KR20180125772A - Fool proof air foil journal bearing - Google Patents

Abstract

The present invention relates to an air foil journal bearing for preventing misassembly. The air foil journal bearing for preventing misassembly includes: a bearing housing having a hollow in which a rotor is arranged, and a concave slot formed in the inner circumferential surface thereof to be connected with the hollow; a bump foil formed on an inner face of the bearing housing in a circumferential direction, and having a bent portion formed in such a way that a circumferential end portion is bent outwardly in a radial direction, wherein the bent portion is inserted into the slot; and a top foil formed on an inner face of the bump foil in a circumferential direction, and having a bent portion formed in such a way that a circumferential end portion is bent outwardly in a radial direction, wherein the bent portion is inserted into the slot. Vertical top ends of the bent portions of the bump foil and the top foil are asymmetrically formed about the centers of the bump foil and the top foil in the lengthwise direction, and the bearing housing is formed to correspond to the forms of the top ends of the bent portions. Therefore, the air foil journal bearing can prevent misassembly of the air foil journal bearing by preventing the foils from being misassembled to the housing in a wrong direction and checking if the air foil journal bearing is misassembled by a worker′s mistake.

Description

[0001] The present invention relates to an airfoil journal bearing,

The present invention relates to an airfoil journal bearing capable of preventing erroneous assembling by changing the orientation of foils in assembling the foils by inserting foils into the bearing housing.

The bearing is a mechanical element that fixes the rotating shaft at a fixed position and simultaneously rotates the shaft while supporting the self weight of the shaft and the load applied to the shaft.

The airfoil bearing in the bearing is a bearing that supports the load by introducing air, which is a viscous fluid, between the foil and the foil in contact with the rotor or the bearing disk due to high-speed rotation of the rotor (or rotary shaft) to form a pressure. In addition, an airfoil journal bearing in an airfoil bearing is a bearing configured to support a radial load of the rotor in a direction perpendicular to the rotor.

1, a bump foil 20 is installed along a circumferential inner surface 12 of the hollow 11 of the bearing housing 10, and a bump foil 20 is disposed inside the bump foil 20, A rotor 40 or a rotating shaft is disposed inside the top foil 30 so that the rotor can be rotated with the inner circumferential surface of the top foil 30 and the outer circumferential surface of the rotor 40 being spaced apart from each other . The bump foil 20 and the top foil 30 are formed with bending portions bent in the radial direction outwardly in the circumferential direction and the bending portions 21 and 31 are formed in the slots 13 formed in the bearing housing 10, So that the bump foil 20 and the top foil 30 are fixed to the bearing housing 10 without being rotated or pushed in the circumferential direction when the rotor is rotated.

Wherein the bump foil 20 and the top foil 30 are generally directionally oriented with respect to the direction in which the rotor is rotated so that the foils 20 and 30 are inserted and assembled inside the housing 10 The airfoil journal bearings are not damaged and the rotor can be rotated smoothly by being assembled in a precise direction.

However, there is no separate structure for preventing erroneous assembly of the housing and the foils due to a mistake of the operator during the assembling work, and there is no method for confirming whether the assemblies are assembled in the correct direction after the foils are inserted and assembled in the housing .

KR 10-1068542 B1 (2011.09.22.)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a bearing housing and foil having a separate structure having a specific directionality, And it is possible to confirm whether the assembly is performed in the correct direction after the assembly is performed.

According to an aspect of the present invention, there is provided an anti-misassignment airfoil journal bearing comprising: a bearing housing having a cavity in which a rotor is disposed, the bearing housing having a concave slot in an inner circumferential surface thereof to be connected to the hollow; A bump foil provided in the bearing housing and formed along the circumferential direction and having a bending portion bent radially outward in the circumferential direction, the bending portion being inserted into the slot; And a top foil provided inside the bump foil and formed along a circumferential direction, wherein a bending portion having a circumferential end bent radially outward is formed and the bending portion is inserted in the slot; Wherein the bump foil and the top foil are asymmetrically formed on the upper side in the height direction of the both side bending portions with respect to the center in the longitudinal direction and the slot of the bearing housing corresponds to the upper side shape of the bending portions . ≪ / RTI >

In addition, the bearing housing may be formed with a blocking portion to cover both ends of the slot in the longitudinal direction.

