CN106239174A - A kind of oblique bed structure of lathe - Google Patents

Abstract

The present invention provides the oblique bed structure of a kind of lathe, and its good rigidly, chip removal is good, it is little to take up room, precision good.Spindle unit guide rail is fixed on lathe bed, and its axis is along X-direction；Spindle unit guide rail is along the peripheral, oblique of X-axis；Lower Mobile base guide rail is fixed on lathe bed, and its axis is along X-direction；Lower Mobile base is slidably mounted on lower Mobile base guide rail；Lower Mobile base guide rail is along the peripheral, oblique of X-axis；Upper Mobile base guide rail is fixed on lower Mobile base, and its axis is vertical with X-axis, and is acute angle with the angle of horizontal plane；Upper Mobile base is slidably mounted on Mobile base guide rail；Tool rest guide rail is fixed on Mobile base, and its axis is vertical with X-axis, and is acute angle with the angle of the axis of upper Mobile base guide rail；Tool rest is slidably mounted on tool rest guide rail；The flange of flange bearing is fixedly installed；The end of screw mandrel is arranged on the bearing of flange bearing；Clamp nut is fixed on the end of screw mandrel.

Description

A kind of oblique bed structure of lathe

Technical field

The present invention relates to the oblique bed structure of a kind of lathe.

Background technology

Lathe is that main lathe tool carries out the lathe of turnery processing to the workpiece rotated.Lathe can also be used with drill bit, expansion Hole drill, reamer, screw tap, screw die and checkering tool etc. are processed accordingly.

There is following problem in the lathe of prior art:

1, lathe drives cutter when Z-direction and Y direction move, and cutter moves along Z-direction and Y direction respectively, cutter The Z-direction travel mechanism of tool is vertically arranged, and Y direction travel mechanism is horizontally disposed with, such as Application No. 201310323379.5 Chinese patent shown in, the Z-direction travel mechanism of such cutter and Y direction travel mechanism be accomplished by bigger height and Width, causes the overall height of lathe and width too big, and bulky lathe is installed and transport takes up room greatly, and rigidity is the most not Good；And above-mentioned Z-direction travel mechanism and Y direction travel mechanism are unfavorable for chip removal.

2, driver part when uneven in temperature even time, axial flexible different of screw mandrel, stretch the when that winter temperature being low little, Stretch the when of summer temperature height big, cause machining accuracy inconsistent.

Summary of the invention

It is an object of the invention to overcome above-mentioned deficiency present in prior art, and a kind of reasonable in design is provided The oblique bed structure of lathe, its good rigidly, chip removal is good, it is little to take up room, precision good.

The present invention solves the problems referred to above and be the technical scheme is that the oblique bed structure of a kind of lathe, including lathe bed, cutter Base member, track segment and driver part；The X-axis of the space coordinates residing for this lathe, Y-axis, Z axis set as follows: with described Lathe front from the point of view of, X-axis level is put, in the lateral direction；Y-axis level is put, and points to fore-and-aft direction；Z axis vertical pendulum Put, point to above-below direction；Described tool rest parts include tool rest；Described driver part includes screw mandrel, feed screw nut and driving Motor；Drive motor to be connected with screw mandrel, screw mandrel can be driven to rotate；Feed screw nut is arranged on screw mandrel, and screw mandrel makes silk by rotation Stem nut translates on screw mandrel；

It is characterized in that:

Described track segment includes spindle unit guide rail, lower Mobile base guide rail, upper Mobile base guide rail and tool rest guide rail；Described Tool rest parts also include lower Mobile base and upper Mobile base；

Described spindle unit guide rail is fixed on lathe bed, and its axis is along X-direction；Spindle unit guide rail is along the circumference of X-axis Tilt；Lower Mobile base guide rail is fixed on lathe bed, and its axis is along X-direction；Lower Mobile base is slidably mounted on lower Mobile base and leads On rail, lower Mobile base can slide along X-direction on lathe bed；Lower Mobile base guide rail is along the peripheral, oblique of X-axis；Upper Mobile base guide rail It is fixed on lower Mobile base；The axis of upper Mobile base guide rail is vertical with X-axis, and is acute angle with the angle of horizontal plane；Upper movement Seat is slidably mounted on Mobile base guide rail, and upper Mobile base can the axis slip of Mobile base guide rail on edge on lower Mobile base； Tool rest guide rail is fixed on Mobile base, and the axis of tool rest guide rail is vertical with X-axis, and with the axis of upper Mobile base guide rail Angle is acute angle；Tool rest is slidably mounted on tool rest guide rail, and tool rest can be along the axis slip of tool rest guide rail on upper Mobile base；

