JPH086247B2 - Method for heat treatment of flexible tubular body and suspension device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat treatment method for a flexible tubular body such as a tubular woven cloth and a suspension device suitable for carrying out this heat treatment method.

[0002]

2. Description of the Related Art A tubular woven cloth needs to be subjected to a heat treatment when the resin is coated on the inner and outer circumferences of the tubular woven cloth. Conventionally, this heat treatment has been performed without supporting the inner peripheral surface of the tubular woven fabric. However, since the tubular woven fabric shrinks due to heating, it is difficult to maintain the predetermined diameter of the tubular woven fabric by the heat treatment.

[0003]

Therefore, according to the present invention, it is possible to maintain a predetermined diameter of a flexible tubular body such as a tubular woven cloth even by heat treatment, and transfer the tubular body. It is an object of the present invention to provide a heat treatment method for a tubular body capable of smoothly performing the above. Another object of the present invention is to provide an apparatus suitable for the heat treatment method for the tubular body having flexibility.

[0004]

The present invention solves the above problems by the following heat treatment method for a tubular body. The heat treatment method for a tubular body according to the present invention comprises a lower feeding device in which rotating means such as bearings are arranged circumferentially at substantially equal intervals, and the lower feeding device is supported at predetermined positions, and rotating means such as bearings are circumferentially equally spaced. Coordinated
And the upper feeder supported by placing the rotary means on the rotating means of the lower feeder, the top feeder
The suspension rod is hung downward, an expansion frame having a predetermined diameter is suspended below the suspension rod, and the upper feeding device is arranged on the inner circumference of a flexible tubular body such as a tubular woven cloth. The tubular body inside the tubular body, place the tubular body upwards between the two rotating means.
It is characterized in that the heat treatment is carried out while maintaining the tubular shape of the tubular body by passing the tubular body downwardly from the inside and enlarging the tubular body along the outer circumference of the expansion frame. Further, the present invention solves the above problems by the following suspension device. The suspension device of the present invention is
A lower <br/> section feeder coordinated with substantially equal intervals rotating means such as circumferentially bearing, between approximately like a rotating means such as a bearing circumferentially
Remotely arranged upper feeder and downward from the upper feeder
The hanging rod that was hung down toward it and the hanging rod that was hung at the bottom of this hanging rod.
It is equipped with an enlarged frame of a predetermined diameter that has been lowered,
The rotating means is mounted on the rotating means of the lower feeder.
Allows the upper feeder to be supported by the lower feeder.
I have. Then, both the upper feeder and the lower feeder are rotated.
A flexible tubular body such as a tubular woven cloth should be placed between the rolling means.
And pass it downward, and put this tubular body along the outer circumference of the expansion frame.
It was done like this. Another suspension device of the present invention is one in which rotating means such as rollers that rotate by themselves are arranged at substantially equal intervals in a circumferential shape.
The lower feeding device and the rotating means such as rollers are circumferentially arranged at substantially equal intervals.
Remotely arranged upper feeder and downward from the upper feeder
The hanging rod that was hung down toward the bottom
It is equipped with an enlarged frame of a predetermined diameter that has been lowered,
The rotating means is mounted on the rotating means of the lower feeder.
Allows the upper feeder to be supported by the lower feeder.
I have. Then, both the upper feeder and the lower feeder are rotated.
A flexible tubular body such as a tubular woven cloth should be placed between the rolling means.
And pass it downward, and put this tubular body along the outer circumference of the expansion frame.
It was done like this.

[0005]

