CN217261262U - COB optical module processing assembly - Google Patents

Abstract

The utility model belongs to the field of burning equipment, and discloses a COB optical module processing assembly, which comprises a base, a pickup assembly, a label generating mechanism and a burning mechanism, the base is provided with a tray placing station which is used for placing trays with COB optical modules arranged in an array at the upper ends, the pickup assembly, the label generating mechanism and the burning mechanism are all arranged on the base, the pickup assembly is used for transferring the label generated by the label generating mechanism to the COB optical module pasted on the tray, and the COB optical module with the label is transferred to the burning mechanism for burning, so that the label generating mechanism prints the label in real time, and the pickup assembly transfers the generated labels to the COB optical module one by one for pasting, and then the pickup assembly takes away the COB optical module pasted with the labels for burning.

Description

COB optical module processing assembly

Technical Field

The utility model belongs to burn the equipment field, especially, relate to a COB optical module processing assembly.

Background

Currently, when the COB optical module is burnt, a single COB optical module is independently burnt, the burning efficiency is low, in addition, labels printed with product information or two-dimensional codes are required to be pasted on the COB optical module one by one before or after burning, and the overall processing efficiency is extremely low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a can paste COB optical module processing assembly that label still can burn it to COB optical module.

In order to achieve the above purpose, the technical solution of the present invention is as follows: the utility model provides a COB optical module processing assembly, includes the base, gets an assembly, label generation mechanism and burns record mechanism, it places the station to have the tray on the base, the tray is placed the station and is used for placing the upper end and be the tray that the COB optical module was placed to the array, it all installs to get an assembly, label generation mechanism and burn record mechanism on the base, it is used for with to get an assembly the label that label generation mechanism generated shifts to pasting on the COB optical module on the tray to the COB that will paste and have the label shifts to burn record mechanism burns record.

The beneficial effects of the above technical scheme are that: so make the real-time printing label of label generation mechanism to by getting a label one by one shift to COB optical module of assembly with the label that generates and paste, take away to take away by getting a COB optical module that the assembly will paste and have the label and burn again.

In the technical scheme, the label generating mechanism comprises a label generating machine and a label sending-out mechanism, the label sending-out mechanism is provided with a label taking-away table, the label generating machine is used for printing label information on the surface of each sticker on a sticker tape, the printed sticker tape is pulled to bypass the label taking-away table by the label sending-out mechanism, and the taking-out assembly is used for lifting the sticker tape to the label on the label taking-away table to take away and attach the label to the COB optical module in the tray.

The beneficial effects of the above technical scheme are that: the label taking platform is simple in structure, can realize the production line type printing of labels, and is convenient for the taking assembly to take the labels away from the label taking platform.

In the above technical solution, the label feeding mechanism further includes a vertical plate, a first roller, two tensioning rollers, a second roller, a third roller, a fourth roller, a winding roller and a first driving member, the vertical plate is vertically disposed on the base along a front-back direction, the first roller, the second roller, the third roller, the fourth roller and the winding roller are horizontally disposed on a left side of the vertical plate along a left-right direction and are rotatably connected with the vertical plate, the number of the second rollers is two, the two second rollers are spaced between the first roller and the third roller along the front-back direction, the tensioning rollers are vertically disposed at a damping end of a damping member on the left side of the vertical plate, the tensioning rollers are parallel to the first roller and are disposed between the first roller and the second roller, the label taking-off table is disposed on the vertical plate and is disposed on a side of the third roller far from the second roller, the fourth rotating roller is located below the label taking platform, the furling rollers are located below the second rotating rollers and are in transmission connection with a first driving piece (which can adopt a servo speed reduction motor) arranged on the right side of the vertical plate, the adhesive tape sequentially bypasses the first rotating roller, the tensioning roller and the second rotating roller after being sent out from a paper outlet of the label generator, the third rotating roller bypasses the label taking platform in order to support the adhesive tape, and the paper blank tape of the adhesive tape bypasses the label taking platform and is wound on the furling rollers after being turned by the fourth rotating roller.

The beneficial effects of the above technical scheme are that: its simple structure makes the paper base of sticker tape periodic by the furling roller roll-up like this to make the label on the sticker tape move one by one and put on the platform is taken away to the label.

