JP2012167782A - Electromagnetic engaging device - Google Patents

Electromagnetic engaging device Download PDF

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JP2012167782A
JP2012167782A JP2011031029A JP2011031029A JP2012167782A JP 2012167782 A JP2012167782 A JP 2012167782A JP 2011031029 A JP2011031029 A JP 2011031029A JP 2011031029 A JP2011031029 A JP 2011031029A JP 2012167782 A JP2012167782 A JP 2012167782A
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engagement
electromagnetic
intermediate member
pair
members
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JP5732892B2 (en
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Hirotatsu Kitahata
弘達 北畠
Hideaki Komada
英明 駒田
Hiroaki Ebuchi
弘章 江渕
Hiroto Hashimoto
洋人 橋本
Minoru Onitake
稔 鬼武
Kenji Korenaga
憲司 是永
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JTEKT Corp
Toyota Motor Corp
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JTEKT Corp
Toyota Motor Corp
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Abstract

PROBLEM TO BE SOLVED: To provide an electromagnetic engaging device suppressing increase in power consumption.SOLUTION: The electromagnetic engaging device 5 includes: a return spring 15 urging a movable cam member 9 in a direction of separating engagement faces 9, 19a from each other; an electromagnetic drive unit 7 for displacing the movable cam member 9 against the urging force of the return spring 15; and an intermediate member 21 disposed at the movable cam member 9 to be capable of protrusion/retraction from the engagement face 9a of the movable cam member 9 and to be urged in a protrusion direction. At a release position, a gap G1 formed between the intermediate member 21 and the engagement face 19a of a coil housing 19 is set to be smaller than a gap G2 formed between the engagement faces 9a, 19a.

Description

本発明は、共通の軸線上に配置された一対の係合部材を解放位置と係合位置との間で電磁力を利用して変位させる電磁式係合装置に関する。   The present invention relates to an electromagnetic engagement device that displaces a pair of engagement members disposed on a common axis using an electromagnetic force between a release position and an engagement position.

電磁式クラッチとして、2つのリターンスプリングを有し、解放状態から係合状態へ変化させる際に磁気ギャップが所定より大きい間は一つのリターンスプリングによる付勢力を、磁気ギャップが所定以下になったら2つのリターンスプリングによる付勢力をそれぞれ与えるものが知られている(特許文献1)。その他、本発明に関連する先行技術文献として特許文献2及び3が存在する。   As an electromagnetic clutch, it has two return springs. When changing from the released state to the engaged state, the biasing force by one return spring is applied while the magnetic gap is larger than a predetermined value. There is known one that gives urging forces by two return springs (Patent Document 1). In addition, Patent Documents 2 and 3 exist as prior art documents related to the present invention.

特開2010−7736号公報JP 2010-7736 A 特開2010−71488号公報JP 2010-71488 A 特開2009−138798号公報JP 2009-138798 A

特許文献1の電磁クラッチは、解放する場合は2つのリターンスプリングの付勢力を利用して確実に解放できるが、係合する場合は2つの付勢力に打ち勝つように電磁吸引力を大きくする必要があり消費電力が大きくなるおそれがある。   The electromagnetic clutch of Patent Document 1 can be reliably released using the urging forces of the two return springs when released, but when engaged, it is necessary to increase the electromagnetic attractive force so as to overcome the two urging forces. There is a risk that power consumption will increase.

そこで、本発明は、消費電力の増加を抑制できる電磁式係合装置を提供することを目的とする。   Then, an object of this invention is to provide the electromagnetic engagement apparatus which can suppress the increase in power consumption.

