A kind of numerical control retainer window milling machine
Technical field
The present invention relates to ball-cage constant velocity universal joint retainer technical field, particularly relate to a kind of numerical control retainer window milling machine.
Background technology
Numerical control retainer window milling machine is widely used in the milling of various C/V window, can process high-precision workpiece within the scope of its working ability within the several seconds.The main cause of the precision and stability and efficiency that affect component shaping has: 1, the integral rigidity of lathe; 2, the general single milling unit head adopted, hydraulic indexing, hydraulic-driven turbine and worm rotates, and complex operation, loses time, and lowers efficiency.
Summary of the invention
Technical problem to be solved by this invention is a kind of numerical control retainer window duplex head milling machine proposed for above-mentioned prior art defect.
The required technical problem solved of the present invention can be achieved through the following technical solutions:
A kind of numerical control retainer window milling machine, comprise overall high rigidity antivibration casting fuselage, left and right longitudinal driving device, rotary main shaft parts, left and right saddle, left and right slide, left and right gliding mass, left and right high-speed milling unit head, left and right transverse adjustment device, Workpiece clamping device, pneumatic means and Workpiece cooling device, described left and right longitudinal driving device is fixedly mounted on integral body upper surface, described rotary main shaft parts are fixedly mounted on the centre of integral body, described left and right saddle to be fixedly mounted on respectively on the longitudinal driving device of left and right and can longitudinally to move around, described left and right slide is fixedly mounted on saddle, described transverse adjustment device is fixedly mounted on slide upper surface, described gliding mass to be arranged on x wire rail device and can transverse reciprocating adjustment, described left and right high-speed milling unit head is fixedly mounted on above gliding mass and laterally adjusts height back and forth with gliding mass, described Workpiece clamping device to be fixedly mounted on rotary main shaft parts and can clamping and release workpiece, described pneumatic means is fixedly mounted on rotary main shaft parts, described Workpiece cooling device fixed installation gliding mass upper surface.
Described longitudinal driving device installs fixing screw mandrel, and on described screw mandrel, all cover has feed screw nut, and described feed screw nut is fixed on saddle.
Described left and right saddle and left and right gliding mass are all fixedly mounted on above rolling guide.
Described left and right saddle is all connected with skid by slide rail with left and right gliding mass, described slide rail is fixedly mounted on overall high rigidity antivibration casting machine with it on surperficial the right and left and left and right slide respectively, described slide block set is on slide rail, and be fixedly mounted on left and right saddle and left and right gliding mass respectively, described left and right saddle take servomotor as power drive, described servomotor is direct-connectedly fixedly mounted on the longitudinal driving device of left and right by shaft coupling respectively, servomotor rotary motion controls left and right saddle by left and right screw mandrel and longitudinally move around.
Described gliding mass with manual adjustments screw rod for power drive, described adjustment screw rod by screw direct-connected on gliding mass, adjusting screw(rod) rotary motion controls gliding mass transverse reciprocating and moves to adjust height.
It is surperficial with it that described left and right longitudinal driving device, left and right saddle, the equal level of milling unit head are installed on overall high rigidity antivibration casting machine, and be all positioned at the right and left at rotary main shaft center, left and right high-speed milling unit head axis on the same axis, and vertical with main-shaft axis, three axis are at grade.
Described Workpiece clamping device, rotary main shaft parts are all installed vertically on fuselage upper surface.
The high speed rotary cylinder that described pneumatic means adopts.
Dynamic lubrication device is cut in described milling machine increase, described in cut dynamic lubrication device adopt grease lubrication.
Beneficial effect of the present invention is: adopt overall high rigidity antivibration casting fuselage, longitudinal driving device, saddle and spindle box part are all directly installed on it overall high rigidity antivibration casting machine, rigidity is strong, add that full SERVO CONTROL vertically moves in conjunction with the motion of workpiece spindle high-frequency rotating, precision and the stability of workpiece milling can be guaranteed; Save time, improve working (machining) efficiency.
Accompanying drawing explanation
Fig. 1 is structural perspective of the present invention.
