CN100460145C

CN100460145C - Structure manner of machine tool

Info

Publication number: CN100460145C
Application number: CNB2005100423952A
Authority: CN
Inventors: 大平研五; 秦之旭; 梁勇
Original assignee: Weihai Huadong Automation Co Ltd
Current assignee: Weihai Huadong Automation Co Ltd
Priority date: 2005-02-04
Filing date: 2005-02-04
Publication date: 2009-02-11
Anticipated expiration: 2025-02-04
Also published as: CN1663735A

Abstract

The invention relates to the bed of a machine tool and belongs to the machine tool equipment field. It is equipped with the Z axis body with X axis body superposing on its upper part. The Z axis worktable sliding fits the Z axis guide on the Z axis body. The saddle of X axis sliding fits the X axis guide on the X axis body. Y axis column is vertically fixed on the X axis saddle. The X axis body is on the surface of the Z axis body, and the parallel and the vertical degrees of the two bodies can be adjusted conveniently, and the adjustment is precise, stable and simple.

Description

The frame mode of lathe

Technical field

The present invention relates to machine tool field, especially a kind of frame mode of lathe.

Background technology

Shown in Figure 3, on lathe, be to carry out relative motion between main shaft and the workbench with rectangular coordinate system (being generally X, Y, three axles of Z), each all has its motion datum level X, Y, Z axle, movable body moves on its datum level, and the mode that X, Y, Z axle constitute can be not quite similar according to the form of machinery, the factors such as purpose of processing.As one of performance of lathe, require correctly to do free from error relative motion between main shaft-workbench according to instruction, promptly static (how much) precision height is a key factor, and static (how much) precision is subjected to the influence of perpendicularity (X:Y Y:Z X:Z) of X, Y, each mutual motion datum level of Z axle very big, therefore in the assembling operation of lathe, adjusting the mutual perpendicularity of each motion datum level just becomes an important job.In the background technology as shown in Figure 3, the lower end datum level of Y-axis column is positioned on the last datum level of X-axis guide rail, the left part of Z axle body and the right flank of X-axis body are fixed together through fastener, the perpendicularity adjustment of X-Y, Y-Z, X-Z axle, must carry out at the connecting portion of Z axle body and X-axis, the adjustment of perpendicularity is difficulty very, especially heavy duty machine tools, adjust difficulty more, and can not be high-precision adjustment.

Summary of the invention

In order to overcome the technical deficiency that perpendicularity is difficult to adjust between existing machine tool bed body X-Z axle, the invention provides a kind of frame mode of lathe, the perpendicularity between this body X-Y, Y-Z, the X-Z axle is easy to adjust and adjust the precision height.

The technical solution adopted for the present invention to solve the technical problems is: be provided with Z axle body, Z axle body stacked has the X-axis body, Z axle workbench is slidingly matched with the Z axis rail that is located on the Z axle body, the X-axis saddle is slidingly matched with the X-axis guide rail that is located on the X-axis body, the Y-axis column is vertically fixed on the X-axis saddle, and the perpendicularity adjustment of X-axis and Y-axis is the adjustment of regulating gradient between point of adjustment B1, point of adjustment B2 on the X-axis saddle and point of adjustment B4, the point of adjustment B3; The perpendicularity adjustment of Y-axis and Z axle is the adjustment of regulating gradient between point of adjustment B1, point of adjustment B2 on the X-axis saddle 1 and point of adjustment B4, the point of adjustment B3, perhaps regulates point of adjustment A1, point of adjustment A2 on the Z axle body and point of adjustment A4, the adjustment of point of adjustment A3 gradient; The perpendicularity adjustment of X-axis and Z axle is to rely on the body of Z axle motion datum level and the rotation adjustment of X-axis motion datum level member.

The invention has the beneficial effects as follows, the X-axis body be positioned at Z axle body above, the adjustment of the two depth of parallelism and perpendicularity is simple to operate, and the precision height of adjusting, that precision is adjusted rear stability is good, simple in structure.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is a STRUCTURE DECOMPOSITION schematic diagram of the present invention.

Fig. 2 is that decomposing schematic representation is looked on the left side of Fig. 1 of the present invention.

Fig. 3 is that decomposing schematic representation is looked on the left side of background technology of the present invention.

1.X axle saddle seat among the figure, 2.Y axle column, 3.X axis rail, 4.X axle body, 5.Z axle workbench, 6.Z axle body, 7.Z axis rail.

The specific embodiment

In Fig. 1, Fig. 2, Z axle body 6 stacked have X-axis body 4, and Z axle workbench 5 is slidingly matched with the Z axis rail 7 that is located on the Z axle body 6, and X-axis saddle 1 is slidingly matched with the X-axis guide rail 3 that is located on the X-axis body 4, and Y-axis column 2 is vertically fixed on the X-axis saddle 1.The Z axle workbench 5 that is loading workpiece moves in Z axis rail 7 upper edge Z-directions, and X-axis saddle 1 carries Y-axis column 2 and moves in X-axis guide rail 3 upper edge X-directions.

The present invention requires X-axis body 4, Z axle body 6 and Y-axis column 2 vertical fully each other in theory, thereby guarantees the high accuracy processing to machining object.The perpendicularity adjustment of X-axis and Y-axis is the adjustment of regulating gradient between point of adjustment B1, point of adjustment B2 on the X-axis saddle 1 and point of adjustment B4, the point of adjustment B3; The perpendicularity adjustment of Y-axis and Z axle is the adjustment of regulating gradient between point of adjustment B1, point of adjustment B2 on the X-axis saddle 1 and point of adjustment B4, the point of adjustment B3, perhaps regulates point of adjustment A1, point of adjustment A2 on the Z axle body 6 and point of adjustment A4, the adjustment of point of adjustment A3 gradient; The perpendicularity adjustment of X-axis and Z axle is to rely on the body of Z axle motion datum level and the rotation adjustment of X-axis motion datum level member.

Claims

1. the frame mode of a lathe, be provided with Z axle body, it is characterized in that: Z axle body stacked has the X-axis body, Z axle workbench is slidingly matched with the Z axis rail that is located on the Z axle body, the X-axis saddle is slidingly matched with the X-axis guide rail that is located on the X-axis body, the Y-axis column is vertically fixed on the X-axis saddle, and the perpendicularity adjustment of X-axis and Y-axis is the adjustment of regulating gradient between point of adjustment B1, point of adjustment B2 on the X-axis saddle and point of adjustment B4, the point of adjustment B3; The perpendicularity adjustment of Y-axis and Z axle is the adjustment of regulating gradient between point of adjustment B1, point of adjustment B2 on the X-axis saddle 1 and point of adjustment B4, the point of adjustment B3, perhaps regulates point of adjustment A1, point of adjustment A2 on the Z axle body and point of adjustment A4, the adjustment of point of adjustment A3 gradient; The perpendicularity adjustment of X-axis and Z axle is to rely on the body of Z axle motion datum level and the rotation adjustment of X-axis motion datum level member.