CN200972826Y - Manufacturing system for iron core of transformer - Google Patents

Abstract

The utility model discloses a manufacturing system for iron core plates of transformers. The system consists of a moving payoff reel, a feeding machine and a shearing mechanism. The material outlet of the moving payoff reel is connected with the feeding inlet of the feeding machine, and the material outlet of the feeding machine is connected with the material inlet of the shearing mechanism via a guide plate. Besides, the moving payoff reel, the feeding machine and the shearing mechanism are all rigidly arranged on the system base, and controlled by a control cabinet having a programmable logic controller. The control cabinet is arranged at the upper end of the system base. An arm is provided at the upper end of the system base and the material outlet of the shearing mechanism. A moving material trolley is correspondingly arranged below the arm. The utility model has the advantages of small size, light weight, less space needed, low malfunction rate, high automation level and simple operation. The utility model can produce laminated and dismountable iron cores, and involve no pits, no steam and no hydraulic pressure. The adoption of the V-shaped shearing mechanism creates a fast speed, a high precision, and a utilization rate of 95% of silicon-steel plates, and is able to process iron cores of various specifications and ensure a small size of such iron cores.

Description

The manufacturing system of transformer iron-core piece

Technical field

The utility model relates to a kind of transformer chip, particularly relates to a kind of can once finishing from the manufacturing system of the transformer iron-core piece that clips to the overall process of rolling over dress and heap iron.

Background technology

At present, the production line of making the transformer chip normally adopts uncoiling mechanism, punch body, cuts the V mouth mechanism, 45 ° shearing machine mechanism of two relative directions, transmit lamination mechanism and be connected successively, also is provided with workbench at last.And between uncoiling mechanism and punch body, need to have dug melt pit.This line production system, complex structure is processed loaded down with trivial detailsly, and whole floor space is very big.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of and can once finish from the manufacturing system of the transformer iron-core piece that clips to the overall process of rolling over dress and heap iron.

The technical scheme that the utility model adopted is: a kind of manufacturing system of transformer iron-core piece, include mobile uncoiler, feeder, also be provided with the cutting and folding machine structure, wherein, the discharge end of mobile uncoiler scoops out mutually with the feed end of feeder, the discharge end of feeder links to each other by guide plate with the feed end of cutting and folding machine structure, and mobile uncoiler, feeder, cutting and folding machine structure all are fixedly mounted on the support frame, and by be arranged on support frame upper end in be provided with PLC the box of controlling control.

In the upper end of support frame, and the discharge end that is positioned at the cutting and folding machine structure also is provided with mechanical arm, and mechanical arm downside correspondence is provided with mobile windrow car.

Between feeder and cutting and folding machine structure, also be provided with punch body, the discharge end of feeder links to each other by guide plate with the feed end of punch body, the discharge end of punch body links to each other by the feed end of guide plate with the cutting and folding machine structure, and punch body is fixedly mounted on the support frame.

Described punch body includes angle of attack motor that is arranged on both sides and the angle of attack mechanism that links to each other with angle of attack motor, punching motor in the middle of being arranged on and the punch mechanism that links to each other with the punching motor.

Described cutting and folding machine structure includes framework, is arranged on the patrix drive motors of frame roof, penetrates the framework rotating shaft at two ends up and down, drives the drive motors of rotating shaft rotation; Be provided with around rotating shaft in the inboard of framework: fixedly connected with rotating shaft and be positioned at the upper die plate and the counterdie backing plate of the upper/lower terminal of framework inboard, be set with patrix linear axis bearing at the upper die plate downside, be arranged in the patrix linear axis bearing and be enclosed within the patrix in the rotating shaft outside, the axial region of patrix connects the patrix drive motors that is positioned at frame roof; Downside at patrix is provided with counterdie, and counterdie is fixed on the counterdie backing plate; Be provided with by the motor-driven flap dynamic model of dynamic model in the inboard of counterdie.

Described patrix is a triangular structure of right angle, and its three angles are provided with three axles that link to each other with the patrix drive motors of frame roof.

The following peripheral of the right-angle side of described patrix is provided with upper slitter, is provided with cutter down at the upper periphery of counterdie and the upper slitter corresponding section of patrix.