The blocking portion may include a first blocking portion that blocks one side in the longitudinal direction of the slot and a second blocking portion that blocks the other side. The height h1 of the first blocking portion may be smaller than the height h2 of the second blocking portion .

In addition, the bent portions may be formed with a cut-out portion in which a portion of one side in the longitudinal direction is removed, and the first cut-off portion may be formed to correspond to the shape of the cut-out portion.

The cutout portion may be formed in a shape in which a part of the bent portion is removed from one end in the longitudinal direction toward the other end.

The cut-out portion is formed at a position spaced apart from the one end in the lengthwise direction of the bent portion, and is recessed at the upper end, and the bearing housing is formed with a cut- And protrusions may be formed at the upper end of the slot so as to correspond to the incised portion.

The bending portions may have protruding tabs protruding upward in the height direction from one end in the longitudinal direction, and the bearing housing may be recessed at the upper end of the slot to correspond to the protruding tabs.

In addition, the distance from the lower end to the upper end in the height direction of the bent portions may be gradually increased or decreased from one side in the longitudinal direction to the other side.

The bump foil may include an inner bump foil and an outer bump foil surrounding the inner bump foil.

The top foil may also include an inner top foil and an outer top foil surrounding the inner top foil.

The anti-assembly anti-assembly airfoil journal bearing according to the present invention can prevent the foils from being erroneously assembled in the wrong direction to the bearing housing, and can confirm that the misfitting has occurred due to the mistake of the operator, It is possible to prevent an assembling failure of the battery.

1 is a cross-sectional view of a conventional airfoil journal bearing;
FIGS. 2 to 4 are an exploded perspective view, an assembled perspective view, and a front view showing an anti-misassignment airfoil journal bearing according to an embodiment of the present invention; FIG.
5 is a side view of a bumper foil and a top foil according to the present invention.
6 is a schematic view illustrating a process of assembling foils according to the present invention to a bearing housing.
Figures 7 to 9 are side schematic views of a misassembly airfoil journal bearing according to another embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a misassembly-preventing airfoil journal bearing according to the present invention will be described in detail with reference to the accompanying drawings.

FIGS. 2 to 4 are an exploded perspective view, an assembled perspective view and a front view showing an anti-misassignment airfoil journal bearing according to an embodiment of the present invention, FIG. 5 is a side view showing a bump foil and a top foil according to the present invention, 6 is a schematic view showing a process of assembling the foils according to the present invention to the bearing housing.

As shown in the figure, the anti-misassignment airfoil journal bearing according to an embodiment of the present invention includes a hollow 110 in which a rotor is disposed, a slot 120 concaved in an inner circumferential surface to be connected to the hollow 110, A formed bearing housing (100); The bending part 210 is formed inside the bearing housing 100 along the circumferential direction and has a circumferential end bent radially outward so that the bending part 210 is inserted into the slot 120 A bump foil 200 disposed on the bump foil 200; And a bending part 310 formed at an inner side of the bump foil 200 and formed along the circumferential direction and having a circumferential end bent radially outward so that the bending part 310 is inserted into the slot 120 An inserted top foil 300; The bump foil 200 and the top foil 300 are formed asymmetrically on the upper side in the height direction of the both side bending portions 210 and 310 with respect to the longitudinal center of the bump foil 200 and the bearing housing 100 may be formed in a shape corresponding to the shape of the upper portion of the bending portions 210, 310.

First, the anti-misassembly airfoil journal bearing of the present invention can largely include the bearing housing 100, the bump foil 200, and the top foil 300. The bump foil 200 and the top foil 300 may be disposed in a curled form on the inside of the hollow 110 of the bearing housing 100 and the top foil 300 may be disposed inside the bump foil 200. And a rotor inserted into the top foil 300 so as to be inserted therethrough. At this time, the rotor may be a rotating shaft and may be disposed on the inner side of the top foil 300.

The bearing housing 100 may have a hollow 110 formed therein so as to penetrate both sides in the longitudinal direction and a slot 120 may be formed along the longitudinal direction so as to be concave from the upper side in the inner peripheral surface so as to communicate with the hollow 110.