In the technical scheme, the part taking assembly comprises a first moving part, a label taking part and a COB optical module taking part, the first moving part is suspended above the base through a supporting frame, the label taking part and the COB optical module taking part are both installed at a driving end of the first moving part, and the first moving part is used for driving the label taking part and the COB optical module taking part to move three-dimensionally above the base.

The beneficial effects of the above technical scheme are that: its simple structure, so drive by first moving member the piece is taken away to the label and the COB is taken away the piece and is removed the removal in the space.

In the technical scheme, the label taking-away part comprises a first telescopic part, a hard air pipe and an absorption plate, the first telescopic part is installed at the driving end of the first moving part, the telescopic end of the first telescopic part faces downwards or upwards, the hard air pipe is vertically arranged, a first absorption hole which is communicated with the absorption plate from top to bottom is formed in the middle of the absorption plate, the lower end of the hard air pipe is fixedly connected with the upper end of the absorption plate, the hard air pipe is communicated with the upper end of the first absorption hole, the upper end of the hard air pipe is communicated with an air inlet of negative pressure equipment, and the first telescopic part is used for driving the hard air pipe to drive the absorption plate to move up and down so as to take away the label or paste the label.

The beneficial effects of the above technical scheme are that: so drive by first moving member first extensible member removes to the label and gets away the top of platform, then takes away the label laminating of bench with the label by first extensible member drive stereoplasm trachea downstream to suction disc and label, and negative pressure equipment inhales this moment for the suction disc adsorbs the label, then first extensible member rebound and drive by first moving member the stereoplasm straw removes to the tray directly over arbitrary COB optical module, again by the label of first extensible member drive stereoplasm trachea downstream on the suction disc and the laminating of COB optical module, label and the laminating of COB optical module this moment, stop negative pressure equipment and inhale this moment, suction disc and label separation this moment.

In the technical scheme, the COB optical module removing part comprises a second telescopic piece and a mechanical claw, the second telescopic piece is vertically installed at the driving end of the first moving piece, the telescopic end of the second telescopic piece faces downwards, the mechanical claw is installed at the telescopic end of the second telescopic piece, the clamping end of the mechanical claw faces downwards, and the mechanical claw is used for clamping the COB optical module.

The beneficial effects of the above technical scheme are that: so by the drive of second extensible member the gripper is got COB optical module and is transferred to COB optical module from getting on the tray the burning mechanism.

In the above technical solution, the burning mechanism includes a COB optical module supporting seat, a burning conduction seat, a pressing member, a positioning seat, a second driving member and a second moving member, the COB optical module supporting seat includes a middle portion disposed at the upper end of the base along the left-right direction, and a plurality of spacing notches for placing the COB optical module are uniformly spaced at the front side or the rear side of the COB optical module supporting seat along the left-right direction, the pressing member is mounted on the base through the second moving member, the second moving member is used to drive the pressing member to press down on the COB optical module supporting seat so as to press the COBs in the spacing notches tightly in the corresponding spacing notches or drive the pressing member to move upward to release the COB optical module from being pressed, the burning conduction seat is slidably mounted on the base and located at a side of the COB optical module supporting seat near the spacing notch, the burn record switches on the seat along the even electrically conductive port that is equipped with a plurality of and is connected with the computer terminal electricity in left right direction interval, and is a plurality of electrically conductive port is with a plurality of spacing breach one-to-one aligns around and, the second driving piece is installed on the base, and with burn record and switch on a transmission connection, the second driving piece is used for the drive burn record and switch on the seat and slide at most along the fore-and-aft direction electrically conductive port with correspond intraoral COB optical module of spacing breach switches on in order to burn record it, or remove to keeping away from COB optical module supporting seat is in order to reset.

The beneficial effects of the above technical scheme are that: so make COB optical module tak away the COB optical module of piece in with the tray and take away the back and place in spacing breach, treat all to place COB optical module in a plurality of spacing breach after, by second moving member drive pushing down the piece pressure on a plurality of COB optical modules this moment, drive a plurality of electrically conductive ports by the burn and conduct the seat again and remove to be connected with a plurality of COB optical modules electricity to burn the COB optical module.

