JPH0871640A - Endless belt in device for imparting tension to strip - Google Patents

Abstract

PURPOSE: To prevent generation of slippage between a slit strip and an outer layer surface and to facilitate the winding of a slit strip coated with a rust preventive oil and the like by using an endless belt with a lubricant preliminarily impregnated and thereby smoothing friction between the inner layer surface of the endless belt and a holding plate. CONSTITUTION: An endless belt 4 for a device for imparting tension to a strip is composed of three layers of different kinds of material, namely, outer layer 8, middle layer 7 and inner layer 6, by using flexible materials; a hole 10 penetrating through these three layers 8, 7, 6 is provided in large numbers towards the inner layer surface 6a; and the middle layer 7 is composed of a compressed elastic core material which is provided with a large number of fine pores communicating with one another. The middle layer 7 so composed is impregnated with a lubricant; a lubricant groove 6b communicating with the through-hole 10 is formed on the inner layer surface 6a that is in contact with a holding plate 5; and a material with a large friction coefficient is used for the outer layer 8.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a slitter line for cutting a wide strip into a plurality of strips along the longitudinal direction of the strip, and in the slitter line, the tension generated when winding each slit strip after slitting the strip. The present invention relates to an endless belt of a strip tension applying device that adjusts an imbalance and applies uniform tension, and in particular, by using an endless belt that is preliminarily impregnated with lubricating oil, the inner layer surface of the endless belt and the pressing plate are By smoothing the friction, the friction coefficient of the inner layer surface of the endless belt is always kept smaller than the outer layer surface in contact with the slit strip,
The present invention relates to an endless belt of a strip tensioning device that prevents slippage between the slit strip and the outer layer surface and can be used for winding up a slit strip coated with rust preventive oil or the like.

[0002]

2. Description of the Related Art Generally, the cross section of a wide strip is not completely flat but is thick at the center and thin at both ends. When slitting this, the slit strips after slitting at the center and both ends of the strip are Deviation occurs in plate thickness. When each of these slit strips is wound by a mandrel, the thick slit strip has a larger winding diameter than the thin slit strip, resulting in a difference in the winding speed of each slit strip.

In this state, conventionally, the tension was applied to the slit strips by a roll type tension applying device or a tension pad system, but in the roll type, the tensions of the slit strips become imbalanced due to the deviation of the plate thickness, and The tension pad has a disadvantage that scratches are generated on the surface of the slit strip.

Therefore, the applicant can adjust the imbalance of the winding tension caused by the deviation of the thickness of each slit strip without any flaws on the surface of each slit strip, so that the tension of the strip can be applied uniformly. Invented the applicator.

This belt-plate tension applying device uses an endless belt, in which a plurality of endless belts stretched between a pair of pulleys are arranged in the lateral direction, and the endless belts are vertically arranged to form upper and lower endless belts. Insert the slit strip between the outer surfaces facing each other, press the endless belt from above and below on the inner surface of the endless belt by pressing it against the slit strip, press it together, and integrate it with the moving slit strip to form the endless belt. In a circular motion,
By a frictional force caused by a slip between the push plate and the inner surface of the endless belt, it is a mechanism for generating a tension in the slit strip, by making the friction coefficient of the inner surface of the endless belt smaller than the friction coefficient of the outer surface. The slit strip plate and the endless belt could be wound without slipping and without slipping.

In this case, in order to maintain the friction coefficient of the inner surface of the endless belt smaller than that of the outer surface, the lubricating oil containing portion is brought into contact with the inner surface of the circulating endless belt to supply the lubricating oil. The inner surface is made slippery to reduce the friction coefficient.

Further, at this time, the endless belt used has a flat outer surface, and the slit band plate to be wound is dried, and the surface of the slit band plate is coated with rust preventive oil or the like. It could not be used for things.

For this reason, when winding the slit strips coated with rust preventive oil or the like, the slit strips are sandwiched between the felt strips fixed by a conventional tension pad and pressed down to form the slit strips. The current situation is that tension is generated by the sliding frictional force with the felt.

[0009]

However, in the case of the contact system in which the lubricating oil containing portion is brought into contact with the inner surface of the circulating endless belt to supply the lubricating oil, the lubricating oil containing portion is lubricated. It was necessary to replenish the oil frequently, and the line had to be stopped in order to replenish the lubricating oil, which had the drawback of lowering work efficiency.

