JP2008221221A - Ceramic roll - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a ceramic roll which is assembled by fitting a ceramic sleeve and a metallic roll base body to each other on a table roll to be used for a run-in table facility and capable of easily preventing any breakage of the roll due to the difference in the coefficient of thermal expansion of both members. <P>SOLUTION: A table roll to be used in a run-in table facility for transferring a bar steel to a cooling bed in a steel rolling process comprises a metallic roll base body 3 having a cylindrical roll barrel and a cylindrical part formed inside the roll barrel with a rotary shaft being connected thereto. An annular recessed groove 6a is formed in an outer circumference of the roll barrel of the roll base body and/or an inner circumference of the ceramic sleeve. An elastic metallic ring 5a for transmitting the torque is fitted to and interposed in the recessed groove, and the ceramic sleeve is attached to an outer circumference of the roll barrel. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a table roll used in run-in table equipment for transferring steel bars in a steel rolling process, and more particularly to a ceramic roll in which a ceramic sleeve is fitted on the outer periphery of a metal shaft member.

  Rolls are used for various purposes such as transportation in steel production equipment lines that produce steel materials. Roughly speaking, rolls are made of metal, sprayed rolls with thermal sprayed hard materials on the parts that come into contact with steel on the roll surface, and wear resistance. There are ceramic rolls with excellent properties and heat resistance.

  In steel production equipment, there is equipment called a run-in table for transferring steel bars such as shaped steel, flat steel, and bar steel to a cooling floor, and a cylindrical table roll (roller) is used for this. A plurality of table rolls are arranged at predetermined intervals in the steel bar transfer direction, and the rolls are installed to be inclined downward toward the cooling floor and rotate about an axis perpendicular to the bar steel transfer direction.

  In Patent Document 1, it is provided at the side of the cooling bar of the bar steel, rotates around an axis perpendicular to the direction in which the bar steel is transferred, and is inclined downward to the cooling bed side so as to be spaced apart from each other in the direction of steel bar transfer. In a run-in table in a rolling facility provided with a plurality of table rollers arranged, a table roller is described in which the surface of the roller is composed of a plurality of different materials. In the right column on page 3 of Patent Document 1, it is described that the body on the motor side is made of carbon steel for mechanical structure, the surface hardness is increased by heat treatment, and the body on the cooling bed is made of cast iron.

  Patent Document 2 discloses a ceramic roll used for transporting a steel plate in a hot rolling line, and is configured by fitting one or a plurality of ceramic sleeves to the outer periphery of a metal shaft. One ceramic sleeve is fitted so as to cover the central part of the axial direction of the metal shaft, and the ceramic sleeve has a relative density of 98% or more and a four-point bending strength at room temperature of 600 MPa or more. A ceramic roll made of a sintered body mainly composed of silicon nitride having a thermal conductivity of 50 W / (m · K) or more at room temperature is described.

  Patent Document 3 describes ceramic rollers that are arranged in parallel in the conveying direction of a product to be fired in a firing chamber of a roller hearth furnace. This is because a metal roller driving cap connected to a driving shaft for rotationally driving the roller by a split pin is fitted to the end of the ceramic roller, and the rotational force of the driving shaft is transmitted to the roller. is there. Attach a tolerance ring to the roller, attach an annular rubber sheet to the outer periphery of the tolerance ring, and insert and fix the roller in the roller drive cap. With this configuration, there is no slippage, and even if the roller is bent due to heat and weight during operation, the roller is not damaged, and the roller center deviation can be absorbed to prevent the roller from being misaligned.

Japanese Utility Model Publication No. 6-4975 JP 2004-283898 A JP 2005-106319 A

  Patent Document 1 has a problem in that since the two body portions constituting the roll are both made of metal, the wear resistance is particularly inferior, the service life is short, and the frequency of roll replacement is increased. In the case of rolls in the run-in table, the number of rolls is large and it is not easy to replace the rolls.

  In Patent Document 2, a ceramic sleeve and a metal shaft are fitted, but when the roll surface is heated during the operation of the roll, the difference in thermal expansion coefficient between the two causes the ceramic sleeve to break. There was a problem that it was easy.

  In Patent Document 3, a roller driving cap is provided at the end of a single ceramic roller, and a tolerance ring attached therebetween can be fixed while suppressing the occurrence of slipping. This is a fixing means useful for the drive transmission mechanism of the rotating body. However, it does not consider the prevention of breakage of the ceramic roll having a composite structure in which the ceramic sleeve and the metal shaft are fitted.

