CN206464882U - Oblique lathe bed digital control lathe with servo direct driving knife tower - Google Patents

Abstract

Oblique lathe bed digital control lathe with servo direct driving knife tower, is related to machinery equipment field.Including bottom lathe bed and the piece-holder chuck assembly and top lathe bed that are arranged on lower bed and are arranged before and after；The top bed is provided with the inclined-plane of top lathe bed and transversely guide rail is provided with cross slide way, cross slide way slides and the installing plate parallel with the inclined-plane of top lathe bed as oblique lathe bed；The servo direct driving knife tower for being provided with from upper oliquely downward inclined longitudinal slide rail, longitudinal slide rail and lateral arrangement being provided with the moving carriage slided along longitudinal slide rail, mobile pallet is installed on installing plate.The utility model is equipped with servo direct driving knife tower, makes tool-changing speed faster, and compared to the oblique lathe bed digital control lathe of conventional hydraulic knife tower, tool-changing speed can lift 23 times.

Description

Oblique lathe bed digital control lathe with servo direct driving knife tower

Technical field

The utility model is related to machinery equipment field, specially a kind of oblique lathe bed digital control lathe with servo direct driving knife tower.

Background technology

The machine components higher to requirement on machining accuracy typically all need to be on lathe with the side cut in modern mechanical manufacturing Method is finally processed, therefore lathe plays significant role in the construction of national economic modernization, and with the numerical control lathe of knife tower Bed processing efficiency and precision are higher, using more extensive.Existing Digit Control Machine Tool typically uses hydraulic turret, there is tool-changing speed Slowly, the problem of reliability relative deficiency.

And the scrap that existing lathe is produced in part process does not take any rational measure, makes scrap heap Product influences the environment of working site on the table top of lathe.

Utility model content

The purpose of this utility model be to provide it is a kind of can effectively solve problem in background with the oblique of servo direct driving knife tower Lathe bed digital control lathe.

The technical scheme of above-mentioned purpose is：Oblique lathe bed digital control lathe with servo direct driving knife tower, it is characterised in that：Including under Portion's lathe bed and the piece-holder chuck assembly and top lathe bed for being arranged on lower bed and being arranged before and after；

Piece-holder chuck assembly includes being provided with servo principal axis, lower bed on main shaft mounting bracket, main shaft mounting bracket The servomotor that driving servo principal axis are rotated is installed, the output end of the servo principal axis is provided with oild chuck, servo principal axis On be also equipped with control oild chuck clamp and unclamp workpiece angling cylinder；

The top bed is provided with cross slide way, cross slide way on the inclined-plane of top lathe bed and is provided with as oblique lathe bed Transversely guide rail is slided and the installing plate parallel with the inclined-plane of top lathe bed, and drive installation plate edge is also equipped with top bed The first drive mechanism that cross slide way is slided；It is provided with installing plate from upper oliquely downward inclined longitudinal slide rail, longitudinal slide rail On be provided with the servo direct driving knife tower that lateral arrangement is provided with the moving carriage slided along longitudinal slide rail, mobile pallet, longitudinal direction The second drive mechanism that driving mobile pallet is slided along longitudinal slide rail is installed on slide rail.

Further, the high order end of installing plate is provided with the flanging formation shield turned down forward.

Further, first drive mechanism and the second drive mechanism are using the driving of ball screw device, and screw mandrel leads to Cross motor driving rotation.

Further, with lower bed scrap splicing groove, is provided with immediately below work pieces process position.

Further, scrap splicing groove includes vertical openings groove and connected with vertical openings groove lower end and diagonally downward The blow tank of setting, the port of export of blow tank runs through forward bottom lathe bed.

The beneficial effects of the utility model：

1st, the utility model is equipped with servo direct driving knife tower, makes tool-changing speed faster, compared to the oblique bed of conventional hydraulic knife tower Body numerically controlled lathe, tool-changing speed can lift 2-3 times.

2nd, the utility model is provided with scrap splicing groove, and splicing container can be placed in the port of export of scrap splicing groove, makes to add Work formation scrap through scrap splicing groove enter splicing container in, it is ensured that site environment it is clean and tidy.

Brief description of the drawings

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

Fig. 2 is side view of the present utility model；

Fig. 3 is the structure chart of scrap splicing groove；

Fig. 4 is the mated condition schematic diagram of longitudinal slide rail and moving carriage.

Embodiment

As Figure 1-4, the utility model includes bottom lathe bed 1 and is arranged on bottom lathe bed 1 and in front and rear arrangement Piece-holder chuck assembly 2 and top lathe bed 3.

