JP6614289B2 - Bearing unit - Google Patents

Description

本発明は、例えば自動車などの車輪を懸架装置に対して回転自在に支持するための車輪支持用の軸受ユニットであって、外輪の端面に樹脂センサホルダや樹脂エンドキャップなどのカバー部材を配設してなる軸受ユニットに関する。   The present invention is a wheel support bearing unit for rotatably supporting a wheel of, for example, an automobile with respect to a suspension device, and a cover member such as a resin sensor holder or a resin end cap is provided on an end surface of the outer ring. It is related with the bearing unit formed.

自動車の車輪の回転速度を計測するために、回転センサを備えた軸受ユニットが様々提案されている。例えば、従動輪を支持する車輪支持用軸受ユニットの場合、車体の内側であるユニットのインナ側に備えられているものが知られており、回転輪である内輪のインナ側端部にエンコーダが嵌合されるとともに、静止輪である外輪のインナ側端部に樹脂センサホルダ（カバー部材）が嵌合されて配設されている。   Various bearing units equipped with a rotation sensor have been proposed to measure the rotational speed of automobile wheels. For example, in the case of a wheel support bearing unit that supports a driven wheel, one that is provided on the inner side of the unit inside the vehicle body is known, and an encoder is fitted to the inner side end of the inner ring that is a rotating wheel. In addition, a resin sensor holder (cover member) is fitted and disposed at the inner side end of the outer ring which is a stationary ring.

樹脂センサホルダは、環状の芯金に樹脂部を環状にモールド成形して構成されているものが知られており、このように芯金に樹脂部をモールド成形する場合、樹脂材料の成形収縮の影響で芯金と樹脂部が密着せず、外輪のインナ側端部の軸方向面部と樹脂センサホルダの樹脂部におけるアウタ側の軸方向面部との突き合せ面（突き合せ領域）における気密性が低くなってしまうことがある。このように突き合わせ面の気密性が低くなってしまうと、その突き合せ領域から泥水などの異物が侵入してしまい、芯金の表面を伝わって軸受内部にまで泥水が到達してしまう虞がある。   A resin sensor holder is known in which a resin part is molded in an annular shape on an annular core metal. When the resin part is molded on a core metal in this manner, the resin material is subjected to molding shrinkage. The cored bar and the resin part do not adhere to each other, and the airtightness at the abutting surface (butting area) between the axial surface part of the inner side end of the outer ring and the outer axial side part of the resin part of the resin sensor holder May be lowered. If the airtightness of the abutting surface becomes low in this way, foreign matter such as muddy water may enter from the abutting area, and muddy water may reach the inside of the bearing through the surface of the cored bar. .

そこで、このような外輪のインナ側端部と樹脂センサホルダとの間の気密性を向上させるため、図５に例示されているように、外輪１００のインナ側端部の軸方向面部１０１と樹脂センサホルダ２００の樹脂部におけるアウタ側の軸方向面部２０１との突き合せ面（突き合せ領域）３００にＯリング４００を配して、Ｏリング４００で防水する（気密性を向上する）ことが行われてきた（特許文献１参照。）。   Therefore, in order to improve the airtightness between the inner side end portion of the outer ring and the resin sensor holder, as illustrated in FIG. 5, the axial surface portion 101 of the inner side end portion of the outer ring 100 and the resin An O-ring 400 is disposed on the abutting surface (butting region) 300 of the resin portion of the sensor holder 200 with the outer axial surface portion 201, and the O-ring 400 is waterproofed (improves airtightness). (See Patent Document 1).

しかし、特許文献１に示すように、突き合せ面（突き合せ領域）３００にＯリング４００を配設する場合、Ｏリング４００を構成要素とするとともに、樹脂部のアウタ側の軸方向面部２０１に環状のＯリング溝５００を成形しなければならない分だけコストが上昇するという課題を有していた。
また、Ｏリング４００は樹脂部に設けられたＯリング溝５００に３方覆われた状態で使用されるため、Ｏリング４００のゴム材料の可塑剤が樹脂部に移行してゴム弾性が失われて硬くなるのを防ぐため、耐水性や耐塩カル性を備えるとともに、ゴムの可塑剤の吸収を起こさないような樹脂部の材料を選択する必要があり、樹脂部の材料が限定され、結果的にコストが高くなるというような課題もあった。 However, as shown in Patent Document 1, when the O-ring 400 is disposed on the abutting surface (butting region) 300, the O-ring 400 is a component and the axial surface portion 201 on the outer side of the resin portion. There was a problem that the cost increased by the amount that the annular O-ring groove 500 had to be formed.
In addition, since the O-ring 400 is used in a state where it is covered in three directions by an O-ring groove 500 provided in the resin portion, the plasticizer of the rubber material of the O-ring 400 moves to the resin portion and the rubber elasticity is lost. In order to prevent it from becoming hard, it is necessary to select a resin part material that has water resistance and salt-caloric resistance and does not cause absorption of the plasticizer of the rubber. However, there is a problem that the cost becomes high.

