CN103390972A - Automatic compacting and stacked dimension sorting machine for iron cores of stator and rotor of micro motor - Google Patents

Abstract

The invention discloses an automatic compacting and stacked dimension sorting machine for iron cores of a stator and a rotor of a micro motor and belongs to the technical field of auxiliary devices for micro motor production. The machine is technically characterized by comprising a support, wherein a pressing die device is arranged on the support; an upper pressing die is connected to the bottom of a movable pressing seat of the pressing die device; a lower die plate matched with the upper pressing die is arranged on the pressing die device below the upper pressing die; a feed base plate and a material sorting and pushing mechanism are arranged on the support on the side edge of the lower die plate; a blanking mechanism is arranged above the feed base plate; a feed pushing mechanism is arranged on the outer side of the feed base plate; a material distribution and storage plate is arranged on the other side of lower die plate corresponding to the material sorting and pushing mechanism; and a detection device is arranged on the movable pressing seat. The automatic compacting and stacked dimension sorting machine for the iron cores of the stator and the rotor of the micro motor is compact in structure and high in work efficiency and automation degree, and is used for automatically compacting and sorting the rotor and the stator.

Description

The automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector

Technical field

The present invention relates to a kind of motor production auxiliary equipment, more particularly, relate in particular to the automatic compacting of a kind of micromotor stator rotor core and folded thick size automatic fraction collector.

Background technology

Existing high velocity ram machine punching micromotor stator, rotor core carry out calculated thickness by rotor stator sheet number, but the problem in space often appears between sheet having, because being arranged between iron plate uneven thickness and sheet, space causes the iron core variable thickness, therefore motor stator, rotor core need carry out further compacting and size separation, and the compacting of existing motor stator, rotor core and size separation are all to be divided into the compacting of stator core and compacting and two equipment of sorting two procedures of sorting and rotor core are completed.At first be transported to stator compacting and sorting board from high velocity ram machine punching micromotor stator core stamping, again stator core is put on compacting lathe mould Tony, right push switch, lathe presses down and return automatically, stator core after the taking-up compacting, then take respectively upper and lower bound two isometry blocks and relatively carry out sorting thickness; Be transported to rotor compacting and sorting board from high velocity ram machine punching micro-motor rotor core stamping equally, again rotor core is put on compacting lathe mould Tony, right push switch, lathe presses down and return automatically, rotor core after the taking-up compacting, then take respectively upper and lower bound two isometry blocks and relatively carry out sorting thickness.Need do like this two cover order and transhipment time and operations, needing increases by two equipment, repeats to pick and place stator and push switch, has both increased labour intensity and processing cost, while producing compacting again to operator's potential safety hazard and problems such as waste equipment and the energy.

Summary of the invention

The object of the invention is to for above-mentioned the deficiencies in the prior art, provide a kind of compact conformation, operating efficiency and automaticity high, can automatically realize the automatic compacting of micromotor stator rotor core and the folded thick size automatic fraction collector of rotor and the automatic compacting of stator and sorting.

