CN205614068U - Machine tool - Google Patents

Abstract

The utility model provides a machine tool, which comprises a worktable, and install workstation and the lathe tool feeding device on this board, this workstation is used for placing the work piece of treating processing, neighbouring this workstation of this lathe tool feeding device just includes actuator module and is used for installing the movable plate of doing of a lathe tool, under this actuator module's drive, this is made the movable plate and can follow relative this board of first direction and continuously make reciprocating motion in order to process this work piece, this machine tool still includes positioner, this positioner is including the slip table of fixing a position the driving piece and being connected with this location driving piece, this location driving piece is installed on this board, this actuator module is connected with this slip table, under the drive of this location driving piece, this slip table can drive this lathe tool feeding device along relative this board motion of this first direction, with a processing position that is positioned this lathe tool feeding device neighbouring this workstation, can be applicable to not co -altitude work piece processing, the commonality has been strengthened.

Description

Lathe

Technical field

This utility model relates to a kind of processing unit (plant), particularly relates to a kind of lathe.

Background technology

Commercial production usually needs utilize lathe that surface of the work is processed.When to surface of the work requirement on machining accuracy higher time, can be realized by the feed arrangement being arranged on board.This feed arrangement generally includes drive mechanism and cutter.Drive mechanism is installed on board and can drive cutter persistently to make high speed reciprocating feed towards workpiece, meanwhile, workpiece relative to feed arrangement transverse shifting to coordinate workpiece processing tool surface.But, for improving working (machining) efficiency, the processing stroke that the drive mechanism of this kind of feed arrangement can reach is the least, and it is only applicable to the processing of certain height workpiece, and versatility is poor.

Utility model content

In view of foregoing, it is necessary to provide a kind of lathe that can be applicable to differing heights work pieces process.

A kind of lathe, including board, and it is installed in the workbench on this board and lathe tool feed arrangement, this workbench is for placing workpiece to be processed, this lathe tool feed arrangement is adjacent to this workbench and includes driving module and for installing the start plate of a lathe tool, under the driving of this driving module, this start plate can continue reciprocating to process this workpiece relative to this board in the first direction, this lathe also includes positioner, this positioner includes Locating driver part and the slide unit being connected with this Locating driver part, this Locating driver part is installed on this board, this driving module is connected with this slide unit, under the driving of this Locating driver part, this slide unit can drive this lathe tool feed arrangement to move along this first direction relative to this board, this lathe tool feed arrangement to be positioned generally proximate a Working position of this workbench.

Further, this board being provided with the first slide rail, this slide unit is provided with the first guide rail, this first slide rail and this first guide rail all extend along this first direction, and this first guide rail is slidably matched with this first slide rail, so that this slide unit is slidingly arranged on this board.

Further, this workbench includes the first translation mechanism and the second translation mechanism, this first translation mechanism is installed on this board, this second translation mechanism is installed on this first translation mechanism, this first translation mechanism can drive this workpiece to move along the second direction vertical with this first direction, and this second translation mechanism can drive this workpiece to move along the third direction the most vertical with this first direction and this second direction.

Further, this workbench also includes rotary drive, and this rotary drive is installed on this second translation mechanism, to drive this workpiece to rotate around the axis of this first direction parallel.

Further, this lathe tool feed arrangement also includes the mounting seat being installed on this slide unit, and this start plate slides with this mounting seat and connects, and this driving module is installed between this mounting seat and this start plate, and is connected with this slide unit by this mounting seat.

Further, this mounting seat is provided with the second slide rail, and this start plate is provided with the second guide rail, and this second slide rail and this second guide rail all extend along this first direction, and this second guide rail is slidably matched with this second slide rail, so that this start plate is slidingly arranged in this mounting seat.

Further, this driving module is linear electric motors, and these linear electric motors include mover and stator, this mover is installed on this start plate, this stator is installed in this mounting seat, and this mover coordinates with this stator magnetic, so that this mover drives this start plate to move reciprocatingly relative to this mounting seat.

Further, this Locating driver part includes the motor being fixedly installed on this board, the screw mandrel being connected on this motor and is sheathed on the nut on this screw mandrel actively, this screw mandrel is parallel to this first direction, and this nut coordinates with this wire rod thread, and this slide unit connects with this nut.

