KR101976041B1 - Hus roll bearing monitoring structure for annealing device - Google Patents

Abstract

The present invention can visually confirm the state of the bearing due to the axial extension of the roller due to the high temperature during annealing for material processing, so that it is possible to easily judge the real time situation and predict the replacement or repair time, The present invention relates to a structure of an annealing work roller for reducing damage to a workpiece, and more particularly, to a structure of a roller for reducing the damage to a workpiece by using a bracket coupled to a second housing of a second rotary part for rotating the roller, 2 bearing reinforcement supporting the bearing; The tapered bearing connected to the roller can be easily visually checked by the administrator or operator without any structural change or work.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hus-

The present invention relates to an annealing apparatus, and more particularly, to a structure of a roller for annealing work in which the state of bearing engagement of a roller with respect to a sticking apparatus for cold working of a work can be checked in real time and the possibility of structural damage is reduced .

Generally, annealing is a type of heat treatment, and collectively refers to an operation of heating to a high temperature so as to be in a thermally equilibrium state.

The metal is often softened by heating and slowly cooling the material, which is sometimes referred to as a soaking process (a process in which metal or glass is heated and gradually cooled).

In order to improve the strength and toughness of the material combined with quenching, the quenched metal is again heat-treated by this operation. It was meant that the hardened steel was softened by plastic deformation such as heat-treatment after reheating, soaking and softening slowly by putting it in a chimney.

This is what today is called the full soot quenching of steel, corresponding to the creation of a relatively rough 'pulite' in 'austenite'. By this, distortion and the like are removed by machining, and machinability is facilitated.

The homogenizing sludge is to dissipate atoms at high temperature to eliminate the inhomogeneity (segregation) of a certain element in the coagulated material or the like. Therefore, this process requires a relatively long time.

Maintenance of high temperature for carburization and decarburization of steel, maintenance of high temperature for adding impurities to silicon for semiconductor devices, and the like are also intended to be diffused, and the case is referred to as spreading soaking.

Semiconductors are annealed to dissipate lattice defects, such as adding impurities by ion implantation. The concept of English is almost the same as that of trenching.

Stress relieving dipping is carried out in order to reduce the residual stress caused by plastic deformation or welding. In this case, the temperature is relatively low to minimize the change of the structure, and it is called low temperature sodum.

When a metal is processed into a line or a plate, it is often difficult to produce a desired shape by one-time plastic working. In this case, after calcining, it is heated to a temperature at which recrystallization occurs, and quenched and then further processed.

The process of making the desired shape by repeating the operation is called recrystallization quenching, and the recrystallization results in complete softening, new grain formation, and change in the texture.

As a process for manufacturing a rolled product through the above-described annealing process, a molten iron produced by dissolving iron scrap in an electric furnace is transferred to a steelmaking furnace and refined to produce a steel.

Steel produced in the Jinryong process is manufactured by semi-finished products such as Billet, Broome, Beam Brank, etc. through continuous casting process to produce semi-finished products for rolling.

After the continuous casting process has been completed, the semi-finished products (e.g., Billet, Broome, Beam Brank, etc.) are reheated in the heating process and then transported to the rolling process on the roller table so that certain types of products (H-Beam), Angle, rebar, round steel, etc.).

The cold rollers used in the rolling process are joined in such a manner that both ends of the roller directly pressing the material are supported by the tapered bearings and rotated in the cold device.

When the material is annealed for a long period of time by using the roller, the roller is heated by the high-temperature heat due to the heat of friction or the heat of the material, and elongation is generated in the longitudinal direction.

At this time, since the roller is stretched at the same time as being heated at a high temperature, axial stress acts on the roller, and the tapered bearing is frequently broken.

In addition, if the tapered bearing of the roller is broken, the roller may not rotate smoothly and the material may not be uniformly cold, resulting in breakage of the material or irregularity of the structure.