According to the present invention, the lower feeding device having the rotating means such as the bearings arranged in the circumferential direction is supported at a predetermined position, and the upper feeding device having the rotating means such as the bearing is provided. It is supported by being placed on a rotating means, an expansion frame of a predetermined diameter is hung on the upper feeding device, and the upper feeding device is arranged on the inner circumference of a flexible tubular body such as a tubular woven cloth. Since the tubular body is made to pass between the rotating means of both with the lower feeding device being arranged in the tubular body, the tubular body passes smoothly between the rotating means of both while maintaining the tubular state, Go to the enlargement frame suspended by the feeder. Therefore, it is possible to surely suspend the expansion frame, and at the same time, to smoothly feed the tubular woven fabric. Especially, the enlargement frame hangs when suspended from above.
Therefore, the tubular body passed around the outer circumference is
Therefore, it is enlarged uniformly under the same conditions. And the tubular body is
Since the tubular body is subjected to the heat treatment along the outer circumference of the expansion frame, this tubular body maintains a tubular shape having a predetermined diameter. here,
The upper feeder has the load of the expansion frame and the feeding resistance of the tubular body.
Force is applied downwards and is applied to the upper feeder.
Force on the tubular body passing between the two feeders. So
At this time, in the present invention, the upper feeding device and the lower feeding device
However, in both cases, rotating means such as bearings are arranged at substantially equal intervals.
Force on the upper feed device
Is approximately evenly distributed over the entire circumference of the tubular body that serves between the two feeders.
Etc., the tubular body may be unevenly stretched or
It is possible to prevent the occurrence of habits and wrinkles. Only
Even the expansion frame is connected to the upper feeder through the suspension rod.
Change the diameter of enlargement by the enlargement frame
In this case, just change the enlargement frame, and
The replacement is also easy. Further, the lower feeding device is configured such that a means for rotating itself such as a roller is arranged in a circumferential shape, so that the tubular body can be forcibly fed. Therefore, even when the upper feeder is strongly pulled downward,
The tubular body can be smoothly fed.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic view of a heat treatment apparatus for tubular woven cloth. First, an outline of the heat treatment apparatus and the heat treatment method will be described based on this figure. This device includes a first drum 11 that winds a tubular woven fabric a that is an object to be processed, a first guide roller 21 arranged above the first drum 11, and a right side of the first guide roller 21 in the figure. Driven second guide roller 22 arranged
And the suspension device 4 arranged below the second guide roller 22.
An expansion frame 6 suspended from the suspension device 4 via a suspension rod 5, a heating device 7 arranged around the expansion frame 6, a cooling device 8 arranged below the heating device 7, and a cooling device. Lower drive roller 9 arranged below device 8 and third and fourth guide rollers 23, 24 arranged on the right side of lower drive roller 9 in the figure.
And the second drum 12 arranged on the right side thereof. The suspension device 4 includes a lower bearing 42 supported and fixed to a device main body (not shown), an upper bearing 41 supported by the lower bearing 42, and a conical guide tube 3 mounted on the upper bearing 41. Prepare Above suspension rod 5
Has its upper end fixed to the center of the upper bearing 41. The tubular woven fabric a, which is the object to be processed, is wound around the first drum 11 in a crushed state, and is unwound from the first drum 11 in that state, and the first guide roller 21 and
The drive type second guide roller 22 reaches above the main part of the apparatus. Next, the tubular woven fabric a, which is the object to be processed, is guided by the conical guide tube 3 mounted on the upper bearing 41 of the suspension device 4 and expanded from the crushed state to the original tubular shape. The tubular woven fabric a spread in a tubular shape passes between the bearing ball 43 of the upper bearing 41 and the bearing ball 44 of the lower bearing, and the upper bearing 4
1 Enlargement frame 6 connected to suspension rod 5 connected to the center
Passed through. The expansion frame 6 has a cylindrical shape and is expanded in a circumferential shape having a predetermined diameter. Further, the enlargement frame may be of a ladder shape in which a large number of horizontal rods are arranged between a pair of left and right vertical rods. In this case, the tubular woven fabric a is passed through the expansion frame in a state of an elliptical cross section. In addition, the outer circumference of the expansion frame 6 is the guide tube 3
Of the upper bearing 41 and the outer circumference of the upper bearing 41 are substantially equal to or larger than the outer circumference of the upper bearing 41.
Is approximately equal to the outer circumference of. The tubular woven fabric a is heated by the heating device 7 that surrounds the outer periphery of the expansion frame 6 while passing through the outer periphery of the expansion frame 6, and the expansion frame 6 continues to maintain a circumferential shape having a predetermined diameter during the heating. The tubular woven fabric a thus heat-treated is forcibly cooled by the cooling device 8. It is also possible to perform natural cooling without using the cooling device 8. Finally, the cooled tubular woven fabric a is pulled out by the lower drive roller 9, and the third and fourth guide rollers 2
The entire process is completed by being guided by the units 3 and 24 and being wound around the second drum 12.