特開２００８-２５６５１２号公報JP 2008-256512 A

本発明は、従来技術の有するこのような問題点に鑑みなされたものであり、その課題とするところは、静止輪のインナ側端部とカバー部材との突き合わせ領域に配設されていたＯリングを無くしても軸受内部への水・泥などの異物の侵入を有効に防止し得るとともに、Ｏリング使用による適合材料の限定などの不都合も解消し得る軸受ユニットを提供し、大幅なコスト削減を図ることにある。また、突き合わせ領域に侵入した異物を迅速に外方へと排出し得る構造を提供することにある。   The present invention has been made in view of the above-described problems of the prior art, and the object of the present invention is to provide an O-ring that is disposed in the abutting region between the inner end of the stationary ring and the cover member. Provides a bearing unit that can effectively prevent the entry of foreign matter such as water and mud into the bearing without the need to eliminate the inconvenience such as the limitation of compatible materials due to the use of O-rings. There is to plan. It is another object of the present invention to provide a structure capable of quickly discharging foreign matter that has entered the abutting region to the outside.

このような課題を達成するために、第１の発明は、周面に静止側軌道面を有する静止輪と、
前記静止輪と相対回転可能に配設され、前記静止側軌道面と対向する周面に回転側軌道面を有するとともに、外周面に車輪を支持するための車輪支持用フランジを有する回転輪と、
前記静止側軌道面と前記回転側軌道面との間に組み込まれる複数個の転動体と、
前記静止輪のインナ側端部に嵌合されて密閉するカバー部材と、を少なくとも含む軸受ユニットであって、
前記カバー部材は、前記静止輪のインナ側端部に嵌合可能な環状の芯金と、前記芯金と一体に成形される環状の樹脂部とで構成され、
前記静止輪は、インナ側端部の外径側に段部を形成し、
前記カバー部材は、樹脂部におけるアウタ側の軸方向面部よりも外径側にてアウタ側に向けて軸方向に突設される環状の径方向面部を形成し、
前記カバー部材の樹脂部における軸方向面部を、前記静止輪のインナ側端部の段部よりもインナ側に位置する軸方向面部に突き合わせて突き合わせ領域を形成すると共に、前記突き合わせ領域の外径側にて、前記インナ側端部の段部における径方向面部の外径側に、カバー部材の径方向面部が径方向で重なり合うように位置しており、
前記突き合せ領域よりもアウタ側に位置する静止輪の内径面に前記芯金を嵌合固定させ、
前記段部の径方向面部は、径方向内側に凹んで形成され、
前記カバー部材の径方向面部の内径面は、アウタ側に向かうに従い大径となるテーパ面に形成されており、
前記段部の径方向面部は、インナ側に向かうに従い大径となるテーパ面に形成されていることを特徴とする軸受ユニットとしたことである。
In order to achieve such a subject, the first invention includes a stationary wheel having a stationary side raceway surface on the peripheral surface,
A rotating wheel that is disposed so as to be relatively rotatable with the stationary wheel, has a rotating side raceway surface on a circumferential surface facing the stationary side raceway surface, and has a wheel support flange for supporting a wheel on the outer circumferential surface;
A plurality of rolling elements incorporated between the stationary side raceway surface and the rotation side raceway surface;
A cover member fitted and sealed to the inner side end of the stationary ring, and a bearing unit including at least
The cover member includes an annular metal core that can be fitted to an inner side end of the stationary ring, and an annular resin portion that is molded integrally with the metal core.
The stationary ring forms a step on the outer diameter side of the inner side end,
The cover member forms an annular radial surface portion that protrudes in the axial direction toward the outer side on the outer diameter side from the axial surface portion on the outer side in the resin portion,
An axial surface portion of the resin portion of the cover member is abutted against an axial surface portion positioned on the inner side of the step on the inner side end portion of the stationary wheel to form a butt region, and the outer diameter side of the butt region In the outer diameter side of the radial surface portion in the step portion of the inner side end portion, the radial surface portion of the cover member is positioned so as to overlap in the radial direction,
The cored bar is fitted and fixed to the inner diameter surface of the stationary ring located on the outer side of the butting region,
A radial surface portion of the step is formed to be recessed radially inward,
The inner diameter surface of the radial surface portion of the cover member is formed in a tapered surface that increases in diameter toward the outer side ,
The radial surface portion of the step portion is formed as a tapered surface having a diameter that increases toward the inner side .

第１の発明によれば、静止輪の外径側に段部を設け、カバー部材の樹脂部の径方向面部を、前記段部の外径側にて段部上に張り出して重なり合うように構成したため、静止輪のインナ側端部の軸方向面部とカバー部材の樹脂部の軸方向面部との突き合せ領域に泥水が直接掛からないようにすることが可能である。
また、カバー部材の径方向面部の内径面が、アウタ側に向かうに従い大径となるテーパ面に形成されているため、突き合わせ領域に侵入した異物をテーパ面に沿って迅速に外方へと排出することができる。
さらに、カバー部材のテーパ面とともに、前記段部の径方向面部が、インナ側に向かうに従い大径となるテーパ面に形成されているため、突き合わせ領域に侵入した異物をさらに迅速に外方へと排出することができる。 According to the first invention, the step portion is provided on the outer diameter side of the stationary wheel, and the radial surface portion of the resin portion of the cover member is configured to protrude and overlap on the step portion on the outer diameter side of the step portion. For this reason, it is possible to prevent muddy water from being directly applied to the abutting region between the axial surface portion of the inner side end portion of the stationary wheel and the axial surface portion of the resin portion of the cover member.
In addition, since the inner diameter surface of the radial surface portion of the cover member is formed into a tapered surface that increases in diameter toward the outer side, foreign matter that has entered the abutting region is quickly discharged outward along the tapered surface. can do.
Furthermore, since the radial surface portion of the stepped portion is formed with a tapered surface that becomes larger in diameter toward the inner side, together with the tapered surface of the cover member, foreign matter that has entered the abutting region is more quickly outward. Can be discharged.

