CN219684310U - Novel laser cutting vacuum adsorption platform - Google Patents

Abstract

The utility model provides a novel laser cutting vacuum adsorption platform. Comprising the following steps: the device comprises a workbench, a first ball screw assembly, a second ball screw assembly, a connecting seat, a third ball screw assembly and an adsorption plate. The first ball screw assembly and the second ball screw assembly are arranged on the workbench; the connecting seat is connected with the first ball screw assembly and the second ball screw assembly; the third ball screw assembly is arranged on the connecting seat; the adsorption plate is connected with the third ball screw assembly. The first ball screw assembly and the second ball screw assembly synchronously operate to jointly drive the third ball screw assembly on the connecting seat to move forwards or backwards, the workpiece on the adsorption plate is driven to move forwards or backwards when the third ball screw assembly moves forwards or backwards, and the workpiece on the adsorption plate is driven to move leftwards or rightwards when the third ball screw assembly operates, so that the cutting of the laser cutting machine to different position angles of the workpiece is adapted by adjusting the position angle of the workpiece on the adsorption plate.

Description

Novel laser cutting vacuum adsorption platform

Technical Field

The utility model relates to the field of laser cutting working and rotating jigs, in particular to a novel laser cutting vacuum adsorption platform.

Background

The laser cutting refers to that a workpiece to be cut is irradiated by a high-power-density laser beam of a laser cutting machine, so that the workpiece is quickly heated to a vaporization temperature and evaporated to form holes, and along with the movement of the workpiece by the laser beam, slits with narrow widths are continuously formed in the holes, so that the workpiece is cut.

When the laser cutting machine cuts the workpiece by laser, a vacuum adsorption platform is usually used for adsorbing and positioning the workpiece, so that the laser cutting machine is assisted in stably cutting the workpiece.

At present, although the vacuum adsorption platform can realize the adsorption positioning to the work piece to receive the laser cutting procedure of the laser cutting machine, when the laser cutting machine carries out laser cutting to the work piece adsorbed and positioned on the vacuum adsorption platform, the work piece is often required to be cut by switching a plurality of position angles, and the vacuum adsorption platform does not have the function of driving the work piece to carry out position angle adjustment to correspond to the cutting station of the laser cutting machine to carry out cutting suitable for different position angles, so that the auxiliary cutting efficiency is lower.

Disclosure of Invention

The embodiment of the utility model aims to provide a novel laser cutting vacuum adsorption platform so as to solve the problem that the vacuum adsorption platform does not drive a workpiece to carry out position and angle adjustment to adapt to cutting of different position angles corresponding to a cutting station of a laser cutting machine, so that the auxiliary cutting efficiency is low.

The technical scheme adopted by the embodiment of the utility model for solving the technical problems is as follows:

a novel laser cutting vacuum adsorption platform, comprising:

a work table;

the first ball screw assembly and the second ball screw assembly are arranged on the workbench;

the connecting seat is connected with the first ball screw assembly and the second ball screw assembly;

the third ball screw assembly is arranged on the connecting seat;

the adsorption plate is connected with the third ball screw assembly, and adsorption grooves are distributed on the adsorption plate.

In some embodiments, the third ball screw assembly includes a screw motor, a ball screw, a bearing rod, and a nut mount;

the screw motor is in transmission connection with the ball screw, the ball screw is in movable connection with the nut seat, and the rotation-bearing rod is in penetrating connection with two sides of the nut seat.

In some embodiments, the first ball screw assembly is electrically connected to the second ball screw assembly, and the first ball screw assembly and the second ball screw assembly operate in synchronization.

In some embodiments, the first, second, and third ball screw assemblies are identical in structure.

In some embodiments, the vacuum generator is mounted on the workbench, and the vacuum generator is connected with the adsorption plate through an air pipe.

In some embodiments, a control panel is disposed on the table, the control panel is electrically connected to the first, second, and third ball screw assemblies, and the control panel is electrically connected to a vacuum generator.

In some embodiments, the air tube is provided as a spring air tube.

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

according to the utility model, a user can place a workpiece on the adsorption plate, the vacuum generator is operated to provide vacuum for the adsorption plate, the adsorption groove on the adsorption plate tightly adsorbs the workpiece by utilizing the adsorption force to fix the workpiece, and when the workpiece on the adsorption plate is received by the laser cutting machine to perform a cutting procedure, the first ball screw assembly and the second ball screw assembly are operated synchronously to jointly drive the third ball screw assembly on the connecting seat to move forwards or backwards, and when the third ball screw assembly moves forwards or backwards, the workpiece on the adsorption plate is driven to move forwards or backwards, so that the front and back positions of the workpiece are accurately adjusted to correspond to the cutting position of the laser cutting machine to receive the laser cutting, and when the third ball screw assembly is operated, the left and right positions of the workpiece are accurately adjusted to correspond to the cutting position of the laser cutting machine to receive the laser cutting, and through the arrangement, the workpiece can be fixed by vacuum adsorption, the front and back positions of the workpiece can be driven to be adjusted to accurately correspond to the cutting position of the laser cutting machine to receive the laser cutting, so that the workpiece is adjusted to adapt to different positions of the laser cutting machine by adjusting the angle of the workpiece on the adsorption plate, the laser cutting machine is convenient and practical.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