Further, this lathe also includes counterweight cylinder, and this counterweight cylinder one end is fixed on this slide unit, and the other end is fixed on this start plate.

Further, this lathe also includes the cutter holding apparatus being installed on this slide unit and this lathe tool feed arrangement neighbouring is arranged.

Lathe of the present utility model, increases a positioner on board, and is installed on the positioning device by lathe tool feed arrangement.When the workpiece height of required processing exceeds the feed distance of lathe tool feed arrangement, lathe can drive lathe tool feed arrangement to move by positioner before processing, lathe tool is positioned in the feed distance of lathe tool feed arrangement, so that lathe can process the workpiece of differing heights, add versatility.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the lathe of this utility model embodiment.

Fig. 2 is that lathe shown in Fig. 1 is at the schematic perspective view at another visual angle.

Fig. 3 is the supporter of lathe shown in Fig. 1, positioner and the schematic perspective view of lathe tool feed arrangement.

Fig. 4 is the decomposed schematic diagram of supporter shown in Fig. 3, positioner and lathe tool feed arrangement.

Fig. 5 is the Fig. 4 schematic diagram at another visual angle.

Main element symbol description

Lathe	100
		Board	20
Pedestal	22
		Supporter	24
First slide rail	242
		Positioner	40
Locating driver part	42
		Motor	423
Screw mandrel	425
		Nut	427
Slide unit	44
		First guide rail	442
Lathe tool feed arrangement	60
		Mounting seat	62
Second slide rail	623
		Drive module	64
Mover	642
		Stator	644
Start plate	66
		Second guide rail	662
Counterweight cylinder	68
		Cylinder body	682
The gimbal lever	684
		Lathe tool	72
Clamping lathe tool mechanism	74
		Cutter holding apparatus	76
Clamping arm	77
		Tool magazine	78
Workbench	80
		First translation mechanism	82
First driven in translation part	822
		First sliding panel	824
Second translation mechanism	84
		Second driven in translation part	842
Second sliding panel	844
		Rotary drive	86
Milling cutter	300

Following detailed description of the invention will further illustrate this utility model in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

It should be noted that be referred to as " being fixed on " another assembly when assembly, it can be directly on another assembly or can also there is assembly placed in the middle.When an assembly is considered as " connection " another assembly, and it can be directly to another assembly or may be simultaneously present assembly placed in the middle.When an assembly is considered as " being arranged at " another assembly, and it can be to be set directly on another assembly or may be simultaneously present assembly placed in the middle.Term as used herein " vertical ", " level ", "left", "right" and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model are generally understood that.It is intended merely to describe the purpose of specific embodiment at term used in the description of the present utility model herein, it is not intended that in limiting this utility model.Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

Referring to Fig. 1 and Fig. 2, the lathe 100 of this utility model embodiment, including board 20, workbench 80, positioner 40 and lathe tool feed arrangement 60.Workbench 80 is installed on board 20.Workbench 80 is for placing a workpiece (not shown) to be processed.Positioner 40 is installed on board 20 and neighbouring workbench 80.Lathe tool feed arrangement 60 is connected with positioner 40, and can under the driving of positioner 40 in the first direction Z move relative to board 20, to be positioned generally proximate a Working position of workbench 80.

Board 20 includes pedestal 22 and the supporter 24 of connection substantially vertical with pedestal 22.Two the first parallel slide rails 242 it are provided with on supporter 24.In the present embodiment, each first slide rail 242 Z along a first direction extends.

Positioner 40 is installed on supporter 24 and is positioned at the top of pedestal 22.Please also refer to Fig. 4, positioner 40 includes Locating driver part 42 and the slide unit 44 being connected with Locating driver part 42.Locating driver part 42 is installed on supporter 24, in order to drive slide unit 44 Z in the first direction to move.In the present embodiment, Locating driver part 42 includes being installed in screw mandrel 425 that supporter 24 away from the motor 423 on pedestal 22 one end, is connected on motor 423 and is sheathed on the nut 427 on screw mandrel 425 actively.The bearing of trend of screw mandrel 425 is parallel with first direction Z.Nut 427 and screw mandrel 425 threaded engagement.Slide unit 44 is connected with nut 427, with under the power of motor 423, by coordinating of screw mandrel 425 and nut 427, makes slide unit 44 Z motion in the first direction on supporter 24.Slide unit 44 is additionally provided with four the first guide rails 442 towards the side of supporter 24.Four the first guide rails 442 are that one group of interval is arranged and each group of the first guide rail 442 Z in the first direction extends two-by-two.Two group of first guide rail 442 is slidably matched, so that slide unit 44 is slidingly arranged on supporter 24 with two the first slide rails 242 respectively.

