CN105538977A - Transmission mechanism for engraving machine and engraving machine - Google Patents

Abstract

The invention is applicable to the technical field of engraving machines, and provides a transmission mechanism of an engraving machine and the engraving machine. The transmission mechanism of the engraving machine comprises three principle axes of an X axis, a Y axis and a Z axis, and further comprises a principle-axis motor, wherein the principle-axis motor is mounted on a principle-axis motor base; a C-axis servo rotary platform is mounted on a hanging plate of the Z axis; the C-axis servo rotary platform is connected to a C-axis rotary base; an A-axis servo rotary platform is mounted on the C-axis rotary base; the A-axis servo rotary platform is connected to an A-axis rotary base; one end of the A-axis rotary base is further connected to a fixing plate of the primary-axis motor base; and the primary-axis motor base is fixedly connected to the fixing plate of the primary-axis motor base. According to the technical scheme adopted by the invention, the transmission mechanism is simple in structure, reduces processing errors and reduces processing precision.

Description

The transmission mechanism of engraving machine and engraving machine

Technical field

The invention belongs to technical field of engraving, particularly relate to a kind of transmission mechanism and engraving machine of engraving machine.

Background technology

Engraving machine is that one contains carving, milling, bores, and the functions such as mill are in the multifunctional equipment of one, and range of application is extremely wide, and adaptive capacity is extremely strong.In the engraving machine commercially applied at present, be planar engraving machine, plane cameo machine, workpiece rotates cameo machine, and due to the limitation of frame for movement, processing technology is only limitted to stereoeffect, cannot realize the 1:1 reduction processing of real-world object; And the partial high-precision of Simple process or complicated technology can only be realized for high-accuracy processing, the processing completing all technique that cannot be accurately succinct.

Summary of the invention

In order to make the performance of engraving machine more comprehensively, application is wider, the invention provides a kind of transmission mechanism of engraving machine, the transmission mechanism of described engraving machine, comprise X-axis, Y-axis, Z axis three main shafts, also comprise spindle motor, spindle motor is arranged on spindle motor seat, C axle servo rotation platform is arranged on the link plate of Z axis, C axle servo rotation platform connects C axle rotating seat, C axle rotating seat can be driven to complete horizontal 360-degree rotate when the C axle driven by servomotor that C axle servo rotation platform is provided thereon face rotates; Described C axle rotating seat is installed A axle servo rotation platform, A axle servo rotation platform connects A axle rotating seat, one end of A axle rotating seat also connects the fixed head of spindle motor seat, spindle motor seat is fixedly connected with the fixed head of described spindle motor seat, A axle rotating seat can be driven to complete 360 degree of rotations when the A axle driven by servomotor that A axle servomotor rotation platform is provided thereon.

The present invention also provides a kind of engraving machine, and described engraving machine comprises aforesaid transmission mechanism.

Adopt technical scheme provided by the invention, the machining accuracy of engraving machine can be improved, reduce mismachining tolerance.

Accompanying drawing explanation

The general structure schematic diagram of the transmission mechanism of the engraving machine that Fig. 1 provides for the embodiment of the present invention;

Another structural representation of transmission mechanism of the engraving machine that Fig. 2 position embodiment of the present invention provides;

The another structural representation of drive mechanism mechanism of the engraving machine that Fig. 3 position embodiment of the present invention provides.

Detailed description of the invention

Below with reference to drawings and Examples, the present invention is further elaborated, should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1, Fig. 2 and Fig. 3, the invention provides a kind of transmission mechanism of engraving machine, the transmission mechanism of described engraving machine, comprise X-axis, Y-axis, Z axis three main shafts, also comprise spindle motor 7, spindle motor is arranged on spindle motor seat 6, C axle servo rotation platform 3 is arranged on the link plate 1 of Z axis by C shaft platform fixed head, C axle servo rotation platform 3 connects C axle rotating seat 4, C axle rotating seat 4 can be driven to complete horizontal 360-degree rotate when the C axle driven by servomotor that C axle servo rotation platform 3 is provided thereon rotates; On C axle rotating seat, 4 install A axle servo rotation platform 8, A axle servo rotation platform is fixed on C axle rotating seat 4 by A axle rotation platform fixed head, A axle servo rotation platform 8 connects A axle rotating seat, one end of A axle rotating seat also connects the fixed head 5 of spindle motor seat, A axle rotating seat can be driven to complete 360 degree rotate when A axle servomotor rotation platform is driven by motor.

The rotating part of C axle servo rotation platform in embodiments of the present invention, the 4th axle of engraving machine can be considered as, the rotating part of A axle servo rotation platform, the 5th axle of engraving machine can be considered as, owing to installing the 4th axle and the 5th axle on the functional diversities basis of engraving machine itself additional, can make work cutter head horizontal 360-degree arbitrarily angled and vertical 360 degree convert at any angle, thus realize the arbitrarily angled engraving of engraving machine optional position, thus reach real 1:1 and reduce processing.Also cutter head can be made can be worked into the optional position of Precision Machining part arbitrarily angled, thus the accurate processing realizing high accuracy Hardware fitting and mould is disposable completes, successfully avoids multiple bearing and the mismachining tolerance produced.

Adopt technical scheme provided by the invention, main shaft can be made both to horizontally rotate, vertically rotate again, along with the motion of Z axis, in working range, any position, completes and moves up and down, and horizontally rotates, and vertically rotates, add X-axis, Y-axis, realize motion and the processing of real 3 D stereo.

Claims (3)

1. the transmission mechanism of an engraving machine, comprise X-axis, Y-axis, Z axis three main shafts, also comprise spindle motor, spindle motor is arranged on spindle motor seat, it is characterized in that, C axle servo rotation platform is arranged on the link plate of Z axis, and C axle servo rotation platform connects C axle rotating seat, C axle rotating seat can be driven to complete horizontal 360-degree rotate when the C axle driven by servomotor that C axle servo rotation platform is provided thereon face rotates; Described C axle rotating seat is installed A axle servo rotation platform, A axle servo rotation platform connects A axle rotating seat, one end of A axle rotating seat also connects the fixed head of spindle motor seat, spindle motor seat is fixedly connected with the fixed head of described spindle motor seat, A axle rotating seat can be driven to complete 360 degree of rotations when the A axle driven by servomotor that A axle servomotor rotation platform is provided thereon.

2. transmission mechanism according to claim 1, is characterized in that, described Z axis link plate arranges screwed hole, and described C axle servo rotation platform is fixed on described Z axis link plate by screwed hole.

3. an engraving machine, is characterized in that, comprises transmission mechanism according to claim 1.