CN108057985A - Work piece processing method - Google Patents

Abstract

A kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, and this method comprises the following steps：By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and several workpiece is made to be arranged around circumferencial direction where the axle center of the workbench and make the centre-to-centre spacing of each workpiece axle center apart from equal；And several workpiece are carried out with the turn-milling cutting of batch.

Description

Work piece processing method

Technical field

The present invention relates to a kind of Work piece processing methods, particularly relate to a kind of method that batch machining is carried out to workpiece.

Background technology

The housing of some electronic devices such as tablet computer, the housing of mobile phone, generally includes regular or irregular shape top Portion and the side wall around its periphery.When processing case of electronic device, existing processing method generally passes through multiple procedure for processing, such as vehicle It cuts and single workpiece is processed respectively with milling mode.This needs shifts between at least two process equipments, to every work Part carries out independent charge and discharge operations, causes processing efficiency low.

The content of the invention

In view of above-mentioned condition, it is necessary to which a kind of Work piece processing method high in machining efficiency is provided.

A kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, and this method includes Following steps：By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the work Circumferencial direction where the axle center of platform arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；The work is rotated around the axle center Platform makes the workbench move to machining area in one first rotation in surface, and by the lathe tool on the complex milling machine tool；By the vehicle Knife feeds processing along a first direction and is translated along a second direction and replaced repeatedly, by continuous point contact to several workpiece Top be processed, vertical first plane of the first direction, the vertical first direction of the second direction；Stop operating the work Make platform, remove the lathe tool and milling cutter is moved into the machining area；And by the milling cutter successively along the side wall of several workpiece move into Row Milling Process.

A kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, and this method includes Following steps：By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the work Circumferencial direction where the axle center of platform arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；The work is rotated around the axle center Platform makes the workbench move to machining area in one first rotation in surface, and by the lathe tool on the complex milling machine tool；By the vehicle Knife feeds processing along a first direction and is translated along a second direction and replaced repeatedly, by continuous point contact to several workpiece Top be processed, vertical first plane of the first direction, the vertical first direction of the second direction；Stop operating the work Make platform, remove the lathe tool and milling cutter is moved into the machining area；By the side wall of the milling cutter one first workpiece along several workpiece It is mobile to carry out Milling Process；The workbench is rotated by set angle, by the milling cutter edge path identical with processing first workpiece One adjacent workpieces of mobile processing；And previous step is repeated, until processing remaining workpiece.

A kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, and this method includes Following steps：By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the work Circumferencial direction where the axle center of platform arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；Milling cutter is moved into processing district Domain；The milling cutter is moved into carry out Milling Process along the side wall of several workpiece successively；Milling cutter is removed from machining area；Around the axle center Rotating the workbench makes the workbench move to the processing in one first rotation in surface, and by the lathe tool on the complex milling machine tool Region；And the lathe tool is fed into processing along a first direction repeatedly and translates transposition along a second direction, it is connect by continuous place It touches to being processed at the top of several workpiece, vertical first plane of the first direction, the vertical first party of the second direction To.

A kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, and this method includes Following steps：By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the work Circumferencial direction where the axle center of platform arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；By the milling cutter along several works The side wall movement of one first workpiece carries out Milling Process in part；The workbench is rotated by set angle, by milling cutter edge and processing Identical path movement one adjacent workpieces of processing of first workpiece；Previous step is repeated, until processing all workpiece；From processing Region removes milling cutter；Rotating the workbench around the axle center makes the workbench in one first rotation in surface, and the turnning and milling is compound Lathe tool on lathe moves to the machining area；And the lathe tool along a first direction is fed repeatedly and processes and is put down along a second direction Transposition is moved, by continuous point contact to being processed at the top of several workpiece, vertical first plane of the first direction should The vertical first direction of second direction.

The batch machining of multiple workpiece can be completed by clamped one time, and answered with reference to turnning and milling for above-mentioned Work piece processing method The processing method of conjunction, the outer surface of rapid processing workpiece, improves processing efficiency while precision is ensured.

