CN108098346A - Twin shaft complex milling machine - Google Patents

Abstract

The invention discloses twin shaft complex milling machines, including a pedestal, one A mainshaft mechanism, one A column agency, one B mainshaft mechanism, one B column agency, several feed mechanisms, the feed mechanism includes feed servo motor, shaft coupling, feed motor cabinet, ball screw, middle seat, tailstock, feed screw nut, clamp nut, screw spacer, left bearing, right bearing, the A mainshaft mechanisms, B mainshaft mechanisms are all by collet chuck seat, main shaft, collet chuck, pull rod, angling cylinder, return water box, spindle locking nut, spindle motor seat, main spindle box, spindle motor, brake, synchronous belt, synchronizing wheel is formed, the A column agencies, B column agencies are all by supporting lower section, it is saved in support, column knife platen, column upper slide rest is formed；The present invention is reasonable in design, easy to use, high in machining efficiency.

Description

Twin shaft complex milling machine

Technical field

The present invention relates to twin shaft complex milling machines.

Background technology

Traditional complex milling machine, the defects of due in its structure design and technical deficiency, there are it is complicated, Many defects such as function is single, in addition traditional equipment there was only the unilateral turnning and milling of single main shaft, can not accomplish to dock at a high speed, process part When more many processes, both add time cost, while also more than once assembly and disassembly error, part both ends concentricity are also difficult to protect Card.

The content of the invention

For overcome the deficiencies in the prior art, the present invention provides pair reasonable in design, easy to use, high in machining efficiency Axis complex milling machine.

Twin shaft complex milling machine, including a pedestal, an A mainshaft mechanism, an A column agency, a B main shaft machine Structure, a B column agency, several feed mechanisms, the feed mechanism include feed servo motor, shaft coupling, feeding motor Seat, ball screw, middle seat, tailstock, feed screw nut, clamp nut, screw spacer, left bearing, right bearing, the left bearing, the right side Bearing is separately mounted in feeding motor cabinet and tailstock, and the both ends of ball screw are respectively inserted into the inner ring of left bearing, right bearing It is interior, left bearing, right bearing outer ring on all press there are one gland, the both ends of ball screw are respectively provided with a screw spacer simultaneously Fastened by clamp nut, middle seat is mounted in the middle part of ball screw and passes through feed screw nut and fixes, feed servo motor be mounted in into To the rear end of motor cabinet, feed servo motor is connected by shaft coupling with ball screw, and the A mainshaft mechanisms, B mainshaft mechanisms are all By collet chuck seat, main shaft, collet chuck, pull rod, angling cylinder, return water box, spindle locking nut, spindle motor seat, main spindle box, main shaft electricity Machine, brake, synchronous belt, synchronizing wheel are formed, and collet chuck seat is mounted on the front end of main shaft, and taper fit is simultaneously between collet chuck and collet chuck seat It is fastened by pull rod, angling cylinder is mounted on the rear end of main shaft, and return water box is located at the afterbody of angling cylinder, and main shaft is mounted on main shaft It is locked on case and by spindle locking nut, spindle motor seat is mounted on main spindle box, and spindle motor is mounted on spindle motor seat On, synchronizing wheel is located on the line shaft of spindle motor, and synchronous belt is socketed between main shaft and synchronizing wheel, and the A mainshaft mechanisms are consolidated It is scheduled on pedestal, the B mainshaft mechanisms are connected by guide rail with pedestal, and B mainshaft mechanisms are further through main shaft planker and feed mechanism The connection of middle seat, the A column agencies, B column agencies are all by supporting lower section, section, column knife platen, column upper slide rest in support It forms, column knife platen is mounted on column upper slide rest, and column upper slide rest is connected by guide rail with being saved in support, column upper slide rest It is connected again with the middle seat of feed mechanism, supports lower section together with section is fastened by bolts in support, the branch of the A column agencies The lower section of support is connected by guide rail and saddle the upper surface of, is connected below saddle by guide rail with pedestal, saddle and with into It is connected to the middle seat of mechanism, section is connected by guide rail with pedestal under the support of the B column agencies, supports lower section again with feeding machine The middle seat connection of structure.

