KR101441300B1 - Separating zig of bearing and separating method for bearing - Google Patents

Abstract

According to an embodiment of the present invention, the jig for separating a bearing includes: a blocking plate fixed to one side of an inlet side of the sleeve bearing to close the inlet side of the sleeve bearing; A partition wall installed inside the sleeve bearing and connected to the shield plate, the partition wall dividing the interior of the sleeve bearing into a center region and an edge region; A support plate extending from the partition toward the center area and having a support plate fastening hole; And a supply plate fixed to one surface of the outlet of the sleeve bearing and having a supply plate fastening hole corresponding to the support plate fastening hole and a supply port communicating with the edge area.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a jig for separating a bearing,

The present invention relates to a bearing separating jig and a bearing separating method, and more particularly, to a bearing separating jig and a bearing separating method for separating a shell bearing and a sleeve bearing from a choke.

The rolling process utilizes the plasticity of the metal and is a process in which a metal material of high or normal temperature is passed between two rotating rolls to be processed into various types of products, such as plates, rods, tubes and the like. The rolling process includes hot rolling performed at a high temperature and cold rolling performed at a low temperature.

The rolling process uses a plurality of working rolls and backup rolls, wherein the working rolls are rolls in direct contact with the rolled material, and the backup rolls are rolls that prevent warpage of the working rolls during rolling. That is, the backup roll rotates while supporting the rolling reaction force applied to the work roll at the time of rolling, and usually a medium or large roll is used. Particularly, since the backup roll used in the hot rolling process has a diameter of 1600 mm, a large crane or the like is used for handling.

The backup roll is rotatably supported by a heavy-duty metal bearing rather than a roller bearing. 1 is a cross-sectional view schematically showing a sleeve bearing and a shell bearing and a choke into which a journal portion of a backup roll is inserted. The journal portion 112 of the backup roll 110 is inserted into the choke 120 and the sleeve bearing 140 and the shell bearing 130 are installed in the inside of the choke 120 so that the journal portion of the backup roll 110 112). The sleeve bearing 140 is assembled to the journal portion 112 and rotates together with the backup roll 110. The shell bearing 130 is fixed to the choke 120 to support the rolling reaction force applied to the backup roll 110 . Lubricating oil is supplied between the sleeve bearing 140 and the shell bearing 130 to form an oil film, and both ends of the backup roll 110 can freely rotate.

The sleeve bearing 140 and the shell bearing 130 are worn and deformed and replaced when the sleeve bearing 140 and the shell bearing 130 are deteriorated. However, when the sleeve bearing 140 and the shell bearing 130 are deteriorated, the sleeve bearing 140 and the shell bearing 130 The sleeve bearing 140 and the shell bearing 130 can not be separated from the choke 120. In this case, the sleeve bearing 140 and the shell bearing 130 are separated from each other by the high temperature and high pressure. Therefore, the sleeve bearing 140, the shell bearing 130, and the choke 120 can only be disposed of, but there is a problem that the choke 120 is costly, resulting in economic loss.

Korea Public Utility Model Publication 1999-000374 1999.01.15.

It is an object of the present invention to provide a bearing separating jig and a bearing separating method capable of separating a sleeve bearing and a shell bearing from a choke.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to an embodiment of the present invention, the jig for separating a bearing includes: a blocking plate fixed to one side of an inlet side of the sleeve bearing to close the inlet side of the sleeve bearing; A partition wall installed inside the sleeve bearing and connected to the shield plate, the partition wall dividing the interior of the sleeve bearing into a center region and an edge region; A support plate extending from the partition toward the center area and having a support plate fastening hole; And a supply plate fixed to one surface of the outlet of the sleeve bearing and having a supply plate fastening hole corresponding to the support plate fastening hole and a supply port communicating with the edge area.

The bearing separating jig may further include an auxiliary plate fixed to one surface of the output side of the shell bearing and connected to the wire.

The assisting plate may have a plurality of eye bolt holes to which the wires are connected.

The assisting plate has an assisting plate opening, the supplying plate fastening hole is located on the assisting plate opening, and the supplying opening can be located outside the assisting plate opening.

