CN113021006A

CN113021006A - High-precision numerical control machine tool for processing composite material products

Info

Publication number: CN113021006A
Application number: CN202110455373.8A
Authority: CN
Inventors: 蒋鑫森; 张华杰; 张武平
Original assignee: Ningbo Jingte Yifan Cnc Manufacturing Co ltd
Current assignee: Ningbo Jingte Yifan Cnc Manufacturing Co ltd
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-06-25

Abstract

The invention relates to a high-precision numerical control machine tool for processing composite material products, which comprises a machine body and a cross beam, wherein a cutting cutter disc, a processing cutter and a marking assembly are arranged on the cross beam, the cutting cutter disc, the processing cutter and the marking assembly can move along a Z axis, the cutting cutter disc is positioned below the rear part of the processing cutter, and the marking assembly is positioned on the front side of the processing cutter; the upper surface of the lathe bed is provided with a workbench which can move along an X axis, the workbench is provided with a clamping platform and a driving assembly, and the driving assembly drives the clamping platform to rotate on an XZ coordinate plane. The five-axis linkage machining device has the advantages that the workpiece with the curved surface shape can be effectively machined through five-axis linkage, and the machining efficiency is greatly improved; in the milling link, two groups of cutters are arranged, the number of the cutter heads is consistent with that of the workpieces, the limitation that only one part can be machined by a traditional machine tool at one time is broken, and batch production can be realized. Belongs to the technical field of mechanical equipment.

Description

High-precision numerical control machine tool for processing composite material products

Technical Field

The invention belongs to the technical field of mechanical equipment, and particularly relates to a high-precision numerical control machine tool for processing composite material products.

Background

A numerically controlled machine tool is an automated machine tool equipped with a program control system, and is capable of operating the machine tool and machining a part according to a modified program. The numerical control machine tool integrates the technologies of machinery, automation, computers, microelectronics and the like, solves the processing problem of complex, precise and small-batch parts, and is a flexible and high-efficiency automatic machine tool. Since the numerical control machine tool can be used for machining various parts, there is a problem that only small-lot machining is possible and there is a limitation in the machined products. For example, batch processing cannot be achieved at one time, most conventional machine tools only achieve three-axis linkage, and when a composite material product with a curved surface shape is processed, a curved surface processing link can only be implemented manually.

Disclosure of Invention

The invention aims to: the high-precision numerical control machine tool for processing the composite material products is suitable for the products with the curved surface shapes on the basis of ensuring batch processing.

The technical scheme adopted by the invention is as follows: a high-precision numerical control machine tool for processing composite material products comprises a machine body and a mounting column arranged on the machine body along the Z-axis direction, wherein a cross beam arranged along the Y-axis direction is arranged on the mounting column, a processing assembly sliding along the cross beam is arranged on the cross beam, the processing assembly comprises a cutting cutter disc, a processing cutter and a marking assembly, the cutting cutter disc, the processing cutter and the marking assembly can move along the Z-axis, the cutting cutter disc is positioned behind and below the processing cutter, and the marking assembly is positioned on the front side of the processing cutter; the upper surface of the lathe bed is provided with a workbench which can move along an X axis, the workbench is positioned below the machining assembly, the workbench is provided with a workpiece clamping assembly, the workpiece clamping assembly comprises a clamping platform and a driving assembly, and the driving assembly drives the clamping platform to rotate on an XZ coordinate plane.

Preferably, the machining assembly comprises a dragging plate seat, a first dragging plate, a second dragging plate, a first spindle seat and a second spindle seat, the dragging plate seat is in sliding fit on the cross beam, the first dragging plate is connected through a first motor and is in sliding fit on the dragging plate seat along the Z axial direction, the second dragging plate is connected through a second motor and is in sliding fit on the dragging plate seat along the Z axial direction, the first spindle seat and the second spindle seat are fixed on the front surface of the dragging plate, and machining tools are arranged on the first spindle seat and the second spindle seat; the marking assembly is arranged on the first spindle seat or the second spindle seat, and the cutting cutter head is arranged at the bottom of the first carriage or the second carriage.

Preferably, the number of the tool bits of the machining tools on the first spindle base and the second spindle base is the same as the number of the workpieces to be machined.

