KR20100062491A - Rolling mill using hydraulic pressure and method of fixing thereof - Google Patents

Abstract

PURPOSE: A rolling mill using hydraulic pressure and a fixing method using the same are provided to prevent corrosion of a shaft and completely fix rolling rings by employing an O-ring between the rolling rings and a spacer. CONSTITUTION: A rolling mill using hydraulic pressure comprises a shaft, a plurality of rolling rings(102), a lateral pressure part(A), a housing(110), and a spacer(150). The rolling rings are assembled in the shaft by being inserted. The lateral pressure part gives the rolling rings with lateral pressure from one side of the rolling rings. The housing comprises a hydraulic pressure generation part(112) and a hydraulic cylinder(120). The spacer has a tapered portion(130) and a lateral pressure fixing part(140).

Description

Rolling mill using hydraulic pressure and method of fixing

The present invention relates to a rolling roller used for a metal rolling operation and a fixing method thereof, and more particularly, to a hydraulic roller so that the rolling ring and space mounted on the shaft of the rolling roller can withstand the torque. The present invention relates to a rolling roller for imparting side pressure by means of the above, and a fixing method thereby.

In general, rolling is a processing method of passing a metal of high or normal temperature between rolling rings of a rolling mill to make a plate, a bar, a pipe, and various cross-sections. In this case, the rolling ring is made of cemented carbide, ceramic, hard alloy, etc., and has excellent wear resistance.

On the other hand, in order to fix the rolling ring to the shaft, a method of applying a strong side pressure on one side of the rolling ring is used. As a method of applying lateral pressure to a rolling ring, a mechanical method using a ring nut or a screw and a hydraulic method using a hydraulic pressure are used. However, the mechanical method is difficult to withstand the rotational torque has recently been used a lot of hydraulic methods.

Various types of hydraulic systems have been proposed. As a specific example, by applying a uniform side pressure to the rolling ring using a plate spring, to generate the same reaction force of the threaded portion using the side pressure nut to maintain the balance of the force and the side pressure using the rotation of the adjustment ring and wedge ring There was such a thing.

However, when the plate spring is used, it is difficult to design since the elastic force of the plate spring needs to be precisely calculated, and when the side pressure nut is used, the thread cannot be enlarged and the thread may be damaged by the pressure after the hydraulic pressure is removed. In addition, the use of the adjustment ring and wedge ring is complicated structure, there is a cost burden and design difficulties to implement.

Therefore, the technical problem to be achieved by the present invention is to provide a rolling roller using hydraulic pressure that can stably apply the side pressure to the rolling ring to fix the rolling ring to the shaft, and to reduce the cost and design burden by applying the side pressure with a simple structure. have. Another object of the present invention is to provide a fixing method for fixing the rolling ring to the shaft by using the side pressure.

Rolling roller of the present invention for achieving the above technical problem includes a shaft to be a rotating shaft, a plurality of rolling ring fitted to the shaft and the side pressure portion for applying side pressure to the rolling ring on one side of the rolling ring. At this time, the side pressure portion is in contact with the housing and the housing in which the hydraulic generating unit for generating the hydraulic pressure and the hydraulic cylinder for transmitting the hydraulic pressure and the taper portion for generating the side pressure and the side pressure fixing portion for fixing to maintain the side pressure It includes a spacer provided in the.

In the rolling roller of the present invention, a space for fixing the rolling ring is mounted on both sides of the rolling ring, and the O-ring for preventing the inflow of foreign substances may be installed in the space in contact with the rolling ring.

In a preferred embodiment of the present invention, it is preferable that the oil pressure generating portion generates the oil pressure to induce the lateral pressure that the rolling ring or the rolling ring and the space can withstand the rotational torque. In addition, the hydraulic cylinder includes a hydraulic container made of any one material selected from stainless steel, SCM440, S45C, SNCM439 to accommodate the hydraulic pressure.

In the preferred rolling roller of the present invention, the tapered portion is inclined so that the width thereof becomes narrower toward the outside, and a screw portion for moving the tapered portion may be formed at a portion where the tapered portion and the spacer contact.

On the other hand, the side pressure fixing portion is formed with a side pressure fixing hole to be fixed to maintain the side pressure, the side pressure fixing hole is preferably disposed evenly along the circumference of the shaft. In addition, the spacer may be provided with a side pressure fixing groove for fixing while maintaining the side pressure corresponding to the side pressure fixing hole.

