CN215933371U - Nickel steel sheet inductor manufacturing device - Google Patents

Abstract

The utility model discloses a nickel rigid sheet inductor manufacturing device which comprises a circular material transfer disc, wherein a rotatable clamping mechanism is fixed on the circular material transfer disc along the circumferential direction; and a nickel rigid sheet cutting and feeding mechanism, a nickel rigid sheet winding mechanism, a nickel rigid sheet inductance wire breaking mechanism and a nickel rigid sheet inductance blanking device are sequentially arranged corresponding to the rotatable clamping mechanism along the rotation direction of the material transfer disc. The utility model realizes the automatic feeding, manufacturing and wire breaking operation of the nickel steel sheet inductor, realizes the full-automatic production of the nickel steel sheet inductor, saves labor and improves the production efficiency.

Description

Nickel steel sheet inductor manufacturing device

Technical Field

The utility model belongs to the field of machinery, and particularly relates to a manufacturing device of a nickel rigid sheet inductor.

Background

The nickel steel sheet inductor is made by adhering an insulating layer on the outer surface of a nickel steel sheet cut into sections and then winding a coil. The structure of the wire coil is shown in figure 1 and comprises a nickel steel sheet 01, an insulating layer 02 wound outside the nickel steel sheet 01 and a coil 03 wound outside the insulating layer. However, when the conventional nickel-steel sheet inductor is manufactured, materials are generally moved manually, an insulating layer is adhered, winding and trimming are performed, so that the labor is wasted, and the manufacturing efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model discloses a device for manufacturing a nickel rigid sheet inductor. The utility model realizes the automatic feeding, manufacturing and wire breaking operation of the nickel steel sheet inductor, realizes the full-automatic production of the nickel steel sheet inductor, saves labor and improves the production efficiency.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a nickel rigid sheet inductor manufacturing device comprises a circular material transfer disc, wherein a rotatable clamping mechanism is fixed on the circular material transfer disc along the circumferential direction; and a nickel rigid sheet cutting and feeding mechanism, a nickel rigid sheet winding mechanism, a nickel rigid sheet inductance wire breaking mechanism and a nickel rigid sheet inductance blanking device are sequentially arranged corresponding to the rotatable clamping mechanism along the rotation direction of the material transfer disc.

In a further improvement, a wire supporting rod is arranged between the adjacent rotatable clamping mechanisms and comprises a rod body, and a V-shaped wire supporting block is fixed on the rod body.

Further improvement, the material transfer disc comprises a disc body connected with a first rotary cylinder.

In a further improvement, the rotatable clamping mechanism comprises a lower rotating shaft and a clamping shaft which are axially connected to the material transfer disc; a spline is formed at the outer end part of the lower rotating shaft, and the inner end part of the lower rotating shaft is connected with a first belt wheel; the clamping shaft is connected with a second belt wheel; the first belt wheel and the second belt wheel are in power connection through a transmission belt; the clamping shaft is connected with a T-shaped sliding sleeve in a sliding manner and is connected to the fixed frame in a shaft coupling manner, and a spring is arranged between the T-shaped sliding sleeve and the fixed frame; the front end of the clamping shaft is provided with at least two elastic conical parts, and a clamping gap is formed between the elastic conical parts.

The nickel rigid strip cutting and feeding mechanism comprises a nickel rigid strip feeding disc, a nickel rigid strip feeding roller pair, a first fixed cutter, a first movable cutter, a rotary clamping device and a feeding device which are sequentially arranged along the conveying direction of a nickel rigid strip; the first movable cutter is connected with a first lifting cylinder, the rotary clamping device comprises a second rotary cylinder, the second rotary cylinder is connected with a rotary table, the rotary table is connected with four nickel rigid sheet clamps in a sliding mode along the circumferential direction, a spring is arranged between each nickel rigid sheet clamp and the rotary table, and a convex block is arranged on each nickel rigid sheet clamp in a protruding mode; the feeding device comprises a mounting frame, and a first push-pull cylinder corresponding to the bump and a second push-pull cylinder corresponding to the T-shaped sliding sleeve are mounted on the mounting frame.