A preferred embodiment of the suspension device 4 will now be described in detail with reference to FIGS. As described above, the suspension device 4 includes a lower bearing 42 supported and fixed to the device body (not shown) and a lower bearing 42.
And an upper bearing 41 supported by. The lower bearing 42 has a large number of bearing balls 4 as shown in FIG.
4 are arranged in a circular shape, and the inner peripheral surface 46 is a tapered surface whose inner diameter becomes smaller as it goes downward.
The entire lower bearing 42 is fixed to the apparatus main body (not shown) by the flange 47. On the other hand, the upper bearing 41 has a large number of bearing balls 4 as shown in FIG.
3 are arranged in a circumferential shape, and the outer peripheral surface 45 thereof is a tapered surface whose outer diameter decreases as it goes downward.
The suspension rod 5 extends vertically through the center of the upper bearing 41, and its upper end is fixed to the upper surface of the upper bearing 41 by a fixing nut 48. Further, the guide tube 3 is attached to the upper end of the suspension rod 5.
The upper bearing 41 is mounted on the lower bearing 42 such that the bearing balls 43 are located between the bearing balls 44 of the lower bearing 42. The tubular woven fabric a passes between the bearing ball 43 of the upper bearing 41 and the bearing ball 44 of the lower bearing 42,
It goes toward the expansion frame 6 attached to the lower end of the suspension rod 5.
Therefore, in this suspension device, the expansion frame 6 is attached to the lower end of the suspension rod 5 connected to the upper bearing 41, and the upper bearing 41 is supported by the lower bearing 42 fixed to the device body (not shown). As a result, the expansion frame 6 can be reliably suspended, and at the same time, the tubular woven fabric a can be smoothly fed.

Another preferred embodiment of the suspension device 4 will now be described in detail with reference to FIGS.
This suspension device is configured to allow the tubular woven fabric a having a relatively large diameter to be fed more smoothly. That is, in the above example, the upper bearing 41 is strongly pulled downward. As the downward force, the weight of the expansion frame 6 attached via the suspension rod 5 or the tubular woven fabric a when heated through the expansion frame 6 is contracted by heating and the expansion frame is tightened and pulled downward. One can cite the downward force. If the downward force is too large, it may be difficult to smoothly feed the tubular woven fabric a. This embodiment solves this problem. As described above, the suspension device includes the lower roller 52 supported and fixed to the device body (not shown) and the upper roller 51 supported by the lower roller 52. The lower roller 52 is composed of four lower roller main bodies 5 as shown in FIG.
4 are arranged in a square, and the shafts of the respective lower roller main bodies 54 are connected so as to be interlocked with each other by a bevel gear 56. It was made to rotate. On the other hand, the upper roller 51 is formed by arranging four upper roller main bodies 53 in a substantially square shape by a square frame 55 as shown in FIG. And the suspension rod 5
Is fixed by a fixing nut 59 to the center of a downward inclined frame 58 extending obliquely downward from the four corners of the square frame 55. Further, the upper inclined frame 31 is extended obliquely upward from the four corners of the square frame 55,
This fulfills the same function as the above-mentioned guide tube. The upper roller 51 is placed on the lower roller 52 in a state where each upper roller body 53 corresponds to each lower roller body 54.
Then, the tubular woven fabric a passes between the upper roller body 53 of the upper roller 51 and the lower roller body 54 of the lower roller 43, and the expansion frame 6 attached to the lower end of the suspension rod 5 is attached.
Head to. At this time, since the four lower roller bodies 54 of the lower roller 52 are rotated by the driving source 57 such as an electric motor, the tubular woven fabric a can be forcibly fed. Therefore,
This suspension device can allow the tubular woven fabric a to be smoothly fed even when the upper roller 51 is strongly pulled downward. In addition, the suspension device described above suspends the expansion frame, and when the inner and outer peripheries of the tubular woven cloth are coated with resin, for example, a mandrel that is inserted into the tubular woven cloth and supports the inner cloth from the inside is used. It can also be used to suspend suspended objects.

Next, an embodiment of the heating device 7 for the tubular woven fabric a will be described with reference to FIGS. The heating device 7 of this embodiment includes a pair of left and right casings 71,
A space 72 for inserting the expansion frame 6 (not shown in FIGS. 8 to 10) is formed in the center between both casings 71, 71 by facing 71 to be opened and closed. A plurality of heating elements 73 are attached to each casing 71 in the horizontal direction and a plurality of stages in the vertical direction. A temperature adjusting device 74 is arranged in each stage to sense the internal temperature and control the heating element 73. Then, between each step,
4 is formed to suppress the upper transfer of heat. This heating device 7 has a small internal volume to hold heat,
It can be raised to ℃ very easily and in a single hour. Further, the heat treatment can be freely adjusted by adjusting the temperature by the temperature adjusting device 74 and adjusting the feeding speed of the tubular woven fabric a according to the type of the tubular woven fabric a and the like.