The fixing method of the rolling roller for achieving another technical problem of the present invention first transmits the hydraulic pressure generated in the hydraulic generating unit installed in the housing to the hydraulic cylinder. The hydraulic pressure then delivered to the hydraulic cylinder pushes the hydraulic receptor forward so that the housing and spacer are separated by a distance d. By the action of the thread formed between the tapered portion and the spacer, the tapered portion is reversed by the gap d to lower the side pressure fixing part in the direction of the empty space s. The bolt is fixed to the side pressure fixing hole installed in the side pressure fixing part and the side pressure fixing groove formed in the spacer.

In the fixing method of the present invention, the tapered portion is preferably inclined so that the width thereof becomes narrower toward the outside.

According to the rolling roller of the present invention, it is possible to fix the rolling ring by a simple method by moving the spacer by a constant interval by hydraulic pressure and generating a side pressure by using a taper to fix the rolling ring. Accordingly, the rolling ring can be completely fixed, and by installing an O-ring between the rolling ring and the space, corrosion of the shaft can be prevented.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art.

An embodiment of the present invention will propose a rolling roller that applies a side pressure to the rolling ring in a simple manner by using a tapered portion for accommodating hydraulic pressure. Since the rolling roller of the present invention is divided into a part in which a rolling ring is mounted and a side pressure part providing side pressure to the rolling ring, the following description will be made separately. Next, look at the structure of the rolling roller and thereby look at how to fix the rolling ring to the shaft,

1 is a partial cross-sectional view of a rolling roller according to an embodiment of the present invention.

Referring to FIG. 1, the rolling roller includes a shaft 100 that becomes a rotating shaft and a plurality of rolling rings 102 assembled to the shaft 100, spaces 104 located on both sides of the rolling ring 102, and rolling. One side of the ring 102 includes a side pressure portion (A) for applying side pressure to the rolling ring (102). Substantially the side pressure portion (A) is located along the circumference of the shaft 100, but only a portion is shown for convenience of description.

The rolling ring 102 is formed with a frame for processing a plate, a bar, a pipe, and various cross-section shapes to be manufactured, and uses a material having excellent wear resistance such as cemented carbide, ceramic, hard alloy, and the like. The space 104 is for fixing the rolling ring 102. Due to the pitch when rolling, the thickness may be different from that of the rolling ring 102. Among the stainless steels, SCM440 and SNCM439 alloys are mainly used. Is fixed by.

On the other hand, during the rolling process, foreign materials such as cooling water flow into the rolling ring 102 and the space 104 from the outside to damage the shaft 100 by corrosion or the like. Accordingly, in the embodiment of the present invention to form the O-ring case 107 as shown in the space 104 in contact with the rolling ring 102 to prevent this by inserting the first O-ring 106. That is, the first O-ring 106 may prevent foreign matter from flowing into the shaft 100, thereby preventing the shaft 100 from being damaged by corrosion or the like. Therefore, the shaft 100 of the present invention can be used longer than in the conventional case.

FIG. 2 is an enlarged cross-sectional view of the side pressure portion A of FIG. 1, and FIGS. 3 to 7 are enlarged cross-sectional views of each of the components constituting the side pressure portion A around the shaft 100. 6B is a plan view of the side pressure fixing unit 140 of FIG. 6A.

2, the side pressure unit A includes a housing 110 in which a hydraulic pressure generating unit 112 for generating hydraulic pressure and a hydraulic cylinder 120 for transmitting hydraulic pressure are installed, and a taper portion 130 for generating side pressure, It is configured to include a spacer 150 is provided with a side pressure fixing portion 140 for fixing to maintain the side pressure. In this case, the housing 110 and the spacer 150 are in contact with each other, and the double spacer 150 is in contact with the rolling ring 102.

3 to 4, the housing 110 serves to fix and support the hydraulic generator 112 and the hydraulic cylinder 120. The housing 110 is fitted to the shaft 100 along the circumference of the shaft 100. The oil pressure generating unit 112 generates oil pressure generated in the oil pressure generating device (not shown) outside the rolling roller in the housing 110. The hydraulic pressure generating unit 112 generates a pressure, such as 1,000 kg / cm 3 to 3,000 kg / cm 3, to the extent that the rolling ring 102 and the space 104 can maintain side pressure that can withstand the rotational torque.