In addition, if one roller fails to smoothly rotate due to breakage of the tapered bearing, there is a problem that the burden on the other roller is increased and the roller is easily broken.

Accordingly, there is a serious demand for a structure of an improved cold roller which can check the tapered bearing state of the cold roller at any time through the naked eye and prevent the tapered bearing from being damaged by axial stress.

Open No. 2003-0033826 (Circular Roller Device for Cold Rolling) Registration No. 10-0742852 (Hus roll device of annealing furnace) Registration No. 10-0399232 (Continuous Annealing Furnace Roll Using Principle of Rotating Heat Pipe) Registration No. 20-0441766 (Release device of the slitter arbor shaft) Registration No. 10-1024752 (support structure for cooling run-in side roller)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a tapered bearing which is connected for rotation of a roller so that a manager or an operator can easily check the state of the tapered bearing connected to the roller without having to undergo any structural change or work, have.

An object of the present invention is to make it possible to visually confirm and discriminate between a normal state and an abnormal state of a tapered bearing due to a change in the axial elongation of a roller in real time,

The present invention is to prevent the tapered bearing from being thrown or structurally deformed due to the axial elongation of the roller heated to a high temperature by the annealing operation or the heat of the material by supporting the tapered bearing using the reinforcing bolt.

The present invention is intended to check the condition of the tapered bearing from time to time and to repair or replace the tapered bearing in advance when it is found to be abnormal so as not to lower the quality of the cold work due to bearing damage or to waste the material.

The present invention is intended to provide a means for checking the pressure state transmitted to the reinforcing bolt by the high-temperature stretching of the roller.

SUMMARY OF THE INVENTION [0005] The present invention is intended to enable a bearing to be moved and moved by the extension of a roller through a lamp.

The present invention is to enable the user to grasp the residual amount of oil and the oil temperature through the projection window.

A roller for forming a roller end for rolling a cold material between a driving end through which a driving force is transmitted through the driving means and a rotary end for rotation; A second rotating part that is supported by the second bearing to be engaged by the second bearing so that the rotating end of the roller rotates; a second rotating part that is formed on the end surface of the second rotating part, A bracket for supporting the second bearing and projecting the inside of the bearing and provided at the end of the second housing of the second rotating part, and a plurality of reinforcing bolts fastened to the bracket and supporting the second bearing at the end of the second housing, And a huck roller bearing monitoring structure for an annealing apparatus.

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The reinforcing bolt is a hexagonal bolt, and has a through hole at the center of the head and the spiral, a battery inserted into the inner space of the through hole, a second battery connected to the battery, And a lamp which is connected to the battery and the load cell and is turned on when the second bearing is in pressure contact with a pressure value equal to or higher than the measured value of the load cell due to high temperature elongation of the roller.

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According to the embodiment of the present invention, the state of the tapered bearing connected to the rotation of the roller can be easily checked by the administrator or operator without visualizing the structural change or work, thereby facilitating the monitoring operation.

Further, the present invention can confirm and discriminate the normal and abnormal state of the tapered bearing due to the axial elongation change of the roller in real time, so that it is possible to predict the replacement or repair time, thereby preventing the prolonged stoppage of the annealing process .

In addition, according to the present invention, since the tapered bearing is supported by using the reinforcing bolt, the tapered bearing is prevented from being tilted or structurally deformed due to the axial elongation of the roller heated by the annealing operation or the heat of the material, thereby maintaining the mechanical strength and stability .

In addition, according to the present invention, the condition of the tapered bearing is checked at any time, and repair or replacement at the time of finding an abnormality is performed, thereby reducing the quality of the cold work caused by the bearing damage or wasteting the material.

Meanwhile, the present invention has an effect of increasing the convenience of management by means of checking the pressure state transmitted to the reinforcing bolt by the high-temperature stretching of the roller.

Further, according to the present invention, the degree of movement and movement of the bearing due to the elongation of the roller can be grasped through the lamp, thereby improving the convenience of management.

