JP2002195261A - Bush and manufacturing method of bush - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a bush and a manufacturing method of the bush capable of improving productivity by means of forming a oil passage feeding lubricating oil and a oil collecting portion collecting lubricating oil in simple processing. SOLUTION: Sheet material 21 that is base metal of a bush 11 is formed by stamping. Chamfer portions 22 and 22 are respectively provided in edges 21A and 21A of the sheet material 21 by means of burried deformation generated in stamping of the sheet material, and a cut groove 17 is formed by putting together both ends of each chamfer portion 22. Accordingly, the cut groove 17 forming an oil passage 19 can be formed by means of a part of manufacturing process of the bush 11, and productivity of the bush can be improved. When the sheet material 21 is stamped, a notch 23 forming a notch hole 18 is also arranged together. Consequently, productivity can be improved accordingly.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bush suitable for rotatably supporting a rotating body such as an upper roller and a lower roller for guiding a crawler belt of a construction machine and a method of manufacturing the bush.

[0002]

2. Description of the Related Art Generally, construction machines such as hydraulic excavators are
The vehicle includes a lower traveling body provided with crawler belts and the like, and an upper revolving superstructure provided with a working device for swinging on the lower traveling body and performing an excavation operation or the like. The lower traveling body is provided with an upper roller, a lower roller, and the like for guiding the crawler belt in a circumferential direction, and the upper roller and the lower roller are rotatably mounted on a track frame of the lower traveling body via a bush. .

Therefore, the bush will be described. The bush is formed as a cylindrical body using a thin plate as shown in, for example, JP-A-2000-9111. The bush is press-fitted into the hole of the housing provided on the track frame on the outer peripheral side, and the shaft of a rotating body such as an upper roller and a lower roller is rotatably inserted into the inner peripheral side.

[0004] Here, there is a bush formed as a cylindrical body by, for example, rounding one edge of a rectangular plate material so as to match the other edge. Lubricating oil is supplied to the bush to rotate the rotating body smoothly. This prior art bush,
In order to supply the lubricating oil supplied between the bush and the rotating body to the entire sliding surface, an oil path through which the lubricating oil flows is provided between the bush and the shaft. In addition, the bush
An oil reservoir is provided in the middle of the oil passage for storing lubricating oil.

[0005] In the bush according to the prior art, a concave groove is provided on the inner peripheral surface of a cylindrical body to form an oil passage.
For example, when the bush (cylindrical body) is a flat plate material, the concave groove is formed by pressing a ridge on a surface that becomes an inner peripheral surface in the middle of the length of the plate material using a press machine. ,
It is formed by cutting. In addition, the oil sump
A through-hole is formed by punching using a press machine or cutting using a drill or the like, and lubricating oil is stored in the through-hole.

[0006]

In the bush according to the prior art described above, the groove is formed by pressing or cutting separately from the bush manufacturing process. And there is a problem that productivity is reduced.

[0007] Also, when a through-hole forming an oil reservoir is formed, the number of processing steps increases as in the case of forming a concave groove, so that there is a problem that productivity is reduced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide an oil passage and an oil sump portion in a cylindrical body, thereby improving productivity. An object of the present invention is to provide a bush and a method for manufacturing the bush as described above.

[0009]

SUMMARY OF THE INVENTION A bush according to the present invention is formed as a cylindrical body by rounding one edge of a plate and the other edge so as to match each other, and the outer peripheral side of the cylindrical body is a member to be mated. And the shaft of the rotating body is rotatably inserted into the inner peripheral side.

[0010] In order to solve the above-mentioned problems,
The feature of the configuration adopted by the first aspect of the invention is that an oil path through which lubricating oil flows between the shaft portion and the inner peripheral surface of the cylindrical body is formed at the joint of each edge forming the cylindrical body. The incision is provided.

With this configuration, it is possible to perform processing such as chamfering on the edge of the plate material using, for example, drooping deformation of the edge generated during punching, filing work during deburring, and the like. By simply aligning the edges of the plate, a cut groove can be provided at the joint of the cylindrical body. The oil passage formed by the cut groove can supply lubricating oil to the entire cylindrical body.

According to the second aspect of the present invention, the cylindrical body is provided with a cutout portion which is located in the middle of the cut groove and defines an oil reservoir.

