CN210848842U - Flexible material processing platform and flexible material laser processing equipment - Google Patents

Abstract

The utility model relates to a flexible material processing platform and flexible material laser beam machining equipment, wherein the flexible material processing platform includes mesa and frame, the top of mesa contacts with the bottom of frame, and the top of frame coats and is stamped flexible material, the top of mesa is connected with the bottom of support frame, and a blanking recess is enclosed altogether to the bottom of support frame and the top of mesa, and the top of support frame upwards extends, and the top of support frame contacts with the bottom of flexible material, and the support frame is located the inside of frame, the projection area of support frame, flexible material, frame on the mesa scales up in proper order, and all is less than the area of mesa. The design is convenient to position and operate, and the slag is not easy to accumulate and can not be adhered to the table surface material.

Description

Flexible material processing platform and flexible material laser processing equipment

Technical Field

The utility model relates to a flexible material processing equipment especially relates to a flexible material processing platform and flexible material laser beam machining equipment.

Background

Due to the cleanness, time saving and high precision, the laser processing is increasingly applied in the technical field of flexible material processing.

However, when the prior art processes a flexible material, for example, a hollow pattern with high precision is processed, since the processing mode is complex, the processing precision is high, a laser range finder is required to measure the distance between the laser and the flexible material, and real-time adjustment is required, which is very inconvenient, and moreover, slag formed after laser processing is easy to accumulate, which causes the slag to adhere to a workbench, thereby affecting the processing effect.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The utility model aims at overcoming the defects and the problems of inconvenient positioning operation and easy accumulation of slag existing in the prior art, and providing a flexible material processing platform and a flexible material laser processing device which have convenient positioning operation and difficult accumulation of slag.

In order to achieve the above purpose, the technical solution of the utility model is that: a flexible material processing table comprises a table top and a frame, wherein the top of the table top is in contact with the bottom of the frame, and the top of the frame is covered with a flexible material;

the top of the table top is connected with the bottom of the support frame, the bottom of the support frame and the top of the table top enclose a blanking groove, the top of the support frame extends upwards, the top of the support frame is in contact with the bottom of the flexible material, and the support frame is positioned inside the frame;

the projection areas of the support frame, the flexible material and the frame on the table top are sequentially increased in an increasing mode and are smaller than the area of the table top.

The distance between the bottom of the frame and the flexible material is less than or equal to the height of the support frame relative to the table top.

The support frame comprises at least three equal-height convex parts, all the convex parts are not on the same straight line, and the adjacent convex parts are mutually connected or separated.

The support frame comprises four protruding parts which are sequentially connected end to form a closed frame body, and the inner part of the frame body is a blanking groove.

And a positioning assembly is arranged on the part of the table top surrounding the frame and is in contact with the side beam of the frame.

The positioning assembly comprises a transverse positioning clamp, a transverse quick clamp, a vertical positioning clamp and a vertical quick clamp, the transverse positioning clamp and the transverse quick clamp are arranged oppositely, the vertical positioning clamp and the vertical quick clamp are arranged oppositely, a transverse positioning shaft is arranged in the transverse quick clamp, a vertical positioning shaft is arranged in the vertical quick clamp, and moving paths of the transverse positioning shaft and the vertical positioning shaft are intersected with the side beam.

The structure of horizontal positioning clamp, perpendicular positioning clamp all is a dog or at least two bumping posts that set up side by side, and dog, bumping post all are that the top is wider than the structure of bottom, and the bottom of dog, bumping post all is connected with the top of mesa.

The flexible material laser processing equipment comprises the flexible material processing table and a laser processing assembly arranged above the flexible material processing table.

The laser processing assembly comprises a laser, and the bottom of the flexible material processing table is connected with the top of the two-dimensional motion platform; or the laser processing assembly comprises a laser, and the laser processing assembly is connected with the two-dimensional movable mechanical arm.

The laser processing assembly further comprises a galvanometer processing head.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model relates to an among flexible material processing platform and flexible material laser beam machining equipment, the top of mesa is connected with the bottom of support frame, and the top of support frame contacts with the bottom of flexible material, and the support frame is located the inside of frame, during the application, through the setting of support frame, supports flexible material, guarantees highly consistent and level and smooth of flexible material under the effect of tension for in the course of working, the position of the focus that need not to adjust laser reduces the operation degree of difficulty. Therefore, the utility model discloses well location convenient operation.

2. The utility model relates to an among flexible material processing platform and flexible material laser beam machining equipment, a blanking recess is enclosed out altogether to the bottom of support frame and the top of mesa, and during the application, in the course of working of laser, the material that is cut off, the slag promptly can fall into the blanking recess, can avoid the accumulation of slag to make the slag can not with the adhesion of mesa material, and then can not influence the laser beam machining effect. Therefore, the slag is not easy to accumulate in the utility model.

