CN205170999U - Perpendicular continuous electroplating equipment - Google Patents

Abstract

The utility model provides a perpendicular continuous electroplating equipment, perpendicular continuous electroplating equipment includes the transfer chain, the transfer chain includes material loading section and unloading section. Material loading section and unloading section are provided with rotary mechanism respectively, rotary mechanism includes drive arrangement, supporting mechanism and hangs and put the swivel mount of waiting to electroplate the work piece. The drive arrangement drive the swivel mount is rotatory, the supporting mechanism is fixed in the swivel mount supports wait to electroplate the work piece. Compared with the prior art, the material loading section and the unloading section of transfer chain are provided with respectively rotary mechanism, rotary mechanism can drive it is rotatory to wait to electroplate the work piece, realizes it can sharply carry to wait to electroplate the work piece, improves production efficiency. And make perpendicular continuous electroplating equipment can realize sharp overall arrangement, and its structure is compacter, has practiced thrift the production place.

Description

Vertical continuous electroplating device

Technical field

The utility model relates to circuit board making field, particularly relates to a kind of vertical continuous electroplating device for circuit board manufacturing.

Background technology

Printed circuit board is towards thin, smart, thin future development, and in order to make meticulousr circuit, the uniformity requirement that circuit card effects on surface copper is thick improves, and the application of upright plating line well can solve the problem of electroplating evenness.Meanwhile, in order to enhance productivity, continuous electric plating device instead of conventional batch electroplating device gradually.Thus, vertical continuous electroplating device is suggested, and is used widely in printed electronic circuit board production technology.

In the course of processing, the direction that circuit card is placed determines the streamline direction of circuit card processing, and namely circuit card streamline direction determines the layout of electroplating device.In the vertical electroplating equipment of correlation technique, electroplating device is station type, and circuit card material loading section and blanking section can not realize continuous linear conveying, cause circuit card to transport too much in electroplating process, consuming time longer, thus reduce production efficiency.Meanwhile, the non-rectilinear layout of electroplating device needs larger production site, improves production cost.

Therefore, be necessary to provide a kind of new vertical electroplating equipment to solve the problem.

Utility model content

The utility model, for solving the problems of the technologies described above, provides a kind of vertical continuous electroplating device, makes electroplated workpiece in the material loading section of transfer limes and the rotatable direction of blanking section, realizes the straight configuration of described vertical continuous electroplating device, save production site and cost.

The technical scheme that the utility model adopts is, a kind of vertical continuous electroplating device, comprises transfer limes, and described transfer limes comprises material loading section and blanking section.Wherein, described material loading section and blanking section arrange rotating mechanism respectively, described rotating mechanism comprises drive unit, supporting mechanism and hangs the swivel mount of electroplated workpiece, described drive unit drives described swivel mount to rotate, and described supporting mechanism is fixed on described swivel mount and supports described electroplated workpiece.

Preferably, described swivel mount comprises spiral arm and is arranged at the link plate at described spiral arm two ends, and described electroplated workpiece is placed in described link plate.

Preferably, described supporting mechanism comprises bracing frame and is fixed on the base of support frame as described above, and support frame as described above is fixed on described swivel mount and supports described electroplated workpiece.

Preferably, described supporting mechanism also comprise be located at described base resistance device falls, described in fall resistance device and be connected to support frame as described above.

Preferably, falling resistance device described in is thrust ball bearing.

Preferably, described supporting mechanism also comprises the center roller being arranged at support frame as described above.

Preferably, described base is provided with the header board being fixed on it, and described center roller runs through described header board.

Preferably, described drive unit comprises motor, speed reduction unit, rotating shaft, and described motor is connected with described speed reduction unit, and described speed reduction unit is connected with described rotating shaft.

Compared with correlation technique, in the vertical continuous electroplating device that the utility model provides, material loading section and the blanking section of described transfer limes are respectively arranged with described rotating mechanism, and described rotating mechanism can drive described electroplated workpiece to rotate, realize described electroplated workpiece can carry by straight line, enhance productivity.And make described vertical continuous electroplating device can realize straight configuration, its more compact structure, save production site.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model vertical continuous electroplating device.

Fig. 2 is the structural representation of rotating mechanism in the utility model vertical continuous electroplating device.

Embodiment

Below in conjunction with drawings and embodiments, the utility model is described in further detail.

As consulted Fig. 1, it is the structural representation of the utility model vertical continuous electroplating device.Described vertical continuous electroplating device 10 comprises transfer limes 4.Described transfer limes 4 comprises material loading section 1 and blanking section 2.Described material loading section 1 and blanking section 2 are respectively arranged with rotating mechanism 3.

Referring to Fig. 2, is the structural representation of rotating mechanism in the utility model vertical continuous electroplating device.Described rotating mechanism 3 comprises drive unit 31, supporting mechanism 32 and hangs the swivel mount 33 of electroplated workpiece.

Described drive unit 31 drives described swivel mount 33 to rotate, and described supporting mechanism 32 is fixed on described swivel mount 33 and supports described electroplated workpiece 5.If the described electroplating parts of described material loading section 1 is the described rotating mechanism 3 of initial angle 0 °, described material loading section 1, by described electroplating parts 5 by initial angle half-twist; By the described rotating mechanism 3 of described blanking section 2, by its half-twist again.

