CN218505533U - Belt-shaped material pattern mark processing device - Google Patents

Abstract

The utility model relates to a banded material processing technology field, concretely relates to banded material pattern mark processingequipment, including the leading-in subassembly of material, mark processing subassembly, and the material derives the subassembly, the leading-in subassembly of material is leading-in to mark processing subassembly with banded material, mark processing subassembly is used for processing the mark on the banded material, mark processing subassembly includes drive module, install in drive module's processing module, compress tightly the module, the direction module, and the dust absorption module, drive module is used for driving the processing module and removes, the processing module is used for processing the banding material and goes out the pattern mark, it is spacing at the direction module to compress tightly the module and be used for spacing with banded material. The utility model provides a current banded material processing degree of difficulty high, problem with high costs, inefficiency, adopted leading-in and derived structure cooperation processing subassembly to carry out high efficiency processing, machining efficiency is high.

Description

Belt-shaped material pattern mark processing device

Technical Field

The utility model relates to a banded material processing technology field especially relates to a banded material pattern mark processingequipment.

Background

In the past, patterns, scales or marks are processed on band-shaped materials such as a tape measure and the like by printing the scales by adopting a flexible printed board, and the mode has the defects of poor product precision, low percent of pass, long scale changing time, high auxiliary material cost, single equipment, high noise of production environment and the like. And also there is now to use ink jet printer to print the scale, but it is not perfect yet, the ink gun is when toward the tape measure inkjet, the scale is at the edge of banded material such as tape measure, therefore the ink gun must can spout the china ink outside the tape measure, otherwise unable spraying is complete, spout on banded material such as tape measure that outside banded material such as tape measure the printing requirement of ink probably falling on banded material such as tape measure among the other positions, lead to banded material such as tape measure can have the seal of a government organization in old china (old) marks beyond the printing requirement, additionally, in the inkjet process, banded material can continuously be carried, when printing ink is on banded material, printing ink can toward both sides sputter, also can lead to printing ink to fall in the outside, influence the banded material of other positions, not only can influence the quality of product, also can influence whole production efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a solve the current banded material processing degree of difficulty height, problem with high costs, inefficiency, adopted leading-in and derived structure cooperation processing subassembly to carry out high efficiency processing, banded material pattern mark processingequipment that machining efficiency is high.

The utility model adopts the technical proposal that: the utility model provides a banded material pattern mark processingequipment, includes the leading-in subassembly of material, mark processing subassembly, and material derivation subassembly, the leading-in subassembly of material is leading-in to mark processing subassembly with banded material, mark processing subassembly is used for processing the mark on the banded material, the banded material derivation subassembly after will processing is derived, mark processing subassembly includes drive module, installs in drive module's processing module, compresses tightly the module, direction module and dust absorption module, drive module is used for driving processing module and removes, processing module is used for processing the pattern mark to the banded material, compress tightly the module and be used for spacing at the direction module with banded material, the direction module is used for banded material direction transmission, the dust absorption module is used for adsorbing the dust that produces in the course of working.

The material guiding assembly comprises a guide wheel set and a guiding roller, the guide wheel set comprises a feeding guide wheel, a fixed feeding guide wheel and a movable feeding guide wheel, the fixed feeding guide wheel is located on one side of the feeding guide wheel, the movable feeding guide wheel is located on the other side of the feeding guide wheel, and the outer diameter of the fixed feeding guide wheel is tangent to the outer diameter of the feeding guide wheel.

The scheme is further improved in that the movable feeding guide wheel is connected with a movable support, the movable support is connected with a driving element, and the driving element drives the movable support to move and drives the movable feeding guide wheel to be tangent to and separate from the outer diameter of the feeding guide wheel.

The further improvement of the scheme is that the guide wheel set is provided with a feeding driving motor, and the feeding driving motor is connected with the feeding guide wheel and used for driving the feeding guide wheel to rotate so as to drive the belt-shaped material to be conveyed.

