CN210997098U - Coil stock class product laser marking vacuum adsorption adjustable device - Google Patents

Abstract

The utility model relates to a coil stock class product laser marking vacuum adsorption adjustable device, include: the device comprises a fixed vertical plate, a limiting guide plate, a support rib plate, a driven feeding roller shaft group, a driving feeding roller shaft group and a vacuum adsorption system; the limiting guide plate is arranged on the fixed vertical plate, and the support rib plate is arranged on the fixed vertical plate and is positioned below the limiting guide plate; the vacuum adsorption system is arranged right above the support rib plate; the driven feeding roller shaft group is arranged on the fixed vertical plate, the driving feeding roller shaft group is arranged on the fixed vertical plate and is located behind the driven feeding roller shaft group, and the driven feeding roller shaft group and the driving feeding roller shaft group are respectively arranged on the left side and the right side of the limiting guide plate and the vacuum adsorption system. The embodiment of the utility model provides a pair of coil stock class product laser marking vacuum adsorption adjustable device carries out coil stock vacuum adsorption work in real time, is favorable to laser marking accurate reliable, and the product percent of pass is high.

Description

Coil stock class product laser marking vacuum adsorption adjustable device

Technical Field

The utility model discloses a technical scheme relates to laser marking's application, especially relates to a coil stock class product laser marking vacuum adsorption adjustable device.

Background

Along with the development of modern industry, flexible coil stock class product uses the laser marking device to beat the mark more and more to receive attention to the laser marking effect of coil stock class product, and at the laser marking in-process simultaneously, the adsorption plate platform is the key technology, on general adsorption plate platform, adopts the rubberizing tape or adopts many gas circuit control of vacuum adsorption, and there are some problems in the laser marking course of operation of this kind of structure:

1. in traditional laser marking device working process, the product adsorption platform device can't carry out real-time adsorption area according to the actual width characteristic of product and adjust, thereby can't adapt to the product of different grade type and carry out effectual adsorption work, causes the condition such as can't compatible or vacuum adsorption board gas leakage and broken vacuum.

2. In traditional laser marking device working process, because the self stress problem of coil stock product, appear adsorbing the problem that treats that laser marking product laminating tension is not enough on the platform, receive platform wearing and tearing easily, cause the product percent of pass to descend.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a coil stock class product laser marking vacuum adsorption adjustable device, can solve current laser marking vacuum adsorption effect poor lead to the product to beat the problem that the mark qualification rate is low and the product is easily destroyed.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a coil stock class product laser marking vacuum adsorption adjustable device, includes: the device comprises a fixed vertical plate, a limiting guide plate, a support rib plate, a driven feeding roller shaft group, a driving feeding roller shaft group and a vacuum adsorption system;

the limiting guide plate is arranged on the fixed vertical plate, and the support rib plate is arranged on the fixed vertical plate and is positioned below the limiting guide plate; the vacuum adsorption system is arranged right above the support rib plate; the driven feeding roller shaft group is arranged on the fixed vertical plate, the driving feeding roller shaft group is arranged on the fixed vertical plate and is located behind the driven feeding roller shaft group, and the driven feeding roller shaft group and the driving feeding roller shaft group are respectively arranged on the left side and the right side of the limiting guide plate and the vacuum adsorption system.

Wherein, fixed riser surface is equipped with a plurality of installation hole sites for fix whole laser marking device and vacuum adsorption device's position.

The limiting guide plate is arranged on the fixed vertical plate, and the supporting rib plate is arranged on the fixed vertical plate and located below the limiting guide plate and used for supporting the vacuum adsorption system.

Wherein, driven feeding roller group and initiative feeding roller group set up respectively on fixed riser for drive coil stock carry out stable conveying and effectual laser marking work.

The vacuum adsorption system is arranged right above the support rib plate and is positioned between the driven feeding roller shaft group and the driving feeding roller shaft group, so that vacuum adsorption work is carried out on a product to be subjected to laser marking.

Wherein, the vacuum adsorption system includes the adjustable clamp plate of vacuum adsorption, prevents scraping fillet, vacuum bleed interface, vacuum adsorption plate.

One end of the vacuum air suction interface is connected with the fixed vertical plate, and the other end of the vacuum air suction interface is connected with the vacuum adsorption plate and is arranged right below the limiting guide plate; the vacuum adsorption adjustable pressure plate is arranged right above the vacuum adsorption plate; the scraping-proof fillets are arranged at the left end and the right end of the vacuum adsorption plate.

One end of the vacuum air extraction interface is connected with the vacuum adsorption plate, and the vacuum air extraction interface drives the vacuum adsorption plate to perform vacuum adsorption work; prevent scraping the fillet setting both ends about vacuum adsorption plate, prevent scraping the fillet and can drive and raise the position of treating the laser marking product on the vacuum adsorption plate to the protection is treated the laser marking product and is not destroyed by wearing and tearing.