Description of the drawings

Fig. 1 is the stereoscopic schematic diagram of lathe used by Work piece processing method in an embodiment of the present invention.

Fig. 2 is the perspective exploded view of lathe shown in FIG. 1.

Fig. 3 is the perspective exploded view of lathe tool feed arrangement and milling cutter feeding device in lathe shown in Fig. 2.

Fig. 4 is the perspective exploded view of lathe tool feed arrangement shown in Fig. 3.

Fig. 5 is the stereoscopic schematic diagram of workpiece.

Fig. 6 is sectional view of the metalwork shown in Fig. 5 along VI-VI line.

Fig. 7 be in invention first embodiment workpiece in the schematic diagram of the arrangement mode on workbench.

Fig. 8 is the flow chart of a Work piece processing method in invention first embodiment.

Fig. 9 is the flow chart of a Work piece processing method in invention second embodiment.

Figure 10 be invention the 3rd embodiment in workpiece in the schematic diagram of the arrangement mode on workbench.

Main element symbol description

Following specific embodiment will illustrate the present invention with reference to above-mentioned attached drawing into a step.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment belongs to the scope of protection of the invention.

It should be noted that when a component is considered as " connection " another component, it can be directly to separately One component may be simultaneously present the component being centrally located.When a component is considered as " being arranged on " another component, It can be set directly on another component or may be simultaneously present the component being centrally located.

Unless otherwise defined, all of technologies and scientific terms used here by the article is with belonging to technical field of the invention The normally understood meaning of technical staff is identical.Term used in the description of the invention herein is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " include one or more phases The arbitrary and all combination of the Listed Items of pass.

It please refers to Fig.1 and Fig. 2, a kind of Work piece processing method in first embodiment of the invention can be compound by a turnning and milling Lathe 100 carries out batch Compound Machining to several workpiece 300 (referring to Fig. 7).

Lathe 100 include board 10, workbench 20, mobile device 30, lathe tool feed arrangement 40, milling cutter feeding device 50 and Controller (not shown).Workbench 20 is installed on board 10, for placing workpiece 300 (please referring to Fig.3).Mobile device 30 is moved It is installed in dynamicly on board 10 and positioned at the top of workbench 20, lathe tool feed arrangement 40 and 50 adjacent installing of milling cutter feeding device In in mobile device 30.Controller and workbench 20, mobile device 30, lathe tool feed arrangement 40 and milling cutter feeding device 50 electricity Property connects.Mobile device 30 can drive lathe tool feed arrangement 40 and milling cutter feeding device 50 along X/Y according to the instruction of controller Direction of principal axis moves, i.e., is moved along orthogonal first direction with second direction.

Board 10 is convexly equipped in two supporters 13 on pedestal 11 including pedestal 11 and parallel interval.Each supporter 13 is remote The first slide 131 is provided on one side from pedestal 11.In the present embodiment, the first slide 131 prolongs along the direction of paralleled by X axis It stretches.

Workbench 20 is used to that workpiece placed thereon to be driven to rotate around β axis.β axis is parallel with Z-direction.Workbench 20 with Controller is electrically connected.

Mobile device 30 is slidably installed on two supporters 13, and with two 13 vertical connections of supporter, and be located at The top of workbench 20.Mobile device 30 includes 31, two, crossbeam sliding seat 33, two, first driving mechanism 35 and one Second driving mechanism 37.31 both ends of crossbeam connect respectively with two slips of supporter 13, and the extending direction of crossbeam 31 is put down with Y-axis Row.A pair of the second slide 311 being mutually parallel is formed on crossbeam 31, the second slide 311 extends along Y direction.Two cunnings Dynamic seat 33 is installed in the both ends of crossbeam 31 respectively, and connects respectively with the first slide 131 slip on two supporters 13.Two First driving mechanism 35 is installed in one side of two sliding seats 33 towards supporter 13 respectively, and is installed in neighbouring on supporter 13 One end of first slide 131, for crossbeam 31 to be driven to make along the first slide 131 movement along X-direction.Second driving mechanism 37 It is installed on crossbeam 31, for lathe tool feed arrangement 40 and milling cutter feeding device 50 to be driven to make Y direction along the second slide 311 Movement.First driving mechanism 35 and the second driving mechanism 37 are electrically connected with controller.