FIG. 1 is a schematic diagram of the overall perspective structure of the novel laser cutting vacuum adsorption platform provided by the utility model;

fig. 2 is a schematic perspective view of a first ball screw assembly and a second ball screw assembly of the novel laser cutting vacuum adsorption platform provided by the utility model;

fig. 3 is a schematic perspective view of a third ball screw assembly of the novel laser cutting vacuum adsorption platform provided by the utility model;

fig. 4 is a schematic diagram of a three-dimensional structure of a vacuum generator connection adsorption plate of the novel laser cutting vacuum adsorption platform provided by the utility model;

the marks in the figure: 1. a work table; 2. a first ball screw assembly; 3. a second ball screw assembly; 4. a connecting seat; 5. a third ball screw assembly; 501. a screw motor; 502. a ball screw; 503. a bearing rod; 504. a nut seat; 6. a control panel; 7. a vacuum generator; 8. an air pipe; 9. an adsorption plate; 901. an adsorption tank.

Detailed Description

In order that the utility model may be readily understood, a more particular description thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings. It will be understood that when an element is referred to as being "connected" to another element, it can be directly on the other element or one or more intervening elements may be present therebetween. The terms "upper," "lower," "left," "right," "upper," "lower," "top," and "bottom," and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, merely for convenience in describing the present utility model and to simplify the description, and do not indicate or imply that the transposes or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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 utility model belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1 to 4, a novel laser cutting vacuum adsorption platform according to an embodiment of the present utility model includes: a workbench 1, a first ball screw assembly 2, a second ball screw assembly 3, a connecting seat 4, a third ball screw assembly 5 and an adsorption plate 9. The first ball screw assembly 2 and the second ball screw assembly 3 are arranged on the workbench 1; the connecting seat 4 is connected with the first ball screw assembly 2 and the second ball screw assembly 3; the third ball screw assembly 5 is arranged on the connecting seat 4; the adsorption plate 9 is connected with the third ball screw assembly 5, and adsorption grooves 901 are distributed on the adsorption plate 9.

The novel laser cutting vacuum adsorption platform is used for fixing a workpiece and adjusting the position of the workpiece to assist a laser cutting process carried out by a laser cutting machine.

In the novel laser cutting vacuum adsorption platform of this embodiment, the user can place the work piece on the adsorption plate 9, vacuum generator 7 operation is to the adsorption plate 9 provide the vacuum, adsorption groove 901 on the adsorption plate 9 utilizes adsorption force to tightly adsorb the work piece and fix, when the work piece on the adsorption plate 9 receives the laser cutting machine to cut the process, by first ball screw subassembly 2 and second ball screw subassembly 3 synchronous operation and jointly drive the removal forward or backward of third ball screw subassembly 5 on connecting seat 4, drive the work piece on the adsorption plate 9 when the third ball screw subassembly 5 moves forward or backward, thereby realize that the front and back position of accurate adjustment work piece receives the laser cutting to correspond the cutting position of laser cutting machine, and the third ball screw subassembly 5 drives the work piece on the adsorption plate 9 and receive the laser cutting to correspond the cutting position of laser cutting machine when carrying out the operation, through such setting makes through the vacuum adsorption to fix the work piece, can also drive the work piece and adjusts the front and back position of left and right position and correspond to the laser cutting machine and receive the laser cutting, thereby the laser cutting machine is difficult to adjust the position of work piece, and the laser cutting machine is convenient and practical.

In some embodiments, the third ball screw assembly 5 includes a screw motor 501, a ball screw 502, a turn bar 503, and a nut mount 504; the screw motor 501 is in transmission connection with the ball screw 502, the ball screw 502 is in movable connection with the nut seat 504, and the rotation-bearing rod 503 penetrates through two sides of the nut seat 504. When the third ball screw assembly 5 operates to drive the workpiece on the adsorption plate 9 to move, the screw motor 501 operates to drive the ball screw 502 to rotate, the nut seat 504 is driven to move when the ball screw 502 rotates, the adsorption plate 9 is driven to move when the nut seat 504 moves, and the third ball screw assembly 5 drives the workpiece on the adsorption plate 9 to move through the principle of the ball screw 502 through the arrangement, so that the automatic driving of the workpiece adjustment position is realized.

