JPS59217565A - Linear material packing machine - Google Patents

Abstract

PURPOSE:To achieve random containing shape of linear material by providing a nozzle rotatably above a pack and feeding the linear material into the pack by the air flow through the nozzle while providing rotary motion at the leading edge of nozzle. CONSTITUTION:A nozzle 1 is provided rotatably around a fulcrum 2 above a pack 9 then while leading a linear member 10 into a path from the rear end of nozzle 1, rotary motion is applied at the leading edge of the nozzle 1 to feed the linear member 10 into the pack 9 by the air flow in the nozzle 1. When changing the rotary motion at the leading edge of nozzle 1, the linear member 10 can be contained in random shape.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a puncture remover that stores wire bodies in a pack.

Conventionally, the wire is stored in a wire in a ξ-tuck, and the wire is removed from the wire by winding the wire around a fixed capstan several turns to form a circle, and then wrapping the wire from the capstan with a claw. Holing machine tyzos that continuously drop the strips into the packs below, and systems in which belts are wrapped around a similar fixed capstan and are dropped into the packs below using R-shaped l-tuxes or pinch rolls, etc. are used. .

These methods make the equipment larger, more complicated, and more expensive.Furthermore, when handling filaments coated with plastic, problems such as the filaments sticking to the capstan occur, especially when cooling is insufficient. In addition, the large size of the device made it unsuitable for general use.

In addition, when using a capstan as in the past, the diameter of the filament ring to be housed in the bag is determined by the diameter of the capstan, and the diameter of the ξ is kept constant according to the diameter of the capstan. I needed to.

It is an object of the present invention to provide a simple and compact wire removal machine which eliminates the drawbacks of the prior art described above and also makes it possible to remove packs of thin wire objects due to insufficient cooling. It is about providing.

That is, the present invention aims to reduce the striatum sent out from above.
In the ξtsuku removal machine of the striatal body that accumulates in the ξtsuku,
Above the nozzle, there is a nozzle which has a filamentous body passage in the center and sends out the filamentous body introduced into the passage from the tip part by the flow of air, so that the tip part can rotate about the rear end part as a fulcrum. The filament is introduced into the filament passage from the rear end of the nozzle while giving a rotating motion to the tip of the nozzle, and the air flow inside the nozzle pulls the filament from the tip. This is a pack removing machine for the striatal body, which is characterized in that the pack is sent into the body.

The present invention will be explained below with reference to the present invention.

FIG. 1 is an explanatory view showing one example of the pack removing machine of the present invention, and FIG. 2 is a sectional view showing one example of the nozzle portion thereof.

- Is the striatum 10 that should be squeezed driven by the drive motor 8?
The liquid is taken up at a desired speed by a taking-off machine 7 driven by the pump and introduced into the nozzle 1.

The nozzle 1 has a linear body passage 1 in the center as illustrated in FIG.
1, a compressed air supply section 12, and a compressed air passage 13,
The supplied compressed air causes the filament 10 to fly out from the tip of the nozzle 1 at a constant speed.

A certain tension is applied to the filament body IO between the pulling machine 7 and the inlet of the nozzle 1 depending on the amount of air supplied, the size of the passage 11 of the nozzle 1, and the like.

The nozzle 1 is swingably mounted on a fulcrum 2 and rests against a guide 3 fixed on a rotary plate 4 which is rotatably held, and when the rotary plate is rotated by a drive motor and a gear 6, Guide 3 located a stone away from the center of rotation
Since it moves circularly and rotates the nozzle 1, the trajectory of the nozzle 1 becomes conical. Therefore, the filament 10 fed out from the nozzle 1 falls while making a downward circular motion when it exits the tip of the nozzle 1, and is housed in the pack 9 in a spiral shape.

At this time, the diameter Di of the circle of the filament 10 when it is housed in the groove 9 is between the rotational speed N (rpm) of the rotating disk 40 and the speed V (m/min) at which the filament 10 is drawn out. There is a relationship: Di=V/Nπ. Therefore, Di can be arbitrarily changed by changing the position of the guide 3, the amount of eccentricity with respect to the rotation center, and the rotation speed N. (However, V is constant.) In the above example, the movement of the nozzle was illustrated as a circular movement due to the rotation and eccentricity of the disk, but the present invention is not limited to this, and may be caused by a crank or in a straight line. It can also be performed by exercise, compound exercise, etc.

Since the present invention is configured as described above, it has the following effects.

(1) The structure of the device is simple and compact, and its general applicability is improved.

(2) Even striated bodies that have been colored with plastic and have not been sufficiently cooled can be processed without causing problems such as sticking of the plastic.

(3) Even thin filaments with light weight can be processed.

(4) Since the striated body is sent into the six tubes using air flow, excessive tension is not applied to the striated body.

(5) The diameter of the circle of the striatum in the pack can be changed arbitrarily.

(6) By changing the motion of the nozzle, the storage shape of the filament can be made into any shape, not just a circle.

[Brief explanation of drawings]

FIG. 1 is an explanatory view showing an example of a pack removing machine of the present invention, and FIG. 2 is a sectional view showing an example of a nozzle used in the present invention. l... Nozzle part, 2... Fulcrum, 3...
... Guide, 4 ... Rotating plate, 5 ...
・Drive motor, 7... Taking machine, 8...
Take-up drive motor, 9...Pack, 10...
...Striatal body, 11...Striatal body passageway, 12...
...Air supply section. No. 11 City map 2

Claims (1)

[Claims] (1) In the striae removal machine that stores the striae sent from above into the pack, above the pack,
A nozzle that has a filament passageway in the center and sends out the filament introduced into the passage from the tip part by air flow is provided so that the tip part can rotate using the rear end as a fulcrum. While the body is introduced into the striatal body passage from the rear end of the nozzle, a rotational motion is applied to the tip of the nozzle, so that the air flow within the nozzle causes the filament to be sent from the tip into the puncture. A striatal pack removal machine characterized by the following.