With this configuration, for example, when a plate material is cut by punching, the notch portion is easily formed by providing a notch portion at an edge (joint of the cylindrical body) of the plate material. be able to. The oil reservoir formed by the notch can store lubricating oil.

According to the third aspect of the present invention, each edge of the plate is formed in a straight line, so that a straight cut groove is formed at the joint of the cylindrical bodies.

[0015] With this configuration, the cylindrical body can be easily formed by rolling the plate material and abutting each edge. Further, the lubricating oil can be smoothly circulated through the linear cut grooves (oil passages).

According to the fourth aspect of the present invention, a male fitting portion is provided at one edge of the plate material, and a female fitting portion which fits into the male fitting portion is provided at the other edge. An uneven cut groove is formed at the joint of the cylindrical body.

With this configuration, the cylindrical member is rounded, and the male member at one end and the female member at the other edge are fitted and connected, so that the cylindrical body can be freed. It can be held in a cylindrical shape, and handling when press-fitting into a hole of a mating member can be facilitated.

According to a fifth aspect of the present invention, there is provided a method of manufacturing a bush in which a substantially rectangular plate material is rounded to form a cylindrical body by joining one edge and the other edge to each other. After forming the chamfered portion on the edge, each edge is joined so that the chamfered portion is on the inside, and an oil passage is formed at the joint.

With this configuration, a chamfered portion is formed at each edge of the plate material, and the plate material is rolled so that the chamfered portion is on the inner side and the respective edges are aligned. Can be used to form an oil passage.

According to a sixth aspect of the present invention, the chamfered portion is formed by deforming the edge of the plate material when punching the plate material by a punching process using a press machine.

With this configuration, a chamfered portion can be formed at the edge by utilizing the drooping generated when a plate material is punched by a punching process using a press machine.

According to the seventh aspect of the present invention, the chamfered portion is formed by filing a plate material at the time of deburring.

With such a configuration, a chamfered portion can be formed at an edge by using a file attaching operation at the time of deburring a plate material.

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a bush according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings, taking as an example the case where a bush according to an embodiment of the present invention is used to rotatably support an upper roller for guiding a track of a construction machine. explain.

FIG. 1 to FIG. 6 show a first embodiment of the present invention. Reference numeral 1 denotes a housing provided on a track frame (not shown) of a lower traveling body of the construction machine, for mounting an upper roller 4 to be described later on the track frame. 3 are formed.

Reference numeral 4 denotes a roller support hole 3 of the housing 1.
An upper roller as a rotating body rotatably supported via a bush 11 described later. The upper roller 4 includes a roller portion (not shown) for guiding the crawler belt in a circumferential direction, and a rotation center of the roller portion. And a shaft portion 4A extending in the axial direction from the shaft portion. The shaft portion 4A is rotatably inserted into the bush 11.

Reference numeral 11 denotes a bush which is inserted into the roller support hole 3 of the housing 1. The bush 11 is formed by, for example, punching, rounding, and drawing a single sheet of metal. Body 12, flange 15, kerf 1
7. It is roughly constituted by a notch 18.

Reference numeral 12 denotes a cylindrical body constituting the main body of the bush 11, and the cylindrical body 12 is provided at each edge 21 of a plate 21 to be described later.
A has a straight seam 12A where A is joined.
Then, the cylindrical body 12 is formed in a cylindrical shape by rounding by rounding processing so as to match the respective edges 21A. The cylindrical body 12 has a cylindrical portion 13 made of a metal material.
And a radial bearing 14 provided on the inner peripheral surface of the cylindrical portion 13 and made of a self-lubricating material, for example, a copper alloy material such as a lead bronze alloy. Then, the cylindrical body 12 is inserted into the roller support hole 3 by press fitting.

Reference numeral 15 denotes a flange provided on one end of the cylindrical body 12 in the axial direction. The flange 15 is bent by subjecting one end of the cylindrical body 12 in the axial direction to drawing, so that the flange 15 is directed radially outward. It is formed in an annular plate shape that extends. Further, a thrust bearing 16 is provided on the front surface of the flange portion 15, and the thrust bearing 16 is in sliding contact with the collar 4 </ b> B of the upper roller 4, and has a self-lubricating material similarly to the radial bearing 14 described above. It is formed using.