The edge region may be shielded from the outside.

The support plate is in the form of a ring having a support plate opening communicating with the center area, and the support plate may be in the form of a ring having a feed plate opening communicating with the support plate opening.

According to an embodiment of the present invention, there is provided a bearing separating method for separating a sleeve bearing and a shell bearing provided on an inner circumferential surface of a choke from an inner circumferential surface of the sleeve, comprising the steps of providing a blocking plate on one side of the inlet side of the sleeve bearing, And a supply plate is provided on one side of the outlet of the sleeve bearing to block the edge region from the outside and supply the refrigerant through a supply port communicating with the edge region, do.

After the coolant is supplied, an auxiliary plate may be installed on one side of the output side of the shell bearing, and the auxiliary plate may be lifted to separate the shell bearing and the sleeve bearing from the choke.

According to the present invention, the sleeve bearing and the shell bearing can be cooled and shrunk to be easily separated from the choke.

1 is a cross-sectional view schematically showing a sleeve bearing and a shell bearing and a choke into which a journal portion of a backup roll is inserted.
FIG. 2 is a view showing a state in which a blocking plate is fastened to the sleeve bearing shown in FIG. 1. FIG.
3 is a view showing the blocking plate, the partition, and the support plate shown in Fig.
4 is a view showing a state in which the supply plate is fastened to the blocking plate shown in Fig.
Fig. 5 is a view showing the supply plate shown in Fig. 4. Fig.
6 is a view showing a state in which an assisting plate is fastened to the supply plate shown in Fig.
7 is a view showing the assisting plate shown in Fig.
8 is a view showing the choke in which the sleeve bearing and the shell bearing shown in Fig. 6 are removed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

First, the sleeve retainer 160, the choke retainer 170, and the choke cover 180 are removed from the choke 120 to release the output of the choke 120, with the backup roll 110 removed. Then, the shield plate 12 is installed on the sleeve bearing 140, and the shield plate 12 is fixed to one side of the sleeve bearing 140 (right side in FIG. 2) through the fastener S1. The blocking plate 12 closes the inlet of the sleeve bearing 140. FIG. 2 is a view showing a state in which the blocking plate is fastened to the sleeve bearing shown in FIG. 1, FIG. 3 is a view showing the blocking plate, the partition, and the supporting plate shown in FIG.

The blocking plate 12 is in the shape of a disk, and the partition 14 is in a hollow cylindrical shape. The partition wall 14 is installed inside the sleeve bearing 140 in a state of being connected to the shutoff plate 12 and the inside of the sleeve bearing 140 is located in a center area located inwardly with respect to the partition wall 14, As shown in FIG. The support plate 16 is ring-shaped having an opening 17 at the center and is located on the outward side of the sleeve bearing 140 and connected to one end of the partition wall 14. [

FIG. 4 is a view showing a state in which the supply plate is fastened to the blocking plate shown in FIG. 2, and FIG. 5 is a view showing the supply plate shown in FIG. The choke 120 is reversed so that the entrance of the choke 120 faces downward and the choke 120 is moved downward in the state where the shield plate 12, the partition wall 14, and the support plate 16 are installed on the sleeve bearing 140, (120) is directed upward. Then, the supply plate 22 is installed on one side of the exit side of the sleeve bearing 140. The support plate 16 has a support plate fastening hole 16a and the supply plate 22 has a supply plate fastening hole 28 corresponding to the support plate fastening hole 16a. The fastener S2 passes through the supply plate fastening hole 28 and the support plate fastening hole 16a and fixes the supply plate 22 to one side of the output side of the sleeve bearing 140. [ The supply plate 22 has an opening 24 formed at the center.

