CN206296668U - Numerical-control turn-milling boring one special plane - Google Patents

Abstract

The utility model discloses a kind of numerical-control turn-milling boring one special plane, it is set to vertical double-position double milling heads layout, structure double columns for cross lathe bed adds, including lathe bed, workbench, left station, right working position, left fixture, it is characterized in that the lathe bed is arranged on cement flooring, including preceding lathe bed, main lathe bed, rear lathe bed, it is in cross that the preceding lathe bed, rear lathe bed are symmetricly set on two side positions in the middle of main lathe bed；The main lathe bed upper middle position sets workbench, and the workbench two ends are respectively provided with left station, right working position；Workbench inside spacing sets left fixture, right fixture, the installation settings workpiece in the middle of the left fixture, right fixture；Lathe integral protection cover makes operation safer；Low cost, efficiency high, security is good.

Description

Numerical-control turn-milling boring one special plane

Technical field

The utility model is related to numerically controlled processing equipment technical field, more particularly to a kind of numerical-control turn-milling boring one special plane.

Background technology

At present, the metal cutting process equipment of prior art generally uses numerical control machine tool.Multifunctional numerical control machine Bed installs number of times to reducing workpiece, reduces clamping accumulated error, improves the machining accuracy and surface quality of numerical control machining center.With The fast development of economy and to part machinery requirement on machining accuracy and production efficiency level also more and more higher thus right with people The demand of multifunctional numerical control machine equipment such as numerical-control turn-milling boring multifunction machine is also more and more.

On numerical-control turn-milling boring multifunction machine, existing related document report, such as Patent No. CN104759885A Chinese patent discloses " a kind of combined type turnning and milling boring machine for indexing ", this combined type turnning and milling for indexing of the disclosure of the invention Boring machine includes a locating shaft, is fixed on the cental axial position of workpiece to be machined；One beam body, the beam body includes crossbeam, and crossbeam can It is fixed on the locating shaft with horizontally rotating；One unit head, is slidably disposed in the beam body, including master driver, dynamic Power case and cutter tip, the unit head can be moved in horizontally and vertically both direction；A set of indexing detection means, for detecting The angle of the Rotation of beam；With a set of indexing control device, for receiving the indexing detection means feedack, and control The beam body is made to stop in specified angle；Present invention utilization indexes detection means and indexing control device solves combined type turnning and milling The problem of boring machine indexing.

Chinese patent such as Patent No. CN101502933 discloses a kind of " numerical control gantry turnning and milling boring plane mill heavy machine Bed ", the numerical control gantry heavy-duty machine for machining, milling, boring, planing and grinding of the disclosure of the invention belongs to the heavy machine tool with multiple mechanical function； The machining function being integrated to large-scale workpiece car, milling, boring, plane, mill can be realized on same a machine tool；This lathe is main Structure is by lathe bed, carriage, composite pillar, crossbeam, back timber, rotary motive power head, chuck, tailstock, main drive gear, mill Head, milling and boring heads, planing frame, turning tool rest, electric control system composition；The lathe is driven by servomotor, drives leading screw to turn It is dynamic, horizontal turning, vertical turning, milling, boring, grinding, planing, drilling, reaming, fraising processing can be carried out；Can working shaft-like, Disk class and box parts；Part can complete the processing of outer remaining each face of mounting surface and hole system, it is ensured that added through clamped one time Machining accuracy and geometric position precision between each face, the hole of work part；The present invention solves clamped one time using various machineries The problem of machining function processing key heavy workpiece.

Chinese patent such as Patent No. CN102039545A discloses a kind of " gantry turnning and milling boring Compositions of metal-working machines ", should Gantry turnning and milling boring Compositions of metal-working machines of disclosure of the invention, including crossbeam, column, base, rotating disk main body, main spindle box, at two bottoms The top of seat is column, and cross beam frame, two tops of column, is main spindle box in the side of crossbeam, and rotating disk main body is located at two bottoms In the middle of seat；The present invention solves the asking using turnning and milling boring machining function processing workpiece on planer-type Layout processing center Topic.