本発明の電磁式係合装置は、係合面を互いに対向させて、前記係合面同士が互いに離れた解放位置と前記係合面同士が互いに係合した係合位置との間で相対移動可能な状態で、共通の軸線上に配置された一対の係合部材と、前記係合面同士が互いに離れる方向に前記一対の係合部材の少なくとも一方を付勢するリターンスプリングと、前記解放位置から前記係合位置へ前記リターンスプリングの付勢力に抗して前記一対の係合部材を変位させるための電磁駆動手段と、前記一対の係合部材のいずれか一方の係合部材の前記係合面から出没可能な状態かつ突出方向に付勢された状態で前記一方の係合部材に設けられた中間部材と、を備え、前記解放位置において、前記中間部材と前記他方の係合部材の前記係合面との間に形成されるギャップが、前記一対の係合部材の前記係合面間に形成されるギャップよりも小さくなるように設定されているものである(請求項1)。   In the electromagnetic engagement device of the present invention, the engagement surfaces are opposed to each other, and the relative movement is performed between a release position where the engagement surfaces are separated from each other and an engagement position where the engagement surfaces are engaged with each other. In a possible state, a pair of engaging members disposed on a common axis, a return spring that biases at least one of the pair of engaging members in a direction in which the engaging surfaces are separated from each other, and the release position An electromagnetic drive means for displacing the pair of engagement members against the biasing force of the return spring from the engagement position to the engagement position; and the engagement of one of the pair of engagement members An intermediate member provided on the one engagement member in a state in which it can protrude from the surface and is urged in a protruding direction, and the intermediate member and the other engagement member at the release position A gap formed between the engagement surfaces Are those set to be smaller than the gap formed between the engaging surface of the pair of engagement members (claim 1).

この電磁式係合装置によれば、電磁吸引力に影響する係合部材間のギャップが中間部材によって小さくなるので、同一の電力で発生し得る電磁吸引力が大きくなる。従って、解放位置から係合位置へ変化させるための電磁吸引力を少ない消費電力で発生できる。また、係合位置から解放位置へ変化させる際にはリターンスプリングの付勢力に加えて中間部材に作用する付勢力を利用できるので確実に解放することができる。   According to this electromagnetic engagement device, since the gap between the engaging members that affects the electromagnetic attractive force is reduced by the intermediate member, the electromagnetic attractive force that can be generated with the same electric power is increased. Therefore, the electromagnetic attraction force for changing from the release position to the engagement position can be generated with low power consumption. Further, when changing from the engagement position to the release position, the urging force acting on the intermediate member can be used in addition to the urging force of the return spring, so that it can be surely released.

本発明の電磁式係合装置の一態様において、前記解放位置において、前記中間部材と前記他方の係合部材の前記係合面との間に形成されるギャップが所定値以下に抑制されるように前記中間部材の突出量を規制する規制部材を更に備えてもよい(請求項2)。この態様によれば、規制部材によって中間部材の突出量を適宜規制できるので中間部材と係合面とのギャップが必要以上に狭くなることを防止できる。そのため、一対の係合部材間にオイルを供給しながら使用する場合において、一対の係合部材が解放位置の時に生じ得る引き摺り抵抗を抑制することができる。   In one aspect of the electromagnetic engagement device of the present invention, in the release position, a gap formed between the intermediate member and the engagement surface of the other engagement member is suppressed to a predetermined value or less. A regulating member for regulating the protruding amount of the intermediate member may be further provided. According to this aspect, the amount of protrusion of the intermediate member can be appropriately restricted by the restriction member, so that the gap between the intermediate member and the engagement surface can be prevented from becoming unnecessarily narrow. Therefore, in the case of using the oil while supplying oil between the pair of engaging members, drag resistance that can occur when the pair of engaging members are in the release position can be suppressed.

本発明の電磁式係合装置の一態様において、前記中間部材には、前記軸線を中心とした径方向に延びる溝が形成されてもよい(請求項3)。この態様によれば、一対の係合部材間にオイルを供給しながら使用する場合において、中間部材に設けられた溝を通じてオイルが排出されるから、中間部材及びその周囲にオイルが滞留することを防止できる。これにより、一対の係合部材が解放位置の時に生じ得る引き摺り抵抗を抑制することができる。   In one aspect of the electromagnetic engagement device of the present invention, a groove extending in a radial direction about the axis may be formed in the intermediate member. According to this aspect, when the oil is used while being supplied between the pair of engaging members, the oil is discharged through the groove provided in the intermediate member, so that the oil stays in and around the intermediate member. Can be prevented. Thereby, drag resistance that can occur when the pair of engaging members is in the release position can be suppressed.

