CN203834044U - Vertical and continuous electroplating system - Google Patents

Abstract

A vertical and continuous electroplating system comprises a clamp and two synchronous clamping and opening devices. The clamp comprises a clamp body, wherein the clamp body comprises a first clamping arm, a second clamping arm and an elastic part, and the other end of the second clamping arm is connected with the first clamping arm in a butting mode. Each synchronous clamping and opening device comprises a support, a supporting part, a base and a telescopic part, wherein each supporting part is installed on the corresponding support in a sliding mode, the sliding direction of each supporting part is parallel with the moving direction of the clamp, each supporting part is connected with the side, opposite to the corresponding second clamping arm, of the corresponding first clamping arm in a butting mode, the base and the supports are arranged separately, the clamp can move between the base and the supports, each telescopic part is arranged on the base in a sliding mode, the sliding direction of each telescopic part is parallel with the moving direction of the clamp, and each telescopic part can push the end, near the corresponding elastic part, of the corresponding second clamping arm to move away from one side of the corresponding first clamping arm so that the end, far away from the corresponding elastic part, of the corresponding second clamping arm to break away from the corresponding first clamping arm. The vertical and continuous electroplating system is high in electroplating efficiency.

Description

Vertical continuous electroplating system

Technical field

The utility model relates to a kind of vertical continuous electroplating system.

Background technology

In at present common vertical continuous plating lines, generally all adopt manual type fixture to clamp pending workpiece, and manual type fixture mainly adopt the mode of screw tightening to be fixed.Because electroplating process is generally continuous mode, adopt manual type fixture conventionally need to rely on workman's manual operation, not only complex operation, and labor intensity is large, and efficiency is low, and easily occurs leaking the situation of folder electroplated workpiece, has greatly affected electroplating efficiency.

Utility model content

Given this, be necessary to provide a kind of vertical continuous electroplating system with higher electroplating efficiency

A vertical continuous electroplating system, comprising:

Fixture, removable, described fixture comprises chuck body, described chuck body comprises the first clamp arm, the second clamp arm and elastic component, the middle part of described the second clamp arm is articulated with on described the first clamp arm, the two ends of described elastic component respectively with one end elasticity butt of described the first clamp arm and described the second clamp arm so that the other end of described the second clamp arm and described the first clamp arm connect; And

Two synchronous clamping deploying devices, interval arranges, each synchronous clamping deploying device comprises bearing, strut member, base and extensible member, described strut member is slidably mounted on described bearing, the slip direction of described strut member is parallel with the travel direction of described fixture, and a side of described the second clamp arm can butt dorsad for described strut member and described the first clamp arm, described base and described bearing interval arrange, described fixture is removable between described base and described bearing, described extensible member is mounted slidably on described base, and the slip direction of described extensible member is parallel with the travel direction of described fixture, described extensible member can push described the second clamp arm near the end back of one end of described elastic component the side to described the first clamp arm, so that described the second clamp arm is separable away from one end and described first clamp arm of described elastic component.

Therein in an embodiment, described each synchronous clamping deploying device also comprises mounting plate, described mounting plate is mounted slidably on described base, and the slip direction of described mounting plate and the travel direction of described fixture parallel, described extensible member is fixedly arranged on described mounting plate.

Therein in an embodiment, described each synchronous clamping deploying device also comprises guide rail, described guide rail is fixed on described base, and the bearing of trend of described guide rail and the travel direction of described fixture parallel, described mounting plate is mounted slidably on described guide rail.

In an embodiment, described each synchronous clamping deploying device also comprises mounting plate cylinder therein, and described mounting plate cylinder is fixed on described base, and described mounting plate cylinder is fixedly connected with described mounting plate.

Therein in an embodiment, described each synchronous clamping deploying device also comprises guided way, described guided way is fixed on described bearing, and the bearing of trend of described guided way and the travel direction of described fixture parallel, described strut member is mounted slidably on described guided way.

In an embodiment, described each synchronous clamping deploying device also comprises strut member cylinder therein, and described strut member cylinder is fixed on described bearing, and described strut member cylinder is fixedly connected with described strut member.

Therein in an embodiment, described each synchronous clamping deploying device also comprises protector, described protector is fixedly installed on described base, and described protector jointly coordinates and forms a host cavity with described base, described extensible member is contained in described host cavity, and the extended described host cavity of described extensible member.