The manufacturing system of transformer iron-core piece of the present utility model has following characteristics:

1. can produce stacked and two kinds of iron cores of folding dress formula (volume iron core); 2. adopt mobile uncoiler, no melt pit; 3. by mechanical arm iron core is deposited on the mobile windrow car, can directly transports to the working site; 4. all by electric control, no steam-operating, no hydraulic pressure; 5. adopt brand-new angle of attack method; 6. adopt " V " type cutting and folding machine structure, speed is fast, the precision height; 7. be integral type, can directly use after the energized, need not Installation and Debugging; 8. the folding dress iron core of producing does not almost have offal, and the utilance of silicon steel sheet can process the iron core of plurality of specifications, and core volume is little more than 95%; 9. the utility model volume is little, and is in light weight, takes up an area of to lack, and failure rate is low, and the automaticity height is simple to operate.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present utility model;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the structural representation of the utility model cutting and folding machine structure;

Fig. 4 is the vertical view of Fig. 3;

Fig. 5 is the left side view of Fig. 3;

Fig. 6 is the utility model punch body work schematic diagram;

Fig. 7, Fig. 8 are the schematic diagrames that the utility model is produced the laminated transformer lamination;

Fig. 9 is the structural representation of the transformer iron-core piece produced of the utility model;

Figure 10 is the schematic diagram that the utility model is produced tabs formula transformer iron-core piece;

Figure 11 is the product schematic diagram that the utility model is produced tabs formula transformer iron-core piece.

Wherein:

1: support frame 2: mobile uncoiler

3: hand-operated lifting action bars 4: the uncoiler motor

5: host housing 6: the feeding rubber roll

7: feeder 8: guide plate

9: cutting and folding machine structure 10: control box

11: mechanical arm 12: the forceful electric power distribution box

13: punch body 14: the punch press moving guide rail

15: light current distribution box 16: mobile windrow car

17: uncoiling tire 18: roller motor under the feeding

19,25: angle of attack motor 20: the Electric Motor Wheel of mobile uncoiler

21: the driven pulley 22 of mobile uncoiler: roller motor on the feeder

23: punching motor 24: mobile motor

26: guiding coil holder 27: framework

28: flap dynamic model 29: counterdie

30: the linear bearing 31 of dynamic model: counterdie backing plate

32: rotating shaft 33: patrix

34: the linear bearing 35 of patrix: patrix linear axis bearing

36: patrix drive motors 37: upper die plate

38: dynamic model motor 39: the rotating shaft lower bearing

40: rotating shaft upper bearing (metal) 41: drive motors

42: angle 43:V mouth

44: hypotenuse 46: punching

55: upper side frame 56: frame

57: center pillar

Embodiment

Provide specific embodiment below in conjunction with accompanying drawing, further specify the utility model and how to realize.

As shown in Figure 1 and Figure 2, the manufacturing system of transformer iron-core piece of the present utility model, include mobile uncoiler 2, feeder 7, also be provided with cutting and folding machine structure 9, wherein, the discharge end of mobile uncoiler 2 scoops out mutually with the feed end of feeder 7, the discharge end of feeder 7 links to each other by guide plate 8 with the feed end of cutting and folding machine structure 9, and, mobile uncoiler 2, feeder 7, cutting and folding machine structure 9 all are fixedly mounted on the support frame 1, and by be arranged on support frame 1 upper end in be provided with PLC the box 10 of controlling control.Controlling box 10 is set on the support frame 1 by guiding coil holder 26.

In the upper end of support frame 1, and the discharge end that is positioned at cutting and folding machine structure 9 also is provided with mechanical arm 11, and mechanical arm 11 downside correspondences are provided with mobile windrow car 16.

Between feeder 7 and cutting and folding machine structure 9, can also be provided with punch body 13, the discharge end of feeder 7 links to each other by guide plate 8 with the feed end of punch body 13, the discharge end of punch body 13 links to each other with the feed end of cutting and folding machine structure 9 by guide plate 8, and punch body 13 is fixedly mounted on the support frame 1.

