CN220518787U

CN220518787U - Screen label assembly

Info

Publication number: CN220518787U
Application number: CN202322148222.5U
Authority: CN
Inventors: 汪恒坤; 李志明; 吴成兵
Original assignee: Hefei Yanli Electronic Technology Co ltd
Current assignee: Hefei Yanli Electronic Technology Co ltd
Priority date: 2023-08-10
Filing date: 2023-08-10
Publication date: 2024-02-23
Anticipated expiration: 2033-08-10

Abstract

The utility model discloses a screen labeling assembly, which relates to the technical field of screen production and comprises the following components: the PCB code reading component is used for reading codes of the screen; the labeling overturning assembly is used for adsorbing the screen and overturning the screen with the back face upwards; the screen CCD component is positioned above the labeling overturning component and is used for positioning a screen on the labeling overturning component; the label assembly is positioned at one side of the labeling overturning assembly, separates single labels in sequence and moves the labels to corresponding positions; the labeling arm is positioned at one side of the label assembly; according to the utility model, the label sticking and overturning assembly is adopted to adsorb and overturn the screen, and then the label sent out by the label sticking assembly is stuck to the back surface of the screen through the label sticking arm, so that automatic label sticking operation on the screen is realized, the labor cost is reduced, and the operation efficiency and the yield are improved.

Description

Screen label assembly

Technical Field

The utility model relates to the technical field of screen production, in particular to a screen labeling assembly.

Background

A screen is a device or appliance for displaying images and colors. It is divided into a screen and a screen, also called a display screen. The method is widely applied to mobile phones, computers, displays, televisions and equipment with image or text display functions. When the screen is packaged, the lower surface of the screen is required to be labeled, and the existing manual mode is adopted for manually labeling notes, so that the labor cost is increased, the efficiency is low, and the yield is influenced.

Disclosure of Invention

The utility model aims to provide a screen labeling assembly, which solves the problems that the labor cost is increased, the efficiency is low and the yield is affected by the manual labeling of notes in the prior art.

The utility model solves the technical problems through the following technical proposal, which comprises the following steps:

the PCB code reading component is used for reading codes of the screen;

the labeling overturning assembly is used for adsorbing the screen and overturning the screen with the back face upwards;

the screen CCD component is positioned above the labeling overturning component and is used for positioning a screen on the labeling overturning component;

the label assembly is positioned at one side of the labeling overturning assembly, separates single labels in sequence and moves the labels to corresponding positions;

the labeling arm is positioned on one side of the label assembly, and the labeling arm is used for labeling the labels separated from the label assembly on a screen.

Preferably, the PCB code reading component comprises two first support rods, a single linear module and a code reader; the single linear module is arranged at the upper ends of the two first support rods, and the code reader is arranged on the moving block of the single linear module through the mounting frame.

Preferably, the labeling overturning assembly comprises two second supporting rods, a rotating shaft, a rotating motor and a labeling carrying platform; the rotary shaft is rotatably arranged at the upper ends of the two second support rods, the rotary motor is fixed on one of the second support rods and drives the rotary shaft to rotate, and the attaching carrying platform is fixed on the rotary shaft.

Preferably, the number of the attaching platforms is one group or two groups.

Preferably, the attaching platform comprises a turnover plate, a plurality of absorbing parts and a supporting block; the turnover plate is arranged on the rotating shaft, and the adsorption pieces and the supporting blocks are fixed on the turnover plate.

Preferably, the adsorption piece comprises an adsorption block, a vacuum absorber and a pagoda joint; the vacuum suction tool is embedded to be arranged on the upper surface of the suction block, an inner hole communicated with the vacuum suction tool is formed in the suction block, the pagoda joint is arranged at the end part of the inner hole, and the pagoda joint is connected with an external vacuumizing system through an air pipe.

Preferably, the screen CCD assembly comprises a bidirectional linear module, two cameras and two light sources; the two cameras are respectively arranged at two moving ends of the bidirectional linear module, and the two light sources are respectively arranged at two moving ends of the bidirectional linear module through the bracket.

Preferably, the label assembly comprises a mounting table, a printer, a two-axis truss and a label carrying table; the printer is installed in the mount table, the diaxon truss is located the label of printer and sees out one side, the label carrier is installed in the removal end of diaxon truss, a plurality of vacuum absorption holes have been seted up to the label carrier.

