CN203581944U - Turntable pick-up type automatic turn-over device for soft magnetic ferrite cores - Google Patents

Abstract

The utility model discloses a turntable pick-up type automatic turn-over device for soft magnetic ferrite cores. A feed conveying belt mechanism and a discharge conveying belt mechanism are both mounted above a turning turntable mechanism and are mounted in a central symmetry mode relative to the center of a turning turntable, a main shaft of a torque motor is fixedly connected with the turning turntable, a circle of inner convex edge and a circle of outer convex edge are arranged on the round turning turntable, finger track grooves are formed between the inner convex edge and the outer convex edge, permanent magnets are mounted on the inner side of a discharge conveying belt, the three permanent magnets with magnetism reduced gradually are arranged on the discharge conveying belt, a pick-up finger is located on the outer side of the material getting inclined face of the discharge conveying belt, a pick-up finger clearance is formed in a permanent magnetic top wheel projecting shaft, fingers are arranged on the lower portion of the pick-up finger, each finger is provided with a sliding piece, and the fingers stretch into the finger track grooves. According to the turntable pick-up type automatic turn-over device for the soft magnetic ferrite cores, the soft magnetic ferrite cores are automatically turned over and run in the same direction, automatic working of an onsite production line is facilitated, loss in the turn-over process is reduced effectively, and turn-over efficiency is improved.

Description

A kind of rotating disk is picked up formula soft magnetic ferrite magnetic core automatic turn-over device

Technical field

The utility model relates to a kind of automatic turn-over device, especially relates to a kind of rotating disk and picks up formula soft magnetic ferrite magnetic core automatic turn-over device.

Background technology

In industrial soft magnetic ferrite core production, soft magnetism raw material is repressed to be made after soft magnetic ferrite magnetic core blank, need to carry out two sides ground finish sizing to soft magnetic ferrite magnetic core blank.When online production, when soft magnetic ferrite magnetic core blank completes after one side grinding, need to carry out turn-over with grinding another side to product.Because soft magnetic ferrite is more crisp, traditional-handwork turn-over mechanism easily causes magnetic core fracture, unfilled corner, and poor reliability, efficiency are low.Only utilize permanent magnet absorption soft magnetic ferrite magnetic core contrary with feedstock direction to the mode discharging direction of discharging belt conveyor, charging and discharging discharging layout causes difficulty.

Summary of the invention

The shortcoming of large, the inefficiency of loss, layout difficulty when the utility model will solve conventional softer magnetic ferrites magnetic core ground finish turn-over, provide a kind of rotating disk to pick up formula soft magnetic ferrite magnetic core automatic turn-over device, when one side grinding completes, utilize rotating disk to realize soft magnetic ferrite magnetic core and turn to, utilize to pick up and refer to pick up soft magnetic ferrite magnetic core from rotating disk, to discharging belt conveyor, realize soft magnetism automatic turnover and move in the same way with permanent magnet absorption soft magnetic ferrite magnetic core.

The technical solution of the utility model comprises:

The utility model device comprises soft magnetic ferrite magnetic core, feed conveyor belt mechanism, turns to rotating disk mechanism, discharging conveyer mechanism, feed conveyor belt frame, turn to rotating disk frame, discharging belt conveyor frame; Feed conveyor belt mechanism, turn to rotating disk mechanism, discharging conveyer mechanism to be separately fixed at feed conveyor belt frame, turn to rotating disk frame, in discharging belt conveyor frame, feed conveyor belt mechanism discharge end and discharging conveyer mechanism feed end are installed in and turn to rotating disk mechanism top, and the discharging conveyer mechanism being parallel to each other and feed conveyor belt mechanism turn to the installation that is centrosymmetric of the rotating disk center of circle with what turn to rotating disk mechanism;

Feed conveyor belt mechanism: the soft magnetic ferrite magnetic core of array arrangement is placed in the feed conveyor belt of feed conveyor belt mechanism, the discharge end of feed conveyor belt mechanism is provided with downward-sloping feed conveyor belt discharging inclined-plane;

