CN206811332U - A kind of portal frame two-shipper bed laser process equipment - Google Patents

Abstract

A kind of portal frame two-shipper bed laser process equipment is the utility model is related to, solving existing laser process equipment can not realize in processing with loading and unloading while carrying out, the low technical problem of processing efficiency.The technical scheme of use is：A kind of portal frame two-shipper bed laser process equipment is provided, including three axle gantry frame mechanisms, rotation lathe and laser, the laser is arranged on three axles gantry frame mechanism and can moved along orthogonal three axis, the rotation lathe is two, lathe is rotated including the first rotation lathe and second, the first rotation lathe and the second rotation lathe are horizontally disposed at three axles gantry frame mechanism both sides and the machine direction of the first rotation lathe and the second rotation lathe is opposite.The portal frame two-shipper bed laser process equipment have processing is carried out simultaneously with loading and unloading, it is high in machining efficiency the advantages of.

Description

Gantry double-machine-tool laser processing equipment

Technical Field

The utility model relates to a laser beam machining equipment field, more specifically relates to a portal frame duplex machine tool laser beam machining equipment.

Background

With the development of laser processing technology, laser processing has been more and more widely applied to industrial processing with its unique advantages. Present portal frame laser beam machining equipment mainly uses the single machine tool design as the owner, promptly, and a rotatory lathe cooperates a triaxial mobile system to process, and its working process is: firstly, a workpiece to be processed is arranged on a rotary machine tool; then, starting laser processing on a workpiece arranged on the rotary machine tool; after a workpiece is machined, the workpiece is inspected and disassembled; and then, reinstalling and debugging a new workpiece for secondary laser processing. The single machine tool laser processing equipment comprises three processes of feeding, processing and discharging, and feeding and discharging can not be carried out while processing is carried out, so that the processing efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art, a primary object of the present invention is to provide a gantry double-machine laser processing apparatus to solve the technical problem of low processing efficiency of the existing laser processing apparatus.

For convenience of description, XYZ coordinate axes are established, with a direction parallel to the workpiece mounting direction as an X axis, a vertical direction as a Z axis, and a direction perpendicular to both the X axis and the Z axis as a Y axis.

The utility model discloses realize above-mentioned purpose's technical scheme is: the laser processing equipment is characterized in that the two rotary machine tools comprise a first rotary machine tool and a second rotary machine tool, the first rotary machine tool and the second rotary machine tool are respectively arranged on two sides of the three-axis gantry mechanism, and the first rotary machine tool and the second rotary machine tool are arranged in parallel and opposite in direction.

Furthermore, triaxial portal frame mechanism is including fixing on ground and two floorbars along the Y axle direction that are parallel to each other, and the upper surface of every floorbar has along its length direction's guide rail, is provided with the perpendicular roof beam that can follow the guide rail and remove on every guide rail, is provided with the crossbeam that has the guide rail along the X axle direction between two perpendicular roof beam tops.

Further, a laser installation rod capable of horizontally moving along the cross beam is arranged on the cross beam, a laser is installed on the laser installation rod, the laser can move up and down along the laser installation rod to adjust the height of the laser, and therefore the workpiece is accurately subjected to laser processing.

Furthermore, the first rotary machine tool and the second rotary machine tool are both numerical control rotary machine tools and comprise machine tool bases, workpiece clamping parts fixedly arranged on the machine tool bases and workpiece tightening parts capable of moving along the length direction of the machine tools.

Further, a control system for controlling the laser and the two rotary machine tools is arranged on the outer side wall of the workpiece clamping part, and the control system comprises an operation screen for inputting various processing parameters of the laser processing equipment.

The utility model has the advantages that:

adopt this use neotype portal frame double-machine tool laser processing equipment to carry out laser beam machining man-hour, can guarantee when dismantling the installation work piece that the laser instrument moves always, the use that the laser instrument can be more abundant, fine improvement laser processing's efficiency.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification:

fig. 1 is a perspective view of the portal frame double-machine-tool laser processing equipment of the utility model;

fig. 2 is another perspective view of the gantry double-machine-tool laser processing apparatus of the present invention.

Wherein,

1-a three-axis gantry mechanism; 2-a first rotary machine tool; 3-a second rotary machine tool; 4-a laser; 5-a bottom beam; 6-vertical beam; 7-a cross beam; 8-laser mounting rod; 9-a machine tool base; 10-a workpiece holding portion; 11-a workpiece jacking portion; 12-a control system; 13-operation screen

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings and embodiments.

As shown in fig. 1 and 2, the gantry double-machine laser processing apparatus of the present embodiment includes a three-axis gantry mechanism 1, a first rotary machine 2, a second rotary machine 3, and a laser 4. The laser 4 is mounted on the three-axis gantry mechanism 1 and is movable along three axes perpendicular to each other, the first rotary machine tool 2 and the second rotary machine tool 3 are horizontally disposed on both sides of the three-axis gantry mechanism 1 and the machining directions of the first rotary machine tool 2 and the second rotary machine tool 3 are opposite.

