CN214559034U - Three-position five-axis numerical control machining center - Google Patents

Abstract

The utility model discloses a five numerical control machining centers of tribit contains: the door bridge comprises two stand columns arranged on the machine base and a bridge body connected with the two stand columns, the two stand columns are respectively provided with a Z-axis moving assembly, the Z-axis cross beam is connected to the output ends of the two Z-axis moving assemblies, the counterweight air cylinder is arranged on the outer side of the door bridge, one end of the counterweight chain is connected with the output end of the counterweight air cylinder, and the other end of the counterweight chain is connected with the Z-axis cross beam; z axle crossbeam is equipped with X axle removal subassembly, X axle removal subassembly includes X axle guide rail and AB axle installation roof beam, X axle guide rail sets up on the Z axle crossbeam, AB axle installation roof beam slides and sets up on the X axle guide rail, AB axle installation roof beam is equipped with three sets of AB axle cutter subassemblies. The utility model discloses the quantity of processing work piece is 3 times of traditional model in the same time, and machining efficiency is high.

Description

Three-position five-axis numerical control machining center

Technical Field

The utility model relates to a numerical control machining center field indicates a five numerical control machining centers of tribit especially.

Background

The five-axis numerical control machining center mainly aims at some furniture accessories which are complex and difficult to machine manually in furniture production. At present, all five-axis numerical control machining centers in the market are in single five-axis production, namely only one product can be machined at a time, so that the machining efficiency is low.

Patent application number CN201620040895.6 discloses a door-shaped five-axis numerical control machining center with a stable structure, which comprises a base, a door bridge, a workbench, a sliding seat and a machine head, wherein the door bridge comprises two upright columns arranged on the base and a bridge body connected with the two upright columns; the workbench comprises a workbench base and a cradle which is rotatably connected with the workbench base, wherein a cradle motor for driving the cradle to rotate is arranged on the workbench base, and the cradle rotates around an X-axis; a rotary tool magazine is arranged on one side of the base; the X-direction guide rail, the Y-direction guide rail and the Z-direction guide rail are all linear roller linear guide rails.

The door-shaped five-axis numerical control machining center only has one machining position, and only one product can be machined at a time, so that the machining efficiency is low.

Disclosure of Invention

The utility model discloses a main aim at provides a five numerical control machining center of tribit, its form that adopts three group's cutters simultaneous processing, the effectual problem that five numerical control machining center machining efficiency is low of having solved.

In order to achieve the above object, the utility model adopts the following technical scheme:

a three-position five-axis numerical control machining center comprises: the door bridge comprises two stand columns arranged on the machine base and a bridge body connected with the two stand columns, the two stand columns are respectively provided with a Z-axis moving assembly, the Z-axis cross beam is connected to the output ends of the two Z-axis moving assemblies, the counterweight air cylinder is arranged on the outer side of the door bridge, one end of the counterweight chain is connected with the output end of the counterweight air cylinder, and the other end of the counterweight chain is connected with the Z-axis cross beam;

the Z-axis beam is provided with an X-axis moving assembly, the X-axis moving assembly comprises an X-axis servo motor, an X-axis guide rail and an AB-axis mounting beam, the X-axis servo motor and the X-axis guide rail are arranged on the Z-axis beam, the AB-axis mounting beam is arranged on the X-axis guide rail in a sliding manner, and the AB-axis mounting beam is provided with three sets of AB-axis cutter assemblies;

the frame is equipped with Y axle workstation, Y axle workstation be equipped with the corresponding vacuum adsorption platform of AB axle cutter unit spare.

Further, the AB shaft cutter assembly comprises an A shaft servo motor, an A shaft RV speed reducer, a B shaft servo motor, a B shaft RV speed reducer, an AB shaft machine body and a cutter body, wherein the AB shaft machine body is provided with a high-speed motor mounting seat with a high-speed motor, and the cutter body is connected with the high-speed motor;

the A-axis servo motor drives the A-axis RV reducer to drive the AB-axis machine body to rotate, the B-axis servo motor drives the B-axis RV reducer to drive the high-speed motor mounting seat to rotate, and then the rotary motion of the cutter body is realized.

Furthermore, the Z-axis moving assembly comprises a Z-axis servo motor, a Z-axis screw and a Z-axis guide rail, the Z-axis guide rail is arranged on the upright post, and the Z-axis cross beam is arranged on the Z-axis guide rail in a sliding manner.

Furthermore, the machine base is provided with a Y-axis guide rail, and the Y-axis workbench is arranged on the Y-axis guide rail in a sliding mode.

The beneficial effects of the utility model reside in that:

the utility model discloses contain: the device comprises a door bridge, a machine base, a Z-axis beam, a counterweight chain and a counterweight cylinder, wherein the Z-axis beam is provided with an X-axis moving assembly, the X-axis moving assembly comprises an AB-axis mounting beam, and the AB-axis mounting beam is provided with three sets of AB-axis cutter assemblies; three sets of AB shaft cutter assemblies simultaneously process workpieces, and the number of the processed workpieces in the same time is 3 times that of the workpieces in the traditional machine type; the processing efficiency is high.

The utility model can process three workpieces at the same time, while the traditional machine type needs three machines to work at the same time; compare with three traditional model simultaneous workings, the utility model discloses practice thrift the place, practice thrift and transfer quick-witted time.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic structural view of the AB-axis cutter assembly of the present invention.