本発明によれば、静止輪のインナ側端部とカバー部材との突き合わせ領域に配設されていたＯリングを無くしても軸受内部への水・泥などの異物の侵入を有効に防止し得るとともに、Ｏリング使用による適合材料の限定などの不都合も解消し得る軸受ユニットを提供し、大幅なコスト削減を図ることができた。また、突き合わせ領域に侵入した異物を迅速に外方へと排出し得る構造を提供できた。   According to the present invention, entry of foreign matter such as water and mud into the bearing can be effectively prevented even if the O-ring disposed in the abutting region between the inner side end of the stationary ring and the cover member is eliminated. At the same time, a bearing unit that can eliminate inconveniences such as limitation of compatible materials due to the use of an O-ring has been provided, and significant cost reduction has been achieved. Moreover, the structure which can discharge | emit the foreign material which penetrate | invaded the butt | matching area | region quickly to the outside was able to be provided.

本発明の第一実施形態で、（ａ）は全体を示す概略縦断面図、（ｂ）は要部を拡大して示す部分拡大断面図である。BRIEF DESCRIPTION OF THE DRAWINGS In 1st embodiment of this invention, (a) is a schematic longitudinal cross-sectional view which shows the whole, (b) is the elements on larger scale which expand and show the principal part. 本発明の第二実施形態で、（ａ）は全体を示す概略縦断面図、（ｂ）は要部を拡大して示す部分拡大断面図である。In 2nd embodiment of this invention, (a) is a schematic longitudinal cross-sectional view which shows the whole, (b) is the elements on larger scale which expand and show the principal part. 本発明の第三実施形態で、（ａ）は全体を示す概略縦断面図、（ｂ）は要部を拡大して示す部分拡大断面図である。In 3rd embodiment of this invention, (a) is a schematic longitudinal cross-sectional view which shows the whole, (b) is the elements on larger scale which expand and show the principal part. 本発明の第四実施形態で、（ａ）は全体を示す概略縦断面図、（ｂ）は要部を拡大して示す部分拡大断面図である。In 4th embodiment of this invention, (a) is a schematic longitudinal cross-sectional view which shows the whole, (b) is the elements on larger scale which expand and show the principal part. 先行技術の概略縦断面図である。It is a schematic longitudinal cross-sectional view of a prior art.

以下、本発明の一実施形態を図に基いて説明する。なお、本実施形態は本発明の一実施形態にすぎず何等これに限定解釈されるものではなく本発明の範囲内で設計変更可能である。   Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In addition, this embodiment is only one embodiment of the present invention, and is not construed as being limited thereto. The design can be changed within the scope of the present invention.

「第一実施形態」
図１は本発明の第一実施形態の一例を示し、本実施形態では、自動車の懸架装置に固定する取付用フランジ５を外周面に備えるとともに、内周面に複列の外輪軌道（静止側軌道面）７，７を有する外輪（静止輪）１と、外周面に車輪を支持するための車輪支持用フランジ２０を有するとともに、外周面に内輪軌道（回転側軌道面）２１を有するハブ輪（回転輪）１９と、ハブ輪１９のインナ側の外周面に形成された小径の段部２３に外嵌めされ、内輪軌道（回転側軌道面）２７を有する別体の内輪（回転輪）２５と、それぞれの外輪軌道７，７と内輪軌道２１，２７との間に組み込まれる複数個の転動体（玉）２９と、内輪２５の肩部に嵌合される支持環３１を介して軸方向に保持されるエンコーダ３３と、外輪１のインナ側端部９に嵌合されて軸受内空間を密閉するカバー部材としての樹脂センサホルダ４３と、エンコーダ３３の回転を検出する検出部４１を有して樹脂センサホルダ４３のセンサ孔５５に固定されるセンサ３９と、を少なくとも含む従動輪用のセンサ付き車輪支持用ハブ軸受ユニットを採用した一実施形態をもって説明する。
なお、図中矢印Ｘは軸方向、矢印Ｙは径方向をそれぞれ示す。 "First embodiment"
FIG. 1 shows an example of a first embodiment of the present invention. In this embodiment, a mounting flange 5 that is fixed to an automobile suspension is provided on the outer peripheral surface, and a double row outer ring raceway (stationary side) is provided on the inner peripheral surface. Hub wheel having outer ring (stationary wheel) 1 having raceway surfaces 7 and 7 and a wheel support flange 20 for supporting the wheel on the outer circumferential surface and an inner ring raceway (rotation side raceway surface) 21 on the outer circumferential surface. (Rotating wheel) 19 and a separate inner ring (rotating wheel) 25 having an inner ring raceway (rotating side raceway surface) 27 that is externally fitted to a small-diameter step portion 23 formed on the outer peripheral surface on the inner side of the hub wheel 19. And a plurality of rolling elements (balls) 29 incorporated between the outer ring raceways 7 and 7 and the inner ring raceways 21 and 27, and a support ring 31 fitted to the shoulder portion of the inner ring 25 in the axial direction. Is fitted to the inner side end 9 of the outer ring 1. And at least a resin sensor holder 43 serving as a cover member that seals the bearing inner space, and a sensor 39 that includes a detection unit 41 that detects the rotation of the encoder 33 and is fixed to the sensor hole 55 of the resin sensor holder 43. A description will be given of an embodiment in which a wheel bearing hub bearing unit with a sensor for a driven wheel is employed.
In the figure, the arrow X indicates the axial direction, and the arrow Y indicates the radial direction.

