CN216996598U - Plate turnover of electrode printing machine - Google Patents

Abstract

The utility model relates to a plate turnover device of an electrode printing machine, which comprises a frame, a first conveying belt, a second conveying belt, a plate turnover mechanism and a lifting mechanism, wherein the frame is provided with a first conveying belt and a second conveying belt; the first conveying belt and the second conveying belt are arranged on the rack side by side from left to right, and the tail end of the first conveying belt corresponds to the starting end of the second conveying belt; the turnover mechanism is arranged between the tail end of the first conveying belt and the starting end of the second conveying belt, a turnover support of the turnover mechanism is arranged on one side of the tail end of the first conveying belt, the length direction of a turnover shaft is consistent with the conveying direction of the first conveying belt, and the vacuum adsorption seat is positioned on the rear side of the starting end of the second conveying belt; the plate turnover device also comprises a first conveying mechanism which can convey the bearing plate on the tail end of the first conveying belt to the vacuum adsorption seat, and a second conveying mechanism which can convey the bearing plate on the vacuum adsorption seat to the starting end of the second conveying belt. The plate turnover device of the electrode printing machine is compact in structure and small in occupied space, and the utilization rate of a production space can be improved.

Description

Plate turnover device of electrode printing machine

Technical Field

The utility model relates to the technical field of electronic component production equipment, in particular to a plate turnover device of an electrode printing machine.

Background

In the production process of ceramic capacitors or piezoresistors, electrodes need to be fabricated on both sides of a ceramic chip. The electrode printing process of the ceramic chip generally comprises the working procedures of primary electrode slurry painting, primary drying, ceramic chip overturning, secondary electrode slurry painting, secondary drying and the like, wherein the electrode slurry painting and drying are respectively carried out on two surfaces of the ceramic chip. And the turning is to paint and dry the electrode on one side of the ceramic chip and then turn the ceramic chip to paint and dry the electrode on the other side. In order to solve the problem of low production efficiency of manual turning plates, the applicant previously applied for an automatic silver printing machine (No. CN 210136892U) and a turning plate device (No. CN 210392733U) for the silver printing machine, the turning plate device of the automatic silver printing machine lifts a tool on a tool conveying mechanism to a preset height through a tool lifting mechanism, and then moves a ceramic chip on the tool onto the turning plate device through the turning plate device to turn over, so that the turning of the ceramic chip is realized, the silver brushing (brushing electrode slurry) operation on the other surface of the ceramic chip is convenient, the use is convenient and fast, the manual turning is not needed, the silver brushing production efficiency of the ceramic chip is improved, and the production cost is reduced.

However, the automatic silver printing machine has a large space between the conveyor belts on both sides of the flap device (i.e. inside the U-shape), and in practical production, workers usually only operate and maintain the equipment from the outside, so that the space on the inside cannot be utilized, and a certain amount of production space is wasted.

Disclosure of Invention

The utility model aims to provide a plate turnover device of an electrode printer, which has compact structure and small occupied space and can improve the utilization rate of production space. The technical scheme is as follows:

a plate turnover device of an electrode printing machine comprises a frame, a first conveying belt, a second conveying belt, a plate turnover mechanism and a lifting mechanism; the first conveying belt and the second conveying belt are arranged on the rack side by side from left to right, the conveying direction of the first conveying belt is from front to back, the conveying direction of the second conveying belt is from back to front, and the tail end of the first conveying belt corresponds to the starting end of the second conveying belt; the lifting mechanism is arranged below the tail end of the first conveying belt; the turnover mechanism is arranged between the tail end of the first conveying belt and the starting end of the second conveying belt and comprises a vacuum adsorption seat, a turnover support, a turnover shaft and a turnover driving motor, the turnover support and the turnover driving motor are arranged on the frame, the turnover shaft is rotatably arranged on the turnover support and is in transmission connection with an output shaft of the turnover driving motor, and the vacuum adsorption seat is fixedly connected with the turnover shaft; the method is characterized in that: the overturning support is arranged on one side of the tail end of the first conveying belt, the length direction of the overturning shaft is consistent with the conveying direction of the first conveying belt, and the vacuum adsorption seat is positioned on the rear side of the starting end of the second conveying belt; the plate turnover device further comprises a first conveying mechanism capable of conveying the bearing plate on the tail end of the first conveying belt to the vacuum adsorption seat, and a second conveying mechanism capable of conveying the bearing plate on the vacuum adsorption seat to the starting end of the second conveying belt.