Reference numeral 17 denotes a groove provided at a joint 12A of the cylindrical body 12, and the groove 17 is provided between an outer peripheral surface of a shaft portion 4A of the upper roller 4 and an oil passage 19 described later, as shown in FIG. Is formed. The cut groove 17 is provided over the entire length of the cylindrical body 12 in the axial direction, and is formed as a substantially V-shaped groove extending linearly using a chamfered portion 22 of a plate member 21 described later.

Numerals 18, 18 denote two notches, which are located in the middle of the notches 17 and are provided at the joints 12 A of the cylindrical body 12, respectively. An oil reservoir 20 to be described later is defined between the inner peripheral surface and the outer peripheral surface of the shaft portion 4A of the upper roller 4. Also, the notch hole 18
As shown in FIG. 3, the edges 21A, 21A,
The cutouts 23, 23,... Formed in 21A are abutted to each other to form a substantially elliptical through hole.

The bush 11 according to the present embodiment has the above-described configuration, and the outer peripheral side of the cylindrical body 12 is pressed into the roller support hole 3 of the housing 1 until the flange portion 15 contacts the end face 2. Also, on the inner peripheral side of the cylindrical body 12,
The shaft 4A of the upper roller 4 is rotatably inserted. As a result, the bush 11 is connected to the radial bearing 14 of the cylindrical body 12.
The upper roller 4 is rotatably supported by the like. Here, when the shaft 4A of the upper roller 4 is inserted into the bush 11, an oil path 19 is formed between the bush 11 and the outer peripheral surface of the shaft 4A of the upper roller 4 by the cut groove 17, as shown in FIG. ing.

Here, the oil path 19 supplies lubricating oil supplied between the bush 11 and the shaft portion 4A to the sliding surface, that is, the entire radial bearing 14. Therefore, oilway 1
Reference numeral 9 is formed over the entire length of the cylindrical portion 12 in the axial direction.

The notch 18 of the bush 11 is
As shown in FIG. 1, an oil reservoir 20 is formed between the inner peripheral surface of the housing 1 and the outer peripheral surface of the shaft portion 4A of the upper roller 4. Here, the oil sump 20 accumulates lubricating oil supplied to prevent the oil film from running out.

Next, a method of manufacturing the bush 11 will be described with reference to FIGS.

First, a material having a self-lubricating property as a bearing characteristic, for example, a powder of a copper alloy material is spread on the surface of a steel plate (not shown) as a base material, sintered, and then subjected to pressure to apply a compact. Become At this time, when the flange portion 15 is drawn, a substantially perpendicular bending occurs between the cylindrical body 12 and the flange portion 15. Therefore, in order to prevent the sintered powder from peeling due to the bending, The portion corresponding to this portion is not covered with powder, or the powder is spread over the entire steel plate and sintered, and then this portion is cut.

Next, the above steel sheet is subjected to a punching process,
As shown in FIG. 4, a substantially rectangular plate material 21 in which the longitudinal edges 21A, 21A are formed linearly is cut.
At this time, since the surface on which the powder having the self-lubricating property, that is, the radial bearing 14 and the thrust bearing 16 are provided is inside the bush 11, the radial bearing 14, The thrust bearing 16 side is set as the punching die (female type) side, and the steel plate side is set as the punch (male type) side.

Accordingly, when the punching process is performed by the press machine, the longitudinal edges 21A, 21A,
A drooping deformation during processing as shown in FIG. 2 can be caused in 21A and the like, and the arc-shaped chamfered portion 22 can be formed by using this drooping deformation. In addition, each edge 21A of the plate material 21 is provided with a chamfered portion
Two arc-shaped notches 23, 23 with an interval in the middle of 2
Are formed respectively.

Next, the plate material 21 is subjected to a rounding process, and the plate material 21 is rounded so that the edges 21A are aligned.
As shown in FIG. 5, a cylindrical member 24 can be formed. At this time, since each edge 21A is formed in a straight line, the cylindrical member 24 can be easily formed by abutting each edge 21A. As shown in FIGS. 2 and 3, a V-shaped cut groove 17 extending linearly by each chamfered portion 22 is formed in a joint 12A of the cylindrical member 24 (the cylindrical body 12). Thereby, two notches 18 are formed.