本発明の電磁式係合装置の一態様において、前記中間部材の摩擦係数が、前記係合面の摩擦係数よりも小さくなるように設定されてもよい(請求項4)。この態様によれば、中間部材の摺動に伴うトルク容量低下を防止できる。   In one aspect of the electromagnetic engagement device of the present invention, a friction coefficient of the intermediate member may be set to be smaller than a friction coefficient of the engagement surface. According to this aspect, it is possible to prevent a decrease in torque capacity associated with the sliding of the intermediate member.

本発明の電磁式係合装置の一態様において、前記一方の係合部材は、非回転要素に固定されてもよい(請求項5)。一方の係合部材が非回転要素に固定されるため、その係合部材に設けられた中間部材は回転しない。従って、中間部材に対する回転の影響を排除できるので、特に、一対の係合部材間にオイルを供給しながら使用する場合において遠心油圧等によって中間部材の動作に不具合が生じるといった問題を回避することができる。   In one aspect of the electromagnetic engagement device of the present invention, the one engagement member may be fixed to a non-rotating element (Claim 5). Since one engaging member is fixed to the non-rotating element, the intermediate member provided on the engaging member does not rotate. Accordingly, since the influence of rotation on the intermediate member can be eliminated, it is possible to avoid a problem that the operation of the intermediate member is troubled by centrifugal hydraulic pressure or the like particularly when the oil is used while supplying oil between the pair of engaging members. it can.

本発明の電磁式係合装置の一態様において、前記中間部材は、前記軸線に近い中心側よりも前記軸線から遠い外周側に偏るようにして前記一方の係合部材に設けられてもよい(請求項6)。一対の係合部材の互いの係合面が接触する際には、軸線に近い側が遠い側よりも強く接触する。この態様によれば、軸線から遠い側での接触を中間部材で補うことができるので、径方向の接触面圧分布が均一化されてトルク容量の減少を防止できるとともに、係合面間の片当たりをも防止できる。   In one aspect of the electromagnetic engagement device of the present invention, the intermediate member may be provided on the one engagement member so as to be biased toward the outer peripheral side farther from the axis than the center near the axis ( Claim 6). When the engaging surfaces of the pair of engaging members come into contact with each other, the side closer to the axis is in contact more strongly than the far side. According to this aspect, since the contact on the side far from the axis can be supplemented by the intermediate member, the contact surface pressure distribution in the radial direction can be made uniform to prevent the torque capacity from being reduced, and the piece between the engagement surfaces can be prevented. You can also prevent hits.

以上説明したように、本発明の電磁式係合装置によれば、電磁吸引力に影響する係合部材間のギャップが中間部材によって小さくなるので、同一の電力で発生し得る電磁吸引力が大きくなる。従って、解放位置から係合位置へ変化させるための電磁吸引力を少ない消費電力で発生できる。   As described above, according to the electromagnetic engagement device of the present invention, the gap between the engaging members that affects the electromagnetic attractive force is reduced by the intermediate member, so that the electromagnetic attractive force that can be generated with the same electric power is large. Become. Therefore, the electromagnetic attraction force for changing from the release position to the engagement position can be generated with low power consumption.