Lathe tool feed arrangement 60 is installed on slide unit 44 and between slide unit 44 and pedestal 22.Lathe tool feed arrangement 60 includes mounting seat 62, drives module 64 and for installing the start plate 66 of a lathe tool 72.Mounting seat 62 is installed on the slide unit 44 side towards pedestal 22.Module 64 is driven to be installed between mounting seat 62 and start plate 66, for driving man-hour start plate 66 Z to be in the first direction mounted opposite seat 62 to continue the most reciprocating adding.In the present embodiment, driving module 64 is linear electric motors, and linear electric motors include mover 642 and stator 644.Mover 642 is installed in start plate 66, and stator 644 is installed in mounting seat 62, and mover 642 coordinates with stator 644 magnetic, moves back and forth at a high speed so that mover 642 drives start plate 66 and lathe tool 72 to be mounted opposite seat 62.In the present embodiment, lathe tool 72 is immobilizated on start plate 66 by a clamping lathe tool mechanism 74, and the cutting workpiece when Z's start plate 66 moves towards workbench 80 in the first direction every time.

In the present embodiment, mounting seat 62 also sets up two the second parallel slide rails 623 towards the side of start plate 66, and two the second slide rails 623 lay respectively at opposite sides and the Z extension in the first direction of stator 644.Start plate 66 arranges four the second guide rail 662(towards corresponding two second slide rails 623 in side of mounting seat 62 and refers to Fig. 5).Four the second guide rails 662 are that one group of interval is arranged two-by-two, often organize the second guide rail 662 Z in the first direction and extend.Two group of second guide rail 662 is positioned at the opposite sides of mover 642 and is slidably matched with two the second slide rails 623 respectively, guides with the reciprocating motion to start plate 66.

The most referring also to Fig. 3 and Fig. 4, lathe tool feed arrangement 60 may also include a counterweight cylinder 68.Counterweight cylinder 68 includes cylinder body 682 and the gimbal lever 684 being slidably connected on cylinder body 682.Cylinder body 682 is fixed on slide unit 44, and the gimbal lever 684 Z in the first direction extends, and it is fixed on start plate 66 away from one end of cylinder body 682.When clamping lathe tool mechanism 74 and lathe tool 72 move back and forth at a high speed with start plate 66 Z in the first direction, pull and support effect due to counterweight cylinder 68, it is possible to the gravity of balance clamping lathe tool mechanism 74 so that its power is constant, adds the stability of lathe tool feed arrangement 60.It is appreciated that counterweight cylinder 68 can also be for two or more.

Referring again to Fig. 2, slide unit 44 also sets up a cutter holding apparatus 76 on the one end away from supporter 24.In the present embodiment, cutter holding apparatus 76 is used for clamping milling cutter 300, and drives milling cutter 300 to rotate, so that workpiece is carried out milling, so that lathe 100 possesses the function of turning-milling complex processing around the axis of parallel first direction Z.It is appreciated that cutter holding apparatus 76 can also be used for clamping other cutters such as scraper, planing tool.

The most referring also to Fig. 1 and Fig. 2, lathe 100 may also include two clamping arms 77 and a tool magazine 78.Two clamping arms 77 are installed on supporter 24 away from one end of pedestal 22 and be positioned at the opposite sides of motor 423.Tool magazine 78 is for storing knifes, and it is installed on two clamping arms 77 and is positioned at the cutter holding apparatus 76 side away from supporter 24.

In the present embodiment, workbench 80 is installed on pedestal 22 and is positioned at the lower section of lathe tool feed arrangement 60.Workbench 80 includes the first translation mechanism the 82, second translation mechanism 84 and rotary drive 86.First translation mechanism 82 is installed on pedestal 22, and the second translation mechanism 84 is installed on the first translation mechanism 82, and rotary drive 86 is installed on the second translation mechanism 84.First translation mechanism 82 can drive the second translation mechanism 84 and rotary drive 86 to move along second direction X vertical with first direction Z, second translation mechanism 84 can drive rotary drive 86 to rotate around the axis of parallel this first direction Z along the third direction Y motion the most vertical with first direction Z and second direction X, rotary drive 86 for driving workpiece placed thereon.It is appreciated that the second translation mechanism 84 can omit, rotary drive 86 directly can be installed on the first translation mechanism 82.

