of Electroplating Rack.

Brief description

Fig. 1 is the overall structure schematic diagram of continuous electroplating transmission mechanism preferred embodiment described in the utility model.

Fig. 2 is the Facad structure schematic diagram of the preferred embodiment of hanger described in the utility model.

Fig. 3 is the structure schematic diagram of the preferred embodiment of hanger described in the utility model.

Fig. 4 is the partial schematic diagram (saving connection wire) of the combining structure preferred embodiment of continuous electroplating transmission mechanism described in the utility model and described Electroplating Rack conductive mechanism.

Fig. 5 is the partial schematic diagram of another angle of the combining structure preferred embodiment of continuous electroplating transmission mechanism described in the utility model and described Electroplating Rack conductive mechanism.

Fig. 6 is the partial structurtes schematic diagram (save bolt and be connected wire) of Electroplating Rack conductive mechanism described in the utility model.

Fig. 7 is the structural representation of the connector preferred embodiment of Electroplating Rack conductive mechanism described in the utility model.

Fig. 8 is continuous electroplating transmission mechanism described in the utility model and the combined effect schematic diagram of described Electroplating Rack conductive mechanism preferred embodiment.

Detailed description of the invention

The utility model provides a kind of Electroplating Rack conductive mechanism, and for making the purpose of this utility model, technical scheme and effect clearer, clear and definite, the utility model is further described by the embodiment that develops simultaneously referring to the drawings.It should be appreciated that specific embodiment described herein, only in order to explain the utility model, is not used to limit the utility model.

In field of electroplating, vertical continuous electroplating device is mainly made up of transmission mechanism and conductive mechanism two large divisions, transmission mechanism is used for driving plated item to move along planned orbit rule, conductive mechanism is for providing electroplating current to plated item fixing on transmission mechanism, generally, conductive mechanism is arranged on the top of transmission mechanism, and hanger is the intermediary connecting transmission mechanism and conductive mechanism.

The utility model provides a kind of continuous electroplating transmission mechanism, as Figure 1 and Figure 4, comprising: drive sprocket 11, driven sprocket 12, and connects the chain 2 of drive sprocket 11 and driven sprocket 12；Chain 2 includes multiple end to end chain link 21；Being provided with hanger 3 on each chain link 21, hanger 3 is integrated straight tabular, and the upper end of hanger 3 is provided with the hanger 4 for connecting hanger 3 turn-on current, and the lower end of hanger 3 is provided with multiple fixture 31.

Hanger 3 is set to the straight tabular of one, easily installs, it is simple to preferably stablize stationary fixture 31 by the utility model continuous electroplating transmission mechanism, and when making transmission, fixture 31 is more steady.Meanwhile, each chain link 21 is respectively provided with hanger 3, the flexible stretching causing the plated item of clamping on fixture 31 between multiple chain 21 and extruding can be reduced, decrease the surface damage to plated item, substantially increase the quality of electroplated product.

Further, please with reference to shown in Fig. 3, Fig. 5, Fig. 8, described continuous electroplating transmission mechanism also includes a guiding siding track 9；Chain link 21 is fixedly installed on the front of hanger 3, the back side of hanger 3 is provided with two opposing female and buckles block 32, spill buckles block 32 and is fixed by multiple bolts, two opposing female buckle and are arranged with an insulation bearing plate 33 between block 32, guide siding track 9 and be arranged on the upper surface of insulation bearing plate 33, it is to say, guide the straight surfaces brought into contact of siding track 9 insulation bearing plate 33, guiding siding track 9 is used for guiding hanger 3 and stablizes sliding.Preferably, described spill buckles block 32 and the material of described insulation bearing plate 33 is disposed as PE plastics.

nullContinuous electroplating transmission mechanism described in the utility model，Can not pressure-bearing based on hanger 3，Use at the back side of hanger 3 two symmetrically arranged spills to buckle block 32 card and set an insulation bearing plate 33，On the one hand the effect of pressure-bearing protection hanger 3 is played，On the other hand it is to play to reduce the electrochemical corrosion effect guiding siding track 9，Because the existing hanger back side directly contacts with guide rail (guiding siding track 9) side，Owing to hanger is stainless steel，And guide rail material is copper material，Guide rail alives，The energising of surface contact between the two，According to electrochemical corrosion principle，The effect of electric current can strengthen the corrosion of electroplate liquid steam pair and the guide rail surface that hanger directly contacts significantly，Thus，Insulation bearing plate 33 directly contacts guiding siding track 9，Hanger 3 is separated with guiding siding track 9，While protecting hanger 3 to avoid direct pressurized，Also function to protection and guide the effect that siding track 9 reduces electrochemical corrosion；Meanwhile, insulation bearing plate 33 also reduces the dispersion consumption of electric current, improves current efficiency.In addition, the stop also just because of insulation bearing plate 33 and guiding siding track 9 and guide function so that integrally the hanger 3 of tabular is more steady when transmission, it is to avoid wobble effects electroplated product quality before and after fixture.