In an embodiment, described extensible member is cylinder therein.

Therein in an embodiment, described the first clamp arm is provided with snap fit tabs, and described snap fit tabs is positioned at described the first clamp arm near one end of described elastic component, described fixture also comprises clip, described clip is rotatably installed on described the second clamp arm, on described clip, offer the draw-in groove fastening with described snap fit tabs, and described draw-in groove and described snap fit tabs fasten, so that described the second clamp arm is away from leaving gap between one end of described elastic component and described the first clamp arm;

One of them synchronous clamping deploying device also comprises engaging cylinder, described engaging cylinder is installed on the strut member of described one of them synchronous clamping deploying device regularly, and described engaging cylinder can push described clip away from a side of the opening of described draw-in groove, so that described snap fit tabs is contained in described draw-in groove;

Another synchronous clamping deploying device also comprises out gas enclosure cylinder, described opening on the strut member that gas enclosure cylinder is installed on described another synchronous clamping deploying device regularly, and described in open the edge of opening that gas enclosure cylinder can push described draw-in groove so that described snap fit tabs departs from described draw-in groove.

Above-mentioned vertical continuous electroplating system, by using above-mentioned two synchronous clamping deploying devices, one for by the chuck body that is clamped to of electroplated workpiece, another is for making electroplated workpiece come off from chuck body, wherein, in electroplating process, the strut member of each synchronous clamping deploying device slides on bearing, and with movement in fixture chuck body the first clamp arm dorsad a side of the second clamp arm connect, extensible member slides on base, simultaneous retractable part stretches out, and push the second clamp arm near the end back of one end of elastic component the side to the first clamp arm, the second clamp arm is separated with the first clamp arm away from one end of elastic component, thereby realize the clamping of electroplated workpiece or come off, very simple, be that above-mentioned synchronous clamping deploying device only need to be by controlling the flexible of extensible member, just can realize simply chuck body clamping or come off workpiece, thereby can effectively improve electroplating efficiency, avoided traditional dependence to open manually the troublesome operation of folder and the situation that leakage is pressed from both sides or workpiece is got in leakage that artificial origin occurs, and the inefficiency causing.

Accompanying drawing explanation

Fig. 1 is the structural representation that the vertical continuous electroplating system of an embodiment has omitted the synchronous clamping deploying device that gas enclosure cylinder is installed out;

Fig. 2 is the structural representation that the synchronous clamping deploying device of the vertical continuous electroplating system shown in Fig. 1 has omitted protector and block piece;

Fig. 3 is the partial enlarged drawing of a portion of the synchronous clamping deploying device of Fig. 2;

Fig. 4 be the synchronous clamping deploying device shown in Fig. 2 omission the structural representation of another angle of a support plate of base;

Fig. 5 is the structural representation that the synchronous clamping deploying device that gas enclosure cylinder is installed out of the vertical continuous electroplating system of an embodiment has omitted protector and block piece.

Embodiment

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.In accompanying drawing, provided preferred embodiment of the present utility model.But the utility model can be realized in many different forms, be not limited to embodiment described herein.On the contrary, providing the object of these embodiment is to make to the understanding of disclosure of the present utility model more thoroughly comprehensively.

It should be noted that, when element is called as " being fixed on " another element, can directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may have centering elements simultaneously.Term as used herein " vertical ", " level ", " left side ", " right side " and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology of using are herein identical with the implication that belongs to the common understanding of those skilled in the art of the present utility model with scientific terminology.The term using in specification sheets of the present utility model herein, just in order to describe the object of specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.

As shown in Figure 1, the vertical continuous electroplating system 10 of an embodiment, comprises fixture 100 and synchronous clamping deploying device 200.

Fixture 100 is for clamping electroplated workpiece.Fixture 100 is removable.In present embodiment, fixture 100 is spring pinchcock.Concrete, fixture 100 is fixed on one end of conduction suspension member 400, and the other end of conduction suspension member 400 is connected with transmission mechanism (not shown), and conduction suspension member 400 moves with the transmission direction of transmission mechanism.