Among the above-mentioned technical scheme the second that is equipped with a plurality of vertical link up along left right direction interval on the pushing down piece inhales the hole, and is a plurality of the upper end in hole and the air inlet intercommunication of negative pressure equipment are inhaled to the second, and is a plurality of hole and a plurality of spacing breach one-to-one are inhaled to the second, still be equipped with on the base and receive the material station, receive material station department and be used for placing and receive the flitch, it has a plurality of standing grooves, and is a plurality of to receive the flitch on the flitch the standing groove along left and right sides direction interval distribution, and with a plurality of spacing breach one-to-one, the second moving member is used for the drive pushing down piece downstream is in order to be a plurality of the COB optical module compresses tightly in the correspondence in the spacing breach, and be a plurality of after the burning of COB optical module the COB optical module absorbs and shifts to receive a plurality of flitch in the standing groove.

The beneficial effects of the above technical scheme are that: so make COB optical module burn after accomplishing by pushing down the piece with its absorption and transfer to on the material receiving plate can.

In the above technical solution, the first moving member is a three-dimensional moving member.

The beneficial effects of the above technical scheme are that: this makes its movement more flexible.

In the above technical solution, the second moving member is a two-dimensional moving member or a three-dimensional moving member.

The beneficial effects of the above technical scheme are that: this makes its movement more flexible.

Drawings

Fig. 1 is a schematic structural diagram of a COB optical module processing assembly according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the other side of the COB optical module machining assembly according to the embodiment of the present invention;

fig. 3 is a left side view of the label feeding mechanism according to the embodiment of the present invention;

fig. 4 is an elevation view of the tray, the pickup assembly and the burning mechanism according to the embodiment of the present invention;

FIG. 5 is an elevation view of the tray and the burning mechanism in the embodiment of the present invention;

fig. 6 is a bottom view of the lower member in the embodiment of the present invention;

fig. 7 is a sectional view of the hard air tube and the suction plate in the embodiment of the present invention.

In the figure: the label cutting machine comprises a base 1, a piece taking assembly 2, a first moving piece 21, a label taking piece 22, a first telescopic piece 221, a hard air pipe 222, a 223 suction plate, a 2231 first suction hole, a 23COB optical module taking piece 231, a second telescopic piece 231, a 232 gripper, a 3 label generating mechanism, a 31 label generating machine, a 32 label sending mechanism, a 321 label taking platform, a 322 vertical plate, a 323 first rotating roller, a 324 tensioning roller, a 325 second rotating roller, a 326 third rotating roller, a 327 fourth rotating roller, a 328 furling roller, a 329 first driving piece, a 33 pasting paper tape, a 34U-shaped label sensor, a 4 burning mechanism, a 41COB optical module supporting seat, a 411 limiting notch, a 42 burning conduction seat, a 421 conduction port, a 43 pressing piece, a 431 second suction hole, a 44 positioning seat, a 45 second driving piece, a 46 second driving piece, a 5 tray, a 6 collecting plate, a 61 placing groove and a 7COB moving piece.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the illustrated embodiments are provided to explain the present invention and not to limit the scope of the invention.

As shown in fig. 1-7, the present embodiment provides a COB optical module processing assembly, which includes a base 1, a pickup assembly 2, a label generating mechanism 3 and a burning mechanism 4, a tray 5 placing station is arranged on the base 1, the tray 5 placing station is used for placing trays 5 with upper ends provided with COB optical modules 7 in an array, the pickup assembly 2, the label generating mechanism 3 and the burning mechanism 4 are all arranged on the base 1, the picking assembly 2 is used for transferring the label generated by the label generating mechanism 3 to a COB optical module 7 attached to the tray 5, and the COB optical module 7 with the label is transferred to the burning mechanism 4 for burning, so that the label generating mechanism prints the label in real time, and the pickup assembly transfers the generated labels to the COB optical module one by one for pasting, and then the pickup assembly takes away the COB optical module pasted with the labels for burning.

In the above technical solution, the label generating mechanism 3 includes a label generating machine 31 and a label sending-out mechanism 32, the label sending-out mechanism 32 has a label taking-away table 321, the label generating machine 31 is configured to print label information on the surface of each sticker on a sticker tape 33, and pull the printed sticker tape 33 to bypass the label taking-away table 321 by the label sending-out mechanism 32, the picking-up assembly 2 is configured to pick up and stick the labels on the sticker tape 33 on the label taking-away table 321 on the COB optical module 7 in the tray 5, and is simple in structure, and can realize pipelined printing of the labels, and meanwhile, the picking-up assembly is convenient to pick up the labels from the label taking-away table.