The bump foil 200 is disposed inside the hollow 110 of the bearing housing 100 and the bump foil 200 can be closely attached to the inner circumferential surface of the bearing housing 100 and disposed along the circumferential direction. At this time, the bump foil 200 may be formed in a thin plate shape, and a plurality of elastic bumps 201 protruding inward and convex inside may be formed spaced apart in the circumferential direction. The bending part 210 may be formed so that one end or both ends in the circumferential direction are bent radially outward so that the bending part 210 is inserted into the slot 120.

The top foil 300 may be disposed on the inner side of the bump foil 200 and may be disposed to be in contact with the elastic bumps 201 by being formed as a thin flat plate. The bent portion 310 of the top foil 300 is inserted into the slot 120 so that the bent portion 310 of the top foil 300 is inserted into the slot 120 .

That is, the bump foil 200 and the top foil 300 are disposed in a hollow form in the hollow 110 inside the bearing housing 100 and the bent portions 210 and 210 of the bump foil 200 and the top foil 300, 310 may be inserted and disposed in the slots 120 of the bearing housing 100. At this time, the bump foil 200 and the top foil 300 can be inserted and assembled into the bearing housing 100 in a state in which the bump foil 200 and the top foil 300 are overlapped and dried from one side of the bearing housing 100 in the longitudinal direction, It is also possible to insert the top foil 300 into the bump foil 200 by inserting and inserting the top foil 300 into the housing 100.

The bump foil 200 and the top foil 300 are asymmetrically formed on the upper side in the height direction of the both side bending portions 210 and 310 with respect to the center of the longitudinal direction of the bump foil 200 and the top foil 300, 120 may be formed in a shape corresponding to an upper shape of the bending portions 210, 310. That is, for example, the bending portions 210 and 310 of the bump foil 200 and the top foil 300 are formed in a rectangular shape whose length is longer than the height direction when the overall shape is viewed in the width direction, The shapes of the bent portions 210 and 310 on both sides in the longitudinal direction may be differently formed asymmetrically with reference to the center axis C as shown in Fig. At this time, upper sides of both longitudinal sides of the bending portions 210 and 310 may be formed different from each other with respect to the longitudinal center line C, and as shown in the figure, the left upper end of the bending portions 210 and 310 may be partially The cutout 320 may be formed in a shape that is not deleted and may be formed asymmetrically. The upper portion of the bent portions 210 and 310 may be formed in various shapes such as a straight line or a curved line with respect to the longitudinal center line C as a reference And may be formed asymmetrically.

Also, the slot 120 of the bearing housing 100 may be formed in a shape corresponding to the upper shape of the bending portions 210 and 310.

The anti-assembly anti-assembly airfoil journal bearing of the present invention can be assembled by correctly inserting the foils into the bearing housing after aligning the direction of assembly of the airfoil journal bearing inserted into the bearing housing and confirming the shape of the bent portion formed on the foil with the naked eye of the operator, There is an advantage that the foils can be prevented from being erroneously assembled to the bearing housing in the wrong direction. In the case of misassembly due to a mistake of the operator, the foils may be formed in a collapsed or inclined form compared to a state in which the foils are assembled in a state where the foils are inserted and assembled in the bearing housing. The rotor may not be inserted into the inside of the top foil. Therefore, it is possible to confirm whether the foils are improperly assembled to the bearing housing, thereby preventing defective assembling of the air foil journal bearing.

In addition, the bearing housing 130 may be formed with a blocking portion 130 so as to cover both ends of the slot 120 in the longitudinal direction.

This is because the blocking portion 130 is formed at both ends of the slot 120 in the longitudinal direction so that both ends of the slot are blocked by the blocking portions. When the bending parts 210 and 310 are inserted into the slot 120 when the foils 200 and 300 are inserted into the bearing housing 100 and the bending parts 200 and 300 are inserted into the slot 120, The foils 200 and 300 may be fixed by the cutout 130 so that the foils 200 and 300 are not moved or separated in the longitudinal direction.

The blocking unit 130 includes a first blocking unit 130-1 blocking one side of the slot 120 in the longitudinal direction and a second blocking unit 130-2 blocking the other side of the slot 120, The height h1 of the blocking portion may be smaller than the height h2 of the second blocking portion.

