JPS6270168A - Metal foil winder - Google Patents

Abstract

PURPOSE:To produce a capacitor bushing stable in performance by detecting the number of rotations of a device rewinding the insulating paper and metal foil from an insulating paper roll and a metal foil roll and overlapping and winding them to control the length of the metal foil. CONSTITUTION:The insulating paper 3 is rewound from an insulating paper roll 2 on a central bar 7 driven by a motor 6, and the number of rotations are encoded 12 and fed to a feed control unit 36. A signal Ss is fed at every predetermined number of rotations to activate a motor 33, and the metal foil 22 is extracted on a guide path 24 from a roll 21 by a feed roller 25 and fed to the running insulating paper 3. When the predetermined number of rotations of an extracting roller 28 are encoded 37, a cutoff control unit 46 brakes the feed roller 25 with a solenoid brake 30 via a signal Sb, a motor 43 is driven via a signal Sc, and a rotary edge 40 is rotated by 360 deg. to cut off the metal foil 22. The metal foil 22 with the predetermined length is fed to the insulating paper 3, the motor 33 is stopped to complete one process, and the similar proc ess is repeated necessary times. Accordingly, the metal foil 22 with the correct length is wound.

Description

[Detailed Description of the Invention] (Industrial Application Field) This invention is applicable to the core winding process of capacitor bushings.
This invention relates to a metal foil winding device used to wind metal foil between rolls of insulating paper.

(Prior Art) In the core winding process of capacitor bushings, a device disclosed in Japanese Patent Application Laid-open No. 58-200524 is a device that automatically inserts aluminum foil between insulating papers being wound around a core metal. be. This device uses a suction device to suck metal foil that has been cut into predetermined dimensions and stacked together, moves the suction device along an insulating paper, and releases the suction device at a predetermined position to insulate the metal foil. It is placed on paper.

(Problems to be Solved by the Invention) However, in the above device, the metal foil must be cut and laminated in advance, which is cumbersome, and the ends of the metal foil must be sucked by the suction device. Since the metal foil is transferred by hand, the transfer speed cannot be made very high, and it is difficult to increase the winding speed, and the position of the metal foil released by the suction device tends to shift, making it difficult to wind it into the correct position. there were.

This invention solves the above-mentioned conventional problems, and aims to provide a metal foil winding device that can reliably wind the metal foil at a predetermined position between the insulating papers even when the winding speed is high. be.

(Means for Solving the Problems) However, the metal foil winding device of the present invention unwinds the insulating paper from the insulating paper roll and winds it around a central rod driven by a winding motor. a cutting machine that cuts the metal foil along a guide path that guides the metal foil unwound from the metal foil roll onto the running path of the insulating paper; a feed roller that feeds the metal foil to the cutting machine; A metal foil supply device having cutting rollers arranged side by side to send out the metal foil that has passed through the cutting machine section, and a supply device that detects the number of rotations of the center rod and gives a supply command to the metal foil supply device at every predetermined number of rotations. This metal foil winding device comprises a control device and a cutting control device which gives a cutting command to the cutting machine when the metal foil supply length of the metal foil supply device reaches a predetermined amount.

(Function) In the metal foil winding device of the present invention, the metal foil supply device applies the metal foil roll onto the running insulating paper that has been unwound from the insulating paper roll and wound around the center rod in the insulating paper winding device. After unwinding, the metal foil cut into a predetermined length is fed and transported at a predetermined speed and wound into a wound layer of insulating paper. The supply control device detects the number of rotations of the center rod and issues a supply command at each predetermined number of revolutions. Based on this supply command, the feed roller feeds the metal foil roll to the cutting machine, and the cut-out roller causes the metal foil roll to be cut. is started to be supplied onto the insulating paper. The cutting control device issues a cutting command when the length of the metal foil reaches a predetermined length after the start of supply, and this cutting command operates the cutting machine to cut the metal foil. The winding of the metal foil at one location in the layer is completed, and the same process is repeated thereafter to obtain a rolled product in which the metal foil is wound at a predetermined position in the insulating paper layer.

(Example) An embodiment of the present invention will be explained below with reference to FIG.