In some embodiments, the first ball screw assembly 2 is electrically connected to the second ball screw assembly 3, and the first ball screw assembly 2 and the second ball screw assembly 3 operate in synchronization. The first ball screw assembly 2 and the second ball screw assembly 3 synchronously operate to drive the adsorption plate 9 on the third ball screw assembly 5 to move forwards or backwards together, and the arrangement of the two groups of ball screw 502 assemblies can increase the bearing stability by driving the adsorption plate 9 on the third ball screw assembly 5 to move forwards or backwards.

In some embodiments, the first ball screw assembly 2, the second ball screw assembly 3, and the third ball screw assembly 5 are identical in structure. The first ball screw assembly 2 and the second ball screw assembly 3 drive the adsorption plate 9 on the third ball screw assembly 5 to move forwards or backwards through the ball screw 502 principle, the third ball screw assembly 5 drives the adsorption plate 9 to move leftwards or rightwards through the ball screw 502 principle, and the first ball screw assembly 2, the second ball screw assembly 3 and the third ball screw assembly 5 can drive the workpiece on the adsorption plate 9 to move forwards, backwards, leftwards and rightwards through the ball screw 502 principle through the arrangement, so that the cutting station of the corresponding laser cutting machine in position is adjusted.

In some embodiments, the vacuum generator 7 is further included, the vacuum generator 7 is installed on the workbench 1, and the vacuum generator 7 is connected with the adsorption plate 9 through the air pipe 8. When the work piece of placing on the adsorption plate 9 is adsorbed and positioned in the vacuum adsorption mode, the vacuum generator 7 starts the operation, the vacuum generator 7 pumps the air in the adsorption plate 9 through the air pipe 8 to form a vacuum state, when the inside of the adsorption plate 9 is in the vacuum state, the adsorption groove 901 on the adsorption plate 9 generates adsorption force to adsorb and fix the work piece, the work piece can be fixed through the vacuum adsorption to receive laser cutting, and the work piece is very convenient to fix and loosen in the laser cutting process.

In some embodiments, a control panel 6 is provided on the table 1, the control panel 6 is electrically connected to the first ball screw assembly 2, the second ball screw assembly 3 and the third ball screw assembly 5, and the control panel 6 is electrically connected to the vacuum generator 7. The control panel 6 is used for providing the user to set up the operation of control first ball screw subassembly 2, second ball screw subassembly 3, third ball screw subassembly 5 and vacuum generator 7, makes this novel laser cutting vacuum adsorption platform of user's convenient control through such setting.

In some embodiments, the air tube 8 is provided as a spring air tube 8. When the first ball screw assembly 2, the second ball screw assembly 3 and the third ball screw assembly 5 are operated to drive the workpiece on the adsorption plate 9 to move back and forth and left and right, the air pipe 8 extends or contracts when the spring air pipe can move along with the adsorption plate 9, and the air pipe 8 can adapt to move along with the adsorption plate 9 through the arrangement, so that the air pipe 8 cannot collapse in the moving process.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the utility model, the steps may be implemented in any order, and there are many other variations of the different aspects of the utility model as described above, which are not provided in detail for the sake of brevity; while the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (7)

1. Novel laser cutting vacuum adsorption platform, its characterized in that includes:

a work table;

the first ball screw assembly and the second ball screw assembly are arranged on the workbench;

the connecting seat is connected with the first ball screw assembly and the second ball screw assembly;

the third ball screw assembly is arranged on the connecting seat;

the adsorption plate is connected with the third ball screw assembly, and adsorption grooves are distributed on the adsorption plate.

2. The novel laser cutting vacuum adsorption platform of claim 1, wherein the third ball screw assembly comprises a screw motor, a ball screw, a bearing rod and a nut seat;

the screw motor is in transmission connection with the ball screw, the ball screw is in movable connection with the nut seat, and the rotation-bearing rod is in penetrating connection with two sides of the nut seat.

3. The novel laser cutting vacuum adsorption platform of claim 1, wherein the first ball screw assembly is electrically connected to the second ball screw assembly, the first ball screw assembly and the second ball screw assembly operating in synchronization.

4. The novel laser cutting vacuum adsorption platform of claim 1, wherein the first, second and third ball screw assemblies are identical in structure.

5. The novel laser cutting vacuum adsorption platform of claim 1, further comprising a vacuum generator mounted on the table, the vacuum generator being connected to the adsorption plate via an air tube.

6. The novel laser cutting vacuum adsorption platform of claim 1, wherein a control panel is arranged on the workbench, the control panel is electrically connected with the first ball screw assembly, the second ball screw assembly and the third ball screw assembly, and the control panel is electrically connected with the vacuum generator.

7. The novel laser cutting vacuum adsorption platform of claim 5, wherein the air tube is configured as a spring air tube.