CN202804365U - Self-buckling type chamfer device special for stator core - Google Patents

Abstract

The utility model relates to a self-buckling type chamfer device special for a stator core. The self-buckling type chamfer device special for the stator core comprises a press-mounting mechanism, a chamfer knife component, a displacement driving mechanism, a rotation driving mechanism and a main shaft, wherein the press-mounting mechanism is used for press-mounting of two ends of the stator core, the displacement driving mechanism is used for driving the chamfer knife component to be close to or far away from the position of an outer circle at one end of the stator core, the rotation driving mechanism is used for driving the chamfer knife component to rotate around the outer circle at one end of the stator core to carry out chamfering operation to the outer circle at the end of the stator core, and the main shaft is used for placing the stator core and coaxially arranged with the stator core. The chamfer knife component comprises a knife shelf and a chamfer knife fixed on the knife shelf, and the knife shelf can rotate around the main shaft and can move along the axial direction of the main shaft. The displacement driving mechanism comprises a driving disk and a driven disk which are sleeved outside the main shaft, the knife shelf is in linkage with the driven disk, and the driving disk is provided with a hydraulic cylinder used for driving the driving disk to rotate. The self-buckling type chamfer device special for the stator core has the advantages that machining efficiency can be effectively improved, and production cost is lowered.

Description

Auto-buckled type stator core Special chamfering device

Technical field

The utility model relates to a kind of auto-buckled type stator core Special chamfering device.

Background technology

Stator core has two kinds of forms usually, i.e. buckle piece type and auto-buckled type, buckle piece type stator core be by cramp with punching fasten consist of whole, the auto-buckled type stator core be consist of by being interlocked between the punching self whole.Stator core need to carry out chamfering to the cylindrical at its two ends so that subsequent assembly can carry out more smoothly usually.The auto-buckled type stator core is because its reasons in structure, be to be interlocked between the punching self to consist of integral body, in the prior art, during to auto-buckled type stator core chamfering, need by hydraulic press its two ends to be compressed to improve whole steadiness first, and then be transferred to that the cylindrical to its two ends carries out chamfering on the lathe, thereby there are processing inconvenience, inefficiency, shortcoming that production cost is high.

Summary of the invention

For the deficiency that prior art exists, the purpose of this utility model is the auto-buckled type stator core Special chamfering device that a kind of Effective Raise working (machining) efficiency is provided, reduces production costs.

For achieving the above object, the utility model provides following technical scheme: comprise the press-loading device that the stator core two ends are press-fited, the rose reamer assembly, drive the rose reamer assembly near or away from the displacement drive mechanism of stator core one end cylindrical position, driving the rose reamer assembly rotates this end cylindrical of stator core is carried out the rotary drive mechanism of chamfering around stator core one end cylindrical, and be used for to place stator core and with the main shaft of the coaxial setting of stator core, described rose reamer assembly comprises knife rest and is fixedly installed on rose reamer on the knife rest, described knife rest can and can move axially setting along described main shaft around described main shaft rotation, described displacement drive mechanism comprises driving disc spacing pressing and the clutch plate that is set in the described main shaft outside, described driving disc spacing pressing can be around described main shaft rotary setting, described clutch plate and main shaft are circumferential location, axially slidably be equipped with, described clutch plate places corresponding stator core one end of driving disc spacing pressing, be provided with the helical teeth that matches on described driving disc spacing pressing and the clutch plate opposite face, described knife rest and clutch plate are interlock setting, and described driving disc spacing pressing is provided with the hydraulic cylinder that drives its rotation.

