CN210314551U - Swinging device for electroplating - Google Patents

Abstract

The utility model relates to an electroplating device technical field specifically indicates an electroplate and use pendulous device, including braced frame and by supreme carriage, the vibration mechanism and the translation mechanism that set gradually in the braced frame top down, the carriage includes the first side lever and the second side lever that are parallel to each other, and the vibration mechanism includes vibration support and transmission shaft, and translation mechanism includes the translation support. The vibrating support is provided with a power assembly driving the translation mechanism to do linear reciprocating motion, the top of the vibrating support is provided with a plurality of guide supports matched with the translation support, and the top of the translation support is provided with two palladium flying supports. The device can carry out abundant rocking of a plurality of dimensions to electroplating the work piece in order to break away from the bubble and adhere to, and the device is applicable to multiple plating bath and need not to reequip the plating bath.

Description

Swinging device for electroplating

Technical Field

The utility model relates to the technical field of electroplating equipment, in particular to a swinging device for electroplating.

Background

The plating is a surface processing method in which a salt plating solution of a preplating metal is charged into a plating tank, a base metal to be plated is suspended and immersed in the plating solution as a cathode via a hanger, and cations of the preplating metal in the plating solution are deposited on the surface of the base metal by the action of electrolysis to form a plated layer. Because the shapes of the electroplating workpieces which are put into the electroplating solution as the base metal are different, bubbles are easy to adhere to the surfaces of the workpieces, and because the bubbles are not conductive in the electroplating process, the parts of the surfaces of the workpieces, which are adhered with the bubbles, do not have metal deposition, so that the surface electroplating of the workpieces is uneven.

The problems are generally solved by arranging the swing device for swinging the plating bath hanger, and the electroplating workpiece hung on the plating bath hanger can be effectively separated from bubble attachment after being fully swung, so that uniform electroplating is realized. The rocking device in this arrangement is usually secured to the cell by means of support structures such as bases and mounting plates, the introduction of which involves the retrofitting of conventional cells, and each rocking device is also suitable for a particular type of cell.

Disclosure of Invention

The main object of the utility model is to provide an electroplate with rocking device independent of plating bath, should rock the device and can carry out abundant rocking and be applicable to multiple plating bath to electroplating workpiece.

In order to achieve the above object, the utility model provides an electroplate with rocking device, including braced frame, carriage, vibration mechanism and translation mechanism set gradually in the braced frame top by supreme down, and the carriage includes first side lever and the second side lever that is parallel to each other, and vibration mechanism includes vibration support and transmission shaft, and translation mechanism includes the translation support. The lower bearing seat and the driving device are arranged on the first side rod, the second side rod is movably connected with the vibration support through at least two connecting rods, the transmission shaft comprises a shaft rod and transmission heads arranged at two ends of the shaft rod, two upper bearing seats are arranged at the bottom of the vibration support, the shaft rod penetrates through the lower bearing seats and is connected with the driving device, the transmission heads comprise connection arms, the connection arms are provided with connecting sleeves fixedly sleeved with the end parts of the shaft rod on the side surfaces of the first ends, transmission pins are arranged at the second ends on the sides opposite to the connecting sleeves, the end parts of the transmission pins penetrate into the upper bearing seats, and the driving device drives the shaft rod to rotate around the axis of the.

The vibrating support is provided with a power assembly driving the translation mechanism to do linear reciprocating motion, the top of the vibrating support is provided with a plurality of guide supports matched with the translation support, and the top of the translation support is provided with two palladium flying supports.

From the above, vibration mechanism and translation mechanism can be driven along the back and forth swing of pitch arc orbit under the rotation of transmission shaft to realize both rocking in braced frame direction of height and width direction. The translation mechanism can realize linear movement relative to the vibration mechanism by virtue of the power assembly and the guide support, so as to realize the shaking of the translation mechanism in the length direction of the support frame. Therefore, the translation mechanism directly connected with the electroplating palladium flying device can perform three-dimensional swinging motion relative to the support frame and can perform sufficient vibration on the electroplating workpiece to get rid of bubbles attached to the surface of the electroplating workpiece.

The vibration support comprises a horizontal main frame and two lower support frames, the lower support frames are arranged at the end parts of the horizontal main frame, the top parts of the lower support frames are fixedly connected with the horizontal main frame, an upper bearing seat is arranged at the bottom parts of the lower support frames, the upper ends of connecting rods are hinged with the horizontal main frame, and the lower ends of the connecting rods are hinged with second side rods.

Therefore, the distance between the horizontal main frame and the bearing frame can be increased by introducing the two lower support frames, enough space is reserved for arrangement of the power assembly, and structural strength of two ends of a support system of the vibration mechanism is enhanced.