Preferably, the workbench forms a U-shaped working area, and the left end and the right end of the clamping platform are rotationally matched on the workbench and linked with the driving assembly; the clamping platform is provided with a plurality of positioning parts for positioning the workpieces and locking parts for locking the workpieces.

Preferably, the locking member includes a cylinder and a link.

Preferably, the two ends of the clamping platform are respectively provided with a left connecting disc and a right connecting disc, the clamping platform is detachably mounted between the left connecting disc and the right connecting disc, and the left connecting disc and the right connecting disc are mounted on the workbench through bearings.

Preferably, the left connecting disc and the right connecting disc form an L-shaped mounting surface, and the clamping platform is detachably fixed on the mounting surface.

Preferably, the positioning piece is in a toe cap shape and is hollow inside.

Preferably, the upper surface of the lathe bed all is equipped with a chip groove in the left and right sides of workstation, the chip groove is X axial arrangement, the chip groove runs through the lathe bed along the X axle, sliding fit has the chip removal slider in the chip groove, chip removal slider and workstation simultaneous movement.

Preferably, the chip removal slider and the workbench move synchronously, namely the chip removal slider and the workbench are fixedly connected through an L-shaped connecting rod.

The invention has the technical effects that: the high-precision numerical control machine tool for processing the composite material product comprises the links of cutting, milling, polishing, marking and the like, and the invention adds XZ coordinate plane rotation on the basis of the three-axis processing of the conventional machine tool, realizes five-axis linkage, can effectively process a workpiece with a curved surface shape, and greatly improves the processing efficiency by the five-axis linkage processing; in the milling link, two groups of cutters are arranged, the number of the cutter heads is consistent with that of the workpieces, the limitation that only one part can be machined by a traditional machine tool at one time is broken, and batch production can be realized. The machine tool is not limited to processing a certain product, and the die for positioning the workpiece on the clamping platform can be replaced, so that the machine tool can be used for processing military shoes made of high-strength composite materials, and can also be used for processing other mechanical parts such as precision dies, metal pieces, plastic pieces and the like, and the application range is wide.

The number of tool bits of the machining tools on the first spindle seat and the second spindle seat is consistent with the number of workpieces to be machined, a plurality of workpieces can be machined at one time, and the requirement of batch production can be met.

The workbench forms a U-shaped working area, and the left end and the right end of the clamping platform are rotationally matched on the workbench and linked with the driving assembly; the clamping platform is provided with a plurality of positioning parts for positioning the workpiece and locking parts for locking the workpiece, so that the machining precision is improved.

The clamping platform is detachably mounted between the left connecting disc and the right connecting disc, and the left connecting disc and the right connecting disc are mounted on the workbench through bearings. The clamping platform is detachable, and the die for positioning the workpiece on the clamping platform can be replaced.

The positioning piece is in a toe cap shape and is arranged in a hollow way; has the advantage of saving materials.

The upper surface of lathe bed all is equipped with a chip groove in the left and right sides of workstation, and the chip groove is X axial arrangement, and the chip groove runs through the lathe bed along the X axle, and sliding fit has the chip removal slider in the chip groove, chip removal slider and workstation simultaneous movement. The chip removal sliding block and the workbench adopt the same power source, so that the technical effect of saving energy is achieved; the chip removal slider also moves synchronously when the workbench moves, so that the scraps can be cleaned at the first time, and the blockage is avoided.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a partial schematic view of the present invention.