外輪１は、インナ側端部９を軸方向でアウタ側に向けて凹ませることにより、軸方向でインナ側に向けて突設される円筒状の径方向面部１３と、前記径方向面部１３よりもアウタ側に位置して形成される円環状の軸方向面部１５とを有する短尺円筒状の凹入部１１を形成している。   The outer ring 1 includes a cylindrical radial surface portion 13 projecting toward the inner side in the axial direction by denting the inner side end portion 9 in the axial direction toward the outer side, and the radial surface portion 13. Further, a short cylindrical recessed portion 11 having an annular axial surface portion 15 formed on the outer side is formed.

凹入部１１を構成する軸方向面部１５は、軸心１７と鉛直方向に直交する平面で円環状に形成されている。一方、径方向面部１３は、前記軸方向面部１５の外径からインナ側に向けて大径となるテーパ面に形成されている。   The axial direction surface part 15 which comprises the recessed part 11 is formed in the annular | circular shape by the plane orthogonal to the axial center 17 and a perpendicular direction. On the other hand, the radial surface portion 13 is formed in a tapered surface having a larger diameter from the outer diameter of the axial surface portion 15 toward the inner side.

ハブ輪１９、別体内輪２５、転動体２９、エンコーダ３３及びセンサ３９などは、特に限定解釈されるものではなく、本発明の範囲内で適宜選択されて適用されるものである。   The hub wheel 19, the separate inner ring 25, the rolling elements 29, the encoder 33, the sensor 39, and the like are not particularly limited and are appropriately selected and applied within the scope of the present invention.

樹脂センサホルダ（カバー部材）４３は、凹入部１１の径方向幅よりも小径に形成されるとともに、凹入部１１の軸方向深さよりも厚みをもって形成され、凹入部１１からインナ側に向けて一部突出した状態で配設されている。
すなわち、例えば本実施形態の樹脂センサホルダ４３は、鉛直方向に小幅環状の円板部４７と、円板部４７の内径から軸方向に連続して形成される円筒部（嵌合部）４９とで形成された芯金４５と、芯金４５の円板部４７と円筒部４９の少なくとも一部を埋設するとともに、円筒部４９の径方向内径面５１の周方向全域を覆って一体に形成される有底円筒状の樹脂部５３とで構成されている。 The resin sensor holder (cover member) 43 is formed with a diameter smaller than the radial width of the recessed portion 11 and with a thickness greater than the axial depth of the recessed portion 11, and is formed from the recessed portion 11 toward the inner side. It is arranged in a state of protruding part.
That is, for example, the resin sensor holder 43 according to the present embodiment includes a circular annular disk portion 47 in the vertical direction, and a cylindrical portion (fitting portion) 49 formed continuously from the inner diameter of the disk portion 47 in the axial direction. The cored bar 45, the disk part 47 of the cored bar 45, and at least a part of the cylindrical part 49 are embedded, and the whole circumferential direction of the radial inner diameter surface 51 of the cylindrical part 49 is integrally formed. And a bottomed cylindrical resin portion 53.

芯金の円筒部４９は、凹入部１１の内径から軸方向でアウタ側に向けて連続して形成されている外輪の内径面３に嵌合可能な外径をもって形成されている。   The cylindrical portion 49 of the cored bar is formed with an outer diameter that can be fitted to the inner diameter surface 3 of the outer ring formed continuously from the inner diameter of the recessed portion 11 toward the outer side in the axial direction.

樹脂部５３には、上述したとおり、センサ３９を内装するセンサ孔５５が、樹脂部５３のインナ側の軸方向面部５７から凹設されている。
また、樹脂部５３の径方向面部（外径面）６１は、凹入部１１の軸方向面部１５に突き合わされるアウタ側の軸方向面部５９からインナ側に向かうに従って小径となるテーパ面に形成されている。 As described above, in the resin portion 53, the sensor hole 55 that houses the sensor 39 is recessed from the inner axial surface portion 57 of the resin portion 53.
Further, the radial surface portion (outer diameter surface) 61 of the resin portion 53 is formed in a tapered surface having a diameter that decreases from the outer side axial surface portion 59 that is abutted against the axial surface portion 15 of the recessed portion 11 toward the inner side. ing.