In a further improvement, the nickel steel sheet winding mechanism comprises a third push-pull cylinder, and the third push-pull cylinder is connected with a first mounting frame; the first mounting frame is provided with a first rotating motor, the first mounting frame is also provided with a second lifting cylinder, the second lifting cylinder is connected with a second mounting frame, an insulating tape feeding wheel, a group of clamping non-stick wheels and a fourth push-pull cylinder are sequentially connected to the second mounting frame in an axial mode along the moving direction of an insulating tape, and the fourth push-pull cylinder is connected with a non-stick mechanical clamping hand; a clamping block matched with the spline is fixed on a rotating shaft of the rotating motor; still be connected with on the mounting bracket and cut off lift cylinder, cut off lift cylinder and be connected with the cutter.

The wire winding mechanism of the nickel rigid sheet inductor comprises a third lifting cylinder, the third lifting cylinder is connected with a second rotating motor, the second rotating motor is connected with a V-shaped wire winding rod, a wire threading hole is formed in the V-shaped wire winding rod, a wire penetrates through the wire threading hole, and the wire is wound on a wire feeding wheel; and an L-shaped pressure lever corresponding to the T-shaped sliding sleeve is connected to the shell of the second rotating motor.

In a further improvement, a rotatable clamping mechanism corresponding to the nickel steel sheet inductance disconnection mechanism is arranged between a rotatable clamping mechanism corresponding to the nickel steel sheet inductance winding mechanism and a rotatable clamping mechanism corresponding to the nickel steel sheet inductance blanking device; the nickel steel sheet inductance wire breaking mechanism is positioned between the rotatable clamping mechanism corresponding to the nickel steel sheet inductance wire breaking mechanism and the rotatable clamping mechanism corresponding to the nickel steel sheet inductance wire winding mechanism; the nickel steel sheet inductance breaking mechanism comprises two second fixed cutters and two second movable cutters, the two second movable cutters are connected with fourth lifting cylinders, and a breaking collecting barrel is installed below the nickel steel sheet inductance breaking mechanism.

The blanking device comprises a first push-pull air cylinder, a second push-pull air cylinder and a third push-pull air cylinder, wherein the first push-pull air cylinder is connected with a blanking mechanical clamping hand and a push rod corresponding to the T-shaped sliding sleeve; the blanking mechanical clamping hands comprise clamping cylinders, and clamping plates are connected to two ends of each clamping cylinder respectively.

Further improvement, correspond that the nickel just piece is around taking mechanism, the nickel just piece inductance wire winding mechanism and the nickel just piece inductance unloader all install the material detector, the material detector is proximity switch or infrared material detector.

The utility model has the advantages that:

the automatic feeding, manufacturing and wire breaking operations of the nickel steel sheet inductor are realized, the full-automatic production of the nickel steel sheet inductor is realized, the labor is saved, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a nickel rigid sheet inductor.

FIG. 2 is a schematic top view of an apparatus for manufacturing a rigid nickel sheet inductor;

FIG. 3 is a schematic side view of a rigid nickel sheet cutting and feeding mechanism;

FIG. 4 is a schematic top view of a belt winding mechanism for nickel steel sheets;

FIG. 5 is a schematic top view of a winding mechanism for a rigid nickel piece inductor;

FIG. 6 is a schematic top view of the break mechanism of the rigid nickel piece inductor;

FIG. 7 is a schematic top view of a rigid nickel sheet inductor blanking device;

FIG. 8 is a side view of the branch rod;

fig. 9 is a schematic top view of the rotatable clamping mechanism.

Detailed Description

The utility model is further explained with reference to the drawings and the embodiments.

Example 1

A nickel rigid sheet inductor manufacturing device comprises a circular material transfer disc 1, wherein a rotatable clamping mechanism 2 is fixed on the circular material transfer disc 1 along the circumferential direction; a nickel steel sheet cutting and feeding mechanism 3, a nickel steel sheet winding mechanism 4, a nickel steel sheet inductance winding mechanism 5, a nickel steel sheet inductance wire breaking mechanism 6 and a nickel steel sheet inductance blanking device 7 are sequentially arranged along the rotation direction of the material transfer disc 1 corresponding to the rotatable clamping mechanism 2.

