CN206869653U - Feed mechanism on cylindrical magnetic core milling apparatus - Google Patents

Abstract

It the utility model is related to magnetic core processing equipment field, the feed mechanism on cylindrical magnetic core milling apparatus, including cylindricality feeding passage, and for the pushing material component along the cylindricality feeding passage axial direction feeding, and it is arranged on the magazine component above cylindricality feeding passage；Extend on the terminal part lower surface of the cylindricality feeding passage and be provided with backing plate, positioning element is provided with the cylindricality feeding passage in front of backing plate；The magazine component includes circular magazine and feed table；The feed table is in inside circular magazine, and the outer circumferential face of feed table is provided with multiple chute feeders, feed table circumferential circulation material conveying between feeding port and feed opening；The cylindricality feeding passage is provided with reversing gear bracket, and reversing gear bracket includes the bearing plate for accepting circular magazine feed opening, and bearing plate lower end is positioned on bearing by axostylus axostyle.The feed mechanism overcomes effect of magnetic influence feature between each workpiece of cylindrical magnetic core, ensures the orderly feeding of cylindrical magnetic core, is provided safeguard for the processing of cylindrical magnetic core end face.

Description

Feed mechanism on cylindrical magnetic core milling apparatus

Technical field

It the utility model is related to the feeder in magnetic core processing equipment field, more particularly to a kind of cylindrical magnetic core milling apparatus Structure.

Background technology

With the development of industrial machinery, the processing of current many workpiece uses automation equipment.In field of machining In, face grinding machine is a kind of plane machining grinding machine, and its principle is to carry out grinding to workpiece surface using grinding tool (such as emery wheel), It is widely used in the production of all kinds of parts.However, whether the end face processing of a workpiece can be realized automatically by grinding machine Change, depend not only on the processing complexity of workpiece end face, again depend on the loading and unloading of workpiece and whether clamp can be with Automation is realized, only above two condition meets the automation processing that face grinding machine just can be achieved simultaneously.

Similar to this kind of cylindrical workpiece of cylindrical magnetic core, the end face of cylinder there may be out-of-flatness phenomenon, it is necessary to right End face is ground；However, because cylindrical magnetic core is the crisp column construction of matter, conventional use of streamline can not be used, therefore In the market does not have the equipment that end surface grinding can be carried out to such workpiece.At present, the method that industry routine uses is by multiple posts Shape magnetic core is plugged on mould, drives cylindrical magnetic core mobile relative to grinding tool (such as emery wheel) by mould, to the outer of cylindrical magnetic core End face is ground.Then, the other end of cylindrical magnetic core is ground according to the above method, whole manufacturing procedure efficiency is low Under, therefore need to improve.But cylindrical magnetic core is different from conventional cylindrical workpiece, magnetic between each workpiece of cylindrical magnetic core Influence, therefore be badly in need of providing a kind of feed mechanism that can overcome cylindrical magnetic core These characteristics.

The content of the invention

In order to solve the above problems, the purpose of this utility model is to provide the feeding on a kind of cylindrical magnetic core milling apparatus Mechanism, the feed mechanism overcome effect of magnetic influence feature between each workpiece of cylindrical magnetic core, ensure the orderly feeding of cylindrical magnetic core, are post The processing of shape magnetic core end face provides safeguard.

In order to realize above-mentioned purpose, the utility model employs following technical scheme：

Feed mechanism on cylindrical magnetic core milling apparatus, it is characterised in that：Including cylindricality feeding passage, and for along institute The pushing material component of cylindricality feeding passage axial direction feeding is stated, and is arranged on the magazine component above cylindricality feeding passage；The post Extend on the terminal part lower surface of shape feeding passage and be provided with backing plate, positioning element is provided with the cylindricality feeding passage in front of backing plate；

The magazine component includes circular magazine and feed table；The top of the circular magazine is provided with feeding port, circle material The lower section of box is provided with feed opening；The feed table is in inside circular magazine, and the outer circumferential face of feed table is provided with multiple send Hopper, feed table circumferential circulation material conveying between feeding port and feed opening；The cylindricality feeding passage is provided with reversing gear bracket, commutation Frame is in immediately below the feed opening of circular magazine, and reversing gear bracket includes the bearing plate for accepting circular magazine feed opening, bearing plate lower end It is positioned at by axostylus axostyle on bearing.

