CN104275425A - Enameled wire cutting device - Google Patents

Abstract

An enameled wire cutting device comprises a mounting disc, a wheel disc and a cover plate, wherein the wheel disc is arranged in the mounting disc with one face open, and the cover plate is used for closing the open face of the mounting disc. The cover plate and the mounting disc are positioned on the same central axis, the wheel disc is rotatably connected into the mounting disc through a center shaft of a center through hole, and a driving mechanism used for driving the wheel disc to rotate is arranged outside the mounting disc. Two driving blocks are arranged on the wheel disc, the cover plate is provided with four guide grooves in circumferential array distribution by taking the axis of the cover plate as a center line, a cutting block is arranged on each guide groove, and the driving blocks driven by rotation of the wheel disc drive the cutting blocks to move towards the circle center of the wheel disc and drive the horizontal or vertical cutting blocks in pairs to move simultaneously. By the enameled wire cutting device, the problem of burrs of cut surfaces of enameled wires is solved, cutting precision is improved, operators are free from using files for trimming in a late stage, and accordingly work efficiency is greatly improved.

Description

A kind of shearing device of enamel-covered wire

Technical field

The present invention relates to the production equipment of rotor, particularly the production equipment of epitrochanterian enamel-covered wire.

Background technology

On market, existing enamel-covered wire mostly still adopts and manually cuts off, the unspecial shearing device for enamel-covered wire, the shearing device of a lot of conversion other materials cuts off enamel-covered wire, as a kind of steel bar cut-off device of patent No. CN201310221636.4, to be coordinated with the fixed blade be fixed on jig by moving blade and cut reinforcing bar, the center line of fixed blade is shaped with half-arc groove in place to the inside apart from edge, the center line on the upper and lower two sides of fixed blade is shaped with respectively two screw holes.But the cooperation cutting of this upper bottom knife can cause the cut-off part of enamel-covered wire because of upper and lower to extruding direction, both sides extend thus produce burr,, also can there is enamel-covered wire when post-production rotor and insert difficult problem in the so not only finger of easy scratch subsequent operation personnel.

Summary of the invention

Object of the present invention solves the problems of the technologies described above, and provides a kind of cuttability for enamel-covered wire good, can not produce the shearing device of burr.

Technical solution of the present invention is: a kind of shearing device of enamel-covered wire, comprises the mounting disc of an opening, is arranged on the wheel disc in mounting disc and the cover plate for a closed mounting disc opening; Described cover plate and mounting disc are on same central axis, and connect wheel disc by the central axis of a central through hole in described mounting disc, described mounting disc also arranges the driving mechanism for driving wheel disc to rotate outward; Described wheel disc is arranged 2 drive blocks, the shortest route between 2 drive blocks is through the center of circle of wheel disc, described cover plate is offered four guide grooves of line circumference array distribution centered by the axis of cover plate, each described guide groove arranges a cutting cube respectively, under the drive that described drive block rotates at wheel disc, drive cutting cube to move to the direction, the center of circle of wheel disc, and drive a pair cutting cube in horizontal direction or on vertical direction to move simultaneously.

Change original unidirectional cut-out, become horizontal direction and vertical direction both direction is cut off, two drive blocks drove two cutting cubes on same direction before this, carried out first step cutting.First step cutting is not to cut off enamel-covered wire, but an incision part, and then driving two cutting cubes on other direction to carry out second step cutting, this step to cut off.Carry out extruding, the cutting of first early stage, then changed on other direction and cut off, on the direction of first cutting, just only can produce a small amount of outside distortion like this, and the generation burr that can not break, and the better effects if cut off.

As preferably, arc surface A is offered in the lower surface of described drive block in the one side of cutting cube, and described arc surface A comprises circular arc side and circular arc front.