Described driver part is connected with lower Mobile base, upper Mobile base and tool rest respectively, and lower Mobile base can be driven respectively along X-axis side To slip, upper Mobile base slides along the axis of upper Mobile base guide rail, tool rest slides along the axis of tool rest guide rail；

Described driver part also includes tensile part；Tensile part is arranged on the two ends of screw mandrel, and it includes clamp nut and method Blue bearing；The flange of flange bearing is fixedly installed；The end of screw mandrel is arranged on the bearing of flange bearing；Clamp nut is fixed on The end of screw mandrel, clamp nut coordinates with flange bearing, and flange bearing pushes out clamp nut.

Having bed piece hole on lathe bed of the present invention, run through lathe bed about bed piece hole, its two ends lay respectively at the left and right two of lathe bed On side；Vibration-absorbing material it is filled with in bed piece hole.

Lower Mobile base guide rail of the present invention is 29 °～31 ° with the angle of the angle of horizontal plane.

The axis of upper Mobile base guide rail of the present invention is 29 °～31 ° with the angle of the angle of horizontal plane.

The angle of the angle of the axis of the axis of tool rest guide rail of the present invention and upper Mobile base guide rail be 29 °～ 31°。

Knife rest installing hole is had on tool rest of the present invention.

Being fixedly installed reinforcement on lathe bed of the present invention, reinforcement is fixed together with the hole wall of bed piece hole.

The present invention compared with prior art, has the following advantages and effect: 1, in track segment, each guide rail is obliquely installed, and moves Dynamic seat divide into lower Mobile base and upper Mobile base two parts, and stress has angle so that good rigidly, tilts to make chip removal good, overall Width and height are reasonable, take up room little.2, the flexible difference of screw mandrel when driver part reduces temperature difference, it is ensured that processing essence Degree.

Accompanying drawing explanation

Fig. 1 is the perspective view one of the lathe being provided with the present invention.

Fig. 2 is the perspective view two of the lathe being provided with the present invention.

Fig. 3 be provided with the present invention lathe face structural representation.

Fig. 4 is the left view structural representation of the lathe being provided with the present invention.

Fig. 5 be provided with the present invention lathe look up structural representation.

Fig. 6 is the structural representation of driver part of the present invention.

Fig. 7 is the structural representation of the spindle unit of the lathe being provided with the present invention.

Fig. 8 is the structural representation of the stator module of the lathe being provided with the present invention.

Fig. 9 is the structural representation of the rotor assembly of the lathe being provided with the present invention.

Detailed description of the invention

The present invention is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following example are to this Bright explanation and the invention is not limited in following example.

See Fig. 1～Fig. 9, be provided with the X-axis of space coordinates residing for the lathe of the present invention, Y-axis, Z axis set as follows: From the point of view of the front of the present invention, X-axis level is put, in the lateral direction；Y-axis level is put, and points to fore-and-aft direction；Z axis is vertical Put, point to above-below direction.

The lathe being provided with the present invention includes lathe bed 1, spindle unit 2, tool rest parts 18, track segment and driver part.

Track segment includes spindle unit guide rail 17, lower Mobile base guide rail 22, upper Mobile base guide rail 23 and tool rest guide rail 24.

Tool rest parts 18 include lower Mobile base 19, upper Mobile base 20 and tool rest 21.

Spindle unit 2 includes main spindle box 3, spindle motor and spindle drum 16, and spindle motor includes stator module and rotor set Part.

Spindle motor is arranged on main spindle box 3.

Stator module includes stator 5, bearing 6, permanent magnet 7 and sealing ring 10.

Seal groove 8 and cooling bath 9 is had on the outer surface of stator 5.Cooling bath 9 is spiral type, around the appearance of stator 5 Face, good cooling results.Seal groove 8 is arranged on two ends before and after cooling bath 9.Sealing ring 10 is arranged on seal groove 8.

The outer ring of bearing 6 and permanent magnet 7 are fixed in stator 5, and bearing 6 is arranged on two ends before and after permanent magnet 7.