The plate required to be turned over by the plate turnover device in the specification is a bearing plate for containing ceramic chips, the bearing plate is rectangular, a plurality of grooves for containing the ceramic chips are formed in the bearing plate (the grooves are usually arranged into a plurality of rows and a plurality of columns), and air suction holes are also formed in the bottoms of the grooves.

The first conveying mechanism and the second conveying mechanism are both arranged on the rack, the tail end of the first conveying belt and the vacuum adsorption seat are both positioned below the first conveying mechanism, and the starting ends of the vacuum adsorption seat and the second conveying belt are both positioned below the second conveying mechanism.

The vacuum adsorption seat is provided with a vacuumizing groove with an upward opening, the bottom wall of the vacuumizing groove is provided with an air exhaust opening, the vacuum adsorption seat is provided with a plurality of suckers, each sucker is positioned on the outer side of the vacuumizing groove, and the air exhaust opening and each sucker are respectively connected with vacuumizing equipment. When the bearing plate is positioned on the vacuum adsorption seat, the lower surface of the bearing plate is in contact with the upper surface of the vacuum adsorption seat, and the vacuumizing equipment is started to exhaust air at the moment, so that the bearing plate is adsorbed by the sucker, and the bearing plate is stably placed on the vacuum adsorption seat and cannot shift. When the vacuumizing equipment vacuumizes the interior of the vacuumizing groove, negative pressure can be formed in the vacuumizing groove, and the ceramic dielectric chips on the bearing plate can be firmly adsorbed in the corresponding grooves on the bearing plate.

The lifting mechanism is used for lifting the old bearing plate reaching the tail end of the first conveying belt and separating the old bearing plate from the first conveying belt, so that the new bearing plate can be conveniently overlapped on the old bearing plate by the turnover mechanism. The lifting mechanism generally comprises a lifting plate and a lifting driving device for driving the lifting plate to lift, and in order to ensure smooth lifting process, the lifting driving device may adopt a structure that a servo motor drives a screw rod to match with a lifting support (see the detailed embodiment of the prior patent document CN210392733U of the applicant).

Before turning over the plate, a new empty bearing plate is placed on the vacuum adsorption seat. The first conveying belt stops when an old bearing plate filled with ceramic chips is conveyed to the tail end of the first conveying belt, then the turnover driving motor drives the turnover shaft to turn over, the vacuum adsorption seat is driven to turn over to the tail end of the first conveying belt (at the moment, each sucker on the vacuum adsorption seat adsorbs a new bearing plate), the empty new bearing plate covers the old bearing plate filled with the ceramic chips, then the ceramic chips are adsorbed and moved to the new bearing plate from the old bearing plate through the vacuum adsorption seat (at the moment, the vacuumizing equipment vacuumizes the inside of the vacuumizing groove, negative pressure is formed inside the vacuumizing groove, and each ceramic chip on the old bearing plate is adsorbed to a corresponding groove on the new bearing plate), the turnover driving motor drives the turnover shaft to turn over so that the vacuum adsorption seat resets, and the ceramic chips are transferred from the old bearing plate to the new bearing plate. After the ceramic chip is transferred, the second carrying mechanism carries the fully loaded new bearing plate to the starting end of the second conveying belt from the vacuum adsorption seat, and the new bearing plate is conveyed to a downstream station by the second conveying belt; meanwhile, the first carrying mechanism carries the old carrying plate which becomes empty to the vacuum adsorption seat from the tail end of the first conveying belt, and the old carrying plate is used as a new carrying plate corresponding to the next carrying plate fully loaded with the ceramic chips.

Because first conveyer belt and second conveyer belt set up side by side, simultaneously with the upset support setting in the terminal one side of first conveyer belt, the length direction of trip shaft is unanimous with the direction of delivery of first conveyer belt, the vacuum adsorption seat is in the initiating terminal rear side of second conveyer belt, make the terminal of first conveyer belt, the vacuum adsorption seat, and the initiating terminal of second conveyer belt constitutes an L type, make first conveyer belt and second conveyer belt comparatively close to, whole plate turnover's structure is very compact, occupation space is little, the utilization ratio of production space is greatly improved.

