CN220838448U - Stop tape code engraving machine - Google Patents

Abstract

The utility model discloses a termination adhesive tape code engraving machine, which relates to the field of new energy battery manufacturing, and comprises a hood and a detection assembly, wherein an organic table is arranged at the lower end of the hood, a laser assembly for engraving two-dimensional codes on a high-temperature adhesive tape is arranged at the upper side of the middle part of a processing frame, the detection assembly for carrying out identification treatment on abnormal two-dimensional codes is arranged at the lower end of the middle part of the processing frame, the detection assembly comprises an adjusting frame and a code reader, and the code reader is arranged at the side edge of the adjusting frame. This termination sticky tape code carving machine supports the installation through the alignment jig to the code reader, and the code reader carries out the code reading to the two-dimensional code that laser subassembly was carved out and detects to ensure that every two-dimensional code is readable, and the data is correct, unique, make in the production process to have unusual two-dimensional code to carry out the sign processing, avoid letting have unusual two-dimensional code to flow into in the production process, fine solution battery production in required production flow control and process retrospective problem.

Description

Stop tape code engraving machine

Technical Field

The utility model relates to the field of new energy battery manufacturing, in particular to a termination adhesive tape code engraving machine.

Background

In the field of new energy battery manufacturing, a specific two-dimensional code is required to be provided for production, manufacturing and tracing, a material which is high-temperature resistant, corrosion resistant, easy to paste and free of impurities is required to be used as a medium of a two-dimensional code medium, a specific high-temperature adhesive tape is adopted in the industry to process the two-dimensional code on the adhesive tape, and the code scanning and tracing process is convenient in the new energy battery manufacturing process.

However, in the existing production process, each two-dimensional code needs to be unique, the carving quality of each two-dimensional code needs to be guaranteed, and the process tracing and other problems in the production process can be affected when the two-dimensional code flows out repeatedly or without scanning the code.

Accordingly, in view of the above, studies and improvements have been made on the conventional structure and the conventional defects, and a termination tape encoder has been provided.

Disclosure of utility model

The present utility model is directed to a termination tape dispenser that solves the above-mentioned problems associated with the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a terminate sticky tape and carve a yard machine, includes aircraft bonnet and detection component, the lower extreme of aircraft bonnet is provided with the board, and the processing frame is installed to the upper end of board, the upside at processing frame middle part is provided with the laser component that engraves the two-dimensional code on high temperature sticky tape, and the rear end of processing frame both sides is provided with the subassembly of rectifying that is used for high temperature sticky tape position to rectify for carry out the sign to having unusual two-dimensional code and handle detection component sets up in the lower extreme at processing frame middle part, and detection component includes alignment jig and code reader, the code reader is installed to the side of alignment jig.

Further, the front end and the rear end of the hood are provided with hood doors, the left side of the hood is connected with a dust removal pumping pipe, and the end part of the dust removal pumping pipe is connected with a dust extractor.

Further, a conveying unreeling roller is arranged on the left side of the front end of the processing frame, and a reeling roller is arranged on the right side of the front end of the processing frame.

Further, the auxiliary roller is arranged on the surface of the processing frame, and the display screen is arranged on the top of the processing frame.

Further, the laser assembly comprises a lifting frame, a hand-operated wheel and a laser code etching machine, the hand-operated wheel is arranged at the top of the lifting frame, and the laser code etching machine is arranged on the side edge of the lifting frame.

Further, the surface mounting of processing frame middle part both sides has the traction assembly that is used for the high temperature sticky tape to carve a yard traction, and traction assembly is provided with two sets of, traction assembly includes traction frame and conveying roller, and the inboard lower extreme of traction frame installs the conveying roller.

Further, the traction assembly further comprises a mounting frame and traction wheels, the mounting frame is mounted on the side edge of the traction frame, and the traction wheels are mounted on the inner side of the mounting frame.

Further, the deviation rectifying assembly comprises a deviation rectifying roller and an electric push rod, and the electric push rod is installed at the rear end of the deviation rectifying roller.

The utility model provides a termination adhesive tape code engraving machine, which has the following beneficial effects:

1. According to the utility model, the code reader is supported and installed through the adjusting frame, and the code reader carries out code reading detection on the two-dimensional codes engraved by the laser component, so that each two-dimensional code is ensured to be readable, the data is correct and unique, the quality of the two-dimensional code is prevented from being abnormal, the abnormal two-dimensional code is marked and processed in the production process, the abnormal two-dimensional code is prevented from flowing into the production process, and the problems of production flow control and process tracing required in the battery production process are well solved.

2. According to the utility model, the laser lithography machine is used for carving the two-dimensional code on the high-temperature adhesive tape, the code carving efficiency is high, new impurity pollution is not brought to the adhesive tape, the unreeling roller and the reeling roller are used for conveying and reeling the high-temperature adhesive tape, the traction frame is used for conveying the high-temperature adhesive tape, the two groups of traction wheels enable the high-temperature adhesive tape at the lower end of the laser lithography machine to be in a horizontal state, the deviation rectifying component is controlled by a high-sensitivity and high-precision deviation rectifying control system in the machine, the deviation of the high-temperature adhesive tape is placed through high-precision adjustment of the deviation rectifying roller by the electric push rod, and the consistency of the engraved size, the consistent position and the consistent gap of each two-dimensional code are realized through the tension control system, the deviation rectifying component and the high-precision double traction component which are carried in the machine.

