CN204735945U - Machine tool crossbeam displacement location structure - Google Patents

Abstract

The utility model provides a machine tool crossbeam displacement location structure, that the location structure who is directed against numerical value control machinery's crossbeam transmission displacement improves, it includes two stands and a crossbeam, respectively this stand outer fringe face is provided with the two first slide rails that are the parallel respectively, and establish a second slide rail separately on the relative medial surface of this two stand, and this crossbeam is provided with two first sliders respectively in the medial surface of relative these the first slide rails of two ends, utilize these first sliders to inlay respectively and locate relative first slide rail, make this crossbeam driven along these first slide rail displacements, this crossbeam medial surface is equipped with a pair beam slab, and the relative respectively lateral surface of this second slide rail of two sides of this auxiliary girder board is equipped with the second slider, and when this crossbeam group located this two stands outer fringe face, these second sliders of this auxiliary girder board inlayed the second slide rail department that organizes in corresponding to this steadiness of promoting this crossbeam transmission displacement.

Description

Toolroom machine crosshead displacement location structure

Technical field

The utility model relates to a kind of toolroom machine, and the location structure particularly for the crossbeam transmission displacement of gantry type tool machine is improved.

Background technology

In value controlling machinery toolroom machine, for the processing of large-size workpiece, considering the convenience of economic factor and processing, generally can adopt gantry type tool machine to process, wherein gantry type tool machine can divide into again fixed column type and dynamic pillar.Similar product then has the toolroom machine being called crown-block type (or claiming across rail).Based on the consideration of above-described economic factor with processing convenience, gantry type tool machine is widely used in machine-building, mold manufacturing industry and common metal processing industry.For current gantry type tool machine, it has a processing platform, a column is respectively equipped with in processing platform both sides, and slide rail is provided with above two columns, establish for a crossbeam group and can move up and down between two columns, this crossbeam is provided with a main shaft that can horizontally slip, and this main shaft lower end assembly has process tool; When gantry type tool machine is when carrying out heavy cut, its reaction force is also increased the shock momentum that bench structure causes by cutter thereupon, often make crossbeam produce in displacement process to offset improperly, the precision of impact processing and yield, and have the necessity improved.

Therefore, the present inventor is the problem further investigated for aforementioned prior art, and by being engaged in research and development and the manufacturing experience of related industry for many years, actively seek solution, through the research and development of long-term endeavour, finally the utility model " toolroom machine crosshead displacement location structure " is successfully developed, to improve the problem of prior art.

Utility model content

Main purpose of the present utility model, be to provide a kind of toolroom machine crosshead displacement location structure, it, when making the crossbeam of planer-type value controlling machinery toolroom machine carry out the displacement start of processing, can have accurate, sane transmission displacement structure, promotes accuracy and the stability of crudy.

For reaching above-mentioned purpose, the utility model provides following technical scheme:

A kind of toolroom machine crosshead displacement location structure, it comprises the column that two are applied to numerical value machine tool machine, and a crossbeam, wherein respectively the corresponding group of this column establishes outer edge surface two side of this crossbeam, be respectively arranged with some in the first parallel slide rail, and the relative medial surface of this two column is provided with at least one second slide rail separately, and the medial surface of two ends of this crossbeam these the first slide rails relative is respectively arranged with 2 first slide blocks, these first slide blocks are utilized to be embedded at the first relative slide rail respectively, make this crossbeam can be driven along these the first slide rail displacements, this cross rail inner face is provided with an auxiliary girder plate again, the lateral surface of this auxiliary girder plate two side these the second slide rails relative is provided with the second slide block, when this crossbeam is mounted on this two columns outer edge surface, embedding group of these second slide blocks of this auxiliary girder plate are in the second slide rail place of correspondence.With this, utilizing at least four group first slide rails to coordinate with the first slide block is located between this two columns and crossbeam, and at least two group second slide rail and the second slide block coordinate and be located at inside this two column and between auxiliary girder plate, and this crossbeam can be promoted add the steadiness and accuracy that man-hour, transmission position was moved.

