CN205088327U - Horizontal electroplating machine and quick-release type magnetic coupling thereof - Google Patents

Abstract

The utility model discloses a horizontal electroplating machine and a quick-release type magnetic coupling thereof. The quick release type magnetic coupling comprises a first conveying wheel set, a plurality of link assemblies and a plurality of magnetic units. The first conveying wheel set comprises a plurality of first conveying wheels, and each first conveying wheel comprises a first shaft rod and a second shaft rod. Each link assembly is respectively arranged between each first shaft lever and each second shaft lever. Each link component comprises a first link unit and a second link unit. Each first link unit is disposed at each first shaft. Each second link unit is provided at each second shaft. The first linking unit and the second linking unit are connected with each other by a clamping structure. A magnetic unit is disposed at the first linking unit. The other magnetic unit is arranged on the second linking unit, and each pair of magnetic units can be mutually magnetically attracted.

Description

Horizontal electroplating machine and fast disassembly type magnetic coupling device thereof

Technical field

The utility model relates to electroplating machine, particularly relates to a kind of horizontal electroplating machine and fast disassembly type magnetic coupling device thereof.

Background technology

Namely the developing focus of current new-type horizontal electroplating machine is can stable conveying in plating tank and being plated design for thin plate.But excessive for the distance between anode and cathode, and cause the uppity problem of electroplating evenness, except being controlled with multi_region by anode, also must install anode cover plate additional to carry out the adjustment being plated on the wide size processing procedure of different plate.

But traditional transmission main drive shaft should be configured at the below of lower defeated wheel axle gear, because of assembling anode cover plate therefore, but cause anode cover plate and adjustment mechanism interference.In addition, be solve above-mentioned interference problem, can main drive shaft to be configured at the top of lower defeated wheel axle gear, although but this new configuration solves anode cover plate and main drive shaft interference problem, but the dismounting causing lower conveying wheels and lower anode cassette group is not easily.When main drive shaft is configured at the top of lower defeated wheel axle gear, when making anode cassette group under maintenance, the main drive shaft of transmission must be disassembled and could sequentially lower conveying wheels and lower anode cassette group be taken out, need again to take a long time the adjustment carrying out transmission main drive shaft when assembling is gone back.

Utility model content

In view of this, main purpose of the present utility model is to provide a kind of horizontal electroplating machine and fast disassembly type magnetic coupling device thereof, it utilizes the first conveying wheels to adopt segmentation dismounting and unitized design, when making maintenance first carry wheels and first anode box, initiatively wheels need not be dismantled, to reduce the upkeep operation time of the first conveying wheels and first anode box.In addition, first conveying wheels reach the design of segmentation dismounting and combination with magnet unit, when allowing the first conveying wheels carry out assembling or disassembling, assembling can be completed without the need to any hand tool or disassemble operation, and the position of segmentation can not interfere with the dismounting space of first anode box.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of fast disassembly type magnetic coupling device, comprising: an actuator; One first conveying wheels, drive by this actuator and rotate, these the first conveying wheels comprise multiple first delivery wheel, each this first delivery wheel comprises one first axostylus axostyle, one second axostylus axostyle and interval and is configured in multiple rollers on this first axostylus axostyle, and respectively this second axostylus axostyle is configured in one end of respectively this first axostylus axostyle; Multiple chain joint assembly, be separately positioned on respectively this first axostylus axostyle and respectively between this second axostylus axostyle, each this chain joint assembly comprises one first link unit and one second link unit, respectively this first link unit is arranged on one end of respectively this first axostylus axostyle, respectively this second link unit is arranged on one end of respectively this second axostylus axostyle, is interconnected between this first link unit and this second link unit with a snap-in structure; And multiple to magnet unit, this magnet unit of one is arranged on this first link unit, and another this magnet unit is arranged on this second link unit, and respectively this can magnetic each other to magnet unit.

