JPS6155070A - Improvement device for amount of filling up pack of linear coiler - Google Patents

Abstract

PURPOSE:To make a rolled coil look neat in order and to increase the amount of filling up a coil by giving intermittent revolution to a guide ring left to be eccentric to the center of a linear coiler at rotational speed in a mutual relation with linear speed. CONSTITUTION:The center A of a guidering 51 in a coil pattern lay apparatus 5 placed between an empty pack (linear grasping apparatus) 2 and a pot with a roller coil (linear coiler) 3 is revolved in form of a non concentric circle with regulated eccentricity, with respect to the center of the pot 3, with a rolled coil in other words, a falling center B of a coil 41. As the result, the coil 41 coming out of the pot 3 with a rolled coil makes sliding contact with the internal wall 51a of the guidering 51, and falls successively into the pack 2 to be accumulated in form of a non concentric circle with regulated eccentricity. Thus, rate of filling up a saved line of the coil 41 can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a device for improving the pack filling amount of a linear coiler.

[Conventional technology and its problems]

Conventionally, there are two methods for large-sized wire coilers: a method in which the entire coil carrier is taken out, and a method in which the coil is taken out in packs, and there are also methods in which the coil is rotated by the carrier or the coil, and methods in which the coil is not rotated. In either case, the filling rate of the coil wound on the carrier or pack located directly below the coil winding pot is low, which is not seen in the Zepin winding system. In other words, Jurai's technology uses a method that improves the coil storage filling rate by setting a carrier or pack directly below the coil winding pot on a turntable and rotating it. There is. To replace the filled carrier or packed pack by discharging it directly below the coil winding pot and sending in an empty carrier or empty/qtsuku in its place, close the shutter of the wire coiler and stop the falling of the wire.
This is done by manually moving a filled carrier or pack, cutting the filament, manually feeding an empty carrier or pack directly below the filament coiler, opening its shutter, and restarting the filament coiler.

Because of this, it is time-consuming to change carriers or packs.
There were some drawbacks. In particular, empty carriers or empty packs
When coiling, it is necessary to sequentially shift the winding position of the filament and coil it in a petal shape.The filament coiler is installed on a turntable under the filament coiler, so when replacing the carrier or wire coiler, it is necessary to You have to lift the Tsuku from the turntable and attach and detach the rotation stopper from the turntable, which is also time consuming.
There were some drawbacks. In addition, there is a device that uses a vertical impact device to impact the carrier or pack during operation of the wire coiler to improve the coil storage filling rate, but this device not only does not have sufficient effect, but also prevents the next step. This had the drawback of causing tangles in the process, resulting in unavoidable malfunctions.

[Problem that the invention seeks to solve]

As mentioned above, the conventional technology has problems such as a low filling rate of the coil, the time and effort required to replace the carrier or screw, and the fact that the coil may become tangled in the next process. be.

[Means for Solving the Problem] In order to solve this problem, the present invention provides a coil pattern lay device having a guide ring above the wire gripping device and below the wire coiler. .

[Effect]

The guide ring of the coil pattern lay device is intermittently rotated eccentrically with respect to the center of the filament coiler at a rotational speed that correlates with the linear velocity.

〔Example〕

FIG. 1 shows an embodiment of a device for improving the pack filling amount of a linear coiler according to the present invention. FIG. 1 shows a wire-picking device, such as an empty grip 2 or the like, carried by a roller conveyor 1, and a wire coiler, such as a coil winding device, located directly above it and having an open end below. A state in which a coil 41 of the filament 4 is formed from the hook 3 and wound downward is shown. The coil 41 is shown in a state where the coil 41, which is disposed above the hook 2 and below the coil winding pot 3, is formed and wound downward. The coil 41 is dropped into the /1' block 2 by the coil pattern lay device 5 disposed above the pack 2 and below the coil winding pot 3 at its wire storage position 42.
is controlled. In other words, the screw 2 and the coil winding pot 3
The center A of the guide ring 51 of the coil putter/lay device disposed between the two is rotated in a regular eccentric non-concentric manner with respect to the center of the coil winding pot 3 and thus the falling center B of the coil 41. Instead, the coil 41 coming out of the coil winding pot 3 slides against the inner wall 51a of the guide ring 51, falls into the puncture 2 one after another, and is deposited in regular eccentric non-concentric circular chisels.

FIGS. 2 and 3 show a coil/S turnlay device 5 and a device for rotationally driving the same, such as a continuously variable transmission mechanism 6. FIG. The guide ring 51 of the coil/S-turnlay device 5 is rotated intermittently by the continuously variable transmission mechanism 6, and the guide ring 51 is rotated intermittently by a continuously variable transmission (ilj controlled by the rotation mechanism 6) so that its rotational speed is in correlation with the linear speed. 1, guide ring 5
The center A of the pack 2 can be moved in the longitudinal direction by the transmission device 61, so that the wire storage position 42 in the pack 2 can be adjusted optimally.

In this way, in the present invention, the coil 41 is connected to the guide ring 5.
It is possible to drop the coil while making contact with the inner wall 51a of 1, and to take the coil in the shape of petals by sequentially shifting the falling direction in the circumferential direction.
Furthermore, by intermittent rotation of the guide ring 51, the wire storage filling rate of the coil 41 is improved, and a wire grip having uniform performance over the entire length of the wire and which does not cause tangles during uncoiling is manufactured.

As is clear from the above description, the puncture filling amount improving device according to the present invention has excellent features in that the mechanism and operation are extremely simple compared to conventional devices, and it greatly contributes to improving efficiency.

〔Effect of the invention〕

The present invention has the following advantages: (1) The winding appearance (bundle) of the coil is orderly and neat, (2) it unravels smoothly without getting tangled during use, and (3) the entire volume of the east is convoluted and the coil filling amount is In addition to producing a number of great practical effects such as an increase in the energy consumption, it also makes it possible to automate the device by unmanned monitoring of the coiler, and its industrial value is extremely large.

, 1 [C] Simple explanation of the drawings 7' 151 is a side sectional view showing a 1 m example of the present invention, and Figures 2 and 3 are coils used in the present invention. tar·
A plan view showing the f device together with its continuously variable transmission mechanism,
FIG.

2... Punk, 3... Coil winding pot, 4... Linear,
41... Coil, 5... Coil nomi turn lay device,
51...Guide gear, 6...Continuously variable transmission mechanism.

Yu 1st

Claims (1)

[Claims] a filament grasping device, a filament coiler located directly above the filament grasping device and having an open end downward; and a filament coiler disposed above the filament grasping device and below the filament coiler. A coil pattern lay device having a guide ring, and a drive device that rotates the guide ring intermittently at a rotational speed correlated with the linear speed and eccentrically with respect to the center of the linear coiler. Features: A device for improving the pack filling amount of a linear coiler.