第1の形態に係る電磁式係合装置が組み込まれた動力伝達装置の一部を示した断面模式図。The cross-sectional schematic diagram which showed a part of power transmission device with which the electromagnetic engagement apparatus which concerns on a 1st form was integrated. 図1の電磁式係合装置の作用効果を説明する説明図。Explanatory drawing explaining the effect of the electromagnetic engagement apparatus of FIG. 中間部材を軸線方向から見た状態を示した図。The figure which showed the state which looked at the intermediate member from the axial direction. 第2の形態に係る電磁式係合装置が組み込まれた動力伝達装置の一部を示した断面模式図。The cross-sectional schematic diagram which showed a part of power transmission device with which the electromagnetic engagement apparatus which concerns on a 2nd form was integrated. 第3の形態に係る電磁式係合装置が組み込まれた動力伝達装置の一部を示した断面模式図。The cross-sectional schematic diagram which showed a part of power transmission device with which the electromagnetic engagement apparatus which concerns on a 3rd form was integrated.

(第1の形態)
図1は本発明の第1の形態に係る電磁式係合装置が組み込まれた動力伝達装置の一部を示した断面模式図である。動力伝達装置1は自動車の自動変速機に搭載されて使用される。動力伝達装置1は軸線Ax方向に延びる回転軸2を有しており、その回転軸2は軸線Axの回りに回転可能な状態で不図示のベアリングを介して非回転要素としてのケース3に支持されている。電磁式係合装置5は回転軸2のケース3に対する固定及びその固定を解除するブレーキ装置として動力伝達装置1に搭載されている。
(First form)
FIG. 1 is a schematic cross-sectional view showing a part of a power transmission device incorporating an electromagnetic engagement device according to a first embodiment of the present invention. The power transmission device 1 is mounted and used in an automatic transmission of an automobile. The power transmission device 1 has a rotary shaft 2 extending in the direction of the axis Ax, and the rotary shaft 2 is supported by a case 3 as a non-rotating element via a bearing (not shown) in a state of being rotatable around the axis Ax. Has been. The electromagnetic engagement device 5 is mounted on the power transmission device 1 as a brake device for fixing the rotating shaft 2 to the case 3 and releasing the fixing.

電磁式係合装置5は、回転軸2に装着されたカム機構6と、ケース3とカム機構6との間に配置されてケース3に固定された電磁駆動手段としての電磁駆動部7とを備えている。カム機構6は軸線Axを共通の軸線として互いに組み合わされた一対のカム部材8、9を有している。一対のカム部材8、9の間には周方向に並んだ複数(図では一つ)のカムボール10が介在しており、そのカムボール10は各カム部材8、9に形成された周方向に並ぶ複数のV字溝11、12にて保持されている。各V字溝11、12は、各カム部材8、9を半径方向外側から見た場合にV字状に形成されていて、回転軸2の回転方向に関して深さが徐々に浅くなるように構成されている。   The electromagnetic engagement device 5 includes a cam mechanism 6 attached to the rotary shaft 2 and an electromagnetic drive unit 7 as an electromagnetic drive means disposed between the case 3 and the cam mechanism 6 and fixed to the case 3. I have. The cam mechanism 6 has a pair of cam members 8 and 9 combined with each other with the axis Ax as a common axis. A plurality (one in the figure) of cam balls 10 arranged in the circumferential direction are interposed between the pair of cam members 8 and 9, and the cam balls 10 are arranged in the circumferential direction formed on the cam members 8 and 9. It is held by a plurality of V-shaped grooves 11 and 12. Each V-shaped groove 11, 12 is formed in a V shape when each cam member 8, 9 is viewed from the outside in the radial direction, and is configured such that the depth gradually decreases in the rotational direction of the rotating shaft 2. Has been.

