JPH0617191B2 - Metal foil winding device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) This invention, like the core winding process of capacitor bushing,
The present invention relates to a metal foil winding device used to wind a metal foil between roll-shaped insulating papers.

(Prior Art) As a device for automatically inserting an aluminum foil between insulating papers being wound around a core metal in a core winding step of capacitor bushing, a device disclosed in JP-A-58-200524. There is. This device uses a suction device to suck metal foil that has been cut and laminated in advance to a predetermined size, moves this suction device along the insulating paper, opens the suction device at a predetermined position, and insulates the metal foil. It is to be placed on paper.

(Problems to be solved by the invention) However, in the above-mentioned device, it is troublesome because the metal foil must be cut and laminated in advance, and one end of the metal foil is sucked and transferred by the suction device. Since the transfer speed cannot be increased so much, it is difficult to increase the winding speed, and the position of the metal foil released by the suction device is easily displaced, and it is difficult to wind the metal foil to the regular position. .

The present invention solves the above-mentioned conventional problems, and aims to provide a metal foil winding device capable of reliably winding a metal foil at a predetermined position between insulating papers even when the winding speed is high. is there.

(Means for Solving the Problems) The metal foil winding device according to the present invention includes an insulating paper winding device that rewinds the insulating paper from the insulating paper roll and winds the insulating paper on the center rod driven by the winding motor. A cutting machine that cuts the metal foil along a guide path that guides the metal foil rewound from the metal foil roll onto the traveling path of the insulating paper, a feeding roller that sends the metal foil to the cutting machine, and the cutting machine. A metal foil supply device in which cutting rollers for sending out the metal foil that has passed through the section are provided side by side, a brake for the sending roller, and a rotation speed of the center rod to detect the rotation speed of the center rod, and the metal foil supply device for each predetermined rotation speed. A supply control device for giving a supply command to, and a cutting control device for giving a braking command to the brake and then a cutting command to the cutting machine when the metal foil supply length of the metal foil supply device reaches a predetermined amount, The cutting roller driving motor or the winding The speed of the take-up motor is controlled so that the metal foil supply speed is 1.0 of the insulating paper supply speed.
It is a metal foil winding device provided with a speed control device for maintaining the ratio of 5 to 1.3 times.

(Operation) In the metal foil winding device of the present invention, the metal foil roll is rewound from the insulating paper roll in the insulating paper winding device onto the running insulating paper wound around the center rod by the metal foil supply device. After rewinding, the metal foil cut into a predetermined length is conveyed and supplied at a predetermined speed and is wound into the winding layer of the insulating paper. The supply control device detects the number of rotations of the center rod and issues a supply command for each predetermined number of rotations. By this supply command, the metal foil is fed by the feeding roller to the cutting machine and the metal foil is fed by the cutting roller. The supply to the insulating paper is started. The cutting control device issues a braking command and a subsequent cutting command when the length of the metal foil after the start of supply reaches a predetermined amount,
By this braking command, the braking device brakes the feed roller to give tension to the metal foil, and in this state, the cutting command operates the cutting machine to cut the metal foil, and by supplying this metal foil, it is moved into the insulating paper layer. After the winding of the metal foil for one location is completed, the following steps are repeated to obtain a rolled product in which the metal foil is wound at a predetermined position in the insulating paper layer. The speed controller sets the metal foil supply speed to 1.05 of the insulating paper supply speed.
Since it is maintained at 1.3 times, an appropriate amount of slack is formed immediately before the winding of the metal foil, and breakage of the metal foil is prevented during the control of the feeding roller for cutting.