Preferably, the two-axis truss comprises a light shaft seat, a mounting seat, a trackless cylinder and a vertical cylinder; the trackless cylinder is arranged on the optical axis seat, the mounting seat is arranged on the trackless cylinder, the vertical cylinder is arranged on the mounting seat, and the label carrying platform is arranged at the telescopic end of the vertical cylinder.

Preferably, the labeling arm comprises a triaxial truss, a rotary R shaft, a lifting cylinder and a vacuum adsorption head; the rotary R shaft is arranged at the moving end of the triaxial truss, the lifting cylinder is arranged at the rotating end of the rotary R shaft, and the vacuum adsorption head is arranged at the telescopic end of the lifting cylinder.

Compared with the prior art, the utility model has the beneficial effects that: the label sticking and overturning assembly is used for adsorbing and overturning the screen, and then the label sent out by the label sticking assembly is stuck to the back of the screen through the label sticking arm, so that automatic label sticking operation on the screen is realized, labor cost is reduced, and operation efficiency and yield are improved.

Drawings

FIG. 1 is a schematic diagram of a label flipping assembly according to the present utility model;

FIG. 2 is a schematic diagram of the structure of a screen CCD assembly of the present utility model;

FIG. 3 is a schematic diagram of a PCB code reading assembly according to the present utility model;

FIG. 4 is a schematic diagram of a tag assembly of the present utility model;

FIG. 5 is a schematic diagram of a labeling arm according to the present utility model;

FIG. 6 is a schematic top view of the present utility model;

fig. 7 is a schematic view of the absorbent member of fig. 2.

The figures represent the numbers:

a 3-screen CCD assembly; 301-a light source; 302-a bi-directional straight line module; 303-a camera; 10-labeling an arm; 1001-triaxial truss; 1002-rotating the R-axis; 1003-lifting cylinder; 1004-a vacuum adsorption head; 11-labeling a turnover assembly; 1101-second support bar; 1102-a rotation axis; 1103-a rotating electric machine; 1104-attaching a carrier; 1105-adsorbent member; 11051-an adsorption block; 11052-vacuum suction tool; 11053-pagoda linker; 1106-support blocks; 16-a PCB code reading assembly; 1601-single line module; 1602-moving the block; 1603-mounting rack; 1604-a code reader; 1605-a first support bar; 18-a tag assembly; 1801-mounting; 1802-printer; 1803-diaxon truss; 1804-label stage; 100-screen.

Detailed Description

The above and further technical features and advantages of the present utility model are described in more detail below with reference to the accompanying drawings.

Example 1

The embodiment provides a technical scheme: a screen labelling assembly, as shown in fig. 6, comprising: the PCB code reading assembly 16, the labeling overturning assembly 11, the screen CCD assembly 3, the label assembly 18 and the labeling arm 10;

as shown in fig. 3, the PCB code reading component 16 is configured to read a code from the screen 100, thereby identifying information of the screen 100;

further, the PCB code reading assembly 16 includes two first support bars 1605, a single linear module 1601 and a code reader 1604; the single linear module 1601 is installed on the upper ends of the two first support rods 1605, so that the single linear module 1601 is located in mid-air, the code reader 1604 is installed on the moving block 1602 of the single linear module 1601 through the installation frame 1603, the moving block 1602 can adjust the vertical position of the code reader 1604 through the screw structure to adjust the vertical position of the code reader 1604 in actual application, and meanwhile, the installation frame 1603 can also be designed into an angle-adjusting structure to adjust the operation direction of the code reader 1604.

As shown in fig. 1, the labeling overturning assembly 11 firstly adsorbs and fixes the screen 100, then overturns the screen 100 with the back face upwards, and further facilitates the labeling arm 10 to paste the label on the back face of the screen 100;

as shown in fig. 2, the screen CCD assembly 3 is located above the label overturning assembly 11, and the screen CCD assembly 3 shoots from top to bottom to position the screen 100 on the label overturning assembly 11;

further, the screen CCD assembly 3 includes a bi-directional linear module 302, two cameras 303 and two light sources 301; the two cameras 303 are respectively arranged at two moving ends of the bidirectional linear module 302, the two cameras 303 can be driven to move by operating the bidirectional linear module 302, the distance between the two cameras 303 is adjusted, the two light sources 301 are respectively arranged at the two moving ends of the bidirectional linear module 302 through the support, a through hole is formed in the center of each light source 301, the lower ends of the cameras 303 are inserted into the through holes, and the light sources 301 provide brightness required by shooting for the cameras 303 so as to ensure that pictures obtained by shooting by the cameras 303 are clear.