After the cylindrical member 24 is formed, the thrust bearing 16 side is drawn to be bent to form an annular plate extending radially outward. This allows
As shown in FIG. 6, the cylindrical body 12, the flange portion 15, the cut groove 17,
The bush 11 including the notch 18 or the like can be formed.

As described above, according to the present embodiment, the chamfered portion 22 is provided on the edge 21A of the plate 21 by utilizing the drooping when the plate 21 is formed by punching. Since the kerf 17 is formed by this, the kerf 17 can be formed as a part of the manufacturing process of the bush 11. As a result, the oil passage 19 can be formed by the cut groove 17, and the oil passage 19 can improve lubricity. In addition, even when the cut groove 17 is formed in the bush 11, the number of steps is not increased,
Since processing can be easily performed, productivity can be improved.

When the plate 21 is punched, the notch 23 for forming the notch 18 is provided.
Notch hole 18 (oil sump 20) without separately performing punching using a press machine, cutting using a drill, etc.
Can be provided. This makes it possible to always form an oil film by the lubricating oil and prevent the oil film from being cut, thereby improving reliability. The notch 18 (the oil reservoir 20) can be easily provided, and the productivity can be improved.

Further, since each edge 21A of the plate 21 is formed in a straight line, the plate 21 is rolled to form each edge 21A.
The cylindrical member 24 can be easily formed by abutting against each other. Moreover, the cylindrical member 24 (the cylindrical body 1)
Since the linear cut groove 17 is formed at the joint 12A of 2), the lubricating oil can be smoothly circulated through the linear cut groove 17 (oil passage 19).

Next, FIGS. 7 and 8 show a second embodiment of the present invention. The features of this embodiment are as follows.
A male fitting portion is provided at one edge of the plate material, and a female fitting portion is provided at the other edge to fit into the male fitting portion. Has been formed.

Reference numeral 31 denotes a bush according to the present embodiment. The bush 31 is substantially the same as the bush 11 according to the first embodiment, and has a cylindrical body 32, a flange 35, a male fitting portion 37, and a female Fitting portion 38, concave and convex cut groove 39, cutout hole 40
It is roughly configured by:

Reference numeral 32 denotes a cylindrical body which constitutes the main body of the bush 31.
A has a seam 32A. And
The cylindrical body 32 includes a cylindrical portion 33 made of a metal material and the cylindrical portion 3.
3 and a radial bearing 34 made of a material having self-lubricating properties. Further, a male fitting portion 37 and a female fitting portion 38, which will be described later, connect the seam 32A (the edge 41A of the plate member 41) to the cylindrical body 32.
Is provided.

Reference numeral 35 denotes a flange provided at one end in the axial direction of the cylindrical body 32. The flange 35 is, like the flange 15 according to the first embodiment, an annular plate extending radially outward. And a thrust bearing 36 is provided.

Further, 37, 37 are two male fitting portions provided on one edge 41A of a plate material 41 to be a joint 32A of the cylindrical body 32, and 38, 38 are provided on the other edge 41A. The two female fitting portions are shown, and the male fitting portion 37 is shown.
The female fitting portion 38 and the female fitting portion 38 are fitted and connected to each other, so that the seam 32A does not separate and holds the cylindrical body 32 in a cylindrical shape even in a free state.

Reference numeral 39 denotes an uneven cut groove provided at the seam 32A of the cylindrical body 32. The cut groove 39 is bent into an uneven shape by the male fitting portion 37 and the female fitting portion 38, and It is provided over the entire length in the axial direction. And the kerf 39
Is formed using a chamfered portion 42 of a plate material 41 described later.

Reference numerals 40, 40,... Are three notches provided in the joint 32A of the cylindrical body 32 in the middle of the concavo-convex notches 39. Each of the notches 40 is described later. The cutouts 43 of the plate material 41 to be formed are formed as elliptical holes by abutting each other.