Further, as shown in Figure 2, Figure 4 shows, chain link 21 includes symmetrically arranged cochain 211 and lower chain piece 212, cochain piece 211 is fixedly installed upper panel 213, lower chain piece 212 is fixedly installed lower panel 214；Chain link 21 is adjacent to be fixed on the front of hanger 3 by upper panel the 213rd, lower panel 214.

Further, please with reference to shown in Fig. 2, Fig. 3, Fig. 4, hanger 4 includes hanger body 40, the upper end of hanger body 40 is provided with the conduction chute 41 for turn-on current, the lower end of hanger body 40 is symmetrically arranged with two fixed plates 42 for connecting hanger 3, the upper end of hanger 3 is interted between two fixed plates 42, and is fixed by multiple bolt assemblies.

nullFurther，As shown in Figures 2 to 5，Multiple fixtures 31 are uniformly arranged on hanger 3 lower end by multiple bolts，In the utility model embodiment，It is provided with 3 fixtures 31 on hanger 3，In other embodiments，Fixture 31 can arrange more，Uniform installation fixture 31 as much as possible on each hanger 3，The spacing between each fixture 31 is made to diminish as far as possible，When spacing between drive sprocket 11 and driven sprocket 12 is bigger，The pitch of the chain 2 between two sprocket wheels is more，Therefore，In chain 2 during flexible different suffered by each chain link 21，Again by this trickle change of multiple fixtures 31 mean allocation in each chain link 21，Make the telescopic variation being finally embodied on plated item less，That is，Being uniformly arranged fixture 31 as much as possible can be in chain 2 transmission process，Divide the flexible slight change of each chain link 21 on multiple fixture 31 equally，Relatively thin to some、The higher plating piece of quality requirement，Greatly reduce the damage to plated item surface，Improve product quality.

Further, as it is shown in figure 1, the chain 2 of the utility model embodiment is single strand chain.In other embodiments, it would however also be possible to employ double or multiple rows of chain.

The utility model additionally provides a kind of Electroplating Rack conductive mechanism, as shown in Figures 3 to 6, comprising: the 7th, hanger the 4th, connector the 5th, slide block the 6th, torsion spring conducts electricity head track 8.Hanger 4 includes hanger body 40, and the upper end of hanger body 40 is provided with a conduction chute 41, and conduction chute 41 includes the basal surface 411 of a surfacing；Connector 5 includes a top board 51 and two side plates 52 being symmetricly set on described top board 51 two ends；Slide block 6 includes slider body 60, and slider body 60 includes a pivot end the 61st a, free end 62；It is provided with the inclined plane 621 of a surfacing on free end 62；Torsion spring 7 includes a distortion winder 71 and two torque arm being arranged on distortion winder 71 both sides: the first torque arm 72 and the second torque arm 73.Connector 5 is fixed on a side of conduction head track 8；The pivot end 61 of slide block 6 is articulated in inside the biside plate 52 of connector 5；The distortion winder 71 of torsion spring 7 is articulated in inside the biside plate 52 of connector, first torque arm 72 of torsion spring 7 is butted on top board 51 inwall of described connector 5, second torque arm 73 is butted on slider body 60, produce twisting force make the inclined plane 621 of the free end 62 of slider body 60 contact hanger body 40 conduction chute 41 basal surface 411.Preferably, for the consideration that electric conductivity is good, arranging slide block 6 is copper material.

