CN207026494U - A kind of ultra-precision machine tool shafting structure - Google Patents

Abstract

The utility model discloses a kind of ultra-precision machine tool shafting structure,Including bed piece,The C axle main shafts of horizontal axis are fixedly installed in the bed piece side,Slidably connected and C axle main shafts axial direction identical S axle main shafts in the bed piece opposite side,The S axles main shaft moves linearly along W axles in the horizontal direction make it that distance is adjustable and keeps coaxial between C axles main shaft and S axle main shafts,On the bed piece cutter fixed platform is slidably connected between C axles main shaft and S axle main shafts,The cutter fixed platform moves linearly along X-axis and Z axis in the horizontal direction,The S axles main shaft is identical along the direction that Z axis moves linearly with cutter fixed platform along the direction that W axles move linearly,By rationally designing two rotary shaft S axles,C axles and three shifting axle X-axis,Z axis,The position annexation of W axles,The assembly precision of lathe and the convenient degree of installation and debugging can be greatly improved,And then effectively ensure machine finish.

Description

A kind of ultra-precision machine tool shafting structure

Technical field

Precision machine tool technical field of structures is the utility model is related to, more particularly to a kind of ultra-precision machine tool shafting structure.

Background technology

At present, ultra-precision machine tool is manufacturing industry neck in processing precise ray machine electric parts with being played an important role in product The most crucial tool of production in domain.In existing multiaxis ultra-precision machine tool, the layout design of each main shaft is unreasonable, and installation and debugging are not Just, transmission control is complicated, poor practicability.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of precision height, assembly and adjustment easily ultra-precision machine tool Shafting structure.

Technical scheme used by solve above-mentioned technical problem：A kind of ultra-precision machine tool shafting structure, including machine tool Body, the C axle main shafts of horizontal axis are fixedly installed in the bed piece side, connected in another Slideslip of the bed piece It is connected to and is moved linearly in the horizontal direction along W axles so that C axle main shafts with C axle main shafts axial direction identical S axle main shafts, the S axles main shaft Distance is adjustable between S axle main shafts and keeps coaxial, is slided on the bed piece between C axles main shaft and S axle main shafts Cutter fixed platform is connected with, the cutter fixed platform moves linearly along X-axis and Z axis in the horizontal direction, the S axles main shaft edge The direction of W axles rectilinear movement is identical along the direction that Z axis moves linearly with cutter fixed platform.

Further, glide direction is fixedly installed on the bed piece to lead with the slip of C axle main shafts axial direction identical Rail, the rail plate slidably connect Z axis slide plate and W axle slide plates respectively, and slip is slidably connected on the Z axis slide plate The perpendicular X-axis slide plate in direction, the cutter fixed platform are fixed on X-axis slide plate, and the S axles main shaft is fixed on W axle slide plates On.

Beneficial effect：This ultra-precision machine tool shafting structure, by rationally designing two rotary shaft S axles, C axles and three shiftings Moving axis X-axis, Z axis, the position annexation of W axles, can greatly improve the assembly precision of lathe and the convenient degree of installation and debugging, And then effectively ensure machine finish.

Brief description of the drawings

The utility model is described further with reference to the accompanying drawings and examples；

Fig. 1 is the structural representation of the utility model embodiment；

Fig. 2 is the top view of the utility model embodiment；

Fig. 3 is the structural representation of rail plate in the utility model embodiment.

Embodiment

Referring to figs. 1 to Fig. 3, a kind of ultra-precision machine tool shafting structure of the utility model, including bed piece 10, in machine tool The C axles main shaft 11 of horizontal axis is fixedly mounted in the left side of body 10, and C axles main shaft 11 is to grip rotary type workpiece, in lathe It is corresponding with C axles main shaft 11 on lathe bed 10 to be installed with rail plate 12, glide direction and the C axle main shafts of rail plate 12 11 axial direction is consistent, slidably connects Z axis slide plate 13 and W axles slide plate 14 on rail plate 12 respectively, and Z axis slide plate 13 is slided with W axles Plate 14 shares same rail plate, it is possible to achieve and it is accurately conllinear, avoid the error and adjustment work of the adjustment of moving guide rail position Sequence, the assembly precision of machine tool guideway is greatly improved, so as to ensure the machining accuracy of lathe.

S axles main shaft 15, axially consistent, the S axle main shafts with C axles main shaft 11 of S axles main shaft 15 are fixedly mounted on W axles slide plate 14 15 can move linearly along W axles in the horizontal direction causes C axles main shaft 11 to be remained on the same axis with S axles main shaft 15.By In S axles main shaft 15 it is fixed on W axles slide plate 14, it is possible to achieve S axles and the adjustment of C axles and Z axis relative position, installation Debugging is easy.

The perpendicular X-axis slide plate 16 of glide direction, the i.e. mobile side of X-axis slide plate 16 are slidably connected on Z axis slide plate 13 It is flat to, on X-axis slide plate 16 fixed installation cutter fixed platform 17 perpendicular with the moving direction of Z axis slide plate 13, cutter fixation Platform 17, in the horizontal direction can be with by X-axis slide plate 16 and the cutter fixed platform 17 of Z axis slide plate 13 to grip cutter Moved linearly along X-axis and Z axis.

Embodiment of the present utility model is explained in detail above in conjunction with accompanying drawing, but the utility model is not limited to Embodiment is stated, in the technical field those of ordinary skill possessed knowledge, this practicality can also not departed from Various changes can be made on the premise of new objective.

Claims (2)

1. A kind of 1. ultra-precision machine tool shafting structure, it is characterised in that：Including bed piece, fix and set in the bed piece side The C axle main shafts of horizontal axis are equipped with, are slidably connected and C axle main shafts axial direction identical S axle masters in the bed piece opposite side Axle, the S axles main shaft moves linearly along W axles in the horizontal direction make it that distance is adjustable between C axles main shaft and S axle main shafts and it is same to keep Axle, slidably connects cutter fixed platform on the bed piece between C axles main shaft and S axle main shafts, and the cutter is consolidated Fixed platform moves linearly along X-axis and Z axis in the horizontal direction, and the S axles main shaft is fixed flat along the direction that W axles move linearly with cutter Platform is identical along the direction that Z axis moves linearly.
2. 2. ultra-precision machine tool shafting structure according to claim 1, it is characterised in that：Fixation is set on the bed piece Glide direction and C axle main shafts axial direction identical rail plate are equipped with, the rail plate slidably connects Z axis slide plate and W respectively Axle slide plate, slidably connects the perpendicular X-axis slide plate of glide direction on the Z axis slide plate, and the cutter fixed platform is fixed On X-axis slide plate, the S axles main shaft is fixed on W axle slide plates.