Preferably, the pushing material component includes pusher cylinder, and the scraping wings being arranged in pusher cylinder output end； The outbound course of the pusher cylinder is axially consistent with the cylindricality feeding passage, and scraping wings is in the beginning of cylindricality feeding passage On end.

Preferably, the scraping wings is the circular slab in section and the cylindricality feeding channels be in accordance.

Preferably, the positioning element includes the first location division and the second location division, the first location division and the second positioning Portion is radially oppositely arranged, and the first location division and the second location division are arc location division.In the technical scheme, the first location division It is relative when collapsing with the second location division, available for clamping fixed cylindrical magnetic core；First location division and the second location division are relatively distant from When, cylindrical magnetic core is not fixed.

The utility model uses above-mentioned technical proposal, and the technical scheme is related to the feeding on a kind of cylindrical magnetic core milling apparatus Mechanism, the feed mechanism overcome effect of magnetic influence feature between each workpiece of cylindrical magnetic core, ensure the orderly feeding of cylindrical magnetic core, are post The processing of shape magnetic core end face provides safeguard.Specifically, cylindricality feeding passage is used to convey cylindrical magnetic core string (i.e. more cylindrical magnetic cores The group that axially docking is formed), pushing material component is used to push cylindrical magnetic core string, and magazine component is used for feeding.The program is related to Two inventive points；First point：In magazine component, a cylindrical magnetic core manually can be conveyed toward feeding port blowing, single chute feeder, prevented Only mutually have an impact between cylindrical magnetic core, finally dropped out by feed opening；Reversing gear bracket is used to accept feed opening, falls at feed opening The cylindrical magnetic core gone out maintains more cylindrical magnetic cores on pipeline, changed in reversing gear bracket, the cylindricality feeding passage residing for reversing gear bracket It can be influenceed to the cylindrical magnetic core on frame by its adjacent another workpiece, so as to drive reversing gear bracket to rotate, until adjacent thereto Cylindrical magnetic core magnetic connects (two cylindrical magnetic cores axially dock), completes after turning to docking, pusher cylinder can drive scraping wings to promote Cylindrical magnetic core moves axially, and realizes feeding.Second point, on the terminal part of cylindricality feeding passage, including workpiece to be clamped and standard Workpiece (i.e. last position first and last position the second) to be clamped, it is attracting that magnetic is produced between workpiece to be clamped and standard workpiece to be clamped；Cause And need on the one hand fix standard Workpiece clamping to be clamped by positioning element when clamping, evade when clamping workpiece and being pressed from both sides away Influence；On the other hand it need to extend on lower surface and be provided with backing plate, backing plate accepts (but not constraining) workpiece to be clamped, and undertaking is mainly In order to avoid workpiece to be clamped it is hanging and its magnetic attraction can not overcome gravity and caused height displacement is poor.

Brief description of the drawings

Fig. 1 is the top surface structure schematic diagram of end-face grinding machine.

Fig. 2 is the positive structure schematic of end-face grinding machine.

Fig. 3 is Fig. 2 A portions enlarged drawing.

Fig. 4 is the structural representation for clamping assembly.

Fig. 5 is the structural representation of feed mechanism.

Embodiment

Below in conjunction with the accompanying drawings, preferred embodiment of the present utility model is described in further detail.

A kind of end-face grinding machine of cylindrical magnetic core as shown in Fig. 1~5, including frame 1, and be arranged in frame 1 Feed mechanism 5, clamp assembly 2, grinding assembly 3 and cutting agency.

