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JPS5834684B2 - Multi-arc sliding bearing device - Google Patents

Multi-arc sliding bearing device

Info

Publication number
JPS5834684B2
JPS5834684B2 JP54119027A JP11902779A JPS5834684B2 JP S5834684 B2 JPS5834684 B2 JP S5834684B2 JP 54119027 A JP54119027 A JP 54119027A JP 11902779 A JP11902779 A JP 11902779A JP S5834684 B2 JPS5834684 B2 JP S5834684B2
Authority
JP
Japan
Prior art keywords
arc
housing material
bushing
bearing
sliding bearing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
JP54119027A
Other languages
Japanese (ja)
Other versions
JPS5642717A (en
Inventor
義秋 伊藤
健一 山口
幸保 田口
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Taiho Kogyo Co Ltd
Original Assignee
Taiho Kogyo Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Taiho Kogyo Co Ltd filed Critical Taiho Kogyo Co Ltd
Priority to JP54119027A priority Critical patent/JPS5834684B2/en
Publication of JPS5642717A publication Critical patent/JPS5642717A/en
Publication of JPS5834684B2 publication Critical patent/JPS5834684B2/en
Expired legal-status Critical Current

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  • Sliding-Contact Bearings (AREA)

Description

【発明の詳細な説明】 本発明は断面形状が多円孤形のすべり軸受装置に関する
ものである。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a sliding bearing device having a polycylindrical arc cross section.

多円孤形すべり軸受の概念を第1図により説明すると、
同図は3円孤形すベリ軸受を表わしたもので、3個の円
弧からなる軸受1にシャフト2を挿入した状態を示して
いる。
The concept of a polycylindrical plain bearing can be explained using Figure 1.
This figure shows a three-arc shaped belly bearing, and shows a state in which a shaft 2 is inserted into a bearing 1 consisting of three arcs.

軸受1は3円孤形であるため、この軸受1とシャフト2
の間には間隙極小部C1と間隙極大部C2が各3個形成
される。
Bearing 1 is in the shape of a three-circle arc, so bearing 1 and shaft 2
Three minimum gap portions C1 and three maximum gap portions C2 are formed between them.

叙上のような形状を有する多円孤形すべり軸受は、通常
の断面円形状のすべり軸受には到底持ち得ない優れた性
能を有する。
A polygonal arc-shaped plain bearing having the above-mentioned shape has excellent performance that cannot be possessed by a normal plain bearing having a circular cross section.

一般に、すべり軸受は、シャフトとの間に生じる振動等
を防止するためにはシャフトとのクリアランスが小さい
方がよく、一方焼付防止、摩擦損失を低減させるにはク
リアランスが大きい方が好ましい。
In general, it is better for a sliding bearing to have a small clearance with the shaft in order to prevent vibrations generated between the bearing and the shaft, and on the other hand, it is preferable that the clearance be large in order to prevent seizure and reduce friction loss.

したがって、断面円形状のすべり軸受では上記両者の要
求は明らかに相反する。
Therefore, in a plain bearing having a circular cross section, the above two requirements are clearly contradictory.

しかるに、このような多円孤形すべり軸受では、間隙極
小部C1により、シャフト2の軸心の振動を減少させて
打音の発生を防止でき、同時に間隙極大部C2により潤
滑油量を増大させることができて軸受1とシャフト2と
の間の焼付きを防止し、さらには摩擦損失を低減できる
という長所が得られる。
However, in such a multicircular arc-shaped sliding bearing, the minimum gap portion C1 can reduce the vibration of the axis of the shaft 2 and prevent the generation of hammering noise, and at the same time, the maximum gap portion C2 can increase the amount of lubricating oil. This has the advantage of being able to prevent seizure between the bearing 1 and the shaft 2 and further reduce friction loss.

以上のように多円孤形すべり軸受は、円形状のすべり軸
受と比べて極めて優れた特徴を有しているが、この多円
孤形すべり軸受が実際に用いられる機会が少ない理由は
、主にその成形が困難な点に帰着するものであった。
As mentioned above, polycylindrical arc-shaped plain bearings have extremely superior features compared to circular plain bearings, but the main reason why polycylindrical arc-shaped plain bearings are rarely used in practice is This resulted in the difficulty of molding it.

