CN210116898U - Electroplating production automation equipment - Google Patents

Abstract

The utility model belongs to the technical field of electroplating device, a electroplating production automation equipment is disclosed, including the frame, and set up in the feed mechanism of frame one side, set up transport mechanism in the frame, set up the anchor clamps on transport mechanism, and set up in the unloading mechanism of frame opposite side, the activity is provided with first drum assembly on this anchor clamps, is provided with first guide rail mechanism in this frame, and this first guide rail mechanism includes first guide rail, and the distance between this first guide rail and the first drum assembly reduces along the direction that first drum assembly removed gradually. Like this, when anchor clamps moved towards unloading mechanism direction, at this moment, anchor clamps were the open mode under the centre gripping of first guide rail mechanism and first drum subassembly, accomplished the unloading of electroplate board, avoided artifical manually operation anchor clamps and led to the fact the injury to the human body.

Description

Electroplating production automation equipment

Technical Field

The utility model belongs to the technical field of electroplating equipment, more specifically say, relate to an electroplating production automation equipment.

Background

In the production and processing process of the electroplated plate, the method comprises the following steps: the method comprises the working procedures of feeding, electroplating, blanking, cleaning, drying and the like.

However, need adopt in the artifical anchor clamps that insert the open with the top of electroplating plate in electroplating plate material loading process, then the manual work closes anchor clamps, will electroplate the board clamping back through anchor clamps, carry out the transfer of electroplating plate, electroplate through the electroplating jar afterwards, be about to electroplate the board and put into the solution of poisonous and harmful strong corrosivity and electroplate, later reach the unloading position after, need adopt artifical manual operation to open anchor clamps, can accomplish the unloading of electroplating plate, nevertheless volatile gas is great to the human body injury in process of production, and long time, cause serious damage to workman's health.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electroplating production automation equipment aims at solving the electroplating plate among the prior art and causes harm technical problem to the human body because of the artifical manual completion unloading of needs in the production and processing process.

In order to realize the purpose, the utility model discloses a technical scheme is: an electroplating production automation device comprises a frame and a feeding mechanism which is arranged on one side of the frame and is used for clamping an electroplating plate and driving the electroplating plate to move, the automatic electroplating production equipment also comprises a conveying mechanism which is arranged on the frame and used for rotationally conveying the electroplating plate conveyed by the feeding mechanism, a clamp which is arranged on the conveying mechanism and used for clamping the electroplating plate, and a blanking mechanism which is arranged on the other side of the frame and used for receiving the electroplating plate conveyed by the conveying mechanism, a first roller component is movably arranged on the clamp, a first guide rail mechanism which is used for being abutted and matched with the first roller component is arranged on the machine frame corresponding to the blanking mechanism, the first guide rail mechanism comprises a first guide rail, and the distance between the first guide rail and the first roller assembly is gradually reduced along the moving direction of the first roller assembly.

Furthermore, the first guide rail mechanism comprises a connecting seat arranged on the rack, and one end of the first guide rail is obliquely arranged on one side of the connecting seat.

Further, the first guide rail mechanism further comprises a second guide rail, one end of the second guide rail is obliquely arranged on the other side of the connecting seat, the other end of the first guide rail is connected with the other end of the second guide rail, and the distance between the second guide rail and the first roller assembly is gradually increased along the moving direction of the first roller assembly.

Further, the electroplating production automation equipment further comprises an auxiliary mechanism which is used for matching with the feeding mechanism to convey the electroplating plates with different lengths, and the auxiliary mechanism is movably arranged between the feeding mechanism and the conveying mechanism.

Furthermore, the auxiliary mechanism comprises a slide rail, a support arranged on the slide rail in a sliding manner, a support plate fixedly arranged on the support, a stop rod assembly movably arranged on the support plate and used for receiving the electroplating plate conveyed by the feeding mechanism in a matching manner, and a driving assembly arranged on the support plate and used for driving the stop rod assembly to lift.

Furthermore, the stop lever assembly comprises a support plate movably mounted on the support plate and a plurality of pairs of stop levers arranged on the support plate at intervals in the length direction of the support plate and used for clamping hard electroplating plates to be retracted, the driving assembly is mounted on the support plate, and a chute for lifting the support plate is formed in the support plate.

Further, feed mechanism includes first work box, slidable mounting in on the work box and have the adsorption plate of absorption hole, install in the work box and with the absorption hole forms airflow channel with electroplate plate adsorbs with air-blower on the adsorption plate, and install in the work box and be used for controlling opening and shutting of airflow channel is in order to adjust the control valve subassembly of air-blower convulsions dynamics.