The utility model realizes the transmission and rotation of materials by a material transfer disc 1 through a rotatable clamping mechanism 2. Wherein rotatable fixture 2 is eight, and evenly distributed shifts dish 1 at the material. The basic operation sequence is that a nickel rigid sheet obtained by cutting a nickel rigid belt by a nickel rigid sheet cutting and feeding mechanism 3 is clamped at a first station on the left side, then a material transfer disc 1 rotates for forty-five degrees, an infrared material detector at a second station detects that no nickel rigid sheet exists, if yes, the material transfer disc continues to rotate for forty-five degrees, a third station is reached, namely the nickel rigid sheet is wound at a belt winding mechanism 4, the nickel rigid sheet is adhered to an insulating adhesive tape and is driven to rotate by a nickel rigid sheet winding mechanism 4, so that the nickel rigid sheet rotates to wind the insulating adhesive tape, and then the insulating adhesive tape is cut: and then continuing to rotate by forty-five degrees, detecting whether nickel steel sheets exist by an infrared material detector at a fourth station, then continuing to rotate by forty-five degrees to reach a fifth station, rotating the inductance winding mechanism 5 of the nickel steel sheets to wind outside the insulating tape, then rotating by forty-five degrees to pause at a sixth station, then rotating by forty-five degrees to reach a seventh station, cutting off the lead connected between the two nickel steel sheet inductors by the inductance breaking mechanisms 6 of the nickel steel sheets at the sixth station and the seventh station, enabling the lead to fall to the broken wire collecting barrel 65, then rotating by forty-five degrees to reach an eighth station, and taking down the nickel steel sheet inductors by the inductance blanking device 7 of the nickel steel sheets to finish the blanking of the nickel steel sheet inductors.

Wherein, install branch line pole 8 between adjacent rotatable fixture 2, branch line pole 8 includes the body of rod 81, is fixed with V-arrangement branch line piece 82 on the body of rod 81, and V-arrangement branch line piece 82 is because the support of the adjacent wire of adjacent nickel steel piece inductance.

The material transfer tray 1 includes a tray body 11, and the tray body 11 is connected with a first rotary cylinder 12 so as to rotate.

The rotatable clamping mechanism 2 comprises a lower rotating shaft 21 and a clamping shaft 22 which are axially connected to the material transfer disc 1; a spline 23 is formed at the outer end part of the lower rotating shaft 21, and a first belt pulley 24 is connected at the inner end part; the second belt wheel 25 is connected with the clamping shaft 22; the first belt pulley 24 and the second belt pulley 25 are in power connection through a transmission belt 26; the clamping shaft 22 is connected with a T-shaped sliding sleeve 27 in a sliding mode and is coupled to the fixed frame 28 in a shaft mode, and a first spring 29 is installed between the T-shaped sliding sleeve 27 and the fixed frame 28; the front end of the clamping shaft 22 is formed with at least two elastic tapered portions 210, and a clamping gap 211 is formed between the elastic tapered portions 210.

The nickel rigid strip cutting and feeding mechanism 3 comprises a nickel rigid strip feeding disc 31, a nickel rigid strip feeding roller pair 32, a first fixed cutter 33, a first movable cutter 34, a rotary material clamping device 35 and a feeding device 36 which are sequentially arranged along the conveying direction of the nickel rigid strip; the first movable cutting knife 34 is connected with a first lifting cylinder 37, the rotary clamping device 35 comprises a second rotary cylinder 351, the second rotary cylinder 351 is connected with a rotary table 352, the rotary table 352 is connected with four nickel steel sheet clamps 353 in a sliding mode along the circumferential direction, a second spring 354 is installed between each nickel steel sheet clamp 353 and the rotary table 352, and a convex block 355 protrudes from each nickel steel sheet clamp 353; the feeding device 36 comprises a first mounting frame 361, and a first push-pull cylinder 362 corresponding to the lug 355 and a second push-pull cylinder 363 corresponding to the T-shaped sliding sleeve 27 are mounted on the first mounting frame 361.

The use method of the nickel steel sheet cutting and feeding mechanism 3 is as follows:

the nickel rigid belt feeding disc 31 is wound with a nickel rigid belt, then a nickel rigid belt feeding roller 32 transports to enable the front end of the nickel rigid belt to be inserted into the nickel rigid sheet clamp 353, the first movable cutter 34 moves downwards to cut the nickel rigid belt to obtain a nickel rigid sheet on the nickel rigid sheet clamp 353, then the second rotary air cylinder 351 rotates to enable the corresponding nickel rigid sheet clamp 353 to face the rotatable clamping mechanism 2, the second push-pull air cylinder 363 pushes the T-shaped sliding sleeve 27 to enable the elastic conical portion 210 to be opened, then the first push-pull air cylinder 362 pushes outwards to enable the nickel rigid sheet clamp 353 to move outwards to send the nickel rigid sheet to the position between the elastic conical portions 210, the second push-pull air cylinder 363 retracts, the T-shaped sliding sleeve 27 rebounds to enable the elastic conical portion 210 to close to clamp the nickel rigid sheet, and then the first push-pull air cylinder 362 retracts to enable the nickel rigid sheet clamp 353 to return to the original position.