The further improvement of the scheme is that the driving module comprises a Y-axis module and a Z-axis module arranged on the Y-axis module, the Y-axis module drives the Z-axis module to move, and the Z-axis module is used for driving the machining module to move.

The further improvement to above-mentioned scheme does, the processing module includes fixed frame and installs the laser generator at fixed frame, fixed frame installs at the drive module, laser generator orientation compresses tightly the module, it is equipped with the station to compress tightly the module.

The further improvement of the scheme is that the pressing module comprises a pressing plate, the pressing plate extends towards the guide module, and the pressing plate is connected to the driving module.

The further improvement of the scheme is that the guide module comprises a guide support and a conveying guide roller arranged on the guide support.

The further improvement of the scheme is that the dust collection module comprises a dust collection cover and a dust collection pipe connected to the dust collection cover, and the dust collection cover is arranged on the guide module and the pressing plate.

In a further improvement of the above scheme, the material guiding-out assembly comprises at least one group of guiding-out rollers.

The utility model has the advantages that:

compare current banded thing processing, the utility model is used for banded material pattern and mark are processed, and the leading-in mark processing subassembly of banded material is processed through the leading-in subassembly of material, exports the subassembly through the material after accomplishing the processing and exports the material. The problem of current banded material processing degree of difficulty high, with high costs, inefficiency is solved, it carries out high efficiency processing to have adopted leading-in and derive structure cooperation processing subassembly, and machining efficiency is high. The device comprises a material guiding component, a marking processing component and a material guiding component, wherein the material guiding component guides strip-shaped materials into the marking processing component, the marking processing component is used for marking the strip-shaped materials, the material guiding component guides the processed strip-shaped materials out, the marking processing component comprises a driving module, a processing module, a pressing module, a guiding module and a dust collection module, the processing module is installed on the driving module, the driving module is used for driving the processing module to move, the processing module is used for processing the strip-shaped materials to form pattern marks, the pressing module is used for limiting the strip-shaped materials at the guiding module, the guiding module is used for guiding and transmitting the strip-shaped materials, and the dust collection module is used for adsorbing dust generated in the processing process. In the course of working, add the module through the drive module drive and be used for processing the band-shaped material, compress tightly the material through compressing tightly the module in the course of working, lead through the guide module in the course of working and carry, still have the dust absorption module simultaneously and adsorb the dust that produces in the course of working, guarantee operational environment.

Drawings

FIG. 1 is a schematic perspective view of the device for marking and processing a belt-shaped material pattern of the present invention;

FIG. 2 is a schematic front view of the belt pattern marking apparatus of FIG. 1;

FIG. 3 is a schematic structural view of a guide wheel set of the belt-shaped material pattern marking apparatus shown in FIG. 2;

FIG. 4 is a schematic view of a marking module of the strip pattern marking apparatus of FIG. 1;

fig. 5 is a schematic view of the marking module of the belt pattern marking apparatus of fig. 1 from another perspective.

Description of reference numerals: the device comprises a material guiding component 1, a guide wheel set 11, a feeding guide wheel 111, a fixed feeding guide wheel 112, a movable feeding guide wheel 113, a movable support 113a, a driving element 113b, a feeding driving motor 114, a guiding roller 12, a marking processing component 2, a driving module 21, a Y-axis module 211, a Z-axis module 212, a processing module 22, a fixed frame 221, a laser generator 222, a pressing module 23, a pressing plate 231, a processing position 232, a guiding module 24, a guiding support 241, a conveying guide roller 242, a dust collection module 25, a dust collection cover 251, a dust collection pipe 252, a material guiding component 3 and a guiding roller 31.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 5, a strip material pattern marking device includes a material introducing component 1, a marking processing component 2, and a material guiding component 3, wherein the material introducing component 1 introduces a strip material into the marking processing component 2, the marking processing component 2 is used for processing a mark on the strip material, the material guiding component 3 guides the processed strip material out, the marking processing component 2 includes a driving module 21, a processing module 22 installed on the driving module 21, a pressing module 23, a guiding module 24, and a dust collection module 25, the driving module 21 is used for driving the processing module 22 to move, the processing module 22 is used for processing a pattern mark on the strip material, the pressing module 23 is used for limiting the strip material at the guiding module 24, the guiding module 24 is used for guiding and transmitting the strip material, and the dust collection module 25 is used for absorbing dust generated in the processing process.