The vacuum adsorption plate comprises a vacuum cavity adsorption hole, a leveling screw hole, an adjustable adsorption pressing plate locking hole, a rear avoiding standby screw hole and a locking screw hole.

Wherein, a plurality of vacuum cavity adsorption holes are formed on the vacuum adsorption plate in an array manner; the leveling screw holes are arranged at four top corners of the vacuum adsorption plate and are respectively close to two short edges of the vacuum adsorption plate; the locking screw hole is arranged below the leveling screw hole in the horizontal position; the adjustable adsorption pressing plate locking holes are arranged on the vacuum adsorption plate and are distributed in two rows relative to the short edges vertical to the two ends of the vacuum adsorption plate; the back avoiding spare screw hole is arranged on the vacuum adsorption plate and is positioned at one end of the adjustable adsorption pressing plate locking hole far away from the vacuum cavity adsorption hole.

Wherein, adjustable absorption clamp plate locking hole sets up on the vacuum adsorption board, drives the vacuum adsorption system and carries out coil stock absorption width adjustment, thereby carries out width adjustment to the coil stock of different grade type in real time and reaches best adsorption effect.

The leveling screw holes and the locking screw holes are arranged at four top corners of the vacuum adsorption plate and drive the vacuum adsorption plate to perform height adjustment, so that the coil product to be subjected to laser marking is not easily damaged by abrasion. Compared with the prior art, the beneficial effects of the utility model are that:

1. through driven feeding roller group and initiative feeding roller group conveying coil stock, the laser marking's coil stock product is treated in the realization of vacuum adsorption system and is carried out vacuum adsorption, simultaneously through adopting the compatible widest coil stock of vacuum adsorption plate, can adapt to the width change of coil stock product in a flexible way, easy operation, vacuum effect is reliable and stable.

2. Through the leveling screw hole and the locking screw hole that the last vacuum adsorption plate of vacuum adsorption system set up, drive the vacuum adsorption plate that adsorbs the coil stock product and carry out the height and adjust, the protection treats that laser marking coil stock product avoids receiving the device platform wearing and tearing because of the not enough problem of laminating tension that self stress appears to improve the laser marking qualification rate of product.

Drawings

In order to illustrate the solution of the present application more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for a person skilled in the art to derive other drawings from these drawings without inventive effort.

Fig. 1 is a schematic structural view of a roll material product laser marking vacuum adsorption adjustable device in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a vacuum adsorption system in the embodiment of FIG. 1;

FIG. 3 is a schematic structural diagram of the vacuum absorption plate in the embodiment of FIG. 2;

reference numerals: 1-fixing a vertical plate; 2-limiting guide plates; 3-a support rib plate; 4-driven feeding roller shaft group; 5-a driving feeding roller shaft group; 6-vacuum adsorption system; 61-vacuum adsorption of an adjustable pressure plate; 62-anti-scraping fillets; 63-vacuum pumping interface; 64-vacuum adsorption plate; 641-vacuum chamber adsorption holes; 642-leveling screw holes; 643-adjustable suction pressure plate locking hole; 644-rear avoiding spare screw holes; 645 — locking screw holes.

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. For a person skilled in the art, without inventive effort, further figures can be obtained from these figures.

As shown in fig. 1, the utility model provides a first technical scheme: the utility model provides a coil stock class product laser marking vacuum adsorption adjustable device, includes: the device comprises a fixed vertical plate (1), a limiting guide plate (2), a support rib plate (3), a driven feeding roller shaft group (4), a driving feeding roller shaft group (5) and a vacuum adsorption system (6); the limiting guide plate (2) is arranged above the fixed vertical plate (1), and the support rib plate (3) is arranged on the fixed vertical plate (1) and is positioned below the limiting guide plate (2); the vacuum adsorption system (6) is arranged right above the support rib plate (3); the driven feeding roller shaft group (4) is arranged on the fixed vertical plate (1), the driving feeding roller shaft group (5) is arranged on the fixed vertical plate (1) and is simultaneously positioned behind the driven feeding roller shaft group (4), and the driven feeding roller shaft group (4) and the driving feeding roller shaft group (5) are respectively arranged on the left side and the right side of the limiting guide plate (2) and the vacuum adsorption system (6).