Further, the control valve assembly comprises an air suction box which is arranged in the working box and is provided with a plurality of chambers which are isolated from each other, each chamber is respectively communicated with the adsorption hole and the blower, the control valve assembly also comprises a plurality of control ball valves which are respectively used for controlling the opening and closing of airflow passages between each chamber and the adsorption hole, and each control ball valve is arranged on the working box corresponding to each chamber.

Further, the blanking mechanism comprises a second working box and a plate rolling machine which is rotatably arranged on the mounting table and used for rolling and releasing the electroplating plate.

Furthermore, the blanking mechanism also comprises a drum assembly for guiding the electroplating plate to be stored, and the drum assembly is arranged on the second working box.

The utility model provides an electroplating production automation equipment's beneficial effect lies in: compared with the prior art, the electroplating production automation equipment of the utility model can be used for clamping the electroplating plate and driving the electroplating plate to move by arranging the feeding mechanism; by arranging the conveying mechanism and the clamp, the electroplating plate conveyed by the feeding mechanism can be clamped by the clamp and conveyed to the blanking mechanism by the conveying mechanism; through set up first roller assembly on anchor clamps to be equipped with first guide rail mechanism in the frame, this first guide rail mechanism includes first guide rail, and the distance between first guide rail and the first roller assembly reduces along the direction of moving towards unloading mechanism gradually. Like this, when anchor clamps moved towards unloading mechanism direction, at this moment, anchor clamps were the open mode under the centre gripping of first guide rail and first drum subassembly, accomplished the unloading of electroplate board, avoided artifical manually operation anchor clamps and led to the fact the injury to the human body.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the following briefly introduces the embodiments or the drawings needed in the prior art description, and obviously, the drawings in the following description are only some embodiments of the embodiments, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of an electroplating production automation apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first guide rail mechanism according to an embodiment of the present invention;

FIG. 3 is a block diagram of a fixture according to an embodiment of the present invention;

FIG. 4 is a schematic view of a partial structure of an automated electroplating production apparatus according to an embodiment of the present invention;

fig. 5 is a structural diagram of an auxiliary mechanism according to an embodiment of the present invention;

fig. 6 is a structural diagram of a feeding mechanism provided by the embodiment of the present invention;

fig. 7 is an enlarged view of a in fig. 6 according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a second roller assembly according to an embodiment of the present invention;

fig. 9 is a schematic structural view of the blanking mechanism provided by the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

1-a frame; 11-a first guide rail mechanism; 110-a connecting seat; 111-a first guide rail; 112-a second guide rail; 113-a transition rail; 114-a first stiffener; 115-a second stiffener plate; 12-a second rail mechanism; 121-a mounting seat; 122-a third guide rail; 123-a fourth guide rail;

2-a feeding mechanism; 21-a first work box; 22-an adsorption plate; 220-adsorption holes; 221-dividing grooves; 222-a first adsorption plate; 223-a second adsorption plate; 23-a blower; 24-a control valve assembly; 241-a suction box; 242-control ball valve; 25-a second roller assembly; 251-a first strut; 252-a second strut; 253-a second drum; 254-a cylinder assembly;

3-a transfer mechanism; 31-a first wheel; 32-a second wheel; 33-a transmission belt;

4-a blanking mechanism; 41-a second work box; 42-plate rolling machine; 43-a drum assembly;

5, clamping; 51-a first roller assembly; 511-guide bar; 512-a first drum; 52-a first clip arm; 53-a second clip arm; 54-a hinge mechanism;

6-an auxiliary mechanism; 61-a slide rail; 62-a bracket; 63-a support plate; 630-a chute; 631-a graduated scale; 64-a stop lever assembly; 641-a support plate; 642-stop lever; 643-a rotating plate; 644-roller; 645-a receiving groove; 65-drive assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

In addition, it should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative concepts or reference to the normal use state of the product, and should not be considered as restrictive, and the implementation of the present invention will be described in detail with reference to the specific embodiments below.

