CN205201011U - Mill and bore integrative digit control machine tool - Google Patents

Abstract

The utility model relates to a mill and bore integrative digit control machine tool, including the lathe bed, be provided with the stand on the lathe bed, but be provided with Y on the stand to the slide that removes, it bores the main shaft to be provided with the deep hole on the slide, the one end that the deep hole bored the main shaft is provided with the guide holder, the deep hole bores the main shaft and follows the guide holder is drilld, be close to on the lathe bed but one side of guide holder is provided with X to the workstation that removes, the top of workstation is provided with the crossbeam, the one end of crossbeam with the stand is connected, the other end of crossbeam pass through the support with the lathe bed is connected, but be provided with V on the crossbeam to the post that moves that removes, but be provided with W to the main shaft that removes on moving the post, the lower extreme of main shaft is connected with and mills the main shaft, the main shaft drives mill main shaft W to the removal. Compared with the prior art, the utility model discloses have simultaneously that mill at longmen, vertical milling is bored the function, is made things convenient for processing, save time, is raised the efficiency, is promoted the precision with the deep hole.

Description

One Digit Control Machine Tool is bored in a kind of milling

Technical field

The utility model relates to machine tool technology field, and particularly one Digit Control Machine Tool is bored in a kind of milling.

Background technology

Milling in the market and deep hole machining are all separately carried out, milling work is generally by various vertical machining centre, gantry mill has come, deep hole machining adopts special deep hole drilling machine processing, depth drill generally adopts three-dimensional horizontal type structure, and X-axis drags workbench and runs, and Y-axis vertically pulls slide unit to run up and down, Z axis drives feeding before and after drill rod box, and main shaft is arranged on drill rod box.

General Mould Machining or the existing milling demand of machined, also have drilling deep hole to need ball, and client must be equipped with this two kinds of types, and it is complete to have gone up Cutter Body Processing with Machining Center, unload again, be lifted on deep hole drilling machine, consuming time, effort, waste resource, makes troubles to the processing of needs multiaspect.

Utility model content

Technical problem to be solved in the utility model be to provide a kind of there is gantry mill, vertical milling and depth drill function simultaneously, conveniently process, the milling of the precision that saves time, raises the efficiency, promotes bores one Digit Control Machine Tool.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: one Digit Control Machine Tool is bored in a kind of milling, comprise lathe bed, described lathe bed is provided with column, described column is provided with can the slide plate of Y-direction movement, described slide plate is provided with can the depth drill main shaft of Z-direction movement, one end of described depth drill main shaft is provided with guide holder, and described depth drill main shaft is holed along described guide holder; Described lathe bed is provided with near the side of described guide holder can X to the workbench of movement, the top of described workbench is provided with crossbeam, one end of described crossbeam is connected with described column, the other end of described crossbeam is connected with described lathe bed by bearing, described crossbeam is provided with can V to the dynamic post of movement, described dynamic post is provided with can W to the main shaft of movement, the lower end of described main shaft is connected with milling main shaft, and described main shaft drives described milling main shaft W to movement.

The beneficial effects of the utility model are: dynamic cornice moves milling main shaft V to movement, and main shaft drives milling main shaft W to movement, and workbench can carry out X to movement, realize three-head milling machine function and carry out gantry mill and vertical milling processing to the workpiece on workbench; Slide plate Y-direction moves and drives depth drill main shaft Y-direction to move, and depth drill main shaft Z-direction moves, and workbench can carry out X to movement, realizes three axle depth drill functions and carries out depth drill to the workpiece on workbench; And the workbench that coexists is processed, improve the convenience of processing, avoid disassembling replacing lathe, saved process time, improve working (machining) efficiency; Avoid reinstalling in the process of workpiece and occur error, improve machining accuracy.

On the basis of technique scheme, the utility model can also do following improvement.

Further, the upper end of described column is provided with Y-axis servomotor, and described Y-axis servomotor drives described slide plate Y-direction to move by screw mandrel.

The beneficial effect of above-mentioned further scheme is adopted to be: control slide plate Y-direction by Y-axis servomotor and screw mandrel and move, regulation and control flexibility is high, the accuracy of lifting mobile, promotes machining accuracy.

Further, described slide plate is provided with Z axis servomotor away from one end of described guide holder, and described Z axis servomotor drives described depth drill main shaft Z-direction to move by screw mandrel.

