JP2002020965A - Method for treating fibrous product and device for treating the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To aim at the improvement of a uniform treating effect by giving a change in the flow of a treating liquid penetrated among treated materials to make the contact between the treated materials and the treating liquid as complex. SOLUTION: This device for treating a fibrous product consists of a beam tube 12 having holes for winding the material to be treated consisting of fibers, a rotating mechanism 7 for rotating the beam tube 12, a treating liquid- circulating passage 18 for flowing out the treating liquid from the above beam tube 12 through the inside of the material to be treated 13 to a treating vessel 1 and sending with a pressure to the above beam tube once more, and a transmission means 6a for changing the speed of rotation of the above beam tube 12.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for treating textile products utilizing centrifugal force.

[0002]

2. Description of the Related Art Conventionally, as a method of treating fiber products using centrifugal force, for example, as described in JP-B-46-37388 and JP-B-64-11744, a fiber to be treated is wound on a perforated beam. There is a method in which the perforated beam is rotated, the processing liquid flows into the perforated beam, and the processing liquid is passed through the fiber to be processed by centrifugal force to perform dyeing or the like.

[0003]

In the above-mentioned conventional processing method, a low bath ratio dyeing can be achieved, but in order to obtain a good dyeing result efficiently, the winding density of the fiber to be treated and the winding density of the fiber to be processed must be reduced. Processing solution circulation flow rate, perforated beam rotation speed, etc.
Severe condition setting was required, and there were restrictions on processed products.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method and an apparatus for treating textile products, which can obtain good treatment results efficiently even at a low bath ratio.

[0005]

According to a first aspect of the present invention, there is provided a beam tube in which a plurality of holes are formed, and an object to be processed made of fibers is wound around an outer periphery of the beam tube. And
While rotating the beam tube, the processing solution in the beam tube is
After permeating into the object through the hole formed in the beam tube and then flowing out from the outer peripheral surface of the object to process the fiber product, changing the rotation speed of the beam tube during the process The method for treating textile products is characterized by the following.

According to a second aspect of the present invention, in the first aspect, the gravitational acceleration due to the rotation of the outer periphery of the workpiece wound around the beam tube changes within a range of 0 to 100 G. This is a method for treating textile products, wherein the rotation speed of the beam tube is changed.

According to a third aspect of the present invention, there is provided a perforated beam tube for winding an object made of fiber, a rotating mechanism for rotating the beam tube, and a processing liquid from the beam tube by a pump. A textile product processing apparatus, comprising: a processing liquid circulation path that flows into a processing tank through an object to be processed and is again pumped to a beam tube; and a speed change unit that changes a rotation speed of the beam tube. is there.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described based on an embodiment shown in the drawings.

In the processing tank 1, a processing liquid ejection pipe 3 arranged in a substantially horizontal direction protrudes from the wall 2, and a portion of the processing liquid ejection pipe 3 located in the processing tank 1 is injected with the processing liquid. A large number of holes 3a are formed, and the processing liquid is ejected from the inside of the tube 3 to the outer peripheral portion. The processing liquid ejection pipe 3 is a wall 2
The outer part 3b is formed of a pipe having no hole around it, and the outer part 3b is formed by a bearing part 4 such as a bearing so that the pipe 3 rotates around its axis. It is supported by.

A pulley 5 is fixed to the processing liquid ejection pipe 3, and the pulley 5 is rotated by a motor 6 to rotate the processing liquid ejection pipe 3. The pulley 5 and the motor 6 constitute a rotation mechanism 7. The rotation speed of the processing liquid injection pipe 3 is arbitrarily controlled from a stop and a low speed to a high speed.
The rotation speed is controlled arbitrarily.

A rotary joint 8 is provided at the outer end of the processing liquid ejection pipe 3.

A processing liquid jet pipe 3 protruding into the processing tank 1.
A flange-shaped stopper 9 is fixedly provided on the outer periphery located at the inner part of the tank, and a flange-shaped beam tube holder 11 is supported by a one-touch holder 10 at the tip. Between the stopper 9 and the beam tube holder 11, a beam tube 12 having a diameter larger than that of the processing liquid ejection tube 3 is installed substantially horizontally.
A large number of holes 12a are formed in the beam tube 12, and when the beam tube 12 is set, the axial formation range of the hole 12a in the beam tube 12 and the axis of the hole 3a of the processing liquid ejection tube 3 The forming ranges in the directions substantially match each other.

An object 13 which is a fiber product is wound around the outer periphery of the beam tube 12.

The front side of the processing tank 1 is closed by a lid 14 which can be opened and closed.

A processing liquid storage section 15 for storing the processing liquid in the processing tank 1 is provided below the processing tank 1. The processing liquid storage section 15, a pump 16, a heat exchanger 17, and the rotary The processing liquid in the processing tank 1 is circulated by pressure into the processing liquid ejection pipe 3 through a processing liquid circulation path 18 including a joint 8 and a pipe connecting these.