Rotor assembly includes rotor 11 and steel disc 12.Steel disc 12 is fixedly set on the outer surface of rotor 11.

Rotor assembly is rotatably installed in stator module.The two ends of rotor 11 are rotatably installed on the inner ring of bearing 6.Steel disc 12 rotations are arranged in permanent magnet 7, make main axis by the cooperation of steel disc 12 and permanent magnet 7.

Stator module is fixed in main spindle box 3.Sealing ring 10 contacts with main spindle box 3, is sealed at two ends before and after cooling bath 9 Live, prevent from cooling down oil leakage.

Cooling oil-in 13 and cooling-oil outlet 14 is had on main spindle box 3.One end of cooling oil-in 13 and cooling bath 9 Front end connects, and the other end connects with the extraneous of main spindle box 3；One end of cooling-oil outlet 14 connects with the rear end of cooling bath 9, another Hold and connect with the extraneous of main spindle box 3；Cooling oil injects from cooling oil-in 13, spins flowing along cooling bath 9, flows to from front end Rear end, thus cool down the outer surface of stator 5, finally flow out from cooling-oil outlet 14.

Having cooling oil spill stream runner 15 on main spindle box 3, one end of cooling oil spill stream runner 15 connects with seal groove 8, separately One end connects with the extraneous of main spindle box 3.When the sealing ring 10 in seal groove 8 ruptures and causes cooling down oil inflow, cool down oil spill stream Cooling oil can be discharged by runner 15.

Main spindle box 3 is fixed on spindle drum 16.

Spindle unit 2 is two, for left side spindle unit 2a and the right spindle unit 2b, left side spindle unit 2a and the right Spindle unit about 2b is oppositely arranged on lathe bed 1.Left side spindle unit 2a is fixed on lathe bed 1；The right spindle unit 2b is sliding Being automatically connected on lathe bed 1, it can slide along X-axis on lathe bed 1.Under this structure, left side spindle unit 2a and the right spindle unit 2b can clamp the two ends of workpiece, synchronous axial system workpiece respectively, or clamps two workpiece respectively, synchronizes or asynchronous rotation work Part, convenient processing.

Spindle unit guide rail 17 is fixed on lathe bed 1, and its axis is along X-direction；The spindle drum of the right spindle unit 2b 16 are slidably mounted on spindle unit guide rail 17, and so the right spindle unit 2b is just slidably connected on lathe bed 1, and can be along main shaft Member rail 17 slides along X-axis on lathe bed 1.

The bottom of the spindle drum 16 of spindle unit guide rail 17 and the right spindle unit 2b is all along the peripheral, oblique of X-axis, so The iron filings processed and coolant are just difficult to be accumulated on the spindle drum 16 of spindle unit guide rail 17 and the right spindle unit 2b, Thus chip removal is effective.

Lower Mobile base guide rail 22 is fixed on lathe bed 1, and its axis is along X-direction；Lower Mobile base 19 is slidably mounted on down On Mobile base guide rail 22, so descend Mobile base 19 just can slide along X-direction on lathe bed 1.Lower Mobile base guide rail 22 is along X-axis Peripheral, oblique, lower Mobile base guide rail 22 is 29 °～31 ° with the angle of horizontal plane, structure compact and reasonable the most under this angle；Optimum Changing, lower Mobile base guide rail 22 is 30 ° with the angle of horizontal plane.

Upper Mobile base guide rail 23 is fixed on lower Mobile base 19；The axis of upper Mobile base guide rail 23 is vertical with X-axis, and with The angle of horizontal plane is acute angle, and the angle of this acute angle is 29 °～31 °, structure compact and reasonable the most under this angle；It is optimized, The axis of upper Mobile base guide rail 23 and the angle of horizontal plane are 30 °.Upper Mobile base 20 is slidably mounted on Mobile base guide rail 23 On, so going up Mobile base 20 just can the axis slip of Mobile base guide rail 23 on edge on lower Mobile base 19.

Tool rest guide rail 24 is fixed on Mobile base 20, and the axis of tool rest guide rail 24 is vertical with X-axis, and with upper Mobile base The angle of the axis of guide rail 23 is acute angle, and the angle of this acute angle is 29 °～31 °, structure compact and reasonable the most under this angle；? Optimizing, tool rest guide rail 24 axis is 30 ° with the angle of upper Mobile base guide rail 23 axis.Tool rest 21 is slidably mounted on tool rest On guide rail 24, such tool rest 21 just can be along the axis slip of tool rest guide rail 24 on upper Mobile base 20.