That is, as shown in the figure, the first blocking portion 130-1 is formed to cover one side of the slot 120 of the bearing housing 100 and the second blocking portion 130-2 is formed to cover the other side, The height h1 of the first blocking portion which is the distance from the upper end of the slot to the lower end of the first blocking portion 130-1 is greater than the distance h1 from the upper end in the height direction of the slot to the lower end of the second blocking portion 130-2 (H2) of the second blocking portion. When the foils 200 and 300 are rolled into a cylindrical shape and inserted into the bearing housing 100 and assembled, the foil 200 can be easily inserted through the first blocking portion 130-1 to form the second blocking portion 130-2 The foils 200 and 300 can be inserted in a relatively less deformed state as compared with the case where the foils are inserted and inserted into the bearing housing.

The bending parts 210 and 310 are formed with cutouts 220 and 320 in which a part of the longitudinal direction of the bending parts 210 and 310 is removed. 320, respectively.

That is, as shown in the drawing, the cutouts 220 and 320 may be formed in the bent portions 210 and 310 with a portion of one side thereof being deleted with respect to the longitudinal center line C, The first shielding part 130-1 may be protruded to be assembled in a state where the first shielding part 130-1 is fitted to the cutouts 220 and 320. [ In addition, the incision may be formed in various shapes.

At this time, the cut-out portions 220 and 320 may be formed such that a part of the bent portions 210 and 310 are removed from one end to the other end in the longitudinal direction.

That is, the cutouts 220 and 320 may be formed by cutting and removing the left upper end of the bent portions 210 and 310 as shown in FIG. 310 can be easily cut and formed by cutting and removing a part of the cut portions 220, 320.

The incisions 220 and 320 may be formed in the bent portions 210 and 310 so that a portion of the longitudinal direction of the incisions 220 and 320 is removed. The bearing housing 100 is formed with a protrusion 140 protruding from the upper end of the slot 120 so as to correspond to the cutouts 220 and 320, .

In other words, as shown in FIG. 7, the cutouts 220 and 320 may be formed in a part of the bent portion that is slightly spaced apart from the left end of the bent portions 210 and 310, The cutouts 220 and 320 may be formed in a concave shape downward from the upper ends of the first and second plates 210 and 310. The slots 120 of the bearing housing 100 are formed with protrusions 140 protruding downward from the upper end so that the protrusions 140 can be inserted into the recesses 220 and 320 having a concave shape. Therefore, the bending portion can be formed asymmetrically with respect to the center of the longitudinal direction by the cutout portion, and the slot of the bearing housing is formed so as to correspond to the asymmetric structure of the bent portion of the foils, have. Further, in the state where the foils are assembled to the bearing housing, the fitting structure of the cutout portion and the protruding portion can prevent the foils from being moved or separated in the longitudinal direction.

The bending parts 210 and 310 are formed with protruding tabs 230 and 330 so as to protrude upward in the height direction from one end in the longitudinal direction and the bearing housing 100 corresponds to the protruding tabs 230 and 330 The insertion groove 150 may be formed concavely at the upper end of the slot 120.

That is, as shown in FIG. 8, protruding tabs 230 and 330 having a convex shape upward from the upper ends of the bending portions 210 and 310 may be formed at positions slightly spaced to the right from the left end of the bending portions 210 and 310 have. The slot 120 of the bearing housing 100 is formed with an insertion groove 150 concaved upward from the upper end thereof so that the protrusion tabs 230 and 330 can be inserted into the insertion groove 150. Thus, the bending portion can be formed asymmetrically with respect to the center in the longitudinal direction by the projecting tabs, and the slot of the bearing housing is formed so as to correspond to the asymmetric structure of the bent portion of the foils, have. Further, in the state that the foils are assembled in the bearing housing, it is possible to prevent the foils from being moved or separated in the longitudinal direction by the fitting structure of the projecting tabs and the insertion grooves.

Further, the distance from the lower end to the upper end of the bending portions 210 and 310 in the height direction may be gradually increased or decreased from one side in the longitudinal direction to the other side.

In other words, as shown in FIG. 9, the lower ends of the bent portions 210 and 310 are formed to be parallel to the longitudinal direction, and the upper ends of the bent portions 210 and 310 are formed in a slanting shape inclined downward to the right, A bent portion of an asymmetric structure can be formed. The slot 120 of the bearing housing 100 may be formed in a shape corresponding to the upper end of the bent portions 210 and 310. Thus, by assembling the foils to the bearing housing, the misalignment can be prevented by the slots of the bearing housing formed to correspond to the upper end of the bent portion and the bent portion formed to be asymmetric with respect to the longitudinal direction center.