Further, when the circulating movement speed of the endless belt becomes high and becomes high speed, the contact time between the inner surface of the endless belt and the lubricating oil containing portion becomes short and the supply amount of the lubricating oil per one time becomes small. However, the inner surface becomes difficult to slip, and slippage may occur between the outer surface of the endless belt and the slit strip plate, which may scratch the slit strip plate.

Further, in the conventional tension pad using felt or the like, the slit strip plate is made to slide directly on the felt surface, so that the surface of the slit strip plate is easily scratched due to the metal powder and dust accumulated on the felt. .

Furthermore, in the above endless belt having a flat outer surface, the inner surface is lubricated with lubricating oil so that the coefficient of friction of the inner surface is smaller than that of the outer surface. If the surface is coated with rust-preventive oil, etc., an oil film is formed between the outer surface of the endless belt and the slit strip to reduce the friction coefficient, and the outer surface has a smaller friction coefficient than the inner surface. The predetermined frictional force cannot be obtained between the outer surface and the slit strip, the slit strip slips, and the required tension on the inner surface of the endless belt cannot be obtained, or the slit strip may be flawed. was there.

The present invention has been made in view of the above problems and was devised to solve the problems. The object of the present invention is to make a circulating endless belt itself contain lubricating oil. By allowing the lubricating oil to seep out to the inner layer surface during circulation, the number of times of lubricating oil replenishment is reduced to reduce the number of line stoppages and prevent a decrease in work efficiency. Sufficiently supplying lubricating oil to the inner layer surface to smooth the friction between the inner layer surface of the endless belt and the pressing plate, and keep the friction coefficient of the inner layer surface of the endless belt always smaller than that of the outer layer surface. The purpose is to prevent slippage between the outer layer surface and the other purpose is to provide a large number of holes through the outer layer, the intermediate layer and the inner layer of the endless belt to prevent rust preventive oil, etc. Also available for the slit strip from the slit of the coated strip, the imbalance of tension generated when winding the respective slit strip coated with anti-rust oil,
An object of the present invention is to provide an endless belt of a strip tension applying device that can adjust the slit strip surface without causing a flaw or the like and can apply uniform tension to each slit strip to be wound.

[0014]

In order to achieve the above object, the invention of claim 1 provides a slit strip plate after cutting a wide strip plate into a plurality of strips along the longitudinal direction of the strip plate. During the winding and supplying to the winding device, a plurality of endless belts are arranged on both sides of each slit strip so as to face each other so as to partially form a common holding surface, and each slit strip for moving the endless belt. In the strip tension applying device, which are driven by frictional engagement with and are provided so as to integrally circulate independently of each other, and press plates for pressing the inner layer surface of the endless belt are provided on both sides of the common holding surface. The endless belt is made of a flexible material and is composed of three layers of different materials, an outer layer, an intermediate layer and an inner layer, and a large number of holes communicating the inner layer and the intermediate layer are provided toward the inner layer surface of the endless belt. , The above end The intermediate layer of the belt is configured by using a compression elastic core material having a large number of minute porous gaps that are electrically connected to each other, and the intermediate layer composed of the compression elastic core material is impregnated with lubricating oil and is in contact with the pressing plate. A lubricating oil groove communicating with the communication hole is formed on the inner layer surface, and a material having a large friction coefficient is used for the outer layer of the endless belt.

Further, in the invention of claim 2, the endless belt is in the process of winding and feeding each slit strip plate after cutting the wide strip plate into a plurality of strips along the longitudinal direction of the strip plate. On each side of each slit strip, a plurality of them are arranged so as to face each other so as to form a common holding surface, and the endless belts are driven by frictional engagement with the moving slit strips to form an integral unit. In the strip tension applying device, which is provided so as to independently circulate, and has a pressing plate that presses the inner layer surface of the endless belt on both sides of the common holding surface, the endless belt is made of a flexible material. The outer layer, the intermediate layer and the inner layer are made of three different materials, and a large number of holes penetrating the outer layer, the inner layer and the intermediate layer are provided toward the inner layer surface of the endless belt. Conduct A compression elastic core material having a large number of minute porous gaps is used, and the intermediate layer composed of the compression elastic core material is impregnated with lubricating oil, and the through hole is communicated with the inner layer surface in contact with the pressing plate. A lubricating oil groove is formed, and a material having a large friction coefficient is used for the outer layer of the endless belt. Here, as a preferred embodiment, the endless belt outer layer surface is provided with a large number of depressions for storing oil such as rust preventive oil applied to the surface of the slit strip plate, and the plurality of depressions are outer layers, inner layers and intermediate portions. It is preferable that a hole penetrating the layer is further provided to serve as an oil draining recess.