In addition, the present invention can grasp the residual amount of oil and the oil temperature through the projection window, thereby improving the responsiveness by predicting the elongation of the roller.

1 is a cross-sectional view of a structure of a roller to which a husk roll bearing monitoring structure for annealing apparatus according to the present invention is applied,
FIG. 2 is an exploded perspective view of a hustle roll bearing monitoring structure for an annealing apparatus according to the present invention,
3 is a perspective view showing the structure of the monitoring structure of the hustle roll bearing for the annealing apparatus according to the present invention,
FIG. 4 is an assembled cross-sectional view of a hustle roll bearing monitoring structure for an annealing apparatus according to the present invention,
FIG. 5 is a front view of a hustle roll bearing monitoring structure for an annealing apparatus according to the present invention,
6 is a front view of a projection window according to another embodiment;
Fig. 7 is an enlarged view of a portion A in Fig. 1,
8 is a perspective view in which a load cell, a battery, and a lamp are provided in a reinforcing bolt, a cross-sectional view in which a load cell, a battery, and a lamp are provided in the reinforcing bolt,
FIG. 9 is a partially enlarged view to which a reinforcing bolt having a load cell, a battery, and a lamp is applied to a huskroll bearing monitoring structure for an annealing apparatus according to the present invention,
10 is a use state sectional view of a huskroll bearing monitoring structure for an annealing apparatus according to the present invention,
11 is an installation front view showing a load cell, a battery, and a bolt equipped with a lamp,
FIG. 12 is an operation diagram showing the operation of the lamp according to the pressure acting on the load cell in the monitoring structure for the huskroll bearing for the annealing apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

As shown in FIGS. 1 to 9, the structure of the present invention will be described with reference to the accompanying drawings. The huck roll bearing monitoring structure for annealing apparatus includes a second rotating portion 30 A projection window 42 provided on the bracket 41 and a projection reinforcing portion 42 which is fastened to the bracket 41 and supports the second bearing 31, The roller structure 100 is constituted by the roller 40.

The drive end 11 of the roller 10 is supported by the first rotation part 20 and is configured to rotate and the rotation end of the roller 10 12 are supported and rotated by the second rotating portion 30. [

The roller (10) forms a roller end (13) for rolling a cold material between a driving end (11) receiving a driving force through a driving means and a rotation end (12) for rotation.

The driving means is a part of the annealing apparatus not shown in the drawing, and is constituted by being connected to a separate device for directly generating driving force or generating a driving force.

The first rotating portion 20 is coupled by the first bearing 21 so that the driving end 11 of the roller 10 rotates.

The first rotary part 20 is coupled to the first bushing 24 in the first shaft hole 23 formed in the first housing 22 and to the rear of the first bushing 24, And a first finishing cap (25) is provided at an end of the first housing (22).

The driving end 11 of the roller 10 is inserted into the first housing 22 in the order of the first bushing 24, the first bearing 21 and the first finishing cap 25, (21).

On the other hand, the second rotating portion 30, which is engaged and supported by the second bearing 31 so as to rotate the rotation end 12 of the roller 10, is formed.

The second rotary part 30 is coupled to the second bushing 34 inside the second shaft hole 33 formed in the second housing 32 and to the rear of the second bushing 34 by the second bearing 31 Respectively.

The rotation end 12 of the roller 10 is configured such that the end passes through the second bushing 34 and the second bearing 31 in this order and is rotated by the second bearing 31 in the second housing 32 do.

The first and second bearings 21 and 31 are formed as Hus roll bearings for rotating and supporting the roller 10 in the annealing apparatus, (22) (32).

The projection reinforcing part 40 is formed on the end surface of the second rotation part 30 to project the interior of the second bearing 31 and supports the second bearing 31.