See also Fig. 2, Fig. 3 and Fig. 4, in specific embodiment, fixture 100 comprises chuck body 110.Chuck body 110 comprises the first clamp arm 114, the second clamp arm 116 and elastic component 118.Wherein, the length of the first clamp arm 114 is greater than the second clamp arm 116.One end of the first clamp arm 114 is fixedly connected with conduction suspension member 400.The middle part of the second clamp arm 116 is articulated with on the first clamp arm 114.The two ends of elastic component 118 respectively with one end elasticity butt of the first clamp arm 114 and the second clamp arm 116 so that the other end of the second clamp arm 116 and the first clamp arm 114 connect.Concrete, the second clamp arm 116 connects away from conducting electricity one end of suspension member 400 away from one end of elastic component 118 and the first clamp arm 114.Wherein, electroplated piece-holder in the second clamp arm 116 away from one end of elastic component 118 and the first clamp arm 114 between the one end away from conduction suspension member 400.

Synchronous clamping deploying device 200 is two, and two synchronous clamping deploying device 200 intervals arrange.One of them synchronous clamping deploying device 200 for by electroplated piece-holder to chuck body 110.Another synchronous clamping deploying device 200 is for coming off the workpiece that completes plating from chuck body 110.Each synchronous clamping deploying device 200 comprises bearing 210, strut member 220, base 230, mounting plate 240 and extensible member 250.

Bearing 210 is for installing strut member 220.

Strut member 220 is slidably mounted on bearing 210.And the slip direction of strut member 220 is parallel with the travel direction of fixture 100.Wherein, a side of the second clamp arm 116 can butt dorsad for strut member 220 and the first clamp arm 114.When strut member 220 and the first clamp arm 114 connect, strut member 220 provides a resist force to whole fixture 100.

Concrete, strut member 220 comprises the fixed part 224 of sliding part 222 and two T fonts.It is tabular that sliding part 222 is roughly bar shaped.Sliding part 222 is mounted slidably on bearing 210.Two fixed part 224 intervals are fixed on sliding part 222, and two fixed parts 224 are positioned at the same side of sliding part 222.Wherein, fixed part 224 and the first clamp arm 114 can butts.

Further, each synchronous clamping deploying device 200 also comprises guided way 260, and guided way 260 is fixed on bearing 210.And the bearing of trend of guided way 260 is parallel with the travel direction of fixture 100.Strut member 220 is mounted slidably on guided way 260.Concrete, the sliding part 222 of strut member 220 is mounted slidably on guided way 260.Wherein, fixed part 224 is positioned at sliding part 222 away from a side of guided way 260.

More specifically, guided way 260 is two, and two guided way 260 intervals and being set in parallel on bearing 210, and the sliding part 222 of strut member 220 is mounted slidably on two guided ways 260.

Be appreciated that, in order to realize strut member 220, on bearing 210, slide, be not limited to adopt the mode of guided way 260, can also adopt alternate manner, for example, slide protrusion (not shown) is set on strut member 220, at bearing 210, offer guide path (not shown), and the bearing of trend of this guide path is parallel with the travel direction of fixture 100, slides in guide path by slide protrusion, thereby realize strut member 220, on bearing 210, slide.

Further, each synchronous clamping deploying device 200 also comprises strut member cylinder 270.Strut member cylinder 270 is fixed on bearing 210.Concrete, strut member cylinder 270 is fixed on bearing 210 by the supporting seat 280 of a L-type.Wherein, strut member cylinder 270 is fixedly connected with strut member 220.Concrete, the cylinder barrel of strut member cylinder 270 is fixed on bearing 210 by supporting seat 280, the free end of the piston rod of strut member cylinder 270 is fixedly connected with the sliding part 222 of strut member 220, thereby just can make strut member 220 slide on bearing 210 by controlling strut member cylinder 270.

Base 230 arranges with bearing 210 intervals, and fixture 100 is removable between base 230 and bearing 210.Be between base 230 and bearing 210, to form a long and narrow space, fixture 100 is removable in this long and narrow space.

When fixture 100 moves between base 230 and bearing 210, and move between base 230 and bearing 210, the fixed part 224 of strut member 220 and the first clamp arm 114 connect, and strut member 220 moves in the same direction with fixture 100, guarantee that electroplated workpiece can be successfully by chuck body 110 clampings firmly.

Concrete, base 230 comprises bar shaped bottom plate 232 and is fixedly installed on two support plates 234 at the two ends of bar shaped bottom plate 232, and bar shaped bottom plate 232 jointly coordinates and forms a U-shaped structure with two support plates 234.