In present embodiment, the first driving mechanism 35, the second driving mechanism 37 are linear motor.It is appreciated that first Driving mechanism 35, the second driving mechanism 37 can also use other driving mechanisms to substitute, servo motor, cylinder etc.；First driving Mechanism 35, the quantity of the second driving mechanism 37 are set according to actual needs.

Fig. 3 to Fig. 4 is please referred to, lathe tool feed arrangement 40 includes a tool apron of mounting base 43, one of saddle 41, one 45th, two lathe tool feeding modules 47 and a lathe tool 49.Saddle 41 is slidably installed on two the second slides 311 of crossbeam 31, And entire lathe tool feed arrangement 40 and milling cutter feeding device 50 is driven to be transported along Y direction under the driving of the second driving mechanism 37 It is dynamic.Saddle 41 is set along Z-direction there are four guide rail 413 in the one side of crossbeam 31.Four guide rails 413 are two-by-two between one group Every setting.Saddle 41 between two groups of guide rails 415, is convexly equipped with installing block 415 adjacent to one end of pedestal 11.Mounting base 43 is neighbouring Guide rail 413 is fixed on saddle 41, and mounting base 43 includes the framework 431 and two installing plates 433 of a both-side opening.Frame Along the projection of Z-direction interval, there are two guide parts 4317 on the inner surface of the side wall of saddle 41 for body 431.Framework 431 is separate Guide part 4317 is corresponded on the outer surface of the side wall of saddle 41 and forms sliding slot 4318, there are two be oriented to for the both sides projection of sliding slot 4318 Portion 4319.Two installing plates 433 are installed in 431 both sides of framework, to close framework 431 from both sides.Tool apron 45 includes main body 451 And the substantially vertical sliding panel 453 being convexly equipped in main body 451.Main body 451 is arranged at the outside of mounting base 43.451 direction of main body Mounting base 43 corresponds to guide part 4319 and is formed with the sliding part 4511 to connect with the slip of guide part 4319.Sliding panel 453 is convexly equipped in In main body 451, one end away from main body 451 is slidably installed in two guide parts through stretching into framework 431 from sliding slot 4318 On 4317.

Two lathe tool feeding modules 47 are accommodated and are installed in mounting base 43, and are electrically connected with controller.Two lathe tools Module 47 is fed tool apron 45 to be driven to be moved back and forth at a high speed along guide part 4317,4319 along Z-direction.In present embodiment In, two lathe tool feeding modules 47 are linear motor.Each lathe tool feeding module 47 includes a mover 471 and a stator 473.Two movers 471 are installed in two installing plates 433 towards on the side wall inside framework 431 respectively.It is appreciated that lathe tool into It can be configured according to actual needs to the quantity in module 47, such as one, three can be set.Lathe tool 49 fixes dress Arranged on main body 451 adjacent to one end of pedestal 11, for carrying out turnery processing to workpiece.

Milling cutter feeding device 50 includes linear driving mechanism 53, connecting plate 54, rotating drive part 55 and milling cutter 57.It is linear to drive Motivation structure 53 includes actuator 531, screw 533 and feed screw nut 535.Actuator 531 is fixed on saddle 41, and is located at The top of crossbeam 31, screw 533 are rotationally connected between actuator 531 and installing block 415.Feed screw nut 535 is sheathed on screw On 533 and with 533 thread fitting of screw.Connecting plate 54 is fixedly connected with feed screw nut 535, and with the guide rail 413 on saddle 41 Slip connects.Rotating drive part 55 is fixed at the one side that connecting plate 54 deviates from screw 533.Milling cutter 57 is installed in rotation driving Part 55 is adjacent to one end of pedestal 11.Actuator 531 can drive screw 533 to rotate, and then drive rotating drive part 55 and milling cutter 57 make the movement parallel to Z-direction along guide rail 413.Rotating drive part 55 drives milling cutter 57 to turn around the axis of parallel Z-direction It is dynamic, and then to 300 Milling Process of workpiece.Milling cutter 57 can carry out the movement in X/Y directions with saddle 41, and in linear driving mechanism 53 Driving under moved along Z-direction.

