CN108296781A - A kind of machining equipment for cylindrical work Dual-head chamfering - Google Patents

Abstract

The present invention relates to machinery equipment field, more particularly to a kind of machining equipment for cylindrical work Dual-head chamfering, including rotating mechanism, feed mechanism and chamfer mechanism, the rotating mechanism includes rotary components, four positioning components and four runner assemblies, four positioning components are circumferentially distributed on the side wall of rotary components, four runner assemblies are separately mounted to the side of four positioning components and are connect respectively with four positioning components, rotary components include electric rotating machine and rotating disk, electric rotating machine output end is fixedly connected with rotating disk, mounting bracket there are four being set on the side wall of rotating disk, each mounting bracket includes four mounting rods disposed in parallel, guide rod there are two being all provided between two mounting rods of homonymy in rotating disk, each guide rod is fixedly connected with mounting rod in the upper and lower ends of cylindrical structure and each guide rod point.The device can be carried out at the same time chamfer machining to the both ends of two cylindrical works, improve production efficiency.

Description

A kind of machining equipment for cylindrical work Dual-head chamfering

Technical field

The present invention relates to machinery equipment field, more particularly to a kind of mechanical processing for cylindrical work Dual-head chamfering is set It is standby.

Background technology

In field of machining, chamfering (sharp edge is blunt) is common and indispensable manufacturing procedure, and chamfering is both to remove The burr that workpiece generates in process of production carries out blunt or rounding, to prevent its stroke also for the sharp sharp edge of workpiece The person of hurting sb.'s feelings or article, while chamfering also facilitates the assembling of workpiece to coordinate, therefore, application range ten of the chamfering in field of machining Divide extensively, most of cylindrical work after formation, is both needed to carry out chamfering, the efficiency of chamfering to the sharp edge of its end Also the production efficiency of mechanical processing, and existing most cylindrical works (such as connecting shaft, support column, company are directly affected Take over, the cylinder of cylinder roller bearing rolls core etc.), after it is shaped, it is required to two bottom ends to cylindrical work Chamfering deburring is carried out, and common production equipment is all to carry out chamfer machining to one end of workpiece, removes workpiece again later, falls Then head clamping carries out chamfer machining to its other end again, not only time-consuming and laborious, but also inefficiency.

Invention content

It is an object of the invention to be directed to deficiencies of the prior art, provide a kind of for cylindrical work double end The machining equipment of chamfering, it can be carried out at the same time chamfer machining to the both ends of two cylindrical works, improve production efficiency.

To solve the above problems, the present invention provides following technical scheme：

A kind of machining equipment for cylindrical work Dual-head chamfering, including rotating mechanism, feed mechanism and chamfering Mechanism, the feed mechanism and chamfer mechanism are respectively positioned on the side of rotating mechanism, the rotating mechanism include rotary components, four Positioning component and four runner assemblies, four positioning components are circumferentially distributed on the side wall of rotary components, four runner assemblies It is separately mounted to the side of four positioning components and is connect respectively with four positioning components, the rotary components include electric rotating machine And rotating disk, the electric rotating machine are fixedly connected in horizontally disposed and its output end with rotating disk, the side wall of rotating disk is equipped with Four mounting brackets being circumferentially distributed, each mounting bracket include four mounting rods disposed in parallel, are located at homonymy in rotating disk Two mounting rods between be all provided with there are two guide rod, each guide rod be in cylindrical structure and each guide rod upper and lower ends point with Mounting rod is fixedly connected.

Further, each positioning component includes two upper compact heaps, two lower compact heaps and dual-axle motors, described Upper compact heap and lower compact heap are bonded to be formed in semicircle ring structure and the both ends of upper compact heap and corresponding lower compact heap The centre of one complete annulus, upper compact heap and lower compact heap is equipped with sliding shoe, and fin is equipped on each sliding shoe, on Be equipped with the sliding slot being slidably matched with fin on compact heap and lower compact heap, the inside of sliding shoe is equipped with rubber pad, it is described on The both ends of compact heap are equipped with the guide pad being slidably matched with guide rod, and two upper compact heap sides close to each other are equipped with hinged Seat, the lower end of two lower compact heaps is fixedly connected with two mounting rods respectively, close to two upper compact heaps two mounting rods it Between be equipped with the first mounting plate for installing dual-axle motor, dual-axle motor in horizontally disposed and its both ends be equipped with respectively with twin shaft electricity The rotating wheel that two output ends of machine are fixedly connected is designed with one end and the hinged connection of rotating wheel on the side wall of each rotating wheel Bar, the other end of connecting rod with and the connecting rod homonymy hinged seat be hinged.