It is tabular that mounting plate 240 is roughly bar shaped.Mounting plate 240 is mounted slidably on base 230.Concrete, mounting plate 240 is mounted slidably on bar shaped bottom plate 232.Wherein, the slip direction of mounting plate 240 is parallel with the travel direction of fixture 100.

Further, each synchronous clamping deploying device 200 also comprises guide rail 290, and guide rail 290 is fixed on base 230.Concrete, guide rail 290 is fixed on bar shaped bottom plate 232.The bearing of trend of guide rail 290 is parallel with the travel direction of fixture 100.Mounting plate 240 is mounted slidably on guide rail 290.Concrete, guide rail 290 is two, two guide rail 290 intervals and being set in parallel on bar shaped bottom plate 232, and now, mounting plate 240 is mounted slidably on two guide rails 290.

Be appreciated that, realize mounting plate 240 slides on base 230, be not limited to adopt the mode of guide rail 290, can also adopt alternate manner, for example, on bar shaped bottom plate 232, offer guide path (not shown), and the bearing of trend of guide path is parallel with the travel direction of fixture 100, slide protrusion (not shown) is set on mounting plate 240, and slide protrusion slides and slides on base 230 to realize mounting plate 240 in guide path.

Further, each synchronous clamping deploying device 200 also comprises mounting plate cylinder 295, and mounting plate cylinder 295 is fixed on base 230.Concrete, mounting plate cylinder 295 is fixed on the bar shaped bottom plate 232 of base 230 by the mounting block 296 of a L-type.And mounting plate cylinder 295 is fixedly connected with mounting plate 240.Concrete, the cylinder barrel of mounting plate cylinder 295 is fixed on bar shaped bottom plate 232 by mounting block 296, the free end of the piston rod of mounting plate cylinder 295 is fixedly connected with mounting plate 240, thereby on base 230, slides to realize mounting plate 240 by controlling mounting plate cylinder 295.

Extensible member 250 is fixedly installed on mounting plate 240.Wherein, extensible member 250 is positioned at mounting plate 240 away from a side of guide rail 290.Extensible member 250 can push the second clamp arm 116 near the end back of one end of elastic component 118 side to the first clamp arm 114 so that the second clamp arm 116 is separable away from one end and first clamp arm 114 of elastic component 118.Concrete, extensible member 250 is cylinder.Now, the cylinder barrel of extensible member 250 is fixed on mounting plate 240, and the piston rod of extensible member 250 can push the second clamp arm 116 side of the first clamp arm 114 dorsad.When fixture 100 moves between bearing 210 and base 230, the first clamp arm 114 connects with the fixed part 224 of strut member 220, extensible member 250 stretches out and pushes the second clamp arm 116, thereby make the second clamp arm 116 separated with the first clamp arm 114 away from one end of elastic component 118, now, electroplated workpiece is placed between the first clamp arm 114 and the second clamp arm 116, when extensible member 250 is retracted, under the effect of elastic component 118, the first clamp arm 114 clamps electroplated workpiece away from one end and first clamp arm 114 of elastic component 118.

Concrete, extensible member 250 is a plurality of, and a plurality of extensible members 250 are arranged at intervals at mounting plate 240 away from a side of guide rail 290, thereby a plurality of extensible members 250 can push respectively the second clamp arm 116 of a plurality of folder bodies 110 that move between bearing 210 and base 230.

Being appreciated that extensible member 250 is not limited to adopt the form of cylinder, can also be mechanical push rods.

Be appreciated that mounting plate 240 also can omit, now, extensible member 250 is mounted slidably on base 230, and the slip direction of extensible member 250 is parallel with the travel direction of fixture 100.

See also Fig. 1 and Fig. 2, for the inner member that reduces synchronous clamping deploying device 200 is by pollutions such as dusts, each synchronous clamping deploying device 200 also comprises protector 310.Protector 310 is fixedly installed on base 230, and protector 310 and the common host cavity of formation (figure is mark) that coordinates of base 230, and extensible member 250 is contained in this host cavity, and extended this host cavity of extensible member 250.Concrete, protector 310 is fixedly connected with two support plates 234 with bar shaped bottom plate 232 by screw, and protector 310, bar shaped bottom plate 232 and two common cooperations of support plate 234 form this host cavity.Concrete, mounting plate 240, mounting plate cylinder 295, guide rail 290 and mounting block 296 are all contained in this host cavity.