Drawings

FIG. 1 is a schematic view of the overall structure of the termination tape dispenser of the present utility model;

FIG. 2 is a schematic diagram of a front view of a termination tape dispenser according to the present utility model;

FIG. 3 is a schematic drawing of a traction assembly of the termination tape dispenser of the present utility model;

FIG. 4 is a schematic side sectional view of a termination tape dispenser according to the present utility model.

In the figure: 1. a hood; 2. a machine table; 3. a cover door; 4. a dust removal pumping pipe; 5. a dust extractor; 6. a processing rack; 7. an unreeling roller; 8. an auxiliary roller; 9. a display screen; 10. a laser assembly; 1001. a lifting frame; 1002. hand-operated wheels; 1003. a laser lithography machine; 11. a detection assembly; 1101. an adjusting frame; 1102. a code reader; 12. a wind-up roll; 13. a traction assembly; 1301. a traction frame; 1302. a conveying roller; 1303. a mounting frame; 1304. a traction wheel; 14. a deviation rectifying component; 1401. a correction roller; 1402. an electric push rod.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 and 2, the termination tape code engraving machine comprises a hood 1 and a detection assembly 11, wherein the lower end of the hood 1 is provided with a machine table 2, the code engraving machine is positioned in a dust-free processing environment to process, the influence of dust on the machine table 2 is avoided, the upper end of the machine table 2 is provided with a processing frame 6, the detection assembly 11 for carrying out identification processing on abnormal two-dimensional codes is arranged at the lower end of the middle part of the processing frame 6, the detection assembly 11 comprises an adjusting frame 1101 and a code reading machine 1102, the code reading machine 1102 is arranged at the side edge of the adjusting frame 1101, the code reading machine 1102 carries out code reading detection on the two-dimensional codes engraved by the laser assembly 10, thereby ensuring that each two-dimensional code is readable, the data is correct and unique, avoiding the abnormal quality of the two-dimensional codes, carrying out identification processing on the abnormal two-dimensional codes in the production process, avoiding the abnormal two-dimensional codes from flowing into the production process, the problem of required production flow control and process traceback in the battery production process is well solved, the front and back end of aircraft bonnet 1 is provided with cover door 3 and is used for the daily maintenance of board 2, cover door 3 and the left side of aircraft bonnet 1 are connected with dust removal pump tube 4, the end connection of dust removal pump tube 4 has dust extractor 5, dust extractor 5 work makes dust removal pump tube 4 have suction, play the effect of absorbing the dust removal to the dust in the board 2 course of working etc. the processing, the left side of processing frame 6 front end is installed and is carried unreeling roller 7, unreeling roller 7 and wind-up roller 12 are used for the effect of carrying the receipts of high temperature sticky tape, and wind-up roller 12 is installed on the right side of processing frame 6 front end, the surface mounting of processing frame 6 has auxiliary roller 8, and display screen 9 is installed at the top of processing frame 6, the upside in the middle part of processing frame 6 is provided with the laser subassembly 10 of carving the two-dimensional code on the high temperature sticky tape, laser subassembly 10 includes crane 1001, laser subassembly 10 includes, hand wheel 1002 and laser marking machine 1003, and the top of crane 1001 installs hand wheel 1002, and laser marking machine 1003 is installed to the side of crane 1001, and laser marking machine 1003 carves the two-dimensional code on the high temperature sticky tape, can not bring new impurity pollution to the sticky tape when the code-carving is efficient.

As shown in fig. 3, the surface mounting of the two sides of the middle part of the processing frame 6 is provided with two groups of traction components 13 for high-temperature adhesive tape code engraving traction, the tension control system, the deviation correcting component 14 and the high-precision double traction components 13 which are carried in the unreeling roller 7 and the reeling roller 12 and the machine platform 2 controlled by the high-precision system realize that the engraved size, the position and the gap of each two-dimensional code are consistent, the traction components 13 comprise a traction frame 1301 and a conveying roller 1302, the lower end of the inner side of the traction frame 1301 is provided with the conveying roller 1302, the traction frame 1301 is used for conveying the high-temperature adhesive tape, the traction components 13 also comprise a mounting frame 1303 and traction wheels 1304, the side edge of the traction frame 1301 is provided with the mounting frame 1303, the inner side of the mounting frame 1303 is provided with traction wheels 1304, and the two groups of traction wheels 1304 enable the high-temperature adhesive tape positioned at the lower end of the laser-lithography machine 1003 to be kept in a horizontal state.

