Disclosure of Invention
The to-be-solved technical problem of the utility model is to provide a single width of cloth face laser cutting device sets up feed mechanism at the front end, and the rear end sets up receiving agencies, has realized automatic unloading of going up, has improved work efficiency.
In order to solve the technical problem, the utility model provides a single breadth laser cutting device, which comprises a feeding mechanism, a lathe bed, a laser cutting mechanism arranged on the lathe bed, a roller workbench arranged on the lathe bed, a conveying platform positioned at the tail end of the roller workbench and a material receiving platform positioned at the tail end of the conveying platform;
the lathe body is provided with a guide rail rack, and the laser cutting mechanism is positioned on the guide rail rack;
the roller workbench comprises a plurality of rollers and supporting strips positioned between the adjacent rollers.
Preferably, the feeding mechanism comprises a cantilever crane and a vacuum chuck positioned on the cantilever crane.
Preferably, the laser cutting mechanism comprises a driving mechanism, a laser cutting head connected with the driving mechanism, a cutting head guide rail guiding the laser cutting head to move, and a driving wheel matched with the guide rail rack.
Preferably, the guide rail racks are positioned on two sides of the lathe bed;
the driving wheels are positioned at two ends of the cutting head guide rail, and the shape, size and position of the driving wheels are matched with those of the guide rail rack.
Preferably, the roller workbench further comprises a lifting mechanism, and the supporting strip is located at the top of the lifting mechanism.
Preferably, when the supporting bars are lifted, the height of the supporting bars is greater than that of the roller, and the plate material is positioned on the supporting bars;
when the supporting strips descend, the height of the supporting strips is smaller than that of the roller, and the plate is located on the roller.
Preferably, the height of the conveying table is less than or equal to the height of the drum;
the conveying table comprises a rolling shaft and a belt wound on the rolling shaft.
Preferably, the height of the material receiving platform is smaller than or equal to that of the conveying platform.
Compared with the prior art, the beneficial effects of the utility model reside in that:
the utility model provides a single breadth laser cutting device, during operation, feed mechanism's vacuum chuck holds panel, moves it to the cylinder workstation on, and the support bar rises, and support panel, laser cutting mechanism are in actuating mechanism's effect downstream motion is to the position that needs the cutting, and the laser cutting head produces laser and follows cutting head guide rail motion, the one end of cutting head guide rail move to the other end after, accomplish the cutting, stop laser output, drive wheel secondary motion, laser cutting mechanism moves to initial position. Meanwhile, the supporting strips descend after the cutting is completed, the plates move on the roller and enter the material receiving platform through the conveying platform to be temporarily stored, the whole process is continuously carried out, manual operation is not needed, the working efficiency is improved, and the production cost is saved.
Detailed Description
In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.
As shown in fig. 1-2, a single-width laser cutting device includes a feeding mechanism 1, a bed 2, a laser cutting mechanism 3 mounted on the bed 2, a roller table 4 mounted on the bed 2, a conveying table 5 located at the end of the roller table 4, and a material receiving table 6 located at the end of the conveying table 5;
the lathe bed 2 is provided with a guide rail rack 21, and the laser cutting mechanism 3 is positioned on the guide rail rack 21;
the roller table 4 includes a plurality of rollers 41 and support bars 42 between adjacent rollers 41.
The feeding mechanism 1 is used for realizing full-automatic feeding and comprises a cantilever crane 11 and a vacuum chuck 12 positioned on the cantilever crane 11; the cantilever crane 11 is used for driving the vacuum chuck 12 to move, so that the plate can be moved, specifically, the cantilever crane 11 can move up and down and rotate, and the plate at each position can be moved to the lathe bed to be cut. The vacuum chuck 12 is located at the tail end of the cantilever crane 11 and moves along with the cantilever crane 11, when the plate is fed, the plate is sucked by the vacuum chuck 12, the cantilever crane 11 drives the vacuum chuck 12 and the plate to move together, the plate is placed on the lathe bed, and automatic feeding is achieved.
The lathe bed 2 is used for installing the laser cutting mechanism 3 and the roller workbench 4, so that laser cutting and transportation of plates are facilitated, guide rails and racks 21 are arranged on the lathe bed 2, the guide rails and racks 21 are located on two sides of the lathe bed 2, the laser cutting mechanism 3 moves along the guide rails and racks 21, and cutting and placement of the plates are achieved.