図1に示すように、一対のカム部材8、9のうち、図の左側に位置する固定カム部材8は回転軸2上にスナップリング14によって固定されており、回転軸2と一体回転できる。他方の可動カム部材9は相手方の固定カム部材8及び回転軸2のそれぞれに対して相対回転でき、かつ軸線Ax方向に移動できる状態で固定カム部材8と組み合わされている。一対のカム部材8、9は、図1に示された位相が一致した状態から相対回転して位相がずれた状態に変化すると、その相対回転に伴ってカムボール10の位置がV字溝11、12の浅い位置に変化するので、可動カム部材9は電磁駆動部7に接近する方向に移動する。電磁式係合装置5には、一対のカム部材8、9にこうした相対回転が生じることを抑制するため、固定カム部材8に接近する方向に可動カム部材9を付勢する付勢手段としてのリターンスプリング15が設けられている。リターンスプリング15は図の右方向の移動がスナップリング16にて阻止された状態で回転軸2の外周に配置されている。   As shown in FIG. 1, of the pair of cam members 8 and 9, the fixed cam member 8 positioned on the left side of the drawing is fixed on the rotating shaft 2 by a snap ring 14 and can rotate integrally with the rotating shaft 2. The other movable cam member 9 is combined with the fixed cam member 8 so as to be able to rotate relative to each of the counterpart fixed cam member 8 and the rotary shaft 2 and to move in the direction of the axis Ax. When the pair of cam members 8 and 9 change from a state in which the phases shown in FIG. 1 match to a state in which they are relatively rotated and shifted in phase, the cam ball 10 is moved to a V-shaped groove 11, along with the relative rotation. Therefore, the movable cam member 9 moves in a direction approaching the electromagnetic drive unit 7. In the electromagnetic engagement device 5, as a biasing unit that biases the movable cam member 9 in a direction approaching the fixed cam member 8 in order to suppress the relative rotation of the pair of cam members 8 and 9. A return spring 15 is provided. The return spring 15 is disposed on the outer periphery of the rotating shaft 2 in a state where movement in the right direction in the drawing is blocked by the snap ring 16.

電磁駆動部7は電磁コイル18と、ケース3に固定されて電磁コイル18を保持するコイルハウジング19とを有している。電磁駆動部7は電磁コイル18に電力が供給されると図の破線で示すように磁界Aが形成されて電磁力を発生し、その電磁力によってアーマチュアとしても機能する磁性体の可動カム部材9を引き寄せる。これにより、可動カム部材9がリターンスプリング15の付勢力に抗して電磁駆動部7の側へ引き寄せられるため一対のカム部材8、9の相対回転が促されるとともに、互いに対向する可動カム部材9の係合面9aと、コイルハウジング19の係合面19aとが係合する。このように、可動カム部材9とコイルハウジング19とは、係合面9a、19aが互いに離れる解放位置と、これらが互いに係合する係合位置との間を移動でき、可動カム部材9とコイルハウジング19とは本発明に係る一対の係合部材に相当する。可動カム部材9とコイルハウジング19とが係合すると、可動カム部材9と組み合わされた固定カム部材8の回転が阻止されるので、固定カム部材8と一体回転する回転軸2がケース3に対して固定される。   The electromagnetic drive unit 7 includes an electromagnetic coil 18 and a coil housing 19 that is fixed to the case 3 and holds the electromagnetic coil 18. When electric power is supplied to the electromagnetic coil 18, the electromagnetic drive unit 7 generates a magnetic field A as shown by a broken line in the figure to generate an electromagnetic force, and the electromagnetic movable member 9 that functions as an armature by the electromagnetic force. Attract. As a result, the movable cam member 9 is attracted toward the electromagnetic drive unit 7 against the urging force of the return spring 15, so that the relative rotation of the pair of cam members 8, 9 is promoted and the movable cam members 9 facing each other. The engagement surface 9a and the engagement surface 19a of the coil housing 19 are engaged with each other. Thus, the movable cam member 9 and the coil housing 19 can move between the release position where the engagement surfaces 9a and 19a are separated from each other and the engagement position where they are engaged with each other. The housing 19 corresponds to a pair of engaging members according to the present invention. When the movable cam member 9 and the coil housing 19 are engaged with each other, the rotation of the fixed cam member 8 combined with the movable cam member 9 is prevented. Fixed.