In the above technical solution, the label feeding mechanism 32 further includes a vertical plate 322, a first rotating roller 323, a tensioning roller 324, a second rotating roller 325, a third rotating roller 326, a fourth rotating roller 327, a take-up roller 328, and a first driving member 329, wherein the vertical plate 322 is vertically disposed on the base 1 along the front-back direction, the first rotating roller 323, the second rotating roller 325, the third rotating roller 326, the fourth rotating roller 327, and the take-up roller 328 are horizontally disposed on the left side of the vertical plate 322 along the left-right direction and are rotatably connected to the vertical plate 322, two second rotating rollers 325 are disposed, the two second rotating rollers 325 are spaced between the first rotating roller 323 and the third rotating roller 326 along the front-back direction, the tensioning roller 324 is vertically disposed at the damping end of the damping member on the left side of the vertical plate 322, the tensioning roller 324 is parallel to the first rotating roller 323 and is disposed between the first rotating roller 323 and the second rotating roller 325, the label taking-off platform 321 is disposed on the vertical plate 322, and is located on a side of the third rotating roller 326 far away from the second rotating roller 325, said fourth roller 327 is positioned below said label receiving station 321, said take-up roller 328 is positioned below said two second rollers 325, and is in transmission connection with a first driving member 329 arranged on the right side of the upright plate 322, the pasting paper tape 33 is delivered out from the paper outlet of the label forming machine 31, sequentially bypasses the first rotating roller 323 and the tensioning roller 324, passes between the two second rotating rollers 325, and then bypasses the third rotating roller 326 to be supported on the label taking-off platform 321, the web of the labelstock 33 is turned around the label take-off table 321 by the fourth roll 327 and wound on the take-up roll 328, the paper base of the sticker tape is periodically rolled up by the roll-up roll, so that labels on the sticker tape move one by one to be placed on the label taking platform. Preferably, the label generating mechanism 3 may further include a U-shaped label sensor 34 disposed on the vertical plate 322, the U-shaped label sensor 34 is disposed between the label taking-off table and the third rotating roller, and the sticker tape passes through a groove of the U-shaped label sensor. The sticker paper tape is an existing sticker label paper roll (which is divided into two layers, the bottom layer is release paper, the surface layer is a sticker with a sticker on one side, one side of the sticker with the sticker is pasted on the smooth surface of the release paper, an easy-to-tear line is arranged between every two adjacent stickers, the sticker surface is a label after label information is printed, and the sticker surface is a strip-shaped release paper, namely a paper blank, which belongs to the prior art and is not described herein any more). The U-shaped label sensor 34, the first driving member 329 and the label generator 31 are electrically connected to the control module, at this time, the U-shaped label sensor is used for identifying the labels on the sticker tape 33 and transmitting the signals to the control module (the control module may be an arm controller, the control module may be disposed in a control box), and the speed of the first winding driving member for winding the paper blank is controlled by the control module, so that the labels on the sticker tape can stay on the label taking table one by one, and finally the labels are taken by the label taking member.

In the above technical scheme, get an assembly 2 and include that first moving member 21, label take away a 22 and COB optical module and take away a 23, first moving member 21 hangs through the support frame and establish the top of base 1, the label is taken away a 22 and is taken away a 23 with the COB optical module and all install the drive end of first moving member 21, first moving member 21 is used for driving the label is taken away a 22 and is taken away a 23 with the COB optical module and be in the three-dimensional movement is done to base 1 top, its simple structure, so drive by first moving member the piece is taken away to the label and a COB is taken away a removal and is removed in the space. The first moving member may be an XYZ three-axis electric sliding table (which belongs to the prior art and is not described herein).