During assembling, first workbench 20 is installed between two supporters 13；Crossbeam 31 is assembled in two supporters again On 13；The first driving mechanism 35 and the second driving mechanism 37 are assembled on crossbeam 31 afterwards；Then, by lathe tool feed arrangement 40 And milling cutter feeding device 50 is installed on crossbeam 31, and connect with controller.

Refer to Fig. 5 and Fig. 6, workpiece 300 is the housing of tablet computer or mobile phone to be processed, substantially rectangular piece Shape.Workpiece 300 is metallic plate.Workpiece 300 includes a top 301, extended outwardly the side being bent to form by the edge at top 301 Wall 302.The area at top 301 is larger.In present embodiment, top 301 is nonvolatile organic acid.Side wall 302 is away from 301, top Divide generally planar.

Fig. 7 is refer to, workpiece 400 is the blank for workpieces processing 300, is metallic plate in the present embodiment.It is real first It applies in mode, during four identical workpiece 400 of time processing, four workpiece 400 is positioned over to the workbench of the complex milling machine tool On 20.Four workpiece 400 are evenly distributed around circumferencial direction where the β axis of the workbench 20 and make the centre-to-centre spacing of each workpiece 400 Axle center β wheelbases are from equal.Each 400 back of workpiece is placed upwards, leaves appropriate gap between workpiece two-by-two, and with identical side Formula is fixed on workbench 20.

Referring to Fig. 8, in the first embodiment, above-mentioned lathe 100 can be used on several in a kind of Work piece processing method It states workpiece 400 and carries out batch machining, this method comprises the following steps：

Step 801：Several workpiece 400 are positioned on workbench 20, and make workpiece 400 around the axle center β of the workbench 20 Circumferencial direction where axis arranges and makes the centre-to-centre spacing axle center β wheelbases of each workpiece 400 from equal.

Step 802：Around axle center β axis high speed rotational operations platform 20, workbench 20 is made to rotate in the horizontal plane, 20 band of workbench Part 400 of starting building rotates, and lathe tool 49 is moved to machining area.

Step 803：By lathe tool 49, along Z-direction, high speed feed is processed and gradually changed along X-axis or Y direction translation repeatedly Position, is processed the top 301 of workpiece 400 by continuous point contact.Lathe tool 49 can be from edge at axis β axis where the axle center Away from the linear movement of β direction of principal axis.In the present embodiment, the amount of feeding that lathe tool 49 is fed repeatedly along Z axis can be according to workpiece 400 Top shape is set, with the top of the workpiece 400 of processing curve 3D shapes.It is rotated in present embodiment, lathe tool 49 is along Z axis High speed feed acceleration can be 8g repeatedly in direction, be the acceleration of gravity of 8 speeds.

Step 804：When turnery processing finishes, stop operating workbench 20, remove lathe tool 49 and milling cutter 57 is moved to plus Work area domain.

Step 805：In X-axis and Y institutes planar, milling cutter 57 along the side wall of several workpiece 400 is moved successively and carries out side The Milling Process of wall.

Referring to Fig. 9, in this second embodiment, the machine in first embodiment can be used in a kind of Work piece processing method Several workpiece 400 of 100 pairs of bed carry out batch machining, and this method comprises the following steps：

Step 901：Several workpiece 400 are positioned on workbench 20, and make workpiece 400 around the axle center β of the workbench 20 Circumferencial direction where axis arranges and makes the centre-to-centre spacing axle center β wheelbases of each workpiece 400 from equal.

Step 902：Around axle center β axis high speed rotational operations platform 20, workbench 20 is made to rotate in the horizontal plane, 20 band of workbench Part 400 of starting building rotates, and lathe tool 49 is moved to machining area.