Turn to rotating disk mechanism: comprise and turn to rotating disk, torque motor, carousel supports cover and rotating disk frame; Torque motor is fixed on and turns in rotating disk frame, the main shaft of torque motor upper end is fixedly connected with turning to rotating disk through carousel supports cover, the circular rotating disk inner periphery that turns to is provided with the interior convex edge of a ring shape, turn to rotating disk excircle to be provided with the outer convex edge of a ring shape, between He Wai convex edge, interior convex edge turn to rotating disk circumference be provided with annular along turn to rotating disk spaced radial uniform pick up finger orbital groove, turn to rotating disk to be close to feed conveyor belt discharging inclined-plane bottom surface;

Discharging conveyer mechanism: comprise discharging belt conveyor, permanent magnetism top wheel, permanent magnetism track adjusting wheel, the first permanent magnet erecting frame, permanent magnet, the second permanent magnet erecting frame, the first permanent magnet, the second permanent magnet and the 3rd permanent magnet;

The feed end of discharging conveyer mechanism is provided with acclivitous discharging belt conveyor feeding inclined-plane, be positioned on discharging belt conveyor feeding inclined-plane, the belt wheel of downside is respectively permanent magnetism top wheel, permanent magnetism track adjusting wheel, discharging belt conveyor inner side between permanent magnetism top wheel and permanent magnetism track adjusting wheel is provided with permanent magnet by the first permanent magnet erecting frame, near transmission plane inner side on the discharging belt conveyor of permanent magnetism top wheel, be provided with the second permanent magnet erecting frame, on the second permanent magnet erecting frame, along discharging belt conveyor direction of transfer, be provided with the permanent magnet that three magnetic reduce successively, three permanent magnets are respectively the first permanent magnet, the second permanent magnet and the 3rd permanent magnet, the Magnetic Phase of the first permanent magnet and permanent magnetism top wheel is same,

Pick up and pick up finger: pick up and pick up the outside, discharging belt conveyor feeding inclined-plane that refers to be located at discharging conveyer mechanism feed end, pick up to pick up and refer to that the mounting hole gap of stretching out on sheet by both sides, top is arranged on the wheel projecting shaft of permanent magnetism top, pick up ten finger lower ends be provided with turn to rotating disk on pick up refer to orbital groove quantity identical and uniformly at intervals pick up finger, each finger that picks up is provided with and the slide of reverse bending, pick up to refer to extend into and turn to picking up of rotating disk to refer in orbital groove, slide contacts with the bottom surface of picking up finger orbital groove that turns to rotating disk.

The transfer rate of described feed conveyor belt mechanism equates with the linear velocity that turns to the upper outside convex edge of rotating disk, and the transfer rate of described discharging conveyer mechanism is more than or equal to the linear velocity that turns to the upper outside convex edge of rotating disk.

Described torque motor is fixed on and is turned in rotating disk frame by motor fix screw, and torque motor upper end main shaft is fixedly connected with carousel supports cover by holding screw.

Described soft magnetic ferrite magnetic core is formed by the compacting of soft magnetic ferrite magnetic core press.

Described adjacent picking up refers to that the spacing of orbital groove is less than the half of soft magnetic ferrite magnetic core bond length.

The described mounting hole that stretches out sheet in ten finger both sides of picking up is axially installed on the wheel projecting shaft of permanent magnetism top by jump ring.

Described pick up to pick up refer to that the discharging that is greater than described soft magnetic ferrite magnetic core with the gap on discharging belt conveyor feeding inclined-plane requires gap.

The beneficial effects of the utility model are:

The utility model device is realized the multiple while automatic turnovers of soft magnetic ferrite magnetic core operation in the same way, facilitates the automatic layout processing of produced on-site line, and the loss in effective less turn-over process, improves turn-over efficiency simultaneously.

Accompanying drawing explanation

Fig. 1 is birds-eye view of the present utility model.

Fig. 2 is Tu1Zhong feed conveyor belt mechanism and turns to the A of rotating disk to view.

Fig. 3 is feed conveyor belt mechanism discharge end and the part sectional view that turns to rotating disk.

