CN216371366U - Numerical control six-axis machining equipment - Google Patents

Abstract

The utility model relates to the technical field of machining equipment, in particular to numerical control six-axis machining equipment which comprises a rack body, a plane workbench arranged on the rack body, a rotary workbench arranged on one side of the plane workbench, and a machining mechanism which is arranged on the rack body and faces the plane workbench and the rotary workbench; the machining mechanism comprises a Y-axis moving device and a fixing device which are arranged on the rack body, an X-axis moving device connected with the Y-axis moving device, and a machining device which is connected with the X-axis moving device and corresponds to the fixing device; the fixing device comprises a rotary driving seat arranged on the rack body and a fixing module in driving connection with the rotary driving seat. The utility model solves the problems of simple structure, single function, poor processing adaptability and the like of the traditional processing equipment.

Description

Numerical control six-axis machining equipment

Technical Field

The utility model relates to the technical field of machining equipment, in particular to numerical control six-axis machining equipment.

Background

The machining center machine is a machining center machine tool, is also called a CNC numerical control machine tool, and is called a machining center for short. Machining center machines are generally high-efficiency automatic machines consisting of a control system, a servo system, a detection system, a mechanical transmission system and other auxiliary systems and suitable for machining workpieces with complex shapes. The machining center machine is a highly electromechanical integrated machine tool and can continuously complete various working procedures such as drilling, boring, milling, reaming and the like, so that the time of workpiece clamping, measurement, machine tool adjustment and other auxiliary working procedures is greatly reduced, and the machining center machine has good economic benefits for parts with complex machining shapes, high precision requirements and frequent variety replacement.

In industrial products, a shaft part is one of typical parts frequently encountered in hardware fittings, and the shaft part is used for supporting transmission parts such as gears, pulleys and the like in a machine to transmit torque or motion. The shaft parts are rotating body parts, the length of which is greater than the diameter, and generally comprise an outer cylindrical surface, a conical surface, an inner hole, threads and corresponding end surfaces of a concentric shaft, and the shaft parts can be generally divided into three types, namely an optical axis, a stepped shaft and a special-shaped shaft according to different structural forms of the shaft parts.

The machining of the special-shaped shaft needs to position a shaft workpiece, and then five machining processes of turning, milling, hobbing, quenching and fine grinding are carried out; but the traditional processing equipment has simple structure, single function and poor processing adaptability.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a numerical control six-axis machining equipment to solve the problems of the conventional technology at present, and the numerical control six-axis machining equipment has the advantages of reasonable structural design, high automation degree, strong adaptability and greatly improved machining efficiency.

A numerical control six-axis machining device comprises a rack body, a plane workbench arranged on the rack body, a rotary workbench arranged on one side of the plane workbench, and a machining mechanism which is arranged on the rack body and faces the plane workbench and the rotary workbench; the machining mechanism comprises a Y-axis moving device and a fixing device which are arranged on the rack body, an X-axis moving device connected with the Y-axis moving device, and a machining device which is connected with the X-axis moving device and corresponds to the fixing device; the fixing device comprises a rotary driving seat arranged on the rack body and a fixing module in driving connection with the rotary driving seat; the processing device comprises a Z-axis lifting main shaft, a C-axis processing assembly arranged on the Z-axis lifting main shaft and an A-axis processing assembly connected with the C-axis processing assembly.

In one embodiment, the Y-axis moving device comprises a beam and a Y-axis driving base connected with the beam.

In one embodiment, the X-axis moving device includes a gantry mounted on the Y-axis driving base, and an X-axis driving base connected to the gantry, and the processing device is mounted on the X-axis driving base.

In one embodiment, the lifting device further comprises a buffer protection cylinder, and the buffer protection cylinder is mounted on the X-axis driving seat and connected with the Z-axis lifting spindle.

In one embodiment, the crossbeam and the portal frame are provided with first dust covers.

In one embodiment, the fixing module comprises a fixing table, a positioning seat connected with the fixing table in a sliding manner, and an adjusting handle installed on the positioning seat, and the positioning seat is arranged corresponding to the rotation driving seat.

In one embodiment, the rack body comprises at least two sets of support frames.

In one embodiment, the tool changer device is further included and is installed on the supporting frame.

In one embodiment, the tool magazine device comprises a fixed seat, a moving table and a tool changing driving seat which are connected with the fixed seat, and a plurality of groups of clamp assemblies which are connected with the tool changing driving seat and used for fixing tools.

In one embodiment, a second dust cover is arranged on the fixed seat.