As shown in fig. 4, the label assembly 18 is located at one side of the label flipping assembly 11, and the label assembly 18 sequentially separates individual labels and moves the labels to corresponding positions;

the label assembly 18 includes a mounting block 1801, a printer 1802, a two-axis truss 1803, and a label carrier 1804; the printer 1802 is mounted on the mounting table 1801, the printer 1802 can gradually separate the blank label in a roll, print corresponding information according to the need, and then send out the label, in this embodiment, a zebra printer is adopted, the model of which is ZT510, the two-axis truss 1803 is located at the label sending side of the printer 1802, the label carrier 1804 is mounted on the moving end of the two-axis truss 1803, the label carrier 1804 is provided with a plurality of vacuum adsorption holes, the sent label is placed on the label carrier 1804, and the label is adsorbed and fixed through the vacuum adsorption holes;

the biaxial truss 1803 comprises a light shaft seat, a mounting seat, a trackless cylinder and a vertical cylinder; the optical axis seat transversely sets up, and trackless cylinder slidable mounting is on the optical axis of optical axis seat, and trackless cylinder can remove on the optical axis of optical axis seat, and the mount pad is installed in trackless cylinder, and vertical cylinder installs in the mount pad, and label microscope stage 1804 is installed in the flexible end of vertical cylinder, through the cooperation of trackless cylinder and vertical cylinder, can adjust biaxial truss 1803 in horizontal and vertical position to the label is direct to be peeled off on label microscope stage 1804, removes label microscope stage 1804 again, so that paste label arm 10 and take away the label on the label microscope stage 1804.

As shown in fig. 5, the labeling arm 10 is located at one side of the label assembly 18, and the labeling arm 10 attaches the label separated from the label assembly 18 to the screen 100;

the labeling arm 10 comprises a triaxial truss 1001, a rotary R-axis 1002, a lifting cylinder 1003 and a vacuum adsorption head 1004; the triaxial truss 1001 is fixed through the third bracing piece, and rotatory R axle 1002 is installed in the removal end of triaxial truss 1001, and the rotation end of rotatory R axle 1002 is installed in to the lift cylinder 1003, and vacuum adsorption head 1004 is installed in the flexible end of lift cylinder 1003, and vacuum adsorption head 1004 can adsorb the label, can remove the label to optional position and adjustable its plane angle through the cooperation of triaxial truss 1001, rotatory R axle 1002 and lift cylinder 1003, and then paste the label to the settlement position of screen 100.

Example two

The present embodiment is further optimized based on the foregoing embodiment, and the same parts as the foregoing technical solutions will not be described herein, as shown in fig. 1 and fig. 7, further for better implementing the present utility model, particularly the following arrangement mode is adopted: the label turnover assembly 11 comprises two second support rods 1101, a rotary shaft 1102, a rotary motor 1103 and a label carrier;

the rotation axis 1102 rotates and installs in the upper end of two second bracing pieces 1101, and rotating electrical machines 1103 are fixed in one of them second bracing piece 1101 and drive rotation axis 1102 rotation, and the attached microscope carrier is fixed in rotation axis 1102, and during the use, attached microscope carrier is down or up, and with screen 100 absorption fixed down, then through rotating electrical machines 1103 upset 180 upwards, can carry out the labeling operation.

If the number of attaching carriers is one or two, if the number of attaching carriers is two, the two attaching carriers are fixed back to the rotating shaft 1102, and the labeling and the adsorbing and fixing of the screen 100 can be performed simultaneously, so that the working efficiency is improved.

The attaching stage includes a turnover plate 1104, a plurality of adsorbing members 1105, and a supporting block 1106; the number of the plurality of absorbing members 1105 is set according to the need, the turnover plate 1104 is mounted on the rotation shaft 1102, the plurality of absorbing members 1105 and the supporting block 1106 are fixed on the turnover plate 1104, and the supporting block 1106 plays a role in supporting the screen 100 to prevent the screen from being sunken.