The surface of the fixed vertical plate (1) is provided with a plurality of mounting hole positions for fixing the positions of the whole laser marking device and the vacuum adsorption device. The limiting guide plate (2) is arranged on the fixed vertical plate (1), and the supporting rib plate (3) is arranged on the fixed vertical plate (1) and is positioned below the limiting guide plate (2); the driven feeding roller group (4) and the driving feeding roller group (5) are respectively arranged on the fixed vertical plate (1) to drive the coil stock to carry out conveying and laser marking; the vacuum adsorption system (6) is arranged right above the support rib plate (3) and is positioned between the driven feeding roller group (4) and the driving feeding roller group (5) simultaneously, so that the laser marking product is subjected to vacuum adsorption.

As shown in fig. 2, the utility model provides a second technical scheme: the vacuum adsorption system (6) comprises a vacuum adsorption adjustable pressure plate (61), a scratch-resistant fillet (62), a vacuum air extraction interface (63) and a vacuum adsorption plate (64); one end of the vacuum air suction port (63) is connected with the fixed vertical plate (1), and the other end of the vacuum air suction port is connected with the vacuum adsorption plate (64) and is arranged right below the limiting guide plate (2); the vacuum adsorption adjustable pressure plate (61) is arranged right above the vacuum adsorption plate (64); the scraping-proof fillets (62) are arranged at the left end and the right end of the vacuum adsorption plate (64).

One end of the vacuum air suction interface (63) is connected with the vacuum adsorption plate (64), and the vacuum air suction interface (63) drives the vacuum adsorption plate (64) to perform vacuum adsorption work; the scraping-preventing fillets (62) are arranged at the left end and the right end of the vacuum adsorption plate (64), and the scraping-preventing fillets (62) can drive and lift the position of a product to be laser-marked on the vacuum adsorption plate (64);

as shown in fig. 3, the utility model provides a third technical solution: the vacuum adsorption plate (64) comprises a vacuum cavity adsorption hole (641), a leveling screw hole (642), an adjustable adsorption pressure plate locking hole (643), a rear avoiding spare screw hole (644) and a locking screw hole (645); the vacuum cavity adsorption holes (641) are arranged on the vacuum adsorption plate in a matrix form; the leveling screw holes (642) are arranged at four top corners of the vacuum adsorption plate (64) and are respectively close to two short sides of the vacuum adsorption plate; the locking screw hole (645) is arranged below the leveling screw hole (642) in the horizontal position; the adjustable adsorption pressing plate locking holes (643) are arranged on the vacuum adsorption plate (64) and are distributed in two rows relative to the short sides of the two ends of the vacuum adsorption plate (64); the back avoiding spare screw hole (644) is arranged on the vacuum adsorption plate (64) and is positioned at one end of the adjustable adsorption pressure plate locking hole (643) far away from the vacuum cavity adsorption hole (641).

The adjustable adsorption pressing plate locking hole (643) is arranged on the vacuum adsorption plate (64) and drives the vacuum adsorption system (6) to adjust the adsorption width; the leveling screw holes (642) and the locking screw holes (645) are arranged at four top corners of the vacuum adsorption plate (64) to drive the vacuum adsorption plate (64) to adjust the height.

The working process is as follows: during operation, carry out laser marking conveying work with coil stock product to driven feeding roller group (4) and initiative feeding roller group (5), simultaneously, spacing deflector (2) set up on fixed riser (1), both sides about support floor (3) set up under spacing deflector (2), spacing deflector (2) and support floor (3) set up in the centre of driven feeding roller group (4) and initiative feeding roller group (5) simultaneously.

The driven feeding roller group (4) is driven to the driving feeding roller group (5), and the fixed vacuum adsorption system (6) is arranged right above the support rib plate (3) to perform vacuum adsorption work on coil products to be subjected to laser marking.

Vacuum adsorption plate (64) become the vacuum through vacuum pumping interface (63) extraction, for flat coil stock product provides continuous vacuum suction, after the coil stock product of changing different width, through loosening adjustable adsorption clamp plate locking hole (643), the compatible absorption width of adjustment vacuum adsorption plate (64), can lock the use after the regulation is accomplished, because adjustable adsorption clamp plate locking hole (643) self width is incompatible problem, reserve on vacuum adsorption plate (64) and keep away a position spare screw hole (644) after, can reserve sufficient vacuum adsorption width in order to guarantee adjustable adsorption clamp plate locking hole (643).