Fig. 4 be in Fig. 1 discharging conveyer mechanism with turn to the B of rotating disk to view.

Fig. 5 is the part sectional view in C region in Fig. 4.

Fig. 6 picks up the birds-eye view that picks up finger.

Fig. 7 picks up the lateral plan that picks up finger.

Fig. 8 be in Fig. 4 D to part sectional view.

In figure: 1, soft magnetic ferrite magnetic core press, 2, soft magnetic ferrite magnetic core, 3, feed conveyor belt mechanism, 4, the first grinding bed, 5, turn to rotating disk mechanism, 6, discharging conveyer mechanism, 7, the second grinding bed, 8, feed conveyor belt frame, 9, turn to rotating disk frame, 10, the first connecting panel, 11, turn to rotating disk, 12, holding screw, 13, carousel supports cover, 14, feed conveyor belt discharging inclined-plane, 15, torque motor, 16, motor fix screw, 17, charging side plate, 18, feed conveyor belt, 19, tension wheel, 20, track adjusting wheel, 21, discharging inclined-plane side plate captive nut, 22, interior convex edge, 23, outer convex edge, 24, top wheel, 25, pick up finger orbital groove, 26, pick up and pick up finger, 27, discharging panel, 28, discharging belt conveyor frame, 29, the second connecting panel, 30, discharging side plate, 31, discharging belt conveyor, 32, permanent magnetism track adjusting wheel, 33, permanent magnet, 34, the first permanent magnet erecting frame, 35, pick up plane permanent magnetic top wheel, 36, the first permanent magnet, 37, the second permanent magnet erecting frame, 38, the second permanent magnet, 39, the 3rd permanent magnet, 40, mounting hole, 41, pick up finger, 42, slide, 43, jump ring, 44, ball bearing of main shaft and bearing seat, 45, fix screw.

The specific embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

As shown in Figure 1, the utility model device comprises soft magnetic ferrite magnetic core 2, feed conveyor belt mechanism 3, turns to rotating disk mechanism 5, discharging conveyer mechanism 6, feed conveyor belt frame 8, turns to rotating disk frame 9, discharging belt conveyor frame 28, feed conveyor belt mechanism 3, turn to rotating disk mechanism 5, discharging conveyer mechanism 6 is separately fixed at feed conveyor belt frame 8, turn to rotating disk frame 9, in discharging belt conveyor frame 28, feed conveyor belt mechanism 3 discharge ends and discharging conveyer mechanism 6 feed ends are installed in and turn to rotating disk mechanism 5 tops, the discharging conveyer mechanism 6 being parallel to each other and feed conveyor belt mechanism 3 turn to the installation that is centrosymmetric of rotating disk 11 centers of circle with what turn to rotating disk mechanism 5, discharging conveyer mechanism 6 is identical with the direction of transfer of feed conveyor belt mechanism 3, feed conveyor belt frame 8, turn between rotating disk frame 9 and be mutually permanently connected by the first connecting panel 10, discharging belt conveyor frame 28, turn between rotating disk frame 9 and be mutually permanently connected by the second connecting panel 29.

As shown in Figure 2, feed conveyor belt mechanism 3:

The soft magnetic ferrite magnetic core 2 that uniform array is arranged is placed in the feed conveyor belt 18 of feed conveyor belt mechanism 3, and the discharge end of feed conveyor belt mechanism 3 is provided with downward-sloping feed conveyor belt discharging inclined-plane 14; The upper end on feed conveyor belt discharging inclined-plane 14 is provided with top wheel 24, lower end is provided with tension wheel 19 and track adjusting wheel 20,14 both sides, feed conveyor belt discharging inclined-plane are equipped with charging side plate 17, top wheel 24, tension wheel 19 and track adjusting wheel 20 are supported between the charging side plate 17 of both sides, and charging side plate 17 is fixedly mounted in feed conveyor belt frame 8 by discharging inclined-plane side plate captive nut 21.