The assembly 2 that clamps clamps rotating disk 21 and guiding arcwall 22 including being arranged in frame 1.It is described to clamp rotating disk 21 disk body be circumferentially provided with it is some clamp hole 23, clamp the disk body of rotating disk 21 be provided with clamp component, clamp component include along press from both sides What dress rotating disk 21 was radially arranged clamps axle 24, and is arranged on the elastomeric element 25 clamped on the inner end of axle 24, elastomeric element 25 The outer end that driving clamps axle 24 positions the workpiece clamped in hole 23, the preferably stage clip of elastomeric element 25, the deformation direction of stage clip It is along the disk body radial direction for clamping rotating disk 21.It is fixed with the axostylus axostyle side for clamping axle 24 and stirs part 26, stirs part 26 It is that the roller clamped on axle 24 is positioned at by rotating shaft.It is oriented to the guiding of arcwall 22 and stirs part 26, mainly by being oriented to arc Shape wall 22 makes between part 26 with stirring the contact between part 26, extruding, therefore in order to reduce to be oriented to arcwall 22 and stir With abrasion, can will stir part 26 from be roller, and with roller and be oriented to being in rolling contact between arcwall 22, reduction each other it Between contact wear.

It is equipped with the frame 1 for clamping the both sides of rotating disk 21 and is oriented to arcwall 22, adjacent two clamps dialling on axle 24 Dynamic component 26 is respectively on the two sides for clamping rotating disk 21.Ground station is oriented to arcwall 22 into the path of discharge station Guiding stirs part 26 and clamps axle 24 along clamping moving radially inwardly for rotating disk 21.In the path of discharge station to feeding station In, it is oriented to the guiding of arcwall 22 and stirs part 26 and clamp axle 24 along clamping being moved radially outward for rotating disk 21.Due to radially setting More put clamp axle 24, and rotating disk 21 is circumferential to be laid out along clamping, and the tightness degree being circumferentially laid out directly affects that to clamp rotating disk 21 right In the useful load of workpiece, and clamp the part 26 of stirring on axle 24 and affect the circumferential layout quantity for clamping axle 24.Therefore it is above-mentioned Part 26 will be stirred in structure to be disposed on successively on the two sides for clamping rotating disk 21, is advantageous to the circumference that increase clamps axle 24 Quantity is laid out, and then is lifted and clamps useful load of the rotating disk 21 for workpiece.

The above-mentioned rotating disk 21 that clamps can be used for clamping cylindrical magnetic core.During assembling, clamping in hole 23 for rotating disk 21 is clamped For positioning workpiece, clamp component and realize positioning to clamping workpiece in hole 23, the two end faces of workpiece are in clamping rotating disk 21 On disk body two sides.During processing, clamp the rotational band of rotating disk 21 and start building part by the ground station between two mills, that is, realize once Process processes two end faces, lifts processing efficiency.In addition to being easy to automate loading and unloading, clamp rotating disk 21 clamps group Part, which is provided with, stirs part 26, and the movement for stirring part 26 can be oriented to by being oriented to arcwall 22, realizes that control clamps the elastic of component Degree.Into the path of discharge station, guiding arcwall 22 is bootable to be stirred part 26 and clamps axle 24 along folder specific ground station Dress rotating disk 21 moves radially inwardly.In discharge station, part 26 is stirred in the case where being oriented to arcwall 22 and guiding, clamps the edge of axle 24 Moving radially inwardly for rotating disk 21 is clamped, axle 24 is clamped and inwardly extrudes elastomeric element 25, clamps the outer end of axle 24 for clamping hole The positioning lift of workpiece in 23.Discharge station is oriented to the guiding of arcwall 22 and stirs part 26 and folder into the path of feeding station Dress axle 24 is along clamping being moved radially outward for rotating disk 21.On feeding station, part 26 is stirred in the case where being oriented to arcwall 22 and guiding, Elastomeric element 25, which drives, clamps axle 24 along being moved radially outward for rotating disk 21 is clamped, and clamps the outer end of axle 24 for clamping in hole 23 The workpiece of new feeding carries out positioning clamping.