[0016]

The present invention having the above-described structure operates as follows. That is, the slit strips that move on the common holding surface formed by the endless belt are the outer surface of the endless belt that is pressed by the pressing plates that press the inner layer surfaces of the endless belts arranged on both sides of the common holding surface. It is pressure-bonded to and moves integrally with the outer layer surface of the endless belt without slipping.

At this time, the endless belt whose inner layer surface is pressed by the pressing plate is compressed, and the lubricating oil contained in the intermediate layer of the compressed endless belt is a hole (or hole).
Leaks from the inner layer surface to the inner surface and lubricates between the inner layer surface and the pressing plate to reduce the frictional resistance between the inner layer surface and the pressing plate.

When rust preventive oil or the like is applied to the surface of the slit strip plate, by using an endless belt having a large number of through holes on the outer surface,
The rust preventive oil applied to the surface of the slit strip is removed to a large number of through holes provided in the outer layer surface of the endless belt, so that the rust preventive oil, etc. can be removed between the surface of the slit strip and the outer layer surface. Part of the rust preventive oil, etc., which is prevented from forming an oil film and is removed to the through hole, is impregnated in the intermediate layer of the endless belt through this hole, and is formed between the outer layer surface of the endless belt and the surface of the slit strip plate. In addition, a predetermined coefficient of friction is secured to prevent slippage and uniform tension can be applied to the slit strip plate.

When an anti-corrosion oil or the like is applied to the surface of the slit strip plate and an endless belt having a large number of depressions on the outer layer surface is used, it is applied to the surface of the slit strip plate. The rust-preventive oil, etc. is removed to the many oil reservoir depressions provided on the outer layer surface of the endless belt, and an oil film such as rust-preventive oil is formed between the surface of the slit strip and the outer layer surface. Part of the rust-preventing oil that has been removed to the oil reservoir depressions is impregnated in the intermediate layer of the endless belt through the through holes provided in the depressions, and the outer layer surface of the endless belt A predetermined coefficient of friction is secured between the surface of the slit band plate and the surface of the slit band plate to prevent slippage and uniform tension can be applied to the slit band plate.

Further, a part of the rust preventive oil and the like impregnated in the intermediate layer of the endless belt through the through-holes exudes from the through-holes to the inner layer surface and lubricates between the inner layer surface and the pressing plate, It acts to reduce the frictional resistance between the inner layer surface and the pressing plate.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described more concretely with reference to the embodiments shown in the drawings. Here, FIG. 1 is a sectional view of an essential part of the endless belt, FIG. 2 is a sectional view of an essential part of the endless belt of FIG. 1 when compressed, FIG. 3 is a sectional view of an essential part of the endless belt, and FIG. 4 is an essential part of the endless belt. Enlarged plan view, FIG.
4 is a schematic sectional view taken along the arrow in FIG. 4, FIG. 6 is a side view showing a use state of the endless belt in a tension applying device, and FIG. 7 is a schematic view showing a pressure-bonded state of the endless belt and the slit strip plate.

The strip tension applying device 1 is a device for imparting a predetermined tension to the slit strip 2. The strip tension applying device 1 moves the slit strip 2 in front of a slit strip winding device (not shown). It is located in the middle of the passage. The strip tension applying device 1 is mainly composed of an endless belt 4 stretched between a pair of pulleys 3 so as to be able to circulate, and a push plate 5 that presses the endless belt 4.

The endless belt 4 is stretched between the pulleys 3 arranged in the front-rear direction with respect to the traveling direction of the slit strip plate 2 and is rotatably attached in the traveling direction of the slit strip plate 2. A plurality of endless belts 4 stretched in this manner are arranged side by side in the lateral direction, and further, these are arranged vertically facing each other.

The pulleys 3 located on the front side of the endless belts 4 are mounted side by side on the same shaft in a freely rotatable manner, and similarly, the pulleys 3 located on the rear side also have the same shaft. Are mounted side by side so that they can freely rotate. The endless belts 4 can be independently circulated.