The operation sequence is as follows. When the machine is stopped, the lid 14 is opened, and the beam tube 12 around which the object 13 is wound is inserted from the opening side of the processing tank 1 with the lid 14 opened. Then, the beam tube 12 is positioned against the stopper 9, and the beam tube 12 is fixed to the processing liquid ejection tube 3 at the outer periphery of the perforated portion with respect to the processing liquid ejection tube 3 by the beam tube holder 11 and the one-touch holder 10.

Next, the cover 14 is closed, and after a predetermined amount of water is supplied (normal bath ratio of 1: 3 to 1: 5), the pump 16 is operated. By the operation of the pump 16, the processing liquid is controlled to a predetermined temperature by the heat exchanger 17, is pressure-fed from the rotary joint 8 into the processing liquid ejection pipe 3, passes through the processing liquid ejection pipe 3, and is treated with the processing liquid. Beam tube 12 from ejection hole 3a
, And further penetrates into the processing object 13 through the hole 12 a of the beam tube 12, flows out into the processing tank 1 from the outer peripheral surface of the layer of the processing object 13, and is stored in the processing liquid storage unit 15. Then, it is pumped again by the pump 16 and this circulation is repeated.
Due to the circulation of the processing liquid, the pump 16 is operated without causing cavitation to perform processing.

The beam tube 12 is rotated by the rotation mechanism 7. This rotation is performed by controlling the rotation speed of the motor 6 by a transmission means 6a such as an inverter, and repeating the increase in rotation speed, the reduction in rotation speed, and the stop state stepwise from the stop state. By changing the rotation speed of the beam tube 12 regularly or irregularly in this way, the gravitational acceleration due to the rotation of the outer periphery of the object wound around the beam tube 12 changes regularly or irregularly, and the centrifugal force is changed. As a result, the flow rate and the flow state of the processing liquid that permeates the object to be processed change. When the passing flow rate and the flow state of the processing liquid change as described above, the contact state between the processing target and the processing liquid becomes complicated, and the uniform processing efficiency is improved.

Next, an example of a change in the gravitational acceleration due to the rotation of the outer periphery of the workpiece will be described.

The gravitational acceleration was changed under the following conditions.

Fiber used is 100% polyester tape 5 (kg) Processing flow rate 15 (L) Beam tube inner diameter 160 (mm) Beam tube length 350 (mm) Winding tape outer diameter 260 (mm) Dyeing liquid temperature control The temperature was raised from 40 ° C. to 130 ° C. over 40 minutes, and then kept at 130 ° C. for 20 minutes.

Under the above conditions, the gravitational acceleration was changed as follows.

Step 1 Gravity acceleration 0 for 60 seconds Step 2 Gravity acceleration 20G for 90 seconds Step 3 Gravity acceleration 100G for 60 seconds Step 4 Gravity acceleration 20G for 90 seconds The above steps were repeated.

As a result, good dyeing results were obtained efficiently in low bath ratio dyeing.

When the gravitational acceleration was set to 100 G or more, the processing solution passed through the object to be processed at a too high speed, so that uniform processing (such as dyeing) could not be obtained. Therefore,
The rotation speed of the beam tube 12 is set to 0 to 100 G
It is desirable to change within the range.

The present invention is applicable to dyeing, refining, bleaching and other treatments of textiles.

Although the above embodiment is an example of a horizontal type in which a processing liquid ejection pipe and a beam pipe are arranged substantially horizontally, the present invention may be applied to a vertical type in which these are vertically arranged.

[0028]

As described above, according to the present invention, the flow of the processing liquid penetrating between the processing objects is changed, so that the contact between the processing object and the processing liquid becomes complicated, The average processing efficiency can be improved, a good processing result can be obtained efficiently even in low bath ratio processing, and the versatility can be expanded.

[Brief description of the drawings]

FIG. 1 is a side sectional view showing an embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Processing tank 3 Processing liquid ejection pipe 3a hole 6 Motor which is a rotating mechanism 6a Transmission means 12 Beam tube 12a hole 13 Workpiece 14 lid 16 Pump 18 Processing liquid circulation path

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Shigeaki Iino 623 Rokuten, Kurobe-shi, Toyama F-term (reference) 3B154 AA07 AB20 BA01 BA03 BA07 BB08 BB32 BB43 BB76 BC26 BF14 CA39 DA30 4H057 AA02 AA03 DA01 DA34 FA05 FA13 FA23 GA07 GA15 GA24 HA14

Claims (3)

[Claims] 1. An object to be processed made of fiber is wound around the outer periphery of a beam tube having a large number of holes formed therein, and the processing solution in the beam tube is rotated by rotating the beam tube. A method for treating a fiber product by infiltrating into the object to be treated and then flowing out from the outer peripheral surface of the object to be treated, wherein the rotation speed of the beam tube is changed during the treatment. Method. 2. The rotation speed of the beam tube is changed so that the gravitational acceleration due to the rotation of the outer periphery of the object wound around the beam tube changes within a range of 0 to 100G. A method for treating a textile product according to claim 1. 3. A perforated beam tube for winding an object to be processed made of a fiber, a rotating mechanism for rotating the beam tube, and a processing tank which pumps a processing solution from the beam tube into the object to be processed. A processing liquid circulating path for causing the processing liquid to flow out to the beam tube again, and a speed changing means for changing a rotation speed of the beam tube.