Chinese patent such as Patent No. CN104338942A discloses one kind, and " Multifunctional lifting of collection turnning and milling boring is horizontal Lathe ", the Multifunctional lifting horizontal lathe of the collection turnning and milling boring of the disclosure of the invention, the turning unit head and tailstock of its horizontal lathe Located at guide rail two ends, longitudinal chute mechanism is driven on guide rail and by longitudinal turn-screw, and cross slide mechanism is located at vertical Driven to chute mechanism top and by horizontal turn-screw, this horizontal lathe also includes turnning and milling Dao Tai mechanisms and two slide units, The milling pin unit head of turnning and milling Dao Tai mechanisms is detachably located at milling power case end, milling motor connection milling power case, milling cutter , located at the side wall of milling unit head, located at milling unit head top surface, turnning and milling Dao Tai mechanisms are by slide way mechanism and horizontal stroke for lathe tool seat for seat Lifted to the slideway of dragging plate mechanism side, two slide units are respectively arranged on guide rail；The present invention is solved and utilized on horizontal lathe Turnning and milling boring machining function processes the problem of workpiece.

Although above-mentioned Chinese patent can solve the problem that some parts carry out metal cutting, equipment behaviour using machining center or lathe The problem of work, but there is problems with and shortcoming in these technical schemes：

（1）Numerically controlled processing equipment described in published patent, versatility is stronger, does not account for such as crawler belt plate type part special The problem that industry metaplasia is produced；（2）Numerically controlled processing equipment described in published patent, does not consider to improve life using double clamping workpiece Produce the problem of efficiency；（3）In secure context, it is considered to it is less or do not consider protector.

Based on this, it is necessary to propose a kind of numerical-control turn-milling boring one special plane, solve the above problems.

The content of the invention

The purpose of this utility model is exactly using suitable specialized nc machine tool placement scheme, servo control mechanism, fixture, work Position, main shaft quantity and arrangement, improve machining accuracy and suface processing quality, and solve the problems, such as that security is not high, this reality With new there is provided a kind of numerical-control turn-milling boring one special plane.