As shown in fig. 1 to 9, the present embodiment provides an electroplating production automation device, which includes a frame 1, a feeding mechanism 2 disposed on one side of the frame 1, the feeding mechanism 2 can be used for clamping and driving the electroplating plate to move, a conveying mechanism 3 is arranged on the frame 1, the conveying mechanism 3 can be used for rotatably conveying the electroplating plates conveyed by the feeding mechanism 2, a clamp 5 for clamping the electroplating plates is arranged on the conveying mechanism 3, in addition, a blanking mechanism 4 is arranged on the other side of the frame 1, the blanking mechanism 4 can be used for receiving the electroplating plates transmitted by the transmission mechanism 3, a first roller component 51 is movably arranged on the clamp 5, a first guide rail mechanism 11 is arranged on the frame 1, the first guide rail mechanism 11 is disposed corresponding to the position of the blanking mechanism 4, and the distance between the first guide rail mechanism 11 and the first roller assembly 51 gradually decreases along the moving direction of the first roller assembly 51. Thus, the feeding mechanism 2 can be used for clamping the electroplating plate and driving the electroplating plate to move; by arranging the conveying mechanism 3 and the clamp 5, the electroplating plate conveyed by the feeding mechanism 2 can be clamped by the clamp 5 and conveyed to the blanking mechanism 4 by the conveying mechanism 3; by providing the first roller assembly 51 on the jig 5 and providing the first rail mechanism 11 on the frame 1, the first rail mechanism 11 includes the first rail 111, and the distance between the first rail 11 and the first roller assembly 51 is gradually reduced in the direction in which the first roller assembly 51 moves. Like this, when anchor clamps 5 move towards unloading mechanism 4 direction, at this moment, anchor clamps 5 are the open mode under the centre gripping of first guide rail 111 and first drum subassembly 51, accomplish the unloading of electroplate board, avoid artifical manual operation anchor clamps and cause the injury to the human body.

Further, referring to fig. 2, as a specific embodiment of the electroplating production automation device provided by the present invention, the first guiding rail mechanism 11 includes a connecting seat 110, the connecting seat 110 is installed on the frame 1, one end of the first guiding rail 111 is obliquely disposed on the connecting seat 110, and the distance between the first guiding rail 111 and the first roller assembly 51 is gradually reduced along the moving direction of the first roller assembly 51. Thus, by arranging the connecting seat 110, the first guide rail 111 can be connected with the frame 1, and better positioning is realized; through being provided with first guide rail 111, first guide rail 111 in first guide rail mechanism 11 and the mutual butt cooperation of the first roller assembly 51 that sets up on anchor clamps 5, when driving electroplating plate towards unloading mechanism 4 direction along with anchor clamps 5 at this moment, then under the centre gripping of first guide rail 111 and first roller assembly 51 for anchor clamps 5 are the open mode, realize the unloading to electroplating plate.

Further, referring to fig. 2, as a specific embodiment of the electroplating production automation device provided by the present invention, the first guiding rail mechanism 11 further includes a second guiding rail 112, one end of the second guiding rail 112 is obliquely disposed at the other side of the connecting seat 110, the other end of the first guiding rail 111 is connected to the other end of the second guiding rail 112, and the distance between the second guiding rail 112 and the first roller assembly 51 gradually increases along the moving direction of the first roller assembly 51. Like this, when anchor clamps 5 moved to second guide rail 112 on by first guide rail 111 gradually, butt complex pressure when moving in-process reduces gradually, anchor clamps 5 can be automatic closure gradually under the effect of self structure this moment to avoided anchor clamps 5 to take place rigid collision when closed, led to the fact the damage to the anchor clamps.

Further, please refer to fig. 2, as a specific implementation manner of the electroplating production automation device provided in the present invention, the first rail mechanism 11 further includes a transition rail 113, the transition rail 113 can be used to realize transition connection between the first rail 111 and the second rail 1122, and specifically, the transition rail 113 is connected to the other end of the first rail 111 and the other end of the second rail 112 respectively. Thus, the transition guide rail 113 is arranged, so that the first guide rail 111 and the second guide rail 112 can be well positioned on the connecting seat 110, meanwhile, when the clamps 5 are in butt fit with the first guide rail 111 in the transmission process, and when the pressure of the butt fit reaches a certain value, the clamping arms of the clamp 1 can be driven to open at the moment, so as to realize blanking, by arranging the first guide rail 111 at one end of the transition guide rail 113 and the second guide rail 1122 at the other end of the transition guide rail 113; when each clamp 5 continues to move to abut against the transition guide rail 113, the clamp 5 is kept in an open state under the action of the first roller assembly 51 and the transition guide rail 113, and when each clamp 5 continues to move to contact with the second guide rail 112, the abutting pressure of each clamp 5 and the second guide rail 1122 is gradually reduced, so that each clamp 5 is gradually closed in the moving process, and the automatic opening and closing of each clamp 5 in the conveying process are realized.

Preferably, the first guide rail 111, the transition guide rail 113, and the second guide rail 112 are integrally formed, and the subsequent machining of the first guide rail mechanism 11 can be simplified by the integral forming, so that the process flow of the machining is simplified. Of course, in this embodiment, the first rail 111, the transition rail 113, and the second rail 112 may be connected to each other by welding or other methods according to actual situations and specific needs, and are not limited herein.

