CN211759279U - Laser cutting machine capable of automatically separating residues from cutting pieces - Google Patents

Abstract

An object of the utility model is to provide an automatic laser cutting machine of separation residue and cutting member, include: the laser cutting machine comprises a body, wherein the upper part of the body is provided with a workbench, a vertical beam sliding guide rail, a vertical beam arranged on the vertical beam sliding guide rail, a cross beam arranged on the vertical beam and a laser cutting head arranged on the cross beam; the body is internally provided with a control device, a conveying device, a residue disc, a cleaning brush and a finished product box from top to bottom in sequence; the conveying device is arranged in the body, the residue disc is arranged in the conveying device, the cleaning brush is arranged below the conveying device, the finished product box is arranged at the lower part of the left side of the body, and the control device is arranged at the upper part of the left side of the body; the control device is simultaneously connected with and controls the actions of the laser cutting head, the cross beam, the vertical beam and the conveying device; the utility model discloses technical scheme leads to greatly having improved the quality of laser cutting machine cutting work piece, and on the other hand is automatic to be cut piece and residue separation, has avoided subsequent letter sorting work.

Description

Laser cutting machine capable of automatically separating residues from cutting pieces

Technical Field

The utility model relates to a laser cutting field, specific laser cutting machine of autosegregation residue and cutting piece that says so.

Background

At present, a laser cutting machine is widely applied to cutting materials with various thicknesses, the cutting precision of the materials with small thicknesses is high, the laser cutting is to scan the surface of the materials by utilizing laser beams with high power density, heat the materials to thousands to tens of thousands of centigrade in a very short time to melt or gasify the materials, and blow the melted or gasified materials away from a cutting seam to achieve the purpose of cutting the materials. The laser cuttable materials are many, including organic glass, the plank, plastics non-metallic material, and metal materials such as stainless steel, carbon steel, alloy steel, aluminum plate, but the residue is together discharged from the discharge gate with the finished product after the cutting of the laser cutting machine that is used for metal cutting is accomplished to current, later stage needs the manual work to part finished product and waste material, and not only waste time and energy, it is attached to the finished product surface to take place the residue easily still, cause the finished product surface roughness, the quality is poor, and some residues are still difficult for cleaing away, the clearance process often causes not little damage to finished product surface finish.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a laser cutting machine capable of automatically separating residues from cutting pieces, which is characterized in that a finished product falling from a workbench is conveyed into a finished product box for storage by arranging a finished product conveyor belt, one part of residues in the cutting process are bonded on the workbench, one part of residues falling from the workbench are bonded on the conveyor belt, and the other part of residues fall into a residue tray through a small hole on the conveyor belt; the finished product and the residues are separated in time in the cutting process, the residues are prevented from being adhered to the surface of the finished product, and the processing quality of the finished product is improved.

A laser cutting machine for automatically separating debris from a cutting member, comprising: the laser cutting machine comprises a body, wherein the upper part of the body is provided with a workbench, a vertical beam sliding guide rail, a vertical beam arranged on the vertical beam sliding guide rail, a cross beam arranged on the vertical beam and a laser cutting head arranged on the cross beam; the method is characterized in that:

the body is internally provided with a control device, a conveying device, a residue disc, a cleaning brush and a finished product box from top to bottom in sequence; the conveying device is arranged in the body, the residue disc is arranged in the conveying device, the cleaning brush is arranged below the conveying device, the finished product box is arranged at the lower part of the left side of the body, and the control device is arranged at the upper part of the left side of the body;

the control device is connected with and controls the actions of the laser cutting head, the cross beam, the vertical beam and the conveying device.

Further, the conveying device comprises a driving roller, transmission gears arranged at two ends of the driving roller, a transmission motor connected with the driving roller, a mesh-shaped conveying belt arranged on the transmission gears, driven rollers corresponding to the driving roller and supporting rollers arranged in the mesh-shaped conveying belt;

the transmission motor is controlled by the control device to rotate, the transmission motor is connected with and drives the driving roller to transmit, and the driving roller drives the transmission gear, the driven roller and the supporting roller to rotate, so that the mesh-shaped conveying belt is driven to convey.

Further, the support rollers are unpowered rollers.

Furthermore, drive gears are installed at two ends of the drive roller, and the drive gears are distributed at two ends of the drive roller.

Furthermore, the two ends of the mesh-shaped conveyor belt are provided with chains meshed with the transmission gears, the middle of the mesh-shaped conveyor belt is provided with a steel wire mesh, and the sparse steel wire mesh structure is not only beneficial to the residue to pass through, but also not easy to gather the residue on the mesh-shaped conveyor belt.

