KR102146521B1 - Metal Bearing Apparatus For Bath Of Galvanizing System - Google Patents

Abstract

The present invention relates to a metal bearing device for a hot-dip galvanizing bath of a galvanizing facility, which greatly extends a service life of a bearing by improving a structure of a contact portion between members. The metal bearing device that supports both ends of a plating roll immersed in a galvanizing bath containing hot-dip zinc includes: an arm having a rear end connected to the outside of the galvanizing bath and a front end immersed in the galvanizing bath; a bush housing that is installed at the front end of the arm and provides a bearing groove into which the plating roll shaft is inserted, and has an upper part opened to form a ″U″ shape; and a bush block that is seated on the open upper part of the bush housing and supports an upper surface of the plating roll shaft that is fitted into the bearing groove.

Description

Metal Bearing Apparatus For Bath Of Galvanizing System for hot dip galvanizing bath of galvanizing facility

The present invention relates to a galvanizing facility, and more particularly, to a metal bearing device for a hot-dip galvanizing bath of a galvanizing facility in which the service life of the bearing is greatly extended by improving the structure of the contact portion between members.

Galvanizing is performed to prevent rust of steel sheets widely used in various industrial sites. Galvanizing is usually carried out by continuously passing a steel plate, which is a material to be plated, through a hot-dip galvanizing bath containing zinc in a molten state. The plating solution contained in the hot-dip galvanizing bath varies in temperature from 400 to 800°C depending on the specific components thereof.

The bearing device to which the present invention is applied supports the plating roll shaft at both ends of the plating roll (or sink roll) for continuously conveying the steel sheet inside the hot-dip galvanizing bath but changing the conveying direction, and is used in an extreme environment. Therefore, even if a special material is used, the service life is short and must be replaced frequently. Plating equipment must be stopped inevitably for replacement of the bearing device, but if the period to be stopped is short, the productivity is adversely affected. After all, extending the life of the bearing device is a problem directly connected to the productivity of the product.

Korean Patent Application No. 10-2007-0030951 Korean Patent Application No. 10-2006-0135818

An object of the present invention with respect to the above problems is to provide a metal bearing device for a hot dip galvanizing bath of a galvanizing facility. More specifically, it is used in a state immersed in molten zinc, and its service life can be greatly increased, and its object is to provide a metal bearing device in which maintenance is easy.

The above object is to support both ends of a plating roll immersed in a plating bath containing hot-dip zinc;

The rear end is connected to the outside of the plating bath, and the front end is an arm immersed in the plating bath; A bush housing installed at the front end of the arm and providing a bearing groove into which the plating roll shaft is fitted, and the upper portion thereof being opened to form a “U”; Achieved by a metal bearing device for a hot-dip galvanizing bath of a galvanizing facility, comprising: a bush block that is seated on the open top of the bush housing and supports the upper surface of the plating roll shaft that is fitted into the bearing groove. do.

According to another feature of the present invention, the bush block includes a base seated in the opening of the bush housing; A first support block protruding from the upper surface of the base and providing a first support surface for supporting the front of the upper surface of the plating roll shaft; And a second support block protruding from the upper surface of the base and providing a second support surface for supporting the rear of the upper surface of the plating roll shaft.

According to another feature of the present invention, the first and second support surfaces have a "V" shape, and a first normal line connecting the contact point between the first support surface and the plating roll axis and the center point of the plating roll axis, and the second support surface The extension direction of the center line obtained by dividing the angle between the contact point of the surface and the plating roll axis and the second normal line connecting the center point of the plating roll axis may be the same direction as the resultant force of the tensile force applied by the steel plate to be plated during the plating process .

"의 형태로 되어 있음으로써 상기 도금롤축과의 접촉부가 선형이 되도록 할 수 있다. According to another feature of the present invention, the bush housing has a cross-sectional shape of a section in which the plating roll shaft contacts

By being in the form of ", the contact part with the plating roll shaft can be made linear.

According to another feature of the present invention, a cylindrical sleeve is fitted and fixed like a cap to the plating roll shaft; A stopper protrusion may protrude in a hemispherical shape at the center of the closing plate of the sleeve. In addition, a stopper arm may protrude downward on the arm, and a stopper may be installed on the stopper arm to face the stopper protrusion.

According to the present invention, the bush block constituting the bearing device and the plated roll shaft are in line contact rather than surface contact, so that the friction coefficient is reduced and the lubrication function is improved, and thus, the wear progresses slowly, thereby obtaining the effect of increasing the replacement cycle. You will be able to.

As a result, there is provided a metal bearing device for a hot-dip galvanizing bath of a galvanizing facility that can extend the life of the bearing device and increase the productivity of the product.