Technical scheme of the present invention is achieved in that the automatic compacting of a kind of micromotor stator rotor core and folded thick size automatic fraction collector, comprise bearing, wherein said bearing is provided with die arrangement, the movable wedge bottom of described die arrangement is connected with the top die corresponding with stator core and rotor core, is provided with the lower bolster that matches with top die on the die arrangement below top die; Be provided with the charging base plate on the bearing of lower bolster side, be provided with blanking mechanism above charging base plate side, at the charging plate outer side, be provided with the charging pusher, described charging pusher is connected with controller; Also be provided with the sorting pusher at the lower bolster side, the lower bolster opposite side corresponding at the sorting pusher is provided with the sub-material memory plane, and described sorting pusher is connected with controller circuitry; Stator core after being provided with the detection compacting on movable wedge or the checkout gear of rotor core thickness, described checkout gear is connected with controller circuitry.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described sub-material memory plane side is provided with the discharging pusher, and the sub-material memory plane side in described discharging pusher the place ahead is provided with the groove that connects material; Described discharging pusher is connected with controller circuitry.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described blanking mechanism is two deflector chutes that are connected with outside punch press, two corresponding stator core and rotor cores carried of deflector chute difference.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described charging base plate is provided with the photoelectric sensor relative with blanking mechanism, and described photoelectric sensor is connected with controller circuitry.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described charging pusher mainly forms by being arranged on the charging cylinder on the charging base plate and being connected to the free-ended scraping wings of feeding gas cylinder piston rod; Described charging base plate is provided with the rotor locating notch of the strip that adapts with rotor core, at the peristome of rotor locating notch, is provided with the stator locating notch that adapts with stator core.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described scraping wings two side bottoms along its length are provided with lead, are provided with the gathering sill that adapts with lead on the charging base plate.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described sorting pusher mainly by being fixed on sorting cylinder on bearing, be connected to the free-ended sorting push pedal of sorting cylinder piston rod and the travel switch that is disposed on the sorting cylinder forms; Described each travel switch is connected with controller circuitry; Described sorting push pedal by connecting plate, be arranged on connecting plate wherein the stator core push pedal of a side and the rotor core push pedal that is arranged on the connecting plate opposite side form, described stator core push pedal and rotor core push pedal are staggered.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described top die is comprised of top board and the rotor core lead and the stator core lead that are arranged on the top board bottom; Described rotor core lead and stator core lead interval arrange, and described rotor core lead and stator core lead free end are equipped with tapering; Described lower bolster is provided with the pilot hole corresponding with rotor core lead and stator core lead difference.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described discharging pusher forms by being fixed on the discharging cylinder on bearing and being arranged on the free-ended discharging push pedal of discharging cylinder piston rod; The moving direction of described discharging cylinder is mutually vertical with the moving direction of sorting cylinder.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, described checkout gear mainly consists of two contour switches that cooperatively interact, and is provided with insulating barrier between contour switch and movable wedge; Described contour switch is by housing and be arranged in housing and the back-moving spring and the T shape movable head that cooperatively interact form, and described housing is provided with the pilot hole that adapts with T shape movable head; Described T shape movable head is relative with lower bolster, and described contour switch is connected circuit and is connected controller with lower bolster.

In the above-mentioned automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, be equipped with rubber blanket on described charging pusher, sorting pusher and discharging pusher and stator core and the contacted end face of rotor core.

After the present invention adopts said structure, by die arrangement is set on bearing, and the lead that adapts of cooperation and rotor and stator, can realize that rotor and stator are at the same time in the situation of compacting, the punching of making rotor and stator is not subjected to displacement, thereby guarantee perpendicularity and the concentricity of rotor core and stator core, Improving The Quality of Products; Simultaneously, by two contour switches bound of detection rotors or stator thickness respectively, then controls the stroke of sorting cylinder in the sorting pusher by controller, the purpose that the rotor of three kinds of different-thickness and stator are classified in realization; Further,, by stator core push pedal and rotor core push pedal is staggered, can realize that when rotor and stator are on being pushed to the sub-material memory plane be staggered, in the time of so just can realizing final discharging, rotor and stator automatic separates conveying.The present invention have safety, reliable, save time, the labour-saving advantage, greatly enhance productivity, reduce energy loss.

Description of drawings

The present invention is described in further detail below in conjunction with the embodiment in accompanying drawing, but do not form any limitation of the invention.

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of cope match-plate pattern of the present invention;

Fig. 3 be in Fig. 1 A-A to the sectional structure schematic diagram;

Fig. 4 is the structural representation of the contour switch of the present invention;

Fig. 5 is the structural representation of scraping wings of the present invention;

Fig. 6 is the structural representation of sorting push pedal of the present invention.

in figure: bearing 1, die arrangement 2, movable wedge 2a, top die 3, top board 3a, rotor core lead 3b, stator core lead 3c, lower bolster 4, pilot hole 4a, charging base plate 5, photoelectric sensor 5a, gathering sill 5b, blanking mechanism 6, deflector chute 6a, charging pusher 7, charging cylinder 7a, scraping wings 7b, rotor locating notch 7c, stator locating notch 7d, lead 7e, sorting pusher 8, sorting cylinder 8a, sorting push pedal 8b, travel switch 8c, connecting plate 8d, stator core push pedal 8e, rotor core push pedal 8f, sub-material memory plane 9, discharging pusher 10, discharging cylinder 10a, discharging push pedal 10b, groove 11 connects material, checkout gear 12, contour switch 13, housing 13a, back-moving spring 13b, T shape movable head 13c.