The hydraulic cylinder 120 is preferably fitted to a portion of the housing 110 close to the shaft 100 and is in contact with the spacer 150. The hydraulic cylinder 120 includes a hydraulic container 122 for accommodating the hydraulic pressure and moving the spacer 150, and a support 126 for supporting the second O-ring 124 and the hydraulic container 122 to prevent breakage of the hydraulic pressure. ) In this case, reference numeral 125 denotes a backup O-ring for protecting the second O-ring 124.

The hydraulic receptor 122 is a material made of any one material selected from stainless steel, SCM440, S45C, SNCM439, such as stainless steel, SCM440, S45C, SNCM439 is suitable for the hydraulic pressure is not damaged by the hydraulic pressure, the hardness is HRC 32-40 are preferable. The second O-ring 124 is sandwiched between the hydraulic receptor 122 and the housing 110 to prevent the hydraulic pressure from being broken.

5 to 7, the spacer 150 serves to apply the hydraulic pressure to the rolling ring 102 as a portion that is moved by the hydraulic pressure transmitted by the hydraulic cylinder 120. The spacer 150 is fitted to the shaft 100 along the circumference of the shaft 100 while contacting the rolling ring 102. The spacer 150 is provided with a tapered portion 130 and a side pressure fixing part 140 on the outside thereof, and has a side pressure fixing groove 152 fixed by a bolt or the like.

The taper portion 130 is inclined so that the width thereof becomes narrower toward the outside, and the side pressure fixing part 140 is in contact with the inclined surface. In addition, a portion of the tapered portion 130 in contact with the spacer 150 is formed with a screw portion 132, so that the tapered portion 130 can be moved.

The side pressure fixing unit 140 is fitted to the outside of the spacer 150 along the circumference of the spacer 150 between the tapered portion 130 and the spacer (150 of FIG. 2). The side pressure fixing part 140 is formed in the side pressure fixing hole 142 for fixing side pressure by a bolt or the like. The side pressure fixing holes 142 are preferably disposed at equal intervals along the circumference of the side pressure fixing unit 140. Because, by arranging the side pressure fixing hole 142 uniformly, the rolling ring 102 can be fixed at a uniform pressure. The empty space s is for the side pressure fixing unit 140 to move in the direction of the spacer 150 when the side space is fixed while maintaining the side pressure.

The side pressure fixing groove 152 formed in the spacer 150 is connected to the side pressure fixing hole 142 so that a bolt or the like passes therethrough. That is, even if the side pressure fixing unit 140 descends by the empty space s, the centers of the side pressure fixing holes 142 and the side pressure fixing grooves 152 coincide without being disturbed. In other words, the inclination of the taper 130 is inclined so that the centers of the side pressure fixing holes 142 and the side pressure fixing grooves 152 coincide with each other even if the side pressure fixing unit 140 descends.

8A and 8B are cross-sectional views illustrating a method of fixing the rolling ring 102 by using the side pressure portion A according to an embodiment of the present invention.

Referring to FIG. 8A, first, the hydraulic pressure generated from the hydraulic generator 112 installed in the housing 110 is transferred to the hydraulic cylinder 120. The hydraulic pressure transmitted to the hydraulic cylinder 120 pushes the hydraulic receptor 122 forward to separate the housing 110 and the spacer 150 by a distance d. As the spacer 150 is pushed forward, the tapered part 130 also moves together. The interval d may be sufficient to generate a sufficient side pressure to fix the rolling ring 102. Therefore, the interval d may vary depending on the size or type of the rolling roller. At this time, an empty space s1 is formed between the side pressure fixing unit 140 and the spacer 150. That is, the empty space s1 is formed in a state before the tapered portion 130 moves in the direction of the housing 110.

Referring to FIG. 8B, when the tapered part 130 is moved backward by the interval d by the action of the screw part 132, the side pressure fixing part 140 descends downward to form the empty space s2. The reason why the empty space s2 is formed is to allow a design margin for the lowering of the tapered portion 130. Even when the side pressure fixing unit 140 descends, the side pressure fixing hole 142 and the side pressure fixing groove 152 coincide with each other. In this state, the bolt 160 is inserted into the side pressure fixing hole 142 and the side pressure fixing groove 152 and fixed. Even after the hydraulic pressure is removed after the rolling ring 102 is fixed, the side pressure applied to the rolling ring 102 is maintained.