3. The utility model relates to an among flexible material processing platform and flexible material laser beam machining equipment, be provided with locating component on the position of surrounding frame on the mesa, this locating component contacts with the curb girder of frame, during the application, locating component exerts the force to the curb girder, with effectively blocking the frame, avoid the frame to remove, thereby avoid the flexible material to remove, ensure to drive the flexible material at the motor and add man-hour, the flexible material is unmovable, and then improve the laser beam machining effect, especially when locating component includes horizontal location clamp, horizontal fast clamp, erect the location clamp and erect fast when pressing from both sides, the effect is better. Therefore, the utility model discloses the location effect is stronger, and the processing effect is better.

Drawings

Fig. 1 is a schematic structural diagram of a flexible material processing table of the present invention.

Fig. 2 is a schematic structural view of fig. 1 with a frame fastened thereon.

Fig. 3 is another structure diagram of the flexible material processing table of the utility model.

Fig. 4 is a schematic view of the frame of fig. 3 with the frame fastened.

Fig. 5 is a schematic view of the combination of the frame and the flexible material according to the present invention.

Fig. 6 is a schematic structural diagram of the laser processing apparatus for medium flexible materials according to the present invention.

In the figure: the device comprises a table board 1, a frame 2, a side beam 21, a flexible material 3, a support frame 4, a boss 41, a frame body 42, a blanking groove 5, a positioning assembly 6, a transverse positioning clamp 61, a transverse quick clamp 62, a transverse positioning shaft 621, a vertical positioning clamp 63, a vertical quick clamp 64, a vertical positioning shaft 641, a stop block 65, a stop column 66 and a two-dimensional motion platform 7.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 6, a flexible material processing table comprises a table top 1 and a frame 2, wherein the top of the table top 1 is in contact with the bottom of the frame 2, and the top of the frame 2 is covered with a flexible material 3;

the top of the table board 1 is connected with the bottom of the support frame 4, the bottom of the support frame 4 and the top of the table board 1 enclose a blanking groove 5, the top of the support frame 4 extends upwards, the top of the support frame 4 is in contact with the bottom of the flexible material 3, and the support frame 4 is positioned inside the frame 2;

the projection areas of the support frame 4, the flexible material 3 and the frame 2 on the table top 1 are sequentially increased and are smaller than the area of the table top 1.

The distance between the bottom of the frame 2 and the flexible material 3 is less than or equal to the height of the support frame 4 relative to the table top 1.

The supporting frame 4 comprises at least three equal-height convex parts 41, all the convex parts 41 are not on the same straight line, and the adjacent convex parts 41 are connected with each other or separated from each other.

The support frame 4 comprises four protruding parts 41, the four protruding parts 41 are sequentially connected end to form a closed frame body 42, and the inside of the frame body 42 is the blanking groove 5.

The table top 1 is provided with a positioning assembly 6 at a position surrounding the frame 2, and the positioning assembly 6 is in contact with a side beam 21 of the frame 2.

The positioning assembly 6 comprises a transverse positioning clamp 61, a transverse quick clamp 62, a vertical positioning clamp 63 and a vertical quick clamp 64, the transverse positioning clamp 61 is opposite to the transverse quick clamp 62, the vertical positioning clamp 63 is opposite to the vertical quick clamp 64, a transverse positioning shaft 621 is arranged in the transverse quick clamp 62, a vertical positioning shaft 641 is arranged in the vertical quick clamp 64, and moving paths of the transverse positioning shaft 621 and the vertical positioning shaft 641 are intersected with the side beam 21.

The structure of the horizontal positioning clamp 61 and the vertical positioning clamp 63 is a block 65 or at least two retaining columns 66 arranged side by side, the top of the block 65 and the bottom of the retaining column 66 are wider than the top of the block 65, and the bottoms of the block 65 and the retaining column 66 are connected with the top of the table top 1.

The flexible material laser processing equipment comprises the flexible material processing table and a laser processing assembly arranged above the flexible material processing table.

The laser processing assembly comprises a laser, and the bottom of the flexible material processing table is connected with the top of the two-dimensional motion platform 7; or the laser processing assembly comprises a laser, and the laser processing assembly is connected with the two-dimensional movable mechanical arm.

The laser processing assembly further comprises a galvanometer processing head.

When specifically using, the utility model discloses a treat flexible material 3 and frame 2 of processing, and the fixed of flexible material 3 on frame 2 belongs to prior art, support frame 4 is relative 1 bellied parts of mesa, support frame 4 preferably contains three not boss 41 on same straight line at least, bear frame 2 knot of treating flexible material 3 of processing and put on mesa 1, frame 2 is formed by linking up four curb girders 21 end to end, curb girder 21 is fixed by locating component 6, it is spacing, boss 41 can prop up flexible material 3 (the bottom of frame 2 is slightly less than the height of 4 relative mesas 1 to the distance of treating flexible material 3 of processing), in order to form a processing space who is higher than mesa 1.