A kind of horizontal electroplating machine, comprising: an actuator; One first conveying wheels, drive by this actuator and rotate, these the first conveying wheels comprise multiple first delivery wheel, each this first delivery wheel comprises one first axostylus axostyle, one second axostylus axostyle and interval and is configured in multiple rollers on this first axostylus axostyle, and respectively this second axostylus axostyle is configured in one end of respectively this first axostylus axostyle; Multiple chain joint assembly, be separately positioned on respectively this first axostylus axostyle and respectively between this second axostylus axostyle, each this chain joint assembly comprises one first link unit and one second link unit, respectively this first link unit is arranged on one end of respectively this first axostylus axostyle, respectively this second link unit is arranged on one end of respectively this second axostylus axostyle, is interconnected between this first link unit and this second link unit with a snap-in structure; Multiple to magnet unit, this magnet unit of one is arranged on this first link unit, and another this magnet unit is arranged on this second link unit, and respectively this can magnetic each other to magnet unit; And an electrode unit, be arranged on this first conveying wheels side.

Accompanying drawing explanation

Fig. 1 is the combination schematic diagram of the horizontal electroplating machine of the utility model.

Fig. 2 is the three-dimensional combination figure of the utility model fast disassembly type magnetic coupling device.

Fig. 3 is the three-dimensional exploded view of the utility model fast disassembly type magnetic coupling device.

Fig. 4 is another three-dimensional exploded view of the utility model fast disassembly type magnetic coupling device.

Fig. 5 is the another three-dimensional exploded view of the utility model fast disassembly type magnetic coupling device.

Fig. 6 is another three-dimensional combination figure of the utility model fast disassembly type magnetic coupling device.

Fig. 7 is the another three-dimensional combination figure of the utility model fast disassembly type magnetic coupling device.

[primary clustering nomenclature]

100 ... horizontal electroplating machine

10 ... fast disassembly type magnetic coupling device

1 ... actuator

2 ... first conveying wheels

21 ... first delivery wheel

211 ... first axostylus axostyle

212 ... second axostylus axostyle

213 ... roller

3 ... chain joint assembly

31 ... first link unit

311 ... groove

312 ... first annular groove

32 ... second link unit

321 ... projection

322 ... second annular groove

33 ... snap-in structure

4 ... magnet unit

41 ... annular solid

5 ... initiatively wheels

51 ... driving gear

6 ... rotary unit

61 ... swing pinion

7 ... second conveying wheels

71 ... second delivery wheel

711 ... 3rd axostylus axostyle

712 ... roller

8 ... commutating tooth wheels

81 ... spurn wheel

91 ... first wear ring

92 ... second wear ring

20 ... electrode unit

201 ... first anode box

202 ... first anode net

203 ... cathode terminal

2031 ... negative electrode presss from both sides

204 ... second anode box

205 ... second anode net

30 ... first shield

40 ... second shield

300 ... substrate.

Embodiment

Below in conjunction with accompanying drawing and embodiment of the present utility model, this Novel horizontal electroplating machine and fast disassembly type magnetic coupling device thereof are described in further detail.

Please refer to shown in Fig. 1 to Fig. 7.The utility model provides a kind of horizontal electroplating machine and fast disassembly type magnetic coupling device thereof, and horizontal electroplating machine 100 mainly comprises an actuator 1,1 first and carries wheels 2, multiple chain joint assembly 3, multiple to magnet unit 4 and an electrode unit 20.Fast disassembly type magnetic coupling device 10 mainly comprises an actuator 1,1 first and carries wheels 2, multiple chain joint assembly 3 and multiple to magnet unit 4.

As shown in Fig. 1 and Fig. 7.Actuator 1 comprises a motor and drives the screw rod rotated by motor.Screw rod provides the first conveying wheels 2 rotary power.

As shown in Figures 1 to 7.First conveying wheels 2 drive by actuator 1 and rotate for conveying substrate 300.First conveying wheels 2 comprise multiple first delivery wheel 21.Each first delivery wheel 21 comprises one first axostylus axostyle 211,1 second axostylus axostyle 212 and interval and is configured in multiple rollers 213 on the first axostylus axostyle 211.Each second axostylus axostyle 212 is configured in one end of each first axostylus axostyle 211.

