CN107552885A - Full-automatic numerical control Double end chamfering machine - Google Patents

Abstract

The claimed full-automatic numerical control Double end chamfering machine of the present invention; including lathe bed; it is used for the clamping device for clamping cylindrical workpiece on lathe bed; it is symmetrically disposed in the both sides of clamping device and is respectively used to carry out the cylindrical workpiece being clamped on clamping device the Liang Ge chamfer machinings mechanism of chamfering, and the mechanical transmission mechanism for being transferred to cylindrical workpiece on clamping device.The present invention passes through rational structure setting, during so that the full-automatic numerical control Double end chamfering machine pounding work, clamping position is carried out to cylindrical workpiece by the first holder on clamping device and the second holder, then chamfer machining is carried out to the double end of cylindrical workpiece respectively with Liang Ge chamfer machinings mechanism, it realizes the full-automation that chamfering is carried out to cylindrical workpiece double end, operating efficiency is high, it is and high for the chamfering precision of cylindrical workpiece, stability is good, meets enterprise in the requirement to cylindrical workpiece Dual-head chamfering.

Description

Full-automatic numerical control Double end chamfering machine

Technical field

The present invention relates to belong to plant equipment manufacturing technology field, and in particular to be a kind of full-automatic numerical control Dual-head chamfering Machine.

Background technology

Beveler is that a kind of specialty is used for Making mold, hardware machinery, Machine Manufacture, hydraulic part, the manufacture of valve class, weaving Mechanical chamfering and the small size precise machine tool for the burr for removing the processing mode product such as milling, plane.It is appreciated that metal works are producing During preparation, the architectural characteristic according to required for metal works, have using chamfering to be carried out to the end of the metal works Chamfered.

At present, the beveler of chamfering is carried out in the double end to cylindrical workpiece (such as sleeve, bearing) in the prior art, it is more For the beveler of single head chamfering, so, it is necessary to during chamfered is carried out to cylindrical workpiece using two bevelers simultaneously Row are set, or by the way of a beveler is handled successively, its automaticity is low, and corresponding production efficiency is not Height, and it is low to the chamfering precision of the double end progress chamfering of cylindrical workpiece, it is impossible to meet enterprise for cylindrical workpiece double end well The use demand of chamfering.

The content of the invention

It is an object of the invention to provide a kind of full-automatic numerical control Double end chamfering machine for being used to solve above-mentioned technical problem.

A kind of full-automatic numerical control Double end chamfering machine, for carrying out chamfering to the double end of cylindrical workpiece；It is characterized in that：Including Lathe bed, the clamping device for clamping cylindrical workpiece is used on lathe bed, the both sides of clamping device is symmetrically disposed in and uses respectively In the Liang Ge chamfer machinings mechanism that chamfering is carried out to the cylindrical workpiece that is clamped on clamping device, and for by cylindrical workpiece The mechanical transmission mechanism being transferred on clamping device；Wherein,

The clamping device includes the first holder being fixed on lathe bed, the second clamping set with respect to the first holder Part, first holder is disposed as the arc surface for matching cylindrical workpiece with two clamping faces of the second holder, described Second holder is arranged on lathe bed by Linear slide platform, and can be moved back and forth relative to the first holder；

The chamfer machining mechanism includes being used for the cutterhead for carrying out cylindrical workpiece chamfering, for driving cutterhead to be revolved The rotary drive assembly turned, and for driving cutterhead to make the Linear Driving component moved back and forth relative to the clamping device；

The mechanical transmission mechanism includes Pneumatic clamping jaw, for driving Pneumatic clamping jaw in the vertical direction to be moved back and forth Vertical drive component, and the horizontal drive component for driving Pneumatic clamping jaw to be moved back and forth in the horizontal direction, its Described in vertical drive component be arranged on moving horizontally in portion in horizontal drive component, with vertical with horizontal drive Component driver Drive component and Pneumatic clamping jaw move in the horizontal direction.