First translation mechanism 82 specifically includes the first driven in translation part 822 and the first sliding panel 824 being connected with the first driven in translation part 822, and the first sliding panel 824 X in a second direction is installed on pedestal 22 slidably.The structure of the first driven in translation part 822 is roughly the same with the structure of Locating driver part 42, it is similarly screw mandrel drive mechanism, under the power of motor, by coordinating of screw mandrel and nut, make the X reciprocating motion in a second direction on pedestal 22 of the first sliding panel 824, for omitting length, it is not described in detail.Second translation mechanism 84 specifically includes the second driven in translation part 842 and the second sliding panel 844 being connected with the second driven in translation part 842, and the second sliding panel 844 is installed on the first sliding panel 824 slidably along third direction Y.The structure of the second driven in translation part 842 is roughly the same with the structure of Locating driver part 42, it is similarly screw mandrel drive mechanism, under the power of motor, by coordinating of screw mandrel and nut, make the X reciprocating motion in a second direction on the first sliding panel 824 of the second sliding panel 844, for omitting length, it is not described in detail.Rotary drive 86 is direct-driving motor, and it is installed on the second sliding panel 844.

When assembling lathe 100, workbench 80 is installed on pedestal 22.Positioner 40 is installed on supporter 24 slidably.Lathe tool feed arrangement 60 is installed on the slide unit 44 of positioner 40, cutter holding apparatus 76 is installed on slide unit 44 and is positioned at the lathe tool feed arrangement 60 side away from supporter 24.Two clamping arms 77 are installed on supporter 24, tool magazine 78 are installed on two clamping arms 77 and are positioned at the cutter holding apparatus 76 side away from supporter 24.

When using lathe 100 that workpiece is carried out turnery processing, first, workpiece is placed on rotary drive 86.By the effect of the first translation mechanism 82 and the second translation mechanism 84, workpiece is positioned at the appropriate location below lathe tool feed arrangement 60, lathe tool feed arrangement 60 Z in the first direction is driven to move to appropriate location with post-positioning device 40 according to the height of workpiece, so that workpiece is in the feed distance driving module 64.Add man-hour, rotary drive 86 drives workpiece to rotate, by magnetive attraction between stator 644 and mover 642, make mover 642 drive lathe tool 72 to be mounted opposite seat 62 Z in the first direction persistently to move back and forth so that workpiece is carried out turning at a high speed, workpiece X motion in a second direction under the drive of the first translation mechanism 82 simultaneously, and then complete the surface turning to workpiece, turning complete after lathe tool feed arrangement 60 stop motion.When needing other positions on workpiece, such as when the part such as hole carries out Milling Process, again by first translation mechanism the 82, second translation mechanism 84 and positioner 40, workpiece can be positioned the appropriate location below milling cutter 300, cutter holding apparatus 76 drives milling cutter 300 to rotate and then workpiece is carried out milling.

Lathe 100 of the present utility model, increases a positioner 40 on board 20, and is installed on positioner 40 by lathe tool feed arrangement 60.When the workpiece height of required processing exceeds the feed distance of lathe tool feed arrangement 60, lathe 100 can drive lathe tool feed arrangement 60 to move by positioner 40 before processing, lathe tool 72 is positioned in the feed distance of lathe tool feed arrangement 60, so that lathe 100 can process the workpiece of differing heights, add versatility.Additionally, lathe tool feed arrangement 60 is by mover 642 and the interaction of stator 644, utilizes magnetic force to drive start plate 66 high speed reciprocating feed, relatively improve it and make dynamic frequency, improve tool sharpening efficiency.It addition, be also additionally provided with cutter holding apparatus 76 on lathe 100, so that lathe 100 realizes Compound Machining, further increase working (machining) efficiency and the precision of lathe 100.

It is appreciated that, persistently move back and forth while workpiece is carried out turning at a high speed when mover 642 drives lathe tool 72 to be mounted opposite seat 62 Z in the first direction, workpiece can also be made under the drive of the second translation mechanism 84 along third direction Y motion, and then complete the surface turning to workpiece.