従って、樹脂センサホルダ４３を外輪１のインナ側端部９に形成した凹入部１１内に挿入し、樹脂センサホルダ４３における樹脂部５３のアウタ側の軸方向面部５９を、凹入部１１の軸方向面部１５に突き合せ（突き合せ領域６３を形成する）、かつ凹入部１１奥の外輪内径面３に芯金４５の円筒部４９を嵌合固定させると、凹入部１１の径方向面部１３が、樹脂センサホルダ４３の樹脂部５３の径方向面部（外径面）６１上にて、所定の隙間６５をあけた状態で重なり合うようにして配設されるため、外輪１の凹入部１１の軸方向面部１５と樹脂センサホルダ４３の樹脂部５３の軸方向面部５９との突き合せ領域６３には泥水が直接掛からない。   Therefore, the resin sensor holder 43 is inserted into the recessed portion 11 formed in the inner side end 9 of the outer ring 1, and the axial surface portion 59 on the outer side of the resin portion 53 in the resin sensor holder 43 is inserted in the axial direction of the recessed portion 11. When the cylindrical portion 49 of the cored bar 45 is fitted and fixed to the surface portion 15 (forms a butt region 63) and the outer ring inner diameter surface 3 at the back of the recessed portion 11 is fixed, the radial surface portion 13 of the recessed portion 11 is Since the resin sensor holder 43 is disposed on the radial surface portion (outer diameter surface) 61 of the resin portion 53 so as to overlap with a predetermined gap 65, the axial direction of the recessed portion 11 of the outer ring 1 is arranged. Muddy water is not directly applied to the abutting region 63 between the surface portion 15 and the axial surface portion 59 of the resin portion 53 of the resin sensor holder 43.

また、凹入部１１の径方向面部１３はインナ側に向かうに従って大径となるテーパ面とすると共に、樹脂センサホルダ４３の樹脂部５３の径方向面部（外径面）６１をインナ側に向かうに従って小径となるテーパ面としているため、突き合せ領域６３に泥水が侵入したとしても、その泥水は、凹入部１１のテーパ面である径方向面部１３若しくは樹脂部５３のテーパ面である径方向面部（外径面）６１に沿って迅速に排水される。   Further, the radial surface portion 13 of the recessed portion 11 is a tapered surface that increases in diameter toward the inner side, and the radial surface portion (outer diameter surface) 61 of the resin portion 53 of the resin sensor holder 43 is directed toward the inner side. Since the tapered surface has a small diameter, even if muddy water enters the abutting region 63, the muddy water is a radial surface portion 13 that is a tapered surface of the recessed portion 11 or a tapered surface of the resin portion 53 ( The water is quickly drained along the outer surface 61).

このような構成を採用したため、従来のように、突き合せ領域６３に配していたＯリングを省略しても密閉性を向上することが可能である。従って、本実施形態では、Ｏリング廃止によるコストの削減だけでなく、Ｏリングの使用による適合材料の限定も無くすことが出来たため、大きなコスト低減効果が得られる。   Since such a configuration is adopted, it is possible to improve the sealing performance even if the O-ring disposed in the butt region 63 is omitted as in the prior art. Therefore, in this embodiment, not only the cost can be reduced by eliminating the O-ring, but also the limitation of the compatible material by using the O-ring can be eliminated, so that a great cost reduction effect can be obtained.

「第二実施形態」
図２に本発明の第二実施形態の一例を示し、本実施形態では第一実施形態と相違する点についてのみの説明に留め、その他の構成及び作用効果にあっては第一実施形態の説明を援用する。 "Second embodiment"
FIG. 2 shows an example of the second embodiment of the present invention. In the present embodiment, only the differences from the first embodiment will be described, and the description of the first embodiment will be given for other configurations and effects. Is used.

本実施形態では、外輪１のインナ側端部９に凹入部１１を形成し、樹脂センサホルダ４３を前記凹入部１１内に挿入し、樹脂センサホルダ４３における樹脂部５３のアウタ側の軸方向面部５９を、凹入部１１の軸方向面部１５に突き合せ（突き合せ領域６３を形成する）、かつ凹入部１１奥の外輪内径面３に芯金４５の円筒部４９を嵌合固定させる第一実施形態に類似の実施形態を採用している。   In the present embodiment, the recessed portion 11 is formed in the inner side end portion 9 of the outer ring 1, the resin sensor holder 43 is inserted into the recessed portion 11, and the axial side surface portion on the outer side of the resin portion 53 in the resin sensor holder 43. 59 is abutted against the axial surface portion 15 of the recessed portion 11 (to form a butted region 63), and the cylindrical portion 49 of the metal core 45 is fitted and fixed to the inner surface 3 of the outer ring at the back of the recessed portion 11. An embodiment similar to the form is adopted.

本実施形態では、凹入部１１の径方向面部１３を軸方向に関して内径が一定である円筒面とすると共に、樹脂部５３の径方向面部（外径面）６１を、前記凹入部１１の径方向面部１３との間に所定の締め代を持つ断面視でドーム状の突条（環状突部）６７に形成している。
本実施形態によれば、第一の実施形態と同様の作用効果を発揮すると共に、樹脂部５３の径方向面部（外径面）６１の突条６７が、前記突条６７の外径側に位置する凹入部１１の径方向面部１３との間で圧入されて接触のシール領域６９を構成しているため、突き合せ領域６３へのさらなる泥水侵入を防止することが可能である。 In the present embodiment, the radial surface portion 13 of the recessed portion 11 is a cylindrical surface having a constant inner diameter with respect to the axial direction, and the radial surface portion (outer diameter surface) 61 of the resin portion 53 is the radial direction of the recessed portion 11. A dome-shaped protrusion (annular protrusion) 67 is formed in a cross-sectional view having a predetermined fastening margin between the surface section 13 and the surface section 13.
According to this embodiment, while exhibiting the same effect as 1st embodiment, the protrusion 67 of the radial direction surface part (outer diameter surface) 61 of the resin part 53 is on the outer diameter side of the said protrusion 67. As shown in FIG. Since the contact seal area 69 is configured by being press-fitted with the radial surface section 13 of the recessed section 11 positioned, it is possible to prevent further muddy water from entering the butt area 63.