The projection reinforcing part 40 forms a bracket 41 provided at the end of the second housing 32 of the second rotation part 30. The bracket 41 is formed in a circular band shape, The first bolt hole 41a for fastening the second housing 32 to the first bolt 41a 'is formed, a second bolt hole 41b for fastening the reinforcing bolt 43 is formed at the center, And a third bolt hole 41c to which the second bolt 41c 'is fastened to fasten the projection window 42 is formed inside.

A projection window 42 is formed on the bracket 41. An O-ring for sealing is coupled to the bracket 41 to be in sealing contact with the projection window 42, The window 42 is preferably made of a glass material or a synthetic resin material having excellent heat resistance and transparency and fastened to the third bolt hole 41c of the bracket 41 using bolts.

And a plurality of reinforcing bolts 43 which are fastened to the bracket 41 and whose ends support the second bearings 31 are formed.

That is, the reinforcing bolt 43 of the projection reinforcing unit 40 prevents the second bearing 31 from separating from the second housing 32 due to the thermal expansion of the roller 10 heated to a high temperature, So that the state of the second bearing 31 and the amount of oil in the second housing 32 can be checked.

In another embodiment, the projection window 42 has a scale display portion 42a for checking the amount of oil on the inner surface facing the roller 10, and the scale display portion 42a can be easily identified by an operator or an administrator Even if the oil is in contact, there is no change in physical properties, and when the light is projected onto the projection window 42, visibility is good.

A temperature check section 42b for checking the temperature of the oil is formed on one side which does not interfere with the scale display section 42a.

The temperature check unit 42b is a type of temperature sensitive pad whose color changes according to the temperature of the oil. The temperature check unit 42b can easily grasp information about the oil temperature in real time by the administrator through the naked eye.

The reinforcing bolt 43 is in the form of a hexagonal bolt and is coupled with the second housing 32 through the second bolt hole 41b of the bracket 41 so that the head portion 43a and the helical portion 43b Hole 43c is formed at the center of the through hole 43c.

The battery 44 is inserted into the inner space of the through hole 43c. Preferably, the battery 44 is surrounded by a heat-resistant pad.

And a load cell 45 connected to the battery 44 and coupled to an end of the spiral portion 43b to contact the second bearing 31 is formed.

A lamp 46 which is connected to the battery 44 and the load cell 45 and is turned on when the second bearing 31 is in pressure contact with a pressure value equal to or higher than a set measurement value of the load cell 45 due to high- ).

The load cell 45, the battery 44, and the lamp 46 may be formed by shielding a part of the load cell 45, the battery 44, and the lamp 46 with heat resistant pads to prevent heat conduction.

According to another embodiment, the load cell 45 may include first, second, and third load cells 45a, 45b, and 45c having different measured values.

The lamp 46 of each reinforcing bolt 43 to which the load cell 45 is coupled may be composed of first, second and third lamps 46a, 46b and 46c formed in different colors.

That is, the lamp 46 of the reinforcing bolt 43 to which the first load cell 45a of the load cell 45 is coupled is subjected to high temperature elongation deformation of the roller 10 to measure the first load cell 45a of the load cell 45 The first lamp 46a of the blue lamp 46 is turned on when the second bearing 31 is brought into pressure contact with a pressure value equal to or lower than a predetermined value.

The ramp 46 of the reinforcing bolt 43 to which the second load cell 45b of the load cell 45 is coupled is subjected to the high temperature elongation deformation of the roller 10 and the measured load value of the second load cell 45b of the load cell 45 And the second lamp 46b of the yellow lamp 46 is turned on when the second bearing 31 is brought into pressure contact with the same pressure value.

The lamp 46 of the reinforcing bolt 43 to which the third load cell 45c of the load cell 45 is coupled is deformed at a higher temperature than the measured value of the third load cell 45c of the load cell 45 And the third lamp 46c of the red lamp 46 is turned on when the second bearing 31 is in pressure contact with a large pressure value.