In the above technical solution, the label removing member 22 includes a first expansion member 221, a hard air tube 222 and a suction plate 223, the first expansion member 221 is installed at the driving end of the first moving member 21, the expansion end of the first expansion member is downward or upward, the hard air tube 222 is vertically disposed, a first suction hole penetrating up and down is disposed in the middle of the suction plate 223, the lower end of the hard air tube 222 is fixedly connected to the upper end of the suction plate 223, the hard air tube 222 is penetrated through the upper end of the first suction hole, the upper end of the hard air tube 222 is communicated with an air inlet of a negative pressure device, the first expansion member 221 is used to drive the hard air tube 222 to drive the suction plate 223 to move up and down to remove a label or paste a label, so that the first expansion member drives the first expansion member to move to the upper side of the label removing platform, and then the first expansion member drives the hard air tube to move down to the suction plate to be attached to the label on the label removing platform, at the moment, the negative pressure equipment inhales air, so that the suction plate adsorbs a label, then the first telescopic piece moves upwards and is driven by the first moving piece, the hard suction pipe moves to a position right above any one COB optical module on the tray, then the first telescopic piece drives the hard air pipe to move downwards, the label on the suction plate is attached to the COB optical module, the label is attached to the COB optical module, the negative pressure equipment inhales air, and the suction plate is separated from the label. The first telescopic piece can adopt a telescopic cylinder.

In the above technical scheme COB optical module takes away piece 23 and includes second extensible member 231 and gripper 232, second extensible member 231 is vertical to be installed the drive end of first moving member 21, its flexible end is down, the gripper is installed the flexible end of second extensible member, just gripper 232's exposed core is down, gripper 232 is used for pressing from both sides and gets COB optical module 7, so by the drive of second extensible member the gripper is pressed from both sides from the tray and is got COB optical module and shift to the COB optical module to burn record mechanism. The second extensible member and the mechanical claw can be respectively arranged and correspondingly arranged, the two second extensible members are distributed at intervals in the left-right direction, and each mechanical claw is arranged at the extensible end corresponding to the second extensible member. The second extensible member can adopt a telescopic cylinder, and the mechanical claw can adopt a pneumatic clamping jaw.

In the above technical solution, the recording mechanism 4 includes a COB optical module supporting seat 41, a recording guiding seat 42, a pressing member 43, a positioning seat 44, a second driving member 45 (which may be a sliding table cylinder), and a second moving member 46, where the COB optical module supporting seat 41 includes a middle portion disposed at the upper end of the base 1 along the left-right direction, and a plurality of limiting notches 411 for placing the COB optical module 7 are uniformly and concavely disposed at intervals along the left-right direction on the front side or the rear side of the COB optical module supporting seat 41, the pressing member 43 is installed on the base 1 through the second moving member 46, the second moving member 46 is used to drive the pressing member 43 to press down on the COB optical module supporting seat 41, so as to press the plurality of COB optical modules 7 in the limiting notches 411 tightly in correspondence to the limiting notches 411, or drive the pressing member 43 to move up to release the COB optical modules 7 from being pressed, the recording conduction seat 42 is slidably mounted on the base 1 and located on one side of the COB optical module support seat 41 close to the side of the COB optical module support seat where the limiting notch 411 is located, the recording conduction seat 42 is provided with a plurality of conductive ports 421 electrically connected with a computer terminal at uniform intervals along the left-right direction, the plurality of conductive ports 421 are in one-to-one correspondence with the plurality of limiting notches 411 and are aligned in the front-to-back direction, the second driving member 45 is mounted on the base 1 and is in transmission connection with the recording conduction seat 42, the second driving member 45 is used for driving the recording conduction seat 42 to slide along the front-to-back direction to the plurality of conductive ports 421 to be in conduction with the COB optical modules 7 corresponding to the limiting notches 411 to record the COB optical modules or move away from the COB optical module support seat 41 to reset, so that the COB optical modules in the tray are taken away by the COB optical module taking-away member and then placed in the limiting notches, treat all to place COB optical module in a plurality of spacing breach after, by second moving member drive pushing down piece pressure this moment on a plurality of COB optical modules, drive a plurality of electrically conductive ports by the burn and turn on the seat and remove to be connected with a plurality of COB optical modules electricity again to burn the COB optical module. One end of the COB optical module is provided with a conductive terminal matched with the conductive port, and when the COB optical module is placed in the limiting notch, the conductive terminal of the COB optical module protrudes out of one side of the COB optical module supporting seat 41 close to the burning conduction seat 42.