Further, no drive source is attached to each pulley 3, and the endless belt 4 does not circulate by itself, other than circulate by frictional engagement with the moving slit strip 2. That is, the endless belt 4 does not circulate unless it contacts the slit strip 2.

A common holding surface of each slit strip 2 is formed between the endless belts 4 which are vertically opposed to each other, and the endless belts 4 are provided on both sides of the common holding surface, that is, on the upper and lower sides. The pressing plates 5 for pressing the inner layer surface 6a of the No. 1 toward the outside are arranged in parallel in the vertical direction, and by this pressing plate 5, the slit strip plate 2 passing through the common holding surface is passed from above and below via the endless belt 4. It has a structure that holds it by crimping.

That is, the slit strips 2 are passed between the outer layer surfaces 8a of the upper and lower endless belts 4 facing each other, that is, the common holding surface, and the inner layer surface 6a of the endless belt 4 is slit by the push plate 5 from above and below. Strip 2
The endless belts 4 are driven by frictional engagement with the moving slit strips 2 and are integrated with the moving slit strips 2 without slippage so that the endless belts 4 are independent of each other. It is designed to circulate in the direction of movement.

The push plate 5 and the endless belt 4 are
The pressing plate 5 for pressing the inner layer surface 6a of the endless belt 4 that circulates by frictional engagement with the inner layer surface 6a of the sheet, that is, the frictional engagement with the moving slit strip 2 plays a so-called braking function. As a result, a mechanism is provided to generate tension in each slit strip plate 2 located between the slit strip winding device (not shown) and the strip tension applying device 1.

By the way, the endless belt 4 includes an inner layer 6, an intermediate layer 7 and an outer layer 8 made of a flexible material.
It is composed of three layers of different materials. In this example,
For example, the inner layer 6 has a thickness of about 1 mm, and the intermediate layer 7 has a thickness of about 4 mm.
mm, and the thickness of the outer layer 8 is about 2 mm. The inner layer 6 is a portion that is the inner side of the endless belt 4 when the endless belt 4 is used, the outer layer 8 is a portion that is the outer side of the endless belt 4 when the endless belt 4 is used, and the middle layer 7 is the inner layer 6 and the outer layer 8. It is the part that is sandwiched between.

Of these, the inner layer surface 6a of the inner layer 6 of the endless belt 4 serves to generate a tension in the slit strip 2 by a frictional force caused by sliding between the inner layer 6 and the inner layer 6. Is made of incompressible synthetic resin fiber such as vinylon fiber or polyester fiber, and the inner layer surface 6a is made of, for example, a fiber woven fabric so that the lubricating oil easily exudes from a communication hole 9 or a through hole 10 described later. A large number of oil grooves 6b are formed vertically and horizontally so that the oil grooves 6b are easily slippery.

The outer layer surface 8a of the endless belt 4 has a function of moving the endless belt 4 integrally without causing any slippage with the moving slit strip 2 as described above. Is. The outer layer surface 8a of the endless belt 4 is formed of a material having a larger friction coefficient than the inner layer surface 6a. The outer layer 8 is made of a synthetic resin having a large friction coefficient, such as urethane resin or vinyl chloride resin, in order to softly adhere to the slit strip 2 and obtain a frictional force.

The intermediate layer 7 of the endless belt 4 is preliminarily impregnated with a lubricating oil that lubricates the inner layer surface 6a, and when the endless belt 4 is in use, a communication hole 9 or a through hole 10 which will be described later is formed.
Through this, lubricating oil is gradually discharged to lubricate the inner surface 6a, thereby reducing the friction coefficient between the inner surface 6a and the pressing plate 5.

The intermediate layer 7 is made of a compression elastic core material having a large number of minute porous gaps which are electrically connected to each other, and has a large number of air bubbles 7.
The aerated oil-containing core layer having a is made of, for example, synthetic leather. The intermediate layer 7 impregnates and retains lubricating oil in a large number of air bubbles 7a of the fine porous air-permeable oil-containing core layer,
The lubricating oil impregnated in the air bubble portion of the oil impregnated core layer by being compressed by the pressing plate 5 has a communication hole 9 or a through hole 10 described later.
Through the inner layer surface 6a. The elastic compressible intermediate layer 7 is restored to its original thickness when the compression by the pressing plate 5 is released, and the lubricating oil filled in the communication hole 9 or the through hole 10 during the compression is restored to the original thickness. Oil is retained in the air bubbles 7a of the mid layer 7.