By adopting technique scheme, when stator core is carried out chamfering process, by press-loading device stator core is press-fited first, then drive the rose reamer assembly near stator core one end cylindrical position by displacement drive mechanism, driving the rose reamer assembly by rotary drive mechanism at last rotates so that this end cylindrical of stator core is carried out chamfering around stator core one end cylindrical, technical solutions of the utility model, can press-fit and chamfering stator core easily simultaneously, thereby the Effective Raise working (machining) efficiency, reduce production costs.Stator core is placed on the main shaft, by hydraulic cylinder rotation driving disc spacing pressing, owing to be provided with the helical teeth that matches on driving disc spacing pressing and the clutch plate opposite face, and clutch plate and main shaft are circumferential location, axially slidably are equipped with, clutch plate just can endwisely slip along main shaft, clutch plate and then drive the knife rest be linked with it and move axially along main shaft, and then reach that to drive rose reamer close or away from the purpose of stator core one end cylindrical position.

The utility model further arranges: the described main shaft outside also is arranged with the first positioning sleeve and the second positioning sleeve, described the first positioning sleeve places corresponding stator core one end of described clutch plate with the second positioning sleeve, described the first positioning sleeve is fixedly connected with main shaft, described the second positioning sleeve is arranged on corresponding clutch plate one end of the first positioning sleeve and axially slidably arranges along main shaft, be provided with the gap between described the first positioning sleeve and the second positioning sleeve and be folded with elastic component between the two, described the second positioning sleeve and clutch plate are interlock setting.

By adopting technique scheme, when driving disc spacing pressing rotates and clutch plate when sliding to the second positioning sleeve direction along a direction, elastic component compression between the first positioning sleeve and the second positioning sleeve, when driving disc spacing pressing rotated along other direction, elastic component just drove clutch plate and resets.

The utility model further arranges: described press-loading device comprises the locating shaft of some quantity, along the axial location-plate and drive location-plate along locating shaft press-loading head in axial sliding slidably of locating shaft, described locating shaft is separately positioned on the outside of main shaft, the described locating shaft outside also is arranged with spring, described both ends of the spring compresses respectively locating shaft and location-plate, and described location-plate also is provided with the locating piece of location stator core cylindrical.

By adopting technique scheme, when stator core is press-fited, press-loading head drives location-plate and slides so that stator core is press-fited to the stator core direction, after press-fiting, when press-loading head left, location-plate resetted under acting force of the spring, thereby so that stator core can put into easily or take out, and because the effect of locating piece, so that stator core can press-fit and chamfering process easily and effectively.

The utility model further arranges: described rotary drive mechanism comprises drive motors, be arranged on the drive motors gear on the drive motors, jackshaft, the mainshaft gear that is arranged on the countershaft-gear on the jackshaft and is set in the main shaft outside, described countershaft-gear arranges with drive motors gear and mainshaft gear engagement respectively, be provided with axle sleeve between described countershaft-gear and the jackshaft, described countershaft-gear is fixedly connected with knife rest and axle sleeve respectively, described axle sleeve can and can move axially setting along described main shaft around described main shaft rotation, and described axle sleeve is folded between the second positioning sleeve and the clutch plate.

By adopting technique scheme, drive motors just can rotate around the spindle by the drive shaft gear, and mainshaft gear drives the rose reamer assembly and move up and down and rotate around the spindle along main shaft, so that the chamfering process of stator core effectively carries out.

Below in conjunction with accompanying drawing the utility model is further described.

Description of drawings

Fig. 1 is the utility model example structure figure;

Fig. 2 is the A section enlarged drawing of Fig. 1.