As shown in Figures 1 to 7.Each chain joint assembly 3 is separately positioned between each first axostylus axostyle 211 and each second axostylus axostyle 212.Each chain joint assembly 3 comprises one first link unit 31 and one second link unit 32.Each first link unit 31 is arranged on one end of each first axostylus axostyle 211.Each second link unit 32 is arranged on one end of each second axostylus axostyle 212.Be interconnected with a snap-in structure 33 between first link unit 31 and the second link unit 32.

Be described in detail as follows, snap-in structure 33 comprises the multiple grooves 311 offered from the first link unit 31 and the multiple projections 321 extended from the second link unit 32.Each projection 321 engages mutually with each groove 311.In like manner, snap-in structure 33 also can comprise the multiple projection offered from the first link unit 31 and the multiple grooves extended from the second link unit 32.Each projection engages mutually with each groove.

As shown in Fig. 4 to Fig. 5.In addition, each first axostylus axostyle 211 is inserted in each first link unit 31, and each first axostylus axostyle 211 and each first link unit 31 in latch mode in conjunction with location.Each second axostylus axostyle 212 is inserted in each second link unit 32, and each second axostylus axostyle 212 and each second link unit 32 in latch mode in conjunction with location.Wherein, each first link unit 31 is provided with one first annular groove 312.Each second link unit 32 is provided with one second annular groove 322.

As shown in Fig. 4 to Fig. 5.One magnet unit 4 is arranged on the first link unit 31, and another magnet unit 4 is arranged on the second link unit 32.The each pair of magnet unit 4 can magnetic each other.Each pair of magnet unit 4 is respectively an annular solid 41.One annular solid 41 is placed in the first annular groove 312, and another annular solid 41 is placed in the second annular groove 322.

As shown in Figure 7.The utility model fast disassembly type magnetic coupling device 10 comprises active wheels 5.Initiatively corresponding first conveying wheels 2 one end of wheels 5 is configured to for the transmission of power of actuator 1 is carried wheels 2 to first.Initiatively wheels 5 comprise multiple driving gear 51, and each driving gear 51 is interconnected with actuator 1 and drives the first conveying wheels 2 to rotate.

As shown in Fig. 2, Fig. 3, Fig. 6 and Fig. 7.The utility model fast disassembly type magnetic coupling device 10 comprises multiple rotary unit 6, each rotary unit 6 is arranged on each second axostylus axostyle 212 and also configures towards the direction away from chain joint assembly 3, each rotary unit 6 comprises a swing pinion 61, engage each other with each driving gear 51 respectively Deng swing pinion 61, to make swing pinion 61 by driving gear 51 driven rotary.

As shown in Figure 1.The utility model fast disassembly type magnetic coupling device 10 comprises one second conveying wheels 7, second and carries wheels 7 to be arranged on above the first delivery wheel 21.Second conveying wheels 7 comprise multiple second delivery wheel 71, and each second delivery wheel 71 has one the 3rd axostylus axostyle 711 and interval and is configured in multiple rollers 712 on the 3rd axostylus axostyle 711.

As shown in Fig. 2, Fig. 3, Fig. 6 and Fig. 7.The utility model fast disassembly type magnetic coupling device 10 comprises commutating tooth wheels 8, and commutating tooth wheels 8 are arranged at the first conveying wheels 2 and second and carry wheels 7.Commutating tooth wheels 8 comprise multiple to spurn wheel 81, and one spurn wheel 81 is arranged on the first axostylus axostyle 211, and another spurn wheel 81 is arranged on the 3rd axostylus axostyle 711.Each pair of spurn wheel 81 engages each other, drives the second conveying wheels 7 to rotate to utilize the power of the first conveying wheels 2.