本発明は、製造の容易な多円孤形すべり軸受を得るべく
研讃の結果なされたもので、筒状のハウジングにブツシ
ュを圧入してなるすべり軸受において、ハウジングを部
分的に薄肉としておくと上記ブツシュの圧入時の加圧力
でその薄肉部分のブツシュの曲率半径が他の部分より小
さくなるという知見に基づいて完成されたものである。
The present invention was developed as a result of efforts to obtain a polygonal arc-shaped sliding bearing that is easy to manufacture. This was completed based on the knowledge that the radius of curvature of the thin portion of the bushing becomes smaller than that of other portions due to the pressure applied when the bushing is press-fitted.

すなわら本発明に係る多円孤形すべり軸受は、筒状のハ
ウジング材に、その軸線に平行な薄肉部を設け、このハ
ウジング材の内周部に筒状のブツシュを密嵌圧入してこ
れら両者を一体化しブツシュとハウジング材とを同形の
多円孤に形成して成ることを特徴としている。
In other words, the polycylindrical arc-shaped plain bearing according to the present invention includes a cylindrical housing material provided with a thin-walled portion parallel to its axis, and a cylindrical bushing tightly press-fitted into the inner circumferential portion of the housing material. It is characterized by integrating these two parts and forming the bushing and the housing material into a polygonal arc of the same shape.

以下図示実施例により本発明を説明すると、第2図Aは
ハウジングの形状例、第2図Bはブツシュ4の形状例を
示すもので、ハウジング材3はその筒状部の肉厚が全周
に渡り均一な円筒形に成形され、さらにこれの外側面に
、軸線に平行かつハウジング材3全長に渡り溝部3aが
刻設される。
The present invention will be explained below with reference to illustrated embodiments. FIG. 2A shows an example of the shape of the housing, and FIG. 2B shows an example of the shape of the bushing 4. The housing material 3 is formed into a uniform cylindrical shape, and a groove 3a is formed on the outer surface of the housing material 3, parallel to the axis and extending over the entire length of the housing material 3.

すなわら、3個の円孤状厚肉部3bが剛性の小さい薄肉
部3cにより連繋された形となる。
In other words, three arc-shaped thick parts 3b are connected by a thin part 3c having low rigidity.

次いで、上記ハウジング材3の内周部に、これの内径よ
り僅かに大径の外径を有する円筒形のブツシュ4を圧入
すると、ハウジング材3の薄肉部3cは厚内部3bに比
し剛性が小さいので、上記3個の厚肉部3bは、それぞ
れの両端の薄肉部3cに曲げ変形を与えてこれらの曲率
半径を小さくし厚内部3b自身の曲率半径が大きくなる
ように変形する。
Next, when a cylindrical bushing 4 having an outer diameter slightly larger than the inner diameter is press-fitted into the inner circumference of the housing material 3, the thinner part 3c of the housing material 3 has a lower rigidity than the thicker inner part 3b. Since the three thick portions 3b are small, the three thick portions 3b bend and deform the thin portions 3c at both ends to reduce their radius of curvature and increase the radius of curvature of the thick inner portion 3b itself.

すなわち、ブツシュ4とともにハウジング材3は多円弧
形断面となり、第3図のような形状を有するすべり軸受
6およびハウジング5となる。
That is, the housing material 3 together with the bushing 4 has a multi-arc cross section, resulting in the sliding bearing 6 and the housing 5 having a shape as shown in FIG.

この多円孤形すべり軸受6にシャフト7を挿入すれば、
厚肉部5b近傍に間隙極小部C1薄肉部5c近傍に間隙
極大部C2が形成される。
If the shaft 7 is inserted into this polycylindrical plain bearing 6,
A minimum gap portion C1 is formed near the thick portion 5b, and a maximum gap portion C2 is formed near the thin portion 5c.

上記構成を有する多円孤形すべり軸受6は、シャフト7
との間に間隙極小部C1を有しているので、シャフト7
の回転によるその軸心の振動を抑制して打音を防止する
ことができる。
The polygonal arc-shaped plain bearing 6 having the above configuration has a shaft 7
Since the shaft 7 has a minimal gap C1 between the
It is possible to suppress the vibration of the axis caused by the rotation of the drum and prevent the hammering sound.

