CN108555602A - A kind of high-power complex milling machine tool - Google Patents

Abstract

The invention discloses a kind of high-power complex milling machine tools, belong to machine tool technology field, aim to solve the problem that the problem of milling attachment in traditional combined machine can only be used as secondary process, its key points of the technical solution are that a kind of high-power complex milling machine tool, including lathe bed and it is set to the main shaft of lathe bed, the back side knife platform that is set to main shaft side, the milling attachment for being set to the main shaft other side, the milling attachment includes driving mechanism and is rotatably dispose in the milling mechanism of driving mechanism.A kind of high-power complex milling machine tool of the present invention, by in milling attachment of the lathe bed setting with B axle, and milling attachment can be with multi-angle rotation, to coordinate main shaft to complete the Milling Process of complex part, product manufacture chain is effectively shortened, improve production efficiency, and reduce the clamping times of workpiece, machining accuracy is effectively improved, also has and reduces floor space, reduce the advantage of production cost.

Description

A kind of high-power complex milling machine tool

Technical field

The present invention relates to machine tool technology fields, more specifically, it relates to a kind of high-power complex milling machine tool.

Background technology

Lathe is the equipment for mainly carrying out turnery processing to the workpiece of rotation with lathe tool, and lathe is mainly by bearing part, change The compositions such as fast mechanism, feed mechanism, spindle box, lubricating system.Traditional lathe largely has a single function, some are mainly added with vehicle Based on work, some mainly based on Milling Process, when needing to operate workpiece into two kinds of driving and milling, are needed workpiece replacing It is processed on to the lathe of different function, this traditional operation certainly will cause the clamping times to workpiece excessive, accordingly Machining accuracy can also be affected, and due to frequently replacing the location of workpiece, and debug time can accordingly increase, and lead to production efficiency Low problem.

In order to overcome the above problem, it is transformed completes usually on turning center in the prior art, general method is number The regular knife tower of control lathe changes the knife tower of drive cutter into, main shaft increases C s functions, due to knife tower structure, appearance and size Limitation, the power of power head is small, and rotating speed is not high, can not install larger cutter, therefore such machining center is mainly added with vehicle Based on work, milling bores function and only does some secondary process.Therefore it cannot achieve high-power processing for some workpiece.

Therefore need to propose a kind of new scheme to solve the problems, such as this.

Invention content

In view of the deficiencies of the prior art, the present invention intends to provide a kind of high-power complex milling machine tool, tool There is the advantages of can carrying out high-power turning-milling complex processing to workpiece.

The present invention above-mentioned technical purpose technical scheme is that：A kind of high-power complex milling machine Bed, including lathe bed and be set to the main shaft of lathe bed, the back side knife platform that is set to main shaft side, the milling for being set to the main shaft other side Turning device, the milling attachment include driving mechanism and are rotatably dispose in the milling mechanism of driving mechanism.

By using above-mentioned technical proposal, by increasing milling dress on traditional only lathe bed with turning function It sets so that can realize the process operation of cutting and milling to workpiece simultaneously with a machine tool, on the one hand, shorten product manufacturing work Skill chain improves production efficiency.Turning-milling complex processing, which may be implemented once to be loaded, completes all or most manufacturing procedure, to Product manufacture chain is greatly shortened, not only reduces and changes caused production non-cutting time due to being loaded, decrease simultaneously Tooling fixture manufacturing cycle and stand-by period can significantly improve production efficiency；In addition to this clamping times can also be reduced, are carried High manufacturing accuracy.Be loaded number reduction avoid due to positioning datum convert caused by the accumulation of error.On the other hand, it reduces Floor space reduces production cost, although the separate unit cost of turning-milling complex processing equipment is relatively high, due to manufacturing process chain Shorten and the reduction of equipment and the reduction of frock clamp quantity, workshop floor space and equipment maintenance cost needed for product, energy Enough investments for effectively reducing overall fixed assets, the cost for producing function and management.