As shown in FIGS. 1, 2, or 3, the endless belt 4 is provided with a plurality of communication holes 9 or through holes 10. The communication hole 9 or the through hole 10 provided in the endless belt 4 is a portion that serves as a passage when the lubricating oil held in the intermediate layer 7 is flowed out to the inner layer surface 6a. The retained lubricating oil is the communication hole 9
Alternatively, the oil flows from the through hole 10 through the oil grooves 6b formed vertically and horizontally to the inner layer surface 6a, and the inner layer surface 6a is lubricated.

Of these, in the endless belt 4 shown in FIGS. 1 and 2, a plurality of communication holes 9 for communicating the inner layer 6 and the intermediate layer 7 are provided on the inner layer surface 6a. The communication hole 9 is open on the inner layer surface 6a, and the outer layer 8 side is closed. The diameter of the communication hole 9 is about 2 mm. The endless belt 4 having the communication holes 9 may have a flat outer surface 8a, or may have a recess 11 and a convex boundary line width surface 11a, which will be described later. Of these, the endless belt 4 having the communication hole 9 is used when the outer surface 8a of the outer layer 8 is a flat surface and the surface of the slit band plate 2 is not coated with anticorrosive oil a or the like.

Further, the endless belt 4 shown in FIG. 3 has through holes 10 penetrating the outer layer 8, the intermediate layer 7 and the inner layer 6.
Are provided on the outer layer surface 8a and the inner layer surface 6a. The through holes 10 are open on the outer layer surface 8a and the inner layer surface 6a. The diameter of the through hole 10 is about 2 mm. Through hole 10
The endless belt 4 having is used for the one in which the surface of the slit band plate 2 is coated with rust preventive oil or the like a. The anticorrosive oil a on the surface of the slit strip 2 is used for the endless belt 4
Is removed to a large number of through holes 10 provided on the outer layer surface 8a of the sheet, part of which escapes through the through holes 10, and an oil film such as rust preventive oil is provided between the surface of the slit strip 2 and the outer layer surface 8a. By preventing the formation of the gap, a predetermined coefficient of friction is secured between the outer layer surface 8a of the endless belt 4 and the surface of the slit strip 2, and slippage is prevented.

Anticorrosive oil, etc. that escapes through this through hole 10
A part of the oil is retained by the intermediate layer 7 of the endless belt 4 as oil and acts as a lubricating oil for the inner layer surface 6a.
Exerts a function of keeping the friction coefficient of (1) small and constant, and brings about a completely new effect of further smoothing the circulating movement of the endless belt 4.

As shown in FIG. 4, the outer layer surface 8a of the endless belt 4 having the through holes 10 has the outer layer surface 8a.
In order to prevent slippage with the slit band plate 2 coated with rust preventive oil a and the like, a large number of recesses 11 are formed. Depression 1
Reference numeral 1 denotes, for example, a rhombus-shaped one and two rectangular-shaped ones connected to each other.
Are alternately arranged in the longitudinal direction and the width direction of the outer layer surface 8a of the endless belt 4.

As shown in FIGS. 4 and 5, each recess 11 is
A convex boundary line width surface 11a is formed at the boundary of. The convex surface of the convex boundary line width surface 11 a contacts the surface of the slit strip plate 2. The total area of the convex boundary line width surface 11a is much smaller than the total area of the depression 11, and the convex boundary line width surface 11a having the small total area contacts the surface of the slit strip 2. Is higher than that in the case where the entire outer surface 8a is in contact, and the degree of adhesion is improved.