As the preferred scheme of the present invention, second holder is connected with a post on its clamping face by elastic component Pin, the pin is outwardly relative to the clamping face part of the second holder, and can be retracted pin by extruding elastic component The clamping face of second holder.

As the preferred scheme of the present invention, second holder offers a bar groove on its clamping face, and in bar groove A pilot hole is inside opened up, for assembling elastic component and pin.

As the preferred scheme of the present invention, the two-side-ends part of first holder and the second holder in its clamping face Chamfering is not provided with it.

As the preferred scheme of the present invention, the rotary drive assembly includes rotary mounting seat, the rotary mounting seat Assembling is fixed with cutterhead in one end, and the other end is connected by the shaft of V-belt and motor.

As the preferred scheme of the present invention, the Linear Driving component includes the slide rail being fixed on lathe bed, located at slide rail On sliding block, and servomotor and ball-screw for driving sliding block to be moved back and forth on slide rail, wherein the cunning Block is threadably attached with ball-screw, and the rotary drive assembly is fixedly provided on sliding block.

As the preferred scheme of the present invention, three cutter heads are provided with the cutterhead, to be respectively used to process cylindrical workpiece Inner side, outside and the end face on head carry out chamfering.

As the preferred scheme of the present invention, the lathe bed is provided with entering for cylindrical workpiece charging on the second holder Expect slideway, the charging slideway tilts down setting relative to lathe bed.

As the preferred scheme of the present invention, the first material bits separating mechanism, the first material bits point are provided with the lathe bed Structure of disembarking is included located at the baffle plate between the first holder and the second holder, and the upset for driving baffle plate to be overturn Drive component；The baffle plate is arranged on lathe bed by rotary shaft；The upset drive component includes cylinder, and the cylinder is stretched Cam is provided with contracting bar, the cam is socketed in the rotary shaft of baffle plate and is fixedly connected relative to rotary shaft.

As the preferred scheme of the present invention, the second material bits separating mechanism, the second material bits point are provided with the lathe bed Structure of disembarking includes the oblique frame of rewinding, and the discharge baffle above the oblique frame of rewinding, and the discharge baffle is towards the oblique frame of rewinding Side is fixed with the flexible housing of end jag.

Due to the application of above-mentioned technical proposal, the invention has the advantages that：

The full-automatic numerical control Double end chamfering machine of the present invention, passes through rational structure setting so that the full-automatic numerical control double end When beveler pounds work, determined by the first holder on clamping device and the second holder to cylindrical workpiece clamp Position, then carries out chamfer machining, it is realized to cylindrical workpiece to the double end of cylindrical workpiece respectively with Liang Ge chamfer machinings mechanism Double end carries out the full-automation of chamfering, and operating efficiency is high, and high for the chamfering precision of cylindrical workpiece, and stability is good, meets Enterprise is in the requirement to cylindrical workpiece Dual-head chamfering.

Brief description of the drawings

Fig. 1 is the structural representation of the full-automatic numerical control Double end chamfering machine of the present invention.

Fig. 2 is the structural representation of rotary drive assembly in the present invention.

Fig. 3 is the structural representation that the first material considers separating mechanism to be worth doing in the present invention.

Fig. 4 is the structural representation that the second material considers separating mechanism to be worth doing in the present invention.

Wherein, 100, lathe bed；200th, clamping device；201st, the first holder；202nd, the second holder；2021st, pin； 2022nd, bar groove；300th, chamfer machining mechanism；301st, cutterhead；302nd, rotary drive assembly；303rd, Linear Driving component；3021st, revolve Turn mounting seat；3022nd, V-belt；3023rd, motor；3033rd, servomotor；3034th, ball-screw；400th, mechanical transmission mechanism； 401st, Pneumatic clamping jaw；402nd, vertical drive component；403rd, horizontal drive component；501st, baffle plate；502nd, rotary shaft；503rd, cylinder； 504th, cam；601st, the oblique frame of rewinding；602nd, discharge baffle；603rd, flexible housing.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples The present invention is further elaborated.It should be appreciated that specific embodiment described herein is only to explain the present invention, not For limiting the present invention.

