CN211471619U - Open cylinder and workpiece processing device - Google Patents

Abstract

The utility model provides an open type roller and a workpiece processing device, wherein the open type roller comprises an open cylinder body and a conductive component; the workpiece processing apparatus includes an open drum. The conductive assembly is conducted with the power supply, one end of the conductive assembly is rotatably connected to the rotating assembly, and the other end of the conductive assembly can extend into the open cylinder or be arranged outside the open cylinder. When the open type roller with the structure is used for electroplating, workpieces in the roller are fewer and distributed scattered, even if the workpieces in the middle part of the roller cannot contact the cathode conductive shafts on the two sides for conduction when rolling, the other end of the conductive component extends into the accommodating inner cavity, so that the contact area and the contact probability of the workpieces in the middle part and the cathodes are increased, and the electroplating quality when the workpieces are fewer is improved; meanwhile, a large amount of loss of cations in the electroplating solution can be avoided, and the cost is saved; when the conductive component rotates along with the roller, the conductive component does not synchronously rotate along the circumferential direction along with the roller, and the conductive component is not easy to be wound together with a workpiece, so that the conductive component or the workpiece is prevented from being damaged.

Description

Open cylinder and workpiece processing device

Technical Field

The utility model relates to an electroplating device technical field, concretely relates to open cylinder and work piece processing apparatus.

Background

Barrel plating, namely barrel electroplating, is to place a certain number of workpieces in an inner cavity of a barrel plating barrel, and under the rotation of a barrel, the workpieces are continuously contacted with electroplating solution in a tank body, and a metal layer or an alloy coating with required thickness is deposited on the surface of the workpieces, so that the purposes of protecting the surface of the workpieces and other functions are achieved.

Open cylinder among the prior art is including setting up conductive shaft, driving shaft, driven shaft and the drive belt in the cylinder both sides, and wherein, the drive belt is around establishing on driving shaft and driven shaft and being the closed ring, and the front side outer peripheral face of drive belt both sides is around establishing in the periphery of conductive dish, encloses between the front side outer peripheral face of drive belt and two conductive dishes to have the opening and inwards sunken holding inner chamber. External drive power drive driving shaft rotates, and the driving shaft rotates and drives the drive belt rotation so that the work piece that holds the inner chamber constantly rolls, makes the plating solution of work piece and cell body and the conductive shaft contact of cylinder both sides, adsorbs metal ion completion electroplating after the work piece contact conductive shaft is electrically conductive.

However, when a small amount of workpieces are arranged in the roller, the workpieces are scattered in the roller, and part of the workpieces distributed in the middle of the roller cannot contact the conductive shafts on two sides and cannot be conductively adsorbed with metal ions in the rotating and rolling process, so that the electroplating effect is influenced; a small number of workpieces can be fully contacted with the conductive shafts on the two sides only by rolling for many times, so that the electroplating efficiency is low.

The material of the transmission belt is non-conductive material such as plastic, the electroplating solution contains cations, the workpiece to be plated is used as a cathode, the workpiece with the electroplating solution is contacted with cathode conductive shafts at two sides in the rolling process to conduct electricity, and the cations in the electroplating solution on the workpiece deposit on the surface of the workpiece through electrolysis to form a plating layer after the electricity is conducted. When a few workpieces are arranged in the roller, the conductive area of the cathode needs to be increased properly, the transmission belt cannot be directly made into a conductive material, if the transmission belt is used as the cathode, the area of the transmission belt is much larger than that of a product, most of cations are deposited on the surface of the transmission belt to form a coating, and effective and uniform electroplating of the workpieces cannot be realized; at the same time, the cation consumption is high, and the electroplating cost is greatly increased.

Still have a cylinder structure among the prior art, the cable conductor penetrates as the conducting electrode among the electroplating process in the cylinder from the both sides terminal surface of cylinder, and external power drive cylinder is rotatory, and the work piece constantly overturns in the cylinder and the contact of cable conductor accomplishes the electroplating. The roller structure has the advantage that the cable is easy to be wound with a workpiece to damage the cable or the workpiece when the cable rotates along with the roller.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problem of overcoming the defects of poor electroplating effect and low electroplating efficiency of a small amount of workpieces to be electroplated which are arranged in the open type roller in the prior art.

To this end, the utility model provides an open type roller, include

The opening cylinder comprises a transmission belt and a rotating component for driving the transmission belt to rotate, and the transmission belt is wound on the outer side of the rotating component and forms an accommodating inner cavity with an open opening and a concave part; and

and the conductive component is communicated with a power supply, one end of the conductive component is rotatably connected to the rotating component, and the other end of the conductive component can extend into the interior of the open cylinder or be arranged outside the open cylinder.