After the adsorption effect with the optimal width is achieved, the vacuum adsorption plate (64) is adjusted to be parallel to the laser marking reference through the four leveling screw holes (642), so that the vacuum adsorption effect of the laser marking coil stock is further ensured; through closing four leveling screw holes (642) are integrally and synchronously screwed, the height adjustment of a vacuum adsorption plate (64) can be further realized, the material pre-tightening tension of a marking station is improved, a coil material product to be marked by laser can be more smoothly attached to the upper surface of the vacuum adsorption plate (64), the position height of the adsorption plate can be raised by the left and right sides of the vacuum adsorption plate (64) through the scraping-preventing fillets (62), so that the scraping abrasion of the product is prevented, and the laser marking yield of the product is improved.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. The utility model provides a coil stock class product laser marking vacuum adsorption adjustable device which characterized in that includes: the device comprises a fixed vertical plate (1), a limiting guide plate (2), a support rib plate (3), a driven feeding roller shaft group (4), a driving feeding roller shaft group (5) and a vacuum adsorption system (6);

the limiting guide plate (2) is arranged above the fixed vertical plate (1), and the support rib plate (3) is arranged above the fixed vertical plate (1) and is positioned below the limiting guide plate (2); the vacuum adsorption system (6) is arranged right above the support rib plate (3); the driven feeding roller shaft group (4) is arranged on the fixed vertical plate (1), the driving feeding roller shaft group (5) is arranged on the fixed vertical plate (1) and is simultaneously positioned behind the driven feeding roller shaft group (4), and the driven feeding roller shaft group (4) and the driving feeding roller shaft group (5) are respectively arranged on the left side and the right side of the limiting guide plate (2) and the vacuum adsorption system (6).

2. The adjustable laser marking vacuum adsorption device for coil products according to claim 1, characterized in that: the surface of the fixed vertical plate (1) is provided with a plurality of mounting hole positions for fixing the positions of the whole laser marking device and the vacuum adsorption device.

3. The adjustable laser marking vacuum adsorption device for coil products according to claim 1, characterized in that: the driven feeding roller group (4) and the driving feeding roller group (5) are respectively arranged on the fixed vertical plate (1) and are used for driving coil materials to convey and marking with laser.

4. The adjustable laser marking vacuum adsorption device for coil products according to claim 1, characterized in that: the vacuum adsorption system (6) is arranged right above the support rib plate (3) and is positioned between the driven feeding roller group (4) and the driving feeding roller group (5) and used for carrying out vacuum adsorption on a product to be subjected to laser marking.

5. The adjustable laser marking vacuum adsorption device for coil products according to claim 1, characterized in that: the vacuum adsorption system (6) comprises a vacuum adsorption adjustable pressure plate (61), a scratch-resistant fillet (62), a vacuum air extraction interface (63) and a vacuum adsorption plate (64);

one end of the vacuum air suction interface (63) is connected with the fixed vertical plate (1), the other end of the vacuum air suction interface is connected with the vacuum adsorption plate (64), and the vacuum air suction interface (63) is arranged right below the limiting guide plate (2); the vacuum adsorption adjustable pressure plate (61) is arranged right above the vacuum adsorption plate (64); the scraping-proof fillets (62) are arranged at the left end and the right end of the vacuum adsorption plate (64).

6. The adjustable laser marking vacuum adsorption device for coil products according to claim 5, characterized in that: one end of the vacuum air suction interface (63) is connected with the vacuum adsorption plate (64), and the vacuum air suction interface (63) drives the vacuum adsorption plate (64) to perform vacuum adsorption work; the scratch-resistant fillet (62) is used for driving and lifting the position of a product to be laser-marked on the vacuum adsorption plate (64).

7. The adjustable laser marking vacuum adsorption device for coil products according to claim 5, characterized in that: the vacuum adsorption plate (64) comprises a vacuum cavity adsorption hole (641), a leveling screw hole (642), an adjustable adsorption pressure plate locking hole (643), a rear avoiding spare screw hole (644) and a locking screw hole (645),

wherein, a plurality of vacuum cavity adsorption holes (641) are formed on the vacuum adsorption plate (64) in an array manner; the leveling screw holes (642) are arranged at four top corners of the vacuum adsorption plate (64) and are respectively close to two short sides of the vacuum adsorption plate; the locking screw hole (645) is arranged below the leveling screw hole (642) in the horizontal position; the adjustable adsorption pressing plate locking holes (643) are arranged on the vacuum adsorption plate (64) and are distributed in two rows relative to the short sides of the two ends of the vacuum adsorption plate (64); the back avoiding spare screw hole (644) is arranged on the vacuum adsorption plate (64) and is positioned at one end of the adjustable adsorption pressure plate locking hole (643) far away from the vacuum cavity adsorption hole (641).

8. The adjustable laser marking vacuum adsorption device for coil products according to claim 7, characterized in that: the adjustable adsorption pressing plate locking hole (643) is arranged on the vacuum adsorption plate (64) and used for driving the vacuum adsorption system (6) to adjust the adsorption width.

9. The adjustable laser marking vacuum adsorption device for coil products according to claim 7, characterized in that: the leveling screw holes (642) and the locking screw holes (645) are arranged at four top corners of the vacuum adsorption plate (64) and are used for driving the vacuum adsorption plate (64) to adjust the height.

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