CN203622049U - Dynamic column typed vertical typed processing center - Google Patents

Abstract

The utility model discloses a dynamic column typed vertical typed processing center. A base is provided with two X-direction liner guide rails, a middle slide is connected with the X-direction liner guide rails; an X-direction servo motor is arranged on the base, an X-direction screw secondary end is connected with the X-direction servo motor, the other end of the X-direction screw is arranged on the base, and a X-direction screw secondary nut is connected with the middle slide; two Y-direction liner guide rails are arranged on the middle slide, and a vertical column is connected with the two Y-direction liner guide rails; A Y-direction servo motor is arranged o the middle slide, a Y-direction screw secondary end is connected with the Y-direction servomotor, the other end of the Y-direction screw is arranged on the middle slide, and a Y-direction screw secondary nut is connected with the vertical column; a vertical milling head is arranged on the guide rail surface of the vertical column; A Z-direction servo motor is arranged at the upper end of the vertical column, a Z-direction screw secondary end is connected with the Y-direction servo motor, the other end of the Z-direction screw is arranged at the lower portion of the vertical column, and a Z-direction screw secondary nut is connected with the vertical milling head. The dynamic column typed vertical typed processing center is higher in processing accuracy and efficiency, and good in stability of the overall machine.

Description

A kind of moving pillar vertical machining centre

Technical field

The utility model belongs to machine tool field, particularly a kind of moving pillar vertical machining centre.

Background technology

In prior art, the vertical machining centre of manufacturing both at home and abroad, the overwhelming majority is stand column fixing C type structure, that is: column is fixed on the rearward end of lathe bed, and slide block laterally moves (that is: Y-direction moves) on base, and workbench is arranged on slide block, vertically move (that is: X is to movement), because the size of base is limited, what intermediate slider can not design is long, therefore longitudinal stroke (that is: X to) can not the long workpiece of processing.

Traditional C type lathe Y-direction drags the variation of weight, low-response, workpiece weight and the impact that the left and right movement of workbench causes precision.

Utility model content

For above-mentioned the deficiencies in the prior art, the utility model provides a kind of machining accuracy higher, and complete machine stability is good, and possesses the long larger workpiece of processing, and working (machining) efficiency is high, goes slick, moves stably pillar vertical machining centre.

The technical solution of the utility model is: a kind of moving pillar vertical machining centre, comprise that base, middle slide, column, workbench, end mill head, mechanical balance, X are to servomotor, Y-direction servomotor, Z-direction servomotor, X to lead screw pair, Y-direction lead screw pair, Z-direction lead screw pair, X to linear guides, it is characterized in that: described base is provided with X to two linear guides, and middle slide is connected to linear guides with X; X is arranged on base to servomotor, and X is connected to servomotor with X to lead screw pair one end, and the other end is arranged on base, and X is connected with middle slide to lead screw pair screw;

Above described middle slide, be provided with Y-direction two linear guides, column is connected with Y-direction two linear guides; Y-direction servomotor is arranged on middle slide, and Y-direction lead screw pair one end is connected with Y-direction servomotor, and the other end is arranged on middle slide, and Y-direction lead screw pair screw is connected with column;

Described end mill head is arranged on the guide pass of column; Z-direction servomotor is arranged on the upper end of column, and Z-direction lead screw pair one end is connected with Y-direction servomotor, and the other end is arranged on the lower end of column, and Z-direction lead screw pair screw is connected with end mill head.

The utility model has the advantages of and be: this moving pillar vertical machining centre, workbench is absolute construction, does not do any motion, has high bearing capacity; On base, middle slide, all adopt heavily loaded roller line rail, be suitable for high speed, high-rate cutting.Middle slide seat adopts step structure, and the cutting force effectively producing in disintegration, makes motion rigidity reinforced.Main spindle box adopts disymmetry formula automatic-balancing system, hard rail structure, and forced feed lubrication, guarantees rigidity and the high-precision retentivity of Z-direction feeding.