Optionally, in the above open drum, the rotating assembly includes a driving shaft and a driven shaft, the transmission belt is a closed ring and is wound around the driving shaft and the driven shaft, and one end of the conductive assembly is rotatably connected to the driving shaft.

Optionally, in the above open drum, the open drum further includes a conductive disc, the conductive disc is disposed between the driving shaft and the driven shaft, and a side surface of an end of the transmission belt is wound on the conductive disc.

Optionally, in the above open-type drum, the conductive component includes a conductive part and a rotating bracket for driving the conductive part to rotate, and the rotating bracket includes two side arms and a cross arm fixedly connected to the conductive part; the two side arms are rotatably arranged on the driving shaft, the cross arm frame is arranged between the two side arms, and the cross arm is fixedly connected with the side arms.

Alternatively, the open roller described above, the conductive member may extend onto the front-side outer surface of the belt.

Alternatively, in the above-mentioned open-type drum, the conductive member has a plurality of conductive members, and the plurality of conductive members are distributed on the horizontal arm at equal intervals.

Optionally, in the above open type drum, the two side arms are arranged perpendicular to the axis of the driving shaft; the cross arm is parallel to the axis of the driving shaft.

Optionally, in the above open-type drum, a longitudinal section of a section of any side arm close to the driving shaft is arc-shaped, and a section of any side arm far away from the driving shaft is a straight arm.

Optionally, in the above open-ended drum, the transmission belt is a link plate or a belt.

The utility model provides a workpiece processing device, including any one of the aforesaid open cylinder.

The utility model discloses technical scheme has following advantage:

1. the utility model provides an open type roller, which comprises an open roller body and a conductive component, wherein the open roller body comprises a transmission belt and a rotating component for driving the transmission belt to rotate, and the transmission belt is wound on the outer side of the rotating component and forms an accommodating inner cavity with an open opening and a concave part; the conductive assembly is conducted with the power supply, one end of the conductive assembly is rotatably connected to the rotating assembly, and the other end of the conductive assembly can extend into the open cylinder or be arranged outside the open cylinder.

When the open type roller with the structure is used for electroplating, a workpiece is accommodated in the accommodating inner cavity of the transmission belt, the conductive component serves as a cathode, the other end of the conductive component extends into the accommodating inner cavity, the roller rotates to drive the workpiece to move upwards, then the workpiece rolls down into the accommodating inner cavity, the rolled workpiece is contacted with the conductive component for conduction, and cations on the workpiece are electrolytically deposited on the surface of the workpiece to form a coating; when the workpieces in the roller are fewer and scattered, even if the workpieces in the middle part of the roller cannot contact the cathode conductive shafts on the two sides for conduction when rolling, the other end of the conductive component extends into the accommodating inner cavity, so that the contact area and the contact probability of the workpieces in the middle part and the cathode are increased, and the electroplating quality when the workpieces are fewer is improved; meanwhile, a large amount of loss of cations in the electroplating solution can be avoided, and the cost is saved; because conducting component's one end is connected on the runner assembly, inside the other end stretched into the cylinder, conducting component did not run through the setting along cylinder length direction, and conducting component does not rotate along the cylinder along circumference synchronization when rotating along with the cylinder, and conducting component is difficult for avoiding damaging conducting component or work piece together with the work piece winding.

2. The utility model provides an open cylinder, one section longitudinal section shape that arbitrary side arm is close to the driving shaft is convex, and one section that the driving shaft was kept away from to arbitrary side arm is straight arm. In a working state, the rotating bracket is rotated to enable the conductive component to extend into the accommodating inner cavity of the roller, the side arm is enabled to extend into the accommodating inner cavity from the middle part of the opening of the roller by the arrangement of the arc section of the side arm, the conductive component extends to the middle part of the outer surface of the front side of the transmission belt, and the contact probability of the workpiece and the conductive component in the rolling process is increased; meanwhile, the strength of the rotary support is increased due to the arrangement of the side arm arc section, the rotary support is prevented from being broken in the repeated rotating process, and the cost is increased due to the replacement of the rotary support and the conductive parts.