The technical scheme in the invention for solving the technical problem is：Numerical-control turn-milling boring one special plane, is set to vertical double Station double milling heads layout structure, is that cross lathe bed adds double columns, including lathe bed, workbench, left station, right working position, left fixture, Right fixture, operating system box, arm, davit, swivel, workpiece, rear milling head transmission device, rear milling head servomotor, after Milling head, milling head cutter, preceding milling head, preceding milling head transmission device, preceding milling head servomotor, preceding lathe bed, main lathe bed, after Lathe bed, Hydraulic Station, transformer, lubricating pump, regulator cubicle, cooler bin, it is characterised in that the lathe bed is arranged on cement flooring, bag Preceding lathe bed, main lathe bed, rear lathe bed are included, it is in cross that the preceding lathe bed, rear lathe bed are symmetricly set on two side positions in the middle of main lathe bed； The main lathe bed upper middle position sets workbench, and the workbench two ends are respectively provided with left station, right working position；The work Platform inside spacing sets left fixture, right fixture, the installation settings workpiece in the middle of the left fixture, right fixture；The preceding lathe bed, after Lathe bed top is respectively provided with column, and is symmetrically arranged at workbench both sides；The column upper end of the preceding lathe bed sets preceding milling head, preceding milling Cut an end and milling head cutter is set, milling head servomotor before being set above preceding milling head, preceding milling head transmission device machinery Connect setting is in preceding milling head, preceding milling head servomotor outboard end；Milling head after the column upper end setting of the rear lathe bed, Milling head end sets milling head cutter afterwards, milling head servomotor, rear milling head transmission device after being set above rear milling head Mechanical connection is arranged on rear milling head, rear milling head servomotor outboard end；The preceding lathe bed right side sets davit, described to hang Post upper end sets arm by swivel, and the boom tip sets operating system box；On rear side of the main lathe bed and after being located at Lathe bed both sides are respectively provided with Hydraulic Station, transformer, lubricating pump, regulator cubicle；The main lathe bed right end side sets cooler bin.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the preceding lathe bed of the lathe bed, main lathe bed, Lathe bed includes lower margin hole, lathe bed conveying hole afterwards, and lathe bed is fixedly connected on cement flooring through lower margin hole by foundation bolt On；The main lathe bed top is provided with X to table slide seat, and X sets table slide to table slide seat.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the workbench includes X to feeding portion Part；The X includes workbench servomotor, table roller leading screw, lead screw shaft bearings, table lead screw nut to infeed mean Seat, table slide, servomotor base, X are to servomotor shaft coupling；The table slide is fixedly installed under workbench The X in face is in table slide seat；The table roller leading screw is arranged in the middle of table slide, in table roller leading screw Side one end set lead screw shaft bearings, the sliding seat of lead screw shaft bearings both sides be arranged on table slide and with table slide group Into sliding friction pair；The table lead screw nut seat is arranged in the middle of table slide and solid below by bolt with workbench Fixed connection；The table roller leading screw other end is by X to servomotor shaft coupling connect setting workbench servomotor, work Make platform servomotor to be arranged on servomotor base, servomotor base is arranged on main lathe bed overlying one end.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the rear milling head, preceding milling head are equal Including Z-direction micromatic setting；The Z-direction micromatic setting is arranged at rear milling head, preceding milling head outside；The Z-direction micromatic setting Setting includes Z-direction sliding block, Z-direction short distance guide rail, micrometer adjusting screw, after the Z-direction sliding block is arranged at rear milling head, preceding milling head Side, the Z-direction short distance guide rail is arranged on preceding lathe bed, the short column medial surface on rear lathe bed top and constitutes sliding pair with Z-direction sliding block, The micrometer adjusting screw is arranged on Z-direction sliding block, is capable of achieving the short-distance movement of rear milling head, preceding milling head along Z-direction.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the numerical-control turn-milling boring one special plane bag Protecting component is included, the protecting component includes interior protective cover, integral protection cover；The interior protective cover is arranged on workbench bottom simultaneously Contain workbench servomotor, table slide, table roller leading screw, lead screw shaft bearings, the work of protection workbench bottom Platform feed screw nut seat, servomotor base, X are to servomotor shaft coupling；The integral protection cover is arranged on workbench surrounding simultaneously And height is higher than milling cutter endface position.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the numerical-control turn-milling boring one special plane bag Include Computerized digital control system device；The Computerized digital control system device is arranged in operating system box and the electricity between regulator cubicle Connection, and the two with workbench servomotor, rear milling head servomotor, preceding milling head servomotor, Hydraulic Station, transformation Device, lubricating pump, cooler bin electrical connection.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the numerical-control turn-milling boring one special plane Left fixture, right fixture can be connected by adjustment bolt, left station or a certain position of right working position mobile, that be fixed on workbench Put.

Numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that：In numerical-control turn-milling boring one specially The workpiece processed on machine is creeper tread.

Compared with prior art, the beneficial effects of the utility model are embodied in：Numerical-control turn-milling boring one described in the utility model Body special plane, including lathe bed, workbench, left station, right working position, left fixture, right fixture, operating system box, arm, davit, rotation Section, workpiece, rear milling head transmission device, rear milling head servomotor, rear milling head, milling head cutter, preceding milling head, preceding milling Head transmission device, preceding milling head servomotor, preceding lathe bed, main lathe bed, rear lathe bed, Hydraulic Station, transformer, lubricating pump, regulator cubicle, Cooler bin, it is characterised in that the numerical-control turn-milling boring one special plane is laid out for vertical double-position double milling heads, structure is cross bed Body adds double columns；The numerical-control turn-milling boring one special plane includes that workbench X, to infeed mean, milling head Z-direction micromatic setting, can divide X is not realized to feed motion, Z-direction distance adjustment, with double dual-workpiece clamping, single shaft feeding, manual Z-direction fine setting bite Function；Also setting up protective cover in workbench, lathe integral protection cover makes operation safer；Low cost, efficiency high, security is good, It is more suitable for processing crawler belt plate type part.