Concrete further, please with reference to shown in Fig. 4 to Fig. 8, described Electroplating Rack conductive mechanism also includes: the 3rd bolt the 56th, the 4th bolt 57；It is provided with the first perforation the 53rd, the second perforation (not shown), the 3rd perforation the 54th, the 4th perforation (not shown) on connecting plate 5；Described first perforation the 53rd, described second perforation is symmetrical arranged, and described 3rd perforation the 54th, described 4th perforation is symmetrical arranged；It is provided with the 3rd screw (not shown), the 4th screw (not shown) on described conduction head track 8 side；The position of described first perforation the 53rd, described second perforation and described 3rd screw is corresponding and aperture suitable, and the position of described 3rd perforation the 54th, described 4th perforation and described 4th screw is corresponding and aperture is suitable；Described 3rd bolt 56 sequentially passes through the described first perforation the 53rd, described second perforation, and final and described 3rd screw locking；Described 4th bolt 57 sequentially passes through the described 3rd perforation the 54th, described distortion winder the 71st, described 4th perforation, and final and described 4th screw locking.

Further, referring once again to shown in Fig. 4 to Fig. 8, described Electroplating Rack conductive mechanism also includes: the 5th bolt 58, 6th bolt 59, it is symmetrically arranged with the 5th perforation 55 on connecting plate 5, 6th perforation (not shown), it is provided with a slider throughbores 64 running through pivot end 61 on the pivot end 61 of slide block 6, it is provided with a sleeve 65 in slider throughbores 64, the inner surface of described sleeve 65 is provided with internal thread, described 5th perforation 55, described 6th perforation is corresponding to described sleeve 65 position, described 5th bolt 58 passes through the described 5th perforation 55, one end locking with described sleeve 65, described 6th bolt 59 passes through the described 6th perforation, other end locking with described sleeve 65.

Further, as it is shown in fig. 7, the internal diameter of described first perforation 53 is equal to the internal diameter of the described 3rd perforation 54, the internal diameter of described 5th perforation 55 is more than the internal diameter of described first perforation 53.

Further, please with reference to the 5th, shown in Fig. 6, Fig. 8, described Electroplating Rack conductive mechanism also includes: the first bolt the 66th, the second bolt 82 and connection wire 800；Slider body 60 is provided with the first screw 63；The upper surface of conduction head track 8 is provided with the second screw 81；The one end connecting wire 800 is fixed by the first bolt 66, connects the first screw 63, and the other end is fixed by the second bolt 82, connects the second screw 81.It should be noted that, accompanying drawing is for illustrative clarity, only illustrate second screw 81 and a connection wire 800, in fact, corresponding with the second screw 63, the upper surface of described conduction head track 8 is provided with multiple second screw 81, is provided with connection wire 800 between each second screw 63 and the second screw 81.The slide block 6 of the utility model embodiment is articulated on connecting plate 5 realization conducting electric current, and arranging again connection wire 800 is for supplemental current, further guarantees conduction head track 8 and the stable electrical connection of slider body 600.

Further, as shown in Figure 1, Figure 4, Figure 5, multiple hangers 4 are arranged along the bearing of trend headtotail successively of conduction head track 8.Concrete, as shown in Figure 2 and Figure 3, hanger body 40 includes head the 43rd, connecting portion the 44th, afterbody 45 being sequentially connected with；Conduction chute 41 is arranged on head the 43rd, afterbody 44 and connecting portion 45, and the end of afterbody 44 is provided with a depressed part 450, and depressed part 450 is provided with a groove 451, and groove 451 is for accommodating the head 43 of adjacent hangers 4.

Electroplating Rack conductive mechanism described in the utility model, slide block 6 is articulated on a connection piece 5, connector 5 is fixedly installed on conduction head track 8 simultaneously, torsion spring 7 is set again in connector 5, compressing slide block 6 sliding conduction in the conduction chute 41 of hanger 4, on the one hand overcomes the hypodynamic defect of pressing plate bullet, makes electrical contact good, on the other hand turn avoid slide block 6 stuck, substantially increase the conductive stability of Electroplating Rack.

Therefore, a kind of Electroplating Rack conductive mechanism that the utility model provides, comprising: hanger, connector, slide block, torsion spring, conduction head track；Described slide block includes slider body；Described connector is fixed on a side of described conduction head track；The pivot end of described slide block is articulated in inside the biside plate of described connector；The distortion winder of described torsion spring is articulated in inside the biside plate of described connector, one torque arm of described torsion spring is butted on the top board inwall of described connector, another torque arm is butted on described slider body, and generation twisting force makes the basal surface of the conduction chute of the described hanger body of inclined plane contact of the free end of described slider body.Described Electroplating Rack conductive mechanism, slider pivot is connected on a connection piece, connector is fixedly installed on conduction head track simultaneously, torsion spring is set again in connector, compressing slide block sliding conduction in the conduction chute of hanger, on the one hand overcomes the hypodynamic defect of pressing plate bullet, makes electrical contact good, on the other hand turn avoid slide block stuck, substantially increase the conductive stability of Electroplating Rack.