3. The utility model provides an open cylinder carries out the unloading after the work piece is electroplated and is accomplished, the unloading state, cylinder counter-clockwise turning, and the work piece is along with drive belt motion to cylinder opening part, and the cylinder continues counter-clockwise turning to take the work piece out of the cylinder and accomplishes the unloading outward. The conductive assembly is rotated anticlockwise to be arranged outside the open type cylinder body, the foldable baffle is arranged on the supporting frame, the baffle is unfolded to enable the baffle to block the side wall of the rotary support to fix the rotary support after the rotary support rotates to the upper portion of the roller in a blanking state, or a hook can be arranged above the open type roller, and the rotary support is hooked by the hook to fix the rotary support in the blanking state. The setting of conductive component had both properly increased the electrically conductive area of work piece, and the work piece is less, also can realize even electroplating when distributing scattered, can rotate conductive component and fix it outside open barrel at the unloading state simultaneously, avoids the wire subassembly to block the work piece, guarantees normal unloading.

4. The utility model provides a workpiece processing device, it includes open cylinder, base, first fixing base, second fixing base and closing plate. First fixing base and second fixing base set up respectively in the base both sides, and the closing plate strides to be established between first fixing base and second fixing base, encloses into firm installation frame between base, first fixing base, second fixing base and the closing plate, forms the installation cavity in order to hold open cylinder in it.

The conductive component in the workpiece processing device with the structure increases the contact area and the contact probability of the workpiece at the middle part and the cathode, and improves the electroplating quality when the workpiece is fewer; meanwhile, a large amount of loss of cations in the electroplating solution can be avoided, and the cost is saved; meanwhile, normal discharging of the open type roller can be guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a left side view of an operating state of a workpiece processing apparatus according to embodiment 2 of the present invention;

fig. 2 is a left side view of a blanking state of the workpiece processing apparatus provided in embodiment 2 of the present invention;

FIG. 3 is a schematic perspective view of the workpiece processing apparatus with a portion of the link plate removed;

FIG. 4 is a schematic perspective view of a workpiece handling apparatus;

description of reference numerals:

11-a transmission belt; 121-driving shaft; 122-a driven shaft; 13-arc support; 14-a conductive shaft; 15-a tensioning frame; 21-a conductive member; 22-rotating the support; 221-side arm; 222-a crossbar; 3-a conductive pad; 4-a base; 5-a first fixed seat; 6-a second fixed seat; 7-sealing plate.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

The present embodiment provides an open type drum, as shown in fig. 1 to 3, which includes an open cylinder and a conductive member.

The open cylinder comprises a transmission belt 11 and a rotating component for driving the transmission belt 11 to rotate, wherein the transmission belt 11 is wound on the outer side of the rotating component and forms an accommodating inner cavity with an open opening and a concave opening; the conductive assembly is conducted with the power supply, one end of the conductive assembly is rotatably connected to the rotating assembly, and the other end of the conductive assembly can extend into the open cylinder or be arranged outside the open cylinder.

When the open type roller electroplating structure is used for electroplating, a workpiece is accommodated in the accommodating inner cavity of the transmission belt 11, the conductive component is used as a cathode, the conductive component is rotated clockwise to enable the other end of the conductive component to extend into the accommodating inner cavity, the roller rotates clockwise to drive the workpiece to move upwards, then the workpiece rolls down into the accommodating inner cavity, the rolled workpiece is contacted with the conductive component for conduction, and cations on the workpiece are electrolytically deposited on the surface of the workpiece to form a coating; when the workpieces in the roller are fewer and scattered, even if the workpieces in the middle part of the roller cannot contact the cathode conductive shafts 14 on the two sides for conduction when rolling, the other end of the conductive component extends into the accommodating inner cavity, so that the contact area and the contact probability of the workpieces in the middle part and the cathode are increased, and the electroplating quality when the workpieces are fewer is improved; meanwhile, a large amount of loss of cations in the electroplating solution can be avoided, and the cost is saved; because conducting component's one end is connected on the runner assembly, inside the other end stretched into the cylinder, conducting component did not run through the setting along cylinder length direction, and conducting component does not rotate along the cylinder along circumference synchronization when rotating along with the cylinder, and conducting component is difficult for avoiding damaging conducting component or work piece together with the work piece winding.

Specifically, the open drum further comprises two support frames (not shown in the figure), two conductive discs 3, two conductive shafts 14, a plurality of arc-shaped brackets 13 and two tensioning frames 15; the rotating assembly comprises a driving shaft 121 and a driven shaft 122; the driving belt 11 is a closed loop and is wound on the driving shaft 121 and the driven shaft 122. Wherein, two support frames set up relatively, and the both ends of driving shaft 121 rotationally set up on the support frame, and two conductive shafts 14 wear to establish respectively on the support frame of both sides, and conductive dish 3 cover is established on conductive shaft 14, and conductive shaft 14 draws electricity from the power, and conductive dish 3 is electrically conductive with conductive shaft 14 contact, has suitably increased the electrically conductive area of cylinder both sides, makes and electroplates evenly. The conductive plate 3 is provided between the driving shaft 121 and the driven shaft 122, and the end side surface of the belt 11 is wound around the conductive plate 3.