可動カム部材9には、解放位置から係合位置へ移行する過程でコイルハウジング19の係合面19aに最初に接触する中間機構20が設けられている。中間機構20は、コイルハウジング19の係合面19aに対向していて、可動カム部材9の係合面9aに対して出没可能な中間部材21と、中間部材21を突出方向(図1の右方向)に付勢するスプリング22とを有している。中間部材21とスプリング22とは可動カム部材9に形成された収容室23に収容されている。係合面9aからの中間部材21の突出量は、中間部材21とコイルハウジング19の係合面19aとの間のギャップG1が所定値以下に抑制されるように設定されている。具体的には、収容室23に形成された規制部材としてのストッパ24に中間部材21の突部21aが突き当たることにより、中間部材21の突出量が規制されている。なお、図示の形態では、ストッパ24及び突部21aが径方向の片側のみに形成されているが、径方向の両側にこれらが形成されてもよい。径方向の両側に形成した場合には中間部材21の突出量の規制がより確実になる利点がある。   The movable cam member 9 is provided with an intermediate mechanism 20 that first comes into contact with the engagement surface 19a of the coil housing 19 in the process of shifting from the release position to the engagement position. The intermediate mechanism 20 is opposed to the engagement surface 19a of the coil housing 19, and is capable of projecting and retracting with respect to the engagement surface 9a of the movable cam member 9, and the intermediate member 21 in the protruding direction (right side in FIG. 1). And a spring 22 biased in the direction). The intermediate member 21 and the spring 22 are accommodated in an accommodation chamber 23 formed in the movable cam member 9. The amount of protrusion of the intermediate member 21 from the engagement surface 9a is set so that the gap G1 between the intermediate member 21 and the engagement surface 19a of the coil housing 19 is suppressed to a predetermined value or less. Specifically, the protruding amount of the intermediate member 21 is regulated by the protrusion 21 a of the intermediate member 21 abutting against a stopper 24 as a regulating member formed in the accommodation chamber 23. In the illustrated embodiment, the stopper 24 and the protrusion 21a are formed only on one side in the radial direction, but they may be formed on both sides in the radial direction. When formed on both sides in the radial direction, there is an advantage that the protrusion amount of the intermediate member 21 is more reliably regulated.

図1から明らかなように、解放位置においては、ギャップG1は係合面9a、19a間に形成されるギャップG2に比べて小さくなるように設定されている。図2は電磁式係合装置5の作用効果を説明する説明図であり、中間機構20を省略した比較例と並べて示されている。図2から理解できるように、ギャップG1がギャップG2に比べて小さく、初期バネ力(ばね定数)をも小さくできるため、実施形態及び比較例のそれぞれに同一電力を供給した場合、実施形態の初期吸引力F0は比較例のそれと比べて大きくなる。従って、解放位置から係合位置へ変化させるための電磁吸引力を少ない消費電力で発生できる。また、実施形態の場合、係合位置から解放位置へ移行する際の解放力Ffはリターンスプリング15のバネ力(付勢力)とスプリング22のバネ力(付勢力)との合力となるので、比較例の解放力Ffよりも大きくなる。そのため、係合位置から解放位置へ変化させる際にはより確実に解放することができる。   As apparent from FIG. 1, in the release position, the gap G1 is set to be smaller than the gap G2 formed between the engagement surfaces 9a and 19a. FIG. 2 is an explanatory view for explaining the function and effect of the electromagnetic engagement device 5 and is shown side by side with a comparative example in which the intermediate mechanism 20 is omitted. As can be understood from FIG. 2, since the gap G1 is smaller than the gap G2 and the initial spring force (spring constant) can also be reduced, when the same power is supplied to each of the embodiment and the comparative example, the initial of the embodiment The suction force F0 is larger than that of the comparative example. Therefore, the electromagnetic attraction force for changing from the release position to the engagement position can be generated with low power consumption. In the case of the embodiment, the release force Ff when shifting from the engagement position to the release position is a resultant force of the spring force (biasing force) of the return spring 15 and the spring force (biasing force) of the spring 22. It becomes larger than the release force Ff of the example. Therefore, when changing from the engagement position to the release position, it is possible to release more reliably.