The nickel steel sheet winding mechanism 4 comprises a third push-pull air cylinder 42, and the third push-pull air cylinder 42 is connected with a first mounting frame 43; the first mounting frame 43 is provided with a first rotating motor 46, the first mounting frame 43 is further provided with a second lifting cylinder 41, the second lifting cylinder 41 is connected with a second mounting frame 431, an insulating tape feeding wheel 44, a group of clamping non-stick wheels 45 and a fourth push-pull cylinder 47 are sequentially axially connected to the second mounting frame 431 along the moving direction of an insulating tape, and the fourth push-pull cylinder 47 is connected with a non-stick mechanical clamping hand 48; a fixture block 49 matched with the spline 23 is fixed on the rotating shaft of the rotating motor 46; the first mounting bracket 43 is also connected with a cutting lifting cylinder 411, and the cutting lifting cylinder 411 is connected with a cutter 410. The latch 49 is preferably a driver bit shaped plum blossom. The non-stick wheel, the clamping hands and the like are coated with a non-stick layer on the surface.

The method used by the mechanism is as follows:

after the nickel steel sheet reaches the position of the mechanism, the non-stick mechanical clamping hand 48 clamps the insulating tape under the pulling action of the fourth push-pull air cylinder 47, then pulls back, and then the third push-pull air cylinder 42 is started, so that the insulating tape is positioned under the nickel steel sheet, and the clamping block 49 of the rotating shaft of the rotating motor 46 is connected with the spline 23 formed at the outer end part of the lower rotating shaft 21. Then the second lift cylinder 41 rises to make the second mounting bracket 431, and then makes the insulating tape and the nickel steel sheet stick mainly, then the rotating electrical machines 46 is rotatory, and lower pivot 21 drives the centre gripping axle 22 rotatory, and then drives the nickel steel sheet rotatory for the sticky tape twines on the nickel steel sheet, twines after predetermineeing the number of turns, cuts off lift cylinder 411 and drives the decline of cutter 410 and cut off the insulating tape.

The nickel steel sheet inductance winding mechanism 5 comprises a third lifting cylinder 51, the third lifting cylinder 51 is connected with a winding push-pull cylinder 58, the winding push-pull cylinder 58 is connected with a second rotating motor 52, the second rotating motor 52 is connected with a V-shaped winding rod 53, a threading hole 54 is formed in the V-shaped winding rod 53, a lead 55 penetrates through the threading hole 54, and the lead 55 is wound on a wire feeding wheel 56. An L-shaped pressure lever 57 corresponding to the T-shaped sliding bush 27 is connected to the housing of the second rotating electrical machine 52.

During operation, the third lifting cylinder 51 descends to enable the L-shaped pressure rod 57 to press the T-shaped sliding sleeve 27 to prevent the clamping shaft 22 from rotating, the second rotating motor 52 is opposite to the nickel steel sheet in position, then the second rotating motor 52 rotates to enable the conducting wires on the second rotating motor to be wound on the outer side of the insulating tape on the nickel steel sheet, and the winding push-pull cylinder 58 moves during winding to enable the conducting wires to be wound on the middle of the surface of the insulating tape. (when the first nickel steel sheet is wound, the first nickel steel sheet is initially manually wound and then is automatically wound)

A rotatable clamping mechanism 2 corresponding to a nickel steel sheet inductance disconnection mechanism 6 is arranged between the rotatable clamping mechanism 2 corresponding to the nickel steel sheet inductance winding mechanism 5 and the rotatable clamping mechanism 2 corresponding to the nickel steel sheet inductance blanking device 7; the nickel steel sheet inductance breaking mechanism 6 is positioned between the rotatable clamping mechanism 2 corresponding to the nickel steel sheet inductance breaking mechanism 6 and the rotatable clamping mechanism 2 corresponding to the nickel steel sheet inductance winding mechanism 5; the nickel steel sheet inductance breaking mechanism 6 comprises two second fixed cutters 61 and two second movable cutters 63, the two second movable cutters 63 are connected with fourth lifting cylinders 64, and a breaking collecting barrel 65 is installed below the nickel steel sheet inductance breaking mechanism 6.