Furthermore, the vertical beam is connected with the vertical beam sliding guide rail and can freely move left and right on the vertical beam sliding guide rail.

Furthermore, the cross beam is arranged on the longitudinal beam between the front vertical beam and the rear vertical beam and can freely move back and forth along the longitudinal beam.

Further, the laser cutting head is installed on the crossbeam, and can freely move from side to side along the crossbeam.

Furthermore, the cleaning brush is a steel wire brush and is fixed on the body through bolts to clean residues adhered to the steel wire mesh.

Further, be provided with the support track on the body antifriction bearing is installed at the left and right sides both ends of residue dish, antifriction bearing rolls along the support track, has reduced the resistance that the residue dish was twitched after the antifriction bearing installation greatly, is convenient for clear up the residue.

The utility model discloses a set up conveyer, timely will cut the residue and part with the cutting piece, avoided residue adhesion and cutting piece surface, greatly improved the quality of laser cutting machine cutting work piece, on the other hand is automatic will cut a separation with the residue, has avoided subsequent letter sorting work, not only labour saving and time saving but also improves the cutting quality, is playing the effect of lifting the weight in the laser cutting field.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic diagram of a laser cutting machine for automatically separating debris from a cut piece;

fig. 2 is a three-dimensional view of the transfer device.

Wherein, 1, a body; 2. a work table; 3. a vertical beam sliding guide rail; 4. a laser cutting head; 5. A cross beam; 6. erecting a beam; 7. a conveying device; 701. a drive roller; 702. a transmission gear; 703. A drive motor; 704. a chain; 705. steel wire mesh; 706. a driven roller; 707. a support roller; 8. a control device; 9. a finished product box; 10. a cleaning brush; 11. a residue pan; 12. A support rail; 13. a rolling bearing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In an embodiment of the present invention, referring to fig. 1-2, a laser cutting machine for automatically separating residues from cutting parts, comprises: the device comprises a body 1, wherein the upper part of the body 1 is provided with a workbench 2, a vertical beam sliding guide rail 3, a laser cutting head 4, a cross beam 5 and a vertical beam 6;

the body 1 is internally provided with a control device 8, a conveying device 7, a residue disc 11, a cleaning brush 10 and a finished product box 9 from top to bottom in sequence; the control device 8 is simultaneously connected with the laser cutting head 4, the cross beam 5, the vertical beam 6 and the conveying device 7; the residue tray 11 is mounted in the conveyor 7.

In the embodiment of the present invention, as shown in fig. 1-2, the conveying device 7 includes a driving roller 701, a transmission gear 702, a transmission motor 703, a mesh conveyor belt, a driven roller 706, and a supporting roller 707; wherein, the driving motor 703 is controlled by the control device 8 to rotate, and the driving roller 701 is connected with the driving motor 703.

In an embodiment of the present invention, see fig. 1-2, the support rollers 707 may preferably be unpowered rollers.

In the embodiment of the present invention, see fig. 1-2, the drive gears 702 are mounted at both ends of the drive roller 701, and the drive gears 702 engage the chains 704 located on both sides of the mesh conveyor belt.

Wherein, in the embodiment of the present invention, as shown in fig. 1-2, it is preferable that the middle of the mesh conveyor belt is a steel wire mesh 705.

In the embodiment of the present invention, as shown in fig. 1-2, the vertical beam 6 is disposed on the vertical beam sliding rail 3 and can freely move left and right on the vertical beam sliding rail 3.

In the embodiment of the present invention, as shown in fig. 1-2, the cross beam 5 is mounted on a longitudinal beam (not shown) disposed on the vertical beam 6, and can freely move back and forth along the longitudinal beam.

In the embodiment of the present invention, as shown in fig. 1-2, the laser cutting head 4 is mounted on the beam 5 and can move freely left and right along the beam 5.

In the embodiment of the present invention, as shown in fig. 1-2, the cleaning brush 10 is a wire brush fixed to the body by bolts.

In the embodiment of the present invention, as shown in fig. 1-2, rolling bearings 13 are installed at the left and right ends of the residue disc 11, the rolling bearings 13 roll along the supporting rails 12, and the supporting rails 12 are connected to the body 1.

