CN106216717A - Longitudinal tool structure on lathe - Google Patents

Abstract

The present invention relates to the longitudinal tool structure on a kind of lathe, feature is to include longitudinally fixed plate, Z-direction motor, Z-direction nc sliding table, Y-direction motor, Y-direction nc sliding table and longitudinal tool；Longitudinally fixed plate is fixedly mounted on main shaft geared head；Z-direction nc sliding table is arranged on longitudinally fixed plate and can slide anteroposterior；Z-direction motor is arranged on longitudinally fixed plate, is provided with Z-direction screw rod on the output shaft of Z-direction motor, and Z-direction screw rod is threadeded with Z-direction nc sliding table thus driven Z-direction nc sliding table to move forward and backward；Y-direction nc sliding table is arranged on Z-direction nc sliding table and can slide up and down, Y-direction motor is arranged on Y-direction nc sliding table, being provided with Y-direction screw rod on the output shaft of Y-direction motor, Y-direction screw rod is threadeded with Z-direction nc sliding table thus is driven and move up and down on Y-direction nc sliding table；Longitudinal tool is arranged on Y-direction nc sliding table.Its advantage is: the range of work is big, and stroke is long, and the energy diversified part of machining shape, ferrum pin is not wrapped on cutter.

Description

Longitudinal tool structure on lathe

Technical field

The present invention relates to the longitudinal tool structure on a kind of lathe.

Background technology

At present, existing lathe includes a nc sliding table, is provided with cutter on described nc sliding table.During use, numerical control Nc sliding table on lathe can only be at a move in plane, and the cutter on such nc sliding table need to be processed respectively by putting in order Part, it is impossible to multi-direction be simultaneously processed part, working (machining) efficiency is low, and processing stroke is short；Due also to the meeting when processing part Producing ferrum pin, ferrum pin can be wrapped on cutter, need artificial removal, wastes substantial amounts of time and manpower.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art to provide the longitudinal tool structure on a kind of lathe, on lathe Cutter can synchronous processing part from different perspectives, the range of work is big, and stroke is long, the part shape variation after processing, cutter After tool processing part, produced ferrum pin is owing to self gravitation drops thus is not wrapped on cutter, it is not necessary to artificial removal, joint Making an appointment, save manpower, quality is good.

In order to achieve the above object, the technical scheme is that and be achieved in that, it is the longitudinal knife on a kind of lathe Lamps structure, it is characterised in that including:

Longitudinally fixed plate；Described longitudinally fixed plate is fixedly mounted on main shaft geared head；

Z-direction motor and Z-direction nc sliding table；Described Z-direction nc sliding table is arranged on longitudinally fixed plate and can slide anteroposterior；Described Z It is arranged on longitudinally fixed plate to motor, the output shaft of Z-direction motor is provided with Z-direction screw rod, described Z-direction screw rod and Z-direction numerical control Slide unit is threaded thus drives Z-direction nc sliding table movable on longitudinally fixed plate；

Y-direction motor and Y-direction nc sliding table；Described Y-direction nc sliding table is arranged on Z-direction nc sliding table and can slide up and down, described Y It is arranged on Y-direction nc sliding table to motor, the output shaft of Y-direction motor is provided with Y-direction screw rod, described Y-direction screw rod and Z-direction number Control slide unit is threaded thus drives Y-direction nc sliding table to move up and down on Z-direction nc sliding table；And

Longitudinal tool；Described longitudinal tool is arranged on Y-direction nc sliding table.

In the technical program, described Z-direction nc sliding table is provided with Z-direction nut, described Z-direction screw rod and Z-direction nut spiral shell Stricture of vagina coordinates thus drives Z-direction nc sliding table movable on longitudinally fixed plate；Described Z-direction nc sliding table is provided with Y-direction spiral shell Mother, described Y-direction screw rod coordinates with Y-direction nut thread thus drives Y-direction nc sliding table to move up and down on Z-direction nc sliding table.

In the technical program, it is respectively equipped with sliding sleeve up and down, at described Z-direction nc sliding table at described longitudinally fixed plate Being installed with slide rail the most respectively, described sliding sleeve is set on the slide rail of correspondence and can relatively slide.