In the above technical solution, the second moving member 46 may be a two-dimensional moving member or a three-dimensional moving member (XZ two-axis electric sliding table or XYZ two-axis electric sliding table, which belongs to the prior art and is not described herein), the lower moving member 43 is provided with a plurality of second suction holes 431 vertically penetrating at intervals in the left-right direction, the upper ends of the plurality of second suction holes 431 are communicated with the air inlet of the negative pressure device, the plurality of second suction holes 431 are in one-to-one correspondence with the plurality of limiting notches 411, the base 1 is further provided with a material receiving station, the material receiving station is used for placing a material receiving plate 6, the material receiving plate 6 is provided with a plurality of placing grooves 61, the plurality of placing grooves 61 are distributed at intervals in the left-right direction and in one-to-correspondence with the plurality of limiting notches 411, the second moving member 46 is used for driving the lower moving member 43 to move downward so as to compress the plurality of COB optical modules 7 in the corresponding limiting notches 411, and after a plurality of COB optical modules 7 are burnt, the plurality of COB optical modules 7 are sucked and transferred to the plurality of placing grooves 61 of the material receiving plate 6, so that after the burning of the COB optical modules is finished, the COB optical modules are sucked and transferred to the material receiving plate by the pressing piece.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a COB optical module processing assembly, its characterized in that includes base (1), gets an assembly (2), label generation mechanism (3) and burns record mechanism (4), it places the station to have tray (5) on base (1), tray (5) are placed the station and are used for placing upper end and are tray (5) that the COB optical module (7) were placed in the array, it all installs to get an assembly (2), label generation mechanism (3) and burn record mechanism (4) on base (1), it is used for with to get an assembly (2) the label that label generation mechanism (3) generated shifts to and pastes on COB optical module (7) on tray (5) to COB optical module (7) that will paste and have the label shift to burn record mechanism (4) and burn record and take notes mechanism (4) and carry out.

2. The COB optical module tooling assembly of claim 1, wherein the label generating mechanism (3) includes a label generating machine (31) and a label feeding mechanism (32), the label feeding mechanism (32) has a label taking-out table (321), the label generating machine (31) is configured to print label information on each sticker surface on a sticker tape (33), and to pull the printed sticker tape (33) around the label taking-out table (321) by the label feeding mechanism (32), and the picking assembly (2) is configured to pick up and attach the label lifted on the sticker tape (33) on the label taking-out table (321) on the COB optical module (7) in the tray (5).

3. The COB optical module processing assembly of claim 2, wherein the label feeding mechanism (32) further comprises a vertical plate (322), a first rotating roller (323), a tension roller (324), a second rotating roller (325), a third rotating roller (326), a fourth rotating roller (327), a take-up roller (328) and a first driving member (329), the vertical plate (322) is vertically arranged on the base (1) along the front-back direction, the first rotating roller (323), the second rotating roller (325), the third rotating roller (326), the fourth rotating roller (327) and the take-up roller (328) are horizontally arranged on the left side of the vertical plate (322) along the left-right direction and are rotatably connected with the vertical plate (322), the number of the second rotating rollers (325) is two, and the two second rotating rollers (325) are spaced between the first rotating roller (323) and the third rotating roller (326) along the front-back direction, the tensioning roller (324) is vertically arranged at a damping end of a damping piece on the left side of the vertical plate (322), the tensioning roller (324) is parallel to the first rotating roller (323) and is located between the first rotating roller (323) and the second rotating roller (325), the label taking platform (321) is arranged on the vertical plate (322) and is located on one side, far away from the second rotating roller (325), of the third rotating roller (326), the fourth rotating roller (327) is located below the label taking platform (321), the winding roller (328) is located below the second rotating roller (325) and is in transmission connection with a first driving piece (329) arranged on the right side of the vertical plate (322), the paper pasting tape (33) sequentially bypasses the first rotating roller (323), the tensioning roller (324) and bypasses the third rotating roller (326) after being sent out through a paper outlet of the label generator (31) to take away the label in order And on the table (321), the paper blank tape of the pasting paper tape (33) winds around the label taking-off table (321), is turned by the fourth rotating roller (327) and is wound on the winding roller (328).

4. The COB optical module processing assembly of claim 3, wherein the pickup assembly (2) comprises a first moving member (21), a tag pickup member (22) and a COB optical module pickup member (23), the first moving member (21) is suspended above the base (1) through a supporting frame, the tag pickup member (22) and the COB optical module pickup member (23) are both installed at a driving end of the first moving member (21), and the first moving member (21) is used for driving the tag pickup member (22) and the COB optical module pickup member (23) to move three-dimensionally above the base (1).