As shown in Figures 2 to 6.The utility model fast disassembly type magnetic coupling device 10 comprises multiple first wear ring 91 and multiple second wear ring 92.Corresponding each first annular groove 312 cover cap of each first wear ring 91 sealed annular 41.Corresponding each second annular groove 322 cover cap of each second wear ring 92 sealed annular 41.First wear ring 91 and the second wear ring 92, in order to cover magnet unit 4, are avoided magnet unit 4 to expose or depart from chain joint assembly 3.

As shown in Figure 1.Electrode unit 20 is arranged on the first conveying wheels 2 side and in order to electroplating substrate 300.Electrode unit 20 comprises first anode box 201, cathode terminal 203 and a second anode box 204.First anode box 201 is arranged on below each first delivery wheel 21, is provided with a first anode net 202 in first anode box 201.Cathode terminal 203 to be arranged on above each first delivery wheel 21 and to be positioned at a side, and cathode terminal 203 has a negative electrode folder 2031.Second anode box 204 is arranged on above each second delivery wheel 71, is provided with a second anode net 205 in second anode box 204.

As shown in Figure 1.The horizontal electroplating machine 100 of the utility model comprises one first shield 30 and one second shield 40, first shield 30 packaged type and is arranged on first anode net 202 and first and carries between wheels 2 for covering first anode net 202.Second shield 40 packaged type is arranged on second anode net 205 and second and carries between wheels 7 for covering second anode net 205.The range size that first shield 30 and the second shield 40 are plated in order to adjust substrate 300.

As shown in Figure 1, the combination of the horizontal electroplating machine 100 of the utility model, it utilizes the first conveying wheels 2 to drive rotation by actuator 1.First conveying wheels 2 comprise the first delivery wheel 21.Each first delivery wheel 21 comprises the first axostylus axostyle 211, second axostylus axostyle 212 and interval and is configured in roller 213 on the first axostylus axostyle 211.Each second axostylus axostyle 212 is configured in one end of each first axostylus axostyle 211.Chain joint assembly 3 is separately positioned between each first axostylus axostyle 211 and each second axostylus axostyle 212.Each chain joint assembly 3 comprises the first link unit 31 and the second link unit 32.Each first link unit 31 is arranged on one end of each first axostylus axostyle 211.Each second link unit 32 is arranged on one end of each second axostylus axostyle 212.Be interconnected with snap-in structure 33 between first link unit 31 and the second link unit 32.One magnet unit 4 is arranged on the first link unit 31, and another magnet unit 4 is arranged on the second link unit 32, and each pair of magnet unit 4 can magnetic each other.Electrode unit 20 is arranged on the first conveying wheels 2 side.

As shown in Figures 2 to 6.The combination of the utility model fast disassembly type magnetic coupling device 10, it utilizes the first conveying wheels 2 to drive rotation by actuator 1.First conveying wheels 2 comprise the first delivery wheel 21.Each first delivery wheel 21 comprises the first axostylus axostyle 211, second axostylus axostyle 212 and interval and is configured in roller 213 on the first axostylus axostyle 211.Each second axostylus axostyle 212 is configured in one end of each first axostylus axostyle 211.Chain joint assembly 3 is separately positioned between each first axostylus axostyle 211 and each second axostylus axostyle 212.Each chain joint assembly 3 comprises the first link unit 31 and the second link unit 32.Each first link unit 31 is arranged on one end of each first axostylus axostyle 211.Each second link unit 32 is arranged on one end of each second axostylus axostyle 212.Be interconnected with snap-in structure 33 between first link unit 31 and the second link unit 32.One magnet unit 4 is arranged on the first link unit 31, and another magnet unit 4 is arranged on the second link unit 32, and each pair of magnet unit 4 can magnetic each other.

As shown in Figures 1 to 7.The using state of the horizontal electroplating machine 100 of the utility model and fast disassembly type magnetic coupling device 10, because the first conveying wheels 2 utilize chain joint assembly 3 and magnet unit 4 to reach the design of the first axostylus axostyle 211 and the energy segmentation dismounting of the second axostylus axostyle 212 and combination.When wheels 2 and first anode box 201 are carried in maintenance first, initiatively wheels 5 need not be dismantled, to reduce the upkeep operation time of the first conveying wheels 2 and first anode box 201.