Embodiment

Consult Fig. 1 to shown in Figure 3, the automatic compacting of a kind of micromotor stator rotor core of the present invention and folded thick size automatic fraction collector, comprise bearing 1, be provided with die arrangement 2 on bearing 1, described die arrangement 2 is mainly reached the Hydraulic Station that is connected with the hydraulic cylinder pipeline and is formed by frame, the hydraulic cylinder that is arranged on frame top, the movable wedge 2a that is connected with hydraulic cylinder piston rod, and this structure is also the conventional structure of this area die arrangement; The movable wedge 2a bottom of described die arrangement 2 is connected with the top die corresponding with stator core and rotor core 3, is provided with the lower bolster 4 that matches with top die 3 on the die arrangement 2 below top die 3; Described top die 3 is comprised of top board 3a and the rotor core lead 3b and the stator core lead 3c that are arranged on top board 3a bottom; Described rotor core lead 3b and stator core lead 3c interval arrange, described rotor core lead 3b and stator core lead 3c free end are equipped with tapering, the effect in tapering is mainly the effect of playing guiding and correcting, and makes the contraposition rapidly and accurately of rotor core and stator core enter each corresponding lead; Described lower bolster 4 is provided with the pilot hole 4a corresponding with rotor core lead 3b and stator core lead 3c difference.The setting of lead, can prevent effectively that the displacement of punching from appearring in rotor core and stator core when pressing mold, guarantees the quality of product.

be provided with charging base plate 5 on the bearing 1 of lower bolster 4 sides, be provided with blanking mechanism 6 above charging base plate 5 sides, in charging base plate 5 outsides, be provided with charging pusher 7, described charging pusher 7 is connected with controller, particularly, the charging pusher described in the present embodiment 7 mainly forms by being arranged on the charging cylinder 7a on charging base plate 5 and being connected to the free-ended scraping wings 7b of charging cylinder 7a piston rod, consult shown in Figure 5, described charging base plate 7b is provided with the rotor locating notch 7c of the strip that adapts with rotor core, peristome at rotor locating notch 7c is provided with the stator locating notch 7d that adapts with stator core, distance between distance between described rotor locating notch 7c and stator locating notch 7d and rotor core lead 3b and stator core lead 3c adapts, namely when scraping wings 7b pusher during to pre-determined bit, rotor core lead 3b is just relative with the rotor core endoporus in rotor locating notch 7c, stator core lead 3c is just relative with the stator core endoporus in stator locating notch 7d simultaneously.Further,, for guaranteeing the rectilinear motion of scraping wings 7b, guarantee the exactitude position of pressing mold, at scraping wings 7b two side bottoms along its length, be provided with lead 7e, be provided with the gathering sill 5b that adapts with lead 7e on charging base plate 5.The overall structure that in the present embodiment, lower bolster 4 and charging base plate 5 are formed in one.

In addition, the blanking mechanism 6 described in the present embodiment is two deflector chute 6a that are connected with outside punch press, two corresponding stator core and rotor cores carried of deflector chute 6a difference.Simultaneously, be provided with the photoelectric sensor 5a relative with blanking mechanism 6 on charging base plate 5, the photoelectric sensor 5a in the present embodiment has two, and two photoelectric sensor 5a are relative with two deflector chute 6a respectively, and described photoelectric sensor 5a is connected with controller circuitry.Whether have convey materials to charging base plate 5, when two photoelectric sensor 5a had detected material simultaneously, controller just started charging cylinder 7a charging if by photoelectric sensor 5a, detecting deflector chute 6a.

Simultaneously, at lower bolster 4 sides, also be provided with sorting pusher 8, sorting pusher 8 is connected with controller circuitry, at lower bolster 4 opposite sides of sorting pusher 8 correspondences, is provided with sub-material memory plane 9.Sorting pusher 8 described in the present embodiment mainly by being fixed on sorting cylinder 8a on bearing 1, be connected to sorting cylinder 8a piston rod free-ended sorting push pedal 8b and the travel switch 8c that is disposed on sorting cylinder 8a forms; The direction of advance of the direction of advance of described sorting cylinder 8a and charging cylinder 7a is perpendicular; Described each travel switch 8c is connected with controller circuitry; Consult shown in Figure 6, described sorting push pedal 8b by connecting plate 8d, wherein the stator core push pedal 8e of a side and the rotor core push pedal 8f that is arranged on connecting plate 8d opposite side form to be arranged on connecting plate 8d, described stator core push pedal 8e and rotor core push pedal 8f are staggered, staggered, in order to make rotor core and stator core on arriving the sub-material memory plane time, can misplace, be positioned at different positions, convenient follow-up product classification.For realizing automatic sorting, the stator core after being provided with the detection compacting on movable wedge 2a or the checkout gear 12 of rotor core thickness, described checkout gear 12 is connected with controller circuitry.Checkout gear 12 described in the present embodiment mainly consists of two contour switches 13 that cooperatively interact, and is provided with insulating barrier between contour switch 13 and movable wedge 2a; Consult shown in Figure 4ly, described contour switch 13 is by housing 13a and be arranged in housing 13a and the back-moving spring 13b and the T shape movable head 13c that cooperatively interact form, and described housing 13a is provided with the pilot hole 13d that adapts with T shape movable head 13c; Described T shape movable head 13c is relative with lower bolster 4, and described contour switch 13 is connected respectively circuit and is connected controller with lower bolster.