The laser cutting mechanism 3 is mounted on the guide rail rack 21 on the lathe bed 2 and comprises a driving mechanism 31, a laser cutting head 32 connected with the driving mechanism 31, a cutting head guide rail 33 guiding the laser cutting head 32 to move and a driving wheel matched with the guide rail rack 21.
The driving mechanism 31 is used for driving the driving wheel to move on the guide rail rack 21 and driving the laser cutting head 32 to move on the cutting head guide rail 33. The laser cutting head 32 is connected with the driving mechanism 31 and used for generating laser to cut a plate, the cutting head guide rail 33 is used for installing the laser cutting head 32, when the laser cutting head works, the laser cutting head 32 moves back and forth along the cutting head guide rail 33 under the action of the driving mechanism 31, the driving wheels are positioned at two ends of the cutting head guide rail 33, the shape, the size and the position of the driving wheels are matched with the shape, the size and the position of the guide rail rack 21, and the driving wheels can move along the guide rail rack 21 conveniently.
It should be noted that, during operation, the driving mechanism 31 drives the driving wheel to rotate, so that the laser cutting mechanism 3 moves along the guide rail rack 21, when the driving wheel moves to the cutting position, the driving wheel stops moving, the laser cutting head 32 generates laser, the driving mechanism 31 drives the laser cutting head 32 to move along the cutting head guide rail 33, after the plate is cut, the driving mechanism 31 drives the driving wheel to move again until the laser cutting mechanism 3 moves to the initial position, and after the feeding mechanism feeds the plate again, the laser cutting mechanism 3 repeats the cutting process.
Roller workstation 4 install in on the lathe bed, be used for the cooperation laser cutting mechanism 3 realizes the cutting of panel and realizes the transportation of panel, and it includes a plurality of cylinders 41 and is located adjacently support bar 42 between the cylinder 41, the during operation, cylinder 41 is in roll on the lathe bed 2, realized the conveying to panel. The support bar 42 is located adjacently between the cylinder 41, and it can be elevating movement, and when ascending, the height of support bar 42 is greater than the height of cylinder 41, promptly the support bar 42 expose in outside the cylinder 41, panel is located on the support bar 42, the laser cutting mechanism of being convenient for cuts panel. When the supporting bars 42 descend, the height of the supporting bars is less than that of the rollers 41, and the plates are positioned on the rollers 41 and are transported under the rolling of the rollers 41.
Specifically, in order to realize the movement of the supporting strip 42, the roller workbench 4 further comprises a lifting mechanism, and the supporting strip 42 is located at the top of the lifting mechanism, so that the switching between different supporting structures of the plate material is realized conveniently. I.e., the supporting bars 42 support the panel when the supporting bars are raised, the laser cutting mechanism 4 cuts the panel, and the rollers support the panel when the supporting bars 42 are lowered, and the panel is transferred on the rollers 41.
The conveying table 5 is located at the tail end of the roller table 4, the height of the conveying table is less than or equal to that of the roller 41, and the conveying table 5 is used for conveying the plate on the roller table 4 to the material receiving table 6, specifically, the conveying table 5 comprises a rolling shaft 51 and a belt 52 wound on the rolling shaft 51, the rolling shaft 51 rolls to drive the belt 52 to move, and the plate located on the belt moves along with the belt 52 to convey the plate.
The material receiving platform 6 is located at the tail end of the conveying platform 5, the height of the material receiving platform is smaller than or equal to that of the conveying platform 5, the temporary storage of the plates is achieved, and the plates can be stored conveniently through machines or workers.
The utility model provides a single breadth laser cutting device, during operation, feed mechanism 1's vacuum chuck 12 holds panel, removes it to cylinder workstation 4 on, and support bar 42 rises, and support panel, laser cutting mechanism 3 are in actuating mechanism 31's effect moves down to the position that needs the cutting, and laser cutting head 32 produces laser and follows cutting head guide rail 33 moves, and the one end of cutting head guide rail 33 is moved behind the other end, accomplishes the cutting, stops laser output, and drive wheel secondary motion, laser cutting mechanism 3 moves to initial position. Meanwhile, after the cutting is finished, the supporting bar 42 descends, the plate moves on the roller 41 and enters the material receiving table for temporary storage through the conveying table 5, the whole process is continuously carried out, manual operation is not needed, the working efficiency is improved, and the production cost is saved.
The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.