The beneficial effect of above-mentioned further scheme is adopted to be: control depth drill main shaft Z-direction by Z axis servomotor and screw mandrel and move, regulation and control flexibility is high, the accuracy of lifting mobile, promotes machining accuracy.

Further, described depth drill main shaft is provided with spindle motor away from one end of described guide holder, and described spindle motor drives described depth drill main shaft axial rotation.

Adopt the beneficial effect of above-mentioned further scheme to be: to control depth drill main axis by spindle motor, promote flexibility ratio and the machining accuracy of processing.

Further, the lower end of described workbench is provided with X-axis servomotor, and described X-axis servomotor drives described workbench X to movement by screw mandrel.

The beneficial effect of above-mentioned further scheme is adopted to be: control workbench X to movement by X-axis servomotor and screw mandrel, regulation and control flexibility is high, the accuracy of lifting mobile, promotes machining accuracy.

Further, described crossbeam is provided with V axle servomotor, described V axle servomotor drives described dynamic post V to movement by screw mandrel.

The beneficial effect of above-mentioned further scheme is adopted to be: by V axle servomotor and screw mandrel control brake posts V to movement, regulation and control flexibility is high, the accuracy of lifting mobile, promotes machining accuracy.

Further, the upper end of described dynamic post is provided with W axle servomotor, and described W axle servomotor drives described main shaft W to movement by screw mandrel.

The beneficial effect of above-mentioned further scheme is adopted to be: control main shaft W to movement by W axle servomotor and screw mandrel, regulation and control flexibility is high, the accuracy of lifting mobile, promotes machining accuracy.

Further, described lathe bed is also provided with the electric cabinet controlling lathe running, described electric cabinet is placed in the side of described column away from described workbench.

Further, described electric cabinet is connected with the active station of described electric cabinet.

Adopt the beneficial effect of above-mentioned further scheme to be: by active station and electric cabinet, be convenient to set the parameter of processing, be convenient to regulate and control process simultaneously, improve machining accuracy.

Accompanying drawing explanation

Fig. 1 is the structural representation that one Digit Control Machine Tool is bored in a kind of milling of the utility model;

Fig. 2 is the top view of Fig. 1.

In accompanying drawing, the list of parts representated by each label is as follows:

1, lathe bed, 2, column, 3, slide plate, 4, depth drill main shaft, 5, guide holder, 6, workbench, 7, crossbeam, 8, bearing, 9, dynamic post, 10, main shaft, 11, milling main shaft, 12, Y-axis servomotor, 13, Z axis servomotor, 14, spindle motor, 15, X-axis servomotor, 16, V axle servomotor, 17, W axle servomotor, 18, electric cabinet, 19, active station.

Detailed description of the invention

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

As depicted in figs. 1 and 2, one Digit Control Machine Tool is bored in a kind of milling, comprise lathe bed 1, described lathe bed 1 is provided with column 2, described column 2 is provided with can the slide plate 3 of Y-direction movement, described slide plate 3 is provided with can the depth drill main shaft 4 of Z-direction movement, and one end of described depth drill main shaft 4 is provided with guide holder 5, and described depth drill main shaft 4 is holed along described guide holder 5; Described lathe bed 1 is provided with near the side of described guide holder 5 can X to the workbench 6 of movement, the top of described workbench 6 is provided with crossbeam 7, one end of described crossbeam 7 is connected with described column 2, the other end of described crossbeam 7 is connected with described lathe bed 1 by bearing 8, described crossbeam 7 is provided with can V to the dynamic post 9 of movement, described dynamic post 9 is provided with can W to the main shaft 10 of movement, the lower end of described main shaft 10 is connected with milling main shaft 11, and described main shaft 10 drives described milling main shaft 11W to movement; Y-direction is vertical direction, and Z-direction is laterally, and X is to for longitudinally, and V is to being transverse direction, and W is to being longitudinally.

Preferably, the upper end of described column 2 is provided with Y-axis servomotor 12, and described Y-axis servomotor 12 drives described slide plate 3Y to movement by screw mandrel.

Preferably, described slide plate 3 is provided with Z axis servomotor 13 away from one end of described guide holder 5, and described Z axis servomotor 13 drives described depth drill main shaft 4Z to movement by screw mandrel.

Preferably, described depth drill main shaft 4 is provided with spindle motor 14 away from one end of described guide holder 5, and described spindle motor 14 drives described depth drill main shaft 4 axial rotation.

