JPH04101959A - Steel band support roll - Google Patents

Abstract

PURPOSE:To reduce the abrasion of a roll by forming both sides of a straight shape part into tapered shape, and using hard resin of HD=60 or less for the straight shape part and soft resin of HD=60 or less or ultra-high molecular resin of 3 million or more in molecular weight for the tapered part. CONSTITUTION:The center 5 of a support roll 4a is formed into straight shape provided with the length equivalent to the minimum plate width of a steel band, and both sides 6 of the straight shape part are formed into tapered shape. This straight part 5 is formed of hard resin of HD=60 or less, and the tapered part 6 is formed of soft resin of HD=60 or less, or ultra-high molecular resin of 3 million or more in molecular weight.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a support roll that supports a steel strip in a continuous processing line such as pickling or cold rolling of the steel strip.

<Prior Art> In continuous processing lines such as pickling and cold rolling of steel strips, support rolls are used to support the moving steel strips.

FIG. 5 shows an example of the arrangement of the support rolls 4 when the steel strip I is continuously cold rolled.

In addition, in FIG. 5, 2 is a horizontal louver, and 3 is a cold rolling mill.

Generally, the support roll is as shown in FIG. 6(a).
Although a single roll is used, in the horizontal looper 2, a two-part support roll is used to prevent the steel strip 1 from meandering, as shown in Figure 6 (b), and a skew angle θ is provided. There are some things.

<Problems to be Solved by the Invention> However, as shown in FIG. A) and the edge portion (B) of the steel strip 1 create a difference in the circumferential speed of the rolls. Also,
In part (A), wear due to friction with the steel strip 1 also progresses.

Furthermore, when the skew angle θ is given by the two-part support roll, the traveling direction of the steel strip 1 and the rotation direction of the support roll are deviated by θ, which further accelerates the wear.

Wear of the support roll 4 not only shortens the life of the roll, but also causes quality defects such as roll marks when the wear powder adheres to the steel sheet 1.

- For boat fishing, the material for support rolls is hardness H, (Ship D type) - MC nylon with a hardness of around 70, and hardness HA.
(Situation type) -Urethane rubber of around 90 is often used.

However, hard MC nylon has a low coefficient of friction,
Although it is resistant to wear due to friction with the steel strip, it has good machinability and suffers from severe wear due to being cut by the edges of the steel strip.

On the other hand, urethane rubber has a high coefficient of friction and is susceptible to abrasion due to friction with the steel plate 1.Also, although there is relatively little abrasion at the edges of the steel strip, the abrasion powder of urethane rubber becomes powder, and It has the disadvantage of being easy to adhere to and causing roll marks.

Although metal rolls have excellent wear resistance, they cannot be used because they inevitably cause scratches on the steel strip.

An object of the present invention is to provide a support roll that solves the above problems.

<Means for Solving the Problems> The first invention is a support roll that supports a steel strip in a continuous steel strip processing line, and the center of the support roll is set to a length corresponding to the minimum width of the steel strip. Both sides of the straight-shaped part are tapered, and the straight-shaped part is made of a hard resin of HD-60 or less, and the tapered part is made of a soft resin of 88-60 or less or a molecular weight of 300. This is a steel strip support roll characterized by the use of ultra-high polymer resin of over 10,000 yen.

The second invention is a two-part support roll that supports a steel strip in a continuous steel strip processing line,
When the divided support rolls are set on a line, a portion corresponding to the minimum plate width of the steel strip supported by each support roll is made into a straight shape, and the edge side of the steel strip of the straight portion is made into a Taber shape. , wherein the straight portion is made of a hard resin of HD-60 or less, and the tapered portion is made of a soft resin of Hl-60 or less or an ultra-high polymer resin with a molecular weight of 3 million or more. It is a two-part support roll.

<Function> A first example showing an embodiment of the one-body support roll of the first invention.
The present invention will be described in detail below with reference to FIG. 1(a) and FIG. 1(b) showing an embodiment of the two-part support roll of the second invention.

In the first invention, the center of the one-piece support roll 4a is made into a straight shape with a length corresponding to the minimum plate width of the steel strip, and both sides thereof are made into a so-called tapered crown. The contact force with the parts was weakened to reduce wear.

In the second invention, when the support roll 4b divided into two parts is set on a line, the part 5 corresponding to the minimum plate width of the steel strip supported by each support roll is made into a straight shape, and a tapered crown is formed by both parts. I decided to do so.

Furthermore, in the first and second inventions, the straight portion 5 is made of a hard resin having an HD of 60 or more to reduce the coefficient of friction and reduce wear caused by [11] with the steel strip.

Further, the material of the tapered portion 6 is either a soft resin with a hardness of HD-60 or less to reduce machinability and wear, or an ultra-high polymer resin with a molecular weight of 3 million or more. This ultra-high polymer resin has excellent releasability from the steel plate even if it is worn out, since the abrasion powder becomes thread-like rather than powder-like.