Therefore, when each wire is broken, the movable cutter cuts off the wire at one end of the nickel steel sheet inductor at the eighth station and the wire at one end of the nickel steel sheet inductor at the seventh station, and therefore the nickel steel sheet inductor winding mechanism 5 can automatically wind the nickel steel sheet at the sixth station.

The nickel steel sheet inductance blanking device 7 comprises a fifth push-pull air cylinder 71, and the fifth push-pull air cylinder 71 is connected with a blanking mechanical clamping hand 72 and a push rod 73 corresponding to the T-shaped sliding sleeve 27; the blanking mechanical clamping hands 72 comprise material clamping cylinders 74, and clamping plates 75 are respectively connected to two ends of each material clamping cylinder 74. After the eighth station is reached, the fifth push-pull air cylinder 71 is started, so that the push rod 73 pushes the T-shaped sliding sleeve 27 backwards, and meanwhile, the blanking mechanical clamping hand 72 clamps the nickel steel sheet and then retracts, so that the nickel steel sheet inductor is clamped down.

The material detector 9 is installed corresponding to the nickel steel sheet winding mechanism 4, the nickel steel sheet inductance winding mechanism 5 and the nickel steel sheet inductance blanking device 7, and the material detector 9 is a proximity switch or an infrared material detector. When the material detector 9 at the corresponding station does not detect the material, the rotation is stopped, and the audible and visual alarm corresponding to the material detector 9 is controlled to give an alarm.

While embodiments of the utility model have been disclosed above, it is not limited to the applications set forth in the specification and the embodiments, which are fully applicable to various fields of endeavor for which the utility model pertains, and further modifications may readily be made by those skilled in the art, it being understood that the utility model is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. A nickel rigid sheet inductor manufacturing device is characterized by comprising a circular material transfer disc (1), wherein a rotatable clamping mechanism (2) is fixed on the circular material transfer disc (1) along the circumferential direction; a nickel steel sheet cutting and feeding mechanism (3), a nickel steel sheet winding mechanism (4), a nickel steel sheet inductance winding mechanism (5), a nickel steel sheet inductance wire breaking mechanism (6) and a nickel steel sheet inductance blanking device (7) are sequentially arranged along the rotation direction of the material transfer disc (1) corresponding to the rotatable clamping mechanism (2).

2. The device for manufacturing the Nickel rigid sheet inductor as claimed in claim 1, wherein a branch rod (8) is installed between the adjacent rotatable clamping mechanisms (2), the branch rod (8) comprises a rod body (81), and a V-shaped branch block (82) is fixed on the rod body (81).

3. The device for manufacturing the nickel steel sheet inductor as claimed in claim 1, wherein the material transfer disc (1) comprises a disc body (11), and the disc body (11) is connected with a first rotary cylinder (12).

4. The induction manufacturing device of the nickel steel sheet as claimed in claim 1, characterized in that the rotatable clamping mechanism (2) comprises a lower rotating shaft (21) and a clamping shaft (22) which are connected to the material transfer disc (1) in a shaft connection manner; a spline (23) is formed at the outer end part of the lower rotating shaft (21), and the inner end part is connected with a first belt wheel (24); the clamping shaft (22) is connected with a second belt wheel (25); the first belt wheel (24) and the second belt wheel (25) are in power connection through a transmission belt (26); the clamping shaft (22) is connected with a T-shaped sliding sleeve (27) in a sliding mode and is connected to the fixing frame (28) in a shaft mode, and a first spring (29) is installed between the T-shaped sliding sleeve (27) and the fixing frame (28); the front end of the clamping shaft (22) is provided with at least two elastic conical parts (210), and a clamping gap (211) is formed between the elastic conical parts (210).