Described punch body adopts existing closed punch, and be provided with three drifts, include angle of attack motor 19,25 that is arranged on both sides and the angle of attack drift that links to each other with angle of attack motor 19,25, punching motor 23 in the middle of being arranged on and the punching drift that links to each other with punching motor 23.Aforesaid each parts all are arranged on the punch press framework, also are provided with the mobile motor 24 that is used for mobile punch press framework simultaneously, thereby can carry out the angle of attack and punching to the steel disc of different in width.

Described cutting and folding machine structure 9 includes horizontal U type framework 27, is arranged on the patrix drive motors 36 at framework 27 tops, penetrates the rotating shaft 32 at framework two ends about in the of 27, is fixed on the drive motors 41 of driving rotating shaft 32 rotations on the framework 27; Be provided with around rotating shaft 32 in the horizontal inboard of U type framework 27: fixedly connected with rotating shaft 32 and be positioned at the upper die plate 37 and the counterdie backing plate 31 of the upper/lower terminal of framework 27 inboards, be set with patrix linear axis bearing 35 at upper die plate 37 downsides, be arranged in the patrix linear axis bearing 35 and be enclosed within the patrix 33 in rotating shaft 32 outsides, the axial region of patrix 33 connects the patrix drive motors 36 that is positioned at framework 27 tops.Described patrix 33 is a triangular structure of right angle, all be provided with the axle 51 that links to each other with the patrix drive motors 36 at framework 27 tops on its three angles, and driving patrixes 33 upper and lower moving by patrix drive motors 36, its drive motors 36 is to link to each other with three axles 51 on the patrix 33 by connecting rod 54; Be provided with counterdie 29 at the downside of patrix 33 along the right-angle side of patrix 33, counterdie 29 is fixed on the counterdie backing plate 31; Be provided with the flap dynamic model 28 that is driven by dynamic model motor 38 in the inboard of counterdie 29, its dynamic model motor 38 is fixed on the framework 27, and flap dynamic model 28 is upper and lower mobile along the fixed axis 57 that is fixed on the counterdie backing plate 31 under the driving of dynamic model motor 38.

The following peripheral of the right-angle side of described patrix 33 is provided with upper slitter 53, is provided with cutter 52 down at the upper periphery of counterdie 29 and upper slitter 53 corresponding sections of patrix 33.To drive patrix 33 upper and lower when mobile when patrix drive motors 36, can shear lamination.

The course of work to the manufacturing system of transformer iron-core piece of the present utility model describes below.

The steel disc volume is arranged on the uncoiling tire 17 of mobile uncoiler 2, and 4 rotations of uncoiler motor are sent steel disc into feeder 7, and feeder 7 is sent into punch body 13 with steel disc along guide plate 8.

As shown in Figure 6, punch body 13 at first carries out the work of punching 46 and corner cut to steel disc, and its corner cut is to cut away the unnecessary angle 42 of steel disc at 45 ° of shearing place two ends.

Punch body 13 will excise unnecessary angle and send into cutting and folding machine structure 9 with the steel disc of having beaten the hole along guide plate 8.

As Fig. 7, shown in Figure 9, steel disc enters between the patrix 33 and counterdie 29 of cutting and folding machine structure 9.Rotating shaft 32 rotations drive upper die plate 37 and counterdie backing plate 31 rotates, thereby drive right-angle side and steel disc angle at 45 that patrix 33 turns to patrix 33, simultaneously, 36 rotations of patrix drive motors, drive patrix 33 upper and lower moving by connecting rod 54 and last mold shaft 51, the right and left of steel disc is carried out the shearing (as 44 among the figure) of 45 and finish day shearing of upper and lower two frames of font transformer chip 55 hypotenuses 44.

As Fig. 8, shown in Figure 9, carry out day shearing of left and right two frames of font transformer iron-core piece then.At first press said process, shear out the limit portion of 45, again patrix 33 is turned to the equilateral crossing position of its two right-angle side and steel disc, steel disc is carried out V mouth 43 shear, thereby finish day shearing of left and right two frames 56 of font transformer iron-core piece.

Then,, steel disc both sides correspondence is cut the V mouth, thereby finish day shearing of font transformer iron-core piece center pillar 57 according to the mode of cutting the V mouth as Fig. 8, shown in Figure 9.