As a preferred scheme of the present invention, each of the first carrying mechanism and the second carrying mechanism includes a translation driving mechanism, a translation seat, a lifting driving mechanism, a lifting seat and a grabbing assembly, the translation driving mechanism is mounted on the frame, the translation seat is mounted on a power output end of the translation driving mechanism, the lifting driving mechanism is mounted on the translation seat, the lifting seat is mounted on a power output end of the lifting driving mechanism, and the grabbing assembly is mounted on the lifting seat.

As a further preferable scheme of the utility model, the translation driving mechanism comprises a rodless cylinder, a cylinder body of the rodless cylinder is installed on the rack along the horizontal direction, and the translation seat is installed on a sliding block of the rodless cylinder; the cylinder body of the rodless cylinder in the first carrying mechanism moves left and right, and the cylinder body of the rodless cylinder in the second carrying mechanism moves front and back.

Of course, the translation driving mechanism can also adopt a mode of driving a synchronous belt by a motor, and comprises a translation driving motor, a driving wheel, a driven wheel, a belt, a connecting block, a guide rail and a sliding block; the translation driving motor is arranged on the rack, the driving wheel and the driven wheel are rotatably arranged on the rack, and the driving wheel and the driven wheel tension the belt; the guide rail is arranged on the rack, the translation seat is connected to the belt through a connecting block, and the translation seat can move along the guide rail through a sliding block; the guide rail and the belt of the first carrying mechanism move left and right, and the guide rail and the belt of the second carrying mechanism move front and back.

As a further preferable scheme of the present invention, the lifting driving mechanism includes a lifting cylinder, a cylinder body of the lifting cylinder is mounted on the translation seat, and a piston rod of the lifting cylinder faces downward and is connected with the lifting seat.

As still further preferred aspect of the present invention, the gripping assembly includes a suction cup frame and a plurality of gripping suction cups mounted on the suction cup frame, the suction cup frame being mounted on the elevating base.

As a preferred scheme of the utility model, two adjacent side edges of the vacuum adsorption seat are respectively provided with a tube positive baffle, and the other two corresponding adjacent side edges are respectively provided with a tube positive assembly. The positive subassembly of pipe is used for carrying out the position with two loading boards after the lid and manages just, makes the recess on two loading boards can the one-to-one, ensures that can accurately be adsorbed on new loading board with ceramic chip on the old loading board.

As a further preferable scheme of the present invention, the positive pipe assembly includes a positive pipe cylinder and a positive pipe push plate, a cylinder body of the positive pipe cylinder is mounted on a lower surface of the vacuum adsorption seat, and the positive pipe push plate is mounted on a piston rod of the positive pipe cylinder and is located outside a corresponding side of the vacuum adsorption seat. After the unloaded new bearing plate covers the old bearing plate fully loaded with the ceramic chips, the new bearing plate is loosened by each sucker on the vacuum adsorption seat, then the piston rod of the tube positive cylinder stretches and retracts in a reciprocating manner, the tube positive push plate is driven to beat the corresponding side edge of the bearing plate, and the new bearing plate is aligned with the old bearing plate under the matching of the tube positive baffle plate, so that each ceramic dielectric chip on the old bearing plate can be smoothly transferred to the new bearing plate.

Compared with the prior art, the utility model has the following advantages:

according to the plate turnover device of the electrode printing machine, the first conveying belt and the second conveying belt are arranged side by side, the turnover support is arranged on one side of the tail end of the first conveying belt, the length direction of the turnover shaft is consistent with the conveying direction of the first conveying belt, the vacuum adsorption seat is arranged on the rear side of the starting end of the second conveying belt, so that the tail end of the first conveying belt, the vacuum adsorption seat and the starting end of the second conveying belt form an L shape, the first conveying belt and the second conveying belt can be relatively close to each other, the whole plate turnover device is very compact in structure and small in occupied space, and the utilization rate of production space is greatly improved.