The present invention is further arranged to：The driving mechanism includes Z-direction drive component, is set to Z-direction drive component activity The Z-direction slide at end, the Y-direction drive component for being set to Z-direction slide, the Y-direction pedestal for being connected to Y-direction drive component, the Milling Machine Structure is rotationally connected with Y-direction pedestal, and the Z-direction drive component and the Y-direction drive component are all made of straight line slide unit.

By using above-mentioned technical proposal, Z-direction herein is to be parallel to main shaft axial direction, Y-direction be it is radial along main shaft and Horizontal direction, wherein Z-direction drive component includes the rectilinear orbit being arranged on lathe bed, and Z-direction slide is slidably arranged in straight line rail On road, it is additionally provided with motor and screw structure on lathe bed, drives Z-direction slide to be slided along rectilinear orbit by motor leading screw, from And milling mechanism is driven to realize that sliding is adjusted along Z-direction.Y-direction drive component includes the rectilinear orbit being arranged along Z-direction slide side wall, Y It is slidably arranged on rectilinear orbit and can be slid up and down to pedestal, motor screw structure is provided on Y-direction pedestal, passes through electricity Machine screw structure drives milling mechanism to realize front and back sliding along Y-direction.

The present invention is further arranged to：The milling mechanism includes being set to Y-direction pedestal towards main shaft one side wall and in vertical It is driven to the guide rail of setting, the angle that is slideably positioned in guide rail and screw-driven first lifting seat, is fixed on first lifting seat Dynamic component, is connected to the rotating seat of B axle free end, is set to the milling of rotating seat the B axle for being connected to angle drive component output shaft The milling cutter cut motor, be connected to milling motor output shaft.

By using above-mentioned technical proposal, first lifting seat drives angle drive component to realize lifting, realize milling cutter along X to That is the mobile adjustment of vertical direction, angle drive component can drive B axle to realize rotation, and the axis and main-shaft axis of B axle Antarafacial is vertical, and B axle can drive rotating seat and milling motor to rotate when rotating, and turns to control milling cutter and be realized relative to workpiece Dynamic, after adjusting the angle of milling cutter, milling motor rotates and milling cutter is driven to rotate, and milling is realized to workpiece.

The present invention is further arranged to：The angle drive component includes the electronics index dial for being fixed on first lifting seat, The side of shell towards the first lifting seat of the electronics index dial is extended with stabilizer blade, and the stabilizer blade is indexed electronics by bolt Disk is fixed on first lifting seat, and the output shaft of electronics index dial is arranged across first lifting seat, and the B axle is connected to electronics The output shaft of index dial.

By using above-mentioned technical proposal, the rotational angle of B axle can be controlled by index dial, according to the need of workpieces processing It wants, milling cutter can be turned to any angle, to considerably increase opereating specification.

The present invention is further arranged to：Turning set is equipped with fixing sleeve outside the B axle, and the fixing sleeve end is fixed on the One lifting seat.

By using above-mentioned technical proposal, B axle is threaded through in fixing sleeve and can be rotated, since B axle one end passes through connection Axis device is connected to the output shaft of index dial, therefore B axle, generally in vacant state, setting fixing sleeve can play B axle support Effect, reduce B axle suffered by moment of flexure, reduce B axle bending probability.

The present invention is further arranged to：The lathe bed is provided with countershaft mechanism, and the countershaft mechanism is driven by leading screw and edge Main shaft moves axially, and the back side knife platform is driven by leading screw and moved radially along main shaft.

By using above-mentioned technical proposal, countershaft can be moved axially along main shaft, right so as to coordinate the work of main shaft The operations such as gripping may be implemented in the workpiece that spindle processing is completed, processing is more flexible.

The present invention is further arranged to：The milling mechanism side is provided with tool magazine.

By using above-mentioned technical proposal, it is additionally provided with tool magazine in the side of milling mechanism, several are provided in tool magazine Cutter can carry out cutter changing to milling mechanism, and to which cutting tool choice is more, processing is more diversified.

