JPH0617188B2 - Belt-shaped traveling device - Google Patents

Description

Description: [Industrial field of use] The present invention relates to a traveling device for a belt-like material capable of overfeeding the belt-like material.

[Prior Art] When a belt-like material such as cloth is subjected to heat treatment in a state where it is straightly extended in its longitudinal direction and heat shrinkage occurs, the heat shrinkage state becomes strange. After being bent into a corrugated shape along the longitudinal direction, heat treatment is performed.

Conventionally, there are the following devices for making the belt-like material run in a wave shape.

As a first device, a belt-like material is supplied from above the conveyor at a supply speed u higher than the traveling speed v to a conveyor that moves at a traveling speed v, and the belt-like material travels on the upper surface of the conveyor in a wave shape. I am letting you. In this device, the point of forming the corrugated strip is the difference between the traveling speed v of the conveyor and the supply speed u for supplying the strip to the conveyor,
By making the supply speed u faster than the traveling speed v, the belt-like material was formed in a wave shape on the upper surface of the conveyor.

As a second device, a belt-like object is continuously run between two mouse wheels, and the cloth is formed in a corrugated shape by the shape of the protrusion provided on the outer periphery of the mouse wheel, and the running speed is set at this speed. It was supplied on a conveyor running at v.

[Problems to be Solved by the Invention] In the above two devices, in order to increase the amplitude of the corrugated strip, the supply speed u is more than the traveling speed v.
Should be faster. However, in the above two devices, when the supply speed u is 1.5 times or more than the traveling speed v, there is a problem that the shape of the belt-like material is broken on the conveyor and the corrugated material is not formed into a normal shape.

In addition, when a wave with a light weight of 20 to 40 g / m ² is used as the belt-like material, the belt-like material is wrapped around by the static electricity of the nip roll that is fed to the conveyor, and due to the effect of wind, it does not become a clean wave shape on the conveyor. This results in a partial change in the ratio of the traveling speed v and the supply speed u (hereinafter referred to as the overfeed rate). In particular, the influence of this wind is remarkable when the peripheral speed of the nip roll is 50 m / sec or more, and there is a problem that the change of the overfeed rate becomes severe.

[Object of the Invention] In view of the above problems, the present invention provides a traveling device for a belt-like object that can stably supply the belt-like object to a conveyor and can always supply a clean corrugated belt-like object.

[Means for Solving the Problems] A belt-shaped traveling device of the present invention is a net-shaped conveyor for continuously traveling a belt-shaped object at a predetermined traveling speed, and a belt-shaped object on the upper surface of the conveyor from the traveling speed. A supply device that supplies at a high speed, and a suction device that has a suction port below the conveyor in the vicinity of the falling point of the belt-shaped material supplied from the supply device to the conveyor, and the band-shaped material that is supplied from the supply device is aforesaid. While the suction device sucks on the upper surface of the conveyor, the belt-shaped material is over-fed by the speed difference between the supply speed of the supply device and the traveling speed of the conveyor, and the wavy shape of the cond bear is substantially formed in the longitudinal direction. It runs on the top surface.

[Operation] With the belt-shaped material traveling device having the above-described configuration, the belt-shaped material is supplied from the supply device to the upper surface of the conveyor at a supply speed higher than the traveling speed of the conveyor. The belt-shaped material reaching the upper surface of the conveyor is sucked onto the upper surface of the conveyor by the suction force from the suction port of the suction device, and is moved from the dropping point by the conveyor. In this case, since the supply speed is set to be higher than the traveling speed, the belt-like material moves in the longitudinal direction in a wave shape and moves on the conveyor.

[Embodiment] An embodiment of the present invention will be described below with reference to FIGS. 1 and 2.

The code F is a cloth which is one of the strips, and the weight thereof is about 30 g / m ² .

Reference numeral 10 denotes a cloth running device of the present embodiment, which is provided with a heat treatment device (not shown).

Reference numeral 12 is a net-shaped conveyor that travels from left to right in FIG. This traveling speed is set to v.

Reference numerals 14 and 16 denote nip rolls for supplying the cloth F 1 to the conveyor 12, and the cloth F 1 travels between the nip rolls 14 and 16. And this nip roll
The rotation speed of 14 and 16 determines the supply speed u of the cloth F.