Preferably, the lower end of described workbench 6 is provided with X-axis servomotor 15, and described X-axis servomotor 15 drives described workbench 6X to movement by screw mandrel.

Preferably, described crossbeam 7 is provided with V axle servomotor 16, described V axle servomotor 16 drives described dynamic post 9V to movement by screw mandrel.

Preferably, the upper end of described dynamic post 9 is provided with W axle servomotor 17, and described W axle servomotor 17 drives described main shaft 10W to movement by screw mandrel.

Preferably, described lathe bed 1 is also provided with the electric cabinet 18 controlling lathe running, described electric cabinet 18 is placed in the side of described column 2 away from described workbench 6.

Preferably, described electric cabinet 18 is connected with the active station 19 of described electric cabinet 18.

Implement this device, workbench 6 is arranged on lathe bed 1, move axially along lathe bed 1X, slide plate 3 is placed on column 2, move axially along column 2Y, depth drill main shaft 4 can move axially at slide plate 3Z, and drill gun loaded onto by depth drill main shaft 4, can drilling deep hole, one meter to two meters can be reached according to lathe size drilling depth;

Bearing 8 is vertically connected in lathe bed 1, and crossbeam 7 level is fixed between column 2 and bearing 8, and dynamic post 9 moves axially along crossbeam 7V, milling spindle 10 is arranged on dynamic post 9, and main shaft 10W can to the workpiece feeding processing on workbench 6 to movement.

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 (9)

1. one Digit Control Machine Tool is bored in a milling, comprise lathe bed (1), it is characterized in that: described lathe bed (1) is provided with column (2), described column (2) is provided with can the slide plate (3) of Y-direction movement, described slide plate (3) is provided with can the depth drill main shaft (4) of Z-direction movement, one end of described depth drill main shaft (4) is provided with guide holder (5), and described depth drill main shaft (4) is holed along described guide holder (5), the upper side near described guide holder (5) of described lathe bed (1) be provided with can X to the workbench (6) of movement, the top of described workbench (6) is provided with crossbeam (7), one end of described crossbeam (7) is connected with described column (2), the other end of described crossbeam (7) is connected with described lathe bed (1) by bearing (8), described crossbeam (7) is provided with can V to the dynamic post (9) of movement, described dynamic post (9) is provided with can W to the main shaft (10) of movement, the lower end of described main shaft (10) is connected with milling main shaft (11), described main shaft (10) drives described milling main shaft (11) W to movement.

2. one Digit Control Machine Tool is bored in a kind of milling according to claim 1, it is characterized in that: the upper end of described column (2) is provided with Y-axis servomotor (12), described Y-axis servomotor (12) drives described slide plate (3) Y-direction to move by screw mandrel.

3. one Digit Control Machine Tool is bored in a kind of milling according to claim 1, it is characterized in that: described slide plate (3) is provided with Z axis servomotor (13) away from one end of described guide holder (5), described Z axis servomotor (13) drives described depth drill main shaft (4) Z-direction to move by screw mandrel.

4. one Digit Control Machine Tool is bored in a kind of milling according to claim 1, it is characterized in that: described depth drill main shaft (4) is provided with spindle motor (14) away from one end of described guide holder (5), described spindle motor (14) drives described depth drill main shaft (4) axial rotation.

5. one Digit Control Machine Tool is bored in a kind of milling according to claim 1, it is characterized in that: the lower end of described workbench (6) is provided with X-axis servomotor (15), described X-axis servomotor (15) drives described workbench (6) X to movement by screw mandrel.

6. one Digit Control Machine Tool is bored in a kind of milling according to claim 1, it is characterized in that: described crossbeam (7) is provided with V axle servomotor (16), described V axle servomotor (16) drives described dynamic post (9) V to movement by screw mandrel.

7. one Digit Control Machine Tool is bored in a kind of milling according to claim 1, it is characterized in that: the upper end of described dynamic post (9) is provided with W axle servomotor (17), described W axle servomotor (17) drives described main shaft (10) W to movement by screw mandrel.

8. according to any one of claim 1 to 7, one Digit Control Machine Tool is bored in a kind of milling, it is characterized in that: described lathe bed (1) is also provided with the electric cabinet (18) controlling lathe running, described electric cabinet (18) is placed in the side of described column (2) away from described workbench (6).

9. one Digit Control Machine Tool is bored in a kind of milling according to claim 8, it is characterized in that: described electric cabinet (18) is connected with the active station (19) of described electric cabinet (18).