JPS62171521A - Rolling bearing device - Google Patents

Abstract

PURPOSE:To prevent generation of extreme stress by engaging an inner ring with a sleeve portion having several peripheral slitting notch portions, a screw portion and a step portion, which is fixed to a shaft or formed thereon, and elastically supporting sam with the step portion and a nut in the radial direction to the center of a bearing. CONSTITUTION:A sleeve portion 5 is formed on a shaft 4, in which a male screw 51 is formed on the terminal end, a step portion 52 is formed on the opposite side, and a slitting notch portion 53 extending in the axial direction is formed at plural places in the peripheral direction. A nut 6 is engaged with the male screw 51, an inner ring 1 of a ceramic cylindrical rolling bearing is clamped between a step portion 52 and the nut 6 to be positioned in the axial direction and elastically supported in the radial direction. Thus, during rotation, the increase and decrease in interference between the inner ring 1 and the shaft 4 are absorbed by elastic deformation of the sleeve portion 5. Accordingly, even if heat is given and received during rotation, the condition of interference between the inner ring 1 and the sleeve portion 5 is kept substantially constant, so that an extreme stress is not generated to complete its expected life.

Description

【発明の詳細な説明】 【産業上の利用分野〕 この発明は、ころがり軸受と嵌合する相手部材の線膨脹
係数が相違し、しかもころがり軸受の軌道輪にセラミ・
ンクのような引張応力に弱い材料を使用した場合に好適
なころがり軸受ＶＣ置に関するものである。Detailed Description of the Invention [Industrial Field of Application] This invention is characterized in that the linear expansion coefficients of the rolling bearing and the mating member are different, and the bearing ring of the rolling bearing is made of ceramic.
The present invention relates to a rolling bearing VC arrangement suitable for use when a material weak in tensile stress is used, such as a roller.

［従来の技術］ 上記のような＃！膨張係数の異なる相手部材に対するこ
ろがり軸受装置に関してはＬＵＩ）Ｒ１（：ＡＴＯＮ　
ＥＮ−にＩＮＥＥＲＩＮＧの１９８１年７月号の４０７
〜４１５真の記事中にｆｊｓ４図に示したようなころが
り軸受装置が示されている。[Prior art] #! as above! For rolling bearing devices for mating members with different expansion coefficients, LUI)R1(:ATON
407 of EN-NIINEERING July 1981 issue
~415 In the true article, a rolling bearing device as shown in Fig. fjs4 is shown.

この軸受装置では、内輪１０がセラミック製であり、間
座５０が鋼製であった。この間座５０はそれぞれ内輪１
０に対してはテーパ面で接し、相手部材である柚６０と
はかない嵌合となっていたにのころがり軸受装置におい
ては、内輪１０および間座５０のテーパを軸６０および
間座５０の熱膨張率とセラミック製内輪１０の熱膨張率
との関係により適当にきめて、温度の変化に対しても常
に一定の締代をテーパ部にもたせることをねらっていた
。In this bearing device, the inner ring 10 was made of ceramic, and the spacer 50 was made of steel. These spacers 50 each have an inner ring 1
In the rolling bearing device, the taper of the inner ring 10 and the spacer 50 is connected to the shaft 60 and the spacer 50 by the thermal expansion of the shaft 60 and the spacer 50. The aim was to appropriately determine the relationship between the coefficient of thermal expansion and the coefficient of thermal expansion of the ceramic inner ring 10, and to always maintain a constant interference in the tapered portion even with changes in temperature.

［発明が解決しようとする問題点１ 上記のようなころがり軸受１置においては、テーパ部の
締代による面圧が内輪１０を半径方向に広げようとする
引張応力Ｔを発生させる。また熱膨張係数は温度によっ
て一定でないために、ある温度に対して適切な締代を与
えると、温度が変化すると締代に変化が生じ、締代過剰
になったり、隙間が生じたりし、ねらいどうりの性能に
ならない。[Problem 1 to be Solved by the Invention] In a single rolling bearing as described above, the surface pressure due to the interference of the tapered portion generates a tensile stress T that tends to expand the inner ring 10 in the radial direction. In addition, the coefficient of thermal expansion is not constant depending on the temperature, so if an appropriate interference is given for a certain temperature, the interference will change as the temperature changes, resulting in excessive interference or gaps. The performance is not as expected.