Reference numeral 18 is a suction device, which is a fan (not shown) behind the ducts 20 and 22, the suction box 24, and the duct 20.
Consists of. The suction box 24 is provided below the conveyor 12, and the positions where the suction box 24 is provided are nip rolls 14 and 16
It is provided below the falling point of the cloth F supplied from the conveyor 12 to the conveyor 12, that is, the point A in the figure. A suction port 26 is provided on the surface of the suction box 24 facing the conveyor 12. As shown in FIG. 2, the suction port 24 has a rectangular shape, and its width is substantially the same as the width of the conveyor 12. The suction port 26 has a structure in which a plurality of circular holes are provided, and slide-like windshield plates 28 are provided at both ends of the suction port.
By sliding 8 and 28 inward, the length of the opening portion of the suction port 26 in the width direction can be changed. Duct 2
0 and 22 extend downward from the bottom of the suction box 24 and are connected to the fan. Then, by operating this fan, the suction port 26 of the suction box 24
It has a structure that draws in air from.

Reference numeral 30 is a windshield, which is provided along the upper surface of the suction box 24 in the traveling direction of the conveyor 12.

The operating state of the traveling device 10 having the above configuration will be described below.

First, the conveyor 12 is run at the running speed v, and the fan is moved to suck air from the suction port 26 of the suction box 24. Next, the nip rolls 14 and 16 are rotated to supply the cloth F to the point A on the upper surface of the conveyor 12. The fabric F supplied to the point A by the nip rolls 14 and 16 is conveyed by the suction force from the suction port 26 to the conveyor.
It is sucked on the upper surface of 12. In this case, since the conveyor 12 is formed on the net, the suction force from the suction port 26 is not hindered. Fabric supplied at supply rate u
F is sucked onto the upper surface of the conveyor 12 and moves forward at a traveling speed v. In this case, due to the relationship of u> v, the fabric F is formed in a wavy shape on the moving conveyor 12 as shown in FIG. In particular, since the cloth F 1 is sucked onto the conveyor 12 by the suction force from the suction port 26, the cloth F 2 is not disturbed even when the wind blows, and the cloth F 2 does not slip on the conveyor 12. As a result, the overfeed rate, which was achieved only with a low overfeed rate like the conventional traveling device, is 150% or more, that is, 200%.
The traveling device 10 can drive the cloth F at an overfeed rate up to the vicinity. Furthermore, even the light-weight cloth used in this example can be formed in a corrugated shape with a high rate of overfeed.

The point at which the suction port 26 of the suction box 24 is provided is preferably slightly forward of the point of fall A of the cloth F 1. Further, with the traveling device 10 of the present embodiment,
By sliding the windshields 28, 28, the width of the suction port 26 is changed according to the width of the cloth F, so that the cloth F is always better.
Can have a corrugated shape.

[Advantages of the Invention] As described above, the traveling device for a belt-shaped article of the present invention is:
When the belt-shaped material is supplied from the supply device, the belt-shaped material F is sucked onto the conveyor by the suction from the suction port, so that the corrugations having the same shape can be always formed without being affected by the wind. Further, since the supplied belt-like material does not slip on the conveyor due to suction, a higher overfeed rate than the conventional traveling device can be realized.

[Brief description of drawings]

FIG. 1 is a side view of a traveling device for a belt-like object showing one embodiment of the present invention, and FIG. 2 is a plan view of the suction box. [Explanation of Codes] 10 ... Traveling device 12 ... Conveyor 14 ... Nip roll 16 ... Nip roll 18 ... Suction device 20 ... Duct 22 ... Duct 24 ... Suction box 26 ... Suction port 28 ... Windshield plate 30 ... Windshield

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-1-162681 (JP, A) JP-A-60-242157 (JP, A) Actual development Shou 59-164722 (JP, U)

Claims (1)

[Claims] 1. A net-shaped conveyor for continuously traveling a belt-shaped object at a predetermined traveling speed, a supply device for supplying the belt-shaped object to the upper surface of the conveyor at a speed higher than the traveling speed, and a supply device for supplying the belt-shaped object. And a suction device having a suction port below the conveyor in the vicinity of the falling point of the belt-shaped conveyor to the conveyor, the suction device sucks the belt-shaped material supplied from the supply device to the upper surface of the conveyor, and the supply A traveling device for a strip-shaped article, characterized in that the strip-shaped article is over-fed by a speed difference between a supply speed of the apparatus and a traveling speed of the conveyor to make a substantially corrugated shape in a longitudinal direction thereof to travel on the upper surface of the conveyor. .