The feed mechanism 5 is arranged on feeding station, and feed mechanism 5 includes cylindricality feeding passage 51, and for edge The pushing material component of the 51 axial feeding of cylindricality feeding passage, and it is arranged on the magazine component of the top of cylindricality feeding passage 51. The pushing material component includes pusher cylinder 52, and the scraping wings 53 being arranged in the output end of pusher cylinder 52.The pusher gas The outbound course of cylinder 52 is axially consistent with the cylindricality feeding passage 51, and scraping wings 53 is in the top of cylindricality feeding passage 51 In portion, scraping wings 53 is the circular slab that section matches with the cylindricality feeding passage 51.The end of the cylindricality feeding passage 51 Extension is provided with backing plate 54 on the lower surface of end, and positioning element is provided with the cylindricality feeding passage 51 in the front of backing plate 54.The positioning Part includes the first location division 551 and the second location division 552, and the first location division is radially oppositely arranged with the second location division, and the One location division and the second location division are arc location division.In the technical scheme, the relative receipts in the first location division and the second location division When holding together, available for clamping fixed cylindrical magnetic core.When first location division and the second location division are relatively distant from, cylindrical magnetic core is not consolidated It is fixed.Feed mechanism 5 overcomes effect of magnetic influence feature between each workpiece of cylindrical magnetic core, ensures the orderly feeding of cylindrical magnetic core, is cylindricality The processing of magnetic core end face provides safeguard.In feed mechanism 5, cylindricality feeding passage 51 is used to convey cylindrical magnetic core string (i.e. more cylindricalitys The magnetic core group that axially docking is formed), pushing material component is used to push cylindrical magnetic core string, and magazine component is used for feeding.In cylindricality On the terminal part for expecting passage 51, including workpiece to be clamped and standard workpiece to be clamped (i.e. last position first and last position the second), wait to clamp It is attracting that magnetic is produced between workpiece and standard workpiece to be clamped.Thus, need on the one hand to wait to press from both sides by standard by positioning element when clamping Dress Workpiece clamping is fixed, and is evaded workpiece to be clamped and is pressed from both sides away caused influence.On the other hand it need to extend on lower surface and be provided with Backing plate 54, backing plate 54 accept (but not constraining) workpiece to be clamped, and accept primarily to avoiding workpiece to be clamped hanging and its magnetic Property suction can not overcome gravity and caused height displacement is poor.

The magazine component includes circular magazine 56 and feed table 57.The top of the circular magazine 56 is provided with feeding port 561, the lower section of circular magazine 56 is provided with feed opening 562.The feed table 57 is in inside circular magazine 56, the week of feed table 57 Outside side is provided with multiple chute feeders, the circumferential circulation material conveying between feeding port and feed opening of feed table 57.In the cylindricality Material passage 51 is provided with reversing gear bracket 58, and reversing gear bracket 58 is in immediately below the feed opening of circular magazine 56, and reversing gear bracket 58 is in pusher The rear side of plate 53.Reversing gear bracket 58 includes the bearing plate 581 for accepting the circular feed opening of magazine 56, and bearing plate lower end is positioned at by axostylus axostyle On bearing 582.In magazine component, manually a cylindrical magnetic core can be conveyed, prevents cylindrical magnetic toward feeding port blowing, single chute feeder Mutually have an impact between core, finally dropped out by feed opening.Reversing gear bracket 58 is used to accept feed opening, the post dropped out at feed opening Shape magnetic core maintains more cylindrical magnetic cores on pipeline, changed in reversing gear bracket 58, the cylindricality feeding passage 51 residing for reversing gear bracket 58 Can be influenceed to the cylindrical magnetic core on frame 58 by its adjacent another workpiece, so as to drive reversing gear bracket 58 to rotate, until with its phase Adjacent cylindrical magnetic core magnetic connects (two cylindrical magnetic cores axially dock), completes after turning to docking, pusher cylinder 52 can drive pusher Plate 53 promotes cylindrical magnetic core axial movement, realizes feeding.