Brief description of the drawings

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

Fig. 2 is overlooking the structure diagram of the present utility model.

Fig. 3 is left view structural representation of the present utility model.

In accompanying drawing：1. lathe bed, 2. lower margin hole, 3. workbench servomotor, 4. in protective cover, 5. workbench, 6. left station, 7. right working position, 8. left fixture, 9. right fixture, 10. integral protection cover, 11. operating system boxes, 12. arms, 13. davits, 14. rotations Trochanter, 15. workpiece, milling head transmission device after 16., milling head servomotor after 17., milling head after 18., 19. milling head knives Tool, milling head before 20., milling head transmission device before 21., milling head servomotor before 22., lathe bed before 23., 24. main lathe beds, Lathe bed after 25., 26. table slides, 27. table roller leading screws, 28. lead screw shaft bearings, 29. table lead screw nut seats, 30. Hydraulic Stations, 31. transformers, 32. lubricating pumps, 33. regulator cubicles, 34. cooler bins.

Specific embodiment

The utility model is described in further detail with reference to Fig. 1, Fig. 2, Fig. 3 and embodiment, so that the public preferably grasps Implementation of the present utility model, the utility model specific embodiment is：

As shown in Figure 1 and Figure 2, numerical-control turn-milling boring one special plane described in the utility model, including lathe bed 1, workbench 5, Left station 6, right working position 7, left fixture 8, right fixture 9, operating system box 11, arm 12, davit 13, swivel 14, workpiece 15, Milling head transmission device 16, rear milling head servomotor 17, rear milling head 18, milling head cutter 19, preceding milling head 20, preceding milling afterwards Cut a transmission device 21, preceding milling head servomotor 22, preceding lathe bed 23, main lathe bed 24, rear lathe bed 25, Hydraulic Station 30, transformer 31st, lubricating pump 32, regulator cubicle 33, cooler bin 34, it is characterised in that the numerical-control turn-milling boring one special plane is double vertical double-position Milling head is laid out, structure double columns for cross lathe bed adds；The lathe bed（1）It is arranged on cement flooring, including preceding lathe bed 23, master Lathe bed 24, rear lathe bed 25, it is in cross that the preceding lathe bed 23, rear lathe bed 25 are symmetricly set on two side positions in the middle of main lathe bed 24； The upper middle position of main lathe bed 24 sets workbench 5, and the two ends of the workbench 5 are respectively provided with left station 6, right working position）；Institute State the inside spacing of workbench 5 and left fixture 8, right fixture 9 are set, in the left fixture 8, the middle installation settings workpiece of right fixture 9 15；The preceding lathe bed 23, the top of rear lathe bed 25 are respectively provided with column, and are symmetrically arranged at the both sides of workbench 5；The preceding lathe bed 23 it is vertical Post upper end sets preceding milling head 20, and the end of preceding milling head 20 sets milling head cutter 19, milling before the setting above of preceding milling head 20 Head servomotor 22, preceding milling head transmission device 21 is mechanically connected and is arranged on outside preceding milling head 20, preceding milling head servomotor 22 Side end；Milling head 18 after the column upper end setting of the rear lathe bed 25, the end of rear milling head 18 sets milling head cutter 19, after Milling head servomotor 17 after the setting above of milling head 18, rear milling head transmission device 16 is mechanically connected and is arranged on rear milling head 18th, the rear outboard end of milling head servomotor 17；The right side of the preceding lathe bed 23 sets davit 13, and the upper end of the davit 13 is by rotation Trochanter 14 sets arm 12, and the end of the arm 12 sets operating system box 11；In the rear side of the main lathe bed 24 and positioned at rear bed The both sides of body 25 are respectively provided with Hydraulic Station 30, transformer 31, lubricating pump 32, regulator cubicle 33；The right end side of main lathe bed 24 is set Cooler bin 34.