The present invention is further arranged to：The countershaft mechanism includes being slideably positioned in lathe bed and being driven along spindle shaft by leading screw To mobile second slide, the second lifting seat for being slideably positioned in second slide side wall and moving up and down, it is connected to the second lifting The countershaft of seat.

By using above-mentioned technical proposal, workpiece after processing is completed, second slide is driven by leading screw and motor at main shaft It drives countershaft to be moved to the position contour with workpiece towards main axle moving, and by the second lifting seat, can be installed on countershaft Fixture is simultaneously moved at main shaft the gripping for carrying out workpiece, can continue to process to new workpiece on main shaft, after countershaft removes workpiece, It can be moved at the knife platform of the back side and be machined with clamping workpiece.The same of first step Milling Process is carried out to workpiece in main shaft in this way When, countershaft can carry out second step turnery processing with clamping workpiece and by back side knife platform, to which work can be completed in an equipment The turning-milling complex processing of part, and reduce the clamping times of workpiece, improve machining accuracy.

The present invention is further arranged to：The B axle rotation angle is -15 °~195 °.

By using above-mentioned technical proposal, in actual processing operation, the rotational angle of B axle generally at -15 °~195 °, Enable adaptation to the processing of all workpiece.

In conclusion the invention has the advantages that：

First, by increasing milling attachment on traditional only lathe bed with turning function so that can be with a machine tool The process operation of cutting and milling is realized to workpiece simultaneously, on the one hand, shorten product manufacture chain, improve production efficiency.Vehicle Milling Compound Machining, which may be implemented once to be loaded, completes all or most manufacturing procedure, to greatly shorten product manufacture Chain not only reduces and changes caused production non-cutting time due to being loaded, while decreasing the tooling fixture manufacturing cycle and waiting It waits for the time, production efficiency can be significantly improved；In addition to this clamping times can also be reduced, machining accuracy is improved.Be loaded number Reduction avoid due to positioning datum convert caused by the accumulation of error.On the other hand, floor space is reduced, reduction is produced into This, is although the separate unit cost of turning-milling complex processing equipment is relatively high, equipment needed for the shortening and product due to manufacturing process chain Reduction and frock clamp quantity, workshop floor space and equipment maintenance cost reduction, can effectively reduce overall fixation The investment of assets, the cost for producing function and management；

Second, first lifting seat drives angle drive component to realize lifting, realize that milling cutter moves tune along X to i.e. vertical direction Whole, angle drive component can drive B axle to realize rotation, and the axis of B axle is vertical with main-shaft axis antarafacial, when B axle rotates Rotating seat and milling motor can be driven to rotate, realized relative to workpiece to controlling milling cutter and rotated, when by the angle of milling cutter After adjusting, milling motor rotates and milling cutter is driven to rotate, and milling is realized to workpiece.

Description of the drawings

Fig. 1 is the overall structure diagram of the present embodiment；

Fig. 2 is the back structures schematic diagram of milling attachment；

Fig. 3 is the sectional view of milling attachment, is mainly used for showing the internal structure of milling attachment；

Fig. 4 is the structural schematic diagram of countershaft mechanism；

Fig. 5 is the portions the A enlarged diagram of Fig. 1；It is mainly used for showing the mounting means of power head；

Fig. 6 is the structural schematic diagram of back side knife platform.

In figure：1, lathe bed；2, main shaft；3, back side knife platform；4, milling attachment；5, driving mechanism；6, milling mechanism；7, Z-direction Drive component；8, Z-direction slide；9, Y-direction drive component；10, Y-direction pedestal；11, guide rail；12, first lifting seat；13, angle drives Component；14, B axle；15, rotating seat；16, milling motor；17, milling cutter；18, electronics index dial；19, stabilizer blade；20, fixing sleeve；21、 Countershaft mechanism；22, tool magazine；23, second slide；24, the second lifting seat；25, countershaft；26, regulating mechanism；27, mounting hole；28、 Power head；29, dovetail groove；30, dovetails；31, threaded hole；32, screw；33, sliding rail；34, sliding seat；35, adjusting part； 36, regulation motor；37, driving wheel；38, adjusting screw；39, driven wheel；40, belt；41, collet chuck；42, reinforcing rib.