In addition, first conveying wheels 2 reach the design of segmentation dismounting and combination with magnet unit 4 and snap-in structure 33, when allowing the first conveying wheels 2 carry out assembling or disassembling, can complete assembling without the need to any hand tool or disassemble operation, and the position of segmentation can not interfere with the dismounting space of first anode box 201.

Moreover, utilize magnet unit 4 magnetic mutually between the first link unit 31 and the second link unit 32, and make the first axostylus axostyle 211 and the second axostylus axostyle 212 be together with each other.And be the ability that lifting second axostylus axostyle 212 drives the first axostylus axostyle 211 to rotate, snap-in structure 33 comprises the groove 311 offered from the first link unit 31 and the projection 321 extended from the second link unit 32.Each projection 321 engages mutually with each groove 311, makes the second axostylus axostyle 212 drive the twisting resistance of the first axostylus axostyle 211 increase and stably drive the first axostylus axostyle 211 to rotate.

The above, be only preferred embodiment of the present utility model, and be not used to limit protection domain of the present utility model.

Claims (18)

1. a fast disassembly type magnetic coupling device, is characterized in that, comprising:

One actuator;

One first conveying wheels, drive by this actuator and rotate, these the first conveying wheels comprise multiple first delivery wheel, each this first delivery wheel comprises one first axostylus axostyle, one second axostylus axostyle and interval and is configured in multiple rollers on this first axostylus axostyle, and respectively this second axostylus axostyle is configured in one end of respectively this first axostylus axostyle;

Multiple chain joint assembly, be separately positioned on respectively this first axostylus axostyle and respectively between this second axostylus axostyle, each this chain joint assembly comprises one first link unit and one second link unit, respectively this first link unit is arranged on one end of respectively this first axostylus axostyle, respectively this second link unit is arranged on one end of respectively this second axostylus axostyle, is interconnected between this first link unit and this second link unit with a snap-in structure; And

Multiple to magnet unit, this magnet unit of one is arranged on this first link unit, and another this magnet unit is arranged on this second link unit, and respectively this can magnetic each other to magnet unit.

2. fast disassembly type magnetic coupling device as claimed in claim 1, it is characterized in that, it comprises active wheels, this initiatively wheels this first conveying wheels one end configuration corresponding, these active wheels comprise multiple driving gear, and described driving gear and this actuator are interconnected and drive this first to carry wheels to rotate.

3. fast disassembly type magnetic coupling device as claimed in claim 2, it is characterized in that, it comprises multiple rotary unit, each this rotary unit to be arranged on each this second axostylus axostyle and to configure towards the direction away from this chain joint assembly, each this rotary unit comprises a swing pinion, and described swing pinion engages each other with described driving gear respectively.

4. fast disassembly type magnetic coupling device as claimed in claim 1, it is characterized in that, it comprises one second conveying wheels, these the second conveying wheels are arranged on above this first delivery wheel, these the second conveying wheels comprise multiple second delivery wheel, and each this second delivery wheel has one the 3rd axostylus axostyle and interval and is configured in multiple rollers on the 3rd axostylus axostyle.

5. fast disassembly type magnetic coupling device as claimed in claim 4, it comprises commutating tooth wheels, these commutating tooth wheels are arranged at these first conveying wheels and this second carries wheels, these commutating tooth wheels comprise multiple to spurn wheel, this spurn wheel of one is arranged on this first axostylus axostyle, another this spurn wheel is arranged on the 3rd axostylus axostyle, and respectively this engages each other to spurn wheel.

6. fast disassembly type magnetic coupling device as claimed in claim 1, is characterized in that, wherein this snap-in structure comprises the multiple groove offered from this first link unit and the multiple projections extended from this second link unit, and described projection engages mutually with described groove.

