CN204711582U - A kind of numerical control landing milling process bed X-axis structure adopting line slideway - Google Patents

Abstract

The utility model proposes a kind of numerical control landing milling process bed X-axis structure adopting line slideway, comprise lathe bed, slide and drive unit, described slide is positioned at the top of lathe bed, and described drive unit is arranged on described slide and lathe bed; Described lathe bed is provided with guide-track groove, and described guide-track groove internal fixtion has line slideway; Be provided with the block slots be communicated with guide-track groove in the side of described guide-track groove, described block slots internal fixtion has the briquetting for compressing line slideway; Be fixed with the slide block coordinated with described line slideway below described slide, described slide block is connected slidably with line slideway.The utility model is reasonable in design, and structure is simple; Coefficient of friction is little, wear-resistant, positioning precision is high; Easy maintenance, can ensure motion state characteristic and the stability of each moving-member; Overall performance improves.

Description

A kind of numerical control landing milling process bed X-axis structure adopting line slideway

Technical field

The utility model relates to milling-boring machine technical field, specifically a kind of numerical control landing milling process bed X-axis structure adopting line slideway.

Background technology

Numerical control landing milling process bed accessory has the machining functions such as bore hole, boring, milling, grooving; Mixing the function accessories such as high-precision rotary working-table, right-angle milling head, can realize five processing, is the ideal equipment of the industries such as metallurgy, the energy, electric power for heavy parts processing such as steam turbine, generator and heavy-duty machineries.

Usually, numerical control landing milling process bed is console mode layout.Lathe is hung the part such as main spindle box and ram parts by lathe bed, mobile column and slide, side and is formed.Column and slide are mobile on lathe bed forms X-axis, and main spindle box moves up and down formation Y-axis at column, and ram is movable on main spindle box forms Z axis, and boring axle axially moves and forms W axle.

But due to structural design imperfection, X-axis slip smoothness is poor, and integral working is obstructed, easily produce the problems such as running inefficacy.Therefore, a kind of numerical control landing milling process bed X-axis structure reasonable in design is needed badly, to meet industry requirement.

Utility model content

The utility model proposes a kind of numerical control landing milling process bed X-axis structure adopting line slideway, to solve numerical control landing milling process bed structure design imperfection in prior art, X-axis slip smoothness is poor, and service behaviour is obstructed, easily produces the problems such as running inefficacy.

The technical solution of the utility model is achieved in that

Adopt a numerical control landing milling process bed X-axis structure for line slideway, comprise lathe bed, slide and drive unit, described slide is positioned at the top of lathe bed, and described drive unit is arranged on described slide and lathe bed;

Described lathe bed is provided with guide-track groove, and described guide-track groove internal fixtion has line slideway; Be provided with the block slots be communicated with guide-track groove in the side of described guide-track groove, described block slots internal fixtion has the briquetting for compressing line slideway;

Be fixed with the slide block coordinated with described line slideway below described slide, described slide block is connected slidably with line slideway.

Further, described drive unit comprises motor, and described motor is arranged on described slide, and described motor via reducer is connected with gear, and described gear is positioned at the below of described slide; Described lathe bed is provided with the tooth bar with described gears meshing.

Further, be fixed with ring flange above described gear, described ring flange is fixed by screws on reductor.

Further, be fixed with reducer pedestal below described slide, described reductor is arranged on described reducer pedestal.

Further, be arranged with bearing below described gear, described bearing is fixed on described reducer pedestal.

Further, described lathe bed is provided with groove, and described tooth bar is located on the sidewall of described groove.

Further, described outsides cover of electric machinery is provided with motor cover.

Further, described motor cover is provided with ventilating heat dissipating hole.

The beneficial effects of the utility model are:

The utility model is reasonable in design, and structure is simple; Coefficient of friction is little, wear-resistant, positioning precision is high; Easy maintenance, can ensure motion state characteristic and the stability of each moving-member; Overall performance improves.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

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

Fig. 2 is the structural representation of line slideway part.