Specific implementation mode

With reference to the accompanying drawings and examples, the present invention will be described in detail.

A kind of high-power complex milling machine tool, as shown in Figure 1, including lathe bed 1 and being slideably positioned in lathe bed 1 by leading screw Main shaft 2, and main shaft 2 can move along its axis, and further include the back side knife platform 3 for being set to 2 side of main shaft, be set to main shaft The milling attachment 4 of 2 other sides, milling attachment 4 include be arranged lathe bed 1 driving mechanism 5 and be rotatably dispose in driving mechanism 5 Milling mechanism 6 is additionally provided with countershaft mechanism 21 on lathe bed 1；When being processed to workpiece, work is clamped by main shaft 2 first Part, rear drive mechanism 5 drive milling mechanism 6 move axially to position corresponding with workpiece along main shaft 2, rear drive mechanism 5 It drives milling mechanism 6 to be vertically moved to position corresponding with workpiece, is adjusted to and the location of workpiece pair when by milling mechanism 6 Ying Hou, the requirement processed according to workpiece itself, when needing to slot to workpiece side wall, milling mechanism 6 turns to heeling condition, right Workpiece carries out oblique milling, and by rotating milling mechanism 6, milling mechanism 6 is adjusted to, inclination vertical with workpiece or parallel shape State, to realize the processing to complex-shaped workpieces.

In this way by increasing milling attachment 4 on traditional only lathe bed 1 with turning function so that same to a machine tool The process operation of cutting and milling can be realized to workpiece simultaneously, on the one hand, shorten product manufacture chain, improve production effect Rate.Turning-milling complex processing, which may be implemented once to be loaded, completes all or most manufacturing procedure, to greatly shorten product system Technology chain is made, not only reduces and changes caused production non-cutting time due to being loaded, while decreasing tooling fixture manufacture week Phase and stand-by period can significantly improve production efficiency；In addition to this clamping times can also be reduced, machining accuracy is improved.Dress The reduction of card number avoids the accumulation of error caused by positioning datum conversion.On the other hand, floor space is reduced, is reduced Production cost, although the separate unit cost of turning-milling complex processing equipment is relatively high, the shortening by manufacturing process chain and product institute The reduction of equipment and the reduction of frock clamp quantity, workshop floor space and equipment maintenance cost are needed, can effectively be reduced total The investment of body fixed assets, the cost for producing function and management.

As depicted in figs. 1 and 2, driving mechanism 5 include be arranged lathe bed 1 Z-direction drive component 7, be connected to Z-direction driving group Y-direction drive component 9 in Z-direction slide 8 is arranged in the Z-direction slide 8 of 7 movable end of part, further includes the Y for being connected to Y-direction drive component 9 To pedestal 10, milling mechanism 6 is rotatably connected on Y-direction pedestal 10, and Z-direction drive component 7 and Y-direction drive component 9 are all made of directly Line slide unit.Z-direction herein is to be parallel to 2 axial direction of main shaft, and Y-direction is along the radial and horizontal direction of main shaft 2, and wherein Z-direction is driven Dynamic component 7 includes the rectilinear orbit being arranged on lathe bed 1, and Z-direction slide 8 is slidably arranged on rectilinear orbit, is also set on lathe bed 1 It is equipped with motor and screw structure, drives Z-direction slide 8 to be slided along rectilinear orbit by motor leading screw, to drive 6 edge of milling mechanism Z-direction realizes that sliding is adjusted.Y-direction drive component 9 includes the rectilinear orbit being arranged along 8 side wall of Z-direction slide, and the sliding of Y-direction pedestal 10 is set It sets on rectilinear orbit and can slide up and down, motor screw structure is provided on Y-direction pedestal 10, pass through motor screw structure Milling mechanism 6 is driven to realize front and back sliding along Y-direction.