Referring to Fig. 1, the full-automatic numerical control Double end chamfering machine that present pre-ferred embodiments are provided, is particularly used for cylinder The double end of shape workpiece carries out chamfered, it will be understood that the cylindrical workpiece can be that sleeve, bearing etc. is other in practice Part.

The full-automatic numerical control Double end chamfering machine includes lathe bed 100, is used for clamping position tubular work on lathe bed 100 The clamping device 200 of part, it is symmetrically disposed in the both sides of clamping device 200 and is respectively used to being clamped in clamping device 200 On cylindrical workpiece carry out the Liang Ge chamfer machinings mechanism 300 of chamfering, and for cylindrical workpiece to be transferred into clamping device 200 On mechanical transmission mechanism 400.In the present embodiment, it is additionally provided with the lathe bed 100 for the cylindrical workpiece to processing And the first material bits separating mechanism and the second material bits separating mechanism that crumble is separated.

Wherein, the clamping device 200 includes the first holder 201 being fixed on lathe bed 100, with respect to the first holder 201 the second holders 202 set, two clamping faces of first holder 201 and the second holder 202 are disposed as being used for Match the arc surface of cylindrical workpiece, with two clamping faces on the first holder 201 and the second holder 202 and cylindrical workpiece it Between tight fit realize clamping position of the clamping device 200 to cylindrical workpiece.

Second holder 202 is arranged on lathe bed 100 particular by Linear slide platform (not shown), and can be relative Moved back and forth in lathe bed 100；And the first holder 201 is securely fitted on lathe bed 100, such clamping device 200 At work, the clamping device can be realized relative to the relative movement of the first holder 201 by the second holder 202 200 pairs of cylindrical workpieces carry out the folding of clamping position.

It is appreciated that being also associated with a drive division (not shown) on second holder 202, clamped with realizing to second Part 202 is moved back and forth on lathe bed 100, and specifically the drive division may be provided with cylinder, and it passes through expansion link on cylinder Stretch back and forth to drive the Linear slide platform on the second holder 202 to be moved back and forth on lathe bed 100, and then realize folder Hold clamping position of the mechanism 200 at work to cylindrical workpiece and using cylindrical workpiece itself gravity from the clamping device The effect dropped on 200.

In the present embodiment, second holder 202 is connected with one on its clamping face by elastic component (not shown) Pin 2021, the pin 2021 is outwardly relative to the clamping face part of the second holder 202, and can be by extruding elasticity Pin 2021 is retracted the clamping face of the second holder 202 by part.Wherein, the elastic component is preferably spring.Such second clamping Part 202 is cooperated with the first holder 201, when realizing to cylindrical workpiece progress clamping action, its second holder Pin 2021 on 202 serves the effect of clamping buffering, with preventing damage cylindrical workpiece.Therefore, the present embodiment is specifically second A bar groove 2022 is offered on the clamping face of holder 202, and a pilot hole (not shown) is opened up in bar groove 2022, for filling With elastic component and pin 2021.

Further, the holder 202 of the first holder 201 and second is set respectively in the both side ends of its clamping face There is chamfering (not shown).So that the first holder 201 and the second holder 202 be when clamping cylindrical workpiece, its first holder 201 and second the chamfering offered on holder 202 serve the effect of avoidance, correspondingly prevent the first holder that can play 201 and second the end of holder 202 scratch is caused to cylindrical workpiece.