Piece-holder chuck assembly 2 includes being provided with servo principal axis 2-2 on main shaft mounting bracket 2-1, main shaft mounting bracket 2-1, Be provided with bottom lathe bed 1 servomotor 2-3, servomotor 2-3 and servo principal axis 2-2 that driving servo principal axis 2-2 rotates it Between connected by belt transmission, servo principal axis 2-2 output end, which is provided with oild chuck 2-4, servo principal axis 2-2, to be also equipped with Oild chuck 2-4 is controlled to clamp and unclamp the angling cylinder 2-5 of workpiece.

Top lathe bed 3 is to be provided with two spaced cross slide ways 4 on oblique lathe bed, the inclined-plane of top lathe bed 3, laterally Transversely guide rail 4 is provided with guide rail 4 to slide and the installing plate 5 parallel with the inclined-plane of top lathe bed 3, the high order end of installing plate 5 It is provided with the flanging formation shield 11 turned down forward；Set in fluted 12, groove 12 and be also equipped between two cross slide ways 4 Drive installation plate 5 transversely guide rail slide 4 the first drive mechanism 6, the first drive mechanism 6 drives for public ball screw Dynamic structure, screw mandrel is driven by motor to be rotated, and drives installing plate 5 to move left and right, concrete structure is not being repeated.

It is provided with and is provided with from upper oliquely downward inclined longitudinal slide rail 7, longitudinal slide rail 7 along longitudinal cunning on installing plate 5 It is provided with the servo direct driving knife tower 9 of lateral arrangement, longitudinal slide rail and is also connected with the moving carriage 8 that rail 7 is slided, mobile pallet 8 There is the second drive mechanism 13 that driving moving carriage 8 is slided, as shown in figure 4, the second drive mechanism 13 is also public rolling Ballscrew driving structure, screw mandrel drives also by motor to be rotated, and concrete structure is not being repeated.

On bottom lathe bed 1, scrap splicing groove 14 is provided with immediately below work pieces process position, scrap splicing groove 14 is wrapped The vertical openings groove 14-1 and blow tank 14-2 for connecting and setting diagonally downward with vertical openings groove 14-1 lower ends is included, is discharged The groove 14-2 port of export runs through forward bottom lathe bed 1.

Claims (5)

1. the oblique lathe bed digital control lathe with servo direct driving knife tower, it is characterised in that：Including bottom lathe bed and being arranged on bottom lathe bed The piece-holder chuck assembly and top lathe bed of arrangement before and after going up and being in；

Piece-holder chuck assembly, which includes being provided with main shaft mounting bracket, main shaft mounting bracket with servo principal axis, lower bed, to be installed There is the servomotor that driving servo principal axis are rotated, the output end of the servo principal axis is provided with oild chuck, servo principal axis also Control oild chuck is installed and clamps and unclamp the angling cylinder of workpiece；

The top bed is provided with cross slide way, cross slide way on the inclined-plane of top lathe bed and is provided with along horizontal stroke as oblique lathe bed Direction guiding rail is slided and the installing plate parallel with the inclined-plane of top lathe bed, and drive installation plate is also equipped with transversely with top bed The first drive mechanism that guide rail is slided；It is provided with and is set from upper oliquely downward inclined longitudinal slide rail, longitudinal slide rail on installing plate It is equipped with the servo direct driving knife tower that lateral arrangement is provided with the moving carriage slided along longitudinal slide rail, mobile pallet, longitudinal slide rail On the second drive mechanism for being slided along longitudinal slide rail of driving mobile pallet is installed.

2. the oblique lathe bed digital control lathe according to claim 1 with servo direct driving knife tower, it is characterised in that：The height of installing plate Position end is provided with the flanging formation shield turned down forward.

3. the oblique lathe bed digital control lathe according to claim 2 with servo direct driving knife tower, it is characterised in that：Described first drives Motivation structure and the second drive mechanism are using the driving of ball screw device, and screw mandrel is driven by motor to be rotated.

4. the oblique lathe bed digital control lathe according to claim 1 with servo direct driving knife tower, it is characterised in that：Bottom lathe bed Above, scrap splicing groove is provided with immediately below work pieces process position.

5. the oblique lathe bed digital control lathe according to claim 4 with servo direct driving knife tower, it is characterised in that：Scrap splicing groove The blow tank for connecting and setting diagonally downward including vertical openings groove and with vertical openings groove lower end, the port of export of blow tank Run through bottom lathe bed forward.