According to the rolling roller of the present invention, the rolling ring is fixed in a simple manner by moving the spacer 150 by a hydraulic pressure by a predetermined interval d and generating a side pressure by using the tapered portion 130 to fix the rolling ring 102. Can be fixed. Accordingly, the rolling ring 102 can be completely fixed, and by installing the O-ring in the space 104 in contact with the rolling ring 102, corrosion of the shaft 100 can be prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It is possible.

1 is a partial cross-sectional view of a rolling roller according to the present invention.

2 is an enlarged cross-sectional view of the side pressure portion of FIG. 1, and FIGS. 3 to 7 are cross-sectional views and side views of each of the components constituting the side pressure portion.

8A and 8B are cross-sectional views illustrating a method of fixing a rolling ring using a side pressure unit according to the present invention.

* Description of the symbols for the main parts of the drawings *

100; Shaft 102; Rolling ring

104; Space 110; housing

112; Hydraulic generating unit 120; Hydraulic cylinder

130; Tapered portion 132; Screw

140; Lateral pressure fixing part 142; Lateral pressure fixing hole

150; Spacer 152; Lateral pressure fixing groove

Claims (11)

A shaft 100 which becomes a rotation axis; A plurality of rolling rings 102 assembled to the shaft 100; And On one side of the rolling ring 102 includes a side pressure portion (A) for imparting a side pressure to the rolling ring 102, The side pressure unit (A) is a housing 110, the hydraulic generating unit 112 for generating the hydraulic pressure and the hydraulic cylinder 120 for transmitting the hydraulic pressure is installed; And Rolling by using hydraulic pressure including a spacer 150 which is provided on the outer surface of the taper portion 130 for generating the side pressure and the side pressure fixing portion 140 for fixing the side pressure while being in contact with the housing 110 roller. According to claim 1, Both sides of the rolling ring 102 is equipped with a space 104 for fixing the rolling ring 102, the foreign matter inflow into the space 104 in contact with the rolling ring 102 Rolling roller using hydraulic pressure, characterized in that the O-ring is installed to prevent. According to claim 1 or 2, wherein the hydraulic pressure generating unit 112 generates a hydraulic pressure to induce the lateral pressure that the rolling ring 102 or the rolling ring 102 and the space 104 can withstand the rotational torque Rolling roller using a hydraulic pressure characterized in that. The hydraulic cylinder of claim 1, wherein the hydraulic cylinder 120 includes a hydraulic container 122 made of any one material selected from stainless steel, SCM440, S45C, and SNCM439 to accommodate the hydraulic pressure. roller. According to claim 1, wherein the tapered portion 130 is a rolling roller using a hydraulic pressure, characterized in that inclined so as to narrow the width toward the outside. The rolling roller according to claim 1, wherein a threaded portion (132) for moving the tapered portion (130) is formed at a portion where the tapered portion (130) and the spacer (150) contact each other. According to claim 1, wherein the side pressure fixing part 140 is a rolling roller using a hydraulic pressure, characterized in that the side pressure fixing hole 142 is formed to be fixed to maintain the side pressure. The rolling roller according to claim 7, wherein the side pressure fixing hole (142) is evenly disposed along the circumference of the shaft (100). The rolling roller according to claim 8, wherein the spacer (150) is provided with side pressure fixing grooves (152) corresponding to the side pressure fixing holes (142) for fixing while maintaining the side pressure. Transmitting the hydraulic pressure generated in the hydraulic generator 112 installed in the housing 110 to the hydraulic cylinder 120; The hydraulic pressure transmitted to the hydraulic cylinder 120 pushes the hydraulic container 122 forward to separate the housing 110 and the spacer 150 by a distance d; The tapered portion 130 is moved backward by the interval d by the operation of the screw portion 132 formed between the tapered portion 130 and the spacer 150, so that the lateral pressure fixing portion 140 is vacated (s). Descending in the direction of; And Fixing the rolling roller using a hydraulic pressure comprising the step of fixing to the side pressure fixing hole (142) installed in the side pressure fixing part 140 and the side pressure fixing groove (152) formed in the spacer 150 with a bolt (160). The method of claim 10, wherein the tapered portion (130) is fixed to the rolling roller using hydraulic pressure, characterized in that the inclined so as to narrow the width toward the outside.

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