また、本実施形態では、樹脂部５３の径方向面部（外径面）６１を断面視でドーム状の突条６７に形成しているが、その突出形状に限定解釈されるものではなく、凹入部１１の径方向面部１３との間で所定の締め代を持って形成されるものであれば、断面視で三角形状、多角形状など適宜設計変更可能である。なお、本実施形態では周方向に一連で形成されている形態をもって説明したが、軸方向に二連、三連で形成されている形態であってもよく複数連にすることによりシール領域を多くして密封性を向上させることも本発明の範囲内である。
また、本実施形態において、凹入部１１の径方向面部１３を、インナ側に向かうに従って徐々に大径となるテーパ面に形成する構成であっても適用可能であって、本発明の範囲内で適宜設計変更可能である。 Further, in the present embodiment, the radial surface portion (outer diameter surface) 61 of the resin portion 53 is formed on the dome-shaped protrusion 67 in a cross-sectional view, but is not limited to the protruding shape. As long as it is formed with a predetermined interference with the radial surface portion 13 of the insertion portion 11, the design can be appropriately changed such as a triangular shape or a polygonal shape in a cross-sectional view. Although the present embodiment has been described with a form formed in series in the circumferential direction, it may be a form formed in two or three in the axial direction. It is also within the scope of the present invention to improve the sealing performance.
Moreover, in this embodiment, even if it is the structure which forms the radial direction surface part 13 of the recessed part 11 in the taper surface which becomes gradually large diameter as it goes to an inner side, it is applicable, and within the scope of the present invention. The design can be changed as appropriate.

「第三実施形態」
図３に本発明の第三実施形態の一例を示し、本実施形態では第一及び第二実施形態と相違する点についてのみの説明に留め、その他の構成及び作用効果にあっては第一実施形態の説明を援用する。 "Third embodiment"
FIG. 3 shows an example of the third embodiment of the present invention. In this embodiment, only the differences from the first and second embodiments will be described, and other configurations and functions and effects will be described in the first embodiment. The description of the form is used.

本実施形態では、第一及び第二実施形態と異なり、外輪１のインナ側端部９の外径に段部７１を形成し、前記段部７１の外径側にて、樹脂センサホルダ４３の樹脂部５３の径方向面部６１を径方向で所定の隙間８５をあけて重ね合わせるように配設する実施の形態を採用している。   In the present embodiment, unlike the first and second embodiments, a step portion 71 is formed on the outer diameter of the inner side end portion 9 of the outer ring 1, and the resin sensor holder 43 is formed on the outer diameter side of the step portion 71. An embodiment is adopted in which the radial surface portion 61 of the resin portion 53 is arranged so as to overlap with a predetermined gap 85 in the radial direction.

段部７１は、外輪１のインナ側端部９の外径に凹状に形成されている。
段部７１は、外径面２から軸心１７方向に向けて鉛直方向に連続して形成される第一壁面７３と、第一壁面７３からインナ側に向けて小径となるように連続して形成したテーパ面７５と、テーパ面７５から軸方向でインナ側に向けて連続して形成された円筒部７７と、円筒部７７から連続して鉛直方向に立ち上げ形成され、前記第一壁面７３よりも小径に形成された第二壁面７９と、第二壁面７９から軸方向でインナ側に向けて連続して形成され、外径面２よりも小径の対向面部８１で構成されている。 The step portion 71 is formed in a concave shape on the outer diameter of the inner side end portion 9 of the outer ring 1.
The stepped portion 71 is continuously formed so as to have a first wall surface 73 continuously formed in the vertical direction from the outer diameter surface 2 toward the axial center 17 direction, and to have a smaller diameter from the first wall surface 73 toward the inner side. The formed tapered surface 75, the cylindrical portion 77 formed continuously from the tapered surface 75 toward the inner side in the axial direction, and continuously formed from the cylindrical portion 77 in the vertical direction. The second wall surface 79 is formed to have a smaller diameter than the outer wall surface 79, and the second wall surface 79 is formed from the second wall surface 79 toward the inner side in the axial direction.

樹脂センサホルダ４３は、外輪１のインナ側端部９に嵌合された状態で、樹脂部５３におけるアウタ側の軸方向面部５９よりも外径側にてアウタ側に向けて軸方向に突設される環状の径方向面部（庇部とも称する）６１を庇状に形成し、前記庇状の径方向面部６１が、前記段部７１の対向面部８１よりも外径側に突出するように大径に形成されるとともに、外輪１のインナ側端部９に形成した段部７１の対向面部８１の外径側にて、所定隙間８５をあけて重ね合わせるようにして位置している。   The resin sensor holder 43 protrudes in the axial direction toward the outer side on the outer diameter side of the outer side axial surface portion 59 in the resin portion 53 in a state of being fitted to the inner side end portion 9 of the outer ring 1. An annular radial surface portion (also referred to as a flange portion) 61 is formed in a hook shape, and the flange-shaped radial surface portion 61 is larger than the opposed surface portion 81 of the stepped portion 71 so as to protrude to the outer diameter side. In addition to being formed in a diameter, it is positioned on the outer diameter side of the facing surface portion 81 of the stepped portion 71 formed at the inner side end portion 9 of the outer ring 1 so as to overlap with a predetermined gap 85.