さらに高速時には間座５０の遠心力による膨張が、らな
い。さらにテーパの加工は一般に難しい加工であり、テ
ーパの精度の悪さはそのまま回転軸に対する内輪の傾き
となり、軸受の性能を劣化させる等の問題があった。Furthermore, at high speeds, the spacer 50 does not expand due to centrifugal force. Furthermore, taper machining is generally difficult machining, and the poor precision of the taper directly causes the inner ring to tilt with respect to the rotating shaft, resulting in problems such as deterioration of bearing performance.

［問題点を解決するための手段１ この発明のころがり軸受装置においては、ころがり軸受
の内輪は紬に取り付けられたスリーブま数箇所に入り刺
状切欠部を設けて弾性変形可能とし、またスリーブまた
はスリーブ状部には軌道輪の平面に接する段部を設け、
Ｉ＃ｉまたは袖のスリーブ状部に形成したねじ部には、
ナツトを螺合させて、軌道輪の位置ぎめを前記段部とナ
ツトとにより行い、ころがり軸受の内輪をスーリプまた
はスこの発明のころがり軸受ｖｃ置においては、軌道輪
が弾性変形し易いスリーブまたはスリーブ状部によって
支承されているので、軌道輪と軸の熱膨張係数の相異に
よる締代の増減は、スリーブまたはスリーブ状部の弾性
変形によって吸収され、軌道輪に極端な応力が発生した
り、はめあいがゆるくなり過ぎることも起こらない。[Means for Solving the Problems 1] In the rolling bearing device of the present invention, the inner ring of the rolling bearing enters the sleeve attached to the pongee at several locations and is provided with barb-like notches so that it can be elastically deformed, and the sleeve or The sleeve-shaped part is provided with a stepped part that is in contact with the plane of the bearing ring,
I#i or the threaded part formed on the sleeve-shaped part of the sleeve,
In the rolling bearing vc arrangement of this invention, the bearing ring is positioned by the stepped portion and the nut, and the inner ring of the rolling bearing is fitted with a sleeve or a sleeve in which the bearing ring is easily elastically deformed. Since the sleeve is supported by the sleeve, any increase or decrease in tightness due to the difference in thermal expansion coefficients between the bearing ring and the shaft is absorbed by the elastic deformation of the sleeve or sleeve-like portion, and extreme stress is generated on the bearing ring. The fit will not become too loose.

［実施例］ 次にこり発明のｆｊＳｌの実施例をｆｊｓ１図および第
２図を参照しながら説明する。この実施例は、ころがり
軸受の内輪と嵌合する相手部材である袖とのｍｓ脹係数
が異る場合におけるころがり軸受装置に関するもので、
１は円筒ころ軸受の内輪で、セラミックが使用されてい
る。２は円筒ころ軸受の外輪、３は内輪１と外輪２の間
に装入されたころ、４は紬で、この紬４にはスリーブ状
部５が形成され、このスリーブ状部５の末端側には雄ね
じ径方向に弾性変形が可能となっている。上記の雄ねじ
５１にはナンド６が蝶合し、円筒ころ軸受の内輪１は、
このナツトと前記の段部とにより挟持されて軸方向に位
置ぎめがなされ、半径方向は弾性的に支承されている。[Example] Next, an example of the fjS1 according to the invention will be described with reference to Fig. fjS1 and Fig. 2. This embodiment relates to a rolling bearing device in which the ms expansion coefficients of the inner ring of the rolling bearing and the sleeve, which is a mating member, are different.
1 is the inner ring of the cylindrical roller bearing, which is made of ceramic. 2 is an outer ring of a cylindrical roller bearing; 3 is a roller inserted between the inner ring 1 and the outer ring 2; 4 is a pongee; a sleeve-shaped portion 5 is formed on the pongee 4; is capable of elastic deformation in the radial direction of the male thread. The Nand 6 is hinged to the above male screw 51, and the inner ring 1 of the cylindrical roller bearing is
The nut is held between the nut and the stepped portion and positioned in the axial direction, and is elastically supported in the radial direction.