By the way, as shown in FIG. 3, the contact area where the convex boundary line width surface 11a of the outer layer surface 8a is in contact with the slit strip plate 2 is A _1, and the inner layer having the oil groove 6b formed on the surface is formed. The contact area where the convex surface 6a is in contact with the pressing plate 5 is A _2, and the pressing plate 5 is moved by the force of the load W into the slit strip 2
When pressed to the side, the surface pressure P ₁ between the outer layer surface 8a and the slit strip 2 side and the surface pressure P ₂ between the inner layer surface 6a and the pressing plate 5 side are as follows. P ₁ = W / A ₁ (slit strip 2 side of the surface _{pressure) P 2 = W / A 2} ( push plate 5 side of the surface pressure) Therefore, the A ₁ <A ₂ Naraba,P _1> P ₂ . Therefore, the contact area A _{1 in} which the convex boundary line width surface 11a of the outer layer surface 8a is in contact with the slit strip 2 and the convex surface of the inner layer surface 6a having the oil groove 6b formed in the surface are in contact with the pressing plate 5. By forming the recessed portion 11 of the outer layer surface 8a so that the area difference of the contact area A ₂ is considerably large, that is, A
_{By making 1} smaller than A _{2, the} surface pressure between the inner layer surface 6a and the pressing plate 5 is made small and the lubrication is maintained, while a large surface pressure prevents the rust preventive oil a or the like on the slit strip 2 side. It is possible to cut the oil film and increase the frictional force with the slit strip 2 by using the material of the outer layer 8.

Next, the operation based on the configuration of the above embodiment will be described. The slit strip 2 wound up by the winding device is tensioned by the strip tension applying device 1 placed in the middle of the moving path, that is, on the path line. However, the endless belt 4 based on the configuration of the above embodiment is As shown in FIG. 6, it is stretched between the pulleys 3 of the strip tension applying device 1 and pressed down by the push plate 5, sandwiching the slit strip 2 from both upper and lower sides and crimping it to the slit strip 2.

The intermediate layer 7 of the endless belt 4 compressed by the pressing plate 5 is compressed (see FIGS. 8A and 8B). Although the lubricating oil is held in the intermediate layer 7 to be compressed, when the intermediate layer 7 is compressed, the lubricating oil held in oil seeps into the communication hole 9 or the through hole 10 and passes through the communication hole 9 or the through hole 10. A part of the lubricating oil exudes to the inner layer surface 6a of the endless belt 4 to lubricate between the inner layer surface 6a and the push plate 5 (see FIG. 8B). As described above, while the endless belt 4 is in use, the lubricating oil is gradually discharged through the communication hole 9 or the through hole 10 to lubricate the inner surface 6a,
The friction coefficient between the inner layer surface 6a and the pressing plate 5 is reduced.

When the pressed portion of the endless belt 4 comes out of the push plate 5, the compressed intermediate layer 7 returns to its original thickness, and the reduced air bubbles 7a of the intermediate layer 7 swell to form a sufficient space. Since it has, the lubricating oil oozing into the communication hole 9 or the through hole 10 is absorbed by the restored bubble 7a portion (see FIG. 8C). Then, each part of the endless belt 4 circulates and moves to the position of the pressing plate 5 again, and is compressed, so that a part of the lubricating oil held in the intermediate layer 7 is retained in the communication hole 9 or the same as the above. It is discharged to the inner layer surface 6a of the endless belt 4 through the holes 10 and lubricated. This is repeated continuously.

In this case, when the surface of the slit band plate 2 is coated with rust preventive oil or the like a, the following action is obtained. That is, in order to bring the endless belt 4 and the slit strip 2 into close contact with each other without slipping, an oil film of a rust preventive oil or the like formed on the surface of the slit strip 2 is attached to the endless belt 4 and the slit strip 2 by pressure. 2), the endless belt 4 and the slit strip plate 2 are brought into close contact with each other with a larger pressure.

When the outer layer surface 8a of the endless belt 4 is a flat surface, the rust preventive oil a or the like applied to the surface of the slit strip 2 enters between the upper and lower endless belts 4 of the slit strip 2. And the outer surface 8a of the endless belt 4
It is removed to the upper through hole 10. This prevents formation of an oil film of rust preventive oil a between the surface of the slit band plate 2 and the outer layer surface 8a, and between the outer layer surface 8a of the endless belt 4 and the surface of the slit band plate 2. A predetermined coefficient of friction is secured to prevent slippage.

A part of the rust preventive oil a removed to the through holes 10 is retained in the intermediate layer 7 through the through holes 10. As a result, the number of times the lubricating oil is supplied to the mid layer 7 can be reduced. Then, a part of the rust preventive oil a retained in the intermediate layer 7 of the endless belt 4 exudes into the through hole 10 when the intermediate layer 7 is compressed and reaches the inner layer surface 6 a through the through hole 10. The inner layer surface 6a and the pressing plate 5 are lubricated to reduce the frictional resistance between the inner layer surface 6a and the pressing plate 5.