Further, please refer to fig. 2, as a specific embodiment of the electroplating production automation device provided in the present invention, the first guiding rail mechanism 11 further includes a first reinforcing plate 114, one end of the first reinforcing plate 114 is connected to the first guiding rail 111, and the other end of the first reinforcing plate 114 is connected to the connecting seat 110. In this way, by providing the first reinforcing plate 114, the connection strength between the first guide rail 111 and the connection holder 110 can be enhanced, and the stability of the first guide rail 111 on the connection holder 110 is improved.

Preferably, in the present embodiment, both ends of the first reinforcing plate 114 are welded to the first guide rail 111 and the connecting base 110, respectively, but may be connected by bonding or other methods, which are not limited herein.

Further, please refer to fig. 2, as a specific embodiment of the electroplating production automation device provided in the present invention, the first guiding mechanism 11 further includes a second reinforcing plate 115, one end of the second reinforcing plate 115 is connected to the second guiding rail 112, and the other end of the second reinforcing plate 115 is connected to the connecting seat 110. In this way, by providing the second reinforcing plate 115, the connection strength between the second guide rail 115 and the connection socket 110 can be enhanced, and the stability of the second guide rail 112 on the connection socket 110 is improved.

Preferably, in the present embodiment, both ends of the second reinforcing plate 115 are welded to the second guide rail 112 and the connecting seat 110, respectively, but may be connected by other methods such as bonding, clipping, etc., which is not limited herein.

Preferably, in this embodiment, a second guide rail mechanism 12 is further disposed on the frame 1 at a position corresponding to the feeding mechanism 2, and the second guide rail mechanism 12 is in abutting engagement with the first roller assembly 51 of the fixture 5, so that by providing the second guide rail mechanism 12, the opening and closing of the fixture 5 can be realized by the abutting engagement of the second guide rail mechanism 12 with the first roller assembly 51, and further, automatic feeding is realized.

Specifically, referring to fig. 1, the second guiding rail mechanism 12 includes a mounting base 121 and a third guiding rail 122, one end of the third guiding rail 122 is obliquely disposed on one side of the mounting base 121, and a distance between the third guiding rail 122 and the first roller assembly 51 is gradually decreased along a moving direction of the first roller assembly 51, such that when the first roller assembly 51 of the clamping apparatus 5 moves to contact with the third guiding rail 122, the clamping apparatus is in an open state along with an increase of the abutting pressure, and the electroplated board can be inserted into the clamping apparatus, in addition, the second guiding rail mechanism 12 further includes a fourth guiding rail 123, one end of the fourth guiding rail 123 is obliquely disposed on the other side of the mounting base 121, the other end of the fourth guiding rail 123 is connected with the other end of the third guiding rail 122, and a distance between the fourth guiding rail 123 and the first roller assembly 51 is gradually increased along the moving direction of the first roller assembly 51, at this time, when the clamp 5 contacts the fourth guide rail 123, because the abutting pressure between the fourth guide rail 123 and the first roller assembly 51 is gradually reduced, the clamp 5 is slowly closed under the self structure, the clamping of the electroplating plate is realized, and the automatic feeding of the electroplating plate is completed.

Further, please refer to fig. 3, as a specific embodiment of the electroplating production automation device provided in the present invention, each of the clamps 5 includes a first clamping arm 52, a second clamping arm 53, and a hinge mechanism 54, the hinge mechanism 54 can be used to hinge the first clamping arm 52 and the second clamping arm 53, and the first roller assembly 51 is disposed on the second clamping arm 53. In this way, the first roller assembly 51 is in abutting engagement with the first guide rail mechanism 11, so that the generated abutting pressure can drive the second clamping arm 53 to move in a direction away from the first clamping arm 52, so that the clamp 5 assumes an open state.

Specifically, the first roller assembly 51 includes a guide rod 511, one end of the guide rod 511 is obliquely disposed on the second arm lock 53, a first roller 512 is disposed on the guide rod 511, the first roller 512 is rotatably disposed on the guide rod 511, and the roller 512 can be abutted and matched with the first guide rail mechanism 11, so that the guide rod 511 drives the second arm lock 53 to move in a direction away from the first arm lock 52. In this way, by rotatably fitting the first roller 512 to the guide bar 511, the roller can rotate when the first roller 512 contacts the first rail mechanism 11, so that the friction force between the roller and the first rail mechanism 11 can be reduced, and the organic strain of the jig 5 can be avoided.

Further, please refer to fig. 4 and 5, as a specific embodiment of the electroplating production automation device provided by the present invention, the electroplating production automation device further includes an auxiliary mechanism 6, and the auxiliary mechanism 6 is movably disposed between the feeding mechanism 2 and the conveying mechanism 3. In this way, by providing the auxiliary mechanism 6, the auxiliary mechanism 6 can be used to cooperate with the feeding mechanism 2 to convey the electroplated boards with different lengths, specifically, in this embodiment, by providing the auxiliary mechanism 6, the conveying and transportation of the electroplated boards with a length of 300 mm to 3000 mm can be realized, and of course, in this embodiment, according to the actual situation and the specific requirements, the conveying and transportation of the electroplated boards with a length of 3000 mm or more can be realized at the same time by adjusting the length of the auxiliary mechanism 6, which is not limited herein.

