CN203045315U - Numerical control double-shaft turntable - Google Patents

Abstract

The utility model provides a numerical control double-shaft turntable which comprises a frame. Two ends of the frame are respectively provided with a pitch axis which is equipped along the direction of a horizontal axis, so that the frame can rotate along the pitch axis, wherein one end of one pitch axis is fixedly connected with the frame, and the other end is in power connection with a pitching servo motor. The frame is internally provided with a rotating shaft and a rotating servo motor. The rotating shaft passes through the frame in a direction which is perpendicular with the direction of the horizontal axis, and is in power connection with the rotating servo motor. One end of the rotating shaft extends out of the frame and is provided with a rotating platform. The numerical control double-shaft turntable is fixed on a numerical control machine tool so that the pitching servo motor and the rotating servo motor are respectively connected with the numerical control machine tool, and the mounting is completed. Hereon, the numerical control machine tool has three axis type freedoms, and the rotation freedoms in the X-axis direction and the Y-axis direction according to the utility model, and therefore can realize circumferential feeding and calibration movement in a random direction.

Description

Numerical control dual-axis rotation platform

Technical field

The utility model relates to employed panoramic table on a kind of Digit Control Machine Tool.

Background technology

Prove according to the home and abroad data: numerical control turntable can effectively promote the range of work and the adaptability of Digit Control Machine Tool, and the digital control system function is greatly improved.Also there are some producers to realize the batch process of numerical control turntable, still owing to the restriction of structure and communication means, can't finish the process operation than complicated shape.Be still waiting to improve and improve at the aspects of using and operate such as flexibility.

Summary of the invention

At the deficiencies in the prior art, the purpose of this utility model is: a kind of numerical control dual-axis rotation platform is provided, can enough finishes the process operation than complicated shape.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of numerical control dual-axis rotation platform, it is characterized in that: comprise framework, respectively there is a pitch axis that arranges along horizontal axis at the two ends of framework, described framework can be rotated around described pitch axis, wherein an end of a described pitch axis is connected with described frame fixation, and the other end is connected with pitching servomotor power;

Be provided with rotating shaft and rotating servo motor in the described framework, described rotating shaft is arranged in described framework along the direction perpendicular to horizontal axis, and is connected with described rotating servo motor power, and an end of described rotating shaft stretches out outside the described framework and is provided with revolving dial.

Described numerical control dual-axis rotation platform, wherein: also comprise base plate and be oppositely arranged on two risers on the described base plate, every described pitch axis is connected in a described riser rotationally.

Described numerical control dual-axis rotation platform, wherein: link to each other with deep groove ball bearing by the pitch axis bearing between described pitch axis and the riser, and fixing by the pitch bearing lid.

Described numerical control dual-axis rotation platform, wherein: the described other end of a described wherein pitch axis is connected with described pitching servomotor power by the pitching worm gear case.

Described numerical control dual-axis rotation platform, wherein: the two ends of described rotating shaft rotatably are connected in described framework by bearing and rotating shaft holder respectively, and are fixed by axle sleeve and swivel bearing lid respectively.

Described numerical control dual-axis rotation platform, wherein: also be provided with the rotation worm gear case in the described framework, the power intake of described rotation worm gear case links to each other with described rotating servo motor, and clutch end then links to each other with described rotating shaft.

Described numerical control dual-axis rotation platform, wherein: described numerical control dual-axis rotation platform is fixed on the Digit Control Machine Tool, and described pitching servomotor and rotating servo motor all are connected to described Digit Control Machine Tool.

Compared with prior art, the beneficial effect that the utlity model has is: the numerical control dual-axis rotation platform that this application provides combines with Digit Control Machine Tool, can be used for being processed with hole, groove and the inclined-plane of calibration requirement, or adding the rotary work-table in man-hour, be used for processing arc surface and arc groove etc., not only improve working (machining) efficiency, also can finish more processing technology.

Description of drawings

Fig. 1, Fig. 2, Fig. 3 are respectively front view, side view and the vertical views of the numerical control dual-axis rotation platform that provides of the utility model;

Fig. 4 is the C-C direction cutaway view of Fig. 2;

Fig. 5 is the stereogram of the numerical control dual-axis rotation platform that provides of the utility model.

The specific embodiment

Among the application, in order to express easily, horizontal direction among Fig. 4 is called X-direction, the vertical direction along paper among Fig. 4 is called Z-direction, and the direction that vertically penetrates paper among Fig. 4 is Y direction.