When the outer layer surface 8a of the endless belt 4 is provided with the recessed portion 11 and the convex boundary line width surface 11a, the anticorrosive oil a applied to the surface of the slit band plate 2 is as shown in FIG. When the slit strip plate 2 enters between the upper and lower endless belts 4 as shown in FIG. 5, each depression 11 in the convex boundary line width surface 11a is caused by the pressure of the convex boundary line width surface 11a on the outer layer surface 8a of the endless belt 4. To be eliminated. Part of the rust-preventive oil or the like a that has been removed to the depression 11 is retained in the intermediate layer 7 through the through holes 10 provided in the outer layer surface 8 a of the endless belt 4. Thereby, the intermediate layer 7
It is possible to reduce the number of times of supplying lubricating oil to the.

Then, a part of the rust preventive oil a retained in the intermediate layer 7 of the endless belt 4 exudes into the through hole 10 when the intermediate layer 7 is compressed, and through the through hole 10 the inner layer surface 6a. It reaches to reach the inner layer surface 6a and the pressing plate 5 to be lubricated, and serves to reduce the frictional resistance between the inner layer surface 6a and the pressing plate 5.

By providing the concave portion 11 and the convex boundary line width surface 11a on the outer surface 8a of the endless belt 4,
Compared with the case where the outer layer surface 8a has a flat surface, a large and concentrated pressure can be applied to the surface of the slit strip 2, so that the oil film of a such as rust-preventive oil a is broken, and There is an effect that the surface of the convex boundary line width surface 11a and the slit strip 2 are brought into contact with each other without forming an oil film of a corrosion preventive oil or the like therebetween, and a desired friction coefficient can be secured.

At this time, due to the formation of the concave portion 11 and the convex boundary line width surface 11a, the area where the slit strip plate 2 is directly pressure-bonded is reduced as compared with the case where the outer layer surface 8a of the endless belt 4 has a flat surface. However, it is well known that the frictional force is constant and does not decrease because the surface pressure increases correspondingly.

The present invention is not limited to the above embodiments, and it goes without saying that various modifications can be made without departing from the spirit of the present invention. In the configuration of the above-described embodiment, the case where the shape of the recess 11 is a rhombus or a rectangle has been described, but the shape is not limited thereto. Further, although the endless belt 4 is stretched between the pair of pulleys 3 in the above embodiment, the present invention is not limited to this, and the endless belt 4 is attached to, for example, a circular type as shown in FIG. It may be.

[0052]

As is apparent from the above description, according to the endless belt of the strip tensioning device of the invention of claim 1, the circulating endless belt itself holds the lubricating oil, Through this, lubricating oil can be gradually discharged to the inner layer surface to lubricate between the inner layer surface and the pressing plate. As a result, the number of lubricating oil replenishments can be reduced, the number of line stops can be reduced, and a reduction in work efficiency can be prevented. Then, the friction between the inner layer surface of the endless belt and the pressing plate is smoothed, and the coefficient of friction of the inner layer surface of the endless belt is always kept smaller than that of the outer layer surface in contact with the slit strip, and the gap between the slit strip and the outer layer surface is It is possible to prevent slippage.

According to the endless belt of the strip tension applying device of the second aspect of the invention, in addition to the above effects, the rust preventive oil or the like applied to the surface of the slit strip is
Excludes into a large number of through holes provided on the outer layer surface of the endless belt to prevent the formation of an oil film such as rust-preventive oil between the surface of the slit strip and the outer layer surface, and to prevent the outer layer surface of the endless belt. A predetermined coefficient of friction can be secured between the surface of the slit strip and the surface of the slit strip to prevent slippage. As a result, in the conventional belt tension applying device using an endless belt for a belt coated with rust preventive oil or the like, the belt and the endless belt slide and stop without being properly given tension to the belt. It was not possible to obtain a scratch mark and wound up the strip plate with a tension pad, etc. while preparing for the possibility of scratches, but the end plate was the original purpose of the strip tension applying device using an endless belt. Securely sandwich it with a belt without slipping,
The operation of winding up without causing scratches can be realized even for a strip plate coated with rust preventive oil or the like and having an oil film formed on the surface thereof.