The chamfer machining mechanism 300 is particularly used for carrying out chamfered to cylindrical workpiece, in the present embodiment, if Chamfer machining mechanism 300 in the both sides of clamping device 200 is symmetrically arranged, to be fallen respectively to one of cylindrical workpiece Angle, and then realize the function that the full-automatic numerical control Double end chamfering machine is handled the Dual-head chamfering of cylindrical workpiece.

Wherein, each chamfer machining mechanism 300 includes being used for the cutterhead 301 for carrying out cylindrical workpiece chamfering, for driving The rotary drive assembly 302 that movable knife disc 301 is rotated, and for driving cutterhead 301 to do relative to the clamping device 200 The Linear Driving component 303 moved back and forth.

In the present embodiment, three cutter heads are provided with the cutterhead 301, to be respectively used to process cylindrical workpiece head Inner side, outside and end face carry out chamfering, and this is the cylindrical workpiece of the chamfer machining as required for the full-automatic numerical control Double end chamfering machine Needs driven, it drives the cutterhead 301 to carry out high speed rotation at work, with rotary drive assembly 302, then utilizes Linear Driving component 303 drives the cutterhead 301 rotated at a high speed close to the head for being clamped in cylindrical workpiece in clamping device 200 Portion, and complete to handle the chamfer machining on cylindrical workpiece head.

Referring to Fig. 2, the rotary drive assembly 302 of stating includes rotary mounting seat 3021, the one of the rotary mounting seat Assembling is fixed with cutterhead 301 in end, and the other end is connected by V-belt 3022 with the shaft of motor 3023.So rotation At work, the high speed rotation of shaft, rotary mounting seat is driven by V-belt 3022 to drive component 302 on motor 3023 3021 are rotated, and then realize high speed rotation driving to cutterhead 301, it will be understood that the present embodiment with V-belt 3022 come The connection between shaft and rotary mounting seat 3021 to motor 3023 so that the cutterhead 301 of rotation is to tubular work at a high speed It during the head of part carries out cutting chamfering, will not swing, and then ensure that the chamfer machining mechanism 300 is entered to cylindrical workpiece The precision of row chamfer machining.Further, the motor 3023 of the present embodiment is specifically fixedly mounted on rotary mounting seat 3021 's.

The Linear Driving component 303 specifically includes the slide rail (not shown) being fixed on lathe bed 100, on slide rail Sliding block (not shown), and servomotor 3033 and ball-screw for driving sliding block to be moved back and forth on slide rail 3034, wherein the sliding block is threadably attached with ball-screw 3034, and the rotary drive assembly 302 is regularly It is arranged on sliding block.So at work, servomotor 3033 drives ball-screw 3034 to carry out to the Linear Driving component 303 Rotation, and using the threaded connection between sliding block and ball-screw 3034, sliding block is realized on the slide rail of lathe bed 100 Return is dynamic, and then realizes driving rotary drive assembly 302 and do moving back and forth relative to clamping device 200.

Wherein, the mechanical transmission mechanism 400 includes Pneumatic clamping jaw 401, for driving Pneumatic clamping jaw 401 in vertical direction On the vertical drive component 402 that is moved back and forth, and for driving Pneumatic clamping jaw 401 to carry out in the horizontal direction to move back Dynamic horizontal drive component 403, wherein the vertical drive component 402 is arranged on moving horizontally in horizontal drive component 403 In portion, to drive vertical drive component 402 and Pneumatic clamping jaw 401 to move in the horizontal direction with horizontal drive component 403.

In the present embodiment, the Pneumatic clamping jaw 401 is arranged to the clamping jaw structure of double end movement, and which improves with gas The stability and precision that dynamic clamping jaw 401 is captured to cylindrical workpiece.And the lathe bed 100 is set on the second holder 202 There is the charging slideway (not shown) for cylindrical workpiece charging, the charging slideway tilts down setting relative to lathe bed 100.This The external cylindrical workpiece of sample can specifically enter to the working region of Pneumatic clamping jaw 401 from charging slideway, in order to Pneumatic clamping jaw 401 are transferred to cylindrical workpiece at clamping device 200 successively.