The material leading-in subassembly 1 includes guide pulley group 11, and leading-in roller 12, guide pulley group 11 includes pan feeding leading wheel 111, be located the fixed pan feeding guide pulley 112 of pan feeding leading wheel 111 one side, and be located the activity pan feeding guide pulley 113 of pan feeding leading wheel 111 opposite side, the external diameter of fixed pan feeding guide pulley 112 is tangent with the external diameter of pan feeding leading wheel 111, the material that unreels banded material through guide pulley group 11 leads to, leading-in to leading-in roller 12, leading-in behind the leading-in roller 12 is processed to mark processing subassembly 2, the guide is stable, and the guide in-process, cooperate the direction through fixed pan feeding guide pulley 112 of pan feeding leading wheel 111 cooperation and activity pan feeding guide pulley 113 and compress tightly, guarantee material flatness.

The movable feeding guide wheel 113 is connected with a movable support 113a, the movable support 113a is connected with a driving element 113b, the driving element 113b drives the movable support 113a to move, and drives the movable feeding guide wheel 113 to be tangent to and separate from the outer diameter of the feeding guide wheel 111.

The pan feeding driving motor 114 is installed to guide pulley group 11, and pan feeding driving motor 114 is connected with pan feeding leading wheel 111 and is used for driving the rotation of pan feeding leading wheel 111 and is used for driving the transmission of banded material, in this embodiment, drives the rotation of pan feeding leading wheel 111 through pan feeding driving motor 114, and then can drive the transmission of banded material.

The driving module 21 includes a Y-axis module 211 and a Z-axis module 212 installed on the Y-axis module 211, the Y-axis module 211 drives the Z-axis module 212 to move, and the Z-axis module 212 is used for driving the processing module 22 to move.

Processing module 22 includes fixed frame 221, and installs the laser generator 222 at fixed frame 221, and fixed frame 221 installs at drive module 21, and laser generator 222 compresses tightly module 23 towards, compresses tightly module 23 and is equipped with processing position 232, is used for laser generator 222 fixed mounting through fixed frame 221 for the support of structure, and adopts laser generator 222 to be used for processing convenient processing to banded material.

The pressing module 23 comprises a pressing plate 231, the pressing plate 231 extends towards the guide module 24, the pressing plate 231 is connected to the driving module 21, and the pressing plate 231 is used for pressing the strip-shaped material, so that the material is conveniently processed.

The guide module 24 comprises a guide support 241 and a conveying guide roller 242 arranged on the guide support 241, and the stability of material guiding and the machining precision are guaranteed under the matching of the guide support 241 and the conveying guide roller 242.

Dust absorption module 25 includes suction hood 251, and connects in suction hood 251's dust absorption pipe 252, and suction hood 251 covers and locates direction module 24 and pressure strip 231, collects the dust through suction hood 251, takes out the dust through dust absorption pipe 252 after collecting, prevents to cause the pollution to operational environment.

The material guiding-out component 3 comprises at least one group of guiding-out rollers 31, and the strip-shaped material is guided out through the guiding-out rollers 31.