The adsorbing member 1105 includes an adsorbing block 11051, a vacuum suction tool 11052 and a pagoda joint 11053; the number of the vacuum absorbers 11052 is set according to the requirement, the vacuum absorbers 11052 are embedded on the upper surface of the absorption block 11051, namely, a first groove is formed in the upper surface of the absorption block 11051, the vacuum absorbers 11052 are arranged in the first groove, and the upper surface of the vacuum absorbers 11052 is not lower than the upper surface of the absorption block 11051 so as to ensure that a screen can be absorbed by the vacuum absorbers 11052;

the first magnet is embedded on the lower surface of the adsorption block 11051, and the lower surface of the first magnet and the lower surface of the adsorption block 11051 are positioned on the same plane so as to ensure that the first magnet and the turnover plate 1104 are adsorbed and fixed, namely a second groove is formed in the lower surface of the adsorption block 11051, and the first magnet is mounted in the second groove and fixed through bolts;

an inner hole communicated with the vacuum absorber 11052 is formed in the side face of the adsorption block 11051, a pagoda joint 11053 is arranged at the end part of the inner hole, the pagoda joint 11053 is connected with an external vacuumizing system through an air pipe, and the vacuum absorber 11052 can be vacuumized through the vacuumizing system, so that the screen is fixed;

the second magnet is embedded to install in the lower surface of supporting shoe 1106, and the mounting means of second magnet and first magnet is the same, can be fixed in turnover plate 1104 with supporting shoe 1106 through the second magnet, and the upper surface of turnover plate 1104 is fixed in through the mode that the magnetism was inhaled to absorption piece 1105 and supporting shoe 1106, can be convenient for adjust absorption piece 1105 and supporting shoe 1106's position.

The foregoing description of the preferred embodiment of the utility model is merely illustrative of the utility model and is not intended to be limiting. It will be appreciated by persons skilled in the art that many variations, modifications, and even equivalents may be made thereto without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. A screen labelling assembly, comprising:

the PCB code reading component is used for reading codes of the screen;

2. The screen labeling assembly of claim 1, wherein the PCB code reading component comprises two first support bars, a single linear module and a code reader; the single linear module is arranged at the upper ends of the two first support rods, and the code reader is arranged on the moving block of the single linear module through the mounting frame.

3. The screen labelling assembly according to claim 1, wherein the labelling flip assembly comprises two second support bars, a rotatable shaft, a rotatable motor and a labelling stage; the rotary shaft is rotatably arranged at the upper ends of the two second support rods, the rotary motor is fixed on one of the second support rods and drives the rotary shaft to rotate, and the attaching carrying platform is fixed on the rotary shaft.

4. A screen labelling assembly according to claim 3, wherein the number of said labelling stages is one or two.

5. The screen labelling assembly according to claim 4, wherein the labelling stage comprises a flipping plate, a plurality of suction members and a support block; the turnover plate is arranged on the rotating shaft, and the adsorption pieces and the supporting blocks are fixed on the turnover plate.

6. The screen labelling assembly according to claim 5, wherein the adsorbing member comprises an adsorbing block, a vacuum suction tool and a pagoda joint; the vacuum suction tool is embedded to be arranged on the upper surface of the suction block, an inner hole communicated with the vacuum suction tool is formed in the suction block, the pagoda joint is arranged at the end part of the inner hole, and the pagoda joint is connected with an external vacuumizing system through an air pipe.

7. The screen labelling assembly according to claim 1, wherein the screen CCD assembly comprises a bi-directional linear module, two cameras and two light sources; the two cameras are respectively arranged at two moving ends of the bidirectional linear module, and the two light sources are respectively arranged at two moving ends of the bidirectional linear module through the bracket.

8. The screen labelling assembly according to claim 1, wherein the label assembly includes a mounting station, a printer, a two-axis truss and a label carrier; the printer is installed in the mount table, the diaxon truss is located the label of printer and sees out one side, the label carrier is installed in the removal end of diaxon truss, a plurality of vacuum absorption holes have been seted up to the label carrier.

9. The screen labelling assembly according to claim 8, wherein the two-axis truss includes a light axis seat, a mounting seat, a trackless cylinder and a vertical cylinder; the trackless cylinder is arranged on the optical axis seat, the mounting seat is arranged on the trackless cylinder, the vertical cylinder is arranged on the mounting seat, and the label carrying platform is arranged at the telescopic end of the vertical cylinder.

10. The screen labeling assembly of claim 1, wherein the labeling arm comprises a triaxial truss, a rotary R-axis, a lifting cylinder and a vacuum adsorption head; the rotary R shaft is arranged at the moving end of the triaxial truss, the lifting cylinder is arranged at the rotating end of the rotary R shaft, and the vacuum adsorption head is arranged at the telescopic end of the lifting cylinder.