It will be further understood that the vertical drive component 402 could be arranged to the biography that ball-screw cooperates with nut Motivation structure, and horizontal drive component 403 then could be arranged to the slide rail slideway of cylinder driving, above-mentioned design feature and correspondingly Operation principle made referrals to herein, just do not do elaborating one by one herein.

Referring to Fig. 3, first material bits separating mechanism include located at the first holder 201 and the second holder 202 it Between baffle plate 501, and the upset drive component for driving baffle plate 501 to be overturn, the baffle plate 501 pass through rotary shaft 502 are arranged on lathe bed 100；The cylindrical workpiece so processed via chamfer machining mechanism 300 will be because of the second holder 202 Separate and directly dropped on baffle plate 501 with the second holder 201, and will be because of it in crumble caused by processing cylindrical workpiece It is to have the cutterhead 301 rotated at a high speed directly to be contacted with cylindrical workpiece and caused, the periphery of baffle plate 501 can be scattered in, thus Realize the centrifugation to cylindrical workpiece and crumble.

Specifically, the upset drive component includes cylinder 503, and cam is provided with the expansion link of the cylinder 503 504, the cam 504 is socketed in the rotary shaft 502 of baffle plate 501 and is fixedly connected relative to rotary shaft 502.So using convex 504 design features of itself are taken turns, cylinder 503 at work, can drive rotary shaft 502 to rotate to an angle by cam 504, And then the effect to be flipped an angle to the baffle plate 501 being fixed in rotary shaft 502 is realized, and accumulate on baffle plate 501 Cylindrical workpiece will be dropped with the upset of baffle plate 501, the position specifically fallen to where the second crumble separating mechanism 600 Place.

It is appreciated that via the first crumble separating mechanism 600 separate after cylindrical workpiece in inevitably adulterate Crumble, is come first to point between cylindrical workpiece and crumble therefore, the present embodiment is specifically provided with the second material bits separating mechanism From.

Referring to Fig. 4, the second material bits separating mechanism includes the oblique frame 601 of rewinding, and above the oblique frame 601 of rewinding Discharge baffle 602, the discharge baffle 602 are fixed with the flexible housing of end jag in the side towards the oblique frame 601 of rewinding 603.The wherein described oblique frame 601 of rewinding is down-set relative to ground inclination, and such cylindrical workpiece is on the oblique frame 601 of rewinding When can be slid downwards along the oblique frame 601 of rewinding in the presence of partical gravity, and the crumble being entrained in the cylindrical workpiece will Separated under the barrier of flexible housing 603 with cylindrical workpiece, and then realize the effect of secondary material bits separation.

To sum up, full-automatic numerical control Double end chamfering machine of the invention, passes through rational structure setting so that the full-automatic numerical control When Double end chamfering machine pounds work, cylindrical workpiece is clamped with the second holder by the first holder on clamping device Positioning, then carries out chamfer machining, it is realized to tubular work to the double end of cylindrical workpiece respectively with Liang Ge chamfer machinings mechanism Part double end carries out the full-automation of chamfering, and operating efficiency is high, and high for the chamfering precision of cylindrical workpiece, and stability is good, full Zu Liao enterprises are in the requirement to cylindrical workpiece Dual-head chamfering.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement made within refreshing and principle etc., should be included in the scope of the protection.