Because electroplated workpiece is in electroplating process, chuck body 110 is clamping electroplated workpiece, makes the first clamp arm 114 and the residual electroplate liquid of the second clamp arm 116 clampings place meeting, in order to make chuck body 110 when there is no holding workpiece, is convenient to clean.The first clamp arm 114 is provided with snap fit tabs 1142, and snap fit tabs 1142 is positioned at the first clamp arm 114 near one end of elastic component 118; Fixture 100 also comprises clip 120, and clip 120 is rotatably installed on the second clamp arm 116.On clip 120, offer the draw-in groove 122 fastening with snap fit tabs 1142, and draw-in groove 122 fastens with snap fit tabs 1142, so that the second clamp arm 116 is away from leaving gap between one end of elastic component 118 and the first clamp arm 118.

See also Fig. 2, Fig. 3 and Fig. 4, for clip 120 is rotated, with realize clip 120 with the engaging of snap fit tabs 1142 with separated, one of them synchronous clamping deploying device 200 also comprises engaging cylinder 320.Engaging cylinder 320 is installed on the strut member 220 of this one of them synchronous clamping deploying device 200 regularly, engaging cylinder 320 can push clip 120 away from a side of the opening of draw-in groove 122, so that snap fit tabs 1142 is contained in draw-in groove 122, snap fit tabs 1142 fastens with draw-in groove 122.Concrete, engaging cylinder 320 is installed on one of them fixed part 224 of strut member 220 of this one of them synchronous clamping deploying device 200, and engaging cylinder 320 is positioned at clip 120 side of draw-in groove 122 dorsad.More specifically, the cylinder barrel of engaging cylinder 320 is fixedly connected with fixed part 224, the piston rod of engaging cylinder 320 is actively located in fixed part 224, and engaging cylinder 320 is positioned at the top of clip 120, when engaging cylinder 320 stretches out, can promote clip 120 downwards, clip 120 be rotated, and fasten with snap fit tabs 1142.Wherein, engaging cylinder 320 is a plurality of, and a plurality of engaging cylinder 320 is arranged at intervals on a fixed part 224.

See also Fig. 5, another synchronous clamping deploying device 200 also comprises out gas enclosure cylinder 330.Open on the strut member 220 that gas enclosure cylinder 330 is installed on this another synchronous clamping deploying device 200 regularly, open the edge of opening that gas enclosure cylinder 330 can push clip 120, so that snap fit tabs 1142 departs from draw-in grooves 122, snap fit tabs 1142 is separated with draw-in groove 122.Concrete, open on wherein another fixed part 224 of strut member 220 that gas enclosure cylinder 330 is installed on this another synchronous clamping deploying device 200, and open gas enclosure cylinder 330 and be positioned at the side that clip 120 offers draw-in groove 122.More specifically, the cylinder barrel of opening gas enclosure cylinder 330 is fixedly connected with fixed part 224, and the piston rod of opening gas enclosure cylinder 330 is actively located in fixed part 224, and can stir clip 120.Wherein, open gas enclosure cylinder 330 for a plurality of, a plurality of gas enclosure cylinders 330 of opening are arranged at intervals on same fixed part 224.By engaging cylinder 320 being installed respectively on two synchronous clamping deploying devices 200 and being opened gas enclosure cylinder 330, can realize simply clip 120 with the engaging of snap fit tabs 1142 with separated.

Wherein, the synchronous clamping deploying device 200 of engaging cylinder 320 is installed for the chuck body 110 to fixture 100 by electroplated piece-holder, gas enclosure cylinder 330 is installed out and for the workpiece that makes to have electroplated, from the chuck body 110 of fixture 100, comes off.

Be appreciated that engaging cylinder 320 and open gas enclosure cylinder 330 and also can omit, now, on fixture 100, clip 120 can be set.

See also Fig. 1, Fig. 2 and Fig. 5, in order to prevent engaging cylinder 320 or open gas enclosure cylinder 330 by pollutions such as dusts, each synchronous clamping deploying device 200 also comprises block piece 340.Block piece 340 is fixedly installed on bearing 210.And block piece 340 jointly coordinates and forms an installation cavity (figure is mark not) with bearing 210.Now, strut member 220 parts are contained in this installation cavity.Concrete, the sliding part 222 of strut member 220 is contained in this installation cavity, and two fixed parts 224 all part are contained in this installation cavity, and the part that two fixed parts 224 are positioned at outside this installation cavity can butt with the first clamp arm 114 of chuck body 110.Wherein, what on synchronous clamping deploying device 200, install is engaging cylinder 320, and engaging cylinder 320 parts are contained in this installation cavity; On synchronous clamping deploying device 200, install for opening gas enclosure cylinder 330, open gas enclosure cylinder 330 parts and be contained in this installation cavity.