Two contour switches 13 in the present embodiment are according to concrete thickness requirement, the bound that is arranged on standard thickness is any position of deviation a little, for example, each punching press iron core thickness requirement out is 30mm, the thickness of every a slice punching is 0.5mm, the contour switch 13 of the upper limit is arranged on the position of 30.3mm, the contour switch 13 of lower limit is arranged on the position of 29.7mm.Form loop output signal by T shape movable head 13c with contacting of lower bolster 4, complete detection., due to rotor core and the stator core out of punching press each time, be by the punching punching of same position out, so its thickness is the same substantially.Its type of detection of the present embodiment has three kinds: the first is there is no signal, represents rotor core and the stator core multi-disc of this punching press, and thickness is thicker; The second is to only have a signal, and namely the contour switch 13 of the upper limit contacts with lower bolster 4, represents that the rotor core of this punching press and stator core are qualified; The third is that two signals are arranged, and namely the contour switch 13 of upper and lower limit all contacts with lower bolster 4, represents rotor core and the few sheet of stator core of this punching press, thinner thickness.Correspondingly, travel switch 8c on sorting cylinder 8a also has three, respectively corresponding three kinds of different situations, the product of three types is pushed into respectively three diverse locations of sub-material memory plane 9, for convenience of staff's operation, can mark off three zones and put on sign on sub-material memory plane 9, to facilitate, distinguish three series products, prevent from makeing mistakes.

For realizing self-emptying, be provided with discharging pusher 10 at sub-material memory plane 9 sides, described discharging pusher 10 is connected with controller circuitry, and sub-material memory plane 9 sides in described discharging pusher 10 the place aheads are provided with the groove 11 that connects material.Described discharging pusher 10 forms by being fixed on the discharging cylinder 10a on bearing 1 and being arranged on the free-ended discharging push pedal of discharging cylinder 10a piston rod 10b; The moving direction of described discharging cylinder 10a is mutually vertical with the moving direction of sorting cylinder 8a.Driving the product of discharging push pedal 10b after with compacting by discharging cylinder 10a is pushed in the groove 11 that connects material from sub-material memory plane 9.

In the present embodiment, charging pusher 7, sorting pusher 8 and discharging pusher are connected and being connected of controller, namely refer to be arranged on being connected of electromagnetically operated valve and controller between each cylinder and external compression air-source, certainly, can be also other electrically-controlled valve commonly used of this area and being connected of controller.

Simultaneously, for in whole compacting assorting room, both reduced noise, guarantee that again product is not damaged by collision, being equipped with rubber blanket 15 on charging pusher 7, sorting pusher 8 and discharging pusher 10 and stator core and the contacted end face of rotor core, is namely to be equipped with rubber blanket on scraping wings 7b, stator core push pedal 8e, rotor core push pedal 8f and discharging push pedal 10b and stator core and/or the contacted end face of rotor core.

during work, rotor core and the stator core good by the high velocity ram machine punching press are delivered on charging base plate 5 by deflector chute 6a respectively, when two photoelectric sensor 5a have detected object simultaneously, starting charging cylinder 7a pushes to rotor core and stator core in die arrangement 2, die arrangement 2 drives top die 3 and has pressed down the automatic pressing positive activity, when completing automatic compacting, checkout gear 12 is delivered to controller with detection signal, controller starts sorting push pedal 8b by default order and rotor core and stator core is pushed to the precalculated position of sub-material memory plane 9, and then startup discharging push pedal 10b pushes to rotor core and stator core in the groove 11 that connects material.Operating personnel, according to connect material product in groove 11 of difference, carry out follow-up different processing.

Above-described embodiment is the better execution mode of the present invention; but embodiments of the present invention are not restricted to the described embodiments; and other any do not deviate from change, the modification done under Spirit Essence of the present invention and principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, within being included in protection scope of the present invention.