In this embodiment, the three-axis gantry mechanism 1 includes two bottom beams 5 fixed on the ground and parallel to each other and arranged along the Y-axis direction, a guide rail along the length direction of each bottom beam 5 is arranged on the upper surface of each bottom beam, a vertical beam 6 capable of moving along the guide rail is arranged on each guide rail, and a cross beam 7 with a guide rail along the X-axis direction is arranged between the tops of the two vertical beams 6. The beam 7 is provided with a laser mounting bar 8 that can move along the beam 7. The laser 4 is installed on the laser installation rod 8, and the laser 4 can move along the length direction of the laser installation rod 8 so as to carry out laser processing on a workpiece.

In this way, by the movement of the vertical beam 6 along the Y axis, the laser mounting rod 8 is moved in the X axis direction and the laser 4 is moved on the laser mounting rod 8 in the Z axis direction, the laser 4 can be moved in three axial directions perpendicular to each other.

In the present embodiment, the first rotary machine tool 2 and the second rotary machine tool 3 are both numerical control rotary machine tools, and include a machine tool base 9, a workpiece clamping portion 10 fixedly disposed on the machine tool base 9, and a workpiece tightening portion 11 capable of moving along a machine tool guide rail disposed along the X axis, and a control system 12 for controlling the laser 4 and the two rotary machine tools is disposed on an outer side wall of the workpiece clamping portion 10. The control system 12 includes an operation panel 13 for inputting various processing parameters of the laser processing apparatus.

The portal frame double-machine-tool laser processing equipment is used in the following process:

before machining is started, a workpiece is arranged on the first rotary machine tool 2, the precision of the workpiece is adjusted by means of table printing, the position and the focal length of the laser 4 are adjusted, and after the adjustment is finished, machining is started to be prepared; starting the laser 4 through the operation screen 13, carrying out laser processing on the workpiece on the first rotary machine tool 2 and checking the laser processing running condition; when the workpiece on the first rotary machine tool 2 is processed normally, starting to install a debugging workpiece on the second rotary machine tool 3, installing the workpiece on the second rotary machine tool 3, and performing a table operation to adjust the workpiece precision and debug the position and the focal length of the laser 4; after the workpiece on the second rotary machine tool 3 is well adjusted and the workpiece on the first rotary machine tool 2 is processed and checked to be correct, the laser 4 is directly moved to the workpiece on the second rotary machine tool 3 by the three-axis gantry mechanism 1 for processing and the laser processing operation condition is checked; after the workpiece on the second rotary machine tool 3 is processed normally, the workpiece on the first rotary machine tool 2 is inspected and disassembled, and after the workpiece is completely disassembled and placed, the workpiece is installed on the first rotary machine tool 2 again and the precision is adjusted; after the workpiece on the first rotary machine tool 2 is well adjusted and the workpiece on the second rotary machine tool 3 is finished and checked to be correct, the laser 4 is moved to the workpiece on the first rotary machine tool 2 by the three-axis gantry mechanism 1 for continuous processing, and the like.

The double-machine-bed structure of the embodiment ensures that the laser can continuously perform the machining process while the workpiece is assembled and disassembled, thereby more fully utilizing the laser and improving the machining efficiency.

Claims (5)

1. A laser processing device of a portal frame double-machine tool comprises a three-axis portal frame mechanism (1), two rotary machine tools and two lasers (4), wherein the lasers (4) are installed on the three-axis portal frame mechanism (1) and can move along three directions perpendicular to each other, the laser processing device is characterized in that the two rotary machine tools comprise a first rotary machine tool (2) and a second rotary machine tool (3), the first rotary machine tool (2) and the second rotary machine tool (3) are placed on two sides of the three-axis portal frame mechanism (1), and the first rotary machine tool (2) and the second rotary machine tool (3) are placed in parallel and opposite in direction.

2. A portal frame double machine laser processing device according to claim 1, characterized in that the three-axis portal frame mechanism (1) comprises two bottom beams (5) fixed on the ground and parallel to each other along the Y-axis direction, the upper surface of each bottom beam (5) is provided with a guide rail along the length direction thereof, a vertical beam (6) capable of moving along the guide rail is arranged on each guide rail, and a cross beam (7) with a guide rail along the X-axis direction is arranged between the tops of the two vertical beams (6).

3. A portal frame twin machine laser processing apparatus according to claim 1, characterized in that a laser mounting bar (8) capable of moving horizontally along the cross beam (7) is provided on the cross beam (7), and the laser (4) is mounted on the laser mounting bar (8) and capable of moving up and down along the laser mounting bar (8) to adjust the height of the laser (4).

4. A gantry double machine laser processing apparatus according to any one of claims 1 to 3, wherein the first rotary machine (2) and the second rotary machine (3) are each a numerically controlled rotary machine comprising a machine base (9), a workpiece clamping portion (10) fixedly provided on the machine base (9), and a workpiece tightening portion (11) movable in a machine length direction.

5. A portal frame double-machine-tool laser processing device as claimed in claim 4, characterized in that a control system (12) for controlling the laser (4) and the two rotary machine tools is arranged on the outer side wall of the workpiece clamping part (10), and the control system (12) comprises an operation screen (13) for inputting processing parameters of the laser processing device.