Drawings

FIG. 1 is a schematic top view of a preferred embodiment of the present invention;

FIG. 2 is a front view of FIG. 1;

wherein, each mark is: 1-a first conveyer belt, 2-a second conveyer belt, 3-a plate turnover mechanism, 31-a vacuum adsorption seat, 32-a turnover support, 33-a turnover shaft, 34-a turnover driving motor, 35-a vacuum pumping groove, 36-a pumping hole, 37-a sucker, 38-a pipe positive baffle, 39-a pipe positive component, 391-a pipe positive cylinder, 392-a pipe positive pushing plate, 4-a lifting mechanism, 41-a lifting plate, 5-a first conveying mechanism, 6-a second conveying mechanism, 71-a translation driving mechanism (rodless cylinder), 72-a translation seat, 73-a lifting driving mechanism (a lifting cylinder), 74-a lifting seat, 75-a grabbing component, 751-a sucker frame and 752-a grabbing sucker.

Detailed Description

The following further describes the preferred embodiments of the present invention with reference to the drawings.

As shown in fig. 1 and fig. 2, a plate turnover device of an electrode printer comprises a frame (not shown), a first conveyor belt 1, a second conveyor belt 2, a plate turnover mechanism 3, a lifting mechanism 4, a first carrying mechanism 5 and a second carrying mechanism 6; the first conveying belt 1 and the second conveying belt 2 are arranged on the rack side by side from left to right, the conveying direction of the first conveying belt 1 is from front to back, the conveying direction of the second conveying belt 2 is from back to front, and the tail end of the first conveying belt 1 corresponds to the starting end of the second conveying belt 2; the lifting mechanism 4 is disposed below the end of the first conveyor belt 1, and in this embodiment, the lifting mechanism 4 generally includes a lifting plate 41 and a lifting driving device for driving the lifting plate 41 to lift, and in order to ensure smooth lifting process, the lifting driving device may adopt a structure that a servo motor drives a screw rod to cooperate with a lifting bracket, as detailed in the detailed description of the prior patent document CN210392733U of the applicant, which is only schematically illustrated in the drawing.

As shown in fig. 1 and 2, the plate turnover mechanism 3 is installed between the end of the first conveyor belt 1 and the start end of the second conveyor belt 2, the plate turnover mechanism 3 includes a vacuum adsorption seat 31, a turnover bracket 32, a turnover shaft 33 and a turnover driving motor 34, the turnover bracket 32 and the turnover driving motor 34 are installed on the frame, the turnover bracket 32 is located at one side of the end of the first conveyor belt 1, the turnover shaft 33 is rotatably installed on the turnover bracket 32 and is in transmission connection with an output shaft of the turnover driving motor 34, the length direction of the turnover shaft 33 is consistent with the conveying direction of the first conveyor belt 1, the vacuum adsorption seat 31 is fixedly connected with the turnover shaft 33, and the vacuum adsorption seat 31 is located at the rear side of the start end of the second conveyor belt 2; the vacuum adsorption seat 31 is provided with a vacuumizing groove 35 with an upward opening, the bottom wall of the vacuumizing groove 35 is provided with an air suction port 36, the vacuum adsorption seat 31 is provided with a plurality of suction cups 37, each suction cup 37 is positioned at the outer side of the vacuumizing groove 35, and the air suction port 36 and each suction cup 37 are respectively connected with vacuumizing equipment; two adjacent side edges of the vacuum adsorption seat 31 are provided with a tube positive baffle 38, two other corresponding adjacent side edges are provided with a tube positive assembly 39, the tube positive assembly 39 comprises a tube positive cylinder 391 and a tube positive push plate 392, the cylinder body of the tube positive cylinder 391 is installed on the lower surface of the vacuum adsorption seat 31, and the tube positive push plate 392 is installed on the piston rod of the tube positive cylinder 391 and is positioned at the outer side of the corresponding side edge of the vacuum adsorption seat 31.