径方向面部６１は、段部７１の対向面部８１上をアウタ側に向けて僅かに越えて円筒部７７上に差し掛かる程度の長さをもって形成されている。
そして、径方向面部６１の内径面は、アウタ側に向けて大径となるようにテーパ面８３に形成している。 The radial surface portion 61 is formed with such a length as to reach the cylindrical portion 77 slightly beyond the facing surface portion 81 of the step portion 71 toward the outer side.
The inner diameter surface of the radial surface portion 61 is formed on the tapered surface 83 so as to increase in diameter toward the outer side.

そして、樹脂センサホルダ４３における樹脂部５３のアウタ側の軸方向面部５９を、外輪１のインナ側端部９の軸方向面部１５に突き合せ（突き合せ領域６３を形成する）、かつ軸方向面部１５奥の外輪内径面３に芯金４５の円筒部４９を嵌合固定させると、樹脂センサホルダ４３の樹脂部５３の庇状の径方向面部６１が、外輪１のインナ側端部９における段部７１の外径側にて対向面部８１上にて、所定の隙間８５をあけた状態で重なり合うようにして配設される。
このよう形成されることによって、本実施形態では、樹脂部５３の庇状の径方向面部６１と外輪１の段部７１との間には排水溝８７が形成される。 Then, the axial surface portion 59 on the outer side of the resin portion 53 in the resin sensor holder 43 is abutted against the axial surface portion 15 of the inner side end portion 9 of the outer ring 1 (a butt region 63 is formed), and the axial surface portion. When the cylindrical portion 49 of the cored bar 45 is fitted and fixed to the inner ring surface 3 of the outer ring 15, the bowl-shaped radial surface portion 61 of the resin portion 53 of the resin sensor holder 43 is stepped at the inner side end portion 9 of the outer ring 1. On the opposite surface portion 81 on the outer diameter side of the portion 71, they are arranged so as to overlap with a predetermined gap 85.
In this embodiment, a drainage groove 87 is formed between the flange-shaped radial surface portion 61 of the resin portion 53 and the step portion 71 of the outer ring 1.

従って、本実施形態によれば、段部７１にはアウタ側に向けて大径となるテーパ面７５を有し、前記段部７１の外径側にて段部７１上に庇状に張り出して位置する樹脂部５３の径方向面部６１の内径面にアウタ側に向けて大径となるテーパ面８３を有し、かつ排水溝８７を設けることにより、段部７１内に泥水が入り込んだとしても、入り込んだ泥水は、前記両テーパ面７５，８３によって排水溝８７から迅速に排水することが可能であるため、外輪１のインナ側端部９の軸方向面部１５と樹脂センサホルダ４３の樹脂部５３の軸方向面部５９との突き合せ領域６３に泥水が直接掛からないようにすることが可能である。   Therefore, according to the present embodiment, the stepped portion 71 has a tapered surface 75 having a large diameter toward the outer side, and protrudes like a bowl on the stepped portion 71 on the outer diameter side of the stepped portion 71. Even if muddy water enters the stepped portion 71 by having a tapered surface 83 having a large diameter toward the outer side on the inner diameter surface of the radial surface portion 61 of the resin portion 53 positioned and providing the drainage groove 87. Since the muddy water that has entered can be quickly drained from the drainage groove 87 by the both tapered surfaces 75 and 83, the axial surface portion 15 of the inner side end portion 9 of the outer ring 1 and the resin portion of the resin sensor holder 43. It is possible to prevent muddy water from directly hitting the abutting region 63 with the 53 axial surface portion 59.

「第四実施形態」
図４に本発明の第四実施形態の一例を示し、本実施形態では第一乃至第三実施形態と相違する点についてのみの説明に留め、その他の構成及び作用効果にあっては第一実施形態の説明を援用する。 "Fourth embodiment"
FIG. 4 shows an example of the fourth embodiment of the present invention. In this embodiment, only the differences from the first to third embodiments will be described, and other configurations and functions and effects will be described in the first embodiment. The description of the form is used.

本実施形態では、第三実施形態と異なり、樹脂部５３の庇状に突出する径方向面部６１の突出量（張り出し量）を大きくして排水溝８７を覆い、段部７１の第一壁面７３の直前まで設けて所定のラビリンス８９を形成した実施の一例である。
この場合、外輪１と樹脂センサホルダ４３は、共に静止部材であるため、極めて狭いラビリンス設定が可能となる。
また、本実施形態の段部７１は、第一壁面７３の内径からインナ側に向けて連続して大径となるようにテーパ面９１を形成している。
なお、ラビリンス８９が狭くて泥水の排水が悪い場合には、樹脂センサホルダ４３の樹脂部５３の径方向面部６１に図示しない水抜き孔を設けることも可能であって本発明の範囲内で適宜設計変更可能である。 In the present embodiment, unlike the third embodiment, the protruding amount (overhang amount) of the radial surface portion 61 protruding in a bowl shape of the resin portion 53 is increased to cover the drainage groove 87, and the first wall surface 73 of the step portion 71. This is an example of an embodiment in which a predetermined labyrinth 89 is formed up to immediately before.
In this case, since the outer ring 1 and the resin sensor holder 43 are both stationary members, an extremely narrow labyrinth can be set.
Further, the stepped portion 71 of the present embodiment forms a tapered surface 91 so as to continuously increase in diameter from the inner diameter of the first wall surface 73 toward the inner side.
In the case where the labyrinth 89 is narrow and the muddy water is poorly drained, it is possible to provide a water drain hole (not shown) in the radial direction surface portion 61 of the resin portion 53 of the resin sensor holder 43. The design can be changed.