The reference numbers illustrate: an X-axis servo motor; a Z-axis beam; an X-axis guide rail; 4. a vacuum adsorption stage; 5. Y-axis table; 6.a machine base; a Y-axis guide rail; 8. a column; 9. a counterweight cylinder; a Z-axis guide rail; a Z-axis screw; 12, mounting a beam on an AB shaft; an AB spindle cutter assembly; 14. a bridge body; 15, an A-axis servo motor; an A-axis RV reducer; an AB-axis machine body; 18. a cutter body; 19. a high-speed motor mounting base; a B-axis servo motor; and 21. B-axis RV reducer.

Detailed Description

Referring to fig. 1-3, the present invention relates to a three-position five-axis numerical control machining center, which includes: the door bridge comprises two upright posts 8 arranged on the machine base 6 and a bridge body 14 connected with the two upright posts 8, the two upright posts 8 are respectively provided with a Z-axis moving assembly, the Z-axis beam 2 is connected to the output ends of the two Z-axis moving assemblies, the counterweight cylinder 9 is arranged on the outer side of the door bridge, one end of the counterweight chain is connected with the output end of the counterweight cylinder 9, and the other end of the counterweight chain is connected with the Z-axis beam 2;

the Z-axis beam 2 is provided with an X-axis moving assembly, the X-axis moving assembly comprises an X-axis servo motor 1, an X-axis guide rail 3 and an AB-axis mounting beam 12, the X-axis servo motor 1 and the X-axis guide rail 3 are arranged on the Z-axis beam 2, the AB-axis mounting beam 12 is arranged on the X-axis guide rail 3 in a sliding mode, and the AB-axis mounting beam 12 is provided with three sets of AB-axis cutter assemblies 13;

the machine base 6 is provided with a Y-axis workbench 5, and the Y-axis workbench 5 is provided with a vacuum adsorption platform 4 corresponding to the AB-axis cutter component 13.

Further, the AB-axis tool assembly 13 comprises an a-axis servo motor 15, an a-axis RV reducer 16, a B-axis servo motor 20, a B-axis RV reducer 21, an AB-axis machine body 17 and a tool body 18, wherein the AB-axis machine body 17 is provided with a high-speed motor mounting seat 19 with a high-speed motor, and the tool body 18 is connected with the high-speed motor;

the A-axis servo motor 15 drives the A-axis RV speed reducer 16 to drive the AB-axis machine body 17 to rotate, the B-axis servo motor 20 drives the B-axis RV speed reducer 21 to drive the high-speed motor mounting seat 19 to rotate, and then the rotating action of the cutter body 18 is realized.

Further, the Z-axis moving assembly comprises a Z-axis servo motor, a Z-axis screw 11 and a Z-axis guide rail 10, wherein the Z-axis guide rail 10 is arranged on the upright post 8, and the Z-axis beam 2 is arranged on the Z-axis guide rail 10 in a sliding manner.

Further, the machine base 6 is provided with a Y-axis guide rail 7, and the Y-axis workbench 5 is arranged on the Y-axis guide rail 7 in a sliding mode.

The utility model discloses a theory of operation does:

the Z-axis beam 2 can move up and down along the Z-axis guide rail 10, the AB-axis cutter assembly 13 fixed on the AB-axis mounting beam 12 can move left and right along the X-axis guide rail 3, the Y-axis workbench 5 can move back and forth along the Y-axis guide rail 7, the A-axis servo motor 15 drives the A-axis RV reducer 16 to drive the AB-axis machine body 17 to rotate, and the B-axis servo motor 20 drives the B-axis RV reducer 21 to drive the high-speed motor mounting base 19 to rotate; thereby enabling the tool body 18 to perform 360-degree rotation, and realizing machining in any direction except for the workpiece fixing point.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (4)

1. A three-position five-axis numerical control machining center is characterized by comprising: the door bridge comprises two stand columns arranged on the machine base and a bridge body connected with the two stand columns, the two stand columns are respectively provided with a Z-axis moving assembly, the Z-axis cross beam is connected to the output ends of the two Z-axis moving assemblies, the counterweight air cylinder is arranged on the outer side of the door bridge, one end of the counterweight chain is connected with the output end of the counterweight air cylinder, and the other end of the counterweight chain is connected with the Z-axis cross beam;

the Z-axis beam is provided with an X-axis moving assembly, the X-axis moving assembly comprises an X-axis servo motor, an X-axis guide rail and an AB-axis mounting beam, the X-axis servo motor and the X-axis guide rail are arranged on the Z-axis beam, the AB-axis mounting beam is arranged on the X-axis guide rail in a sliding manner, and the AB-axis mounting beam is provided with three sets of AB-axis cutter assemblies;

the frame is equipped with Y axle workstation, Y axle workstation be equipped with the corresponding vacuum adsorption platform of AB axle cutter unit spare.

2. The three-position five-axis numerical control machining center according to claim 1, wherein the AB-axis cutter assembly comprises an A-axis servo motor, an A-axis RV reducer, a B-axis servo motor, a B-axis RV reducer, an AB-axis machine body and a cutter body, the AB-axis machine body is provided with a high-speed motor mounting seat with a high-speed motor, and the cutter body is connected with the high-speed motor;

the A-axis servo motor drives the A-axis RV reducer to drive the AB-axis machine body to rotate, the B-axis servo motor drives the B-axis RV reducer to drive the high-speed motor mounting seat to rotate, and then the rotary motion of the cutter body is realized.

3. The three-position five-axis numerical control machining center according to claim 2, wherein the Z-axis moving assembly comprises a Z-axis servo motor, a Z-axis screw and a Z-axis guide rail, the Z-axis guide rail is arranged on the upright, and the Z-axis cross beam is slidably arranged on the Z-axis guide rail.

4. The three-position five-axis numerical control machining center according to claim 1, wherein the machine base is provided with a Y-axis guide rail, and the Y-axis workbench is slidably arranged on the Y-axis guide rail.

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