5. The apparatus for manufacturing a rigid nickel sheet inductor according to claim 4, wherein the rigid nickel sheet cutting and feeding mechanism (3) comprises a rigid nickel belt feeding tray (31), a rigid nickel belt feeding roller pair (32), a first fixed cutter (33) and a first movable cutter (34), a rotary material clamping device (35) and a feeding device (36) which are sequentially arranged along the conveying direction of the rigid nickel belt; the first movable cutter (34) is connected with a first lifting cylinder (37), the rotary clamping device (35) comprises a second rotary cylinder (351), the second rotary cylinder (351) is connected with a rotary table (352), the rotary table (352) is connected with four rigid nickel sheet clamps (353) in a sliding mode along the circumferential direction, a second spring (354) is installed between each rigid nickel sheet clamp (353) and the rotary table (352), and a convex block (355) protrudes from each rigid nickel sheet clamp (353); the feeding device (36) comprises a first mounting frame (361), and a first push-pull air cylinder (362) corresponding to the protruding block (355) and a second push-pull air cylinder (363) corresponding to the T-shaped sliding sleeve (27) are mounted on the first mounting frame (361).

6. The manufacturing device of the nickel steel sheet inductor according to claim 1, wherein the nickel steel sheet winding mechanism (4) comprises a third push-pull cylinder (42), and the third push-pull cylinder (42) is connected with a first mounting frame (43); a first rotating motor (46) is installed on the first installation frame (43), a second lifting cylinder (41) is further installed on the first installation frame (43), the second lifting cylinder (41) is connected with a second installation frame (431), an insulating tape feeding wheel (44), a group of clamping non-stick wheels (45) and a fourth push-pull cylinder (47) are sequentially connected to the second installation frame (431) in a shaft mode along the moving direction of an insulating tape, and a non-stick mechanical clamping hand (48) is connected to the fourth push-pull cylinder (47); a clamping block (49) matched with the spline (23) is fixed on a rotating shaft of the rotating motor (46); the mounting rack (43) is also connected with a cutting lifting cylinder (411), and the cutting lifting cylinder (411) is connected with a cutter (410).

7. The manufacturing device of the nickel steel sheet inductor as claimed in claim 1, wherein the winding mechanism (5) of the nickel steel sheet inductor comprises a third lifting cylinder (51), the third lifting cylinder (51) is connected with a winding push-pull cylinder (58), the winding push-pull cylinder (58) is connected with a second rotating motor (52), the second rotating motor (52) is connected with a V-shaped winding rod (53), the V-shaped winding rod (53) is provided with a threading hole (54), the threading hole (54) is penetrated by a lead (55), and the lead (55) is wound on the wire feeding wheel (56); an L-shaped pressure lever (57) corresponding to the T-shaped sliding sleeve (27) is connected to the shell of the second rotating motor (52).

8. The device for manufacturing the Nigang chip inductor as claimed in claim 1, wherein a rotatable clamping mechanism (2) corresponding to the Nigang chip inductor breaking mechanism (6) is arranged between the rotatable clamping mechanism (2) corresponding to the Nigang chip inductor winding mechanism (5) and the rotatable clamping mechanism (2) corresponding to the Nigang chip inductor blanking device (7); the nickel steel sheet inductance breaking mechanism (6) is arranged between the rotatable clamping mechanism (2) corresponding to the nickel steel sheet inductance breaking mechanism (6) and the rotatable clamping mechanism (2) corresponding to the nickel steel sheet inductance winding mechanism (5); the nickel steel sheet inductance wire breaking mechanism (6) comprises two second fixed cutters (61) and two second movable cutters (63), the two second movable cutters (63) are connected with fourth lifting cylinders (64), and a wire breaking collecting barrel (65) is installed below the nickel steel sheet inductance wire breaking mechanism (6).

9. The manufacturing device of the nickel steel sheet inductor according to claim 4, wherein the blanking device (7) of the nickel steel sheet inductor comprises a fifth push-pull cylinder (71), and the fifth push-pull cylinder (71) is connected with a blanking mechanical clamping hand (72) and a push rod (73) corresponding to the T-shaped sliding sleeve (27); the blanking mechanical clamping hands (72) comprise clamping cylinders (74), and clamping plates (75) are connected to the two ends of each clamping cylinder (74) respectively.

10. The device for manufacturing the nickel steel sheet inductor according to claim 1, wherein the material detectors (9) are respectively installed corresponding to the nickel steel sheet winding mechanism (4), the nickel steel sheet inductor winding mechanism (5) and the nickel steel sheet inductor blanking device (7), and the material detectors (9) are proximity switches or infrared material detectors.

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