In the figure, reference numeral 1 denotes an insulating paper winding device, in which a strip of insulating paper 3 unwound from an insulating paper roll 2 is passed through a meandering correction roller 4 and a guide 5 which also serves as a cutter, and then passed through a central rod driven by a winding motor 6. 7. 8 and 9 are product receiving rollers, and 10 is a product holding roller that can be raised and lowered, both of which are free rollers. An encoder 11 for detecting the traveling speed of the insulating paper 3 is provided on the guide 5, and an encoder 12 for detecting the rotation speed of the center rod 7 is attached to the rotating shaft of the take-up motor 6. On the other hand, 20 is a metal foil supply device, which cuts a band-shaped metal foil 22 unwound from a metal foil roll 21 into a predetermined length, guides it through a guide path 24 formed on a guide plate 23, and insulates it while traveling. It is supplied onto paper 3. The tip of the guide path 24 is located near the center rod 7 and directly above the insulating paper 3 that is running. Along this guide path 24, a pair of feed rollers 25 and 26;
A cutting machine 27 and a pair of cutting rollers 28 and 29 are arranged in parallel. An electromagnetic clutch brake 30, which is a brake, is attached to the end of the drive shaft of the feed roller 25, and power transmission from the sprocket 31 to the drive shaft and braking are performed selectively by turning the brake coil ON and OFF. It has become. Further, a sprocket 32 is fixed to the shaft end of the drive shaft of the cutting roller 28, and a chain 35 is wound around the sprockets 31 and 32 and a drive sprocket 34 driven by a motor 33. The output rollers 28 are simultaneously driven at the same circumferential speed. 36 is a supply control + device that counts the rotational speed output signal generated by the encoder 12, and when a predetermined rotational speed is reached, issues a supply signal S3 that starts the motor 33, and also controls the speed of the insulating paper 3 detected by the encoder 11. On the other hand, the speed of the motor 33 is controlled so that the supply speed of the metal foil 22 is (1,05 to 1.3)V.

37 is an encoder connected to the drive shaft of the cutting roller 28 for detecting the rotation speed. Further, the feed roller 26, the cutting roller 29, and the cutting roller 29 are free rollers. On the other hand, the cutting machine 27 is a rotary cutting rIfI machine, and has a rotary blade 40 that is rotatable around an axis parallel to the feeding roller 25 and the cutting roller 28.
and a fixed blade 41. A chain 45 is wound around a sprocket 42 fixed to the shaft end of the rotary blade 40 and a drive sprocket 44 fixed to the shaft end of the rotary blade 43. Further, 46 is a cutting control device that counts the rotational speed output signal generated by the encoder 37, and when a predetermined rotational speed is reached, generates a braking signal Sb that disconnects the electromagnetic clutch brake 30. Then, after a short period of time, the rotary blade 40 is turned off. A cutting signal SC for rotation is given to the motor 43. Further, 47 is a guide roller that guides the metal foil 22, and 48 is a cutting roller 28.
Cutting out the metal foil 22 on the guide plate 23 in conjunction with the roller 2
This is a feeding belt that is driven at the same speed as 8, and both are provided as necessary.

In order to wind the metal foil between the insulating sheets using the metal foil winding device having the above structure, first, the winding motor 6 is operated to wind the insulating sheet 3 around the center rod 7. Based on the rotational speed signal of the center rod 7 generated by the encoder 12, the supply control device 36 generates a start signal SS every predetermined rotational speed of the center rod 7 (for example, every 3 rotations) to start the motor 33, so that the leading edge of the cutting machine 27 The metal foil 22 that was nearby was removed by the feeding roller 25 and the cutting roller 28.
The insulating paper 3 is driven by the insulating paper 3 and is conveyed on the guide path 24 and supplied onto the running insulating paper 3. The starting rotation speed of the cutting roller 28 is determined by an encoder 37 in the cutting control device 46.
When a predetermined length of the metal foil 22 (for example, the winding angle length of one rotation of the center rod 7) is reached, the cutting control device 46 starts counting. Emit a braking signal S, and activate the electromagnetic clutch brake 3.
0 is turned off to brake the feed roller 25, and then the cutting signal S is turned off. is emitted to operate the cutting 127 and rotate the rotary blade 40 once. As a result, the metal foil 22 is cut by the cutter 27 while tension is momentarily applied between the feed roller 25 and the cutting roller 28.

When the cut gold fftffi 22 is fed onto the insulating paper by the cut-out roller 28, the motor 33 is stopped, one time of metal foil feeding is completed, and the same process is repeated thereafter to remove the gap between the insulating paper during continuous winding. Wrap the metal foil around.