As preferably, the arc surface A that the upper end of described cutting cube arranges corresponding drive block offers corresponding arc surface B, described cutting cube is also arranged the mounting groove for being arranged in the guide groove of cover plate, dress tool bore is offered in the bottom of cutting cube, mounting cutter in dress tool bore, upside and the arranged on left and right sides of described dress tool bore arrange screwed hole all respectively, arrange the bolt being used for fixed cutting tool in screwed hole.Staggered by between the arc surface A of drive block and the arc surface B of cutting cube, because drive block is fixing, and spacing because of guide groove of cutting cube, can only move to direction, the center of circle under interaction force.And arc surface A is divided into circular arc side and circular arc front when can make staggered, transition is more smooth and easy, can not block.

As preferably, the guide groove of described cover plate is arranged the back-moving spring for driving cutting cube to reset.Cutting cube, can always to an end motion of guide groove under the pressure of drive block.But after drive block is separated with cutting cube, cutting cube just can not be returned to origin-location, the motion of next time certainly will be affected like this, so arrange back-moving spring, cutting cube can be allowed to automatically reset to home position.

As preferably, described wheel disc is toothed disc, the breach for exposing wheel disc is offered in described mounting disc side, described driving mechanism comprises and wheel disc meshed gears block, cluster gear is outside equipped with shell, outer casing inner wall arranges stopper slot, and the side of cluster gear connects guide rod, and the other end of described guide rod is arranged in stopper slot; The upper end of described cluster gear connects the hydraulic cylinder being used for the upper and lower rectilinear motion of driven wheel block.Just can drive four cutting cube motions by a driving mechanism, improve operating efficiency and save job costs.And by coordinating of stopper slot and guide rod, the moving surface of cluster gear is remained on same vertical plane.Be converted to the circular motion of drive block by the vertical motion of hydraulic cylinder, and the controllability of hydraulic cylinder is strong, precision is high, by the engagement between wheel disc and the gear teeth of cluster gear, can increase the stroke accuracy of wheel disc, also just add the cutting accuracy of cutting cube.If each cutting cube is equipped with a hydraulic cylinder, just there is the problem that synchronism is inserted in that, is difficult to ensure that cutting cube is synchronized with the movement, and the cost that is bound to is high, price.

As preferably, described drive block drives cutting cube to move to the direction, the center of circle of wheel disc by attaching parts; Described attaching parts comprise the fixed block be fixedly connected with cover plate, the screw rod be threaded with described fixed block, described screw rod lower end connects quincuncial revolving part, the another side of described revolving part is connected and fixed bar, described fixed bar and screw rod remain on same central axis, and described fixed bar connects cutting cube by ball bearing again; Described drive block is arranged the circular arc projection for stir revolving part rotation corresponding with revolving part.Structure above realizes the motion of cutting cube by directly interlocking between drive block and cutting cube, but after long-term staggered wearing and tearing, friction each other must be caused to reduce, thus cutting cube stroke is shortened, reduce the cutting to enamel-covered wire.So increase attaching parts to realize middle driving, solve wear problem.Here the rotation that the connection between revolving part and drive block realizes horizontal direction is converted to vertically upper and lower motion, but due to contact stroke shorter, this mode is only suitable for the thinner enamel-covered wire of diameter.

As preferably, described cutting cube comprises the block be arranged at outside cover plate, and described block is arranged one through the connecting plate of guide groove, described connecting plate is connected on ball bearing; Described connecting plate, in its direction of motion, can move around in guide groove.Block can prevent cutting cube from moving to inside cover plate, and its connecting plate is socketed on ball bearing again, thus define the position on cutting cube direction, make it not move in this direction, also just can only move upward another side of guide groove, the direction of motion of Here it is cutting cube.

As preferably, described block arranges cutter towards the side in the wheel disc center of circle, and the distance in the cutter distance wheel disc center of circle in horizontal direction is different apart from the distance in the wheel disc center of circle with the cutter on vertical direction.Because the effect of a pair cutter on different directions is different, be for a pair cutting, another is to being cut-out.The cutter of one team of cutting can not cut off enamel-covered wire completely, so need the extension elongation of the cutter for cutting to want shorter.

As preferably, described driving mechanism comprises setting conical tooth wheels on center shaft and either-rotation motor.