5. COB light module processing assembly according to claim 4, characterized in that the label take-away (22) comprises a first telescopic member (221), a rigid air tube (222) and a suction plate (223), the first telescopic member (221) is mounted on the driving end of the first moving member (21), the telescopic end of the air suction plate is downward or upward, the hard air pipe (222) is vertically arranged, the middle part of the suction plate (223) is provided with a first suction hole (2231) which is communicated up and down, the lower end of the hard air pipe (222) is fixedly connected with the upper end of the suction plate (223), the upper end of the first suction hole (2231) is communicated with the hard air pipe (222), the upper end of the hard air pipe (222) is communicated with an air inlet of negative pressure equipment, the first telescopic piece (221) is used for driving the hard air pipe (222) to drive the suction plate (223) to move up and down so as to take the label or paste the label.

6. The COB optical module processing assembly of claim 4, wherein the COB optical module removing part (23) comprises a second telescopic part (231) and a mechanical claw (232), the second telescopic part (231) is vertically installed at the driving end of the first moving part (21) with its telescopic end facing downwards, the mechanical claw is installed at the telescopic end of the second telescopic part with the clamping end of the mechanical claw (232) facing downwards, and the mechanical claw (232) is used for clamping the COB optical module (7).

7. The COB optical module processing assembly of claim 6, wherein the burning mechanism (4) comprises a COB optical module supporting seat (41), a burning conduction seat (42), a pressing member (43), a positioning seat (44), a second driving member (45) and a second moving member (46), the COB optical module supporting seat (41) comprises a middle portion arranged at the upper end of the base (1) along the left-right direction, a plurality of limiting notches (411) for placing the COB optical module (7) are uniformly arranged at intervals along the left-right direction on the front side or the rear side of the COB optical module supporting seat (41), the pressing member (43) is installed on the base (1) through the second moving member (46), the second moving member (46) is used for driving the pressing member (43) to press down on the COB optical module supporting seat (41) so as to press the COB optical module (7) in the limiting notches (411) into the corresponding limiting notches (411), or drive down part (43) rebound in order to with COB optical module (7) release to compress tightly, burn record and lead on seat (42) slidable mounting on base (1) to be located COB optical module supporting seat (41) is close to its one side that is equipped with spacing breach (411), burn record and lead on seat (42) along the even electrically conductive port (421) that are equipped with a plurality of and are connected with the computer terminal electricity of left right direction interval, a plurality of electrically conductive port (421) and a plurality of spacing breach (411) one-to-one aligns around and, second driving piece (45) are installed on base (1), and with burn record and lead on seat (42) transmission and be connected, second driving piece (45) are used for driving burn record and lead on seat (42) along the fore-and-aft direction slide at most electrically conductive port (421) and correspond COB optical module (7) in spacing breach (411) switch on in order to burn record it, or move away from the COB optical module supporting seat (41) to reset.

8. The COB optical module processing assembly of claim 7, wherein the pressing member (43) is provided with a plurality of second suction holes (431) which are vertically penetrated at intervals in the left-right direction, the upper ends of the second suction holes (431) are communicated with an air inlet of a negative pressure device, the second suction holes (431) are in one-to-one correspondence with the limiting notches (411), the base (1) is further provided with a material receiving station which is used for placing a material receiving plate (6), the material receiving plate (6) is provided with a plurality of placing grooves (61), the placing grooves (61) are distributed at intervals in the left-right direction and are in one-to-one correspondence with the limiting notches (411), and the second moving member (46) is used for driving the pressing member (43) to move downwards so as to press the COB optical modules (7) in the corresponding limiting notches (411), and after the plurality of COB optical modules (7) are burnt, the plurality of COB optical modules (7) are sucked and transferred into the plurality of placing grooves (61) of the material receiving plate (6).

9. The COB optical module tooling assembly of claim 4, wherein the first moving member (21) is a three-dimensional moving member.

10. The COB optical module tooling assembly of claim 7 or 8, wherein the second moving member (46) is a two-dimensional moving member or a three-dimensional moving member.

Images