7. fast disassembly type magnetic coupling device as claimed in claim 1, it is characterized in that, wherein respectively this is respectively an annular solid to magnet unit, respectively this first link unit is provided with one first annular groove, this annular solid of one is placed in this first annular groove, respectively this second link unit is provided with one second annular groove, and another this annular solid is placed in this second annular groove.

8. fast disassembly type magnetic coupling device as claimed in claim 7, it is characterized in that, it comprises multiple first wear ring and multiple second wear ring, respectively this first wear ring correspondence respectively this first annular groove cover cap seal this annular solid, respectively this second wear ring correspondence respectively this second annular groove cover cap seal this annular solid.

9. a horizontal electroplating machine, is characterized in that, comprising:

One actuator;

One first conveying wheels, drive by this actuator and rotate, these the first conveying wheels comprise multiple first delivery wheel, each this first delivery wheel comprises one first axostylus axostyle, one second axostylus axostyle and interval and is configured in multiple rollers on this first axostylus axostyle, and respectively this second axostylus axostyle is configured in one end of respectively this first axostylus axostyle;

Multiple chain joint assembly, be separately positioned on respectively this first axostylus axostyle and respectively between this second axostylus axostyle, each this chain joint assembly comprises one first link unit and one second link unit, respectively this first link unit is arranged on one end of respectively this first axostylus axostyle, respectively this second link unit is arranged on one end of respectively this second axostylus axostyle, is interconnected between this first link unit and this second link unit with a snap-in structure;

Multiple to magnet unit, this magnet unit of one is arranged on this first link unit, and another this magnet unit is arranged on this second link unit, and respectively this can magnetic each other to magnet unit; And

One electrode unit, is arranged on this first conveying wheels side.

10. horizontal electroplating machine as claimed in claim 9, is characterized in that, it comprises one first shield, and this first shield packaged type is arranged on this electrode unit and this first is carried between wheels.

11. horizontal electroplating machines as claimed in claim 9, is characterized in that, wherein this electrode unit comprises a first anode box, and this first anode box is arranged on below described first delivery wheel, is provided with a first anode net in this first anode box.

12. horizontal electroplating machines as claimed in claim 9, it is characterized in that, wherein this electrode unit comprises a cathode terminal, and this cathode terminal to be arranged on above described first delivery wheel and to be positioned at a side, and this cathode terminal has a negative electrode folder.

13. horizontal electroplating machines as claimed in claim 9, it is characterized in that, it comprises one second conveying wheels, these the second conveying wheels are arranged on above this first delivery wheel, these the second conveying wheels comprise multiple second delivery wheel, and each this second delivery wheel has one the 3rd axostylus axostyle and interval and is configured in multiple rollers on the 3rd axostylus axostyle.

14. horizontal electroplating machines as claimed in claim 13, is characterized in that, it comprises one second shield, and this second shield packaged type is arranged on this electrode unit and this second is carried between wheels.

15. horizontal electroplating machines as claimed in claim 13, is characterized in that, wherein this electrode unit comprises a second anode box, and this second anode box is arranged on below described second delivery wheel, is provided with a second anode net in this second anode box.

16. horizontal electroplating machines as claimed in claim 9, is characterized in that, wherein this snap-in structure comprises the multiple groove offered from this first link unit and the multiple projections extended from this second link unit, and described projection engages mutually with described groove.

17. horizontal electroplating machines as claimed in claim 9, it is characterized in that, wherein respectively this is respectively an annular solid to magnet unit, respectively this first link unit is provided with one first annular groove, this annular solid of one is placed in this first annular groove, respectively this second link unit is provided with one second annular groove, and another this annular solid is placed in this second annular groove.

18. horizontal electroplating machines as claimed in claim 17, it is characterized in that, it comprises multiple first wear ring and multiple second wear ring, respectively this first wear ring correspondence respectively this first annular groove cover cap seal this annular solid, respectively this second wear ring correspondence respectively this second annular groove cover cap seal this annular solid.