As shown in Figure 1, Figure 3, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that the lathe bed 1 preceding lathe bed 23, main lathe bed 24, rear lathe bed 25 includes lower margin hole 2, lathe bed conveying hole, and lower margin hole 2 is passed through by foundation bolt Lathe bed is fixedly connected on cement flooring；The top of main lathe bed 24 is provided with X to table slide seat, and X is to table slide Seat sets table slide 26.

As shown in Figure 1 and Figure 2, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that：The work Make platform 5 including X to infeed mean；The X includes workbench servomotor 3, table roller leading screw 27, leading screw to infeed mean Bearing block 28, table lead screw nut seat 29, table slide 26, servomotor base, X are to servomotor shaft coupling；It is described Table slide 26 is fixedly installed on the X below workbench 5 in table slide seat；The table roller leading screw 27 is set In the middle of table slide 26, the inner opposite end of table roller leading screw 27 sets lead screw shaft bearings 28, the both sides of lead screw shaft bearings 28 Sliding seat be arranged on table slide 26 and with table slide 26 constitute sliding friction pair；The table lead screw nut Seat 29 is arranged in the middle of table slide 26 and is fixedly connected below by bolt with workbench 5；The table roller leading screw By X to servomotor shaft coupling connect setting workbench servomotor 3, workbench servomotor 3 is arranged on to be watched 27 other ends Take on motor base, servomotor base is arranged on the overlying one end of main lathe bed 24.

As shown in Figure 1, Figure 2, Figure 3 shows, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that institute Stating rear milling head 18, preceding milling head 20 includes Z-direction micromatic setting；The Z-direction micromatic setting is arranged at rear milling head 18, preceding The outside of milling head 20；The Z-direction micromatic setting is set includes Z-direction sliding block, Z-direction short distance guide rail, micrometer adjusting screw, the Z-direction sliding block Rear milling head 18, the rear side of preceding milling head 20 are arranged at, the Z-direction short distance guide rail is arranged on preceding lathe bed 23, the top of rear lathe bed 25 Short column medial surface and constitute sliding pair with Z-direction sliding block, the micrometer adjusting screw is arranged on Z-direction sliding block, milling after being capable of achieving First 18, preceding milling head 20 along Z-direction short-distance movement.

As shown in Figure 1, Figure 2, Figure 3 shows, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that institute Stating numerical-control turn-milling boring one special plane includes protecting component, and the protecting component includes interior protective cover 4, integral protection cover 10；It is described Interior protective cover 4 is arranged on the bottom of workbench 5 and contains the workbench servomotor 3, table slide of protection workbench 5 bottom 26th, table roller leading screw 27, lead screw shaft bearings 28, table lead screw nut seat 29, servomotor base, X are to servomotor Shaft coupling；The integral protection cover 10 is arranged on the surrounding of workbench 5 and height is higher than the endface position of milling cutter 19.

As shown in Figure 1, Figure 2, Figure 3 shows, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that institute Stating numerical-control turn-milling boring one special plane includes Computerized digital control system device；The Computerized digital control system device is arranged on operation system System box 11 in and electrically connected between regulator cubicle 33, and the two with workbench servomotor 3, rear milling head servomotor 17, Preceding milling head servomotor 22, Hydraulic Station 30, transformer 31, lubricating pump 32, cooler bin 34 are electrically connected.

As shown in Figure 1 and Figure 2, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that：The number Controlling the left fixture 8 of turnning and milling boring one special plane, right fixture 9 can be connected by adjustment bolt, move, be fixed on workbench 5 Left station 6 or a certain position of right working position 7.

As shown in Figure 1, Figure 2, Figure 3 shows, numerical-control turn-milling boring one special plane described in the utility model, it is characterised in that The workpiece 15 processed on the numerical-control turn-milling boring one special plane is creeper tread.