The arc support 13 is arranged between the driving shaft 121 and the driven shaft 122, and two ends of the arc support 13 are fixed on the support frame. The transmission belt 11 is a link plate or a belt.

Referring to fig. 4, two tensioning frames 15 are respectively rotatably sleeved on two conductive shafts 14, the tensioning frame 15 is located between the supporting frame and the conductive disc 3, two ends of the driven shaft 122 are rotatably arranged on the tensioning frames 15 at two sides, the tensioning frame 15 is provided with a mounting hole, when the driving belt 11 is loosened and needs to be tensioned, the tensioning frame 15 is rotated upwards to tension the driving belt 11, and then the tensioning frame 15 is fixed on the supporting frame through the mounting hole on the tensioning frame 15 by a locking member.

Referring to fig. 1 to 3, the conductive member includes a conductive member 21 and a rotating bracket 22 that rotates the conductive member 21; the rotating bracket 22 comprises two side arms 221 and a cross arm 222 fixedly connected with the conductive part 21; one end of each of the two side arms 221 close to the driving shaft 121 is rotatably sleeved on the driving shaft 121, the cross arm 222 is erected between the two side arms 221, and the cross arm 222 is fixedly connected with the side arm 221. The two side walls are arranged perpendicular to the axis of the axle shaft 121 and the cross arm 222 is parallel to the axis of the axle shaft 121. The conductive parts 21 are provided with a plurality of conductive parts 21, the conductive parts 21 are distributed on the cross arm 222 at equal intervals, the conductive parts 21 extend into the accommodating cavity, the contact area and the contact probability of the workpiece and the conductive parts 21 are properly increased, the electroplating quality of the workpiece can be ensured when the workpiece is fewer and distributed more scattered, and meanwhile, a large amount of lost cations are avoided.

The section of any side arm 221 close to the driving shaft 121 is arc-shaped in longitudinal section, and the section of any side arm 221 far away from the driving shaft 121 is a straight arm. As shown in fig. 1, in the working state, the rotating bracket 22 is rotated to make the conductive component 21 extend into the accommodating cavity of the drum, the arc section of the side arm 221 is arranged to make the side arm 221 extend into the accommodating cavity from the middle of the opening of the drum, the conductive component 21 extends to the middle of the front outer surface of the transmission belt 11, and the contact probability with the conductive component 21 in the workpiece rolling process is increased; meanwhile, the strength of the rotating bracket 22 is increased by the arrangement of the arc section of the side arm 221, the rotating bracket 22 is prevented from being broken in the repeated rotating process, and the cost is increased by replacing the rotating bracket 22 and the conductive part 21.

The rotating support 22 is made of conductive materials and is connected with a lead, the lead is connected with a side arm 221 of the rotating support 22, the lead is used for leading electricity from a cathode cable to supply power for the rotating support 22, the conductive part 21 is a conductive rod, the conductive rod is connected with the rotating support 22 for conducting electricity, the conductive rod is used as a cathode, and after the conductive rod extends into the containing cavity, a workpiece is contacted with the conductive rod for conducting electricity, so that cations are deposited on the surface of the workpiece to form a coating.

As shown in fig. 2, after the workpiece is electroplated, blanking is performed, the drum rotates counterclockwise, the workpiece moves to the opening of the drum along with the transmission belt 11, and the drum continues to rotate counterclockwise to take the workpiece out of the drum to complete blanking. The conductive assembly is rotated counterclockwise to be arranged outside the open type cylinder, the foldable baffle is arranged on the support frame, after the rotary support 22 rotates to the upper part of the roller in a blanking state, the baffle is unfolded to block the side wall of the rotary support 22 so as to fix the rotary support 22, or a hook can be arranged above the open type roller, and in a blanking state, the rotary support 22 is hooked by the hook so as to fix the rotary support 22. The setting of conductive component had both properly increased the electrically conductive area of work piece, and the work piece is less, also can realize even electroplating when distributing scattered, can rotate conductive component and fix it outside open barrel at the unloading state simultaneously, avoids the wire subassembly to block the work piece, guarantees normal unloading.

As a first alternative embodiment of the embodiment 1, two sections of the side wall of the rotating bracket 22 close to and far from the driving shaft 121 can be both straight arms or both circular arc arms. It is sufficient that the rotating frame 22 is rotated to allow the conductive member 21 to be inserted into the accommodating cavity in the plating state, and the rotating frame 22 is rotated to be placed outside the drum in the discharging state.