The specific embodiment

Referring to accompanying drawing 1, the disclosed auto-buckled type stator core of the utility model Special chamfering device, comprise the press-loading device 2 that stator core 1 two ends are press-fited, rose reamer assembly 3, drive rose reamer assembly 3 near or away from the displacement drive mechanism 4 of stator core 1 one end cylindrical positions, drive rose reamer assembly 3 around the rotation of stator core 1 one end cylindricals with the rotary drive mechanism 5 that stator core 1 this end cylindrical carried out chamfering and for placement stator core 1 and with the main shaft 6 of stator core 1 coaxial setting, described rose reamer assembly 3 comprises knife rest 31 and is fixedly installed on rose reamer 32 on the knife rest 31, described knife rest 31 can and can move axially setting along described main shaft 6 around described main shaft 6 rotations, described displacement drive mechanism 4 comprises the driving disc spacing pressing 41 and clutch plate 42 that is set in described main shaft 6 outsides, described driving disc spacing pressing 41 can be around described main shaft 6 rotary setting, described clutch plate 42 is circumferential location with main shaft 6, axially slidably be equipped with, described clutch plate 42 places driving disc spacing pressing 41 corresponding stator core 1 one ends, be provided with the helical teeth 43 that matches on described driving disc spacing pressing 41 and clutch plate 42 both opposite faces, described knife rest 31 is interlock setting with clutch plate 42, and described driving disc spacing pressing 41 is provided with the hydraulic cylinder 7 that drives its rotation.By adopting technique scheme, when stator core 1 is carried out chamfering process, press-fit by 2 pairs of stator cores 1 of press-loading device first, then drive rose reamer assembly 3 near stator core 1 one end cylindrical positions by displacement drive mechanism 4, driving rose reamer assembly 3 by rotary drive mechanism 5 at last rotates so that stator core 1 this end cylindrical is carried out chamfering around stator core 1 one end cylindricals, technical solutions of the utility model, can press-fit and chamfering stator core 1 easily simultaneously, thereby the Effective Raise working (machining) efficiency, reduce production costs.When stator core 1 is carried out chamfering process, stator core 1 is placed on the main shaft, by hydraulic cylinder 7 rotation driving disc spacing pressings 41, owing to be provided with the helical teeth 43 that matches on driving disc spacing pressing 41 and clutch plate 42 both opposite faces, and clutch plate 42 is circumferential location, axially slidably is equipped with main shaft 6, clutch plate 42 just can endwisely slip along main shaft 6, clutch plate 42 and then drive the knife rest 31 be linked with it and move axially along main shaft 6, and then reach that to drive rose reamer 32 close or away from the purpose of stator core 1 one end cylindrical positions.

Present embodiment further arranges: described main shaft 6 outsides also are arranged with the first positioning sleeve 61 and the second positioning sleeve 62, described the first positioning sleeve 61 places described clutch plate 42 corresponding stator core 1 one ends with the second positioning sleeve 62, described the first positioning sleeve 61 is fixedly connected with main shaft 6, described the second positioning sleeve 62 is arranged on the first positioning sleeve 61 corresponding clutch plate 42 1 ends and axially slidably arranges along main shaft 6, be provided with the gap and be folded with elastic component 63 between the two between described the first positioning sleeve 61 and the second positioning sleeve 62, described the second positioning sleeve 62 is interlock setting with clutch plate 42.By adopting technique scheme, when driving disc spacing pressing 41 rotates and clutch plate 42 when sliding to the second positioning sleeve 62 directions along a direction, elastic component 63 compressions between the first positioning sleeve 61 and the second positioning sleeve 62, when driving disc spacing pressing 41 rotated along other direction, elastic component 63 just drove clutch plate 42 and resets.

Present embodiment further arranges: described press-loading device 2 comprises the locating shaft 21 of some quantity, along the axial location-plate 22 and drive location-plate 22 along locating shaft 21 press-loading head 23 in axial sliding slidably of locating shaft 21, described locating shaft 21 is separately positioned on the outside of main shaft 6, described locating shaft 21 outsides also are arranged with spring 24, described spring 24 two ends compress respectively locating shaft 21 and location-plate 22, and described location-plate 22 also is provided with the locating piece 25 of location stator core 1 cylindrical.By adopting technique scheme, when stator core 1 is press-fited, press-loading head 23 drives location-plate 22 and slides so that stator core 1 is press-fited to stator core 1 direction, after press-fiting, when press-loading head 23 left, location-plate 22 resetted under spring 24 active forces, thereby so that stator core 1 can put into easily or take out, and because the effect of locating piece 25, so that stator core 1 can press-fit and chamfering process easily and effectively.