Figure 10 is the schematic diagram that the utility model is produced tabs formula transformer iron-core piece.As shown in figure 10, at first rotating shaft 32 rotations drive upper die plate 37 and 31 rotations of counterdie backing plate, turn an angle thereby drive patrix 33, and make a right-angle side of patrix 33 become plumbness with steel disc; The second, 36 rotations of patrix drive motors drive patrix 33 upper and lower moving by connecting rod 54 and last mold shaft 51, and steel disc is cut edge; The 3rd, rotation dynamic model motor 38 drives flap dynamic models 28 upper and lower moving, and steel disc is carried out bending, in accordance with regulations apart from bending 8 times; The 4th, 36 rotations of patrix drive motors by connecting rod 54 and last mold shaft 51 drive patrixes 33 upper and lower moving, are cut edge to the steel disc another side, thereby finish the bending 45 to steel disc.Be converted into finished product as shown in figure 11.

When the shearing of finishing above-mentioned day font transformer iron-core piece or tabs formula transformer iron-core piece cut folding after, by mechanical arm 11 finished product is moved in the mobile windrow car 16.

Claims (7)

1. the manufacturing system of a transformer iron-core piece, include mobile uncoiler (2), feeder (7), it is characterized in that, also be provided with cutting and folding machine structure (9), wherein, the discharge end of mobile uncoiler (2) scoops out mutually with the feed end of feeder (7), the discharge end of feeder (7) links to each other by guide plate (8) with the feed end of cutting and folding machine structure (9), and, mobile uncoiler (2), feeder (7), cutting and folding machine structure (9) all are fixedly mounted on the support frame (1), and by be arranged on support frame (1) upper end in be provided with PLC the box (10) of controlling control.

2. the manufacturing system of transformer iron-core piece according to claim 1, it is characterized in that, upper end in support frame (1), and the discharge end that is positioned at cutting and folding machine structure (9) also is provided with mechanical arm (11), mechanical arm (11) downside correspondence is provided with mobile windrow car (16).

3. the manufacturing system of transformer iron-core piece according to claim 1, it is characterized in that, between feeder (7) and cutting and folding machine structure (9), also be provided with punch body (13), the discharge end of feeder (7) links to each other by guide plate (8) with the feed end of punch body (13), the discharge end of punch body (13) links to each other with the feed end of cutting and folding machine structure (9) by guide plate (8), and punch body (13) is fixedly mounted on the support frame (1).

4. the manufacturing system of transformer iron-core piece according to claim 3, it is characterized in that, described punch body (13) includes angle of attack motor (19,25) that is arranged on both sides and the angle of attack mechanism that links to each other with angle of attack motor (19,25), punching motor (23) in the middle of being arranged on and the punch mechanism that links to each other with punching motor (23).

5. the manufacturing system of transformer iron-core piece according to claim 1, it is characterized in that, described cutting and folding machine structure (9) includes framework (27), be arranged on the patrix drive motors (36) at framework (27) top, penetrate framework (27) rotating shaft at two ends (32) up and down, drive the drive motors (41) of rotating shaft (32) rotation; Be provided with around rotating shaft (32) in the inboard of framework (27): fixedly connected with rotating shaft (32) and be positioned at the upper die plate (37) and the counterdie backing plate (31) of the inboard upper/lower terminal of framework (27), be set with patrix linear axis bearing (35) at upper die plate (37) downside, be arranged in the patrix linear axis bearing (35) and be enclosed within the patrix (33) in rotating shaft (32) outside, the axial region of patrix (33) connects the patrix drive motors (36) that is positioned at framework (27) top; Downside at patrix (33) is provided with counterdie (29), and counterdie (29) is fixed on the counterdie backing plate (31); Be provided with the flap dynamic model (28) that drives by dynamic model motor (38) in the inboard of counterdie (29).

6. the manufacturing system of transformer iron-core piece according to claim 5 is characterized in that, described patrix (33) is a triangular structure of right angle, and its three angles are provided with three axles (51) that link to each other with the patrix drive motors (36) at framework (27) top.

7. the manufacturing system of transformer iron-core piece according to claim 5, it is characterized in that, the following peripheral of the right-angle side of described patrix (33) is provided with upper slitter (53), is provided with cutter (52) down at the upper periphery of counterdie (29) and upper slitter (53) corresponding section of patrix (33).

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