As shown in Figure 2 and Figure 3, turn to rotating disk mechanism 5:

Comprise and turn to rotating disk 11, torque motor 15, carousel supports cover 13 and rotating disk frame 9; Torque motor 15 is fixed on and turns in rotating disk frame 9, the main shaft of torque motor 15 upper ends is fixedly connected with the circular rotating disk 11 that turns to through carousel supports cover 13 after turning to rotating disk frame 9, turn to rotating disk 11 inside circumference to be provided with the interior convex edge 22 of a ring shape, turn to rotating disk 11 outer circumference to be provided with the outer convex edge 23 of a ring shape, between 22He Wai convex edge, interior convex edge 23, turn to rotating disk 11 circumference to be provided with multiple edges to turn to uniform annular the picking up of rotating disk 11 spaced radials to refer to orbital groove 25, turn to rotating disk 11 to be close to feed conveyor belt discharging inclined-plane 14 bottom surfaces; Interior convex edge, outer convex edge prevent that soft magnetic ferrite magnetic core is from turning to rotating disk to drop;

As shown in Figure 4, Figure 5, discharging conveyer mechanism 6:

The feed end of discharging conveyer mechanism 6 is provided with acclivitous discharging belt conveyor feeding inclined-plane, successively from picking up finger 41, permanent magnetism track adjusting wheel 32, permanent magnet 33 to permanent magnetism top wheel 35 composition discharging belt conveyor feeding inclined-planes, be positioned on discharging belt conveyor feeding inclined-plane, the belt wheel of downside is respectively permanent magnetism top wheel 35, permanent magnetism track adjusting wheel 32, discharging belt conveyor 31 inner sides between permanent magnetism top wheel 35 and permanent magnetism track adjusting wheel 32 are provided with permanent magnet 33 by the first permanent magnet erecting frame 34, near transmission plane downside on the discharging belt conveyor 31 of permanent magnetism top wheel 35, be provided with the second permanent magnet erecting frame 37, on the second permanent magnet erecting frame 37, along discharging belt conveyor 31 direction of transfers, be provided with the permanent magnet that three magnetic reduce successively, three permanent magnets are respectively the first permanent magnet 36, the second permanent magnet 38 and the 3rd permanent magnet 39, the first permanent magnet 36 is same with the Magnetic Phase of permanent magnetism top wheel 35,

In three permanent magnets, the first permanent magnet 36 magnetic are the strongest, and the second permanent magnet 38 takes second place, and the 3rd permanent magnet 39 magnetic are the most weak, for preventing, after soft magnetic ferrite magnetic core turn-over, on discharging belt conveyor, because magnetic attraction causes slippage, pile up.

The both sides of described discharging belt conveyor 31 are provided with discharging side plate 30, discharging side plate 30 is fixedly connected with discharging belt conveyor frame 28, between the discharging side plate 30 of discharging belt conveyor 31 two sides, be connected with discharging panel 27, the second permanent magnet erecting frame 37 is installed on discharging panel 27.

As shown in Figure 6, Figure 7, pick up and pick up finger 26:

Pick up to pick up and refer to that 26 are located at the outside, discharging belt conveyor feeding inclined-plane of discharging conveyer mechanism 6 feed ends, pick up to pick up and refer to that 26 refer to that by picking up to pick up mounting hole 40 gaps that stretch out on sheet 26 both sides, top are arranged on wheel 35 projecting shafts of permanent magnetism top, pick up pick up refer to 26 lower ends be provided with turn to rotating disk 11 on pick up and refer to that identical and the picking up uniformly at intervals of orbital groove 25 quantity refers to 41, each picking up refers to that 41 are provided with and the slide 42 of reverse bending, pick up and refer to that 41 extend into and turn to picking up of rotating disk 11 to refer in orbital groove 25, slide 42 contacts with the bottom surface of picking up finger orbital groove 25 that turns to rotating disk 11.Pick up to pick up and refer to that the finger that picks up stretching out turns to rotating disk to pick up in finger orbital groove in face of turning to rotary speed direction to stretch into, and picks up for soft magnetic ferrite magnetic core edge is picked up the plane of picking up that refers to move to discharging belt conveyor.