  An object of the present invention is a ceramic that can easily prevent breakage of a roll due to a difference in thermal expansion coefficient between a ceramic sleeve and a metal roll base in a table roll used in a run-in table facility. Is to provide a roll.

  The ceramic roll of the present invention is a table roll used in run-in table equipment for transferring steel bars to a cooling floor in a steel rolling process, and is formed inside a cylindrical roll body and a roll body. A metal roll base having a cylindrical portion to which a rotating shaft member is connected, and a ceramic sleeve forming a surface layer portion of the roll, and an outer periphery of the roll body of the roll base and / or a ceramic sleeve An annular groove is formed on the inner circumference, and a metal ring that has elasticity and transmits torque is attached to the groove, and a ceramic sleeve is fitted to the outer circumference of the roll body. Features.

  The ceramic roll of the present invention has a structure in which a ceramic sleeve is fitted to the outer periphery of a metal roll base, and is used as a table roll of a run-in table facility for transferring steel bars to a cooling floor in a steel rolling process. . The roll base is configured as a double cylinder having an inner cylinder inside an outer cylinder. The roll body portion and the cylindrical portion are integrally connected. A ceramic sleeve is fitted on the outer periphery of the roll body, which is an outer cylindrical body. A rotating shaft member (shaft) is connected to the inner surface of the cylindrical portion which is an inner cylindrical body. The ceramic sleeve is the surface layer of the roll, and is used in contact with the hot steel bar.

  An annular groove continuous to the outer periphery of the roll body is formed, and a metal ring having elasticity and transmitting torque is attached to the groove. As another aspect, a continuous annular groove may be formed on the inner periphery of the ceramic sleeve, and a metal ring having elasticity and transmitting torque may be attached to the groove. In addition, the annular groove may be formed on the outer periphery of the roll body and the inner periphery of the ceramic sleeve, but it is desirable to form it on either one from the viewpoint of manufacturing cost.

  With the metal ring mounted and interposed in this manner, a ceramic sleeve is fitted on the outer periphery of the roll body.

  The greatest feature of the present invention is that a metal ring having elasticity and transmitting torque is interposed. It is desirable to use a tolerance ring as the metal ring. The tolerance ring is a corrugated ring-shaped fastening / buffer member made of a steel material such as stainless steel and using elastic force. The ceramic sleeve and the roll base can be easily fastened without the need for a fitting key or the like as in the prior art.

  Torque and thrust force can be transmitted to the roll base and the ceramic sleeve by housing and fastening the tolerance ring in the concave groove of the roll body. Further, by absorbing the dimensional deformation due to the thermal expansion of both, it is possible to maintain the fastening force, ensure the concentricity, and prevent the ceramic sleeve from being damaged.

  The tolerance ring has a high degree of freedom in design to provide for the effect of absorbing thermal expansion, does not require high finishing accuracy of the groove in the roll body, and requires relatively rough processing accuracy. Easy to install.

It is desirable that at least the roll body is made of a low thermal expansion alloy having a thermal expansion coefficient of 5 × 10 ⁻⁶ (1 / K) or less at room temperature. A preferred low thermal expansion alloy is an incoloy alloy. When the ceramic roll is used at a high temperature, the roll body can be prevented from cracking due to the expansion of the roll body by forming the roll body from a low thermal expansion alloy.

The ceramic sleeve preferably has a thermal expansion coefficient of 1.5 × 10 ⁻⁶ (1 / K) or more at room temperature. If it is less than this thermal expansion coefficient, loosening is likely to occur between the ceramic sleeve and the roll body portion when the temperature rises when the roll is used, which is not preferable.

  The ceramic sleeve is particularly formed of a sintered body containing silicon nitride as a main component, thereby exhibiting excellent effects in wear resistance and heat resistance. The ceramic sintered body preferably has a relative density of 98% or more and a four-point bending strength at room temperature of 600 MPa or more. Further, a thermal conductivity of 50 W / (m · K) or more at normal temperature is more preferable because it can sufficiently prevent breakage due to thermal shock.