As preferably, described either-rotation motor drives rotating disk to rotate to a direction, until drive block stops through after cutting cube one segment distance of vertical direction, rotate backward again, drive block can move to cutting cube through horizontal direction to complete the cut-out of enamel-covered wire through the cutting cube of vertical direction again always, last either-rotation motor can reverse reset again, and drive block again second time, through the cutting cube of horizontal direction, this completes whole cutting-off process.Under the positive and negative rotation of either-rotation motor drives, realize driving process and the reseting procedure of drive block and cutting cube.

Beneficial effect of the present invention is:

This shearing device passes through the combination of a driving mechanism and wheel disc, utilize the drive block on wheel disc to control the cutting cube on four direction, achieve the cutting on a first direction, then the mode of operation of another direction cut-out, solve the problem that enamel-covered wire section is jagged, improve cut-out precision, avoid the situation that finishing operations personnel carry out with file repairing again, improve operating efficiency greatly.

This apparatus structure is simple, and transmission efficiency is high, and is applicable to the very little enamel-covered wire of diameter.

Accompanying drawing explanation

Fig. 1 is the perspective view of the embodiment of the present invention 1;

Fig. 2 is the structural representation of embodiment 1 drive block;

Fig. 3 is the structural representation of embodiment 1 cutting cube;

Fig. 4 is the working state schematic representation of embodiment 1 drive block and cutting cube;

Fig. 5 is embodiment 1 front section view schematic diagram;

Fig. 6 is the perspective view of embodiment 2;

Fig. 7 is the assembly structure schematic diagram of the drive block of embodiment 2, attaching parts and cutting cube;

Fig. 8 is the side-looking structural representation of embodiment 2;

Fig. 9 is schematic diagram after former enamel-covered wire cuts off;

Figure 10 cuts off the schematic diagram after enamel-covered wire with this shearing device.

In figure: 1-mounting disc, 11-breach, 12-conical tooth wheels, 13-either-rotation motor, 2-central shaft, 3-wheel disc, 31-drive block, 32-arc surface A, 321-circular arc side, 322-circular arc front, 33-circular arc is protruding, 4-driving mechanism, 41-cluster gear, 42-guide rod, 43-stopper slot, 44-shell, 45-hydraulic cylinder, 5-cover plate, 51-guide groove, 6-cutting cube, 61-mounting groove, 62-screwed hole, 63-bolt, 64-arc surface B, 65-fills tool bore, 66-block, 67-connecting plate, 7-cutter, 8-back-moving spring, 9-attaching parts, 91-fixed block, 92-screw rod, 93-revolving part, 94-ball bearing, 95-fixed bar.

Detailed description of the invention

Below in conjunction with accompanying drawing, with embodiment, the invention will be further described.

This specific embodiment is only explanation of the invention; it is not limitation of the present invention; those skilled in the art can make to the present embodiment the amendment not having creative contribution as required after reading this description, as long as but be all subject to the protection of Patent Law in right of the present invention.

Embodiment 1, as shown in Figure 1 and Figure 5, a kind of shearing device of enamel-covered wire, comprises the mounting disc 1 of an opening, is arranged on the wheel disc 3 in mounting disc 1 and the cover plate 5 for closed mounting disc 1 one openings; Described cover plate 5 and mounting disc 1, on same central axis, are rotationally connected wheel disc 3 by the central shaft 2 of a central through hole in described mounting disc 1, and the central through hole in central shaft 2 is for passing enamel-covered wire.The outer driving mechanism 4 also arranged for driving wheel disc 3 to rotate of described mounting disc 1; Described wheel disc 3 is arranged 2 drive blocks 31, the shortest route between 2 drive blocks 31 is through the center of circle of wheel disc 3, described cover plate 5 is offered four guide grooves 51 of line circumference array distribution centered by the axis of cover plate 5, each described guide groove 51 is arranged respectively a cutting cube 6, under the drive that described drive block 31 rotates at wheel disc 3, drive cutting cube 6 to move to the direction, the center of circle of wheel disc 3, and drive a pair cutting cube 6 in horizontal direction or on vertical direction to move simultaneously.This device can drive a pair cutting cube 6 successively realization of different directions to the motion in direction, wheel disc 3 center of circle by two drive blocks 31, by the cutting of the first first step, reduce the outside diameter of enamel-covered wire, then realize cutting off step by the relative motion of the cutting cube 6 of other direction.As shown in Figure 9 and Figure 10, Fig. 9 can see original just by the cut-out on a direction, the section of enamel-covered wire obviously has amplification to flatten, and easily produce at the two ends of flattening and break and burr, and obviously have with the section that this shearing device realizes the phenomenon reduced in Figure 10, that be because early stage a direction on cutting cube 6 mutually move, carry its tools 7 carries out cutting process, can first reduce this section, prevent because later stage cut-out generation pressure is excessive, the problems such as the periphery generation of enamel-covered wire is broken, burr.