The further scheme is that, the translation support includes frame and transmission frame, the vibration support is still including the frame of locating horizontal main frame tip, power component includes gear motor and actuating arm, gear motor adorns in the frame, gear motor's output shaft end up and perpendicular to horizontal main frame, the actuating arm includes horizontal base plate, horizontal base plate is equipped with the output shaft complex connecting end cover with gear motor on the bottom surface of first end, horizontal base plate is equipped with the drive round on the top surface of second end, the inside one end that corresponds with gear motor of frame is located to the transmission frame, the drive round is located inside the transmission frame.

Therefore, the installation position of the speed reducing motor is adjusted to enable the output shaft of the speed reducing motor to be located at the center of the transmission frame, the length of the transmission frame is set to be two times larger than the length of the horizontal substrate, meanwhile, the width of the transmission frame is set to be two times smaller than the length of the horizontal substrate, and the rotation output by the speed reducing motor can be conveniently converted into the linear reciprocating motion of the translation support in the width direction of the transmission frame by being matched with the guide of the guide support.

A further scheme is, horizontal main frame includes two main frame side levers that are on a parallel with first side lever, the frame includes two frame side levers that are on a parallel with main frame side lever, the interval of two frame side levers equals with the interval of two main frame side levers, main frame side lever passes through the direction support and is connected with the frame side lever, the support bottom plate on main frame side lever is located to the direction support including fixed locating, the top surface of support bottom plate sets up two side shields relatively, the frame side lever is located between two side shields, respectively be equipped with a leading wheel in the top and the below of frame side lever between two side shields.

Therefore, the guiding support is introduced to convert friction in the relative movement process between the translation support and the vibration support into rolling friction through sliding friction, so that the abrasion of equipment is effectively reduced, and the translation support is effectively guided to horizontally slide along the length direction of the supporting frame.

The further scheme is that the translation support further comprises a first horizontal inner frame and a second horizontal inner frame which are arranged in the outer frame, the two palladium flying supports are respectively arranged at the tops of the first horizontal inner frame and the second horizontal inner frame, and a connecting line of the two palladium flying supports is parallel to the first side rod.

During electroplating operation, the electroplating bath is required to be arranged in the supporting frame, the long edge of the electroplating bath is parallel to the first side rod, and the connecting line of the two palladium flying supports is parallel to the first side rod, so that the length of the electroplating bath can be fully utilized to arrange more electroplating workpieces. Because the size of the electroplating bath is smaller than that of the supporting frame, the length of the electroplating flying palladium is matched with that of the electroplating bath, and the two horizontal inner frames can be introduced to shorten the distance between the two flying palladium supports, so that the electroplating flying palladium can be better matched.

The further proposal is that the driving device is a worm gear speed reducing motor.

The worm gear reduction motor is a motor type device integrating a driving motor and a worm gear reduction box, and a motor part of the device can be staggered with the shaft rod, so that the device can be conveniently arranged on the bearing frame and can output larger torque at low rotating speed.

Drawings

FIG. 1 is a front view of an embodiment of a rocking device for electroplating according to the present invention.

FIG. 2 is a perspective view of an embodiment of the swing device for electroplating according to the present invention.

Fig. 3 is an enlarged structural view at a in fig. 2.

FIG. 4 is a right side view of an embodiment of the swing device for electroplating according to the present invention.

Fig. 5 is an enlarged structural view at B in fig. 4.

FIG. 6 is a view showing a structure of the guide holder and the side bar of the main frame of the swing device for plating according to the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Referring to fig. 1 to 5, the utility model provides an electroplate with rocking device includes braced frame 1 carriage 2, vibration mechanism 3 and translation mechanism 4, and carriage 2, vibration mechanism 3 and translation mechanism 4 set gradually in braced frame 1 top by supreme down, and carriage 2 includes first side lever 21 and the second side lever 22 that are parallel to each other, and vibration mechanism 3 includes vibration support 31 and transmission shaft 32, and translation mechanism 4 includes translation support 41. The first side lever 21 is provided with a lower bearing seat 23 and a driving device 24, the second side lever 22 is movably connected with the vibration support 31 through at least two connecting rods 25, the transmission shaft 32 comprises a shaft rod 321 and transmission heads arranged at two ends of the shaft rod 321, the bottom of the vibration support 31 is provided with two upper bearing seats 33, the shaft rod 321 penetrates through the lower bearing seats 33 and is connected with the driving device 24, the transmission head comprises a connecting arm 322, the side surface of the first end of the connecting arm 322 is provided with a connecting sleeve 323 fixedly sleeved with the end part of the shaft rod 321, the second end of the connecting arm 322 is provided with a transmission pin 324 at one side opposite to the connecting sleeve 323, the end part of the transmission pin 324 penetrates into the upper bearing seats 33, and the driving device 24 drives the shaft.