Further, please refer to 5, as a specific implementation manner of the electroplating production automation equipment provided by the present invention, the auxiliary mechanism 6 includes a slide rail 61, a bracket 62 is installed on the slide rail 61, the bracket 62 is slidably disposed on the slide rail, a bracket plate 63 is fixedly installed on the bracket 62, a stop lever assembly 64 is movably disposed on the bracket plate 63, the stop lever assembly 64 can cooperate with the feeding mechanism 2 to convey the electroplating plate with a large length, in addition, a driving assembly 65 is further disposed on the bracket plate 63, and the driving assembly 65 can drive the stop lever assembly 64 to ascend and descend. Thus, when a long electroplating plate needs to be conveyed and transported, the bracket 62 can be pushed to slide along the slide rail, so that the bracket 62 slides to a position where the bracket 62 is butted with the feeding mechanism 2 and the conveying mechanism 3; then the driving component 65 drives the blocking rod component 64 to ascend and descend, so that the blocking rod component 64 ascends and descends to a proper position to ensure that the blocking rod component 64 can receive the electroplated plate conveyed by the feeding mechanism 2, and accurately convey the electroplated plate to the conveying mechanism 3, and the conveying and the transportation of the longer electroplated plate are realized.

Preferably, in the present embodiment, the bracket 62 can be moved by pushing the bracket 62 manually, and the bracket 62 can also be pushed to move along the sliding rail by pushing the air cylinder, which is not limited herein.

Further, please refer to fig. 5, as a specific implementation manner of the electroplating production automation device provided in the present invention, the stop lever assembly 64 includes a supporting plate 641, the supporting plate 641 is movably installed on the supporting plate 641, a plurality of pairs of stop levers 642 are disposed on the supporting plate 641, each stop lever 642 is disposed on the supporting plate 641 at an interval along the length direction of the supporting plate, and each stop lever 642 can be used for clamping the electroplating plate, the driving assembly 65 is installed on the supporting plate 641, in addition, a sliding slot 630 is further disposed on the supporting plate 63, and the supporting plate 641 can slide up and down along the sliding slot 630. Therefore, by arranging the plurality of pairs of stop rods 642, the electroplating plates conveyed by the feeding mechanism 2 can be clamped, so that the electroplating plates are kept stable in the conveying process; through the sliding groove 630 formed on the supporting plate 63, the driving assembly 65 can drive the supporting plate 641 to move up and down along the sliding groove 630, so that the supporting plate 641 moves up and down to a proper position, so as to accurately receive the electroplated plate conveyed by the feeding mechanism 2. Preferably, in the present embodiment, the number of pairs of the blocking rods 642 is five, and of course, in the present embodiment, the number of pairs of the blocking rods 642 may be other numbers according to practical situations and specific requirements, and is not limited herein.

Further, please refer to fig. 5, as a specific embodiment of the electroplating production automation device provided in the present invention, the stop lever assembly 64 further includes a rotating plate 643, and the rotating plate 643 is rotatably disposed on the stop lever 642. In this way, the rotation plates 643 are provided on the respective stoppers 642, so that the rotation plates 643 can be brought into rotational contact with the plating plates, and when the plating plates are moved, the rotation plates 643 can be brought into rotational contact with the plating plates, thereby reducing damage to the plating plates due to frictional force generated between the plating plates and the respective pairs of stoppers 642.

Preferably, the number of the rotating plates 643 is plural, and each rotating plate 643 is disposed on the blocking rod 642 at intervals along the axial direction of the blocking rod 642, but may be disposed in other manners, and the present disclosure is not limited thereto.

Preferably, each rotating plate 643 is integrally formed with the blocking rod 642, and by integrally forming, the bonding strength between each rotating plate 643 and the blocking rod 642 is increased, and the subsequent machining is reduced.

Further, please refer to fig. 5, as a specific embodiment of the electroplating production automation device of the present invention, the stop lever assembly 64 further includes a plurality of rollers 644, each roller 645 is disposed on the supporting plate 641 at intervals along the length direction of the supporting plate 641, the supporting plate 641 is provided with an accommodating groove 645, and each roller 645 can be accommodated in the accommodating groove 645. In this way, the plurality of rollers 644 are disposed on the supporting plate 641, so that the movement of the plating plate is facilitated and the moving efficiency is improved. Preferably, the number of the rollers 644 is eleven in the embodiment, and of course, the number of the rollers 644 may be other numbers in the embodiment, which is not limited herein.