Accompanying drawing explanation

Fig. 1 is a kind of moving pillar vertical machining centre facade structures schematic diagram of the utility model

Fig. 2 is a kind of moving pillar vertical machining centre plan structure schematic diagram of the utility model

Accompanying drawing sign: 1 is that base, 2 is that middle slide, 3 is that column, 4 is that workbench, 5 is that end mill head, 6 is that mechanical balance, 7 is that X is that Y-direction servomotor, 9 is that Z-direction servomotor, 10 is that X is that Y-direction lead screw pair, 12 is that Z-direction lead screw pair, 13 is that X is to linear guides to lead screw pair, 11 to servomotor, 8

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1 and Figure 2, a kind of moving pillar vertical machining centre, comprise that base 1, middle slide 2, column 3, workbench 4, end mill head 5, mechanical balance 6, X are to servomotor 7, Y-direction servomotor 8, Z-direction servomotor 9, X to lead screw pair 10, Y-direction lead screw pair 11, Z-direction lead screw pair 12, X to linear guides 13, it is characterized in that: described base 1 is provided with X to two linear guides 13, and middle slide 2 is connected to linear guides 13 with X; X is arranged on base 1 to servomotor 7, and X is connected to servomotor 7 with X to lead screw pair 10 one end, and the other end is arranged on base 1, and X is connected with middle slide 2 to lead screw pair 10 screws;

Described middle slide 2 is provided with Y-direction two linear guides 14 above, and column 3 is connected with Y-direction two linear guides 14; Y-direction servomotor 8 is arranged on middle slide 2, and Y-direction lead screw pair 11 one end are connected with Y-direction servomotor 7, and the other end is arranged on middle slide 2, and Y-direction lead screw pair 11 screws are connected with column 3;

Described end mill head 5 is arranged on the guide pass of column 3; Z-direction servomotor 9 is arranged on the upper end of column 3, and Z-direction lead screw pair 12 one end are connected with Y-direction servomotor 7, and the other end is arranged on the lower end of column 3, and Z-direction lead screw pair 12 screws are connected with end mill head 5.

Operation principle

As shown in Figure 1 and Figure 2, take motor 7 and drive through ball screw assembly, 10 and reach middle slide by waiing upon, middle slide 2 is made X to motion (vertically moving) on straight line 13 guide rails of base 1.

Take motor 8 and drive through ball screw assembly, 11 and reach column by waiing upon, column 3 is done Y-direction motion (being transverse shifting) on the line slideway 14 of middle slide 2.

Take motor 9 and drive through ball screw assembly, 12 and reach end mill head 5 by waiing upon, end mill head 5 is done Z-direction motion (being vertical movement) on the guide rail of column 3.

Workbench 4 is fixed form, does not do the movement of any mode; Therefore there is stronger bearing capacity.

X is to, Y-direction, Z-direction, and three-dimensional motion has respectively servomotor 7.8.9 to drive, and can realize three-shaft linkage, completes the two dimension of workpiece, the processing of three-dimension curved surface, and because system has tool compensation function, processing work can obtain higher machining accuracy.Main motor: adopt power 18.5Kw power servomotor, stable cutting, reliable, working (machining) efficiency is high.

Claims (1)

1. a moving pillar vertical machining centre, comprise that base, middle slide, column, workbench, end mill head, mechanical balance, X are to servomotor, Y-direction servomotor, Z-direction servomotor, X to lead screw pair, Y-direction lead screw pair, Z-direction lead screw pair, X to linear guides, it is characterized in that: described base is provided with X to two linear guides, and middle slide is connected to linear guides with X; X is arranged on base to servomotor, and X is connected to servomotor with X to lead screw pair one end, and the other end is arranged on base, and X is connected with middle slide to lead screw pair screw;

Above described middle slide, be provided with Y-direction two linear guides, column is connected with Y-direction two linear guides; Y-direction servomotor is arranged on middle slide, and Y-direction lead screw pair one end is connected with Y-direction servomotor, and the other end is arranged on middle slide, and Y-direction lead screw pair screw is connected with column;

Described end mill head is arranged on the guide pass of column; Z-direction servomotor is arranged on the upper end of column, and Z-direction lead screw pair one end is connected with Y-direction servomotor, and the other end is arranged on the lower end of column, and Z-direction lead screw pair screw is connected with end mill head.

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