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

In the figure, 1 is an insulating paper winding device, which is a center rod driven by a winding motor 6 via a belt-shaped insulating paper 3 rewound from an insulating paper roll 2 via a meandering correction roller 4 and a guide 5 also serving as a cutter. It is to be rolled up to 7. Reference numerals 8 and 9 denote product receiving rollers, and 10 denotes a product pressing roller that can be moved up and down, both of which are free rollers. An encoder 11 for detecting the traveling speed of the insulating paper 3 is provided in the guide 5 portion, and an encoder 12 for detecting the rotation speed of the center rod 7 is attached to the rotation shaft of the winding motor 6. On the other hand, 20 is a metal foil supply device,
A guide path 24 formed on a guide plate 23 by cutting a strip-shaped metal foil 22 unwound from the metal foil roll 21 into a predetermined length.
And is supplied onto the running insulating paper 3. The tip of the guide path 24 is located directly above the insulating paper 3 which is running near the center rod 7. This guideway 2
4, a pair of feeding 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 braking device, is attached to the end of the drive shaft of the feed roller 25, so that power transmission and braking from the sprocket 31 to the drive shaft can be selectively performed by turning on and off the brake coil. 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 sprocket 31 and 32 and a drive sprocket 34 driven by a motor 33, and a feeding roller 25 is provided.
And the cutting roller 28 is simultaneously driven at the same peripheral speed.
A supply control device 36 counts the rotation speed output signal generated by the encoder 12, and when the rotation speed reaches a predetermined rotation speed, the motor 3
Motor 33 so that the supply speed of the metal foil 22 becomes (1.05 to 1.3) V relative to the speed V of the insulating paper 3 detected by the encoder 11 while the supply signal S _s for activating the motor 3 is generated. The speed control is performed. 37
Is an encoder for detecting the number of revolutions connected to the drive shaft of the cutting roller 28. The feeding roller 26 and the cutting roller 29 are free rollers. On the other hand, the cutting machine 27 is a rotary cutting machine, and includes a rotary blade 40 rotatable around an axis parallel to the feeding roller 25 and the cutting roller 28 and a fixed blade 4.
It consists of 1. 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 motor 43. The 46 is a disconnect control unit counts the number of revolutions output signal generated by the encoder 37, rotation of the rotary blade 40 of electromagnetic class Tutsi brake 30 reaches the predetermined rotational speed issues a braking signal S _b of deenergized, then after a small time The disconnection signal S _c that causes the motor 4
3 is given. Reference numeral 47 is a guide roller for guiding the metal foil 22, and 48 is a supply belt for driving the metal foil 22 on the guide plate 23 at the same speed as the cutting roller 28 in conjunction with the cutting roller 28. It is to be provided.

In order to wind the metal foil between the insulating papers by the metal foil winding device having the above structure, the winding motor 6 is first operated to wind the insulating paper 3 around the center rod 7. In response to the rotation speed signal of the center rod 7 generated by the encoder 12, the supply control device 36 generates a start signal S _s for each predetermined rotation speed of the center rod 7 (for example, every three rotations) to start the motor 33 and the leading edge is cut off. The metal foil 22 near the machine 27 has a feeding roller 25 and a cutting roller 28.
Is supplied to the insulating paper 3 that is being conveyed and is traveling on the guide path 24. The number of revolutions of the cutting roller 28 after activation is determined by the encoder 37 in the cutting control device 46.
When the number of rotations is reached by counting the output signal of the metal foil 22 and the rotation speed setting area corresponding to a predetermined length of the metal foil 22 (for example, the winding length for one rotation of the center rod 7) is reached, the cutting control device 46 brakes. emits a signal _{S b,} the electromagnetic class Tutsi brake 30
To disconnect the feed roller 25, and then the disconnection signal S
_c is emitted and the cutting machine 27 is operated to rotate the rotary blade 40 once. Accordingly, the metal foil 22 is cut by the cutting machine 27 in a state where the tension is momentarily applied between the feeding roller 25 and the cutting roller 28. When the cut metal foil 22 is supplied onto the insulating paper by the cutting roller 28, the motor 33 is stopped, the one-time supply of the metal foil is completed, and the same process is repeated thereafter, so that the insulating paper being continuously wound up. The metal foil is rolled in between.