The utility model has the following beneficial effects:

the numerical control six-shaft processing equipment provided by the utility model has reasonable structural design, high automation degree and strong adaptability, simultaneously, machining efficiency is greatly improved, it is used to set up the connection installation that the frame body is used for overall structure, Y axle mobile device and X axle mobile device are mutually supported and are processed, be convenient for process the different positions of work piece, strong adaptability, fixing device installs and is used for fixed work piece processing of being convenient for in the frame body, fixed module is used for fixing the work piece of treating processing, the rotatory diversified processing that carries out of fixed module of rotary drive seat drive, the process range is wide, A axle processing subassembly and C axle processing unit mount are on Z axle lift main shaft, X, Y, Z and A, C axle form six axle linkage processing to the rotation of work piece in addition, excel in space curved surface processing, abnormal shape processing, the processing is effectual, high stability, overall structure is stable and reliable.

Drawings

FIG. 1 is a schematic perspective view of a numerically controlled six-axis machining apparatus according to the present invention;

FIG. 2 is an enlarged view of the numerical control six-axis machining apparatus of FIG. 1 at circle A;

FIG. 3 is an enlarged view of the numerical control six-axis machining apparatus of FIG. 1 at circle B.

Description of reference numerals:

the tool changer comprises a rack body 10, a support frame 11, a plane workbench 12, a rotary workbench 13, a Y-axis moving device 20, a cross beam 21, a Y-axis driving seat 22, an X-axis moving device 30, a portal frame 31, an X-axis driving seat 32, a first dust cover 33, a fixing device 40, a rotary driving seat 41, a fixing module 42, a fixing table 42a, a positioning seat 42b, an adjusting handle 42C, a machining device 50, a Z-axis lifting spindle 51, a C-axis machining assembly 52, an A-axis machining assembly 53, a buffer protection cylinder 60, a tool magazine device 70, a fixing seat 71, a moving table 72, a tool changing driving seat 73, a clamp assembly 74 and a second dust cover 75.

Detailed Description

In order that the utility model may be more fully understood, reference will now be made to the following description. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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 invention 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 3, a numerical control six-axis machining apparatus according to an embodiment of the present invention has a reasonable structural design, a high degree of automation, and a high adaptability, and greatly improves machining efficiency.

In this embodiment, the numerical control six-axis machining apparatus includes a frame body 10, a plane table 12 provided on the frame body 10, a rotary table 13 provided on one side of the plane table 12, and a machining mechanism mounted on the frame body 10 and facing the plane table 12 and the rotary table 13; the processing mechanism comprises a Y-axis moving device 20 and a fixing device 40 which are arranged on the frame body 10, an X-axis moving device 30 connected with the Y-axis moving device 20, and a processing device 50 which is connected with the X-axis moving device 30 and corresponds to the fixing device 40; the Y-axis moving device 20 and the X-axis moving device 30 are matched with each other for processing, so that different positions of a workpiece can be conveniently processed, the adaptability is high, and the fixing device 40 is arranged on the rack body 10 and used for fixing the workpiece, so that the workpiece can be conveniently processed.

The frame body 10 comprises at least two groups of support frames 11; in this embodiment, the supporting effect of the two sets of supporting frames 11 is good.

The Y-axis moving device 20 comprises a beam 21 and a Y-axis driving seat 22 connected with the beam 21; the X-axis moving device 30 comprises a portal frame 31 arranged on the Y-axis driving seat 22 and an X-axis driving seat 32 connected with the portal frame 31, and the processing device 50 is arranged on the X-axis driving seat 32; in this embodiment, the Y-axis moving device 20 and the X-axis moving device 30 cooperate with each other to perform machining, so that different positions of the workpiece can be machined conveniently, and the adaptability is high.

Crossbeam 21 and portal frame 31 all are provided with first dust cover 33, and first dust cover 33's dustproof effectual.

The fixing device 40 comprises a rotary driving seat 41 mounted on the frame body 10 and a fixing module 42 in driving connection with the rotary driving seat 41; the processing device 50 comprises a Z-axis lifting main shaft 51, a C-axis processing assembly 52 arranged on the Z-axis lifting main shaft 51 and an A-axis processing assembly 53 connected with the C-axis processing assembly 52; in this embodiment, the fixing module 42 is used for fixing a workpiece to be machined, the rotary driving seat 41 drives the fixing module 42 to rotate to machine the workpiece in multiple directions, the machining range is wide, the a-axis machining assembly 53 and the C-axis machining assembly 52 are installed on the Z-axis lifting spindle 51, the X, Y, Z and the A, C axes and the fixing device 40 form six-axis linkage machining on the rotation of the workpiece, spatial curved surface machining is good, special-shaped machining is achieved, the machining effect is good, and stability is strong.