It is appreciated that the quantity of first slide rail the 242, first guide rail the 442, second slide rail 623 and the second guide rail 662 can be set according to actual needs.

Being appreciated that in another embodiment, workbench 80 only includes the rotary drive 86 for driving workpiece to rotate.First translation mechanism 82 is installed on supporter 24, and the second translation mechanism 84 is installed on the first translation mechanism 82, and positioner 40 is installed on the second translation mechanism 84, and lathe tool feed arrangement 60 is installed on positioner 40.First translation mechanism 82 is used for driving feed arrangement X in a second direction to move, and the second translation mechanism 84 is used for driving lathe tool feed arrangement 60 along third direction Y motion, and positioner 40 is used for driving lathe tool feed arrangement 60 Z in the first direction to move.

It addition, those skilled in the art also can do other change, certainly, these changes done according to this utility model spirit in this utility model spirit, all should be included in the scope that this utility model is claimed.

Claims (10)

1. null1. a lathe，Including board，And it is installed in the workbench on this board and lathe tool feed arrangement，This workbench is for placing workpiece to be processed，This lathe tool feed arrangement is adjacent to this workbench and includes driving module and for installing the start plate of a lathe tool，Under the driving of this driving module，This start plate can continue reciprocating to process this workpiece relative to this board in the first direction，It is characterized in that: this lathe also includes positioner，This positioner includes Locating driver part and the slide unit being connected with this Locating driver part，This Locating driver part is installed on this board，This driving module is connected with this slide unit，Under the driving of this Locating driver part，This slide unit can drive this lathe tool feed arrangement to move along this first direction relative to this board，This lathe tool feed arrangement to be positioned generally proximate a Working position of this workbench.
2. 2. lathe as claimed in claim 1, it is characterized in that: on this board, be provided with the first slide rail, the first guide rail it is provided with on this slide unit, this first slide rail and this first guide rail all extend along this first direction, this first guide rail is slidably matched with this first slide rail, so that this slide unit is slidingly arranged on this board.
3. 3. lathe as claimed in claim 1, it is characterized in that: this workbench includes the first translation mechanism and the second translation mechanism, this first translation mechanism is installed on this board, this second translation mechanism is installed on this first translation mechanism, this first translation mechanism can drive this workpiece to move along the second direction vertical with this first direction, and this second translation mechanism can drive this workpiece to move along the third direction the most vertical with this first direction and this second direction.
4. 4. lathe as claimed in claim 3, it is characterised in that: this workbench also includes rotary drive, and this rotary drive is installed on this second translation mechanism, to drive this workpiece to rotate around the axis of this first direction parallel.
5. 5. lathe as claimed in claim 1, it is characterized in that: this lathe tool feed arrangement also includes the mounting seat being installed on this slide unit, this start plate slides with this mounting seat and connects, and this driving module is installed between this mounting seat and this start plate, and is connected with this slide unit by this mounting seat.
6. 6. lathe as claimed in claim 5, it is characterized in that: this mounting seat is provided with the second slide rail, it is provided with the second guide rail on this start plate, this second slide rail and this second guide rail all extend along this first direction, and this second guide rail is slidably matched with this second slide rail, so that this start plate is slidingly arranged in this mounting seat.
7. 7. lathe as claimed in claim 5, it is characterized in that: this driving module is linear electric motors, these linear electric motors include mover and stator, this mover is installed on this start plate, this stator is installed in this mounting seat, this mover coordinates with this stator magnetic, so that this mover drives this start plate to move reciprocatingly relative to this mounting seat.
8. 8. lathe as claimed in claim 1, it is characterized in that: this Locating driver part includes the motor being fixedly installed on this board, the screw mandrel being connected on this motor and is sheathed on the nut on this screw mandrel actively, this screw mandrel is parallel to this first direction, this nut coordinates with this wire rod thread, and this slide unit connects with this nut.
9. 9. lathe as claimed in claim 1, it is characterised in that: this lathe also includes counterweight cylinder, and this counterweight cylinder one end is fixed on this slide unit, and the other end is fixed on this start plate.
10. 10. lathe as claimed in claim 1, it is characterised in that: this lathe also includes the cutter holding apparatus being installed on this slide unit and this lathe tool feed arrangement neighbouring is arranged.