In the technical program, described Y-direction nc sliding table is provided with Y-direction chute, described Z axis nc sliding table is provided with Y-direction is protruding, and described Y-direction projection is located in Y-direction chute and can relatively slide so that Y-direction nc sliding table is on Z-direction nc sliding table Moving up and down of orientation.

Present invention advantage compared with prior art is: owing to being provided with some cutters, machine on lathe spindle geared head Cutter on bed and the cutter on main shaft geared head can synchronous processing part from different perspectives, the range of work is big, and stroke is long, energy The diversified part of machining shape；Ferrum pin produced by after tool sharpening part on main shaft geared head drops due to self gravitation Thus be not wrapped on cutter, it is not necessary to artificial removal, to save the time, save manpower, quality is good.

Accompanying drawing explanation

Fig. 1 is the axonometric chart in a kind of orientation of the present invention；

Fig. 2 is the axonometric chart in another kind orientation of the present invention；

Fig. 3 is the top view of the present invention；

Fig. 4 is the side view of the present invention；

Fig. 5 is the A-A sectional view of Fig. 3；

Fig. 6 is the B-B sectional view of Fig. 4.

Detailed description of the invention

Below in conjunction with the accompanying drawings the detailed description of the invention of the present invention is described further.At this it should be noted that for The explanation of these embodiments is adapted to assist in and understands the present invention, but is not intended that limitation of the invention.Additionally, it is disclosed below As long as each embodiment of the present invention in involved technical characteristic do not constitute conflict each other and just can be combined with each other.

In the present description, term " on ", D score, "left", "right", the orientation of the instruction such as " front " and " afterwards " or position Relation is based on orientation shown in the drawings or position relationship, is for only for ease of the description present invention rather than requires that the present invention is necessary With specific azimuth configuration and operation, therefore it is not considered as limiting the invention.

As shown in Figures 1 to 6, it is the longitudinal tool structure on a kind of lathe, including:

Longitudinally fixed plate 2；Described longitudinally fixed plate 2 is fixedly mounted on main shaft geared head 1；

Z-direction motor 3 and Z-direction nc sliding table 4；Described Z-direction nc sliding table 4 is arranged on longitudinally fixed plate 2 and can slide anteroposterior；Institute State Z-direction motor 3 to be arranged on longitudinally fixed plate 2, the output shaft of Z-direction motor 3 is provided with Z-direction screw rod 31, described Z-direction screw rod 31 Threadeding with Z-direction nc sliding table 4, so when Z-direction motor 3 drives Z-direction screw rod 31 to rotate, Z-direction screw rod 31 drives Z-direction numerical control Slide unit 4 is movable on longitudinally fixed plate 2；

Y-direction motor 5 and Y-direction nc sliding table 6；Described Y-direction nc sliding table 6 is arranged on Z-direction nc sliding table 4 and can slide up and down, Described Y-direction motor 5 is arranged on Y-direction nc sliding table 6, is provided with Y-direction screw rod 51, described Y-direction on the output shaft of Y-direction motor 5 Screw rod 51 is threadeded with Z-direction nc sliding table 4, and so when Y-direction motor 5 drives Y-direction screw rod 51 to rotate, Y-direction screw rod 51 drives Y Move up and down on Z-direction nc sliding table 4 to nc sliding table 6；And

Longitudinal tool 7；Described longitudinal tool 7 is arranged on Y-direction nc sliding table 6.

During use, when longitudinal tool 7 needs to seesaw, Z-direction motor 3 drives Z-direction nc sliding table 4 at longitudinally fixed plate Seesaw on 2, thus promote longitudinal tool 7 to seesaw；When longitudinal tool 7 needs to move up and down, Y-direction motor 5 drives Y Move up and down on Z-direction nc sliding table 4 to nc sliding table 6, thus promote longitudinal tool 7 to move up and down, thus reach energy longitudinally The purpose of processing part.