<Example> An embodiment of the present invention will be described based on the drawings.

FIG. 1(a) shows an embodiment of the one-piece support roll of the first invention.
The length is FF1-600, and the roll material is MC nylon (
Hardness HD=To) was used. Length of tapered portion 6 m-7
QQm, taper amount n-10m, and roll material used was polyurea resin (hardness HD-58).

FIG. 1(b) shows an embodiment of the two-part support roll of the second invention, which has the same tapered shape as FIG. 1(a).

The straight portion 5 was made of MC nylon, and the tapered portion 6 was made of ultra-high molecular weight polyethylene with a molecular weight of 4 million.

Then, these support rolls 4a and 4b were installed in a continuous cold rolling line for steel strips having a width of 600 to 1800 square meters, and the effect in an actual machine was confirmed.

As a result, the amount of wear on the support roll 4a was about 1/4, and the amount of wear on the support roll 4b was about 1/3 compared to the amount of wear on conventional MC nylon straight rolls. Further, in the support roll 4b, the amount of abrasion powder adhering to the steel strip was significantly reduced to 115 or less.

Next, the actual machine test was continued by changing the roll material (hardness, molecular weight) while keeping the roll taper amount the same as above.

FIG. 2 shows the relationship between the roll hardness and roll wear amount of the straight portion 5, where the equation is [wear ratio]-[wear amount]/[wear amount when hardness is HD-70]. In addition, FIG. 3 shows the relationship between the roll hardness of the tapered portion 6 and the wear amount ratio.
Figure 4 shows the relationship between the ultra-high polymer resin used in the tapered part and the ratio of the amount of abrasion powder deposited on the steel strip. However, [deposition amount ratio] -
[Amount of adhesion]/[Amount of adhesion when the molecular weight is 4 million].

From these, the straight part 5 has a roll hardness of HD-60.
The above results showed the effect of reducing the amount of wear. Further, when the roll hardness of the tapered portion 6 was HD=60 or less, the effect of reducing the amount of wear appeared. However, if HD is less than 50, powdery wear will occur and more adhesion to the steel strip will occur, so it is desirable that the molecular weight is higher than this, and a molecular weight of 3,000,000 or more has the effect of reducing the amount of adhesion to the steel strip.

As a result of the above actual machine test, in order to reduce the amount of roll wear and the adhesion of abrasion powder to the steel strip, the following methods were found: ■ Make the roll shape a tapered roll, ■ Change the roll material of the straight section 5 to H.
It was confirmed that the following methods are effective: (1) The roll material of the tapered part 6 is made of a resin of HD-60 or less or an ultra-high polymer resin with a molecular weight of 3 million or more.

Note that a steel roll may be coated with these resins.

<Effects of the Invention> As explained above, the present invention makes it possible to reduce roll wear, thereby making it possible to reduce roll replacement costs and reducing the occurrence of roll mark defects.

[Brief explanation of drawings]

FIG. 1(a) is a front view of an embodiment of the first invention, and FIG. 1(b) is a front view of an embodiment of the second invention. Figure 2 is a graph showing the relationship between roll hardness and wear amount in the straight part, Figure 3 is a graph showing the relationship between roll hardness and wear ratio in the tapered part, and Figure 4 is the ultra-polymer resin used in the tapered part. It is a graph which shows the relationship between and the adhesion amount ratio of the abrasion powder to a steel strip. Figure 5 is a side view of an example of the arrangement of support rolls in a continuous cold rolling mill, Figure 6 is a plan view of an example of the arrangement of conventional support rolls, and Figure 7 is a front view showing the wear status of conventional support rolls. It is. 1... Steel strip, 2... Horizontal looper, 3...
・・Cold rolling mill, 4・Support roll, 4a・
...Single support roll, 4b...Two-part support roll, 5...Straight part, 6...Tapered part. Patent applicant Kawasaki Steel Corporation Figure Molecular weight (x 10') Figure 2 Figure Roll hardness of tapered part (HD)

Claims (2)

[Claims] (1) A support roll that supports a steel strip in a continuous processing line for steel strips, the center of the support roll being a straight shape with a length corresponding to the minimum width of the steel strip, and both sides of the straight shape portion. has a tapered shape, and the straight portion uses a hard resin with H_D = 60 or less, and the tapered portion uses a soft resin with H_D = 60 or less or an ultra-high polymer resin with a molecular weight of 3 million or more. Characteristic steel strip support roll. (2) Supporting the steel strip in a continuous steel strip processing line 2
It is a split type support roll, and when the two split support rolls are set on a line, the part corresponding to the minimum plate width of the steel strip supported by each support roll is made into a straight shape, and the straight part is The edge side of the steel strip is tapered, and the straight part is made of hard resin with H_D=60 or less, and the tapered part is made of soft resin with H_D=60 or less or with a molecular weight of 30.
A two-part steel strip support roll characterized by the use of ultra-high polymer resin of 0,000 or more.