As described above, since the metal foil is cut while the tension is applied by the braking of the feeding roller 25, the cut end surface of the metal foil is unlikely to have burr and the corona discharge is suppressed in the case of capacitor bushing. Is particularly preferred. Further, since the speed of the metal foil 22 is constantly controlled so that the metal foil 22 is supplied onto the insulating paper 3 at a speed of 1.05 to 1.3 times that of the insulating paper 3, the metal foil 22 being supplied is wound around the center rod 7. It is prevented that the metal foil is pulled by a force and is torn, or the metal foil is similarly torn when the feeding roll 25 is momentarily braked. Instead of controlling the supply speed of the metal foil 22, the supply speed is kept constant and the speed of the winding motor 6 is controlled to control the metal foil 2
The relationship between the speed of 2 and the speed of the insulating paper 3 may be maintained at the above ratio.

Further, in the above, as the rotation speed setting value in the cutting control device 46, the setting value that sequentially increases for each cutting according to the increase of the winding diameter with the progress of winding the insulating paper is set to the cutting control device 4
Select from data stored in 6 or encoder 1
Based on the output signal of 2, the cutting control device 46 calculates and uses it.

The present invention is not limited to the above embodiment, and for example, the encoder 37 for detecting the metal foil supply length may be attached to the shaft of the feed roller 25 or the motor 33. Further, instead of directly detecting the metal foil supply length by the encoder 37, the output of the encoder 12 attached to the center rod 7 is input to the cutting control device 46, and the rotation speed of the center rod 7 after starting the motor 33 is set to a predetermined value. A cutting command may be issued when the number of revolutions (for example, one revolution) is reached. In this case, it is not necessary to perform calculation such as change of supply length due to increase in winding diameter, and the control device is simple. Becomes Further, as the cutting machine, other types of cutting machines such as shear type may be used.

(Effect of the invention) As described above, according to the present invention, the metal foil is supplied onto the insulating paper being wound by the roller at a speed close to the winding speed. Therefore, even when the winding speed is high. Since a thin metal foil can be reliably wound between insulating papers, and the feeding control device controls the winding start position and the cutting control device controls the metal foil cutting length, respectively. If the position and the winding length are accurate, and especially if it is used in the core winding process of the capacitor bushing, it is possible to obtain a stable capacitor bushing of a quality with little variation among products.

Further, according to the present invention, since the metal foil is cut in a state in which tension is applied by the braking of the feeding roller by the brake, a clean cut end face with less burr can be obtained, and the capacitor blade manufactured by the device of the present invention can be obtained. Thing suppresses corona discharge and can be suitably used as a product for high voltage. Further, since the metal foil supply speed is maintained at 1.05 to 1.3 times the insulating paper speed by the speed control device, the metal foil is torn when the feeding roller is braked for cutting the metal foil. Therefore, it is possible to surely and smoothly cut the metal foil and obtain the above-mentioned good cut end surface.

[Brief description of drawings]

FIG. 1 is a device layout view 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, 11 ... Encoder, 12 ... Encoder, 20 ... Metal foil supply Equipment, 21 ... Metal foil roll, 22 ... Metal foil, 24 ...
Guideway, 25 ... Sending roller, 26 ... Sending roller, 2
7 ... Cutting machine, 28 ... Cutting roller, 29 ... Cutting roller, 30 ... Electromagnetic clutch brake (braking machine), 33 ...
... motor, 36 ... supply control device, 37 ... encoder, 43 ... motor, 46 ... disconnection control device.

Claims (1)

[Claims] 1. An insulating paper take-up device for rewinding an insulating paper from an insulating paper roll and winding it on a center rod driven by a take-up motor, and a metal foil rewound from a metal foil roll on a traveling path of the insulating paper. A metal having a cutting machine for cutting the metal foil, a feeding roller for feeding the metal foil to the cutting machine, and a cutting roller for feeding the metal foil that has passed through the cutting machine part, arranged in parallel along the guiding path for guiding. A foil feeding device, a brake for the feeding roller,
A supply control device that detects the rotation speed of the center rod and gives a supply command to the metal foil supply device for each predetermined rotation speed, and the brake when the metal foil supply length of the metal foil supply device reaches a predetermined amount. To the cutting machine and a cutting control device which gives a cutting command to the cutting machine, and the speed of the cutting roller driving motor or the winding motor to control the metal foil supply speed to the insulating paper supply speed of 1 A metal foil winding device provided with a speed control device for maintaining 0.05 to 1.3 times.