Having knife rest installing hole on tool rest 21, knife rest is arranged on tool rest 21 by knife rest installing hole.By lower Mobile base 19, upper Mobile base 20, the movement of tool rest 21 adjust the position of knife rest.

Having bed piece hole 25 on lathe bed 1, bed piece hole about 25 runs through lathe bed 1, and its two ends lay respectively at the left and right two of lathe bed 1 On side, play the effect eliminating bed piece hole 25 position stress, when there is stress in certain position after lathe bed 1 casts, Can run through to open bed piece hole 25 about this position, thus eliminating the need stress.It is filled with vibration-absorbing material in bed piece hole 25, Vibration-absorbing material plays the effect of absorbing.

Being fixedly installed reinforcement 30 on lathe bed 1, reinforcement 30 is fixed together with the hole wall of bed piece hole 25, plays reinforcement Supporting role.

Driver part includes screw mandrel 26, feed screw nut, tensile part and driving motor 27.

Drive motor 27 to be connected with screw mandrel 26, screw mandrel 26 can be driven to rotate.

Feed screw nut is arranged on screw mandrel 26, and screw mandrel 26 makes feed screw nut translate on screw mandrel 26 by rotation.

Tensile part is arranged on the two ends of screw mandrel 26, and it includes clamp nut 28 and flange bearing 29.Flange bearing 29 Flange is fixedly installed.The end of screw mandrel 26 is arranged on the bearing of flange bearing 29.Clamp nut 28 is fixed on the end of screw mandrel 26 Portion, clamp nut 28 coordinates with flange bearing 29, and flange bearing 29 pushes out clamp nut 28, thus has screw mandrel 26 outwards Pulling force so that screw mandrel 26 is stretching out, the flexible difference of screw mandrel when thus reducing temperature difference, it is ensured that Machining accuracy.

Driver part is four sets.

First set driver part is connected with the right spindle unit 2b, and on the right of driving, spindle unit 2b slides along X-axis, this part Structure be: the screw mandrel 26 of driver part is rotatably installed on lathe bed 1, and its axis is along X-direction；Feed screw nut and the right master The spindle drum 16 of spindle unit 2b is fixed, with regard to spindle unit 2b on the right of driving at lathe bed when such feed screw nut translates on screw mandrel 26 Slide along X-axis on 1；The flange of flange bearing 29 is bolted on lathe bed 1, by under the effect of bolt, and flange bearing 29 push out clamp nut 28.

Second set driver part is connected with lower Mobile base 19, drives lower Mobile base 19 to slide along X-axis, the structure of this part For: the screw mandrel 26 of driver part is rotatably installed on lathe bed 1, and its axis is along X-direction；Feed screw nut is solid with lower Mobile base 19 Fixed, under just driving when such feed screw nut translates on screw mandrel 26, Mobile base 19 slides along X-direction on lathe bed 1；Flange shaft Holding the flange of 29 to be bolted on lathe bed 1, by under the effect of bolt, flange bearing 29 pushes out clamp nut 28

3rd set driver part is connected with upper Mobile base 20, and in driving, Mobile base 20 is sliding along the axis of upper Mobile base guide rail 23 Dynamic, the structure of this part is: the screw mandrel 26 of driver part is rotatably installed on lower Mobile base 19, and its axis is led along upper Mobile base The direction, axis of rail 23, such feed screw nut by under action of gravity downwardly against screw mandrel 26, thus eliminating the need feed screw nut And the gap between screw mandrel 26, good processing accuracy；Feed screw nut fixes with upper Mobile base 20, and such feed screw nut is on screw mandrel 26 The axis slip of upper Mobile base 20 Mobile base guide rail 23 on edge on lower Mobile base 19 is just driven during translation；Flange bearing 29 Flange is bolted on lower Mobile base 19, and by under the effect of bolt, flange bearing 29 pushes out clamp nut 28.