Claims (11)

1. the automatic compacting of micromotor stator rotor core and folded thick size automatic fraction collector, comprise bearing (1), it is characterized in that, described bearing (1) is provided with die arrangement (2), movable wedge (2a) bottom of described die arrangement (2) is connected with the top die corresponding with stator core and rotor core (3), is provided with the lower bolster (4) that matches with top die (3) on the die arrangement (2) of top die (3) below; Be provided with charging base plate (5) on the bearing (1) of lower bolster (4) side, be provided with blanking mechanism (6) in charging base plate (5) side top, be provided with charging pusher (7) in charging base plate (5) outside, described charging pusher (7) is connected with controller; Also be provided with sorting pusher (8) at lower bolster (4) side, lower bolster (4) opposite side corresponding at sorting pusher (8) is provided with sub-material memory plane (9), and described sorting pusher (8) is connected with controller circuitry; Stator core after being provided with the detection compacting on movable wedge (2a) or the checkout gear (12) of rotor core thickness, described checkout gear (12) is connected with controller circuitry.

2. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, described sub-material memory plane (9) side is provided with discharging pusher (10), and sub-material memory plane (9) side in described discharging pusher (10) the place ahead is provided with the groove that connects material (11); Described discharging pusher (10) is connected with controller circuitry.

3. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, described blanking mechanism (6) is two deflector chutes (6a) that are connected with outside punch press, and two deflector chutes (6a) are corresponding stator core and the rotor core carried respectively.

4. the according to claim 1 or 3 automatic compactings of described micromotor stator rotor core and folded thick size automatic fraction collector, it is characterized in that, described charging base plate (5) is provided with the photoelectric sensor (5a) relative with blanking mechanism (6), and described photoelectric sensor (5a) is connected with controller circuitry.

5. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, described charging pusher (7) mainly forms by being arranged on the charging cylinder (7a) on charging base plate (5) and being connected to the free-ended scraping wings of charging cylinder (7a) piston rod (7b); Described charging base plate (7b) is provided with the rotor locating notch (7c) of the strip that adapts with rotor core, at the peristome of rotor locating notch (7c), is provided with the stator locating notch (7d) that adapts with stator core.

6. the automatic compacting of micromotor stator rotor core according to claim 5 and folded thick size automatic fraction collector, it is characterized in that, described scraping wings (7b) two side bottoms along its length are provided with lead (7e), are provided with the gathering sill (5b) that adapts with lead (7e) on charging base plate (5).

7. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, described sorting pusher (8) mainly by being fixed on sorting cylinder (8a) on bearing (1), be connected to sorting cylinder (8a) the free-ended sorting push pedal of piston rod (8b) and the travel switch (8c) that is disposed on sorting cylinder (8a) forms; Described each travel switch (8c) is connected with controller circuitry; Described sorting push pedal (8b) by connecting plate (8d), be arranged on connecting plate (8d) wherein the stator core push pedal (8e) of a side and the rotor core push pedal (8f) that is arranged on connecting plate (8d) opposite side form, described stator core push pedal (8e) and rotor core push pedal (8f) are staggered.

8. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, described top die (3) is comprised of top board (3a) and the rotor core lead (3b) and the stator core lead (3c) that are arranged on top board (3a) bottom; Described rotor core lead (3b) and stator core lead (3c) interval arrange, and described rotor core lead (3b) and stator core lead (3c) free end are equipped with tapering; Described lower bolster (4) is provided with the pilot hole (4a) corresponding with rotor core lead (3b) and stator core lead (3c) difference.

9. the automatic compacting of micromotor stator rotor core according to claim 7 and folded thick size automatic fraction collector, it is characterized in that, described discharging pusher (10) forms by being fixed on the discharging cylinder (10a) on bearing (1) and being arranged on discharging cylinder (10a) the free-ended discharging push pedal of piston rod (10b); The moving direction of described discharging cylinder (10a) is mutually vertical with the moving direction of sorting cylinder (8a).

10. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, described checkout gear (12) mainly consists of two contour switches (13) that cooperatively interact, and is provided with insulating barrier between contour switch (13) and movable wedge (2a); Described contour switch (13) is by housing (13a) and be arranged in housing (13a) and the back-moving spring (13b) and the T shape movable head (13c) that cooperatively interact form, and described housing (13a) is provided with the pilot hole (13d) that adapts with T shape movable head (13c); Described T shape movable head (13c) is relative with lower bolster (4), and described contour switch (13) is connected 4 with lower bolster) difference circuit connection controller.

11. the automatic compacting of micromotor stator rotor core according to claim 1 and folded thick size automatic fraction collector, it is characterized in that, be equipped with rubber blanket on described charging pusher (7), sorting pusher (8) and discharging pusher (10) and stator core and the contacted end face of rotor core.

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