The transfer rate of described feed conveyor belt mechanism 3 equates with the linear velocity that turns to the upper outside convex edge 23 of rotating disk 11, and the transfer rate of described discharging conveyer mechanism 6 is more than or equal to the linear velocity that turns to the upper outside convex edge 23 of rotating disk 11.

Described torque motor 15 is fixed on and is turned in rotating disk frame 9 by motor fix screw 16, and the main shaft of torque motor 15 upper ends is fixedly connected with carousel supports cover 13 by holding screw 12.

Described soft magnetic ferrite magnetic core 2 is formed by 1 compacting of soft magnetic ferrite magnetic core press.In feed conveyor belt 18, there is the soft magnetic ferrite array of cores after compacting, one side ground finish.

Described adjacent picking up refers to that the spacing of orbital groove 25 is less than the half of soft magnetic ferrite magnetic core 2 bond length.

As shown in Figure 8, permanent magnetism track adjusting wheel 32 and permanent magnetism top wheel 35 are supported between the discharging side plate 30 of discharging belt conveyor 31 two sides, between discharging side plate 30 and permanent magnetism top wheel 35 projecting shafts, be provided with ball bearing of main shaft and bearing seat 44, bearing seat is fixing by fix screw 45, picks up to pick up to refer to that 26 both sides stretch out sheet and be enclosed within discharging side plate 30 outsides.Pick up to pick up and refer to that the mounting hole 40 that stretches out sheet in 26 both sides is axially installed on wheel 35 projecting shafts of permanent magnetism top by jump ring 43.Pick up to pick up and refer to that 26 mounting hole 40 and permanent magnetism top wheel 35 projecting shafts exist gap, therefore pick up to pick up and refer to that 26 do not follow wheel 35 rotations of permanent magnetism top.

Described pick up to pick up refer to that 26 dischargings that are greater than described soft magnetic ferrite magnetic core 2 with the gap on discharging belt conveyor feeding inclined-plane require gap.

Soft magnetic ferrite magnetic core 2 after the first grinding bed 4, turns to through 180 degree that turn to rotating disk mechanism 5 in feed conveyor belt mechanism 3, and then picking up on discharging conveyer mechanism 6 picked up and referred to 26 complete turn-over.

Turn to rotating disk by torque motor, driven and rotate with fixed speed, turn to rotating disk the first half to accept feed conveyor belt discharging inclined-plane discharging, turn to rotating disk blue band outer edge line speed, tangential direction consistent with feed rate, the direction of feed conveyor belt.

The feed end of discharging conveyer mechanism coordinates installation with turning to rotating disk the latter half, discharging belt conveyor discharging speed, direction and turn to rotating disk the latter half blue band outer edge line speed, tangential direction to coordinate, discharging conveyer mechanism feed end is designed with two permanent magnetism rollers, between permanent magnetism roller, be provided with and pick up plane, pick up below plane and be provided with and pick up permanent magnet.

In soft magnetic ferrite magnetic core 2 arrays, the number of every row soft magnetic ferrite magnetic core is less than to pick up and picks up the half that refers to orbital groove 25 quantity of picking up that refers to 26, to guarantee that FERRITE CORE can refer to 26 upward slidings along picking up pick up.

As Figure 1-Figure 8, concrete implementation process of the present utility model comprises:

As shown in Figure 1, soft magnetic ferrite magnetic core 2 arrays that are pressed into through soft magnetic ferrite magnetic core press 1, after the first grinding bed 4 grindings complete one side, by feed conveyor belt 18, carried, along the feed conveyor belt discharging inclined-plane 14 between track adjusting wheel 20 and top wheel 24, the band moving to successively between the 22Yu Wai convex edge, interior convex edge 23 that turns to rotating disk mechanism 5 picks up on the track that refers to orbital groove 25; In this implementation process, every row soft magnetic ferrite magnetic core number of soft magnetic ferrite magnetic core 2 arrays is 5, picks up and refers to that orbital groove quantity is 13.