上記のころがり軸受装置は、回転使用時において、内輪
と相手部材である軸との諦め代、正確に云えば、スリー
ブ状部との締め代の増減は、スリーブ状部の弾性変形に
よって吸収されるので、内輪に異常な応力を発生するこ
とがなく、しかもほめあいが隙間ばめになることもなく
、常に適度の嵌合状態が維持される。In the above-mentioned rolling bearing device, during rotational use, the allowance between the inner ring and the mating shaft, or more precisely, the increase or decrease in the interference between the inner ring and the sleeve-shaped part, is absorbed by the elastic deformation of the sleeve-shaped part. Therefore, no abnormal stress is generated in the inner ring, and the fit does not become a loose fit, so that an appropriate fitted state is always maintained.

次に示す第２の実施例は、ころがり軸受の内輪とは線膨
脹係数の異る紬７にスリーブ８を装着し、このスリーブ
８に軸受の内輪１を嵌合させた軸受雄ねじ７２が設けら
れ、軸７の外周部７３には同形状の一対をなすスリーブ
８が装着されている。前記一対のスリーブ８には、弾性
変形し易いように、スリ割り状切欠さ部８１が設けられ
ているが、この切欠さ部８１は上記の第１実施例におけ
るスリ割り状切欠き部よりスリ割の幅がはるかに広く、
切欠いた部分の方が残余の部分８２の幅より広くなって
おり、残余の部分８２が交差するように紬７に、紬７の
大径部フ１と軸７のＲねヒフ２かに螺合するナツト９に
より取付けられている。さらに上記のスリーブ８には、
ころがり軸受の内輪１の位置ぎめ用の段部８３が設けら
れている。この一対のスリーブ８の段部により、ころが
り軸受が挟持されて軸方向の位置ぎめがなされ、内輪の
半径方向の支持は、前記の残余の部分８２による。In the second embodiment shown below, a sleeve 8 is attached to a pongee 7 having a linear expansion coefficient different from that of the inner ring of the rolling bearing, and a bearing male screw 72 is provided in which the inner ring 1 of the bearing is fitted into the sleeve 8. A pair of sleeves 8 having the same shape are attached to the outer peripheral portion 73 of the shaft 7. The pair of sleeves 8 are provided with slotted notches 81 so as to be easily elastically deformed, but the slotted notches 81 are more slender than the slotted notches in the first embodiment. The range is much wider,
The width of the notched part is wider than the remaining part 82, and the large diameter part f1 of the pongee 7 and the R neck part 2 of the shaft 7 are screwed into the pongee 7 so that the remaining part 82 intersects. It is attached by a matching nut 9. Furthermore, in the sleeve 8,
A step 83 is provided for positioning the inner ring 1 of the rolling bearing. The rolling bearing is held between the stepped portions of the pair of sleeves 8 and positioned in the axial direction, and the remaining portion 82 supports the inner ring in the radial direction.

この実施例においても内輪とスリーブとの締め代の増減
はスリーブの残余の部分８２における弾性変形によって
吸収され、内輪に極端な応力を発生することはない。Also in this embodiment, an increase or decrease in the interference between the inner ring and the sleeve is absorbed by the elastic deformation of the remaining portion 82 of the sleeve, and no extreme stress is generated in the inner ring.