The fixing module 42 comprises a fixing table 42a, a positioning seat 42b connected with the fixing table 42a in a sliding manner, and an adjusting handle 42c installed on the positioning seat 42b, wherein the positioning seat 42b is arranged corresponding to the rotation driving seat 41; in this embodiment, adjust the work piece of treating processing through adjustment handle 42c, the work piece is pressed from both sides by positioning seat 42b and rotation drive seat 41 correspondence, and it is effectual to press from both sides, and rotation drive seat 41 is used for driving the work piece rotation in order to process the different faces of work piece, and the range of work is wide.

The numerical control six-axis machining equipment further comprises a buffer protection cylinder 60, wherein the buffer protection cylinder 60 is arranged on the X-axis driving seat 32 and is connected with the Z-axis lifting main shaft 51; in this embodiment, the number of the buffer protection cylinders 60 is two, so as to play a good buffer protection role, and effectively prevent the Z-axis lifting spindle 51 from rising or falling too fast to damage the equipment.

The numerical control six-axis machining equipment further comprises a tool magazine device 70, wherein the tool magazine device 70 is arranged on the support frame 11; the tool magazine device 70 comprises a fixed seat 71, a moving table 72 and a tool changing driving seat 73 which are connected with the fixed seat 71, and a plurality of groups of clamp assemblies 74 which are connected with the tool changing driving seat 73 and used for fixing tools; the fixed seat 71 is provided with a second dust cover 75; in this embodiment, the tool magazine device 70 and the machining device 50 cooperate with each other to perform machining, and the machining of workpieces of different specifications is adapted by changing the type of the tool, so that the application range is wide.

The numerical control six-axis processing equipment has reasonable structural design, high automation degree and strong adaptability, greatly improves the processing efficiency, is provided with the frame body 10 for connecting, installing and using the whole structure, the Y-axis moving device 20 and the X-axis moving device 30 are matched with each other for processing, and is convenient for processing different positions of a workpiece, and has strong adaptability, the fixing device 40 is arranged on the frame body 10 for fixing the workpiece for processing conveniently, the fixing module 42 is used for fixing the workpiece to be processed, the rotary driving seat 41 drives the fixing module 42 to rotate for processing in multiple directions, the processing range is wide, the A-axis processing assembly 53 and the C-axis processing assembly 52 are arranged on the Z-axis lifting main shaft 51, the X, Y, Z and A, C shafts and the fixing device 40 form six-axis linkage processing for the rotation of the workpiece, and is good in terms of space curved surface processing, special-shaped processing and processing, the stability is strong, and the overall structure is stable and reliable.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A numerical control six-axis machining device is characterized by comprising a rack body, a plane workbench arranged on the rack body, a rotary workbench arranged on one side of the plane workbench, and a machining mechanism which is arranged on the rack body and faces the plane workbench and the rotary workbench; the machining mechanism comprises a Y-axis moving device and a fixing device which are arranged on the rack body, an X-axis moving device connected with the Y-axis moving device, and a machining device which is connected with the X-axis moving device and corresponds to the fixing device; the fixing device comprises a rotary driving seat arranged on the rack body and a fixing module in driving connection with the rotary driving seat; the processing device comprises a Z-axis lifting main shaft, a C-axis processing assembly arranged on the Z-axis lifting main shaft and an A-axis processing assembly connected with the C-axis processing assembly.

2. The numerical control six-axis machining apparatus according to claim 1, wherein the Y-axis moving device includes a beam and a Y-axis driving base connected to the beam.

3. The numerical control six-axis machining device according to claim 2, wherein the X-axis moving device comprises a gantry mounted on the Y-axis driving base and an X-axis driving base connected with the gantry, and the machining device is mounted on the X-axis driving base.

4. The numerical control six-axis machining device according to claim 3, further comprising a buffer protection cylinder, wherein the buffer protection cylinder is mounted on the X-axis driving seat and connected with the Z-axis lifting spindle.

5. The numerically controlled six-axis machining apparatus according to claim 3, wherein the cross beam and the gantry are each provided with a first dust cover.

6. The numerical control six-axis machining equipment according to claim 1, wherein the fixing module comprises a fixing table, a positioning seat slidably connected with the fixing table, and an adjusting handle installed on the positioning seat, and the positioning seat is arranged corresponding to the rotary driving seat.

7. The numerically controlled six-axis machining apparatus according to claim 1, wherein the frame body includes at least two sets of support frames.

8. The numerically controlled six-axis machining apparatus according to claim 7, further comprising a tool magazine device, the tool magazine device being mounted to the support frame.

9. The numerical control six-axis machining apparatus according to claim 8, wherein the tool magazine device includes a fixed base, a moving table and a tool changing driving base connected to the fixed base, and a plurality of sets of jig assemblies for fixing tools connected to the tool changing driving base.

10. The numerical control six-axis machining apparatus according to claim 9, wherein a second dust cover is provided on the holder.

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