Next, a plate material 41 serving as a base material of the bush 31
Will be described. As shown in FIG. 8, the plate 41 is formed by bending one edge 41A into an uneven shape by a male fitting portion 38 and bending the other edge 41A into an uneven shape by a female fitting portion 38. It has a substantially rectangular shape as a whole. Here, the plate material 41 is located at the longitudinal edges 41A, 41A, and undergoes drooping during punching. The arc-shaped chamfered portion 42 is formed by using this drooping.
Are formed. Further, three arc-shaped notches 43, 43,... Are formed at intervals on the edge 41A of the plate material 41 at intervals in the chamfered portion 42 at the time of punching.

Thus, according to the present embodiment configured as described above, by punching the plate material 41,
Since the cut groove 39 is formed by the chamfered portion 42 provided on the edge 41A, the cut groove 39 can be easily formed, and the productivity can be improved. Further, lubricating oil can be supplied to the entire radial bearing 34 by the cut groove 39. Furthermore, since the notch 43 is provided in the edge 41A of the plate material 41 when the plate material 41 is punched, the notch hole 40 can be easily formed by each of the notches 43. Further, the cutout hole 40 can prevent the oil film from being cut.

On the other hand, since the seam 32A of the cylindrical body 32 is connected by the concave and convex groove 39 having the male fitting portion 37 and the female fitting portion 38, the seam 32A can be separated even in a free state. In addition, the cylindrical body 32 can be held in a cylindrical shape, and handling at the time of press-fitting into the roller support hole 3 can be facilitated.

In the first embodiment, the bush 1
Although 1 has been described as being constituted by the cylindrical body 12 and the flange 15 and the like, the present invention is not limited to this. For example, the flange may be omitted and the bush may be formed as a simple cylindrical body. This configuration can be similarly applied to the second embodiment.

Alternatively, the bush may be formed by providing the cylindrical body and the flange as separate members and fixing the both by welding, brazing, shrink fitting or the like.

On the other hand, in the first embodiment,
Has been described as being formed by the chamfered portion 22 provided by utilizing the drooping deformation when the plate material 21 is punched, but the present invention is not limited to this. It is also possible to provide a chamfered part by using a filing operation at the time of the deburring operation, and to form a kerf by the chamfered part. This configuration is the second
The present invention can be similarly applied to the embodiment.

Further, in each embodiment, the bush 1
The case where the upper and lower rollers 31 and 31 are used to rotatably support an upper roller for guiding a track of a hydraulic shovel has been described as an example. However, the bush of the present invention is not limited to this. May also be applied to hydraulic cranes,
The present invention can be applied to other construction machines such as bulldozers and various industrial machines.

[0058]

As described above in detail, according to the first aspect of the present invention, the lubricating oil is provided between the shaft portion and the inner peripheral surface of the cylindrical body at the joint between the edges forming the cylindrical body. Since the cut grooves are formed to form the oil passage that circulates, for example, processing such as chamfering on the edge of the plate material using, for example, drooping of the edge generated at the time of punching, filing work at the time of deburring work, etc. The kerf can be provided at the seam of the cylinder simply by aligning the edges of the plate. Thereby, the cut groove (oil passage) can be easily processed without increasing the number of steps in manufacturing the bush, and the productivity can be improved. The oil passage formed by the cut groove can supply lubricating oil to the entire cylindrical body, and can smoothly and rotatably support the rotating body.

According to the second aspect of the present invention, the cylindrical body is provided with the notch which is located in the middle of the cut groove and defines the oil reservoir, so that, for example, when the plate is cut by punching. By providing the notch at the edge of the plate (joint of the cylindrical body), the notch can be easily formed, so that the productivity can be improved.

According to the third aspect of the present invention, since each edge of the plate is formed in a straight line, a straight cut groove is formed at the joint of the cylindrical bodies. The cylindrical body can be easily formed by abutting the edges. Further, the lubricating oil can be smoothly circulated through the linear cut grooves (oil passages).

According to the fourth aspect of the present invention, a male fitting portion is provided at one edge of the plate material, and a female fitting portion which fits into the male fitting portion is provided at the other edge. Since the concave and convex cut grooves are formed at the joint of the cylindrical body, the plate material is rounded, and the male fitting portion on one edge and the female fitting portion on the other edge are fitted and connected. This allows the cylindrical body to be held in a cylindrical shape even in a free state, and facilitates handling when press-fitting into a hole of a counterpart member.