1 is a side view of a plating bath of a galvanizing facility to which the present invention is applied.
2 is a front configuration diagram of a plating bath of a galvanizing facility to which the present invention is applied.
3 is a side cross-sectional view of a metal bearing device of a hot dip galvanizing bath of a galvanizing facility to which the present invention is applied.
4 is a front cross-sectional view taken along line AA of FIG. 7.
5 is a cross-sectional plan view of a metal bearing device of a hot dip galvanizing bath of a galvanizing facility to which the present invention is applied.
6 is an exploded perspective view of a metal bearing device of a hot dip galvanizing bath of a galvanizing facility to which the present invention is applied.
7 is a side configuration diagram for explaining the operation of the metal bearing device of the hot dip galvanizing bath of the galvanizing facility to which the present invention is applied.

Hereinafter, specific contents of the present invention will be described in detail with reference to the accompanying drawings. 1, 3, 5, and 6 will be referred to by default, and other drawings will be referred to where necessary.

The metal bearing device (hereinafter referred to as'bearing device') of the hot-dip galvanizing bath of the galvanizing facility according to the present invention is a plating roll 103 that is driven while being immersed in the hot-dip zinc (L) contained in the plating bath 101. It is to support both ends of ). In particular, it is to support the plating roll shaft 105 at both ends of the plating roll 103.

The bearing device 1 includes an arm 3, a bush housing 5, and a bush block 7 in a broad sense.

The rear end of the arm 3 is connected to the system 107 outside the plating bath, and the front end is immersed in molten zinc (L). The steel plate (S) is bathed at an angle, and the direction is changed while surrounding the plating roll 103 to vertically bathe. The arm 3 is installed at an angle in consideration of the directions of the forces F1 and F2 applied to the steel plate S.

The bush housing (5) is installed at the tip of the arm (3). A housing seating portion 9 is provided at the distal end of the arm. Bush housing (5) and arm (3) are fixed by welding at the installation site.

The bush housing 5 provides a bearing groove 11 into which the plating roll shaft 105 is fitted, and the upper portion is opened. Therefore, the bush housing is in the form of "U". A bush block seating protrusion 15 is provided in the opening 13 of the bush housing 5. The plating roll shaft 105 seated in the bearing groove 11 has a slight clearance up and down.

The bush block 7 is seated on the open top of the bush housing, that is, on the bush block seating protrusion 15. Then, the push cover 17 is fixed to the bush housing 5 while being covered on the bush block. The push cover 17 can be fixed in the field by welding or bolts.

A gasket may be interposed between the push cover 17 and the bush block 7.

The bush block 7 supports the upper surface of the plating roll shaft 105 fitted in the bearing groove 11. During the plating operation, since the plating roll 105 is supported upward, only the bush block 7 actually supports the plating roll shaft 105 in the plating process.

The bush block 7 includes a base 19 seated in the opening 13 of the bush housing 5 and first and second support blocks 21 and 23 protruding from the upper surface of the base 19.

The first support block 21 provides a first support surface 25 for supporting the upper front section 105a of the plating roll shaft 105, and the second support block 23 is on the upper surface of the base 19. As protrudingly formed, a second support surface 27 for supporting the upper rear section 105b of the plating roll shaft 105 is provided.

The first and second support blocks 21 and 23 are each in the form of a right triangular column. The inclined planes of the first and second support blocks 21 and 23 become the first and second support surfaces 25 and 27. The first and second support surfaces 25 and 27 are in a "V" shape. The angle K between the first and second supporting surfaces 25 and 27 may be 100 to 120°. A damping groove 28 is provided between the first and second support blocks 21 and 23, and the damping groove 28 is for accommodating various foreign substances generated by abrasion or the like. The damping groove 28 prevents the bearing device 1 from being fixed by foreign substances and contributes to preventing damage to the first and second support surfaces 25 and 27 or the plating roll 103.

Hereinafter, a specific configuration and operation will be described with reference to FIG. 7.

The first normal line (V1) connecting the contact point between the first support surface 25 and the plating roll shaft 103 and the center point of the plating roll shaft 105, and the contact point between the second support surface 27 and the plating roll shaft 105 The extension direction of the center line (C) obtained by bisecting the angle between the second normal line (V2) connecting the center point of the plating roll shaft 105 is, the tensile force applied by the steel plate (S), which is the object to be plated, during the plating process (F1, It may be in the same direction as the resultant force F3 of F2). According to this, the same load acts on the first and second support surfaces 25 and 27, and it is possible to eliminate a phenomenon in which one side wears first, thereby helping to extend the lifespan.

"의 형태로 되어 있다. 이에 의하면, 도금롤축(105)과의 접촉부가 선형이 되도록 할 수 있다. According to another feature of the present invention, the cross-sectional shape of the section (H, see FIG. 7) where the plating roll shaft 105 of the bush housing 5 contacts is "

In this way, the contact portion with the plating roll shaft 105 can be made linear.