In present embodiment, with described transfer limes 4 length direction for reference: set described electroplating parts 5 perpendicular to during described transfer limes 4 length direction as described electroplating parts initial angle 0 ° of state; If described electroplating parts 5 is described electroplating parts half-twist state when being parallel to described transfer limes 4 length direction.By described electroplating parts 5 from 0 ° of half-twist, become parastate with the position relationship of described transfer limes 4 length direction by plumbness by described electroplating parts 5.This Principle of Rotating is applicable to the rotation of 0 ° ~ 90 ° of unspecified angles.

In present embodiment, described electroplating parts 5 comprises circuit card 51 and frock clamp 52, and described frock clamp 52 is for clamping described circuit card 51, and the described rotating mechanism 3 of described vertical continuous electroplating device, can rotate two pieces of described electroplating parts 5 simultaneously.

In present embodiment, described swivel mount 33 comprises spiral arm 332 and is arranged at the link plate 331 at described spiral arm two ends, and described electroplated workpiece 5 is placed in described link plate 331.

In present embodiment, described supporting mechanism 32 comprises bracing frame 321 and is fixed on the base 324 of support frame as described above, and support frame as described above 321 is fixed on described swivel mount 33 and supports described electroplated workpiece 5.Support frame as described above 321 is for ensureing that described electroplating parts 5 is in rotary course, is always vertical state, and the width distance of two pieces of described electroplating parts 5 is equal.

In present embodiment, described supporting mechanism 32 also comprise be located at described base 324 fall resistance device 322, described in fall resistance device 322 be connected to support frame as described above 321.When described rotating mechanism 3 drives described electroplating parts 5 to rotate, described electroplating parts 5 drives the support frame as described above 321 on described supporting mechanism 32 together to rotate, for reducing the axial load forces that described electroplating parts 5 pairs of support frames as described above 321 produce, and reduce support frame as described above 321 and the axial friction of base 324, arrange to fall between described base 324 and support frame as described above 321 and hinder device 322.Concrete, in the present embodiment, described in fall resistance device 322 be thrust ball bearing.Certainly, fall resistance device 322 described in and be not limited to this.

In present embodiment, described supporting mechanism 32 also comprises the center roller 323 being arranged at support frame as described above 321, described base 324 is provided with the header board 325 being fixed on it, described center roller 323 runs through described header board 325, when described rotating mechanism 3 rotates, described center roller 323, under the effect of described header board 325, can ensure that the rotary middle spindle of described rotating mechanism 3 is vertical all the time.

Described drive unit 31 comprises motor 311, speed reduction unit 312 and rotating shaft 313, and described motor 311 is connected with described speed reduction unit 312 by chain (not shown), and described speed reduction unit 312 is connected with described rotating shaft 313.

In actual mechanical process, two pieces of described circuit cards 51 are in transfer limes 4 material loading section 1, arranged by the clamping of described frock clamp 52 symmetry, the same rail of feed rail of described swivel mount 33 and described material loading section 1, described electroplating parts 5 is delivered on the spiral arm 332 of described rotating mechanism 3 by described motor 311 automatically, described electroplating parts 5 is tangled by described link plate 331, start described rotating mechanism 3, after driving described electroplating parts 5 half-twist, one end that described swivel mount 33 hangs with described electroplating parts 5 is linearly docked with described transfer limes 4, automatically described electroplating parts 5 is sent in described transfer limes 4 by conveying motor (not shown), after technological process completes, described electroplating parts 5 by described conveying motor automatic transport to described transfer limes 4 described blanking section 2 place described rotating mechanism 3 on, start described rotating mechanism 3, drive described electroplating parts 5 half-twist again, complete discharging work.

Compared with correlation technique, the utility model combined circuit plate processing requirement and production site requirement, solve described circuit card angle and rotate the technical problem of docking with the straight line of described transfer limes, achieve the straight configuration of vertical continuous electroplating device.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification sheets and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical field, be all in like manner included in scope of patent protection of the present utility model.

Claims (8)

1. a vertical continuous electroplating device, comprise transfer limes, described transfer limes comprises material loading section and blanking section, it is characterized in that, described material loading section and blanking section arrange rotating mechanism respectively, described rotating mechanism comprises drive unit, supporting mechanism and hangs the swivel mount of electroplated workpiece, and described drive unit drives described swivel mount to rotate, and described supporting mechanism is fixed on described swivel mount and supports described electroplated workpiece.

2. vertical continuous electroplating device according to claim 1, is characterized in that, described swivel mount comprises spiral arm and is arranged at the link plate at described spiral arm two ends, and described electroplated workpiece is placed in described link plate.

3. vertical continuous electroplating device according to claim 1, is characterized in that, described supporting mechanism comprises bracing frame and is fixed on the base of support frame as described above, and support frame as described above is fixed on described swivel mount and supports described electroplated workpiece.

4. vertical continuous electroplating device according to claim 3, is characterized in that, described supporting mechanism also comprise be located at described base resistance device falls, described in fall resistance device and be connected to support frame as described above.

5. vertical continuous electroplating device according to claim 4, is characterized in that, described in fall resistance device be thrust ball bearing.

6. the vertical continuous electroplating device according to any one of claim 3 to 5, is characterized in that, described supporting mechanism also comprises the center roller being arranged at support frame as described above.

7. vertical continuous electroplating device according to claim 6, is characterized in that, described base is provided with the header board being fixed on it, and described center roller runs through described header board.

8. vertical continuous electroplating device according to claim 1, is characterized in that, described drive unit comprises motor, speed reduction unit, rotating shaft, and described motor is connected with described speed reduction unit, and described speed reduction unit is connected with described rotating shaft.