Embodiment 1

As shown in figure 1, when digital control processing operation is carried out to creeper tread workpiece 15 in numerical-control turn-milling boring one special plane, it is first It is left fixture 8, right fixture 9 that crawler belt board special fixture is first installed on the left station 6 or right working position 7 of workbench 5；Followed by institute The installation creeper tread workpiece 15 of the upper plane of workbench 5 and special fixture is stated, creeper tread work is positioned by left fixture 8, right fixture 9 The left and right hole pair of part 15；Then after Z-direction micromatic setting is adjusted the milling head cutter 19 of milling head 18, preceding milling head 20 to shoe The Working position of band plate workpiece 15；After operating Computerized digital control system device to realize cooling and lubricating device work again, start numerical control Start NC milling after procedure.

Compared with prior art, the beneficial effects of the utility model are embodied in：Numerical-control turn-milling boring one described in the utility model Body special plane, including lathe bed, workbench, left station, right working position, left fixture, right fixture, operating system box, arm, davit, rotation Section, workpiece, rear milling head transmission device, rear milling head servomotor, rear milling head, milling head cutter, preceding milling head, preceding milling Head transmission device, preceding milling head servomotor, preceding lathe bed, main lathe bed, rear lathe bed, Hydraulic Station, transformer, lubricating pump, regulator cubicle, Cooler bin, it is characterised in that the numerical-control turn-milling boring one special plane is laid out for vertical double-position double milling heads, structure is cross bed Body adds double columns；The numerical-control turn-milling boring one special plane includes that workbench X, to infeed mean, milling head Z-direction micromatic setting, can divide X is not realized to feed motion, Z-direction distance adjustment, with double dual-workpiece clamping, single shaft feeding, manual Z-direction fine setting bite Function；Also setting up protective cover in workbench, lathe integral protection cover makes operation safer；Low cost, efficiency high, security is good, It is more suitable for processing crawler belt plate type part.

Preferred embodiment of the present utility model is the foregoing is only, is not used to limit the utility model, it is all at this Within the spirit and principle of utility model, any modification, equivalent substitution and improvements made etc. should be included in the utility model Protection domain within.

Claims (7)

1. numerical-control turn-milling boring one special plane, is set to vertical double-position double milling heads layout structure, is that cross lathe bed adds double columns, Including lathe bed（1）, workbench（5）, left station（6）, right working position（7）, left fixture（8）, right fixture（9）, operating system box（11）、 Arm（12）, davit（13）, swivel（14）, workpiece (15), rear milling head transmission device (16), rear milling head servomotor (17), rear milling head (18), milling head cutter (19), preceding milling head (20), preceding milling head transmission device (21), preceding milling head are watched Take motor (22), preceding lathe bed (23), main lathe bed (24), rear lathe bed (25), Hydraulic Station (30), transformer (31), lubricating pump (32), Regulator cubicle (33), cooler bin (34), it is characterised in that：The lathe bed（1）It is arranged on cement flooring, including preceding lathe bed（23）、 Main lathe bed（24）, rear lathe bed（25）, the preceding lathe bed（23）, rear lathe bed（25）It is symmetricly set on main lathe bed（24）Middle both sides position Put in cross；The main lathe bed（24）Upper middle position sets workbench（5）, the workbench（5）Two ends are respectively provided with Left station（6）, right working position（7）；The workbench（5）Internal spacing sets left fixture（8）, right fixture（9）, in the left fixture （8）, right fixture（9）Middle installation settings workpiece (15)；The preceding lathe bed（23）, rear lathe bed（25）Top is respectively provided with column, and It is symmetrically arranged at workbench（5）Both sides；The preceding lathe bed（23）Column upper end set before milling head（20）, preceding milling head（20）End End sets milling head cutter (19), preceding milling head（20）Milling head servomotor before setting above（22）, preceding milling head transmission dress Put（21）Mechanical connection is arranged on preceding milling head（20）, preceding milling head servomotor（22）Outboard end；The rear lathe bed（25） Column upper end set after milling head（18）, rear milling head（18）End sets milling head cutter (19), rear milling head（18）On Milling head servomotor after the setting of face（17）, rear milling head transmission device（16）Mechanical connection is arranged on rear milling head（18）, after Milling head servomotor（17）Outboard end；The preceding lathe bed（23）Right side sets davit（13）, the davit（13）Upper end leads to Cross swivel（14）Arm is set（12）, the arm（12）End sets operating system box（11）；In the main lathe bed（24） Rear side and positioned at rear lathe bed（25）Both sides are respectively provided with Hydraulic Station（30）, transformer（31）, lubricating pump（32）, regulator cubicle（33）； The main lathe bed（24）Right end side sets cooler bin（34）.