Above-mentioned vertical continuous electroplating system 10 realizes the clamping of workpiece and the mode that comes off is as follows:

Clamping electroplated workpiece: fixture 100 moves being provided with between the bearing 210 of synchronous clamping deploying device 200 of engaging cylinder 320 and base 230, the fixed part 224 of strut member 220 connects with the first clamp arm 114 of chuck body 110, and strut member 220 is under the effect of strut member cylinder 270, on bearing 210, towards the identical direction of the travel direction with fixture 100, slide, mounting plate 240 is under the effect of mounting plate cylinder 295, towards the direction that the travel direction with fixture 100 is identical, slide, extensible member 250 slides with mounting plate 240, simultaneously, engaging cylinder 320 stretches out to push the edge of opening of the draw-in groove 122 of clip 120, clip 120 rotates, make snap fit tabs 1142 depart from draw-in groove 122, and extensible member 250 stretches out, and push the second clamp arm 116 of chuck body 110, elastic component 118 compressions, the second clamp arm 116 unclamps away from one end and first clamp arm 114 of elastic component 118, now, electroplated workpiece is positioned between the second clamp arm 116 one end and the first clamp arm 114 away from elastic component 118, under the return action of elastic component 118, electroplated workpiece is clamped in chuck body 110, when fixture 100 leaves synchronous clamping deploying device 200, strut member 220 and mounting plate 240 be reverse slide under the effect of strut member cylinder 270 and mounting plate cylinder 295 respectively.

The workpiece coming off after electroplating: the fixture 100 that clamping has a workpiece after plating moves being provided with out between the bearing 210 of synchronous clamping deploying device 200 of gas enclosure cylinder 330 and base 230, the fixed part 224 of strut member 220 connects with the first clamp arm 114 of chuck body 110, and strut member 220 is under the effect of strut member cylinder 270, on bearing 210, towards the identical direction of the travel direction with fixture 100, slide, mounting plate 240 is under the effect of mounting plate cylinder 295, towards the direction that the travel direction with fixture 100 is identical, slide, extensible member 250 slides with mounting plate 240, now, extensible member 250 stretches out, and push the second clamp arm 116 of chuck body 110, elastic component 118 compressions, the second clamp arm 116 unclamps away from one end and first clamp arm 114 of elastic component 118, now, workpiece can come off from chuck body 110, under the return action of elastic component 118, the second clamp arm 116 moves towards the direction near the first clamp arm 114 away from one end of elastic component 118, due to, now open gas enclosure cylinder 330 and push clip 120 away from a side of the opening of draw-in groove 122, clip 120 rotates, and snap fit tabs 1142 accommodate with draw-in groove 122 in, so that draw-in groove 122 fastens with snap fit tabs 1142, make the second clamp arm 116 away from leaving gap between one end of elastic component 118 and the first clamp arm 114, when fixture 100 leaves synchronous clamping deploying device 200, strut member 220 and mounting plate 240 be reverse slide under the effect of strut member cylinder 270 and mounting plate cylinder 295 respectively.

Above-mentioned vertical continuous electroplating system 10, by using above-mentioned two synchronous clamping deploying devices 200, one for being clamped to chuck body 110 by electroplated workpiece, another is for making electroplated workpiece come off from chuck body 110, wherein, in electroplating process, the strut member 220 of each synchronous clamping deploying device 200 slides on bearing 210, and with movement in fixture 100 chuck body 110 the first clamp arm 114 dorsad a side of the second clamp arm 116 connect, extensible member 250 slides on base 230, simultaneous retractable part 250 stretches out, and push the second clamp arm 116 near the end back of one end of elastic component 118 side to the first clamp arm 114, the second clamp arm 116 is separated with the first clamp arm 114 away from one end of elastic component 118, thereby realize the clamping of electroplated workpiece or come off, very simple, be that 200 needs of above-mentioned synchronous clamping deploying device are by controlling the flexible of extensible member 250, just can realize simply chuck body 110 clampings or come off workpiece, thereby can effectively improve electroplating efficiency, avoided traditional dependence to open manually the troublesome operation of folder and the situation that leakage is pressed from both sides or workpiece is got in leakage that artificial origin occurs, and the inefficiency causing.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (9)