About technology, means and effect thereof that the utility model adopts, now lift a preferred embodiment and coordinate accompanying drawing to be described in detail as follows, believing object, structure and feature that the utility model is above-mentioned, when can by a deeply concrete understanding.

Accompanying drawing explanation

Fig. 1: three-dimensional combination figure of the present utility model.

Fig. 2: combination view of the present utility model.

Symbol description:

10, column 11, first slide rail 12, second slide rail 20, crossbeam 21, first slide block

30, auxiliary girder plate 31, second slide block

Detailed description of the invention

Refer to shown in Fig. 1, Fig. 2, toolroom machine crosshead displacement location structure of the present utility model, it comprises column 10, crossbeam 20 that two are applied to numerical value machine tool machine, and auxiliary girder plate 30, wherein:

This two column 10 is in being oppositely arranged, respectively the outer edge surface dual side-edge position of this crossbeam 20 established by corresponding group of this column 10, be respectively arranged with two in parallel the first slide rail 11, and the relative medial surface of this two column 10 is provided with one second slide rail 12, separately in order to link this crossbeam 20 and auxiliary girder plate 30.

This crossbeam 20 is microscler beam slabs, two end medial surfaces of this two column 10 are respectively arranged with 2 first slide blocks 21 relatively, these first slide blocks 21 just can be embedded respectively and be incorporated on the first corresponding slide rail 11, and this crossbeam 20 can be driven along these the first slide rail 11 displacements.

This auxiliary girder plate 30 is mounted on inside this crossbeam 20, two sides of this auxiliary girder plate 30 this two column 10 medial surface relative are respectively equipped with one second slide block 31, when this crossbeam 20 is mounted on this two columns, 10 outer edge surface, these second slide blocks 31 just can embedding group in the second slide rail 12 place of correspondence, in order to the stability of this crossbeam 20 action auxiliary, avoid this crossbeam 20 to add man-hour transmission position and move generation and rock or offset.

Therefore, utilizing at least four group first slide rails 11 to coordinate with the first slide block 21 is located between this two column 10 and crossbeam 20, and at least two group second slide rail 12 and the second slide block 31 coordinate and be located at inside this two column 10 and between auxiliary girder plate 30, and this crossbeam 20 can be promoted add the steadiness and accuracy that man-hour, transmission position was moved.

In sum, the utility model is the real progressive practicality having it splendid in like product, also find no identical structure existence formerly all over looking in the domestic and international technical data about this class formation, document, therefore the utility model is real has possessed new patent important document simultaneously.

Above-described embodiment, only in order to illustrate the utility model, it is to be noted, these embodiments are only not used in restriction scope of the present utility model for illustration of the utility model, and, after having read content of the present utility model, relevant technical staff in the field can make various change or amendment to the utility model, and these equivalent form of values fall into the application's appended claims limited range equally.

Claims (2)

1. a toolroom machine crosshead displacement location structure, it comprises the column that two are applied to numerical value machine tool machine, and a crossbeam, it is characterized in that:

Respectively the corresponding group of this column establishes the outer edge surface of this crossbeam, be respectively arranged with some in the first parallel slide rail, and the relative medial surface of this two column is provided with at least one second slide rail separately, and the medial surface of two ends of this crossbeam these the first slide rails relative is respectively arranged with 2 first slide blocks, these first slide blocks are utilized to be embedded at the first relative slide rail respectively, make this crossbeam can be driven along these the first slide rail displacements, this cross rail inner face is provided with an auxiliary girder plate again, the lateral surface of this auxiliary girder plate two side these the second slide rails relative is provided with the second slide block, when this crossbeam is mounted on this two columns outer edge surface, embedding group of these second slide blocks of this auxiliary girder plate are in the second slide rail place of correspondence, the steadiness of this crosshead displacement start is promoted with this.

2. toolroom machine crosshead displacement location structure according to claim 1, is characterized in that, these first slide rails being located at this column outer edge surface comprise two parallel the first slide rails being located at this column dual side-edge.