In the embodiment of the utility model, as shown in figures 1-2, during operation, the steel plate to be cut is placed on the worktable 2, the shape to be cut is input through the control device 8, the vertical beam 6 is adjusted to a proper position, the laser cutting head 4 is controlled to sweep along the cutting shape once according to the input pattern shape, the condition that the plate space is not large enough to cause cutting omission is prevented, after the preparation work in all aspects is finished, the control device 8 controls the laser cutting head 4 and the transmission motor 703 to start, start the cutting operation, the parts are cut off according to the input cutting shape, the cut parts fall onto the steel wire mesh 705 on the mesh conveyor belt through the workbench 2, under the drive of the driving motor 703, the driving roller 701 rotates, and the driving gear 702 at the two ends transmits the rotating force to the chain 704, so as to drive the mesh conveyor belt to rotate; the components are transferred to the product bin 9 on the left side of the body 1 by the transfer action of the mesh conveyor.

A lot of residues are generated in the laser cutting process, a lot of residues also fall downwards in the process that parts fall onto the mesh conveyor belt, part of residues fall onto the steel wire mesh 705, and the other part of residues fall into the residue tray 11 through the mesh of the steel wire, so that the residues falling onto the steel wire mesh 705 are scraped off by the cleaning brush 10 arranged on the body 1 in the rotating process of the residues; the residue in the residue tray 11 can be drawn out and poured out after being stored to a certain degree through the rolling action of the rolling bearings 13 arranged on the two sides of the residue tray on the supporting rails 12.

During the transport of the web conveyor, the parts and the scrap falling off are transported together into the product bin 9, where further sorting is required at a later stage.

Through adding conveyer in laser cutting machine, can be timely parts and residue separately, avoid the residue to pollute parts, it is very critical to the quality of cutting parts, parts and residue of laser cutting machine in the past all can drop to a storage tank in, the part is unfavorable for the letter sorting, and the residue can corrode parts surface moreover and cause surface quality poor, collect the great improvement spare part processingquality of handling alone with the residue, have very big realistic meaning to industrial production.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A laser cutting machine for automatically separating debris from a cutting member, comprising: the laser cutting machine comprises a body, wherein the upper part of the body is provided with a workbench, a vertical beam sliding guide rail, a vertical beam arranged on the vertical beam sliding guide rail, a cross beam arranged on the vertical beam and a laser cutting head arranged on the cross beam; the method is characterized in that:

the body is internally provided with a control device, a conveying device, a residue disc, a cleaning brush and a finished product box from top to bottom in sequence; the conveying device is arranged in the body, the residue disc is arranged in the conveying device, the cleaning brush is arranged below the conveying device, the finished product box is arranged at the lower part of the left side of the body, and the control device is arranged at the upper part of the left side of the body;

the control device is connected with and controls the actions of the laser cutting head, the cross beam, the vertical beam and the conveying device.

2. The laser cutting machine for automatically separating debris from a cutting member of claim 1, wherein: the conveying device comprises a driving roller, transmission gears arranged at two ends of the driving roller, a transmission motor connected with the driving roller, a mesh-shaped conveying belt arranged on the transmission gears, driven rollers corresponding to the driving roller and supporting rollers arranged in the mesh-shaped conveying belt;

the transmission motor is controlled by the control device to rotate, the transmission motor is connected with and drives the driving roller to transmit, and the driving roller drives the transmission gear, the driven roller and the supporting roller to rotate, so that the mesh-shaped conveying belt is driven to convey.

3. The laser cutting machine for automatically separating debris from a cutting member of claim 2, wherein: the support rollers are unpowered rollers.

4. A laser cutter for automatically separating debris from a cutting element as defined in claim 3, wherein: chains meshed with the transmission gears are arranged at two ends of the mesh conveyor belt, and a steel wire mesh is arranged in the middle of the mesh conveyor belt.

5. The laser cutting machine according to any one of claims 1 to 4, which automatically separates the residue from the cutting member, wherein: the cross beam is arranged on the longitudinal beam arranged on the vertical beam and can freely move back and forth along the longitudinal beam.

6. The laser cutting machine for automatically separating debris from a cutting member of claim 5, wherein: the laser cutting head is installed on the crossbeam, and can freely move from side to side along the crossbeam.

7. The laser cutting machine for automatically separating debris from a cutting member of claim 6, wherein: the cleaning brush is a steel wire brush and is fixed on the body by a bolt.

8. The laser cutting machine for automatically separating debris from a cutting member of claim 7, wherein: the body is provided with a supporting track, rolling bearings are installed at the left end and the right end of the residue disc, and the rolling bearings roll along the supporting track.

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