Moreover, some of the rust preventive oil escapes through the through holes provided in the endless belt and is impregnated in the intermediate layer of the endless belt, and acts as lubricating oil for the surface of the inner layer of the endless belt. It is possible to reduce the number of times of replenishment and to keep the friction coefficient between the inner layer surface and the pressing plate small and constant, so that the circulating movement of the endless belt can be further smoothed.

This has a very new and beneficial effect that even the recent oil-adhering material can sufficiently meet the demand trend of no scratches and can greatly contribute to the improvement of the quality of the strip. is there.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part of an endless belt showing an embodiment of the present invention.

FIG. 2 is a cross-sectional view of essential parts of the endless belt of FIG. 1 during compression.

FIG. 3 is a sectional view of an essential part of an endless belt showing an embodiment of the present invention.

FIG. 4 is an enlarged sectional view of an essential part of an endless belt showing an embodiment of the present invention.

5 is a schematic cross-sectional view taken along the arrow in FIG.

FIG. 6 is a side view showing a usage state of the endless belt in the tension applying device according to the embodiment of the present invention.

FIG. 7 is a schematic view showing a pressure-bonded state of an endless belt and a slit strip plate showing an embodiment of the present invention.

FIGS. 8A to 8C are operation explanatory views showing a compressed state of the endless belt showing the embodiment of the present invention.

FIG. 9 is a side view showing a state in which the endless belt according to another embodiment of the present invention is used in a tension applying device.

[Explanation of symbols]

 1 Strip Plate Tensioning Device 2 Slit Strip Plate 3 Pulley 4 Endless Belt 5 Push Plate 6 Inner Layer 6a Inner Layer Surface 6b Oil Groove 7 Intermediate Layer 7a Bubble 8 Outer Layer 8a Outer Layer Surface 9 Hole 10 Hole 11 Dimple 11a Convex Boundary Width Surface a : Anticorrosion oil, etc.

Claims (3)

[Claims] 1. An endless belt is provided on both sides of each slit strip during the winding and feeding of each slit strip after cutting a wide strip into a plurality of strips along the longitudinal direction of the strip. A plurality of the endless belts are arranged so as to face each other so as to form a common holding surface, and the endless belts are driven by frictional engagement with the moving slit strips so that they integrally circulate independently. In the strip tensioning device provided with a pressing plate that presses the inner layer surface of the endless belt on both sides of the common holding surface, the endless belt, the outer layer, the intermediate layer and the inner layer using a flexible material. The three layers of different materials are provided, and a large number of holes that connect the inner layer and the intermediate layer are provided toward the inner layer surface of the endless belt. Have many A compression elastic core material, the intermediate layer made of the compression elastic core material is impregnated with lubricating oil, and a lubricating oil groove communicating with the communication hole is formed on the inner layer surface in contact with the pressing plate. An endless belt for a strip tensioning device, characterized in that a material having a large friction coefficient is used for the outer layer of the endless belt. 2. The endless belt is provided on both sides of each slit strip while the slit strip is cut into a plurality of strips along the longitudinal direction of the strip and is being fed to the winding device. A plurality of the endless belts are arranged so as to face each other so as to form a common holding surface, and the endless belts are driven by frictional engagement with the moving slit strips so that they integrally circulate independently. In the strip tensioning device provided with a pressing plate that presses the inner layer surface of the endless belt on both sides of the common holding surface, the endless belt, the outer layer, the intermediate layer and the inner layer using a flexible material. Consisting of three layers of different materials, with a large number of holes penetrating the outer layer, the inner layer and the intermediate layer toward the inner layer surface of the endless belt,
The intermediate layer of the endless belt is configured by using a compression elastic core material having a large number of minute porous gaps that are electrically connected to each other, and the intermediate layer composed of the compression elastic core material is impregnated with lubricating oil, and the pressing plate is used. An endless belt for a strip tensioning device, wherein a lubricating oil groove communicating with the through hole is formed on the surface of the inner layer in contact with the endless belt, and a material having a large friction coefficient is used for the outer layer of the endless belt. 3. The endless belt outer layer surface is provided with a large number of recesses for storing oil such as rust preventive oil applied to the surface of the slit band plate, and the plurality of recesses include an outer layer, an inner layer and an intermediate layer. The endless belt for a strip tensioning device according to claim 2, wherein a through hole is further provided to form an oil-releasing recess.