In figure:

1, lathe bed; 2, slide; 3, guide-track groove; 4, motor; 5, reductor; 6, gear; 7, ring flange; 8, reducer pedestal; 9, bearing; 10, tooth bar; 11, groove; 12, motor cover; 13, ventilating heat dissipating hole; 14, line slideway; 15, block slots; 16, briquetting; 17, slide block.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

As depicted in figs. 1 and 2, the numerical control landing milling process bed X-axis structure of the employing line slideway in the present embodiment, comprise lathe bed 1, slide 2 and drive unit, slide 2 is positioned at the top of lathe bed 1, and drive unit is arranged on slide 2 and lathe bed 1.

In the present embodiment, drive unit comprises motor 4, and motor 4 is arranged on slide 2, and slide 2 has reach through hole, and motor 4 is arranged on reach through hole, and motor 4 is connected with gear 6 by reductor 5, and reductor 5 is positioned at reach through hole, and gear 6 is positioned at the below of slide 2.Be fixed with ring flange 7 above gear 6, ring flange 7 is fixed by screws on reductor 5, realizes the connection of gear 6 and reductor 5.Be fixed with reducer pedestal 8 below slide 2, reductor 5 is arranged on reducer pedestal 8.Be arranged with bearing 9 below gear 6, bearing 9 is fixed on reducer pedestal 8.Then gear 6 upper end connects reductor 5 by ring flange 7, and gear 6 lower end is fixed on reducer pedestal 8 by bearing 9.

Lathe bed 1 is provided with the tooth bar 10 engaged with gear 6.In the present embodiment, lathe bed 1 is provided with groove 11, and tooth bar 10 is located on the sidewall of groove 11, and groove 11 is arranged along the line of travel of slide 2.

Lathe bed 1 is provided with three guide-track grooves be arranged in parallel 3, in guide-track groove 3, is fixed with line slideway 14 respectively; Be provided with the block slots 15 be communicated with guide-track groove 3 in the side of guide-track groove 3, block slots 15 internal fixtion has the briquetting 16 for compressing line slideway 14, and line slideway 14 is pressed on the inwall of guide-track groove 3 by briquetting 16.

Be fixed with the slide block 17 coordinated with line slideway 14 below slide 2, slide block 17 is connected slidably with line slideway 14.

Be covered with motor cover 12 outside motor 4, in order to protect motor 4, in order to dispel the heat, motor cover 12 is provided with ventilating heat dissipating hole 13.

The present embodiment course of work: when motor 4 rotates, drive reductor 5 and rotated by a series of connecting band moving gear 6, gear 6 engages with tooth bar 10, drives slide 2 to slide on lathe bed 1 along line slideway 14, completes the feed motion of X-axis.The present embodiment coefficient of friction is little, wear-resistant, positioning precision is high.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (8)

1. adopt a numerical control landing milling process bed X-axis structure for line slideway, it is characterized in that, comprise lathe bed, slide and drive unit, described slide is positioned at the top of lathe bed, and described drive unit is arranged on described slide and lathe bed;

Described lathe bed is provided with guide-track groove, and described guide-track groove internal fixtion has line slideway; Be provided with the block slots be communicated with guide-track groove in the side of described guide-track groove, described block slots internal fixtion has the briquetting for compressing line slideway;

Be fixed with the slide block coordinated with described line slideway below described slide, described slide block is connected slidably with line slideway.

2. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 1, it is characterized in that, described drive unit comprises motor, and described motor is arranged on described slide, described motor via reducer is connected with gear, and described gear is positioned at the below of described slide; Described lathe bed is provided with the tooth bar with described gears meshing.

3. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 2, it is characterized in that, be fixed with ring flange above described gear, described ring flange is fixed by screws on reductor.

4. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 3, it is characterized in that, be fixed with reducer pedestal below described slide, described reductor is arranged on described reducer pedestal.

5. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 4, it is characterized in that, be arranged with bearing below described gear, described bearing is fixed on described reducer pedestal.

6. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 5, it is characterized in that, described lathe bed is provided with groove, and described tooth bar is located on the sidewall of described groove.

7. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 6, it is characterized in that, described outsides cover of electric machinery is provided with motor cover.

8. the numerical control landing milling process bed X-axis structure adopting line slideway as claimed in claim 7, it is characterized in that, described motor cover is provided with ventilating heat dissipating hole.