As in Figure 2-4, in order to realize the interaction between drive block 31 and cutting cube 6, arc surface A32 is offered in the lower surface of first described drive block 31 in the one side of cutting cube 6, and described arc surface A32 comprises circular arc side 321 and circular arc front 322.The arc surface A32 that the upper end of described cutting cube 6 arranges corresponding drive block 31 offers corresponding arc surface B64.Because cutting cube 6 is wanted mutually to extrude between drive block 31, in order to avoid there is stuck phenomenon, so drive block 31 is provided with circular arc side 321 and circular arc front 322, exactly in order to improve the smoothness moved up and down being converted to cutting cube 6 from the extruding of mutual level.In order to moving up and down of cutting cube 6 can be allowed to change more smooth and conversion accuracy, described cutting cube 6 is also arranged the mounting groove 61 for being arranged in the guide groove 51 of cover plate 5.The effect of mounting groove 61 is exactly make the width of cutting cube 6 consistent with the width of guide groove 51, prevents the motion in other directions of cutting cube 6, allows cutting cube 6 under the extruding of drive block 31, can only move to the direction, the center of circle of cover plate 5.Second effect of mounting groove 61 is exactly prevent cutting cube 6 from departing from outside cover plate 5.

As shown in Figure 4, dress tool bore 65 is offered in the bottom of cutting cube 6, mounting cutter 7 in dress tool bore 65, and upside and the arranged on left and right sides of described dress tool bore 65 arrange screwed hole 62 all respectively, arrange the bolt 63 being used for fixed cutting tool 7 in screwed hole 62.The guide groove 51 of described cover plate 5 is arranged the back-moving spring 8 for driving cutting cube 6 to reset.Because drive block 31 can only extrude the motion of the cutting cube 6 phase center of circle, but after waiting drive block 31 to depart from cutting cube 6, cutting cube 6 can not automatically reset, and that just needs back-moving spring 8 to drive the original position that is returned to of cutting cube 6, to carry out second step operation.

As shown in Figure 5, described wheel disc 3 is toothed disc, the breach 11 for exposing wheel disc 3 is offered in described mounting disc 1 side, described driving mechanism 4 comprises and wheel disc 3 meshed gears block 41, cluster gear 41 is outside equipped with shell 44, shell 44 inwall arranges stopper slot 43, and the side of cluster gear 41 connects guide rod 42, and the other end of described guide rod 42 is arranged in stopper slot 43; The upper end of described cluster gear 41 connects the hydraulic cylinder 45 being used for driven wheel block about 41 rectilinear motion.Stopper slot 43 coordinates with guide rod 42, and the motion of cluster gear 41 can be made to keep at grade.As long as and hydraulic cylinder 45 just can the moving up and down of control gear block 41, and drive the reciprocating rotary of wheel disc 3 by cluster gear 41, thus improve control accuracy.