As a second alternative embodiment of example 1, the side walls may also be disposed at an oblique angle to the axis of the axle shaft 121. As a further variation, the conductive parts 21 may be disposed on the cross arm 222 at unequal intervals, and only one conductive part 21 may be disposed, at the center of the cross arm 222; the conductive member 21 is also a conductive plate; when the conductive member 21 protrudes into the accommodating cavity, the front end portion of the conductive member may not extend to the front outer surface of the transmission belt 11, but may be spaced from the front outer surface by a certain distance, as long as the conductive member 21 can contact the workpiece after protruding into the accommodating cavity, thereby increasing the conductive area.

As a third alternative embodiment of the embodiment 1, the conductive member 21 may be directly and rotatably fitted on the driving shaft 121 without providing the rotating bracket 22.

Example 2

The present embodiment provides a workpiece processing apparatus, as shown in fig. 1 to 4, which includes the open type drum of embodiment 1, a base 4, a first fixing base 5, a second fixing base 6, and a sealing plate 7.

First fixing base 5 and second fixing base 6 set up respectively in base 4 both sides, and the closing plate 7 strides and establishes between first fixing base 5 and second fixing base 6, encloses into firm installation frame between base 4, first fixing base 5, second fixing base 6 and the closing plate 7, forms the installation cavity in order to hold open cylinder in it.

Wherein, first fixing base 5 and second fixing base 6 act as the effect of the support frame of the open cylinder in embodiment 1, the both ends of driving shaft 121 are rotationally fixed respectively on first fixing base 5 and the second fixing base 6 of both sides, the both ends of driven shaft 122 are rotationally set up respectively on the tensioning frame 15 of both sides, arc support 13 both ends are fixed respectively on first fixing base 5 and second fixing base 6, two conducting shafts 14 wear to establish respectively on first fixing base 5 and the second fixing base 6 of both sides, two conducting discs 3 are established respectively on the conducting shaft 14 of both sides, two tensioning frames 15 are established respectively rotationally on conducting shaft 14.

The conductive component in the workpiece processing device with the structure increases the contact area and the contact probability of the workpiece at the middle part and the cathode, and improves the electroplating quality when the workpiece is fewer; meanwhile, a large amount of loss of cations in the electroplating solution can be avoided, and the cost is saved; meanwhile, normal discharging of the open type roller can be guaranteed.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. An open type roller is characterized by comprising

The device comprises an open cylinder body, a driving belt (11) and a rotating component for driving the driving belt (11) to rotate, wherein the driving belt (11) is wound on the outer side of the rotating component and forms an accommodating inner cavity with an open opening and a concave opening; and

and the conductive component is communicated with a power supply, one end of the conductive component is rotatably connected to the rotating component, and the other end of the conductive component can extend into the interior of the open cylinder or be arranged outside the open cylinder.

2. The open type roller as claimed in claim 1, wherein the rotating assembly comprises a driving shaft (121) and a driven shaft (122), the transmission belt (11) is a closed loop and is wound on the driving shaft (121) and the driven shaft (122), and one end of the conductive assembly is rotatably connected with the driving shaft (121).

3. The open cylinder according to claim 2, characterized in that the open cylinder further comprises a conductive disc (3), the conductive disc (3) is provided between the driving shaft (121) and the driven shaft (122), and an end side surface of the transmission belt (11) is wound on the conductive disc (3).

4. The open drum according to claim 2 or 3, characterized in that the conductive assembly comprises a conductive member (21) and a rotating bracket (22) which drives the conductive member (21) to rotate, the rotating bracket (22) comprising two side arms (221) and a cross arm (222) fixedly connected with the conductive member (21); the two side arms (221) are rotatably arranged on the driving shaft (121), the cross arm (222) is erected between the two side arms (221), and the cross arm (222) is fixedly connected with the side arms (221).

5. The open cylinder according to claim 4, characterized in that the conductive member (21) can extend onto the front outer surface of the belt (11).

6. The open cylinder according to claim 4, characterized in that the conductive member (21) has a plurality, and the plurality of conductive members (21) are equally spaced on the horizontal arm (222).

7. The open-ended drum according to claim 4, wherein two side arms (221) are arranged perpendicular to the axis of the driving shaft (121); the cross arm (222) is parallel to the axis of the driving shaft (121).

8. The open-type roller as claimed in claim 4, wherein a section of any one of the side arms (221) close to the driving shaft (121) has a circular arc shape in longitudinal section, and a section of any one of the side arms (221) far from the driving shaft (121) has a straight arm shape.

9. An open drum according to any one of claims 1-3, characterized in that the drive belt (11) is a link plate or a belt.

10. A workpiece handling apparatus comprising an open drum according to any of claims 1 to 9.

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