The vibration support 31 is provided with a power assembly for driving the translation mechanism 4 to do linear reciprocating motion, the top of the vibration support 31 is provided with a plurality of guide supports 34 matched with the translation support 41, and the top of the translation support 41 is provided with two palladium flying supports 42.

The vibration mechanism 3 and the translation mechanism 4 can swing back and forth along an arc track under the rotation of the transmission shaft 32, so that the vibration mechanism and the translation mechanism can swing in the height direction and the width direction of the support frame 1. The translation mechanism 4 can realize linear movement relative to the vibration mechanism 3 by means of the power assembly and the guide support 34, thereby realizing the shaking motion of the translation mechanism in the length direction of the support frame 1. Therefore, the translation mechanism 4 directly connected with the electroplating palladium flying can do three-dimensional swinging motion relative to the supporting frame and can do sufficient vibration to the electroplating workpiece to get rid of bubbles attached to the surface of the electroplating workpiece.

Because the whole set of swinging device is completely independent from the electroplating bath, the supporting frame 1, the vibrating mechanism 2 and the translation mechanism 3 can be suitable for various electroplating baths with different specifications after the sizes are optimized, and the electroplating bath does not need to be modified. Before the electroplating operation, the electroplating bath is required to be arranged in the swinging device, and then the electroplating palladium flying is arranged on the swinging device to carry out the electroplating operation.

The vibration support 31 comprises a horizontal main frame 35 and two lower support frames 36, the lower support frames 36 are arranged at the end parts of the horizontal main frame 35, the top parts of the lower support frames 36 are fixedly connected with the horizontal main frame 35, the upper bearing seats 33 are arranged at the bottom parts of the lower support frames 36, the upper ends of the connecting rods 25 are hinged with the horizontal main frame 35, and the lower ends of the connecting rods 25 are hinged with the second side rods 22.

The introduction of the two lower support frames 36 can increase the distance between the horizontal main frame 35 and the bearing frame 2, reserve enough space for the arrangement of power components, and simultaneously strengthen the structural strength of the two ends of the support system of the vibration mechanism 3.

Translation support 41 includes frame 43 and transmission frame 44, vibration support 31 is still including locating the frame 37 of horizontal main frame 35 tip, power component includes gear motor 38 and actuating arm 39, gear motor 38 is adorned on frame 37, gear motor 38's output shaft end is up and perpendicular to horizontal main frame 35, actuating arm 39 includes horizontal base plate 391, horizontal base plate 391 is equipped with on the bottom surface of first end with gear motor 38's output shaft complex connection pot 392, horizontal base plate 391 is equipped with drive pin 393 on the top surface of second end, transmission frame 44 is located the inside one end that corresponds with gear motor 38 of frame 43, drive pin 393 is located inside transmission frame 44.

Referring to fig. 1 to 6, the horizontal main frame 35 includes two main frame side bars 351 parallel to the first side bar 21, the outer frame 43 includes two outer frame side bars 431 parallel to the main frame side bars 351, the distance between the two outer frame side bars 431 is equal to the distance between the two main frame side bars 351, the main frame side bars 351 are connected to the outer frame side bars 431 by the guide supports 34, the guide supports 34 include support base plates 341 fixedly provided on the main frame side bars 351, two side guards 342 are oppositely provided on the top surfaces of the support base plates 341, the outer frame side bars 431 are located between the two side guards 342, and one guide wheel 343 is provided between the two side guards 342 above and below the outer frame side bars 431.

The guide support 34 is introduced to convert the friction in the relative movement process between the translation support 4 and the vibration support 3 from sliding friction to rolling friction, so that the abrasion of the equipment is effectively reduced, and the translation support 41 is effectively guided to horizontally slide along the length direction of the support frame 1.

The translation support 41 further comprises a first horizontal inner frame 45 and a second horizontal inner frame 46 which are arranged in the outer frame 43, the two palladium flying supports 42 are respectively arranged at the tops of the first horizontal inner frame 45 and the second horizontal inner frame 46, and the connecting line of the two palladium flying supports 42 is parallel to the first side rod 21.

Because the long side of the plating bath is parallel to the first side rod 21, the connecting line of the two palladium flying supports 42 is parallel to the first side rod 21, so that the length of the plating bath can be fully utilized to arrange more plated workpieces. The size of the electroplating bath is smaller than that of the support frame 1, the length of the electroplated flying palladium is matched with that of the electroplating bath, and the first horizontal inner frame 45 and the second horizontal inner frame 46 can be introduced to be close to the distance between the two flying palladium supports 42, so that the electroplated flying palladium can be better matched.

The driving device 24 is a worm gear speed reducing motor. The worm gear reduction motor is a motor type device integrating a driving motor and a worm gear reduction box, and a motor part of the device can be staggered with the shaft rod 321, so that the device can be conveniently arranged on the bearing frame 2 and can output larger torque at low rotating speed.