4th set driver part is connected with tool rest 21, drives tool rest 21 to slide along the axis of tool rest guide rail 24, this part Structure be: the screw mandrel 26 of driver part is rotatably installed on Mobile base 20, and its axis is along the axis of tool rest guide rail 24 Direction, such feed screw nut by under action of gravity downwardly against screw mandrel 26, thus eliminating the need between feed screw nut and screw mandrel 26 Gap, good processing accuracy；Feed screw nut fixes with tool rest 21, and such feed screw nut just drives tool rest when translating on screw mandrel 26 21 on upper Mobile base 20 along tool rest guide rail 24 axis slide；The flange of flange bearing 29 is bolted on movement On seat 20, by under the effect of bolt, flange bearing 29 pushes out clamp nut 28.

Furthermore, it is necessary to explanation, the specific embodiment described in this specification, the shape of its parts and components, it is named Titles etc. can be different, and the above content described in this specification is only to present configuration example explanation.

Claims (7)

1. an oblique bed structure for lathe, including lathe bed, tool rest parts, track segment and driver part；Described tool rest portion Part includes tool rest；Described driver part includes screw mandrel, feed screw nut and driving motor；Drive motor to be connected with screw mandrel, can carry Movable wire bar rotates；Feed screw nut is arranged on screw mandrel, and screw mandrel makes feed screw nut translate on screw mandrel by rotation；Residing for this lathe The X-axis of space coordinates, Y-axis, Z axis set as follows: from the point of view of the front of described lathe, X-axis level is put, about sensing Direction；Y-axis level is put, and points to fore-and-aft direction；Z axis vertical display, points to above-below direction；

It is characterized in that:

Described track segment includes spindle unit guide rail, lower Mobile base guide rail, upper Mobile base guide rail and tool rest guide rail；Described Tool rest parts also include lower Mobile base and upper Mobile base；

Described spindle unit guide rail is fixed on lathe bed, and its axis is along X-direction；Spindle unit guide rail is along the circumference of X-axis Tilt；Lower Mobile base guide rail is fixed on lathe bed, and its axis is along X-direction；Lower Mobile base is slidably mounted on lower Mobile base and leads On rail, lower Mobile base can slide along X-direction on lathe bed；Lower Mobile base guide rail is along the peripheral, oblique of X-axis；Upper Mobile base guide rail It is fixed on lower Mobile base；The axis of upper Mobile base guide rail is vertical with X-axis, and is acute angle with the angle of horizontal plane；Upper movement Seat is slidably mounted on Mobile base guide rail, and upper Mobile base can the axis slip of Mobile base guide rail on edge on lower Mobile base； Tool rest guide rail is fixed on Mobile base, and the axis of tool rest guide rail is vertical with X-axis, and with the axis of upper Mobile base guide rail Angle is acute angle；Tool rest is slidably mounted on tool rest guide rail, and tool rest can be along the axis slip of tool rest guide rail on upper Mobile base；

Described driver part is connected with lower Mobile base, upper Mobile base and tool rest respectively, and lower Mobile base can be driven respectively along X-axis side To slip, upper Mobile base slides along the axis of upper Mobile base guide rail, tool rest slides along the axis of tool rest guide rail；

Described driver part also includes tensile part；Tensile part is arranged on the two ends of screw mandrel, and it includes clamp nut and method Blue bearing；The flange of flange bearing is fixedly installed；The end of screw mandrel is arranged on the bearing of flange bearing；Clamp nut is fixed on The end of screw mandrel, clamp nut coordinates with flange bearing, and flange bearing pushes out clamp nut.

The oblique bed structure of lathe the most according to claim 1, it is characterised in that: have bed piece hole, bed piece hole on lathe bed Lathe bed is run through in left and right, and its two ends lay respectively in the left and right sides of lathe bed；Vibration-absorbing material it is filled with in bed piece hole.

The oblique bed structure of lathe the most according to claim 1, it is characterised in that: described lower Mobile base guide rail and level The angle of the angle in face is 29 °～31 °.

The oblique bed structure of lathe the most according to claim 1, it is characterised in that: the axis of described upper Mobile base guide rail Line is 29 °～31 ° with the angle of the angle of horizontal plane.

The oblique bed structure of lathe the most according to claim 1, it is characterised in that: the axis of described tool rest guide rail with The angle of the angle of the axis of upper Mobile base guide rail is 29 °～31 °.

The oblique bed structure of lathe the most according to claim 1, it is characterised in that: have knife rest on described tool rest and install Hole.

The oblique bed structure of lathe the most according to claim 2, it is characterised in that: it is fixedly installed on described lathe bed and adds Strong muscle, reinforcement is fixed together with the hole wall of bed piece hole.