The utility model is used for banded material pattern and mark are processed, and the leading-in subassembly 1 of material is with banded material leading-in to mark processing subassembly 2 and process, exports the material through material derivation subassembly 3 after accomplishing the processing and receives. The problem of current banded material processing degree of difficulty high, with high costs, inefficiency is solved, it carries out high efficiency processing to have adopted leading-in and derive structure cooperation processing subassembly, and machining efficiency is high. Specifically, the material leading-in component 1 is provided, the mark processing component 2, and the material leading-out component 3, the material leading-in component 1 leads in the banded material to the mark processing component 2, the mark processing component 2 is used for processing a mark on the banded material, the material leading-out component 3 leads out the banded material after processing, the mark processing component 2 comprises a driving module 21, a processing module 22 arranged on the driving module 21, a pressing module 23, a guiding module 24 and a dust collection module 25, the driving module 21 is used for driving the processing module 22 to move, the processing module 22 is used for processing a pattern mark on the banded material, the pressing module 23 is used for limiting the banded material at the guiding module 24, the guiding module 24 is used for guiding and transmitting the banded material, and the dust collection module 25 is used for adsorbing dust generated in the processing process. In the course of working, add the module through the drive module 21 drive and be used for processing banded material, compress tightly the material through compressing tightly module 23 in the course of working, lead the transport through direction module 24 in the course of working, still have dust absorption module 25 simultaneously and adsorb the dust that produces in the course of working, guarantee operational environment.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a banded material pattern mark processingequipment which characterized in that: the belt-shaped material guiding and conveying device comprises a material guiding assembly, a marking processing assembly and a material guiding assembly, wherein the material guiding assembly guides a belt-shaped material into the marking processing assembly, the marking processing assembly is used for processing a mark on the belt-shaped material, the material guiding assembly guides the processed belt-shaped material out, the marking processing assembly comprises a driving module, a processing module arranged on the driving module, a pressing module, a guiding module and a dust collection module, the driving module is used for driving the processing module to move, the processing module is used for processing a pattern mark on the belt-shaped material, the pressing module is used for limiting the belt-shaped material at the guiding module, the guiding module is used for guiding and conveying the belt-shaped material, and the dust collection module is used for adsorbing dust generated in the processing process.

2. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the material leading-in assembly comprises a guide wheel set and a leading-in roller, the guide wheel set comprises a feeding guide wheel, a fixed feeding guide wheel and a movable feeding guide wheel, the fixed feeding guide wheel is located on one side of the feeding guide wheel, the movable feeding guide wheel is located on the other side of the feeding guide wheel, and the outer diameter of the fixed feeding guide wheel is tangent to the outer diameter of the feeding guide wheel.

3. The pattern marking apparatus for belt-like materials according to claim 2, wherein: the movable feeding guide wheel is connected with a movable support, the movable support is connected with a driving element, and the driving element drives the movable support to move and drives the movable feeding guide wheel to be tangent to and separate from the outer diameter of the feeding guide wheel.

4. The belt pattern marking apparatus as claimed in claim 3, wherein: and the guide wheel group is provided with a feeding driving motor, and the feeding driving motor is connected with the feeding guide wheel and is used for driving the feeding guide wheel to rotate so as to drive the transmission of the strip-shaped materials.

5. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the driving module comprises a Y-axis module and a Z-axis module arranged on the Y-axis module, the Y-axis module drives the Z-axis module to move, and the Z-axis module is used for driving the machining module to move.

6. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the processing module includes fixed frame and installs the laser generator at fixed frame, fixed frame installs at the drive module, laser generator orientation compresses tightly the module, it is equipped with the processing station to compress tightly the module.

7. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the pressing module comprises a pressing plate, the pressing plate extends towards the guide module, and the pressing plate is connected to the driving module.

8. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the guide module comprises a guide support and a conveying guide roller arranged on the guide support.

9. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the dust collection module comprises a dust collection cover and a dust collection pipe connected to the dust collection cover, and the dust collection cover is arranged on the guide module and the pressing plate.

10. The pattern marking apparatus for belt-like materials according to claim 1, wherein: the material guiding-out component comprises at least one group of guiding-out rollers.

Images