  FIG. 1 is a schematic sectional view of a ceramic roll according to an embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a ceramic roll, which is composed of a ceramic sleeve 2, a roll base 3, a metal ring 5a (5b, 5c) having elasticity and transmitting torque, and a metal fastening member 7. The

  As the roll base 3, a hollow cylindrical body made of SUS304, which is an austenitic stainless steel, was prepared. The roll base 3 is configured by coaxially providing a cylindrical portion 3c that is an inner cylindrical body inside a roll barrel portion 3b that is an outer cylindrical body. The roll body portion 3b and the cylindrical portion 3c are integrally connected via a disk-shaped intermediate rib portion 3f. 3e is a hollow part formed inside the roll body part 3b. In the hollow part 3d formed in the inner surface of the cylindrical part 3c, a metal rotary shaft material (not shown) serving as a rotary shaft of the roll is connected.

  Annular grooves 6a, 6b, 6c were formed on the outer periphery of the roll body 3b of the roll base 3. Moreover, the stopper part 3a which is a cyclic | annular protrusion part was provided in the end of the roll trunk | drum 3b, and the thread part was provided in the outer peripheral surface of the other end of the roll trunk | drum 3b.

A sleeve made of a sintered body containing silicon nitride as a main component was manufactured as the ceramic sleeve 2. This ceramic sleeve has a thermal expansion coefficient of 3.2 × 10 ⁻⁶ (1 / K) at room temperature, a relative density of 99.4%, a thermal conductivity of 55 W / (m · K) at room temperature, and 4 at room temperature. The point bending strength is 910 MPa.

  As the metal rings 5a, 5b, and 5c, tolerance rings made of stainless steel were prepared.

  As the metal fastening member 7, a hollow cylindrical body having a thread groove formed on the inner peripheral surface using SUS304 was manufactured.

  Using these members, metal rings 5a, 5b, 5c are mounted on the grooves 6a, 6b, 6c formed on the outer periphery of the roll body 3b, and then the ceramic sleeve 2 is rolled on the outer periphery of the roll body 3b. It inserted by press-fitting to the stopper part 3a of the trunk | drum 3b. Thereafter, the metal fastening member 7 was screwed and fixed to a screw portion provided on the outer peripheral surface of the other end of the roll body 3b, and the ceramic roll of the present invention was assembled.

  Next, a rotating shaft material (not shown) serving as a rotating shaft of the roll was fitted into the hollow portion 3d formed in the cylindrical portion 3c of the roll base 3 of the ceramic roll 1, and fixed by keying. The ceramic roll 1 was used as a run-in table roll used in a run-in table facility for transferring the steel bar to the cooling floor in the steel rolling process.

  These table rolls are provided on the side of the cooling floor for steel bars such as section steel, flat steel, and bar steel, and a plurality of table rolls are provided at predetermined intervals in the direction of steel bar transfer, and the rolls are inclined downward toward the cooling floor. And rotate around an axis perpendicular to the direction of steel bar transport. The table roll is supported by a bearing and is directly connected to a drive motor by a coupling.

  As a result of applying the ceramic roll of the present invention to a run-in table roll, the wear resistance and heat resistance are good, the service life is extended compared to a metal roll, and the thermal expansion coefficient of the ceramic sleeve and roll body The roll was not damaged due to the difference, and stable operation could be realized.

  According to the ceramic roll of the present invention, it is possible to easily suppress breakage of the roll due to the difference in thermal expansion coefficient between the ceramic sleeve and the roll body. The ceramic roll of the present invention can be applied to non-ferrous (aluminum, copper, etc.) production equipment lines in addition to steel.

It is a schematic sectional drawing of the ceramic rolls of an Example of this invention.

Explanation of symbols

1 ceramic roll, 2 ceramic sleeve, 3 roll base,
4 Metal fastening member, 5a (5b, 5c) Metal ring,
6a (6b, 6c) concave groove, 7 metal fastening member,

Claims (1)

A table roll used in a run-in table facility for transferring steel bars to a cooling bed in a steel rolling process, which is formed on the inside of a cylindrical roll body and a roll body, to which a rotating shaft is connected A metal roll base having a cylindrical portion and a ceramic sleeve forming a surface layer portion of the roll, and an annular groove is formed on the outer periphery of the roll body of the roll base and / or the inner periphery of the ceramic sleeve. A ceramic roll formed by attaching and interposing a metal ring having elasticity and transmitting torque in the concave groove, and having a ceramic sleeve fitted on the outer periphery of the roll body.