In the above, the metal foil 22 is 1.05 to 1.3 of the insulating paper 3.
Since the speed is always controlled so that the metal foil 22 is fed onto the insulating paper 3 at twice the speed, the metal foil 22 being fed may be pulled and torn by the winding force of the center rod 7, or the metal foil 22 may be damaged by the momentary force of the feeding roll 25. Similarly, the metal foil is prevented from being torn during braking. Note that instead of controlling the supply speed of the metal foil 22, the supply speed is kept constant, and the speed of the take-up motor 6 is set to i, (J
111t, the relationship between the speeds of the metal foil 22 and the insulating paper 3 may be maintained at the above ratio.

In addition, in the above, if the operation delay time between the actual braking and disconnection with respect to the operation command of the electromagnetic clutch brake 30 and the cutting machine 27 is longer in the latter, the disconnection control device 46 disconnects the brake command Sb. Directive S. may be output at the same time. Further, the rotation speed setting value in the cutting control device 46 is selected from data stored in the cutting control device 46, so that the setting value increases sequentially for each cut in accordance with the increase in the winding diameter as the winding progresses of the insulating paper. , or calculated and used in the cutting control device 46 based on the output signal of the encoder 12.

The present invention is not limited to the above embodiments; for example, the encoder 37 for detecting the length of metal foil supply may be attached to the shaft of the feed roller 25 or the motor 33. Also, instead of directly detecting the length of the metal foil supplied by the encoder 37, the output of the encoder 12 attached to the center rod 7 is input to the cutting control device 46, so that the rotation speed of the center rod 7 after the motor 33 is started is set to a predetermined value. The cutting command may be issued when the number of rotations (for example, 1 rotation) is reached. In this case, there is no need to perform calculations such as changing the supply length due to an increase in the winding diameter, and the control device can be simplified. becomes. In addition, in the above embodiment, the metal foil is cut with tension applied by braking the feed roller 25, so burrs are likely to occur on the cut end surface of the metal foil, and in the case of capacitor bushings, corona discharge may occur. However, depending on the type of cutting machine (a one with a shear set etc. may be used) and performance, the cutting signal S may be suppressed without braking the feed roller 25.
After the running metal foil is cut only by c, the motor 33 may be cut off and stopped.

(Effects of the Invention) As explained above, according to the present invention, the metal foil is fed onto the insulating paper being wound up by the roller at a speed close to the winding speed, so even when the winding speed is high, The thin metal foil can be reliably rolled between the insulating papers, and the supply control device controls the winding start position, and the cutting control device controls the cutting length of the metal foil. The position and winding length are accurate, and when used especially in the core winding process of capacitor bushings, it is possible to obtain capacitor bushings with stable quality and little variation from product to product.

[Brief explanation of drawings]

FIG. 1 is an equipment layout diagram of a metal foil winding device showing an embodiment of the present invention. 1... Insulating paper winding device, 2... Insulating paper roll, 3...
... Insulating paper, 6... Winding motor, 7... Center rod, 1
1...Encoder, 12...Encoder, 20...
- Metal core supply device, 21... Metal foil roll, 22...
・Metal foil, 24... Guide path, 25... Feed roller,
26... Feed roller, 27... Cutting machine, 28...
Cutting roller, 29... Cutting roller, 33... Motor, 36... Supply control device, 37... Encoder, 4
3...Motor, 46...Cutting control device.

Claims (1)

[Scope of Claims] 1. An insulating paper winding device that unwinds insulating paper from an insulating paper roll and winds it around a central rod driven by a winding motor, and an insulating paper winding device that unwinds insulating paper from an insulating paper roll and winds it around a central rod driven by a winding motor; A cutting machine that cuts the metal foil, a feed roller that feeds the metal foil into the cutting machine, and a cutting roller that sends out the metal foil that has passed through the cutting machine section are installed in parallel along the guide path that guides the metal foil onto the road. a supply control device that detects the rotational speed of the center rod and gives a supply command to the metal foil supplying device at every predetermined rotational speed; A metal foil winding device comprising: a cutting control device that gives a cutting command to the cutting machine when the metal foil is used. 2. The metal foil winding device according to claim 1, wherein the metal foil feeding speed by the metal foil feeding device is 1.05 to 1.3 times the insulating paper speed.