また、このすべり軸受6は、シャフト7との間に間隙極
太部C2を有しているので、この部分に介挿される潤滑
油量を増量することができ、冷却効果を向上させるとと
もに焼付きを防止することができる。
Furthermore, since this sliding bearing 6 has an extremely thick gap section C2 between it and the shaft 7, the amount of lubricating oil inserted into this section can be increased, which improves the cooling effect and prevents seizure. It can be prevented.

以上のように形成した多円孤形すべり軸受の形状例を第
4図に示す。
FIG. 4 shows an example of the shape of the polygonal arc-shaped plain bearing formed as described above.

これは軸受内周を発明者らが計測した結果を示すもので
、aは軸受内周の形状、bはaに内接する真円である。
This shows the result of measurement of the inner circumference of the bearing by the inventors, where a is the shape of the inner circumference of the bearing, and b is a perfect circle inscribed in a.

ただし、ハウジングは、外径34關、内径25.01g
mで、その外周に幅5mm、深さ2.5間の溝を120
°等間隔に3本刻設した。
However, the housing has an outer diameter of 34 mm and an inner diameter of 25.01 g.
m, with a groove of 5 mm wide and 2.5 mm deep on its outer circumference.
° Three lines were carved at equal intervals.

上記ハウジングに圧入したブツシュは外径25.07m
m、内径22mmである。
The bushing press-fitted into the housing above has an outer diameter of 25.07m.
m, and the inner diameter is 22 mm.

この圧入後のブツシュ内周aのうら溝部3aに対応する
部分の真円すからの偏位dは25μmであった。
After this press-fitting, the deviation d of the portion of the inner circumference a of the bushing corresponding to the back groove portion 3a from a perfect circle was 25 μm.

なお、eは上記ブツシュを円筒に成形したときの継目部
分であり、溝部3aと対応する部分に設定することが好
ましい。
In addition, e is a joint part when the said bush is formed into a cylinder, and it is preferable to set it in the part corresponding to the groove part 3a.

なお、ハウジング材3に刻設する溝部3aの数は、すべ
り軸受の用途に応じて適宜選定すればよく、2本あるい
は4本設定すれば、それぞれ第5図、第6図に示す形状
の多円孤形すべり軸受装置が成形される。
The number of grooves 3a carved in the housing material 3 may be appropriately selected depending on the application of the plain bearing.If two or four grooves are set, the number of grooves 3a carved in the housing material 3 can be set as many as shown in FIGS. 5 and 6, respectively. A circular arc-shaped plain bearing device is formed.

また、溝部3aの断面形状は、■字状もしくはU字状あ
るいは他の形状のものであっても本発明の効果を奏する
ことは言うまでもない。
Further, it goes without saying that the effects of the present invention can be achieved even if the cross-sectional shape of the groove portion 3a is a square shape, a U shape, or another shape.

さらに、ハウジングの薄肉部3cは溝部3aの刻設によ
って形成する他、筒状部に、軸線に平行な孔部を穿設す
ることにより形成してもよいことは勿論である。
Furthermore, the thin wall portion 3c of the housing may be formed by not only forming the groove portion 3a but also by drilling a hole parallel to the axis in the cylindrical portion.

以上のように本発明によれば、振動および焼付の両者を
防止し得る多円孤形すべり軸受を極めて容易に得られる
とともに、特に、軸線方向の薄肉部を有する筒状ハウジ
ング材にこのハウジング材の内径よりも僅かに大きな外
径を有するブツシュを密嵌圧入してこれら両者を一体化
させているため、ハウジング材とブツシュとは同時変形
して相互に結合されブツシュは全周に亘りハウジング材
に裏打された堅固な多円孤形すべり軸受装置を構成し得
る効果がある。
As described above, according to the present invention, a polycylindrical arc-shaped plain bearing that can prevent both vibration and seizure can be obtained very easily, and in particular, this housing material can be applied to a cylindrical housing material having a thin wall portion in the axial direction. Since the bushing having an outer diameter slightly larger than the inner diameter is tightly press-fitted to integrate the two, the housing material and the bushing are simultaneously deformed and connected to each other, and the bushing is attached to the housing material over the entire circumference. This has the effect of making it possible to construct a solid polygonal plain bearing device backed by