本発明は、カバー部材として樹脂製のエンドキャップを備えた軸受ユニットにも適用可能である。また、本発明は、本明細書に示す以外のハブ軸受ユニット形態にも適用可能である。   The present invention is also applicable to a bearing unit including a resin end cap as a cover member. The present invention is also applicable to hub bearing unit configurations other than those shown in this specification.

１ 静止輪（外輪）
７ 外輪軌道（静止側軌道面）
９ インナ側端部
１１ 凹入部
１３ 円筒状の径方向面部
１５ 円環状の軸方向面部
１９ 回転輪（ハブ輪）
２１ 内輪軌道（回転側軌道面）
２５ 回転輪（別体の内輪）
２７ 内輪軌道（回転側軌道面）
２９ 転動体
４３ カバー部材（樹脂センサホルダ）
４５ 芯金
５３ 樹脂部
５９ アウタ側の軸方向面部
６１ 径方向面部
６３ 突き合せ領域
1 stationary wheel (outer ring)
7 Outer ring raceway (stationary raceway surface)
9 Inner side end 11 Recessed portion 13 Cylindrical radial surface portion 15 Annular axial surface portion 19 Rotating wheel (hub wheel)
21 Inner ring raceway (rotation side raceway surface)
25 Rotating wheel (separate inner ring)
27 Inner ring raceway (rotation side raceway surface)
29 Rolling body 43 Cover member (resin sensor holder)
45 Core metal 53 Resin portion 59 Outer side axial surface portion 61 Radial surface portion 63 Abutting region

Claims (1)

周面に静止側軌道面を有する静止輪と、
前記静止輪と相対回転可能に配設され、前記静止側軌道面と対向する周面に回転側軌道面を有するとともに、外周面に車輪を支持するための車輪支持用フランジを有する回転輪と、
前記静止側軌道面と前記回転側軌道面との間に組み込まれる複数個の転動体と、
前記静止輪のインナ側端部に嵌合されて密閉するカバー部材と、を少なくとも含む軸受ユニットであって、
前記カバー部材は、前記静止輪のインナ側端部に嵌合可能な環状の芯金と、前記芯金と一体に成形される環状の樹脂部とで構成され、
前記静止輪は、インナ側端部の外径側に段部を形成し、
前記カバー部材は、樹脂部におけるアウタ側の軸方向面部よりも外径側にてアウタ側に向けて軸方向に突設される環状の径方向面部を形成し、
前記カバー部材の樹脂部における軸方向面部を、前記静止輪のインナ側端部の段部よりもインナ側に位置する軸方向面部に突き合わせて突き合わせ領域を形成すると共に、前記突き合わせ領域の外径側にて、前記インナ側端部の段部における径方向面部の外径側に、カバー部材の径方向面部が径方向で重なり合うように位置しており、
前記突き合せ領域よりもアウタ側に位置する静止輪の内径面に前記芯金を嵌合固定させ、
前記段部の径方向面部は、径方向内側に凹んで形成され、
前記カバー部材の径方向面部の内径面は、アウタ側に向かうに従い大径となるテーパ面に形成されており、
前記段部の径方向面部は、インナ側に向かうに従い大径となるテーパ面に形成されていることを特徴とする軸受ユニット。
A stationary wheel having a stationary raceway surface on the circumferential surface;
A rotating wheel that is disposed so as to be relatively rotatable with the stationary wheel, has a rotating side raceway surface on a circumferential surface facing the stationary side raceway surface, and has a wheel support flange for supporting a wheel on the outer circumferential surface;
A plurality of rolling elements incorporated between the stationary side raceway surface and the rotation side raceway surface;
A cover member fitted and sealed to the inner side end of the stationary ring, and a bearing unit including at least
The cover member includes an annular metal core that can be fitted to an inner side end of the stationary ring, and an annular resin portion that is molded integrally with the metal core.
The stationary ring forms a step on the outer diameter side of the inner side end,
The cover member forms an annular radial surface portion that protrudes in the axial direction toward the outer side on the outer diameter side from the axial surface portion on the outer side in the resin portion,
An axial surface portion of the resin portion of the cover member is abutted against an axial surface portion positioned on the inner side of the step on the inner side end portion of the stationary wheel to form a butt region, and the outer diameter side of the butt region In the outer diameter side of the radial surface portion in the step portion of the inner side end portion, the radial surface portion of the cover member is positioned so as to overlap in the radial direction,
The cored bar is fitted and fixed to the inner diameter surface of the stationary ring located on the outer side of the butting region,
A radial surface portion of the step is formed to be recessed radially inward,
The inner diameter surface of the radial surface portion of the cover member is formed in a tapered surface that increases in diameter toward the outer side ,
The bearing unit according to claim 1, wherein the radial surface portion of the step portion is formed into a tapered surface having a diameter that increases toward the inner side .

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