Preferably, in this embodiment, the drive assembly 65 is a lead screw drive assembly. Through setting up drive assembly 65 into lead screw drive assembly to the lift displacement of the accurate control backup pad 641 of accessible lead screw drive assembly makes backup pad 641 can dock with feed mechanism 2 accuracy, provides better assurance for subsequent transmission to the electroplate board. Of course, in this embodiment, the driving assembly 234 may be other assemblies according to actual situations and specific needs, and is not limited herein.

Further, referring to fig. 5, as a specific embodiment of the electroplating production automation device provided by the present invention, a graduated scale 631 is further disposed on the support plate 633. Through setting up scale 631, further guaranteed the accurate regulation to backup pad 641 goes up and down, improved backup pad 641 and the accurate butt joint precision of feed mechanism 2.

Preferably, in this embodiment, the auxiliary mechanism 6 is further disposed between the blanking mechanism 4 and the conveying mechanism 3, so that the auxiliary mechanism 6 is disposed to cooperate with the blanking mechanism 4 to receive the electroplated board with a long length, that is, after the blanking mechanism 4 opens the clamp 5, the electroplated board conveyed by the conveying mechanism 3 is received by the auxiliary mechanism 6, and after the whole electroplated board is removed, the electroplated board is manually removed.

In the utility model, when the electroplating plate with the common size (that is, the common size is less than or equal to 300 mm) needs to be charged and discharged, the charging and discharging of the electroplating plate with the size can be realized without arranging the auxiliary mechanism 6; when the electroplating plate with a longer size (namely, the longer size is larger than 300 millimeters) needs to be loaded and unloaded, the auxiliary mechanism 6 is arranged, so that the loading mechanism 2 and the unloading mechanism 4 can be respectively matched to realize loading and unloading of the electroplating plate with the longer size, and the application range of electroplating plate processing is enlarged.

Further, please refer to fig. 1, as a specific embodiment of the electroplating production automation device provided by the present invention, the conveying mechanism 3 includes a first rotating wheel 31 and a second rotating wheel 32, the first rotating wheel 31 and the second rotating wheel 32 are disposed on the frame 2 at an interval, a driving belt 33 is sleeved on the first rotating wheel 31 and the second rotating wheel 32, the above-mentioned clamp 5 is disposed on the driving belt 33, and in addition, the conveying mechanism 3 further includes a driving motor (not shown in the drawings), and the driving motor is connected with the first rotating wheel 31. Thus, the driving motor can drive the first rotating wheel 31 to rotate, and the first rotating wheel 31 drives the second rotating wheel 32 to rotate, so as to drive the fixture 5 to move.

Preferably, referring to fig. 5, the conveying mechanism 3 further includes the above-mentioned stop lever assembly 64, so that the electroplating plate can be further clamped by the stop lever assembly 64, thereby preventing the electroplating plate from tilting during the moving process and ensuring the stable transportation of the electroplating plate.

Further, please refer to fig. 6, as a specific embodiment of the electroplating production automation equipment provided by the present invention, the feeding mechanism 2 includes a first work box 21, an adsorption plate 22 is slidably installed on the first work box 21, an adsorption hole 220 is opened on the adsorption plate 22, an air blower 23 is installed in the first work box 21, the air blower 23 can form an air flow path with the adsorption hole 220, in addition, a control valve assembly 24 is installed in the first work box 21, the control valve assembly 24 is installed between the air blower 23 and the air flow path formed by the adsorption plate 22, so that the adsorption plate 22 can be adsorbed on the adsorption plate 22 by opening the air blower 23 to suck air so as to form a negative pressure in the adsorption plate 22 by opening the air blower 23; through being provided with control valve assembly 24 between the air current route that air-blower 23 and adsorption plate 22 formed, thereby can adjust the convulsions dynamics of air-blower 23 according to the size of electroplating plate, to the electroplating plate that can cover in absorption hole 220 completely promptly, the convulsions dynamics of adjustable big air-blower 23 makes its better absorption on adsorption plate 22, to the electroplating plate that can only be local cover absorption hole 220, the convulsions dynamics of adjustable little air-blower 23 makes its better absorption on adsorption plate 22, thereby the phenomenon of having avoided gas leakage takes place, the energy consumption has been reduced.