As shown in Figures 2 and 3, milling mechanism 6 includes being longitudinally arranged at guide rail 11 on Y-direction pedestal 10, and guide rail 11 are arranged towards main shaft 2, further include being slidably arranged on guide rail 11 and screw-driven first lifting seat 12, being fixed on first The angle drive component 13 of lifting seat 12, the B axle 14 for being connected to 13 output shaft of angle drive component, by be keyed in B axle 14 The rotating seat 15 of free end, the milling motor 16 for being set to rotating seat 15, the milling cutter 17 for being connected to 16 output shaft of milling motor；The One lifting seat 12 drives angle drive component 13 to realize lifting, realizes that milling cutter 17 moves adjustment, angle along X to i.e. vertical direction Drive component 13 can drive B axle 14 to realize rotation, and the axis of B axle 14 is vertical with 2 axis antarafacial of main shaft, and B axle 14 rotates When rotating seat 15 and milling motor 16 can be driven to rotate, realized relative to workpiece to controlling milling cutter 17 and rotated, when by milling After the angle of knife 17 is adjusted, milling motor 16 rotates and milling cutter 17 is driven to rotate, and milling is realized to workpiece.In milling mechanism 6 Side is provided with tool magazine 22, is provided with several cutter in tool magazine 22, cutter changing can be carried out to milling mechanism 6, to knife Tool selection is more, and processing is more diversified.

As shown in Figures 2 and 3, angle drive component 13 includes the electronics being bolted to connection in first lifting seat 12 Index dial 18, electronics index dial 18 include shell and the motor being arranged in shell, and the output shaft of index dial is towards first liter It drops seat 12 to be arranged, be integrally formed on the shell of index dial there are four stabilizer blade 19, four stabilizer blades 19 are bolted on respectively In first lifting seat 12, the output shaft of index dial passes through first lifting seat 12 and reaches first lifting seat 12 towards main shaft 2 Side connects B axle 14 on index dial output shaft by shaft coupling；The rotational angle of B axle 14, root can be controlled by index dial According to the needs of workpieces processing, milling cutter 17 can be turned to any angle, to considerably increase opereating specification.In actual processing In operation, the rotational angle of B axle 14 enables adaptation to the processing of all workpiece generally at -15 °~195 °.

As shown in figure 3, the outer cover in B axle 14 is equipped with fixing sleeve 20, the end of fixing sleeve 20 is fixed on the by flange On one lifting seat 12, B axle 14 is threaded through in fixing sleeve 20 and can be rotated, since 14 one end of B axle is connected to by shaft coupling The output shaft of index dial, therefore B axle 14, generally in vacant state, setting fixing sleeve 20 can play B axle 14 in the work of support With the moment of flexure suffered by reduction B axle 14 reduces the probability that B axle 14 is bent.

As shown in figure 4, countershaft mechanism 21 includes being slideably positioned in lathe bed 1 and being driven by leading screw to move axially along main shaft 2 Second slide 23 is axially provided with rectilinear orbit in 1 upper edge main shaft of lathe bed 2, and second slide 23 is slidably arranged on rectilinear orbit, It is additionally provided with motor and screw mechanism on lathe bed 1, drives leading screw rotation, driving second slide 23 to realize that straight line is slided by motor Move, to control second slide 23 towards or away from main shaft 2 move, further include be slideably positioned in 23 side wall of second slide and on Second lifting seat 24 of lower movement, the countershaft 25 for being connected to the second lifting seat 24 are again provided with electricity in 23 side wall of second slide Machine and screw mechanism drive the second lifting seat 24 to achive up and down by motor leading screw, to drive countershaft 25 to realize up and down It is mobile；Workpiece after processing is completed, is moved by leading screw and motor driving second slide 23 towards main shaft 2, and pass through at main shaft 2 Second lifting seat 24 drives countershaft 25 to be moved to the position contour with workpiece, and with installs fixture and main shaft can be moved on countershaft 25 The gripping of workpiece is carried out at 2, and new workpiece can be continued to process on main shaft 2, it, can be with clamping workpiece after countershaft 25 removes workpiece It is moved at back side knife platform 3 and machines.In this way while main shaft 2 carries out first step Milling Process to workpiece, countershaft 25 Second step turnery processing can be carried out with clamping workpiece and by back side knife platform 3, to which the vehicle of workpiece can be completed in an equipment Milling Compound Machining, and reduce the clamping times of workpiece, improve machining accuracy.