The bump foil 200 may include an inner bump foil 200a and an outer bump foil 200b surrounding the inner bump foil 200a.

That is, as shown in the drawing, the bump foil 200 may be formed in two layers so that the outer bump foil 200b may be disposed outside the inner bump foil 200a, and the outer bump foil 200b may be disposed outside the bearing housing 100, And the inner bump foil 200a can be brought into close contact with the inner side of the outer bump foil 200b. In addition, the bump foil 200 may be formed in two or more layers, or may be formed in various shapes. In addition, the bump foil 200 may be formed by dividing the remaining part of the bump foil except for the bending part 210 along the circumferential direction in the central part in the longitudinal direction, and dividing the bump foil into two parts. .

The top foil 300 may include an inner top foil 300a and an outer top foil 300b surrounding the inner top foil 300a.

That is, as shown in the drawing, the top foil 300 may be formed in two layers so that the outer top foil 300b may be disposed outside the inner top foil 300a, and the outer top foil 300b may be formed by the inner bump foil 200a And the inner top foil 300a can be in close contact with the inner side of the outer top foil 300b. In addition, the top foil 300 may be formed in two or more layers, or may be formed in various shapes.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

100: Bearing housing
110: Hollow 120: Slot
130:
130-1: first blocking portion 130-2: second blocking portion
h1: height of the first blocking portion h2: height of the second blocking portion
140: protrusion 150: insertion groove
200: Bump foil
200a: Inner bump foil 200b: Outer bump foil
201: Elastic bump 210:
220: incision section 230:
300: Top foil
300a: Inner top foil 300b: Outer top foil
310: bent portion 320: incision portion
330: Extruded tab
40: Rotor

Claims (10)

A bearing housing in which a hollow in which the rotor is disposed is formed, and a slot is formed in the inner circumferential surface so as to be connected to the hollow;
A bump foil provided in the bearing housing and formed along the circumferential direction and having a bending portion bent radially outward in the circumferential direction, the bending portion being inserted into the slot; And
A top foil provided inside the bump foil and formed along a circumferential direction and having a bending portion bent radially outwardly in a circumferential direction, the bending portion being inserted into the slot; , ≪ / RTI >
The bump foil and the top foil are asymmetrically formed on the upper side in the height direction of the both side bending portions with respect to the center in the longitudinal direction and the slot of the bearing housing is formed in a shape corresponding to the upper side shape of the bending portions. O-assembled airfoil journal bearings.
The method according to claim 1,
Wherein the bearing housing is formed with a blocking portion so as to cover both ends in the longitudinal direction of the slot.
3. The method of claim 2,
Wherein the blocking portion includes a first blocking portion for blocking one side in the longitudinal direction of the slot and a second blocking portion for blocking the other side,
Wherein the height h1 of the first blocking portion is smaller than the height h2 of the second blocking portion.
The method of claim 3,
Wherein the bent portions are formed with a cut-out portion in which a portion of one side in the longitudinal direction is removed, and the first cut-off portion is formed to correspond to the shape of the cut-out portion.
5. The method of claim 4,
Wherein the cut-out portion is formed in a shape in which a part of the bent portion is removed from one end in the longitudinal direction toward the other end.
The method according to claim 1,
The bending portion is formed with a cut-out portion in which a part of the longitudinal direction of the bending portion is removed. The cut-out portion is formed at a position spaced apart from the one end in the longitudinal direction of the bending portion,
Wherein the bearing housing has convex protrusions formed at the upper end of the slot so as to correspond to the cut-out portion.
The method according to claim 1,
Wherein the bending portions are formed with protruding tabs protruding upward in the height direction at one end in the longitudinal direction and the bearing housing is recessed at the upper end of the slot so as to correspond to the protruding tabs. bearing.
The method according to claim 1,
And the distance from the lower end to the upper end of the bending portions in the height direction is gradually increased or decreased from one side in the longitudinal direction to the other side.
The method according to claim 1,
Wherein the bump foil
An anti-misassembly airfoil journal bearing comprising an inner bump foil and an outer bump foil surrounding the inner bump foil.
The method according to claim 1,
The top foil,
An airfoil journal bearing comprising an inner top foil and an outer top foil wrapping the inner top foil.

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