Should be understood that; application of the present utility model is not limited to above-mentioned citing; for those of ordinary skills, can be improved according to the above description or convert, all these modifications and variations all should belong to the protection domain of the utility model claims.

Claims (8)

1. an Electroplating Rack conductive mechanism, it is characterised in that include: hanger, connector, slide block, torsion spring, conduction head track；

Described hanger includes hanger body, and the upper end of described hanger body is provided with a conduction chute, and described conduction chute includes the basal surface of a surfacing；Described connector includes a top board and two side plates being symmetricly set on described top board two ends；Described slide block includes slider body, and described slider body includes a pivot end, a free end；It is provided with the inclined plane of a surfacing on described free end；Described torsion spring includes a distortion winder and two torque arm being arranged on described distortion winder both sides；

Described connector is fixed on a side of described conduction head track；The pivot end of described slide block is articulated in inside the biside plate of described connector；The distortion winder of described torsion spring is articulated in inside the biside plate of described connector, one torque arm of described torsion spring is butted on the top board inwall of described connector, another torque arm is butted on described slider body, and generation twisting force makes the basal surface of the conduction chute of the described hanger body of inclined plane contact of the free end of described slider body.

2. Electroplating Rack conductive mechanism according to claim 1, it is characterised in that described Electroplating Rack conductive mechanism includes: the first bolt, the second bolt and connection wire；Described slider body is provided with the first screw；The upper surface of described conduction head track is provided with the second screw；Described connection wire one end is fixed by described first bolt, connects described first screw, and the other end is fixed by described second bolt, connects described second screw.

3. Electroplating Rack conductive mechanism according to claim 1, it is characterised in that multiple described hangers are arranged along the bearing of trend headtotail successively of described conduction head track.

4. Electroplating Rack conductive mechanism according to claim 3, it is characterised in that head that described hanger body includes being sequentially connected with, connecting portion, afterbody；Described conduction chute is arranged on described head, described afterbody and described connecting portion, and the end of described afterbody is provided with a depressed part, and described depressed part is provided with a groove, and described groove is for accommodating the head of adjacent described hanger.

5. Electroplating Rack conductive mechanism according to claim 1, it is characterised in that described Electroplating Rack conductive mechanism includes: the 3rd bolt, the 4th bolt；It is provided with the first perforation, the second perforation, the 3rd perforation, the 4th perforation on described connecting plate；Described first perforation, described second perforation are symmetrical arranged, and described 3rd perforation, described 4th perforation are symmetrical arranged；It is provided with the 3rd screw, the 4th screw on described conducting top trackside limit；The position of described first perforation, described second perforation and described 3rd screw is corresponding and aperture suitable, and the position of described 3rd perforation, described 4th perforation and described 4th screw is corresponding and aperture is suitable；First perforation described in described 3rd screw bolt passes, described second perforation, and final and described 3rd screw locking；3rd perforation described in described 4th screw bolt passes, described distortion winder, described 4th perforation, and final and described 4th screw locking.

6. Electroplating Rack conductive mechanism according to claim 5, it is characterized in that, described Electroplating Rack conductive mechanism includes the 5th bolt, 6th bolt, it is symmetrically arranged with the 5th perforation on described connecting plate, 6th perforation, it is provided with a slider throughbores running through described pivot end on the pivot end of described slide block, it is provided with a sleeve in described slider throughbores, described sleeve interior surface is provided with internal thread, described 5th perforation, described 6th perforation is corresponding to described sleeve portion, described 5th bolt passes through the described 5th perforation, one end locking with described sleeve, described 6th bolt passes through the described 6th perforation, other end locking with described sleeve.

7. Electroplating Rack conductive mechanism according to claim 6, it is characterised in that described first punch inside diameter is equal to described 3rd punch inside diameter, and the internal diameter of described 5th perforation is more than the internal diameter of described first perforation.

8. Electroplating Rack conductive mechanism according to claim 1, it is characterised in that described slide block is copper material.