The supply plate 22 has a supply port 26 protruding from the lower surface and a supply port 27 is formed on the supply port 26 to communicate with the edge region. Then, a refrigerant (for example, liquefied nitrogen) is supplied to the edge region through the supply port 27. [ Since the edge region is shielded from the outside, the edge region is filled with the coolant, and the coolant cools the sleeve bearing 140 and the shell bearing 130. The sleeve bearing 140 and the shell bearing 130 contract due to cooling, and the amount of shrinkage is proportional to the coefficient of thermal expansion. For example, when the temperatures of the sleeve bearing 140 and the shell bearing 130 are lowered by 100 ° C through the liquefied nitrogen, the outer diameter of the shell bearing 130 is reduced by about 1.7 mm, And the choke 120 are formed. Accordingly, the shell bearing 130 and the sleeve bearing 140 can be easily separated from the choke 120 through the gap.

FIG. 6 is a view showing a state in which an assisting plate is fastened to the supply plate shown in FIG. 4, and FIG. 7 is a view showing the assisting plate shown in FIG. Then, the auxiliary plate 32 is fixed to one surface of the output side of the shell bearing 130 in a state in which the auxiliary plate 32 is provided on the upper side of the supply plate 22. The fastening tool S3 is fastened to the fastening hole 132 of the shell bearing 130 through an assisting plate fastening hole 33 formed in the assisting plate 32. [ The assisting plate 32 has an opening 34 formed at the center and eye bolt holes 36a and 36b formed at the outside of the opening 34. [ The supply plate fastening hole 28 is located on the opening 34 and the supply port 27 is located outside the opening 34. Therefore, the assisting plate 32 closes the supply port 27, and restricts the discharge of the refrigerant filled in the edge region to the outside.

The shell bearing 130 and the sleeve bearing 140 are then easily separated from the choke 120 when a wire (not shown) is connected to the eye bolt holes 36a and 36b and lifted through a crane (not shown). 8 is a view showing the choke in which the sleeve bearing and the shell bearing shown in Fig. 6 are removed.

Although the present invention has been described in detail by way of preferred embodiments thereof, other forms of embodiment are possible. Therefore, the technical idea and scope of the claims set forth below are not limited to the preferred embodiments.

12: Block plate
14:
16: Support plate
22: Supply plate
26: Supply port
32: Auxiliary plate
110: Backup Roll
120: Choke
130: Shell bearing
140: Sleeve bearing

Claims (8)

A blocking plate fixed to one side of the inlet side of the sleeve bearing to close the inlet side of the sleeve bearing;
A partition wall installed inside the sleeve bearing and connected to the shield plate, the partition wall dividing the interior of the sleeve bearing into a center region and an edge region;
A support plate extending from the partition toward the center area and having a support plate fastening hole; And
And a supply plate fixed to one surface of the outlet of the sleeve bearing and having a supply plate fastening hole corresponding to the support plate fastening hole and a supply port communicating with the edge area. The method according to claim 1,
Wherein the jig for separating the bearings further comprises an auxiliary plate fixed to one side of the output side of the shell bearing and connected to the wire. 3. The method of claim 2,
Wherein the auxiliary plate has a plurality of eye bolt holes to which the wires are connected. The method according to claim 2 or 3,
The assisting plate has an assisting plate opening,
Wherein the supply plate fastening hole is located on the assisting plate opening, and the supply port is located outside the assisting plate opening. The method according to claim 1,
Wherein the edge region is cut off from the outside. The method according to claim 1,
Wherein the support plate is ring-shaped having a support plate opening communicating with the center area,
Wherein the supply plate is in the form of a ring having a supply plate opening communicating with the support plate opening. A bearing separating method for separating a sleeve bearing and a shell bearing provided on an inner circumferential surface of a choke from the inner circumferential surface,
A shielding plate is installed on one side of the inlet side of the sleeve bearing to close the inlet side of the sleeve bearing and partition the inside of the sleeve bearing into a center region and an edge region,
Wherein a supply plate is provided on one side of the outlet of the sleeve bearing to block the edge region from the outside and to supply the refrigerant through a supply port communicating with the edge region. 8. The method of claim 7,
In the bearing separation method,
Wherein after the coolant is supplied, an auxiliary plate is provided on one side of the output side of the shell bearing, and the auxiliary plate is lifted to separate the shell bearing and the sleeve bearing from the choke.

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