CN205468184U - Drive mechanism of engraver - Google Patents

Abstract

The utility model discloses be suitable for engraver technical field, provide a drive mechanism of engraver. Engraver drive mechanism is five linkage structure, five include X axle, Y axle, Z axle, C axle and A axle, and wherein, the rotary mechanism of C axle installs on the link plate of Z axle, and the C axle is installed on the C axle rotary mechanism, the rotary mechanism of A axle connects the rotary mechanism of C axle, the A hub connection is in on the rotary mechanism of A axle. Adopt the technical scheme of the utility model, simple structure has reduced machining error, has improved the machining precision.

Description

The drive mechanism of engraving machine

Technical field

This utility model belongs to technical field of engraving, particularly relates to a kind of engraving machine drive mechanism.

Background technology

The functions such as engraving machine is that one contains carving, milling, bores, mill are in the multifunctional equipment of one, range of application Extremely wide, adapt to very competent.Commercially in the engraving machine of application at present, it is planar engraving machine, flat Edema over the face carving engraving machine, workpiece rotates cameo machine, and due to the limitation of frame for movement, processing technique only limits In stereoeffect, it is impossible to realize the 1:1 reduction processing of real-world object；And can only realize for high-accuracy processing Simple process or the partial high-precision of complicated technology, it is impossible to the most succinct processing completing all technique.

Utility model content

In order to make the performance of engraving machine more comprehensively, application is wider, and this utility model provides a kind of engraving The drive mechanism of machine, described engraving machine drive mechanism is five-axis simultaneous structure, and described five axles include X-axis, Y Axle, Z axis, C axle and A axle, wherein, the rotating mechanism of C axle is arranged on the link plate of Z axis, and C axle is installed On described C axle rotating mechanism, the rotating mechanism of A axle connects the rotating mechanism of described C axle, and A axle is connected to On the rotating mechanism of described A axle.

Preferably, described C axle rotating mechanism includes C axle servo rotation platform and C axle rotating seat, described A Axle rotation platform includes that A axle servo rotation platform and A axle rotating seat, C axle servo rotation platform are arranged on Z On the link plate of axle, C axle rotating seat connects C axle servo rotation platform；A axle servo rotation platform is arranged on C On axle rotating seat.

The technical scheme using this utility model to provide, can improve the machining accuracy of engraving machine, reduces processing by mistake Difference.

Accompanying drawing explanation

The population structure schematic diagram of the drive mechanism of the engraving machine that Fig. 1 is provided by this utility model embodiment；

Another structural representation of drive mechanism of the engraving machine that Fig. 2 position this utility model embodiment is provided；

The another structural representation of drive mechanism mechanism of the engraving machine that Fig. 3 position this utility model embodiment is provided Figure.

Detailed description of the invention

Below with reference to drawings and Examples, this utility model is further elaborated, it will be appreciated that Specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

Referring to Fig. 1, Fig. 2 and Fig. 3, this utility model provides the drive mechanism of a kind of engraving machine, described The drive mechanism of engraving machine, including X-axis, Y-axis, three main shafts of Z axis, also includes spindle motor 7, main shaft Motor is arranged on spindle motor seat 6, and C axle servo rotation platform 3 is arranged on Z by C shaft platform fixed plate On the link plate 1 of axle, C axle servo rotation platform 3 connects C axle rotating seat 4, when C axle servo rotation platform 3 The C axle driven by servomotor being provided thereon can drive C axle rotating seat 4 to complete horizontal 360-degree when rotating Rotate；On C axle rotating seat, 4 install A axle servo rotation platform 8, and A axle servo rotation platform is revolved by A axle Turning platform fixed plate to be fixed on C axle rotating seat 4, A axle servo rotation platform 8 connects A axle rotating seat, A One end of axle rotating seat is also connected with the fixed plate 5 of spindle motor seat, when A axle servomotor rotation platform is electric Machine can drive A axle rotating seat to complete 360 degree of rotations when driving.

The rotating part of the C axle servo rotation platform in this utility model embodiment, can be considered as engraving machine The 4th axle, the rotating part of A axle servo rotation platform, the 5th axle of engraving machine can be considered as, due to Install the 4th axle and the 5th axle on the basis of the functional diversities of engraving machine itself additional, work cutter head level can be made 360 degree arbitrarily angled and vertical 360 degree convert at any angle, thus realize engraving machine optional position appoint Meaning angle engraving, thus reach real 1:1 reduction processing.Cutter head can also be made can be worked into precision add The optional position of workpiece is arbitrarily angled, thus the accurately processing realizing high accuracy Hardware fitting and mould is disposable Complete, successfully avoid multiple bearing and the mismachining tolerance that produces.

The technical scheme using this utility model to provide, can make main shaft both horizontally rotate, the most vertically rotate, with The motion of Z axis, any position in working range, complete to move up and down, horizontal rotation, vertically rotate, Add X-axis, Y-axis, it is achieved the motion of real 3 D stereo and processing.

Claims (2)

1. an engraving machine drive mechanism, it is characterised in that described engraving machine drive mechanism is five-axle linkage knot Structure, described five axles include X-axis, Y-axis, Z axis, C axle and A axle, and wherein, the rotating mechanism of C axle is installed On the link plate of Z axis, C axle is arranged on described C axle rotating mechanism, and the rotating mechanism of A axle connects described C The rotating mechanism of axle, A axle is connected on the rotating mechanism of described A axle.

Engraving machine drive mechanism the most according to claim 1, it is characterised in that described C axle rotates Mechanism includes that C axle servo rotation platform and C axle rotating seat, described A axle rotation platform include that A axle servo is revolved Turning platform and A axle rotating seat, C axle servo rotation platform is arranged on the link plate of Z axis, and C axle rotating seat connects C axle servo rotation platform；A axle servo rotation platform is arranged on C axle rotating seat.