Detailed description of the invention
The technological means realized to make the present invention, creation characteristic, reaching object and effect is easy to understand, below in conjunction with concrete diagram, setting forth the present invention further.
During concrete enforcement, describe the present invention in detail below with reference to Fig. 1, a kind of numerical control retainer window milling machine, comprise the overall high casting of rigidity antivibration fuselage 1, the right longitudinal driving device 2, right saddle 3, right slide 4, the right upward adjustment screw 5, the lower adjustment screw rod 6 in the right, right gliding mass 7, right unit head 8, left unit head 9, right gliding mass 10, left side upward adjustment screw 11, screw rod 12 is adjusted, left side slide 13, left side saddle 14 under the left side, left side zigzag tread patterns 15, Workpiece clamping device 16, rotary main shaft parts 17.Described the right longitudinal driving device 2 is fixed in the upper plane of overall high rigidity antivibration casting fuselage 1, described right saddle 3 is fixedly mounted on right longitudinal driving device 2, described right slide 4 is fixedly mounted on right saddle 3, described right gliding mass 7 times surface mount rails and adjust screw rod 6 under raising screw rod 5 and the right by the right and be connected, described right electro spindle 8 fixedly mounts on the right on gliding mass 7, described left side longitudinal driving device 15 is fixed in the upper plane of overall high rigidity antivibration casting fuselage 1, described left saddle 14 is fixedly mounted on left longitudinal driving device 15, described left slide 13 is fixedly mounted on left saddle 14, described left gliding mass 10 times surface mount rails and adjust screw rod 12 under raising screw rod 11 and the left side by the left side and be connected, described left unit head 9 fixedly mounts on the left side gliding mass 10, rotary main shaft parts 17 are fixed on upper plane in the middle of overall high rigidity antivibration casting fuselage 1, Workpiece clamping device 16 is fixedly mounted on the top of rotary main shaft parts 17.
It is surperficial with it that left and right longitudinal driving device, left and right saddle, the equal level of unit head are installed on overall high rigidity antivibration casting machine, and the right and left at equal position and rotary main shaft center, unit head axis is on the same axis, and vertical with main-shaft axis, and three axis at grade.Workpiece clamping device, rotary main shaft parts are all installed vertically on fuselage upper surface.
Be arranged on the High Rotation Speed milling power cephalic par extension bar on the gliding mass of left and right and milling cutter is installed, High Rotation Speed milling unit head and left and right gliding mass are fixed, left and right gliding mass is connected with left and right slide respectively by line rail, left and right gliding mass is by lateral adjustments screw rod adjustment left and right milling power grease head highness simultaneously, adjust to left and right milling head and lay respectively at the top edge of retainer left window and the lower limb of the right window, left and right slide installs fixing left and right respectively on saddle, the rotary motion of following left servo longitudinal motor makes left and right milling unit head longitudinally move around by screw mandrel, milling cutter does feed motion simultaneously under the motion of left and right longitudinal driving device.Two side mills are moved to simultaneously and is fixed on overall high rigidity antivibration casting machine and carries out milling in retainer window place with it, Workpiece clamping does high-frequency rotating motion in a window ranges in clamping device under the driving of spindle servo electric machine, milling cutter does high speed rotary motion and carries out milling workpiece under the driving of high-speed milling unit head, the milling cutter left side top edge of milling retainer window and the lower limb of the right window respectively of the right and left, after the program of two side mill completion system settings, left and right unit head withdrawing under the driving of left and right longitudinal driving device, workpiece carries out 60 degree of calibration under inciting somebody to action servomotor rotary motion again, carry out next one circulation, six circulations can complete the upper equal milling below of six of a whole retainer window altogether.The precision of workpiece milling and stability are by the rigidity of lathe integral rigidity, milling unit head and linear velocity, the relative rotary motion that workpiece rotates and milling cutter rotates and obtaining, the fastest milling shaping completing workpiece within the several seconds.
More than show and describe general principle of the present invention, principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present invention; the present invention also has various changes and modifications without departing from the spirit and scope of the present invention, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.