2. numerical-control turn-milling boring one special plane according to claim 1, it is characterised in that：The lathe bed（1）Preceding lathe bed （23）, main lathe bed（24）, rear lathe bed（25）Include lower margin hole（2）, lathe bed conveying hole, by foundation bolt pass through lower margin hole （2）Lathe bed is fixedly connected on cement flooring；The main lathe bed（24）Top is provided with X to table slide seat, and X is to workbench Track base sets table slide（26）.

3. numerical-control turn-milling boring one special plane according to claim 1, it is characterised in that：The workbench（5）Including X to entering To part；The X includes workbench servomotor to infeed mean（3）, table roller leading screw（27）, lead screw shaft bearings （28）, table lead screw nut seat（29）, table slide（26）, servomotor base, X is to servomotor shaft coupling；It is described Table slide（26）It is fixedly installed on workbench（5）Following X is in table slide seat；The table roller leading screw （27）It is arranged on table slide（26）Centre, table roller leading screw（27）Inner opposite end sets lead screw shaft bearings（28）, silk Thick stick bearing block（28）The sliding seat of both sides is arranged on table slide（26）Upper and and table slide（26）Composition sliding friction It is secondary；The table lead screw nut seat（29）It is arranged on table slide（26）Middle and and workbench（5）Below by bolt It is fixedly connected；The table roller leading screw（27）The other end is by X to servomotor shaft coupling connect setting workbench servo Motor（3）, workbench servomotor（3）It is arranged on servomotor base, servomotor base is arranged on main lathe bed（24）On Face one end.

4. numerical-control turn-milling boring one special plane according to claim 1, it is characterised in that：The rear milling head（18）, preceding milling Cut head（20）Include Z-direction micromatic setting；The Z-direction micromatic setting is arranged at rear milling head（18）, preceding milling head（20）Outward Side；The Z-direction micromatic setting is set includes Z-direction sliding block, Z-direction short distance guide rail, micrometer adjusting screw, after the Z-direction sliding block is arranged at Milling head（18）, preceding milling head（20）Rear side, the Z-direction short distance guide rail is arranged on preceding lathe bed（23）, rear lathe bed（25）Top Short column medial surface and sliding pair is constituted with Z-direction sliding block, the micrometer adjusting screw is arranged on Z-direction sliding block, milling head after being capable of achieving （18）, preceding milling head（20）Along the short-distance movement of Z-direction.

5. numerical-control turn-milling boring one special plane according to claim 1, it is characterised in that：Also include protecting component, it is described anti- Shield part includes interior protective cover（4）, integral protection cover（10）；The interior protective cover（4）It is arranged on workbench（5）Simultaneously contain bottom Protection workbench（5）The workbench servomotor of bottom（3）, table slide（26）, table roller leading screw（27）, lead screw shaft Bearing（28）, table lead screw nut seat（29）, servomotor base, X is to servomotor shaft coupling；The integral protection cover （10）It is arranged on workbench（5）Surrounding and height be higher than milling cutter（19）Endface position.

6. numerical-control turn-milling boring one special plane according to claim 1, it is characterised in that：Also filled including Computerized digital control system Put；The Computerized digital control system device is arranged on operating system box（11）Interior and and regulator cubicle（33）Between electrically connect, and two Person with workbench servomotor（3）, rear milling head servomotor（17）, preceding milling head servomotor (22), Hydraulic Station（30）、 Transformer（31）, lubricating pump（32）, cooler bin（34）Electrical connection.

7. numerical-control turn-milling boring one special plane according to claim 1, it is characterised in that：The left fixture（8）, right fixture （9）Can be connected by adjustment bolt, move, be fixed on workbench（5）Left station（6）Or right working position（7）.