Further, each runner assembly includes rotary electric machine, driving gear, driven gear and rotating cylinder, institute State rotating cylinder in be horizontally set between two lower compact heaps and the both ends of rotating cylinder respectively with the sliding on two lower compact heaps Block is fixedly connected, and driven gear is sheathed on the outside of rotating cylinder, between two mounting rods being fixedly connected with two lower compact heaps Equipped with the second mounting plate for installing rotary electric machine, the output end of rotary electric machine is fixedly connected with driving gear, driving gear It is engaged with driven gear.

Further, the feed mechanism includes two feeding tracks and two pushing material components, two feeding tracks It is inclined to set and the both sides of two feeding tracks is equipped with first baffle, close to the end of the first baffle of rotary components side End is equipped with rounded discharge port, and the end of the first baffle far from rotary components is equipped with connector.

Further, two pushing material components include pusher cylinder and expeller, and two pusher cylinders are in level It is arranged and is located at the side of two feeding tracks, the output end of two pusher cylinders is respectively facing two connectors, pusher Block is fixedly mounted on the output end of pusher cylinder, and the front end of each expeller is equipped with rubber block.

Further, side of the rotating disk far from feeding track is set there are two blanking track, and two blanking tracks are equal It is inclined to set and the both sides of two blanking tracks is equipped with second baffle, be equipped with down close to the front end of the second baffle of rotating disk Material mouth is equipped with the buffer strip that both ends are fixedly connected with two second baffles respectively between two second baffles.

Further, the chamfer mechanism includes the first chamfer angle component and the second chamfer angle component, first chamfer angle component It is symmetrical set the side in rotary components with the second chamfer angle component.

Further, first chamfer angle component include the first mounting base, the first fixed plate, two the first electric cylinders, two First cylinder and two first motors, first fixed plate are in be vertically installed at the upper end of the first mounting base, two first electricity Cylinder state in a vertical shape is symmetrically disposed on the both sides of the first fixed plate, and the first connecting plate is equipped on the sliding block of two the first electric cylinders, Two the first cylinders respectively be in be horizontally set on two the first connecting plates and the output end of two the first cylinders towards rotation Mechanism is arranged, and the front ends of two the first cylinders is equipped with the second connecting plate, and the output ends of two first motors is towards rotating mechanism And the first connector is equipped on two output ends, the front end of the first connector is equipped with the first chamfering head.

Further, second chamfer angle component include the second mounting base, the second fixed plate, two the second electric cylinders, two Second cylinder and two the second motors, second fixed plate are in be vertically installed at the upper end of the second mounting base, two second electricity Cylinder state in a vertical shape is symmetrically disposed on the both sides of the second fixed plate, and third connecting plate is equipped on the sliding block of two the second electric cylinders, Two the second cylinders respectively be in be horizontally set on two the second connecting plates and the output end of two the second cylinders towards rotation Mechanism is arranged, and the front ends of two the second cylinders is equipped with the 4th connecting plate, and the output ends of two the second motors is towards rotating mechanism And the second connector is equipped on two output ends, the front end of the second connector is equipped with the second chamfering head.

The present invention is after adopting the above technical scheme, possessed advantageous effect is：It is proposed by the present invention a kind of for cylinder At work, workpiece moves to two positioning components to the machining equipment of shape workpiece Dual-head chamfering by two feeding tracks Side is worked by pusher cylinder and expeller is moved forward and pushes to workpiece on rotating mechanism, while will by the workpiece The workpiece of completion of processing on rotating mechanism pushes away in the blanking track for dropping down onto the other side.Electric rotating machine rotation drives rotating disk to turn It is dynamic, so that the workpiece being located on two positioning components is rotated together to the side of the first chamfer angle component and the second chamfer angle component, at this point, It completes to work to the feeding of other two positioning component workpiece by feed mechanism, and by two the first electric cylinders and two the first gas The position of cylinder working the first chamfering head of adjustment and two the second electric cylinders and two the second cylinder operations adjust the second chamfering head Position, two first motors and two the second motor work drive two the first chamfering heads and two the second chamfering heads simultaneously respectively Chamfer machining is carried out to two bottom faces of the workpiece on two two positioning components, electric rotating machine 1a1 is stepper motor, often Secondary rotational angle is 90 degree, so that a positioning component 1b drives workpiece to polishing station after electric rotating machine 1a1 is rotated every time On, which can be carried out at the same time chamfer machining to the both ends of two cylindrical works, improve production efficiency.