As shown in fig. 1 and fig. 2, the first conveying mechanism 5 can convey the carrier plate on the end of the first conveyor belt 1 to the vacuum adsorption seat 31, the second conveying mechanism 6 can convey the carrier plate on the vacuum adsorption seat 31 to the beginning end of the second conveyor belt 2, both the first conveying mechanism 5 and the second conveying mechanism 6 are installed on the frame, and the end of the first conveyor belt 1 and the vacuum adsorption seat 31 are both located below the first conveying mechanism 5, and both the vacuum adsorption seat 31 and the beginning end of the second conveyor belt 2 are both located below the second conveying mechanism 6; the first carrying mechanism 5 and the second carrying mechanism 6 both comprise a translation driving mechanism 71, a translation seat 72, a lifting driving mechanism 73, a lifting seat 74 and a grabbing assembly 75, the translation driving mechanism 71 is mounted on the rack, in the embodiment, the translation driving mechanism 71 comprises a rodless cylinder, a cylinder body of the rodless cylinder 71 is mounted on the rack along the horizontal direction, the translation seat 72 is mounted on a sliding block of the rodless cylinder 71, the cylinder body of the rodless cylinder 71 in the first carrying mechanism 5 is in the left-right direction, and the cylinder body of the rodless cylinder 71 in the second carrying mechanism 6 is in the front-back direction; the lifting driving mechanism 73 comprises a lifting cylinder, the cylinder body of the lifting cylinder 73 is arranged on the translation seat 72, and the piston rod of the lifting cylinder 73 faces downwards and is connected with the lifting seat 74; the grasping assembly 75 includes a suction cup holder 751 and a plurality of grasping suction cups 752 mounted on the suction cup holder 751, the suction cup holder 751 being mounted on the elevation base 74.

The operation of the whole flap device is further described in the following with reference to the accompanying drawings and preferred embodiments of the present invention:

(1) before turning over the plate, placing a new unloaded bearing plate on the vacuum adsorption seat 31; when the new bearing plate is on the vacuum adsorption seat 31, the lower surface of the new bearing plate is in contact with the upper surface of the vacuum adsorption seat 31, and at the moment, the vacuumizing equipment is started to perform air suction, so that the bearing plate is adsorbed by each sucking disc 37 outside the vacuumizing groove 35, and the new bearing plate is stably placed on the vacuum adsorption seat 31 and cannot shift;

(2) the first conveying belt 1 stops when conveying the old bearing plate filled with the ceramic chips to the tail end of the first conveying belt 1, and then the lifting mechanism 4 lifts the old bearing plate reaching the tail end of the first conveying belt 1 and separates from the first conveying belt 1;

(3) the turnover driving motor 34 drives the turnover shaft 33 to turn over, drives the vacuum adsorption base 31 to turn over to the tail end of the first conveyor belt 1 (at this time, each suction cup 37 on the vacuum adsorption base 31 sucks a new bearing plate), and covers the empty new bearing plate on the old bearing plate full of ceramic chips; then, each sucker 37 on the vacuum adsorption seat 31 loosens the new bearing plate, the piston rod of the tube positive cylinder 391 stretches and retracts in a reciprocating manner, the tube positive push plate 392 is driven to beat the corresponding side edge of the bearing plate, the new bearing plate is aligned with the old bearing plate under the matching of the tube positive baffle 38, the grooves on the two bearing plates can be in one-to-one correspondence, and the ceramic chip on the old bearing plate can be accurately adsorbed on the new bearing plate;

(4) the vacuum adsorption seat 31 adsorbs and moves the ceramic chips from the old bearing plate to the new bearing plate, the vacuumizing equipment vacuumizes the interior of the vacuumizing groove 35 to form negative pressure in the vacuumizing groove 35, each ceramic dielectric chip on the old bearing plate can be firmly adsorbed in the corresponding groove on the new bearing plate, the overturning driving motor 34 drives the overturning shaft 33 to overturn to reset the vacuum adsorption seat 31, and the ceramic chips are transferred from the old bearing plate to the new bearing plate;

(5) after the ceramic chip is transferred, the second carrying mechanism 6 carries the fully loaded new carrying plate from the vacuum adsorption seat 31 to the starting end of the second conveyor belt 2, and the new carrying plate is conveyed to the downstream station by the second conveyor belt 2; meanwhile, the first carrying mechanism 5 carries the empty old carrier plate from the end of the first conveyor 1 to the vacuum absorption seat 31, and the old carrier plate is used as a new carrier plate corresponding to the next carrier plate full of ceramic chips.