The positioning assembly 6 is preferably a pair of transverse positioning clips 61, 62, and a pair of vertical positioning clips 63, 64. The positioning assembly 6 is used for effectively clamping the frame 2 when the frame 2 is fixed, so that the support frame 4 forms an upward support for the flexible material 3 to be processed and prevents the flexible material from moving.

In the processing process, the support frame 4 is used for supporting the flexible material 3, so that the flexible material 3 is guaranteed to be consistent and smooth in height under the action of tension, the position of the laser focus does not need to be adjusted during processing, and the position of the laser focus is not required to be detected and adjusted by using a complex and expensive laser range finder. On the basis, the support frame 4 preferably comprises four convex parts 41 which are sequentially connected end to form a closed frame body 42, and the design can not only increase the contact area between the flexible material 3 and the support frame 4, but also make the support more stable, make the flexible material 3 to be processed more flat and avoid stress concentration. In addition, the materials cut off in the laser processing process can directly fall into the blanking groove 5 in the frame body 42, so that slag is not accumulated, and the laser processing effect is prevented from being influenced by the adhesion of the slag and the table top 1.

Furthermore, the utility model discloses a flexible material laser beam machining equipment, except including foretell flexible material processing platform, still include the laser beam machining subassembly, this laser beam machining subassembly includes the laser instrument and shakes the mirror processing head, wherein, mesa 1 can be connected with two-dimensional motion platform 7's top to carry out all around the removal, perhaps, the arm by two-dimensional movement drives the laser instrument and accomplishes laser beam machining, perhaps, sets up the scanning route by the mirror processing head that shakes, accomplishes corresponding processing, this moment, need not two-dimensional adjustment platform.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiment, but all equivalent modifications or changes made by those skilled in the art according to the present invention should be included in the protection scope of the claims.

Claims (10)

1. A flexible material processing table comprises a table top (1) and a frame (2), wherein the top of the table top (1) is in contact with the bottom of the frame (2), and the top of the frame (2) is covered with a flexible material (3), and the flexible material processing table is characterized in that:

the top of the table top (1) is connected with the bottom of the support frame (4), the bottom of the support frame (4) and the top of the table top (1) enclose a blanking groove (5), the top of the support frame (4) extends upwards, the top of the support frame (4) is in contact with the bottom of the flexible material (3), and the support frame (4) is located inside the frame (2);

the projection areas of the support frame (4), the flexible material (3) and the frame (2) on the table top (1) are sequentially increased in an increasing mode and are smaller than the area of the table top (1).

2. A flexible material processing station as defined in claim 1, wherein: the distance between the bottom of the frame (2) and the flexible material (3) is less than or equal to the height of the support frame (4) relative to the table top (1).

3. A flexible material processing station according to claim 1 or 2, wherein: the support frame (4) comprises at least three equal-height convex parts (41), all the convex parts (41) are not in the same straight line, and the adjacent convex parts (41) are connected with each other or separated from each other.

4. A flexible material processing station as defined in claim 3, wherein: the supporting frame (4) comprises four protruding parts (41), the four protruding parts (41) are sequentially connected end to form a closed frame body (42), and the blanking groove (5) is formed in the frame body (42).

5. A flexible material processing station according to claim 1 or 2, wherein: a positioning assembly (6) is arranged on the table top (1) at a position surrounding the frame (2), and the positioning assembly (6) is in contact with a side beam (21) of the frame (2).

6. A flexible material processing station according to claim 5, wherein: locating component (6) are including violently locating clip (61), violently press from both sides (62), erect locating clip (63) and erect fast clamp (64), violently locating clip (61) is just to setting up with violently fast clamp (62), erect locating clip (63) and erect fast clamp (64) and just to setting up, be provided with violently locating shaft (621) in violently pressing from both sides (62), erect and be provided with in pressing from both sides (64) and erect locating shaft (641), the removal route of violently locating shaft (621), erecting locating shaft (641) is crossing with curb girder (21).

7. A flexible material processing station according to claim 6, wherein: the structure of the transverse positioning clamp (61) and the vertical positioning clamp (63) is a block (65) or at least two retaining columns (66) arranged side by side, the top of the block (65) and the bottom of the retaining columns (66) are wider than the bottom of the block (65), and the bottom of the retaining columns (66) is connected with the top of the table board (1).

8. The utility model provides a flexible material laser beam machining equipment which characterized in that: the flexible material laser processing apparatus includes a flexible material processing table of claim 1 or 2, and a laser processing assembly disposed above the flexible material processing table.

9. The flexible material laser processing apparatus according to claim 8, wherein: the laser processing assembly comprises a laser, and the bottom of the flexible material processing table is connected with the top of the two-dimensional moving platform (7); or the laser processing assembly comprises a laser, and the laser processing assembly is connected with the two-dimensional movable mechanical arm.

10. The flexible material laser processing apparatus according to claim 9, wherein: the laser processing assembly further comprises a galvanometer processing head.

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