【図面の簡単な説明】[Brief explanation of drawings]

第1図は多円孤形すべり軸受の概念図、第2図A、Bは
それぞれ圧入前のハウジングおよびブツシュの形状例を
示す断面図、第3図は圧入成形された多円孤形すべり軸
受の一実施例を誇張して示す断面図、第4図は本発明に
係る多円孤形すべり軸受の真円からの偏位量の例を測定
した結果を示すグラフ、第5図、第6図は、それぞれ2
円弧型、4円弧型のすべり軸受を示す断面図である。 3・・・・・・ハウジング材、3c・・・・・・薄肉部
、4・・・・・・ブツシュ、6・・・・・・多円孤形す
べり軸受。
Fig. 1 is a conceptual diagram of a polycylindrical arc-shaped plain bearing, Fig. 2 A and B are sectional views showing examples of the shapes of the housing and bushing before press-fitting, respectively, and Fig. 3 is a press-fitted polycylindrical arc-shaped plain bearing. FIG. 4 is a cross-sectional view showing an exaggerated example of one embodiment; FIG. 4 is a graph showing the results of measuring an example of the amount of deviation from a perfect circle of the polygonal arc-shaped plain bearing according to the present invention; FIGS. Each figure shows 2
FIG. 3 is a cross-sectional view showing a circular arc type and a four circular arc type sliding bearing. 3... Housing material, 3c... Thin wall portion, 4... Bush, 6... Polycylindrical arc sliding bearing.

Claims (1)

【特許請求の範囲】[Claims] 1 軸線に平行な薄肉部を有する筒状のハウジング材と
、このハウジング材の内径よりも僅かに大きい外径を有
する筒状のブツシュとを備え、このブツシュを上記ハウ
ジング材に密嵌圧入してこれら両者を一体化しブツシュ
とハウジング材とを同形の多円孤に形成して成る多円孤
形すべり軸受装置。
1. A cylindrical housing material having a thin wall portion parallel to the axis, and a cylindrical bushing having an outer diameter slightly larger than the inner diameter of this housing material, and this bushing is tightly press-fitted into the housing material. A polycylindrical sliding bearing device in which these two are integrated and the bushing and housing material are formed into a polycylindrical arc of the same shape.
JP54119027A 1979-09-17 1979-09-17 Multi-arc sliding bearing device Expired JPS5834684B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP54119027A JPS5834684B2 (en) 1979-09-17 1979-09-17 Multi-arc sliding bearing device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP54119027A JPS5834684B2 (en) 1979-09-17 1979-09-17 Multi-arc sliding bearing device

Publications (2)

Publication Number Publication Date
JPS5642717A JPS5642717A (en) 1981-04-21
JPS5834684B2 true JPS5834684B2 (en) 1983-07-28

Family

ID=14751162

Family Applications (1)

Application Number Title Priority Date Filing Date
JP54119027A Expired JPS5834684B2 (en) 1979-09-17 1979-09-17 Multi-arc sliding bearing device

Country Status (1)

Country Link
JP (1) JPS5834684B2 (en)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0659724B2 (en) * 1988-05-11 1994-08-10 ジェイムス リバー コーポレーション オブ ヴァージニア Method for producing cardboard laminate and cardboard laminate therewith
CH683451A5 (en) * 1989-08-04 1994-03-15 Carrier Corp Drive unit with low RPM drive shaft and high RPM driven shaft
DE4111542C2 (en) * 1991-04-09 2002-05-02 Pierburg Ag Mehrgleitflächenlager
JP4581283B2 (en) * 2001-03-30 2010-11-17 日本電産株式会社 DYNAMIC PRESSURE BEARING DEVICE, ROTARY DRIVE DEVICE, AND RECORDING DEVICE

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3830552A (en) * 1972-03-27 1974-08-20 Nasa Journal bearings

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3830552A (en) * 1972-03-27 1974-08-20 Nasa Journal bearings

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Publication number Publication date
JPS5642717A (en) 1981-04-21

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