Because first conveyer belt 1 and second conveyer belt 2 set up side by side, will overturn support 32 simultaneously and set up in the terminal one side of first conveyer belt 1, the length direction of trip shaft 33 is unanimous with the direction of delivery of first conveyer belt 1, vacuum adsorption seat 31 is in the initiating terminal rear side of second conveyer belt 2, make the terminal of first conveyer belt 1, vacuum adsorption seat 31, and the initiating terminal of second conveyer belt 2 constitutes an L type, make first conveyer belt 1 and second conveyer belt 2 can comparatively be close to, whole plate turnover's structure is very compact, occupation space is little, the utilization ratio in production space is greatly improved.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and the equivalent or simple change of the structure, the characteristics and the principle described in the present patent idea is included in the protection scope of the present patent. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the utility model as defined in the accompanying claims.

Claims (7)

1. A plate turnover device of an electrode printing machine comprises a frame, a first conveying belt, a second conveying belt, a plate turnover mechanism and a lifting mechanism; the first conveying belt and the second conveying belt are arranged on the rack side by side from left to right, the conveying direction of the first conveying belt is from front to back, the conveying direction of the second conveying belt is from back to front, and the tail end of the first conveying belt corresponds to the starting end of the second conveying belt; the lifting mechanism is arranged below the tail end of the first conveying belt; the turnover mechanism is arranged between the tail end of the first conveying belt and the starting end of the second conveying belt and comprises a vacuum adsorption seat, a turnover support, a turnover shaft and a turnover driving motor, the turnover support and the turnover driving motor are arranged on the frame, the turnover shaft is rotatably arranged on the turnover support and is in transmission connection with an output shaft of the turnover driving motor, and the vacuum adsorption seat is fixedly connected with the turnover shaft; the method is characterized in that: the overturning bracket is arranged on one side of the tail end of the first conveying belt, the length direction of the overturning shaft is consistent with the conveying direction of the first conveying belt, and the vacuum adsorption seat is positioned on the rear side of the starting end of the second conveying belt; the plate turnover device further comprises a first conveying mechanism capable of conveying the bearing plate on the tail end of the first conveying belt to the vacuum adsorption seat, and a second conveying mechanism capable of conveying the bearing plate on the vacuum adsorption seat to the starting end of the second conveying belt.

2. The flap device of an electrode printer according to claim 1, characterized in that: first transport mechanism, second transport mechanism all include translation actuating mechanism, translation seat, lift actuating mechanism, lift seat and snatch the subassembly, and translation actuating mechanism installs in the frame, the translation seat is installed on translation actuating mechanism's power take off, and lift actuating mechanism installs on the translation seat, and the lift seat is installed on lift actuating mechanism's power take off, snatchs the subassembly and installs on the lift seat.

3. The flap device of an electrode printer according to claim 2, characterized in that: the translation driving mechanism comprises a rodless cylinder, a cylinder body of the rodless cylinder is installed on the rack along the horizontal direction, and the translation seat is installed on a sliding block of the rodless cylinder; the cylinder body of the rodless cylinder in the first carrying mechanism moves left and right, and the cylinder body of the rodless cylinder in the second carrying mechanism moves front and back.

4. The flap apparatus of an electrode printer according to claim 3, wherein: the lifting driving mechanism comprises a lifting cylinder, a cylinder body of the lifting cylinder is installed on the translation seat, and a piston rod of the lifting cylinder faces downwards and is connected with the lifting seat.

5. The flap device of an electrode printer according to claim 4, characterized in that: the grabbing component comprises a sucker frame and a plurality of grabbing suckers arranged on the sucker frame, and the sucker frame is arranged on the lifting seat.

6. The flap device of an electrode printer according to any one of claims 1 to 5, characterized in that: two adjacent sides of vacuum adsorption seat all are equipped with the positive baffle of pipe, and two other adjacent sides corresponding all are equipped with the positive subassembly of pipe.

7. The flap apparatus of an electrode printer according to claim 6, wherein: the positive subassembly of pipe includes manages positive cylinder and manages positive push pedal, manages the cylinder body of positive cylinder and installs on the lower surface of vacuum adsorption seat, manage positive push pedal and install on managing the piston rod of positive cylinder and be in the outside of the corresponding side of vacuum adsorption seat.

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