Further, please refer to fig. 6, as a specific implementation manner of the electroplating production automation device provided in the present invention, the control valve assembly 24 includes an air suction box 241, the air suction box 241 is disposed in the first working box 21, and the air suction box 241 has a plurality of chambers, each chamber is not communicated with each other, each chamber is communicated with the adsorption hole 220 and the blower 23, in addition, the control valve assembly 24 further includes a plurality of control ball valves 242, each control ball valve 242 is disposed on the first working box 21 corresponding to each chamber position, each control ball valve 242 can be used to control the opening and closing of each chamber and the air flow path of the adsorption hole 220 and the blower 23. Thus, by arranging a plurality of control ball valves 242, namely, for the electroplating plate which can completely cover the adsorption hole 220, all the control ball valves 242 can be opened, so that an airflow passage is formed by the adsorption hole 220, each chamber and the blower 23, and the electroplating plate is well adsorbed; aiming at the electroplating plate which only partially covers the adsorption hole 220, at the moment, the control ball valve 242 can be selectively opened, so that part of the chambers, the adsorption hole 220 and the blower 23 form an airflow channel, on one hand, the electroplating plate can be better adsorbed on the adsorption plate 22, on the other hand, the phenomenon of air leakage caused by using a single air suction box is avoided, the energy consumption is integrally reduced, and the application range of the device is enlarged.

Preferably, referring to fig. 6, the number of the control ball valves 242 is four, and correspondingly, the number of the chambers is also four, and the control ball valves 242 are respectively arranged on the suction box 241 along the length direction of the suction box 241, as shown in fig. 6, the length direction of the suction box 241 is the X direction in fig. 6, so that each control ball valve 242 individually controls each chamber, at this time, for a plating plate capable of completely covering the adsorption hole 220, all of the four control ball valves 242 can be opened, so that the adsorption hole 220, each chamber and the blower 23 form an airflow path, thereby achieving better adsorption of the plating plate; to the electroplating plate that can only be local cover absorption hole 220, at this moment, can be according to the size selectivity of electroplating plate open 1 to 2 control ball valves 242 for some cavity forms the air current route with absorption hole 220 and air-blower 23, like this, can be better with this electroplating plate adsorb on absorption plate 22 on the one hand, and on the other hand, also avoided causing the phenomenon of gas leakage because of using single box of breathing in and can't control the air current size to take place, and then reduced the energy consumption on the whole.

Further, please refer to fig. 7, a dividing groove 221 is formed in the adsorption plate 22, the dividing groove 221 can divide the adsorption plate 22 into a first adsorption plate 222 and a second adsorption plate 223, so that when the fed electroplating plate is a flexible plate, the flexible plate needs to be moved by a belt head plate, so that the first adsorption plate 222 can be used for adsorbing the electroplating plate or the belt head plate, the second adsorption plate 223 can be used for adsorbing the belt head plate or the electroplating plate, and the number of paths of the air flow path formed by the adsorption holes 220 and the air blower 23 is controlled by controlling the opening and closing of the control ball valve 242, thereby controlling the adsorption forces of the first adsorption plate 222 and the second adsorption plate 223.

In this embodiment, when both the tape head plate and the plating plate are attached to the suction plate 22, the tape head plate and the plating plate are connected by an adhesive tape, and then the plating plate is moved by the driving plate. Preferably, in this embodiment, the flexible electroplating plate is a bendable electroplating plate.

Preferably, the cross section of the dividing groove 221 is V-shaped, but in this embodiment, the dividing groove 221 may also be U-shaped, and the like, which is not limited herein.

Further, please refer to fig. 6, as a specific embodiment of the electroplating production automation device provided by the present invention, the feeding mechanism 2 further includes a second roller assembly 25, and the second roller assembly 25 is installed on the first work box 21. In this way, by providing the second roller assembly 25, the second roller assembly 25 can be used to hold the plating plate, and at the same time, guide the plating plate to move to the position of the adsorption plate 22, thereby ensuring the stability of the movement of the adsorption plate 22.

Further, please refer to fig. 8, as a specific embodiment of the electroplating production automation device provided in the present invention, the second roller assembly 25 includes a first supporting rod 251 and a second supporting rod 252, the bottom ends of the first supporting rod 251 and the second supporting rod 252 are both disposed on the first working box 21, the first supporting rod 251 and the second supporting rod 252 are spaced apart, the first supporting rod 251 is sleeved with a second roller 253, and a cylinder assembly 254 is mounted on the top ends of the first supporting rod 251 and the second supporting rod 252, and the cylinder assembly 254 can cooperate with the second roller 253 to clamp and guide the electroplating plate to move.

Further, please refer to fig. 4 and fig. 9, as a specific embodiment of the electroplating production automation device provided by the present invention, the blanking mechanism 4 includes a second work box 41, and a plate bending machine 42 is rotatably disposed on the second work box 41. Thus, when the plated sheet is moved to the plate bending machine 42, the soft plated sheet can be rolled and stored by the plate bending machine 42.