The beneficial effects of the invention are as follows：It is book product structure optimization, ingenious in design, if there are one A mainshaft mechanisms, an A Column agency, a B mainshaft mechanism, a B column agency, several feed mechanisms, the B mainshaft mechanisms can control cunning Row can be formed with A mainshaft mechanisms and docked at a high speed, can avoid manually assemble and disassemble error caused by workpiece realization part is reversed end for end, when adding When the workpiece of work is speciality workpiece, A column agencies can carry out segmental machining to workpiece simultaneously with B column agencies, realize processing High efficiency, embodied traditional machine tool without superior functionality, in addition B column agencies cooperation B mainshaft mechanisms can realize to work Part carries out the turning-milling complex processing of tri- axial directions of XYZ, and this product reduces well to be needed manually to reverse end for end in production process originally Time cost, greatly increase the production efficiency.

Description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the overall structure diagram of the present invention.

Fig. 2 is the structure diagram of pedestal and feed mechanism.

Fig. 3 is the structure diagram of feed mechanism.

Fig. 4 is the structure diagram of A mainshaft mechanisms.

Fig. 5 is the structure diagram of A column agencies.

Fig. 6 is the structure diagram of B column agencies.

Specific embodiment

With reference to Fig. 1-Fig. 6, twin shaft complex milling machine, including an A column agency of A mainshaft mechanisms 2, one of pedestal 1, one 3rd, 4, B column agencies 5 of a B mainshaft mechanism, several feed mechanisms 6, the feed mechanism 6 include feed servo motor 7th, shaft coupling 8, feeding motor cabinet 9, ball screw 10, middle seat 11, tailstock 12, feed screw nut 13, clamp nut 14, screw spacer 15th, left bearing 16, right bearing 17, the left bearing 16, right bearing 17 are separately mounted in feeding motor cabinet 9 and tailstock 12, rolling The both ends of ballscrew 10 are respectively inserted into the inner ring of left bearing 16, right bearing 17, left bearing 16, right bearing 17 outer ring on All to press there are one gland 18, the both ends of ball screw 10 are respectively provided with a screw spacer 15 and pass through clamp nut 14 and fasten, Middle seat 11 is mounted in the middle part of ball screw 10 and passes through feed screw nut 13 and fixes, and feed servo motor 7 is mounted in feeding motor cabinet 9 Rear end, feed servo motor 7 are connected by shaft coupling 8 with ball screw 10, and the A mainshaft mechanisms 2, B mainshaft mechanisms 4 are all by cylinder Holder 19, main shaft 20, collet chuck 21, pull rod 22, angling cylinder 23, return water box 24, spindle locking nut 25, spindle motor seat 26, Main spindle box 27, spindle motor 28, brake 29, synchronous belt 30, synchronizing wheel 31 are formed, before collet chuck seat 19 is mounted on main shaft 20 End taper fit and passes through pull rod 22 and fastens between collet chuck 21 and collet chuck seat 19, and angling cylinder 23 is mounted on the rear end of main shaft 20, Return water box 24 is located at the afterbody of angling cylinder 23, and main shaft 20 is mounted on main spindle box 27 and passes through spindle locking nut 25 and locks, Spindle motor seat 26 is mounted on main spindle box 27, and spindle motor 28 is mounted on spindle motor seat 26, and synchronizing wheel 31 is located at main shaft On the line shaft of motor 28, synchronous belt 30 is socketed between main shaft 20 and synchronizing wheel 31, and the A mainshaft mechanisms 2 are fixed on pedestal 1 On, the B mainshaft mechanisms 4 are connected by guide rail 38 with pedestal 1, and B mainshaft mechanisms 4 pass through main shaft planker 32 and feed mechanism 6 Middle seat 11 connects, and the A column agencies 3, B column agencies 5 are all by saving section 34 in 33, support, column knife platen 35, standing under supporting Column upper slide rest 36 is formed, and column knife platen 35 is mounted on column upper slide rest 36, and column upper slide rest 36 passes through guide rail 38 and support Upper 34 connection of section, column upper slide rest 36 are connected again with the middle seat 11 of feed mechanism 6, and lower section 33 is supported to pass through spiral shell with section 34 in support Bolt tightens together, and 33 is saved under the support of the A column agencies 3 by guide rail 38 with being connected above saddle 37, saddle It is connected below 37 by guide rail 38 with pedestal 1, saddle 37 is connected again with the middle seat 11 of feed mechanism 6, the B column agencies Section 33 is connected by guide rail 38 with pedestal 1 under 5 support, and lower section 33 is supported to be connected again with the middle seat 11 of feed mechanism 6.Book produces It is product structure optimization, ingenious in design, if there are one A mainshaft mechanisms, an A column agency, a B mainshaft mechanism, a B pole press Structure, several feed mechanisms, the B mainshaft mechanisms, which can control, to be slided, and can be formed with A mainshaft mechanisms and docked at a high speed, can kept away Manpower-free assembles and disassembles workpiece and realizes error caused by part u-turn, and when the workpiece of processing is speciality workpiece, A column agencies are stood with B Column mechanism can carry out segmental machining to workpiece simultaneously, realize the high efficiency of processing, embodied traditional machine tool without it is superior Function, in addition B column agencies cooperation B mainshaft mechanisms can realize to workpiece carry out tri- axial directions of XYZ turning-milling complex processing, this production Product reduce the time cost for needing manually to reverse end for end originally in production process well, greatly increase the production efficiency.