[0009]

According to the heat treatment method for a flexible tubular body of the present invention, the expansion frame can be reliably suspended, and the tubular body can be smoothly fed. Also, it is possible to provide a method capable of maintaining a predetermined diameter of a flexible tubular body such as a tubular woven fabric. In the suspension device of the present invention, it is possible to reliably suspend the expansion frame, and it is possible to realize smooth feeding of a tubular body such as a tubular woven fabric, and to provide a suspension device suitable for the above heat treatment method. That is what I got. In addition, the lower feeder
The tubular body can be forcibly fed by arranging means for rotating itself such as a roller in a circumferential shape.
Therefore, it is possible to provide a suspension device that can smoothly feed the tubular body even when the upper feeding device is strongly pulled downward.

[Brief description of drawings]

FIG. 1 is a schematic view of a heat treatment apparatus for tubular woven fabric according to an embodiment.

FIG. 2 is a cross-sectional view of a suspension device in the same device.

FIG. 3 is a plan view of an upper bearing of the suspension device.

FIG. 4 is a plan view of a lower bearing of the suspension device.

FIG. 5 is a side view of another embodiment of the suspension system.

FIG. 6 is a plan view of an upper roller of the suspension device.

FIG. 7 is a plan view of a lower roller of the suspension device.

FIG. 8 is a plan view of a heating device.

FIG. 9 is a side view of the same.

10 is a side view taken along line XX of FIG.

[Explanation of symbols]

4 ... Suspension device, 5 ... Suspension rod, 6 ... Enlargement frame, 7 ... Heating device, 41 ... Upper bearing, 42 ... Lower bearing, 4
3, 44, ... Bearing sphere, 51 ... Upper roller, 52
... Lower roller, a ... Tubular woven fabric.

Claims (3)

[Claims] 1. Rotating means such as bearings are circumferentially arranged at substantially equal intervals.
The lower feeding device arranged at a predetermined position is supported at a predetermined position, and the upper feeding device in which the rotating means such as a bearing is circumferentially arranged at substantially equal intervals is placed on the rotating means of the lower feeding device. Supported by the upper feeder and facing downwards
The suspension rod is hung down, an expansion frame of a predetermined diameter is hung at the lower part of this suspension rod , the upper feeding device is arranged on the inner circumference of a flexible tubular body such as a tubular woven cloth, and the upper feeding device is placed inside the tubular body. In this state, the tubular body is passed between the two rotating means from the upper side to the lower side, and the tubular body is heated along the outer periphery of the expansion frame while maintaining the tubular shape of the tubular body. A method for heat-treating a tubular body having flexibility, which is characterized by performing a treatment. 2. A rotating means such as a bearing is circumferentially arranged at substantially equal intervals.
A lower feeder coordinated in, the rotating means such as a bearing
An upper feeder coordinated at substantially equal intervals in the circumferential shape, the upper feed instrumentation
Suspension rod hung downward from the stand and this suspension
Equipped with an expansion frame of a predetermined diameter suspended at the bottom of the rod,
The rotation means of the partial feeder is mounted on the rotation means of the lower feeder.
Placed on top of the bottom feeder,
Supported between the upper and lower feeders by means of a tubular structure
Pass a flexible tubular body such as woven cloth from above to below.
The suspension device is characterized in that the tubular body is arranged along the outer circumference of the expansion frame . 3. A rotating means for rotating itself, such as a roller, in a circumferential shape.
A lower feeder coordinated with substantially equal intervals, and an upper feeder coordinated with substantially equal intervals rotating means such as a roller circumferentially, upper feed
Suspension rod hung downward from the
Equipped with an expansion frame of a specified diameter that is hung at the bottom of the suspension rod.
The rotation means of the upper feeder is the rotation means of the lower feeder.
When placed on top, the upper feeder is
Is supported by a stand and is tubular between the rotating means of both the upper and lower feeders.
Pass a flexible tubular body such as woven cloth from above to below.
The suspension device is characterized in that the tubular body is arranged along the outer circumference of the expansion frame .