As shown in fig. 4, the rear ends of two sides of the processing frame 6 are provided with deviation rectifying components 14 for rectifying the positions of the high-temperature adhesive tapes, the deviation rectifying components 14 are controlled by a high-sensitivity and high-precision deviation rectifying control system in the machine 2, the deviation rectifying components 14 comprise deviation rectifying rollers 1401 and electric push rods 1402, the electric push rods 1402 are mounted at the rear ends of the deviation rectifying rollers 1401, and the high-temperature adhesive tapes are obliquely arranged through high-precision adjustment of the electric push rods 1402 to the deviation rectifying rollers 1401.

In summary, the termination tape code engraving machine firstly installs the high temperature tape to be engraved outside the unreeling roller 7 according to the structure shown in fig. 1-4, pulls the high temperature tape out of the unreeling roller 7 and the auxiliary roller 8 and the traction component 13 to be sleeved outside the reeling roller 12, the machine 2 is provided with a stable tension control system, so that the unreeling roller 7 and the reeling roller 12 can be high-accurately folded and unfolded, during processing, the conveying roller 1302 conveys the high temperature tape to the traction wheel 1304, the two groups of traction wheels 1304 keep the high temperature tape at the lower end of the laser code engraving machine 1003 in a horizontal state, the laser code engraving machine 1003 works on the high temperature tape to engrave two-dimensional codes, the new impurity pollution to the tape is not brought at the same time of high code engraving efficiency, during code engraving, the deviation rectifying component 14 is controlled by a deviation rectifying control system with high sensitivity and high accuracy in the machine 2, the high-temperature adhesive tape deflection is placed through the high-precision adjustment of the correction roller 1401 by the electric push rod 1402, so that the end adhesive tape code engraving machine realizes the consistent size, consistent position and consistent gap of each two-dimensional code engraving by the tension control system, the correction component 14 and the high-precision double-traction component 13 carried in the unreeling roller 7 and the reeling roller 12 controlled by the high-precision system and the machine platform 2, and after the code engraving, the code reader 1102 reads and detects the two-dimensional code engraved by the laser component 10, ensures that each two-dimensional code is readable, the data is correct and unique, avoids the quality of the two-dimensional code from being abnormal, ensures the identification processing of the abnormal two-dimensional code in the production process, avoids the abnormal two-dimensional code from flowing into the production process, well solves the problems of control and process tracing of the production flow required in the battery production process, improves the stability of battery production, in terms of management, monitoring of the whole production process and tracing of various faults can be observed.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a terminate sticky tape code carving machine, includes aircraft bonnet (1) and detection component (11), a serial communication port, the lower extreme of aircraft bonnet (1) is provided with board (2), and processing frame (6) are installed to the upper end of board (2), the upside at processing frame (6) middle part is provided with laser component (10) at the high temperature sticky tape upper engraving two-dimensional code, and the rear end of processing frame (6) both sides is provided with deviation rectifying component (14) that are used for high temperature sticky tape position to rectify, is used for carrying out the sign processing to have unusual two-dimensional code detection component (11) set up in the lower extreme at processing frame (6) middle part, and detection component (11) are including alignment jig (1101) and code reader (1102), code reader (1102) are installed to the side of alignment jig (1101).

2. The termination tape dispenser according to claim 1, wherein the hood (1) is provided with a hood door (3) at the front and rear ends thereof, and a dust removal suction pipe (4) is connected to the left side of the hood (1), and a dust extractor (5) is connected to the end of the dust removal suction pipe (4).

3. The termination tape dispenser according to claim 1, wherein a feeding and unreeling roller (7) is mounted on the left side of the front end of the processing rack (6), and a reeling roller (12) is mounted on the right side of the front end of the processing rack (6).

4. Termination tape marker according to claim 1, characterized in that the surface of the processing rack (6) is provided with an auxiliary roller (8) and the top of the processing rack (6) is provided with a display screen (9).

5. The termination tape dispenser of claim 1, wherein the laser assembly (10) comprises a lift (1001), a hand wheel (1002) and a laser dispenser (1003), and the hand wheel (1002) is mounted on top of the lift (1001), and the laser dispenser (1003) is mounted on a side of the lift (1001).

6. The termination tape dispenser according to claim 1, wherein the surface of both sides of the middle of the processing frame (6) is provided with a traction assembly (13) for high-temperature tape dispenser traction, and the traction assembly (13) is provided with two groups, the traction assembly (13) comprises a traction frame (1301) and a conveying roller (1302), and the conveying roller (1302) is mounted at the lower end of the inner side of the traction frame (1301).

7. The termination tape dispenser of claim 6, wherein the traction assembly (13) further comprises a mounting frame (1303) and traction wheels (1304), the mounting frame (1303) is mounted to a side of the traction frame (1301), and the traction wheels (1304) are mounted to an inner side of the mounting frame (1303).

8. The termination tape dispenser of claim 1, wherein the deviation correcting assembly (14) comprises a deviation correcting roller (1401) and an electric push rod (1402), and the electric push rod (1402) is mounted at the rear end of the deviation correcting roller (1401).