Claims (1)

1. twin shaft complex milling machine, including a pedestal, an A mainshaft mechanism, an A column agency, a B mainshaft mechanism, One B column agency, several feed mechanisms, it is characterised in that：The feed mechanism include feed servo motor, shaft coupling, Feed motor cabinet, ball screw, middle seat, tailstock, feed screw nut, clamp nut, screw spacer, left bearing, right bearing, the left side Bearing, right bearing are separately mounted in feeding motor cabinet and tailstock, and the both ends of ball screw are respectively inserted into left bearing, right bearing Inner ring in, left bearing, right bearing outer ring on all press there are one gland, the both ends of ball screw are respectively provided with a screw Spacer is simultaneously fastened by clamp nut, and middle seat is mounted in the middle part of ball screw and passes through feed screw nut and fixes, feed servo motor Mounted in the rear end of feeding motor cabinet, feed servo motor is connected by shaft coupling with ball screw, the A mainshaft mechanisms, B main shafts Mechanism all by collet chuck seat, main shaft, collet chuck, pull rod, angling cylinder, return water box, spindle locking nut, spindle motor seat, main spindle box, Spindle motor, brake, synchronous belt, synchronizing wheel are formed, and collet chuck seat is mounted on the front end of main shaft, taper between collet chuck and collet chuck seat It is fastened with merga pass pull rod, angling cylinder is mounted on the rear end of main shaft, and return water box is located at the afterbody of angling cylinder, main shaft installation It is locked on main spindle box and by spindle locking nut, spindle motor seat is mounted on main spindle box, and spindle motor is mounted on main shaft On motor cabinet, synchronizing wheel is located on the line shaft of spindle motor, and synchronous belt is socketed between main shaft and synchronizing wheel, the A main shafts Mechanism is fixed on pedestal, and the B mainshaft mechanisms are connected by guide rail with pedestal, B mainshaft mechanisms further through main shaft planker with into It is connected to the middle seat of mechanism, the A column agencies, B column agencies under supporting all by saving, section, column knife platen, column in support Upper slide rest is formed, and column knife platen is mounted on column upper slide rest, and column upper slide rest is connected by guide rail with being saved in support, column Upper slide rest is connected again with the middle seat of feed mechanism, supports lower section together with section is fastened by bolts in support, the A pole press Section is connected, saddle below saddle by guide rail with being connected above saddle by guide rail with pedestal under the support of structure Again be connected with the middle seat of feed mechanism, under the support of the B column agencies section be connected by guide rail with pedestal, support under save and with The middle seat connection of feed mechanism.