Embodiment 2, realized the motion of cutting cube in embodiment 1 by the directly staggered extruding between drive block and cutting cube, but after long-term extrusion abrasion, frictional force each other must be caused to reduce, thus cutting cube stroke is shortened, reduce the cutting force to enamel-covered wire.As Fig. 6-8 so preferred drive block 31 drives cutting cube 6 to move to the direction, the center of circle of wheel disc 3 by attaching parts 9; Described attaching parts 9 comprise the fixed block 91 be fixedly connected with cover plate 5, the screw rod 92 be threaded with described fixed block 91, described screw rod 92 lower end connects quincuncial revolving part 93, the another side of described revolving part 93 is connected and fixed bar 95, described fixed bar 95 remains on same central axis with screw rod 92, and described fixed bar 95 connects cutting cube 6 by ball bearing 94 again; Described drive block 31 is arranged corresponding with revolving part 93 for stirring the circular arc projection 33 that revolving part 93 rotates.By the rotation of drive block 31 driven rotary part 93, because revolving part 93 can be threaded at fixed block 91, so revolving part 93 also can move up and down while rotation. on revolving part 93 other end, fixed bar 95 also can follow revolving part 93 to rotate together, but under the effect because of ball bearing 94, the cutting cube 6 being enclosed within ball bearing outer ring can not rotate with this, can only move up and down.So just achieve from drive block 31 to attaching parts 9 again to the drive connection of cutting cube 6.Described cutting cube 6 comprises the block 66 be arranged at outside cover plate 5, and described block 66 is arranged the connecting plate 67 that passes guide groove 51, described connecting plate 67 is connected on ball bearing 94; Described connecting plate 67, in its direction of motion, can move around in guide groove 51.

As shown in Figure 7, described cutting cube 6 comprises the block 66 be arranged at outside cover plate 5, and described block 66 is arranged the connecting plate 67 that passes guide groove 51, described connecting plate 67 is connected on ball bearing 94; Described connecting plate 67, in its direction of motion, can move around in guide groove 51.The height of block 66 is greater than guide groove 51 height, enter in guide groove 51 for anti-stop block 66, but the width of connecting plate 67 both sides is consistent with the width of the corresponding both sides of guide groove 51, and such connecting plate 67 just can only move around on its movement locus, and can not other sides move up again.

Described block 66 arranges cutter 7 towards the side in wheel disc 3 center of circle, also needs to arrange a bolt 63 and pierces in block 66 and prop up cutter 7, thus realize the fixing of cutter 7.Cutter 7 in horizontal direction is different apart from the distance in wheel disc 3 center of circle from the cutter 7 on vertical direction apart from the distance in wheel disc 3 center of circle.So just the cutter that can realize in horizontal direction is dissection, and directly can not cut off enamel-covered wire.In like manner, also can be that cutter 7 on vertical direction is to realize dissection.

As shown in Figure 8, the driving mechanism 4 of the present embodiment 2 comprises and is arranged on conical tooth wheels 12 on central shaft 2 and either-rotation motor 13.Directly by the drive of either-rotation motor 13, realize the rotation of central shaft, thus realize the rotation of wheel disc 3.

Working method: described either-rotation motor 13 drives rotating disk 3 to rotate to a direction, until drive block 31 stops through after cutting cube 6 one segment distance of vertical direction, rotate backward again, drive block 31 can move to cutting cube 6 through horizontal direction to complete the cut-out of enamel-covered wire through the cutting cube 6 of vertical direction again always, last either-rotation motor 13 can reverse reset again, drive block 31 again second time, through the cutting cube 6 of horizontal direction, this completes whole cutting-off process.

Claims (10)

1. a shearing device for enamel-covered wire, is characterized in that: comprise the mounting disc (1) of an opening, be arranged on the wheel disc (3) in mounting disc (1) and the cover plate (5) for closed mounting disc (1) opening; Described cover plate (5) and mounting disc (1) are on same central axis, central shaft (2) by a central through hole in described mounting disc (1) is rotationally connected wheel disc (3), and described mounting disc (1) also arranges the driving mechanism (4) for driving wheel disc (3) to rotate outward; Described wheel disc (3) is arranged 2 drive blocks (31), the shortest route between 2 drive blocks (31) is through the center of circle of wheel disc (3), described cover plate (5) is offered four guide grooves (51) of line circumference array distribution centered by the axis of cover plate (5), each described guide groove (51) arranges a cutting cube (6) respectively, under the drive that described drive block (31) rotates at wheel disc (3), drive cutting cube (6) to move to the direction, the center of circle of wheel disc (3), and drive a pair cutting cube (6) in horizontal direction or on vertical direction to move simultaneously.