The second bearing 31 is pushed outward by the extension of the roller 10 to change the color of the lamp 46 to blue indicating the tolerance of the color of the lamp 46 according to the pressure value measured on the load cell 45 The color of the lamp 46 indicating the warning limit is displayed in red indicating the danger limit, so that the operator or the administrator can easily change the visibility.

The use state of the above-described structure of the hustle roll bearing monitoring structure for the annealing apparatus will be described below.

1 to 12, the roller structure 100 includes first and second bushings 24 and 34 on the first and second housings 22 and 32 of the annealing apparatus, The first end cap 25 is additionally installed in the first housing 22 after the first and second bearings 21 and 31 are fastened and the drive end 11 of the roller 10 is connected to the first The bushing 24, the first bearing 21 and the first finishing cap 25 in this order so as to be rotated by the first bearing 21 in the first housing 22, The rotating end 12 is installed so as to penetrate through the second bushing 34 and the second bearing 31 in this order and rotate by the second bearing 31 in the second housing 32. [

The driving end 11 of the roller 10 is connected to the driving means 200 and the projection reinforcing portion 40 is assembled at the end of the second housing 32 of the second rotation portion 30.

The projecting reinforcing part 40 is assembled by tightly fitting the projection window 42 to the third bolt hole 41c of the bracket 41 and then tightening the bolt using the bolt and attaching the reinforcing bolt 41a to the second bolt hole 41b, (43) to complete the assembly.

Next, the bracket 41 of the projection reinforcing portion 40 is brought into close contact with the end of the second housing 32, and then the bolt is fastened to the first bolt hole 41a to be coupled with the first housing 22, And the installation is completed in the first rotary part 20. [

The inner space formed by the first housing 22 and the first finishing cap 25 coupled with the driving end 11 of the roller 10 and the inner space formed by the rotation end 12 The second housing 32 and the bracket 41 of the projection reinforcing unit 40 are coupled to each other so that the oil circulates through an additional oil circulating unit.

When the metal material to be subjected to the cold working is supplied by the annealing unit, the roller structure 100 passes through the roller end 13 of the roller 10 while pressing the material.

The high temperature heat of the material 300 heated by the contact friction heat of the roller end 13 and the material or the material heated by the high temperature is transmitted to the drive end 11 and the rotation end 12 through the roller end 13, 10) The whole surface is heated to high temperature and the temperature rises.

The roller 10 made of a metal material is thermally expanded due to the heating of the roller 10. The driving end 11 of the roller 10 is connected and fixed to the driving means 200, The rotation end 12 is expanded by the thermal expansion and the second bushing 34 and the second bearing 31 are pushed to the outside of the second housing 32. As a result,

In this case, when the second bushing 34 and the second bearing 31 are largely moved, the second housing 32 is separated from the second housing 32. However, in the present invention, The second bearing 31 is supported by the reinforcing bolts 43 fastened to the first housing 41 to prevent the second housing 32 from being disengaged from the second housing 32 even if longitudinal extension due to thermal expansion of the roller 10 occurs It is effective.

In addition, when the second bearing (31) is out of the compressive stress limit point between the reinforcing bolts (43) supporting the roller (10) in the event of severe thermal expansion, The operator can easily grasp it and can quickly perform the emergency response according to the emergency action or the situation.

In addition, the operator or the manager is capable of continuously checking the circulation amount of the oil through the graduation display portion 42a formed in the projection window 42.

The operator or manager can confirm the temperature of the oil in real time through the color change of the temperature check part 42b, and can easily grasp the internal temperature information through the naked eye.

Meanwhile, the state of the second bearing 31 connected to the rotation of the roller 10 can be easily checked by the administrator or operator without visualizing any structural change or work, so that the monitoring operation is convenient.

In addition, when the load cell 45 and the lamp 46 are installed in the reinforcing bolt 43, the extension state due to the thermal expansion of the roller 10 can be checked according to the lighting state of the lamp 46, The following is an example.