1. a vertical continuous electroplating system, is characterized in that, comprising:

Fixture, removable, described fixture comprises chuck body, described chuck body comprises the first clamp arm, the second clamp arm and elastic component, the middle part of described the second clamp arm is articulated with on described the first clamp arm, the two ends of described elastic component respectively with one end elasticity butt of described the first clamp arm and described the second clamp arm so that the other end of described the second clamp arm and described the first clamp arm connect; And

Two synchronous clamping deploying devices, interval arranges, each synchronous clamping deploying device comprises bearing, strut member, base and extensible member, described strut member is slidably mounted on described bearing, the slip direction of described strut member is parallel with the travel direction of described fixture, and a side of described the second clamp arm can butt dorsad for described strut member and described the first clamp arm, described base and described bearing interval arrange, described fixture is removable between described base and described bearing, described extensible member is mounted slidably on described base, and the slip direction of described extensible member is parallel with the travel direction of described fixture, described extensible member can push described the second clamp arm near the end back of one end of described elastic component the side to described the first clamp arm, so that described the second clamp arm is separable away from one end and described first clamp arm of described elastic component.

2. vertical continuous electroplating system according to claim 1, it is characterized in that, described each synchronous clamping deploying device also comprises mounting plate, described mounting plate is mounted slidably on described base, and the slip direction of described mounting plate is parallel with the travel direction of described fixture, described extensible member is fixedly arranged on described mounting plate.

3. vertical continuous electroplating system according to claim 2, it is characterized in that, described each synchronous clamping deploying device also comprises guide rail, described guide rail is fixed on described base, and the bearing of trend of described guide rail is parallel with the travel direction of described fixture, described mounting plate is mounted slidably on described guide rail.

4. vertical continuous electroplating system according to claim 2, is characterized in that, described each synchronous clamping deploying device also comprises mounting plate cylinder, and described mounting plate cylinder is fixed on described base, and described mounting plate cylinder is fixedly connected with described mounting plate.

5. vertical continuous electroplating system according to claim 1, it is characterized in that, described each synchronous clamping deploying device also comprises guided way, described guided way is fixed on described bearing, and the bearing of trend of described guided way is parallel with the travel direction of described fixture, described strut member is mounted slidably on described guided way.

6. vertical continuous electroplating system according to claim 1, is characterized in that, described each synchronous clamping deploying device also comprises strut member cylinder, and described strut member cylinder is fixed on described bearing, and described strut member cylinder is fixedly connected with described strut member.

7. vertical continuous electroplating system according to claim 1, it is characterized in that, described each synchronous clamping deploying device also comprises protector, described protector is fixedly installed on described base, and described protector jointly coordinates and forms a host cavity with described base, described extensible member is contained in described host cavity, and the extended described host cavity of described extensible member.

8. vertical continuous electroplating system according to claim 1, is characterized in that, described extensible member is cylinder.

9. vertical continuous electroplating system according to claim 1, it is characterized in that, described the first clamp arm is provided with snap fit tabs, and described snap fit tabs is positioned at described the first clamp arm near one end of described elastic component, described fixture also comprises clip, described clip is rotatably installed on described the second clamp arm, on described clip, offer the draw-in groove fastening with described snap fit tabs, and described draw-in groove and described snap fit tabs fasten, so that described the second clamp arm is away from leaving gap between one end of described elastic component and described the first clamp arm;

One of them synchronous clamping deploying device also comprises engaging cylinder, described engaging cylinder is installed on the strut member of described one of them synchronous clamping deploying device regularly, and described engaging cylinder can push described clip away from a side of the opening of described draw-in groove, so that described snap fit tabs is contained in described draw-in groove;

Another synchronous clamping deploying device also comprises out gas enclosure cylinder, described opening on the strut member that gas enclosure cylinder is installed on described another synchronous clamping deploying device regularly, and described in open the edge of opening that gas enclosure cylinder can push described draw-in groove so that described snap fit tabs departs from described draw-in groove.