Further, please refer to fig. 9, as a specific embodiment of the electroplating production automation device provided by the present invention, the blanking mechanism 4 further includes a drum assembly 43, and the drum assembly 43 is installed on the second work box 41. Thus, by providing the drum assembly 43, the drum assembly 43 can be used to guide the soft plated sheet to be wound on the sheet rolling machine 42.

In the utility model, by arranging the auxiliary mechanism 6, when the auxiliary mechanism 6 is arranged between the feeding mechanism 2 and the conveying mechanism 3, the feeding transmission of the electroplating plates with longer size is realized; when the auxiliary mechanism 6 is arranged between the blanking mechanism 4 and the conveying mechanism 3, the blanking and the folding of the electroplating plates with longer sizes can be carried out at the moment, and the folding of the hard electroplating plates with longer sizes are realized; in addition, the plate rolling machine 43 is arranged, so that the plate rolling and the retraction of the soft electroplating plate can be performed, the device has the retraction of the electroplating plates with different lengths and different hardness, and the application range of the electroplating plates is expanded.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An electroplating production automation device comprises a frame and a feeding mechanism which is arranged on one side of the frame and is used for clamping an electroplating plate and driving the electroplating plate to move, it is characterized in that the electroplating production automation equipment also comprises a conveying mechanism which is arranged on the frame and is used for rotationally conveying the electroplating plate conveyed by the feeding mechanism, a clamp which is arranged on the conveying mechanism and is used for clamping the electroplating plate, and a blanking mechanism which is arranged on the other side of the frame and is used for receiving the electroplating plate conveyed by the conveying mechanism, a first roller component is movably arranged on the clamp, a first guide rail mechanism which is used for being abutted and matched with the first roller component is arranged on the machine frame corresponding to the blanking mechanism, the first guide rail mechanism comprises a first guide rail, and the distance between the first guide rail and the first roller assembly is gradually reduced along the moving direction of the first roller assembly.

2. The automated electroplating production apparatus of claim 1, wherein the first guide rail mechanism comprises a connecting seat mounted on the frame, and one end of the first guide rail is obliquely arranged on one side of the connecting seat.

3. The automated electroplating production equipment according to claim 2, wherein the first guide rail mechanism further comprises a second guide rail, one end of the second guide rail is obliquely arranged on the other side of the connecting seat, the other end of the first guide rail is connected with the other end of the second guide rail, and the distance between the second guide rail and the first roller assembly is gradually increased along the moving direction of the first roller assembly.

4. The automated electroplating production apparatus of claim 3, further comprising an auxiliary mechanism for cooperating with the feeding mechanism to achieve conveyance of the electroplated plates of different lengths, the auxiliary mechanism being movably disposed between the feeding mechanism and the conveying mechanism.

5. The electroplating production automation device as claimed in claim 4, wherein the auxiliary mechanism comprises a slide rail, a bracket slidably disposed on the slide rail, a bracket plate fixedly mounted on the bracket, a stop lever assembly movably disposed on the bracket plate and adapted to cooperate with the electroplating plate conveyed by the feeding mechanism, and a driving assembly disposed on the bracket plate and adapted to drive the stop lever assembly to move up and down.

6. The automatic electroplating production equipment as claimed in claim 5, wherein the stop lever assembly comprises a support plate movably mounted on the support plate and a plurality of pairs of stop levers arranged on the support plate at intervals along the length direction of the support plate and used for clamping the hard electroplating plate, the driving assembly is mounted on the support plate, and the support plate is provided with a chute for lifting the support plate.

7. The automated electroplating production equipment according to claim 1, wherein the feeding mechanism comprises a first work box, an adsorption plate which is slidably mounted on the work box and has adsorption holes, a blower which is mounted in the work box and forms an air flow path with the adsorption holes so as to adsorb the electroplating plate on the adsorption plate, and a control valve assembly which is mounted in the work box and is used for controlling the opening and closing of the air flow path so as to adjust the air draft of the blower.

8. The automated electroplating production apparatus of claim 7, wherein the control valve assembly comprises a suction box disposed in the work box and having a plurality of chambers isolated from each other, each of the chambers being respectively communicated with the adsorption hole and the blower, and a plurality of control ball valves for respectively controlling opening and closing of gas flow paths between each of the chambers and the adsorption hole, each of the control ball valves being disposed on the work box corresponding to a position of each of the chambers.

9. The automated electroplating production apparatus of claim 1, wherein the blanking mechanism comprises a second work box and a plate rolling machine rotatably mounted on the second work box and used for rolling and unrolling the electroplated plate.

10. The automated electroplating production apparatus of claim 9, wherein the blanking mechanism further comprises a drum assembly for guiding the electroplated plates to be stored, and the drum assembly is mounted on the second work box.

Images