In the figure, a bed 1; a mounting post 2; a cross beam 3; a cutter disc 4.1; 4.2, machining a cutter; marking assembly 4.3; 4.4 of a mop plate seat; a first mop plate 4.5; a second carriage 4.6; a first spindle base 4.7; a second spindle base 4.8; a work table 5; a clamping platform 6; a drive assembly 7; a positioning member 8; a locking member 9; a left connecting plate 10; a right connecting disc 11; the chip grooves 12.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1-2, implement one: a high-precision numerical control machine tool for processing composite material products comprises a machine body 1 and mounting columns 2 arranged on the machine body 1 along the Z-axis direction, wherein when the machine tool body 1 faces, the front and the back are in the X-axis direction, the left and the right are in the Y-axis direction, and the upper and the lower are in the Z-axis direction. The mounting column 2 is provided with a cross beam 3 arranged along the Y-axis direction, the cross beam 3 is provided with a machining assembly sliding along the cross beam 3, the machining assembly comprises a cutting cutter disc 4.1, a machining cutter 4.2 and a marking assembly 4.3, the cutting cutter disc 4.1, the machining cutter 4.2 and the marking assembly 4.3 can move along the Z-axis, the cutting cutter disc 4.1 is positioned behind and below the machining cutter 4.2, and the marking assembly 4.3 is positioned on the front side of the machining cutter 4.2; the upper surface of the lathe bed 1 is provided with a workbench 5 capable of moving along an X axis, and the workbench 5 is driven by a lead screw mechanism and a motor in a matching way; workstation 5 is located the processing subassembly below, has work piece clamping component on workstation 5, work piece clamping component include clamping platform 6, drive assembly 7 order about clamping platform 6 rotatory in the XZ coordinate plane, drive assembly 7 is servo motor. The machining assembly further comprises a dragging plate seat 4.4, a first dragging plate 4.5, a second dragging plate 4.6, a first spindle seat 4.7 and a second spindle seat 4.8, wherein the dragging plate seat 4.4 is in sliding fit with the cross beam 3, the first dragging plate 4.5 is connected through a first motor and is in sliding fit with the dragging plate seat 4.4 along the Z axial direction, the second dragging plate 4.6 is connected through a second motor and is in sliding fit with the dragging plate seat 4.4 along the Z axial direction, the first spindle seat 4.7 and the second spindle seat 4.8 are fixed on the front surface of the dragging plate, and machining tools 4.2 are arranged on the first spindle seat 4.7 and the second spindle seat 4.8; the marking component 4.3 (laser marking machine) is arranged on the first spindle seat 4.7 or the second spindle seat 4.8, and the cutting cutter head 4.1 (comprising a motor and a circular cutter) is arranged at the bottom of the first carriage 4.5 or the second carriage 4.6.

The number of tool bits of the machining tools 4.2 on the first spindle seat 4.7 and the second spindle seat 4.8 is the same as the number of workpieces to be machined. In the embodiment, four workpieces can be processed simultaneously.

The workbench 5 forms a U-shaped working area, and the left end and the right end of the clamping platform 6 are rotationally matched on the workbench 5 and are linked with the driving assembly 7; the clamping platform 6 is provided with a plurality of positioning parts 8 for positioning the workpiece and locking parts 9 for locking the workpiece, and the locking parts 9 comprise air cylinders and connecting rods. The cylinder drives the connecting rod to rotate and is buckled and pressed on the workpiece.

The clamping platform 6 both ends be equipped with left connection pad 10 and right connection pad 11 respectively, clamping platform 6 demountable installation is between left connection pad 10 and right connection pad 11, left connection pad 10 and right connection pad 11 are installed on workstation 5 through the bearing, drive assembly 7 (servo motor) and left connection pad 10 or right connection pad 11 linkage.

The left connecting disc 10 and the right connecting disc 11 form an L-shaped mounting surface, and the clamping platform 6 is detachably fixed on the mounting surface and fixed through screws.

8 appearances of setting element be tip form and inside cavity setting, this embodiment is used for processing the tip of military shoes.

The upper surface of lathe bed 1 all be equipped with a chip groove 12 in the left and right sides of workstation 5, chip groove 12 is the X axial and arranges, chip groove 12 runs through lathe bed 1 along the X axle, sliding fit has the chip removal slider in chip groove 12, chip removal slider and 5 simultaneous movement of workstation. The workbench 5 moves along the X axis, the scrap discharging slide block moves in the scrap discharging groove 12 to push out the scraps, and the scraps are discharged along two ends of the scrap discharging groove 12.

The chip removal sliding block and the workbench 5 move synchronously, namely the chip removal sliding block is fixedly connected with the workbench 5 through an L-shaped connecting rod.

The working principle of the invention is as follows: a workpiece to be processed is placed on a positioning part 7 of a clamping platform 6 and is locked by a locking part 9, and the clamping platform 6 rotates to a set position; the workbench 5 brings the workpiece below the cutter disc 4.1 to cut under the action of the screw rod mechanism; after the cutting is finished, the workbench 5 is adjusted to a set position, the cutter on the first spindle seat 4.7 starts to process the workpiece, and during the processing, the clamping platform 6 rotates to a required angle according to the setting. After processing, the processing assembly moves to a corresponding position along the beam 3, the cutter on the second spindle seat 4.8 continues to process the processing, and the processed workpiece is marked with a corresponding number by the marking assembly 4.3 (laser marking machine).