Pinch roller 6 is located in frame 1 on rear side of the feeding station, the side middle part of pinch roller 6 is circumferentially with wheel along pinch roller 6 Groove 61.The side of pinch roller 6 offsets transmission with the side of rotating disk 21 that clamps, and the race of pinch roller 6 is with clamping clamping for rotating disk 21 Hole 23 is corresponding.In the program, although because cylindrical magnetic core is into the clamping in hole 23 of rotating disk 21 is clamped in feeding station, simultaneously The axial location of cylindrical magnetic core is not aligned and adjusted.Therefore, the pinch roller 6 set on rear side of feeding station can be by cylindricality Magnetic core is pressed further into, and cylindrical magnetic core both ends exceed the length as wheel groove depth for clamping rotating disk 21 after the adjustment of pinch roller 6.

The grinding assembly 3 is arranged in ground station, and ground station is in and clamped in the rotating path of rotating disk 21, grinds Assembly 3 includes being arranged on two abrasive disks 31 for clamping the both sides of rotating disk 21.The abrasive disk is driven by grinding motor 32, abrasive disk 31 is opposite with clamping the direction of rotation of rotating disk 21.

The cutting agency is arranged in discharge station, and cutting agency includes being used for go out the workpiece clamped in hole 23 Liquid washing pipe, and for accepting the blanking track 42 of workpiece.The technical scheme clamps rotating disk 21 not to post in discharge station Shape magnetic core carries out clamping fixation, i.e. cylindrical magnetic core is in loosening state.Now, cylindrical magnetic core can be rushed by liquid washing pipe Go out, and fall into blanking track.

In summary, the technical scheme is related to a kind of end-face grinding machine of cylindrical magnetic core, and end-face grinding machine includes feeder Structure 5, assembly 2 and grinding assembly 3 are clamped, feed mechanism 5 can clamp assembly 2 and press from both sides by cylindrical magnetic core to 2 orderly feeding of assembly is clamped Feeding can be carried out to cylindrical magnetic core, is pressed from both sides by the grinding progress end surface grinding of assembly 3, the i.e. end-face grinding machine after filling cylindrical magnetic core Dress, end surface grinding process, the processing of automation end face is realized, lifts processing efficiency.

Claims (4)

1. the feed mechanism on cylindrical magnetic core milling apparatus, it is characterised in that：Including cylindricality feeding passage, and for along described The pushing material component of cylindricality feeding passage axial direction feeding, and it is arranged on the magazine component above cylindricality feeding passage；The cylindricality Extend on the terminal part lower surface of feeding passage and be provided with backing plate, positioning element is provided with the cylindricality feeding passage in front of backing plate；Institute Stating magazine component includes circular magazine and feed table；The top of the circular magazine is provided with feeding port, is set below circular magazine There is feed opening；The feed table is in inside circular magazine, and the outer circumferential face of feed table is provided with multiple chute feeders, feed table The circumferential circulation material conveying between feeding port and feed opening；The cylindricality feeding passage is provided with reversing gear bracket, and reversing gear bracket is in circle Immediately below the feed opening of magazine, reversing gear bracket includes the bearing plate for accepting circular magazine feed opening, and bearing plate lower end is determined by axostylus axostyle Position is on bearing.

2. the feed mechanism on cylindrical magnetic core milling apparatus according to claim 1, it is characterised in that：The pushing material component Including pusher cylinder, and the scraping wings being arranged in pusher cylinder output end；The outbound course of the pusher cylinder with it is described The axial direction of cylindricality feeding passage is consistent, and scraping wings is in the top portion of cylindricality feeding passage.

3. the feed mechanism on cylindrical magnetic core milling apparatus according to claim 2, it is characterised in that：The scraping wings is Section and the circular slab of the cylindricality feeding channels be in accordance.

4. the feed mechanism on cylindrical magnetic core milling apparatus according to claim 1, it is characterised in that：The positioning element Including the first location division and the second location division, the first location division and the second location division are radially oppositely arranged, and the first location division with Second location division is arc location division.