1. When the second bearing 31 is in pressure contact with a pressure value lower than the measured value of the first load cell 45a of the load cell 45, the first lamp 46a of the blue lamp 46 ) Is turned on.

2. The second lamp 46b of the yellow lamp 46 is turned on when the second bearing 31 is brought into pressure contact with the same pressure value as the measured value of the second load cell 45b of the load cell 45. [

3. The third lamp 46c of the red lamp 46 is turned on when the second bearing 31 is in pressure contact with a pressure value larger than the measured value of the third load cell 45c of the load cell 45. [

That is, the second bearing 31 is pushed outward by the extension of the roller 10, so that the color of the lamp 46, which indicates the tolerance of the color of the lamp 46 according to the pressure value measured on the load cell 45, The color indicating the color limit is yellow, and the color of the lamp (46) is displayed in red indicating the danger limit, so that it can be easily changed by the operator or the administrator.

The second bearings 31 are supported by the reinforcing bolts 43 so that the second bearings 31 are heated by the annealing operation or the heat of the material 300 to increase the axial extension of the roller 10, And the mechanical strength and stability are maintained.

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 embodiments, but, on the contrary, And should be construed as being included in the scope of the present invention.

10: roller 11: driving stage
12: rotating end 13: roller end
20: first rotating portion 21: first bearing
22: first housing 23: first shaft hole
24: first bushing 25: first finishing cap
30: second rotating part 31: second bearing
32: second housing 33: second shaft hole
34: second bushing 40: projection reinforcing portion
41: Bracket 41a: First bolt hole
41b: second bolt hole 41c: third bolt hole
42: projection window 42a: scale display section
42b: temperature check part 43: reinforcing bolt
43a: head portion 43b: spiral portion
43c: Through hole 44: Battery
45: load cell 45a: first load cell
45b: second load cell 45c: third load cell
46: lamp 46a: first lamp
46b: second lamp 46c: third lamp
100: roller structure 200: drive means
300: Material

Claims (5)

A hose roll bearing monitoring structure for annealing apparatus comprising:
A roller (10) for forming a roller end (13) for rolling a cold material between a driving end (11) for receiving a driving force through a driving means and a rotary end (12) for rotation,
A first rotation part 20 which is engaged by the first bearing 21 to rotate the driving end 11 of the roller 10,
A second rotating portion 30 which is supported by the second bearing 31 so as to rotate the rotation end 12 of the roller 10,
The second bearing (31) is supported on the end surface of the second rotation part (30) and projects the inside of the second bearing (31)
A bracket 41 installed at an end of the second housing 32 of the second rotation part 30,
Wherein the projection reinforcing part (40) is constituted by a plurality of reinforcing bolts (43) which are fastened to the bracket (41) and whose ends support the second bearings (31).
[2] The apparatus according to claim 1, wherein the projection enhancing unit includes a bracket 41 installed at an end of the second housing 32 of the second rotation unit 30,
A projection window 42 provided on the bracket 41,
A plurality of reinforcing bolts (43) which are fastened to the bracket (41) and whose ends support the second bearings (31);
The reinforcing bolt 43 prevents the second bearing 31 from escaping from the second housing 32 due to the thermal expansion of the roller 10 heated to a high temperature while preventing the second bearing 31 from leaking through the projection window 42. [ And the amount of oil in the second housing (32) can be checked.
The reinforcing bolt according to claim 1, wherein the reinforcing bolt (43) has a hexagonal bolt shape and a through hole (43c) is formed at the center of the head portion (43a) and the helical portion (43b)
A battery 44 inserted into the inner space of the through hole 43c,
A load cell 45 connected to the battery 44 and coupled to an end of the spiral portion 43b to be in contact with the second bearing 31,
A lamp 46 which is connected to the battery 44 and the load cell 45 and is turned on when the second bearing 31 is in pressure contact with a pressure value equal to or higher than a set measurement value of the load cell 45 due to high- ) For the annealing apparatus. delete delete

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