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims

1. The utility model provides a high accuracy digit control machine tool for processing combined material product, includes lathe bed (1) and installs erection column (2) of arranging along the Z axle direction on lathe bed (1), its characterized in that: the mounting column (2) is provided with a cross beam (3) arranged along the Y-axis direction, the cross beam (3) is provided with a machining assembly sliding along the cross beam (3), the machining assembly comprises a cutting cutter disc (4.1), a machining cutter (4.2) and a marking assembly (4.3), the cutting cutter disc (4.1), the machining cutter (4.2) and the marking assembly (4.3) can move along the Z-axis, the cutting cutter disc (4.1) is positioned behind and below the machining cutter (4.2), and the marking assembly (4.3) is positioned on the front side of the machining cutter (4.2); the upper surface of lathe bed (1) is equipped with workstation (5) that can follow X axle motion, and workstation (5) are located the processing subassembly below, have work piece clamping component on workstation (5), work piece clamping component include clamping platform (6), drive assembly (7) order about clamping platform (6) and rotate in the XZ coordinate plane.

2. A high precision numerically controlled machine tool for working composite material products according to claim 1, characterized in that: the machining assembly further comprises a drag plate seat (4.4), a first drag plate (4.5), a second drag plate (4.6), a first spindle seat (4.7) and a second spindle seat (4.8), wherein the drag plate seat (4.4) is in sliding fit with the cross beam (3), the first drag plate (4.5) is connected through a first motor and is in sliding fit with the drag plate seat (4.4) along the Z axial direction, the second drag plate (4.6) is connected through a second motor and is in sliding fit with the drag plate seat (4.4) along the Z axial direction, the first spindle seat (4.7) and the second spindle seat (4.8) are fixed on the front surface of the drag plate, and machining tools (4.2) are arranged on the first spindle seat (4.7) and the second spindle seat (4.8); the marking assembly (4.3) is arranged on the first spindle seat (4.7) or the second spindle seat (4.8), and the cutting cutter head (4.1) is arranged at the bottom of the first carriage (4.5) or the second carriage (4.6).

3. A high precision numerically controlled machine tool for working composite material products according to claim 2, characterized in that: the number of tool bits of the machining tools (4.2) on the first spindle seat (4.7) and the second spindle seat (4.8) is consistent with the number of workpieces to be machined.

4. A high precision numerically controlled machine tool for working composite material products according to claim 1, characterized in that: the workbench (5) forms a U-shaped working area, and the left end and the right end of the clamping platform (6) are rotationally matched on the workbench (5) and are linked with the driving assembly (7); the clamping platform (6) is provided with a plurality of positioning parts (8) for positioning the workpiece and locking parts (9) for locking the workpiece.

5. A high precision numerically controlled machine tool for working composite material products according to claim 4, characterized in that: the locking piece (9) comprises a cylinder and a connecting rod.

6. A high precision numerically controlled machine tool for working composite material products according to claim 4, characterized in that: clamping platform (6) both ends be equipped with left connection pad (10) and right connection pad (11) respectively, clamping platform (6) demountable installation is between left connection pad (10) and right connection pad (11), left connection pad (10) and right connection pad (11) warp bearing install on workstation (5).

7. A high precision numerically controlled machine tool for working composite material products according to claim 6, characterized in that: the left connecting disc (10) and the right connecting disc (11) form an L-shaped mounting surface, and the clamping platform (6) is detachably fixed on the mounting surface.

8. A high precision numerically controlled machine tool for working composite material products according to claim 4, characterized in that: the positioning piece (8) is in a toe cap shape and is arranged in a hollow manner.

9. A high precision numerically controlled machine tool for working composite material products according to claim 1, characterized in that: the upper surface of lathe bed (1) all be equipped with a chip groove (12) in the left and right sides of workstation (5), chip groove (12) are the X axial and arrange, chip groove (12) run through lathe bed (1) along the X axle, sliding fit has the chip removal slider in chip groove (12), chip removal slider and workstation (5) simultaneous movement.

10. A high precision numerically controlled machine tool for working composite material products according to claim 9, characterized in that: the chip removal sliding block and the workbench (5) move synchronously, namely the chip removal sliding block and the workbench (5) are fixedly connected through an L-shaped connecting rod.