In conjunction with Fig. 1-shown in Figure 5, the numerical control dual-axis rotation platform that the utility model provides, comprise base plate 1 and be oppositely arranged on two risers 2,12 on the described base plate 1, respectively there is a pitch axis 5,11 at the two ends of framework 6, every described pitch axis 5,11 is connected in a described riser 2,12 rotationally, makes described framework 6 can make X-direction and rotates.Wherein, described pitch axis 5,11 with riser 2,12 between link to each other with deep groove ball bearing B1, B2 by pitch axis bearing 3, and fixing by pitch bearing lid 4.

Wherein an end of a described pitch axis 11 is fixedlyed connected with described framework 6, and the other end then is connected with pitching servomotor W3 power by pitching worm gear case W4, described framework 6 can be driven in do 360 degree rotation or dividing movements on the pitch orientation.

Direction in described framework 6 upper edges perpendicular to X-axis is equipped with a rotating shaft 9, and in order to see the structure of described rotating shaft 9 clearly, under situation shown in Figure 4, the axial of described rotating shaft 9 overlaps with Z-direction.The two ends of described rotating shaft 9 (being the epimere and lower end of Fig. 4) rotatably are connected with rotating shaft 9 bearings 7 by bearing respectively, and respectively by axle sleeve 10,14 and swivel bearing lid 8 fixed.

Also be provided with rotation worm gear case W1 and rotating servo motor W2 in the described framework 6, the power intake of described rotation worm gear case W1 links to each other with described rotating servo motor W2, and clutch end then links to each other with described rotating shaft 9.One end of described rotating shaft 9 stretches out outside the described framework 6 and is provided with revolving dial 15.Described revolving dial 15 can be done 360 degree rotation or dividing movements around described rotating shaft 9 under the driving of described rotating servo motor W2.

When using, described numerical control dual-axis rotation platform being fixed on the Digit Control Machine Tool by base plate 1, mainly is on numerical control borer or the CNC milling machine, makes described pitching servomotor W3 and rotating servo motor W2 all be connected to described Digit Control Machine Tool, namely finishes installation.At this moment, the original three axis linear frees degree of described Digit Control Machine Tool add the rotary freedom of X-axis that the application increases newly, Z-direction (or other two axially), can realize rotary feed and the dividing movement of any direction.

The numerical control dual-axis rotation platform that this application provides combines with Digit Control Machine Tool, can be used for being processed with hole, groove and the inclined-plane of calibration requirement, or adding the rotary work-table in man-hour, be used for processing arc surface and arc groove etc., not only improve working (machining) efficiency, also can finish more processing technology.

More than explanation is just illustrative for the utility model; and nonrestrictive, those of ordinary skills understand, under the situation that does not break away from the spirit and scope that claim limits; can make many modifications, variation or equivalence, but all will fall within the protection domain of the present utility model.

Claims (7)

1. numerical control dual-axis rotation platform, it is characterized in that: comprise framework, respectively there is a pitch axis that arranges along horizontal axis at the two ends of framework, described framework can be rotated around described pitch axis, wherein an end of a described pitch axis is connected with described frame fixation, and the other end is connected with pitching servomotor power;

Be provided with rotating shaft and rotating servo motor in the described framework, described rotating shaft is arranged in described framework along the direction perpendicular to horizontal axis, and is connected with described rotating servo motor power, and an end of described rotating shaft stretches out outside the described framework and is provided with revolving dial.

2. numerical control dual-axis rotation platform according to claim 1 is characterized in that: also comprise base plate and be oppositely arranged on two risers on the described base plate, every described pitch axis is connected in a described riser rotationally.

3. numerical control dual-axis rotation platform according to claim 2 is characterized in that: links to each other with deep groove ball bearing by the pitch axis bearing between described pitch axis and the riser, and fixing by the pitch bearing lid.

4. numerical control dual-axis rotation platform according to claim 1, it is characterized in that: the described other end of a described wherein pitch axis is connected with described pitching servomotor power by the pitching worm gear case.

5. numerical control dual-axis rotation platform according to claim 1, it is characterized in that: the two ends of described rotating shaft rotatably are connected in described framework by bearing and rotating shaft holder respectively, and are fixed by axle sleeve and swivel bearing lid respectively.

6. numerical control dual-axis rotation platform according to claim 1, it is characterized in that: also be provided with the rotation worm gear case in the described framework, the power intake of described rotation worm gear case links to each other with described rotating servo motor, and clutch end then links to each other with described rotating shaft.

7. numerical control dual-axis rotation platform according to claim 1, it is characterized in that: described numerical control dual-axis rotation platform is fixed on the Digit Control Machine Tool, and described pitching servomotor and rotating servo motor all are connected to described Digit Control Machine Tool.

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