2. by the shearing device of a kind of enamel-covered wire according to claim 1, it is characterized in that: arc surface A(32 is offered in the lower surface of described drive block (31) in the one side of cutting cube (6)), described arc surface A(32) comprise circular arc side (321) and circular arc front (322).

3. by the shearing device of a kind of enamel-covered wire according to claim 2, it is characterized in that: the upper end of described cutting cube (6) arranges the arc surface A(32 of corresponding drive block (31)) offer corresponding arc surface B(64), described cutting cube (6) is also arranged the mounting groove (61) being used for being arranged in the guide groove (51) of cover plate (5), dress tool bore (65) is offered in the bottom of cutting cube (6), dress tool bore (65) interior mounting cutter (7), the upside of described dress tool bore (65) and a left side, right both sides arrange screwed hole (62) all respectively, the bolt (63) being used for fixed cutting tool (7) is set in screwed hole (62).

4. by the shearing device of a kind of enamel-covered wire according to claim 3, it is characterized in that: the upper back-moving spring (8) arranged for driving cutting cube (6) to reset of guide groove (51) of described cover plate (5).

5. by the shearing device of a kind of enamel-covered wire according to claim 4, it is characterized in that: described wheel disc (3) is toothed disc, the breach (11) for exposing wheel disc (3) is offered in described mounting disc (1) side, described driving mechanism (4) comprises and wheel disc (3) meshed gears block (41), cluster gear (41) is outside equipped with shell (44), shell (44) inwall is arranged stopper slot (43), the side of cluster gear (41) connects guide rod (42), and the other end of described guide rod (42) is arranged in stopper slot (43); The upper end of described cluster gear (41) connects the hydraulic cylinder (45) being used for the upper and lower rectilinear motion of driven wheel block (41).

6. by the shearing device of a kind of enamel-covered wire according to claim 1, it is characterized in that: described drive block (31) drives cutting cube (6) to move to the direction, the center of circle of wheel disc (3) by attaching parts (9); Described attaching parts (9) comprise the fixed block (91) be fixedly connected with cover plate (5), the screw rod (92) be threaded with described fixed block (91), described screw rod (92) lower end connects quincuncial revolving part (93), the another side of described revolving part (93) is connected and fixed bar (95), described fixed bar (95) and screw rod (92) remain on same central axis, and described fixed bar (95) connects cutting cube (6) by ball bearing (94) again; Described drive block (31) is upper arrange corresponding with revolving part (93) for stirring the circular arc projection (33) that revolving part (93) rotates.

7. by the shearing device of a kind of enamel-covered wire according to claim 6, it is characterized in that: described cutting cube (6) comprises and is arranged at cover plate (5) block outward (66), described block (66) is arranged the connecting plate (67) that passes guide groove (51), described connecting plate (67) is connected on ball bearing (94); Described connecting plate (67), in its direction of motion, can move around in guide groove (51).

8. by the shearing device of a kind of enamel-covered wire according to claim 7, it is characterized in that: described block (66) arranges cutter (7) towards the side in wheel disc (3) center of circle, the distance in cutter (7) distance wheel disc (3) center of circle in horizontal direction is different from the distance in cutter (7) distance wheel disc (3) center of circle on vertical direction.

9. by the shearing device of a kind of enamel-covered wire according to claim 8, it is characterized in that: described driving mechanism (4) comprises and is arranged on conical tooth wheels (12) on central shaft (2) and either-rotation motor (13).

10. by the shearing device of a kind of enamel-covered wire according to claim 9, it is characterized in that: described either-rotation motor (13) drives rotating disk (3) to rotate to a direction, until drive block (31) stops through after cutting cube (6) segment distance of vertical direction, rotate backward again, drive block (31) can carry out the cut-out of enamel-covered wire again through the cutting cube (6) of the vertical direction cutting cube (6) moved to through horizontal direction always, last either-rotation motor (13) can reverse reset again, drive block (31) again second time passes the cutting cube (6) of horizontal direction, this completes whole cutting-off process.