In the embodiment, the output shaft of the speed reducing motor 38 is located at the center of the transmission frame 44, the length of the transmission frame 44 is greater than twice the length of the horizontal base plate 391, the width of the transmission frame 44 is less than twice the length of the horizontal base plate 391, the width direction of the transmission frame 44 is parallel to the extending direction of the first side rod 21, i.e. parallel to the length direction of the supporting frame 1, and the rotation output by the speed reducing motor 38 can be conveniently converted into the linear reciprocating motion of the translation bracket 4 in the width direction of the transmission frame 44 by matching with the guiding of the guide support 34.

In the embodiment, the widths of the supporting frame 1, the carrying frame 2, the horizontal main frame 35 and the outer frame 43 are all equal. The first side bar 21 is provided with 3 lower bearing seats 23, and the second side bar 22 is provided with 2 connecting rods 25. The transmission frame 32 and the first horizontal inner frame 45 are located on the same side of the horizontal main frame 35, the transmission frame 32 is located inside the first horizontal inner frame 45, the transmission frame and the first horizontal inner frame are connected into a whole through some rod pieces to realize structural reinforcement, and in addition, the palladium flying support 42 adopts a V-shaped copper seat.

Claims (6)

1. A swinging device for electroplating is characterized in that:

the vibration mechanism comprises a vibration support and a transmission shaft, the translation mechanism comprises a translation support, a lower bearing seat and a driving device are arranged on the first side rod, the second side rod is movably connected with the vibration support through at least two connecting rods, the transmission shaft comprises a shaft rod and transmission heads arranged at two ends of the shaft rod, two upper bearing seats are arranged at the bottom of the vibration support, the shaft rod penetrates through the lower bearing seat and is connected with the driving device, the transmission head comprises a connecting arm, a connecting sleeve fixedly sleeved with the end part of the shaft rod is arranged on the side surface of the first end of the connecting arm, a transmission pin is arranged at one side of the second end opposite to the connecting sleeve, the end part of the transmission pin penetrates into the upper bearing seat, and the driving device drives the shaft lever to rotate around the axis of the shaft lever;

the device comprises a vibrating support, a translation mechanism and a power assembly, wherein the vibrating support is provided with the power assembly for driving the translation mechanism to linearly reciprocate, the top of the vibrating support is provided with a plurality of guide supports matched with the translation support, and the top of the translation support is provided with two palladium flying supports.

2. The rocking device for plating according to claim 1, wherein:

the vibration support comprises a horizontal main frame and two lower support frames, the lower support frames are arranged at the end parts of the horizontal main frame, the top parts of the lower support frames are fixedly connected with the horizontal main frame, the upper bearing seat is arranged at the bottom of the lower support frames, the upper ends of the connecting rods are hinged with the horizontal main frame, and the lower ends of the connecting rods are hinged with the second side rods.

3. The rocking device for plating according to claim 2, wherein:

the horizontal moving support comprises an outer frame and a transmission frame, the vibration support further comprises a rack arranged at the end part of the horizontal main frame, the power assembly comprises a speed reducing motor and a driving arm, the speed reducing motor is arranged on the rack, the output shaft end of the speed reducing motor faces upwards and is perpendicular to the horizontal main frame, the driving arm comprises a horizontal base plate, the horizontal base plate is provided with a connecting end sleeve matched with the output shaft of the speed reducing motor on the bottom surface of the first end, the horizontal base plate is provided with a driving pin on the top surface of the second end, the transmission frame is arranged at one end, corresponding to the speed reducing motor, inside the outer frame, and the driving pin is located inside the transmission frame.

4. The rocking device for plating according to claim 3, wherein:

the horizontal main frame comprises two main frame side rods parallel to the first side rods, the outer frame comprises two outer frame side rods parallel to the main frame side rods, the distance between the outer frame side rods is equal to the distance between the main frame side rods, the main frame side rods pass through the guide support and the outer frame side rods are connected, the guide support is fixedly arranged on a support bottom plate on the main frame side rods, two side baffles are oppositely arranged on the top surface of the support bottom plate, the outer frame side rods are located between the two side baffles, and two guide wheels are respectively arranged above and below the outer frame side rods.

5. The rocking device for plating according to claim 3, wherein:

the translation support further comprises a first horizontal inner frame and a second horizontal inner frame which are arranged in the outer frame, the two flying palladium supports are respectively arranged at the tops of the first horizontal inner frame and the second horizontal inner frame, and a connecting line of the two flying palladium supports is parallel to the first side rod.

6. The rocking device for plating according to any one of claims 1 to 5, wherein:

the driving device is a worm gear and worm reduction motor.

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