Description of the drawings

Fig. 1 is the stereoscopic mechanism schematic diagram one of the present invention；

Fig. 2 is the stereoscopic mechanism schematic diagram two of the present invention；

Fig. 3 is the sectional perspective structural scheme of mechanism one of the present invention；

Fig. 4 is the enlarged drawing at A in Fig. 3；

Fig. 5 is the enlarged drawing at B in Fig. 3；

Fig. 6 is the sectional perspective structural scheme of mechanism two of the present invention；

Fig. 7 is the enlarged drawing at C in Fig. 6；

Fig. 8 is the sectional perspective structural scheme of mechanism three of the present invention；

Fig. 9 is the sectional perspective structural scheme of mechanism four of the present invention；

Figure 10 is the sectional perspective structural scheme of mechanism five of the present invention；

Reference sign：Rotating mechanism 1, rotary components 1a, electric rotating machine 1a1, rotating disk 1a2, mounting bracket 1a3, peace Fill bar 1a3a, guide rod 1a3b, positioning component 1b, upper compact heap 1b1, lower compact heap 1b2, dual-axle motor 1b3, sliding shoe 1b4, rubber Rubber cushion 1b5, guide pad 1b6, hinged seat 1b7, the first mounting plate 1b8, rotating wheel 1b9, connecting rod 1b10, runner assembly 1c turn Dynamic motor 1c1, driving gear 1c2, driven gear 1c3, rotating cylinder 1c4, the second mounting plate 1c5, feed mechanism 2, feeding track 2a, first baffle 2a1, discharge port 2a2, pushing material component 2b, pusher cylinder 2b1, expeller 2b2, rubber block 2b3, chamfer mechanism The mounting base 3a1 of 3, the first chamfer angle component 3a, first, the first fixed plate 3a2, the first electric cylinders 3a3, the first cylinder 3a4, first motor 3a5, the first connecting plate 3a6, the second connecting plate 3a7, the first connector 3a8, the first chamfering head 3a9, the second chamfer angle component 3b, the Two mounting base 3b1, the second fixed plate 3b2, the second electric cylinders 3b3, the second cylinder 3b4, the second motor 3b5, the second connecting plate 3b6, Second connecting plate 3b7, the second connector 3b8, the second chamfering head 3b9, blanking track 4, second baffle 4a, buffer strip 4b.

Specific implementation mode

With reference to the accompanying drawings of the specification and embodiment, specific embodiments of the present invention are described in further detail：

Referring to figs. 1 to a kind of machining equipment for cylindrical work Dual-head chamfering shown in Fig. 10, including rotation Mechanism 1, feed mechanism 2 and chamfer mechanism 3, the feed mechanism 2 and chamfer mechanism 3 are respectively positioned on the side of rotating mechanism 1, described Rotating mechanism 1 includes rotary components 1a, four positioning component 1b and four runner assembly 1c, and four positioning component 1b circumferentially divide It is distributed on the side wall of rotary components 1a, four runner assembly 1c are separately mounted to the side of four positioning component 1b and respectively with four A positioning component 1b connections, the rotary components 1a includes electric rotating machine 1a1 and rotating disk 1a2, the electric rotating machine 1a1 are in water Flat setting and its output end is fixedly connected with rotating disk 1a2, set on the side wall of rotating disk 1a2 there are four the installation that is circumferentially distributed Frame 1a3, each mounting bracket 1a3 include four mounting rod 1a3a disposed in parallel, are located at two peaces of homonymy on rotating disk 1a2 It is all provided with that there are two up and down two that guide rod 1a3b, each guide rod 1a3b are in cylindrical structure and each guide rod 1a3b between dress bar 1a3a End point is fixedly connected with mounting rod 1a3a；Workpiece is pushed on rotating mechanism 1 by feed mechanism 2, by positioning component 1b Workpiece clamping is worked so that workpiece moves to the side of chamfer mechanism 3 as positioning component 1b is rotated up to by rotary components 1a Side drives workpiece rotation to carry out chamfering and polishing to two bottom ends of the workpiece by chamfer mechanism 3 simultaneously by runner assembly 1c.