In addition to this, as shown in figure 4, the collet chuck 41 for cutter to be clamped can also be arranged in countershaft 25, work as master While workpiece milling at axis 2, countershaft 25 can carry out turn-milling cutting to back of work, realize to workpiece side wall and back end The working hour in face processes, that is, works while realizing main shaft 2, countershaft 25 and milling mechanism 6, substantially increase processing efficiency.

As shown in Figure 5 and Figure 6, the regulating mechanism 26 for controlling the movement of back side knife platform 3, the back side are provided on lathe bed 1 The side of knife platform 3 towards countershaft mechanism 21 offers ten mounting holes 27, and mounting hole 27 is distributed in ranks, in mounting hole 27 Inside be fitted with power head 28, power head 28 herein is common on the market power head 28, and can select five it is rotary With five it is fixed match, can also according to work pieces process need freely arrange in pairs or groups；The back side can be adjusted by regulating mechanism 26 Knife platform 3 is moved along radial realize of main shaft 2, so that back side knife platform 3 can coordinate countershaft 25 to work, passes through overleaf knife platform 3 On open up mounting hole 27 and install power head 28 in a manner of embedded, direct power head 28 is passed through compared to traditional Bolt fixes the mode overleaf on knife platform 3, has the advantages that firmly install and convenient.

As shown in figure 5, offering dovetail groove 29 in 27 side wall of mounting hole, the side wall of power head 28 is provided with for sliding card It is connected to the dovetails 30 of dovetail groove 29；When installing power head 28, dovetails 30 are aligned and are installed with dovetail groove 29, swallow is passed through The cooperation of tail block 30 and dovetail groove 29 can reduce shaking of the power head 28 in mounting hole 27 so that structure is more stable.

As shown in figure 5, in order to which further power head 28 is fixed, threaded hole is offered in 27 side wall of mounting hole 31, screw 32 is equipped in threaded hole 31, and 32 end of screw lock onto 28 side wall of power head；It is installed in this way by power head 28 After in mounting hole 27, screw 32 is tightened in threaded hole 31, and 28 side wall of power head is pushed against by 32 end of screw, it is real Now the further fastening of power head 28 is locked.

As shown in fig. 6, regulating mechanism 26 include be set to lathe bed 1 and be axially arranged along countershaft 25 sliding rail 33, sliding set It is placed in the sliding seat 34 of sliding rail 33, back side knife platform 3 is fixed on sliding seat 34, and lathe bed 1 is provided with for driving sliding seat 34 to move Adjusting part 35；Sliding rail 33 is arranged along 2 radial direction of main shaft, and adjusting part 35 can drive sliding seat 34 to move, sliding seat 34 can drive back side knife platform 3 to be moved along sliding rail 33, to preferably coordinate the operation of countershaft 25.Back side knife platform 3 and sliding seat Reinforcing rib 42 is provided between 34, to improve the intensity of sliding seat 34 and back side knife platform 3 so that back side knife platform 3 can be born The impact force of bigger.

As shown in fig. 6, adjusting part 35 includes being fixedly installed on the regulation motor 36 of lathe bed 1 and being connected to regulation motor The driving wheel 37 of 36 output shafts further includes being rotatably dispose in the adjusting screw 38 of sliding seat 34 and being connected to 38 end of adjusting screw The driven wheel 39 in portion, is connected with belt 40 between driving wheel 37 and driven wheel 39, sliding seat 34 is connected to tune by feed screw nut Save leading screw 38；Driving wheel 37 is driven to rotate by regulation motor 36, driving wheel 37 drives driven wheel 39 to rotate by belt 40, from Driving wheel 39 drives adjusting screw 38 to rotate, to drive sliding seat 34 to be moved along the realization of adjusting screw 38, and due to adjusting electricity It is connected by belt 40 between machine 36 and adjusting screw 38, when 38 stress of adjusting screw is excessive, belt 40 can occur to skid existing As to prevent regulation motor 36 to be damaged by large impact, playing the role of protecting motor overload.