In the present embodiment, described Z-direction nc sliding table 4 is provided with Z-direction nut 41, described Z-direction screw rod 31 and Z-direction nut 41 threaded engagement, i.e. Z-direction nut 41 be set on Z-direction screw rod 31 and threaded engagement thus drive Z-direction nc sliding table 4 longitudinally solid Determine on plate 2 movable；Described Z-direction nc sliding table 4 is provided with Y-direction nut 42, described Y-direction screw rod 51 and Y-direction nut 42 spiral shell Stricture of vagina coordinates thus drives Y-direction nc sliding table 6 to move up and down on Z-direction nc sliding table 4.

In the present embodiment, sliding sleeve 21 it is respectively equipped with up and down, at described Z-direction nc sliding table 4 at described longitudinally fixed plate 2 Be installed with slide rail 42 the most respectively, described sliding sleeve 21 be set in correspondence slide rail 42 on and can relatively slide, such Z-direction Nc sliding table 4 can move before and after positioning on longitudinally fixed plate 2.

In the present embodiment, described Y-direction nc sliding table 6 is provided with Y-direction chute 62, described Z axis nc sliding table 4 sets Having Y-direction projection 43, described Y-direction projection 43 is located in Y-direction chute 62 and can relatively slide, so that Y-direction nc sliding table 6 is in Z-direction On nc sliding table 4, orientation moves up and down.

Above in association with accompanying drawing, embodiments of the present invention are explained in detail, but the present invention is not limited to described reality Execute mode.For the ordinary skill in the art, to these in the case of without departing from the principle of the present invention and objective Embodiment carries out multiple change, revises, replaces and deform and still fall within the scope of the present invention.

Claims (4)

1. the longitudinal tool structure on a lathe, it is characterised in that including:

Longitudinally fixed plate (2)；Described longitudinally fixed plate (2) is fixedly mounted on main shaft geared head (1)；

Z-direction motor (3) and Z-direction nc sliding table (4)；Described Z-direction nc sliding table (4) be arranged on longitudinally fixed plate (2) upper and can before Rear slip；Described Z-direction motor (3) is arranged on longitudinally fixed plate (2), is provided with Z-direction screw rod on the output shaft of Z-direction motor (3) (31), described Z-direction screw rod (31) threadeds with Z-direction nc sliding table (4) thus drives Z-direction nc sliding table (4) longitudinally fixed Plate (2) is upper movable；

Y-direction motor (5) and Y-direction nc sliding table (6)；Described Y-direction nc sliding table (6) is arranged on Z-direction nc sliding table (4) and above and can go up Lower slider, described Y-direction motor (5) is arranged on Y-direction nc sliding table (6), is provided with Y-direction spiral shell on the output shaft of Y-direction motor (5) Bar (51), described Y-direction screw rod (51) threadeds with Z-direction nc sliding table (4) thus drives Y-direction nc sliding table (6) in Z-direction numerical control Slide unit moves up and down on (4)；And

Longitudinal tool (7)；Described longitudinal tool (7) is arranged on Y-direction nc sliding table (6).

Longitudinal tool structure on lathe the most according to claim 1, it is characterised in that described Z-direction nc sliding table (4) Being provided with Z-direction nut (41), described Z-direction screw rod (31) is with Z-direction nut (41) threaded engagement thus drives Z-direction nc sliding table (4) Upper movable at longitudinally fixed plate (2)；Described Z-direction nc sliding table (4) is provided with Y-direction nut (42), described Y-direction screw rod (51) with Y-direction nut (42) threaded engagement thus drive Y-direction nc sliding table (6) to move up and down on Z-direction nc sliding table (4).

Longitudinal tool structure on lathe the most according to claim 1, it is characterised in that described longitudinally fixed plate (2) It is respectively equipped with sliding sleeve (21) up and down, is installed with slide rail (42), described cunning the most respectively described Z-direction nc sliding table (4) Set (21) is set in the slide rail (42) of correspondence and above and can relatively slide.

Longitudinal tool structure on lathe the most according to claim 1, it is characterised in that described Y-direction nc sliding table (6) Being provided with Y-direction chute (62), be provided with Y-direction protruding (43) on described Z axis nc sliding table (4), described Y-direction protruding (43) is located at Y In chute (62) and can relatively slide so that Y-direction nc sliding table (6) moving up and down in the upper orientation of Z-direction nc sliding table (4).