With reference to shown in Fig. 3 to Fig. 5, each positioning component 1b includes two upper compact heap 1b1, two lower compact heaps 1b2 and dual-axle motor 1b3, the upper compact heap 1b1 and lower compact heap 1b2 be in semicircle ring structure and upper compact heap 1b1 and with The both ends of its corresponding lower compact heap 1b2 are bonded to form a complete annulus, in upper compact heap 1b1 and lower compact heap 1b2 Between be equipped on sliding shoe 1b4, each sliding shoe 1b4 and be equipped with fin, be equipped on upper compact heap 1b1 and lower compact heap 1b2 The inside of the sliding slot being slidably matched with fin, sliding shoe 1b4 is equipped with rubber pad 1b5, and the both ends of the upper compact heap 1b1 are all provided with There are the guide pad 1b6 being slidably matched with guide rod 1a3b, two sides close to each other upper compact heap 1b1 to be equipped with hinged seat 1b7, The lower end of two lower compact heap 1b2 is fixedly connected with two mounting rod 1a3a respectively, close to two peaces of two upper compact heap 1b1 The first mounting plate 1b8 for installing dual-axle motor 1b3 is equipped between dress bar 1a3a, dual-axle motor 1b3 is in horizontally disposed and it Both ends are equipped with the rotating wheel 1b9 being fixedly connected respectively with two output ends of dual-axle motor 1b3, the side wall of each rotating wheel 1b9 On be designed with one end and connecting rod 1b10 hinged rotating wheel 1b9, the other end of connecting rod 1b10 with and connecting rod 1b10 it is same The hinged seat 1b7 of side is hinged；When workpiece is located on positioning component 1b, worked by dual-axle motor 1b3 so that rotating wheel 1b9 drives Connecting rod 1b10 is rotated, and compact heap 1b1 is moved along the length direction of guide rod 1a3b in connecting rod 1b10 promotions so that upper compact heap For 1b1 and lower compact heap 1b2 by Workpiece clamping, rubber pad 1b5 can protect workpiece, avoid workpiece and upper compact heap 1b1 and pushing Generating collision between tight block 1b2 leads to workpiece damage.

Shown in referring to figure 6 and figure 7, each runner assembly 1c includes rotary electric machine 1c1, driving gear 1c2, driven Gear 1c3 and rotating cylinder 1c4, the rotating cylinder 1c4 are in be horizontally set between two lower compact heap 1b2 and rotating cylinder 1c4 Both ends are fixedly connected with the sliding shoe 1b4 on two lower compact heap 1b2 respectively, and driven gear 1c3 is sheathed on the outer of rotating cylinder 1c4 Side is equipped with second for installing rotary electric machine 1c1 between two mounting rod 1a3a being fixedly connected with two lower compact heap 1b2 The output end of mounting plate 1c5, rotary electric machine 1c1 are fixedly connected with driving gear 1c2, and driving gear 1c2 is nibbled with driven gear 1c3 It closes；Driving gear 1c2 is set to rotate by rotary electric machine 1c1 work, band while driven gear 1c3 is rotated with driving gear 1c2 Dynamic rotating cylinder 1c4 rotations, rotating cylinder 1c4 drives the sliding shoe 1b4 rotations on the lower compact heap 1b2 at its both ends, to make to be slided The workpiece that motion block 1b4 is compressed also rotates therewith.

With reference to shown in Fig. 8, the feed mechanism 2 includes two feeding track 2a and two pushing material component 2b, described in two Feeding track 2a is inclined to set and the both sides of two feeding track 2a are equipped with first baffle 2a1, close to rotary components 1a The end of the first baffle 2a1 of side is equipped with rounded discharge port 2a2, the end of the first baffle 2a1 far from rotary components 1a End is equipped with connector；Workpiece is set to be tumbled successively to the front end of pushing material component 2b by feeding track 2a, first baffle 2a1 is for limiting The position for determining workpiece avoids workpiece from being tumbled from feeding track 2a.