Present embodiment further arranges: described rotary drive mechanism 5 comprises drive motors 51, be arranged on the drive motors gear 52 on the drive motors 51, jackshaft 53, the mainshaft gear 55 that is arranged on the countershaft-gear 54 on the jackshaft 53 and is set in main shaft 6 outsides, described countershaft-gear 54 arranges with drive motors gear 52 and mainshaft gear 55 engagements respectively, be provided with axle sleeve 56 between described countershaft-gear 54 and the jackshaft 53, described countershaft-gear 54 is fixedly connected with knife rest 31 and axle sleeve 56 respectively, described axle sleeve 56 can and can move axially setting along described main shaft 6 around described main shaft 6 rotations, and described axle sleeve 56 is folded between the second positioning sleeve 62 and the clutch plate 42.By adopting technique scheme, drive motors 51 just can drive shaft gear 55 around main shaft 6 rotations, and mainshaft gear 55 drives rose reamer assemblies 3 and moves up and down and around main shaft 6 rotations, so that the chamfering process of stator core 1 effectively carries out along main shaft 6.

Claims (4)

1. auto-buckled type stator core Special chamfering device, it is characterized in that: comprise the press-loading device that the stator core two ends are press-fited, the rose reamer assembly, drive the rose reamer assembly near or away from the displacement drive mechanism of stator core one end cylindrical position, driving the rose reamer assembly rotates this end cylindrical of stator core is carried out the rotary drive mechanism of chamfering around stator core one end cylindrical, and be used for to place stator core and with the main shaft of the coaxial setting of stator core, described rose reamer assembly comprises knife rest and is fixedly installed on rose reamer on the knife rest, described knife rest can and can move axially setting along described main shaft around described main shaft rotation, described displacement drive mechanism comprises driving disc spacing pressing and the clutch plate that is set in the described main shaft outside, described driving disc spacing pressing can be around described main shaft rotary setting, described clutch plate and main shaft are circumferential location, axially slidably be equipped with, described clutch plate places corresponding stator core one end of driving disc spacing pressing, be provided with the helical teeth that matches on described driving disc spacing pressing and the clutch plate opposite face, described knife rest and clutch plate are interlock setting, and described driving disc spacing pressing is provided with the hydraulic cylinder that drives its rotation.

2. auto-buckled type stator core Special chamfering device according to claim 1, it is characterized in that: the described main shaft outside also is arranged with the first positioning sleeve and the second positioning sleeve, described the first positioning sleeve places corresponding stator core one end of described clutch plate with the second positioning sleeve, described the first positioning sleeve is fixedly connected with main shaft, described the second positioning sleeve is arranged on corresponding clutch plate one end of the first positioning sleeve and axially slidably arranges along main shaft, be provided with the gap between described the first positioning sleeve and the second positioning sleeve and be folded with elastic component between the two, described the second positioning sleeve and clutch plate are interlock setting.

3. auto-buckled type stator core Special chamfering device according to claim 1 and 2, it is characterized in that: described press-loading device comprises the locating shaft of some quantity, along the axial location-plate and drive location-plate along locating shaft press-loading head in axial sliding slidably of locating shaft, described locating shaft is separately positioned on the outside of main shaft, the described locating shaft outside also is arranged with spring, described both ends of the spring compresses respectively locating shaft and location-plate, and described location-plate also is provided with the locating piece of location stator core cylindrical.

4. auto-buckled type stator core Special chamfering device according to claim 2, it is characterized in that: described rotary drive mechanism comprises drive motors, be arranged on the drive motors gear on the drive motors, jackshaft, the mainshaft gear that is arranged on the countershaft-gear on the jackshaft and is set in the main shaft outside, described countershaft-gear arranges with drive motors gear and mainshaft gear engagement respectively, be provided with axle sleeve between described countershaft-gear and the jackshaft, described countershaft-gear is fixedly connected with knife rest and axle sleeve respectively, described axle sleeve can and can move axially setting along described main shaft around described main shaft rotation, and described axle sleeve is folded between the second positioning sleeve and the clutch plate.

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