Step 903：By lathe tool 49, along Z-direction, high speed feed is processed and gradually changed along X-axis or Y direction translation repeatedly Position, is processed the top of workpiece 400 by continuous point contact.Lathe tool 49 can be from axis β axis where the axle center along remote It moves linearly from β direction of principal axis.In the present embodiment, the amount of feeding that lathe tool 49 is fed repeatedly along Z axis can be according to the top of workpiece 400 Portion's shape is set, with the top of the workpiece 400 of processing curve 3D shapes.

Step 904：When turnery processing finishes, stop operating workbench 20, remove lathe tool 49 and milling cutter 57 is moved to plus Work area domain.

Step 905：By milling cutter 57, the side wall of one first workpiece moves the Milling Process for carrying out side wall along workpiece 400.

Step 906：By set angle rotary table 20, milling cutter 57 is moved along the path identical with processing first workpiece One adjacent workpieces of dynamic processing.Set angle is related to piece count, and when processing four workpiece, rotation angle is 90 degree.

Step 907：Judge whether to process all workpiece, i.e., whether process remaining workpiece, if not, returning to step 906, if so, then terminating to process.

In other embodiments, lathe tool feed arrangement 40 can make the appropriate adjustments with respect to 20 translation direction of workbench.Example Such as, the first driving mechanism 35 driving crossbeam 31 drives lathe tool feed arrangement 40 to move in X direction, and from Workpiece periphery side gradually to The axle center β axis movement of workbench 20.

0 is please referred to Fig.1, in the third embodiment, the piece count of batch machining can do adjustment as needed, such as pass through Method can 14 workpiece 500 of time processing, workpiece 500 can be the blank for workpieces processing 300, be metal in the present embodiment Plate.14 workpiece 500 can be around two concentric arrays of β axis of workbench, i.e. five workpiece 500 of inner circular arrangement, outer circle row Nine workpiece 500 of row.The centre-to-centre spacing axle center β wheelbases of workpiece 500 on each concentric circles are from equal.Each 500 back of workpiece to Upper placement leaves appropriate gap two-by-two between workpiece, and is positioned over workbench 20 in an identical manner.During turnery processing, it can adopt It is processed with lathe tool feed arrangement 40 in first embodiment with respect to 20 translation mode of workbench.During Milling Process, it can distinguish It is carried out to the workpiece order processing in same concentric circles or by same angle adjacent workpieces order processing method, machining path It can be configured by actual demand.

In the 4th embodiment, when the different position of turning and milling difference workpieces processing, the work of turning and milling Sequence can exchange, for example, in the first embodiment, performing step 801；Milling cutter 57 is first moved into machining area；Perform step After 805 carry out Milling Process, milling cutter 57 is removed from machining area, completes Milling Process；Perform again step 802 and step 803 into Row turnery processing；Finally complete the processing of workpiece 400.

In the 5th embodiment, equally, when the different position of turning and milling difference workpieces processing, turning and milling Process can exchange, for example, in this second embodiment, perform step 901, milling cutter 57 first moved into machining area, perform After step 905-907 carries out Milling Process, milling cutter 57 is removed from machining area, completes Milling Process；Step 902 and step are performed again Rapid 903 carry out turnery processing, finally complete the processing of workpiece 500.

In addition, those skilled in the art can also do other variations in spirit of the invention, certainly, these are according to present invention essence The variation that god is done should be all included in scope of the present invention.

Claims (10)

1. a kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, it is characterised in that：It should Method comprises the following steps：

By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the axis of the workbench Circumferencial direction where the heart arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；

Rotating the workbench around the axle center makes the workbench in one first rotation in surface, and by the vehicle on the complex milling machine tool Knife moves to machining area；

The lathe tool is fed into processing along a first direction repeatedly and translates transposition along a second direction, passes through continuous point contact pair It is processed at the top of several workpiece, vertical first plane of the first direction, the vertical first direction of the second direction；

Stop operating the workbench, removes the lathe tool and milling cutter is moved to the machining area；And

The milling cutter is moved into carry out Milling Process along the side wall of several workpiece successively.