As shown in Figure 2 and Figure 3, the rotating disk 11 that turns to of described rotating disk mechanism 5 rotates under torque motor 15 drives, and turns to outer convex edge 23 linear velocities of rotating disk 11 to be more than or equal to the feeding line speed on feed conveyor belt discharging inclined-plane 14.

As shown in Figure 4, Figure 5, described soft magnetic ferrite magnetic core 2 arrays rotate half cycle turning on rotating disk 11, arrive to pick up to pick up to refer to 26, pick up to pick up to refer to 26 pick up and refer to that 41 stretch into and turn to picking up of rotating disk 11 to refer to, in orbital groove 25, contact with turning to rotating disk 11 by slide 42; Soft magnetic ferrite magnetic core 2 arrays refer to that along picking up 41 pick up, under magnetic action, be adsorbed in to picking up in plane that permanent magnetism track adjusting wheel 32, permanent magnet 33, permanent magnetism top wheel 35 form, and along with discharging belt conveyor 31 moves, the moving velocity of discharging belt conveyor 31 is more than or equal to the linear velocity that turns to the outer convex edge 23 of rotating disk 11; When soft magnetic ferrite magnetic core 2 arrays forward permanent magnetism top wheel 35 to along with discharging belt conveyor 31 above, turn-over completes.For preventing that soft magnetic ferrite magnetic core 2 arrays are because magnetic attraction slippage on discharging belt conveyor 31 of permanent magnetism top wheel 35 is piled up, below the discharging belt conveyor 31 of permanent magnetism top wheel 35 feed directions, the first permanent magnet 36, the second permanent magnet 38, the 3rd permanent magnet 39 that the fixing magnetic attraction of use the second permanent magnet erecting frame 37 that magnetic attraction progressively declines progressively declines are installed, make the steadily output under the adsorption affinity effect progressively declining of soft magnetic ferrite magnetic core 2 arrays.

As shown in Figure 1, soft magnetic ferrite magnetic core 2 arrays complete two sides ground finish through the second grinding bed 7 grinding another sides from the feed end of discharging conveyer mechanism 6 again to the transport process of the discharge end of discharging conveyer mechanism 6.

Content described in this specification sheets embodiment is only enumerating of way of realization to utility model design; protection domain of the present utility model should not be regarded as only limiting to the concrete form that embodiment states, protection domain of the present utility model is also and in those skilled in the art, according to the utility model, conceive the equivalent technologies means that can expect.

Claims (7)

1. rotating disk is picked up a formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that:

Comprise soft magnetic ferrite magnetic core (2), feed conveyor belt mechanism (3), turn to rotating disk mechanism (5), discharging conveyer mechanism (6), feed conveyor belt frame (8), turn to rotating disk frame (9), discharging belt conveyor frame (28); Feed conveyor belt mechanism (3), turn to rotating disk mechanism (5), discharging conveyer mechanism (6) to be separately fixed at feed conveyor belt frame (8), turn to rotating disk frame (9), in discharging belt conveyor frame (28), feed conveyor belt mechanism (3) discharge end and discharging conveyer mechanism (6) feed end are installed in and turn to rotating disk mechanism (5) top, and the discharging conveyer mechanism (6) being parallel to each other and feed conveyor belt mechanism (3) turn to the installation that is centrosymmetric of rotating disk (11) center of circle with what turn to rotating disk mechanism (5);

Feed conveyor belt mechanism (3): the soft magnetic ferrite magnetic core (2) of array arrangement is placed in the feed conveyor belt (18) of feed conveyor belt mechanism (3), and the discharge end of feed conveyor belt mechanism (3) is provided with downward-sloping feed conveyor belt discharging inclined-plane (14);

Turn to rotating disk mechanism (5): comprise and turn to rotating disk (11), torque motor (15), carousel supports cover (13) and rotating disk frame (9), torque motor (15) is fixed on and turns in rotating disk frame (9), the main shaft of torque motor (15) upper end is fixedly connected with turning to rotating disk (11) through carousel supports cover (13), circular rotating disk (11) inner periphery that turns to is provided with the interior convex edge (22) of a ring shape, turn to rotating disk (11) excircle to be provided with the outer convex edge (23) of a ring shape, between interior convex edge (22) and outer convex edge (23) to turn to rotating disk (11) circumference to be provided with annular along turning to uniform the picking up of rotating disk (11) spaced radial to refer to orbital groove (25), turn to rotating disk (11) to be close to feed conveyor belt discharging inclined-plane (14) bottom surface,