Claims (10)

1. A kind of 1. full-automatic numerical control Double end chamfering machine, for carrying out chamfering to the double end of cylindrical workpiece；It is characterized in that：Including bed Body, the clamping device for clamping cylindrical workpiece is used on lathe bed, the both sides of clamping device is symmetrically disposed in and is respectively used to The Liang Ge chamfer machinings mechanism of chamfering is carried out to the cylindrical workpiece being clamped on clamping device, and for cylindrical workpiece to be moved The mechanical transmission mechanism delivered on clamping device；Wherein,

   The clamping device is including the first holder being fixed on lathe bed, the second holder set with respect to the first holder, First holder is disposed as the arc surface for matching cylindrical workpiece with two clamping faces of the second holder, and described second Holder is arranged on lathe bed by Linear slide platform, and can be moved back and forth relative to the first holder；

   The chamfer machining mechanism includes being used for the cutterhead for carrying out cylindrical workpiece chamfering, is rotated for driving cutterhead Rotary drive assembly, and for driving cutterhead to make the Linear Driving component moved back and forth relative to the clamping device；

   The mechanical transmission mechanism includes Pneumatic clamping jaw, perpendicular for driving Pneumatic clamping jaw in the vertical direction to be moved back and forth Straight drive component, and the horizontal drive component for driving Pneumatic clamping jaw to be moved back and forth in the horizontal direction, wherein institute State vertical drive component and be arranged on moving horizontally in portion in horizontal drive component, to be driven vertically with horizontal drive Component driver Component and Pneumatic clamping jaw move in the horizontal direction.
2. 2. full-automatic numerical control Double end chamfering machine according to claim 1, it is characterised in that：Second holder presss from both sides at it To hold and a pin is connected with by elastic component on face, the pin is outwardly relative to the clamping face part of the second holder, and Can be by extruding elastic component by the clamping face of pin the second holder of retraction.
3. 3. full-automatic numerical control Double end chamfering machine according to claim 2, it is characterised in that：Second holder presss from both sides at it Hold and a bar groove is offered on face, and a pilot hole is opened up in bar groove, for assembling elastic component and pin.
4. 4. full-automatic numerical control Double end chamfering machine according to claim 3, it is characterised in that：First holder and second Holder is provided with chamfering respectively in the both side ends of its clamping face.
5. 5. full-automatic numerical control Double end chamfering machine according to claim 1, it is characterised in that：The rotary drive assembly includes Assembling is fixed in rotary mounting seat, one end and the cutterhead of the rotary mounting seat, and the other end passes through V-belt and turn of motor Axle portion connects.
6. 6. full-automatic numerical control Double end chamfering machine according to claim 1, it is characterised in that：The Linear Driving component includes The slide rail being fixed on lathe bed, the sliding block on slide rail, and for driving what sliding block moved back and forth on slide rail to watch Motor and ball-screw are taken, wherein the sliding block is threadably attached with ball-screw, and the rotary drive assembly It is fixedly provided on sliding block.
7. 7. full-automatic numerical control Double end chamfering machine according to claim 1, it is characterised in that：Three are provided with the cutterhead Cutter head, chamfering is carried out to be respectively used to process the inner side, outside and end face on cylindrical workpiece head.
8. 8. full-automatic numerical control Double end chamfering machine according to claim 1, it is characterised in that：The lathe bed is in the second holder On be provided with for cylindrical workpiece charging charging slideway, it is described charging slideway tilt down setting relative to lathe bed.
9. 9. full-automatic numerical control Double end chamfering machine according to claim 1, it is characterised in that：First is provided with the lathe bed Material bits separating mechanism, the first material bits separating mechanism are included located at the baffle plate between the first holder and the second holder, with And the upset drive component for driving baffle plate to be overturn；The baffle plate is arranged on lathe bed by rotary shaft；The upset Drive component includes cylinder, and cam is provided with the expansion link of the cylinder, and the cam is socketed in the rotary shaft of baffle plate simultaneously It is fixedly connected relative to rotary shaft.
10. 10. full-automatic numerical control Double end chamfering machine according to claim 9, it is characterised in that：Is provided with the lathe bed Two material consider separating mechanism to be worth doing, and the second material bits separating mechanism includes the oblique frame of rewinding, and the discharge baffle above the oblique frame of rewinding, The discharge baffle is fixed with the flexible housing of end jag in the side towards the oblique frame of rewinding.