A cylindrical sleeve 29 is fitted and fixed to the plating roll shaft 105 like a cap. The sleeve 29 has a closing plate 31. At the center of the end plate 31 of the sleeve, a stopper protrusion 33 is formed in a hemispherical shape. In addition, a stopper arm 35 may be formed to protrude downward on the arm 3, and a stopper 37 may be installed on the stopper arm 35 so as to face the stopper protrusion 33. The gap G between the stopper 37 and the stopper protrusion 33 corresponds to the clearance of the plating roll 103 in its own longitudinal direction (see Fig. 4). This clearance allows the plating roll 103 to be stretched by thermal expansion within a certain range. The sleeve 29 may be fixed to the plating roll shaft 105 by a sleeve ring 39.

According to the present invention, a predetermined space (E1, E2) is provided between the bush housing 5, the bush block 7 and the plating roll shaft 105 during plating (see Fig. 3), and this space is a contact surface. Helps the discharge of foreign substances generated from

The present invention is based on being applied to a metal bearing device for supporting a plating roll 103 (ie, a sink roll) completely immersed in the plating bath 101, but furthermore, the stabilizer roll 103 shown in FIG. The same can be applied to a metal bearing device for supporting',103"). In this case, the support surfaces 25 and 27 supported by the roll shaft in consideration of the direction of the force applied to the stabilizer rolls 103' and 103" The direction or angle of the supporting surface (which is comparable to that of) should be determined.

The configuration shown and described above is only a preferred embodiment based on the technical idea of the present invention. Those skilled in the art will be able to implement various modifications based on common technical knowledge, but it should be noted that this may be included in the protection scope of the present invention. Various combinations of the embodiments disclosed above will be possible, and all possible combinations are within the scope of the present invention.

1: Metal bearing device for hot dip galvanizing bath of galvanizing facility
3: arm 5: bush housing
7: bush block 9: housing seat
11: bearing groove 15: bush block seating jaw
17: push cover 19: base
21,23: 1st and 2nd supporting block 25: 1st supporting surface
27: second support surface 28: damping groove
29: sleeve 31: finishing plate
33: stopper protrusion 35: stopper arm
37: stopper 39: sleeve ring
101: plating bath 103: plating roll
105: plating roll shaft
L: Hot-dip zinc S: Steel plate (to be plated)

Claims (5)

As supporting both ends of the plating roll immersed in the plating bath containing hot-dip zinc;
The rear end is connected to the outside of the plating bath, and the front end is an arm immersed in the plating bath;
A bush housing 5 that is installed at the front end of the arm and provides a bearing groove 11 into which the plating roll shaft 105 is fitted, and the upper portion thereof is opened to form a “U”;
A bush block (7) that is seated on the opened upper portion of the bush housing (5) and supports the upper surface of the plating roll shaft (105) fitted in the bearing groove (11), wherein the bush block (7) silver;
A base 19 seated in the opening of the bush housing 5;
A first support block 21 protruding from the upper surface of the base 19 and providing a first support surface 25 for supporting the front of the upper surface of the plating roll shaft 105;
A second support block 23 protruding from the upper surface of the base 19 and providing a second support surface 27 for supporting the rear of the upper surface of the plating roll shaft 105;
A damping groove 28 is provided between the first and second support blocks 21 and 23 for accommodating a variety of foreign substances generated by wear;
The first and second support surfaces 25 and 27 have a "V" shape,
The plating roll shaft 105 has a first normal line V1 connecting the contact point in contact with the first support surface 25 and the center point of the plating roll shaft 105, and the plating roll shaft 105 is connected to the second support surface ( The extension direction of the center line C obtained by bisecting the angle between the contact point in contact with 27) and the second normal line V2 connecting the center point of the plating roll shaft 105 is,
A metal bearing device for a hot-dip galvanizing bath of a galvanizing facility, characterized in that it is in the same direction as the resultant force (F3) of the tensile forces (F1, F2) applied by the steel plate as a plated object during the plating process.
delete delete The method of claim 1,
The bush housing 5 has a cross-sectional shape of the section in which the plating roll shaft 105 contacts

A metal bearing device for a hot-dip galvanizing bath of a galvanizing facility, characterized in that the contact portion with the plating roll shaft 105 is linear by being in the form of ".
The method of claim 1,
A cylindrical sleeve 29 is fitted and fixed to the plating roll shaft 105 like a cap;
A stopper protrusion 33 protrudes in a hemispherical shape at the center of the closing plate of the sleeve 29;
A stopper arm 35 protrudes downward on the arm 3;
The stopper arm (35), characterized in that the stopper (37) is installed to face the stopper protrusion (33), a metal bearing device for a hot-dip galvanizing bath of a galvanizing facility.

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