Discharging conveyer mechanism (6): comprise discharging belt conveyor (31), permanent magnetism top wheel (35), permanent magnetism track adjusting wheel (32), the first permanent magnet erecting frame (34), permanent magnet (33), the second permanent magnet erecting frame (37), the first permanent magnet (36), the second permanent magnet (38) and the 3rd permanent magnet (39);

The feed end of discharging conveyer mechanism (6) is provided with acclivitous discharging belt conveyor feeding inclined-plane, be positioned on discharging belt conveyor feeding inclined-plane, the belt wheel of downside is respectively permanent magnetism top wheel (35), permanent magnetism track adjusting wheel (32), discharging belt conveyor (31) inner side between permanent magnetism top wheel (35) and permanent magnetism track adjusting wheel (32) is provided with permanent magnet (33) by the first permanent magnet erecting frame (34), the upper transmission plane of discharging belt conveyor (31) inner side near permanent magnetism top wheel (35) is provided with the second permanent magnet erecting frame (37), the second permanent magnet erecting frame (37) is upper is provided with along discharging belt conveyor (31) direction of transfer the permanent magnet that three magnetic reduce successively, three permanent magnets are respectively the first permanent magnet (36), the second permanent magnet (38) and the 3rd permanent magnet (39), the first permanent magnet (36) is same with the Magnetic Phase of permanent magnetism top wheel (35),

Pick up and pick up finger (26): pick up the discharging belt conveyor feeding inclined-plane outside of picking up finger (26) and be located at discharging conveyer mechanism (6) feed end, pick up and pick up finger (26) and by both sides, top, stretch out mounting hole (40) gap on sheet and be arranged on wheel (35) projecting shaft of permanent magnetism top, pick up pick up finger (26) lower end be provided with turn to rotating disk (11) on pick up refer to orbital groove (25) quantity identical and uniformly at intervals pick up finger (41), each finger (41) that picks up is provided with and the slide (42) of reverse bending, picking up finger (41) extend into and turns to picking up of rotating disk (11) to refer in orbital groove (25), slide (42) refers to that with turning to picking up of rotating disk (11) bottom surface of orbital groove (25) contacts.

2. a kind of rotating disk according to claim 1 is picked up formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that: the transfer rate of described feed conveyor belt mechanism (3) equates with the linear velocity that turns to the upper outside convex edge of rotating disk (11) (23), the transfer rate of described discharging conveyer mechanism (6) is more than or equal to the linear velocity that turns to the upper outside convex edge of rotating disk (11) (23).

3. a kind of rotating disk according to claim 1 is picked up formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that: described torque motor (15) is fixed on and is turned to rotating disk frame (9) upper by motor fix screw (16), and torque motor (15) upper end main shaft is fixedly connected with carousel supports cover (13) by holding screw (12).

4. a kind of rotating disk according to claim 1 is picked up formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that: described soft magnetic ferrite magnetic core (2) is formed by soft magnetic ferrite magnetic core press (1) compacting.

5. a kind of rotating disk according to claim 1 is picked up formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that: described adjacent picking up refers to that the spacing of orbital groove (25) is less than the half of soft magnetic ferrite magnetic core (2) bond length.

6. a kind of rotating disk according to claim 1 is picked up formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that: described picking up picked up the mounting hole (40) that stretches out sheet in finger (26) both sides and be axially installed on wheel (35) projecting shaft of permanent magnetism top by jump ring (43).

7. a kind of rotating disk according to claim 1 is picked up formula soft magnetic ferrite magnetic core automatic turn-over device, it is characterized in that: described picking up picked up finger (26) and required gap with the discharging that the gap on discharging belt conveyor feeding inclined-plane is greater than described soft magnetic ferrite magnetic core (2).

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