Two pushing material component 2b include that pusher cylinder 2b1 and expeller 2b2, two pusher cylinder 2b1 are in water Flat setting and the side for being located at two feeding track 2a, the output end of two pusher cylinder 2b1 are respectively facing two connections Mouthful, expeller 2b2 is fixedly mounted on the output end of pusher cylinder 2b1, and the front end of each expeller 2b2 is equipped with rubber block 2b3；It is worked by pusher cylinder 2b1 and expeller 2b2 is moved forward and pushes to workpiece on rotating mechanism 1, while by The workpiece of completion of processing on rotating mechanism 1 is pushed away and drops down onto the other side by the workpiece.

Shown in referring to Fig.1, sides of the rotating disk 1a2 far from feeding track 2a is set there are two blanking track 4, under two Material track 4 is inclined to set and the both sides of two blanking tracks 4 are equipped with second baffle 4a, close to the second of rotating disk 1a2 The front end of baffle 4a is equipped with feed opening, is fixedly connected respectively with two second baffle 4a equipped with both ends between two second baffle 4a Buffer strip 4b；Buffer strip 4b is made of flexible plastic, and the upper end of buffer strip 4b is connect with two second baffle 4a, buffer strip 4b Lower end be free end, be processed the workpiece that finishes and moved along blanking track 4 and completes blanking work, buffer strip 4b is in gravity Under need keep vertical state to give workpiece increase resistance, avoid the workpiece machined before completely into blanking track 4 One end slide downward causes workpiece to tilt stuck in blanking track 4.

With reference to shown in Fig. 9 and Figure 10, the chamfer mechanism 3 includes the first chamfer angle component 3a and the second chamfer angle component 3b, institute It states the side that the first chamfer angle component 3a and the second chamfer angle component 3b is symmetrical set in rotary components 1a and passes through the first chamfer angle component 3a and the second chamfer angle component 3b carries out chamfer machining to the workpiece on rotating mechanism 1 at two positioning component 1b simultaneously.

The first chamfer angle component 3a includes the first mounting base 3a1, the first fixed plate 3a2, two the first electric cylinders 3a3, two A first cylinder 3a4 and two first motors 3a5, the first fixed plate 3a2 are in be vertically installed at the upper of the first mounting base 3a1 End, two the first electric cylinders 3a3 states in a vertical shape are symmetrically disposed on the both sides of the first fixed plate 3a2, the cunning of two the first electric cylinders 3a3 Be equipped on block the first connecting plate 3a6, two the first cylinder 3a4 respectively be in be horizontally set on two the first connecting plate 3a6 and The output end of two the first cylinder 3a4 is arranged towards rotating mechanism 1, and the front end of two the first cylinder 3a4 is equipped with the second company The output end of fishplate bar 3a7, two first motor 3a5 are towards being equipped with the first connector on rotating mechanism 1 and two output ends The front end of 3a8, the first connector 3a8 are equipped with the first chamfering head 3a9；Pass through the cooperation work of the first electric cylinders 3a3 and the first cylinder 3a4 Make to realize movements of the first chamfering head 3a9 on upper and lower front-rear direction, the first chamfering head is driven by first motor 3a5 work 3a9 rotations to workpiece so that carry out chamfer machining.

The second chamfer angle component 3b includes the second mounting base 3b1, the second fixed plate 3b2, two the second electric cylinders 3b3, two A second cylinder 3b4 and two second motors 3b5, the second fixed plate 3b2 are in be vertically installed at the upper of the second mounting base 3b1 End, two the second electric cylinders 3b3 states in a vertical shape are symmetrically disposed on the both sides of the second fixed plate 3b2, the cunning of two the second electric cylinders 3b3 Be equipped on block third connecting plate 3b6, two the second cylinder 3b4 respectively be in be horizontally set on two the second connecting plate 3a7 and The output end of two the second cylinder 3b4 is arranged towards rotating mechanism 1, and the front end of two the second cylinder 3b4 is equipped with the 4th company The output end of fishplate bar 3b7, two the second motor 3b5 are towards being equipped with the second connector on rotating mechanism 1 and two output ends The front end of 3b8, the second connector 3b8 are equipped with the second chamfering head 3b9；Pass through the cooperation work of the second electric cylinders 3b3 and the second cylinder 3b4 Make to realize movements of the second chamfering head 3b9 on upper and lower front-rear direction, the second chamfering head is driven by the second motor 3b5 work 3b9 rotations to workpiece so that carry out chamfer machining.