According to the fifth aspect of the present invention, in the method for manufacturing a bush in which a substantially rectangular plate is rounded and one end and the other end are joined to form a cylindrical body, each end of the plate is formed. After forming the chamfered portion on the edge, the respective edges are joined so that the chamfered portion is on the inside, and an oil path is formed at the joint. Therefore, a chamfered portion is formed at each edge of the plate material, and the plate material is rolled so that the chamfered portion is on the inner side and the respective edges are joined, thereby forming an oil path using the chamfered portion at the joint. be able to.

According to the sixth aspect of the present invention, the chamfered portion is formed by deforming the edge when the plate material is punched by the punching process using the press machine. Thus, a chamfered portion can be easily formed at the edge by utilizing the drooping generated when the plate material is punched.

According to the seventh aspect of the present invention, since the chamfered portion is formed by a filer operation at the time of deburring the plate material, the chamfered portion is formed at the edge by using the filer operation at the time of deburring the plate material. Can be easily formed.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing a state in which a bush according to a first embodiment of the present invention is pressed into a roller support hole.

FIG. 2 is an enlarged cross-sectional view of a main part of the roller support hole, an upper roller, and a bush as viewed in the direction of arrows II-II in FIG.

FIG. 3 is an enlarged cross-sectional view of a main part of the roller support hole, the upper roller, and a bush as viewed in the direction of arrows III-III in FIG.

FIG. 4 is a front view showing a plate used in the first embodiment.

FIG. 5 is an external perspective view showing a cylindrical member formed by performing rounding on a plate material.

FIG. 6 is an external perspective view showing a bush formed by drawing a cylindrical member.

FIG. 7 is a longitudinal sectional view showing a bush according to a second embodiment of the present invention.

FIG. 8 is a front view showing a plate used in the second embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Housing (counterpart member) 3 Roller support hole 4 Upper roller (rotating body) 4A Shaft part 11, 31 Bush 12, 32 Cylindrical body 12A, 32A Seam joint 13, 33 Cylindrical part 14, 34 Radial bearing (slide bearing) 17 cutting Grooves 18, 40 Notch holes (notch portions) 19 Oil passages 20 Oil reservoirs 21, 41 Plate materials 22, 42 Chamfered portions 23, 43 Notches 39 Uneven grooves

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Akihiro Tanaka 650, Kandamachi, Tsuchiura-shi, Ibaraki Hitachi Construction Machinery Co., Ltd. (72) Inventor Juichi Sato 23rd Senjuhashido-cho, Adachi-ku, Tokyo Senju Metal Industry Co., Ltd. F-term (reference) 3J011 AA01 AA07 BA02 BA13 CA01 DA02 JA02 KA04 MA03 MA05

Claims (7)

[Claims] 1. A plate is formed as a cylindrical body by rounding one edge and the other edge so as to match with each other, and the outer peripheral side of the cylindrical body is press-fitted into a hole of a mating member, and the inner peripheral side is formed. In the bush in which the shaft of the rotating body is rotatably inserted, at the joint of each edge forming the cylindrical body,
A bush, wherein a cut groove is formed between the shaft portion and the inner peripheral surface of the cylindrical body to form an oil passage through which lubricating oil flows. 2. The bush according to claim 1, wherein the cylindrical body is provided with a notch located in the middle of the cut groove to define an oil reservoir. 3. The bush according to claim 1, wherein each edge of said plate material is formed in a straight line so that a straight cut groove is formed at a joint of said cylindrical bodies. 4. The cylindrical member is provided with a male fitting portion provided at one end of the plate member and a female fitting portion fitted with the male fitting portion at the other edge. The bush according to claim 1 or 2, wherein an uneven cut groove is formed in an eye. 5. A method of manufacturing a bush in which a substantially rectangular plate material is rounded and one edge and the other edge are joined to form a cylindrical body, wherein a chamfer is formed at each edge of the plate material. A method of manufacturing a bush, characterized in that the edges are then joined so that the chamfered portion is on the inside, and an oil path is formed at the joint. 6. The method for manufacturing a bush according to claim 5, wherein the chamfered portion is formed by curving an edge when punching a plate material by a punching process using a press machine. 7. The method for manufacturing a bush according to claim 5, wherein the chamfered portion is formed by filing a plate material at the time of deburring.