なお、上記の実施例はいずれもころがり軸受として円筒
ころ軸受の例を記載したが、玉軸受、球面ころ軸受等の
ころがり軸受においても同様の効果が期待できる。In addition, although the above-mentioned embodiments described examples of cylindrical roller bearings as rolling bearings, similar effects can be expected with rolling bearings such as ball bearings and spherical roller bearings.

［発明の効果１ この発明のころが９軸受装置は、上記のように構成され
ているので、軸受回転時において熱の授受があっても、
スリーブまたはスリーブ状部の弾性変形により、内輪と
スリーブまたはスリーブ状部との締め代の状態は常に略
一定に保たれ、内輪に極端な応力が発生することがなく
、軸受に予期通りのか命を全うさせることができる。[Effects of the Invention 1 Since the roller 9 bearing device of the present invention is configured as described above, even if heat is transferred during rotation of the bearing,
Due to the elastic deformation of the sleeve or sleeve-like part, the state of interference between the inner ring and the sleeve or sleeve-like part is always kept approximately constant, and extreme stress is not generated on the inner ring, and the life of the bearing is maintained as expected. I can complete it.

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

第１図およびｔｊＳ２図はｆＰＳｌの実施例を示し、第
１図はその要部側断面図、ｆＩｓ２図はＰｓ１図のＡ〜
Ａ線における断面図、ｆ５３図は第２の実施例を示す部
分断面図、第４図は従来のころ軸受装置を示す断面図で
ある。 符号の説明 １は円筒ころ軸受の内輪、４は軸、５はスリーブ状部、
６はナツト、７は軸、８はスリーブ、９はナツト、５３
はスリ割り状切欠き部、８１は入り多３図Fig. 1 and tjS2 show an example of fPSl, Fig. 1 is a side sectional view of the main part thereof, and fIs2 is a diagram showing A to Ps1 of Fig.
A sectional view taken along line A, FIG. 53 is a partial sectional view showing the second embodiment, and FIG. 4 is a sectional view showing a conventional roller bearing device. Explanation of the symbols 1 is the inner ring of the cylindrical roller bearing, 4 is the shaft, 5 is the sleeve-shaped part,
6 is a nut, 7 is a shaft, 8 is a sleeve, 9 is a nut, 53
81 is a slotted notch, and 81 is a multi-3 figure.

Claims (1)

【特許請求の範囲】[Claims] ころがり軸受と嵌合する相手部材の線膨脹係数が相違し
、しかもころがり軸受の軌道輪に引張応力に対して比較
的弱い材料を使用したころがり軸受装置において、ころ
がり軸受の内輪は軸に取付けられたスリーブまたは軸に
形成されたスリーブ状部に嵌合し、前記スリーブまたは
スリーブ状部には前記内輪の平面に接する段部と、円周
方向複数箇所に弾性変形を目的にスリ割り状切欠き部が
形成され、スリーブを取付けた軸に形成されたねじ部ま
たは軸のスリーブ状部に形成されねじ部にはナットが螺
合し、前記の段部とナットとによって軌道輪の軸方向の
位置ぎめがなされ、前記ころがり軸受の内輪は軸受中心
に対して放射方向に弾性的に支承されていることを特徴
とするころがり軸受装置。In a rolling bearing device in which the rolling bearing and the mating member have different coefficients of linear expansion, and the bearing ring of the rolling bearing is made of a material that is relatively weak against tensile stress, the inner ring of the rolling bearing is attached to the shaft. It fits into a sleeve or a sleeve-shaped part formed on the shaft, and the sleeve or sleeve-shaped part has a stepped part in contact with the plane of the inner ring, and slot-shaped notches at multiple locations in the circumferential direction for the purpose of elastic deformation. A threaded portion is formed on the shaft to which the sleeve is attached, or a nut is screwed into the threaded portion formed on the sleeve-shaped portion of the shaft, and the axial position of the bearing ring is determined by the stepped portion and the nut. A rolling bearing device characterized in that the inner ring of the rolling bearing is elastically supported in a radial direction with respect to the center of the bearing.