Operation principle：At work, workpiece moves to two positioning component 1b's to the present invention by two feeding track 2a Side is worked by pusher cylinder 2b1 and expeller 2b2 is moved forward and pushes to workpiece on rotating mechanism 1, while by this Workpiece pushes away the workpiece of the completion of processing on rotating mechanism 1 in the blanking track 4 for dropping down onto the other side.Electric rotating machine 1a1 rotates band Dynamic rotating disk 1a2 rotations, make the workpiece being located on two positioning component 1b rotate together to the first chamfer angle component 3a and second The side of angular component 3b, at this point, complete to work to the feeding of other two positioning component 1b workpiece by feed mechanism 2, and by The position of two the first electric cylinders 3a3 and two first the first chamfering head 3a9 of cylinder 3a4 work adjustment and two the second electric cylinders The position of 3b3 and two second the second chamfering head 3b9 of cylinder 3b4 work adjustment, two first motor 3a5 and two the second motors 3b5 work drives two the first chamfering head 3a9 and two the second chamfering head 3b9 simultaneously to the work on two positioning component 1b respectively The exterior angle of two bottom faces of part carries out chamfer machining, and electric rotating machine 1a1 is stepper motor, and each rotational angle is 90 degree, So that a positioning component 1b drives workpiece to chamfering polishing station after electric rotating machine 1a1 is rotated every time.

The above described is only a preferred embodiment of the present invention, not making any limit to the technical scope of the present invention System, thus it is every according to the technical essence of the invention to any subtle modifications, equivalent variations and modifications made by above example, In the range of still falling within technical scheme of the present invention.

Claims (9)

1. a kind of machining equipment for cylindrical work Dual-head chamfering, it is characterised in that：Including rotating mechanism (1), send Expect that mechanism (2) and chamfer mechanism (3), the feed mechanism (2) and chamfer mechanism (3) are respectively positioned on the side of rotating mechanism (1), institute It includes rotary components (1a), four positioning components (1b) and four runner assemblies (1c), four positioning components to state rotating mechanism (1) (1b) is circumferentially distributed on the side wall of rotary components (1a), and four runner assemblies (1c) are separately mounted to four positioning components It the side of (1b) and is connect respectively with four positioning components (1b), the rotary components (1a) include electric rotating machine (1a1) and rotation Turntable (1a2), the electric rotating machine (1a1) are fixedly connected in horizontally disposed and its output end with rotating disk (1a2), rotating disk It is set on the side wall of (1a2) there are four the mounting bracket (1a3) that is circumferentially distributed, each mounting bracket (1a3) includes four and parallel sets The mounting rod (1a3a) set is located in rotating disk (1a2) between two mounting rods (1a3a) of homonymy guide rod there are two setting (1a3b), each guide rod (1a3b) be in cylindrical structure and each guide rod (1a3b) upper and lower ends point with mounting rod (1a3a) It is fixedly connected.

2. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 1, it is characterised in that： Each positioning component (1b) includes two upper compact heaps (1b1), two lower compact heaps (1b2) and dual-axle motors (1b3), it is described on Compact heap (1b1) and lower compact heap (1b2) are in semicircle ring structure and upper compact heap (1b1) and corresponding lower compact heap The both ends of (1b2) are bonded to form a complete annulus, and the centre of upper compact heap (1b1) and lower compact heap (1b2) is equipped with cunning Motion block (1b4) is equipped with fin on each sliding shoe (1b4), be equipped on upper compact heap (1b1) and lower compact heap (1b2) with The inside of the sliding slot that fin is slidably matched, sliding shoe (1b4) is equipped with rubber pad (1b5), the both ends of the upper compact heap (1b1) It is equipped with the guide pad (1b6) being slidably matched with guide rod (1a3b), two upper compact heap (1b1) sides close to each other are equipped with The lower end of hinged seat (1b7), two lower compact heaps (1b2) is fixedly connected with two mounting rods (1a3a) respectively, on two The first mounting plate (1b8) for installing dual-axle motor (1b3) is equipped between two mounting rods (1a3a) of compact heap (1b1), Dual-axle motor (1b3) is equipped in horizontally disposed and its both ends to be fixedly connected with two output ends of dual-axle motor (1b3) respectively Rotating wheel (1b9) is designed with one end and the hinged connecting rod (1b10) of rotating wheel (1b9) on the side wall of each rotating wheel (1b9), The other end of connecting rod (1b10) with and connecting rod (1b10) homonymy hinged seat (1b7) hingedly.

3. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 2, it is characterised in that： Each runner assembly (1c) includes rotary electric machine (1c1), driving gear (1c2), driven gear (1c3) and rotating cylinder (1c4), the rotating cylinder (1c4) in be horizontally set between two lower compact heaps (1b2) and the both ends of rotating cylinder (1c4) distinguish It is fixedly connected with the sliding shoe (1b4) on two lower compact heaps (1b2), driven gear (1c3) is sheathed on the outer of rotating cylinder (1c4) Side is equipped with for installing rotary electric machine (1c1) between two mounting rods (1a3a) being fixedly connected with two lower compact heaps (1b2) The second mounting plate (1c5), the output end of rotary electric machine (1c1) is fixedly connected with driving gear (1c2), driving gear (1c2) It is engaged with driven gear (1c3).

4. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 1, it is characterised in that： The feed mechanism (2) includes two feeding tracks (2a) and two pushing material components (2b), and two feeding tracks (2a) are equal It is inclined to set and the both sides of two feeding tracks (2a) is equipped with first baffle (2a1), close to the side rotary components (1a) The end of first baffle (2a1) is equipped with rounded discharge port (2a2), the first baffle (2a1) far from rotary components (1a) End is equipped with connector.

5. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 4, it is characterised in that： Two pushing material components (2b) include pusher cylinder (2b1) and expeller (2b2), and two pusher cylinders (2b1) are in water Flat setting and the side for being located at two feeding tracks (2a), the output end of two pusher cylinders (2b1) are respectively facing two Connector, expeller (2b2) are fixedly mounted on the output end of pusher cylinder (2b1), and the front end of each expeller (2b2) is all provided with There is rubber block (2b3).

6. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 5, it is characterised in that： Side of the rotating disk (1a2) far from feeding track (2a) is set there are two blanking track (4), and two blanking tracks (4) are in It is obliquely installed and the both sides of two blanking tracks (4) is equipped with second baffle (4a), close to the second baffle of rotating disk (1a2) The front end of (4a) is equipped with feed opening, and be equipped with both ends between two second baffles (4a) fixes company with two second baffles (4a) respectively The buffer strip (4b) connect.

7. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 1, it is characterised in that： The chamfer mechanism (3) include the first chamfer angle component (3a) and the second chamfer angle component (3b), first chamfer angle component (3a) and Second chamfer angle component (3b) is symmetrical set in the side of rotary components (1a).

8. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 7, it is characterised in that： First chamfer angle component (3a) includes the first mounting base (3a1), the first fixed plate (3a2), two the first electric cylinders (3a3), two A first cylinder (3a4) and two first motors (3a5), first fixed plate (3a2) are in be vertically installed at the first mounting base The upper end of (3a1), two the first electric cylinders (3a3) states in a vertical shape are symmetrically disposed on the both sides of the first fixed plate (3a2), two The first connecting plate (3a6) is equipped on the sliding block of one electric cylinders (3a3), two the first cylinders (3a4) are in be horizontally set on two respectively On a first connecting plate (3a6) and the output end of two the first cylinders (3a4) is arranged towards rotating mechanism (1), two first The front end of cylinder (3a4) is equipped with the second connecting plate (3a7), and the output ends of two first motors (3a5) is towards rotating mechanism (1) And the first connector (3a8) is equipped on two output ends, the front end of the first connector (3a8) is equipped with the first chamfering head (3a9).

9. a kind of machining equipment for cylindrical work Dual-head chamfering according to claim 7, it is characterised in that： Second chamfer angle component (3b) includes the second mounting base (3b1), the second fixed plate (3b2), two the second electric cylinders (3b3), two A second cylinder (3b4) and two the second motors (3b5), second fixed plate (3b2) are in be vertically installed at the second mounting base The upper end of (3b1), two the second electric cylinders (3b3) states in a vertical shape are symmetrically disposed on the both sides of the second fixed plate (3b2), two Third connecting plate (3b6) is equipped on the sliding block of two electric cylinders (3b3), two the second cylinders (3b4) are in be horizontally set on two respectively On a second connecting plate (3a7) and the output end of two the second cylinders (3b4) is arranged towards rotating mechanism (1), two second The front end of cylinder (3b4) is equipped with the 4th connecting plate (3b7), and the output ends of two the second motors (3b5) is towards rotating mechanism (1) And the second connector (3b8) is equipped on two output ends, the front end of the second connector (3b8) is equipped with the second chamfering head (3b9).