2. Work piece processing method as described in claim 1, it is characterised in that：This method further includes：In the lathe tool procedure of processing In, the amount of feeding which feeds repeatedly along the first direction is adjusted according to the top shape of several workpiece, to several works Part carries out Machining of Curved Surface.

3. Work piece processing method as described in claim 1, it is characterised in that：In the lathe tool procedure of processing, which certainly should It is moved where axle center at axis along away from the axis direction.

4. a kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, it is characterised in that：It should Method comprises the following steps：

By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the axis of the workbench Circumferencial direction where the heart arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；

Rotating the workbench around the axle center makes the workbench in one first rotation in surface, and by the vehicle on the complex milling machine tool Knife moves to machining area；

The lathe tool is fed into processing along a first direction repeatedly and translates transposition along a second direction, passes through continuous point contact pair It is processed at the top of several workpiece, vertical first plane of the first direction, the vertical first direction of the second direction；

Stop operating the workbench, removes the lathe tool and milling cutter is moved to the machining area；

By the milling cutter, the side wall of one first workpiece moves carry out Milling Process along several workpiece；

The workbench is rotated by set angle, it is adjacent that the milling cutter edge path identical with processing first workpiece is moved processing one Workpiece；And

Previous step is repeated, until processing all workpiece.

5. Work piece processing method as claimed in claim 4, it is characterised in that：This method further includes：In the lathe tool procedure of processing In, the amount of feeding which feeds repeatedly along the first direction is adjusted according to the top shape of several workpiece, to several works Part carries out Machining of Curved Surface.

6. Work piece processing method as claimed in claim 4, it is characterised in that：In the lathe tool procedure of processing, which certainly should It is moved where axle center at axis along away from the axis direction.

7. a kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, it is characterised in that：It should Method comprises the following steps：

By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the axis of the workbench Circumferencial direction where the heart arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；

Milling cutter is moved into machining area；

The milling cutter is moved into carry out Milling Process along the side wall of several workpiece successively；

Milling cutter is removed from machining area；

Rotating the workbench around the axle center makes the workbench in one first rotation in surface, and by the vehicle on the complex milling machine tool Knife moves to the machining area；And

The lathe tool is fed into processing along a first direction repeatedly and translates transposition along a second direction, passes through continuous point contact pair It is processed at the top of several workpiece, vertical first plane of the first direction, the vertical first direction of the second direction.

8. Work piece processing method as claimed in claim 7, it is characterised in that：This method further includes：In the lathe tool procedure of processing In, the amount of feeding which feeds repeatedly along the first direction is adjusted according to the top shape of several workpiece, to several works Part carries out Machining of Curved Surface.

9. a kind of Work piece processing method carries out batch machining by a complex milling machine tool to several workpiece, it is characterised in that：It should Method comprises the following steps：

By this, at least a workpiece is positioned on the workbench of the complex milling machine tool, and makes several workpiece around the axis of the workbench Circumferencial direction where the heart arranges and makes the centre-to-centre spacing of each workpiece axle center apart from equal；

By the milling cutter, the side wall of one first workpiece moves carry out Milling Process along several workpiece；

The workbench is rotated by set angle, it is adjacent that the milling cutter edge path identical with processing first workpiece is moved processing one Workpiece；

Previous step is repeated, until processing all workpiece；

Milling cutter is removed from machining area；

Rotating the workbench around the axle center makes the workbench in one first rotation in surface, and by the vehicle on the complex milling machine tool Knife moves to the machining area；And

The lathe tool is fed into processing along a first direction repeatedly and translates transposition along a second direction, passes through continuous point contact pair It is processed at the top of several workpiece, vertical first plane of the first direction, the vertical first direction of the second direction.

10. Work piece processing method as claimed in claim 9, it is characterised in that：This method further includes：In the lathe tool procedure of processing In, the amount of feeding which feeds repeatedly along the first direction is adjusted according to the top shape of several workpiece, to several works Part carries out Machining of Curved Surface.