As shown in fig. 6, and 39 diameter of driven wheel be more than driving wheel 37 diameter, in this way regulation motor 36 provide power In the case of constant, since transmission ratio increases, the torque of leading screw can accordingly increase, so as to realize on back side knife platform 3 The high-power cutting of power head 28.

The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation Example, all technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art Those of ordinary skill for, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (9)

1. a kind of high-power complex milling machine tool, it is characterised in that：Including lathe bed (1) and it is set to the main shaft of lathe bed (1) (2), the milling attachment (4) for being set to the back side knife platform (3) of main shaft (2) side, being set to main shaft (2) other side, the milling Device (4) includes driving mechanism (5) and is rotatably dispose in the milling mechanism (6) of driving mechanism (5).

2. a kind of high-power complex milling machine tool according to claim 1, it is characterised in that：Driving mechanism (5) packet Z-direction drive component (7) is included, the Z-direction slide (8) of Z-direction drive component (7) movable end is set to, is set to the Y-direction of Z-direction slide (8) Drive component (9), the Y-direction pedestal (10) for being connected to Y-direction drive component (9), the milling mechanism (6) are rotationally connected with Y-direction bottom Seat (10), the Z-direction drive component (7) and the Y-direction drive component (9) are all made of straight line slide unit.

3. a kind of high-power complex milling machine tool according to claim 2, it is characterised in that：Milling mechanism (6) packet Include be set to Y-direction pedestal (10) towards main shaft (2) one side wall and in longitudinally disposed guide rail (11), be slideably positioned in guide rail (11) And screw-driven first lifting seat (12), be fixed on first lifting seat (12) angle drive component (13), be connected to angle The B axle (14) for spending drive component (13) output shaft, is set to rotating seat at the rotating seat (15) for being connected to B axle (14) free end (15) milling motor (16), the milling cutter (17) for being connected to milling motor (16) output shaft.

4. a kind of high-power complex milling machine tool according to claim 3, it is characterised in that：The angle drive component (13) include the electronics index dial (18) for being fixed on first lifting seat (12), the shell direction first of the electronics index dial (18) The side of lifting seat (12) is extended with stabilizer blade (19), and electronics index dial (18) is fixed on first by the stabilizer blade (19) by bolt Lifting seat (12), and the output shaft of electronics index dial (18) is arranged across first lifting seat (12), and the B axle (14) is connected to The output shaft of electronics index dial (18).

5. a kind of high-power complex milling machine tool according to claim 4, it is characterised in that：Turn outside the B axle (14) Dynamic to be arranged with fixing sleeve (20), first lifting seat (12) is fixed in fixing sleeve (20) end.

6. a kind of high-power complex milling machine tool according to claim 4, it is characterised in that：The lathe bed (1) is provided with Countershaft mechanism (21), the countershaft mechanism (21) are driven by leading screw and are moved axially along main shaft (2), the back side knife platform（3）By Leading screw drives and is moved radially along main shaft (2).

7. a kind of high-power complex milling machine tool according to claim 1, it is characterised in that：The milling mechanism (6) one Side is provided with tool magazine (22).

8. a kind of high-power complex milling machine tool according to claim 6, it is characterised in that：Countershaft mechanism (21) packet It includes the second slide (23) for being slideably positioned in lathe bed (1) and being moved axially along main shaft (2) by leading screw drive, be slideably positioned in second Slide (23) side wall and the second lifting seat (24) moved up and down, the countershaft (25) for being connected to the second lifting seat (24).

9. a kind of high-power complex milling machine tool according to claim 3, it is characterised in that：B axle (14) angle of rotation Degree is -15 °~195 °.