図3に示したように、中間部材21には軸線Axを中心とした径方向に延びる溝25が形成されている。可動カム部材9とコイルハウジング19との間にはオイルが供給されるが、そのオイルが溝25によって径方向外側に排出されるから中間部材21及びその周囲にオイルが滞留することを防止できる。これにより、解放位置の時に生じ得る引き摺り抵抗を抑制することができる。なお、こうした溝25を形成せずに、中間部材21が平坦であっても上記の作用効果を達成する上では何ら支障はない。   As shown in FIG. 3, the intermediate member 21 is formed with a groove 25 extending in the radial direction about the axis Ax. Oil is supplied between the movable cam member 9 and the coil housing 19, but since the oil is discharged radially outward by the groove 25, the oil can be prevented from staying around the intermediate member 21 and its surroundings. Thereby, drag resistance that may occur at the release position can be suppressed. In addition, even if the intermediate member 21 is flat without forming such a groove 25, there is no problem in achieving the above-described effects.

また、中間部材21のうち、係合面19aと接触する部分の摩擦係数は任意に設定してよいが、特にその摩擦係数が係合面9aの摩擦係数よりも小さくなるように設定されていると好ましい。この場合には、中間部材21の摺動に伴うトルク容量低下を防止できる利点がある。   Moreover, although the friction coefficient of the part which contacts the engaging surface 19a among the intermediate members 21 may be set arbitrarily, especially the friction coefficient is set so that it may become smaller than the friction coefficient of the engaging surface 9a. And preferred. In this case, there is an advantage that it is possible to prevent a decrease in torque capacity accompanying the sliding of the intermediate member 21.

(第2の形態)
次に、本発明の第2の形態を図4を参照しながら説明する。この形態は第1の形態の変形例に相当するため、第1の形態と共通する構成には同一の参照符号を図4に付して重複する説明を省略する。図4の電磁式係合装置5Aは、中間機構20がコイルハウジング19に設けられたものである。コイルハウジング19は非回転要素であるので、そこに中間機構20が設けられることにより、中間部材21に対する回転の影響を排除できるので、可動カム部材9とコイルハウジング19との間にオイルを供給しながら使用する場合に、遠心油圧等によって中間部材21の動作に不具合が生じるといった問題を回避することができる。
(Second form)
Next, a second embodiment of the present invention will be described with reference to FIG. Since this form corresponds to a modification of the first form, the same reference numerals are assigned to the same components in the first form as in FIG. In the electromagnetic engagement device 5 </ b> A of FIG. 4, the intermediate mechanism 20 is provided in the coil housing 19. Since the coil housing 19 is a non-rotating element, by providing the intermediate mechanism 20 there, the influence of rotation on the intermediate member 21 can be eliminated, so that oil is supplied between the movable cam member 9 and the coil housing 19. However, when used, it is possible to avoid a problem that a malfunction occurs in the operation of the intermediate member 21 due to centrifugal hydraulic pressure or the like.

(第3の形態)
次に、本発明の第3の形態を図5を参照しながら説明する。この形態は第1の形態の変形例に相当する。上記と同様に、第1の形態と共通する構成には同一の参照符号を図5に付して重複する説明を省略する。図5の電磁式係合装置5Bは、図4に示した第2の形態と異なり、中間機構20が軸線Axに近い中心側よりも軸線Axから遠い外周側に偏るようにしてコイルハウジング19に設けられている。この形態によれば、上記第2の形態と同等の効果を達成できるとともに、軸線Axから遠い側での接触を中間部材21で補うことができるので、径方向の接触面圧分布が均一化されてトルク容量の減少を防止できるとともに、係合面9a、19a間の片当たりをも防止できる。この効果は、中間機構20を上記と同様に外周側に偏るようにして可動カム部材9に設けても達成することができる。
(Third form)
Next, a third embodiment of the present invention will be described with reference to FIG. This form corresponds to a modification of the first form. Similarly to the above, the same reference numerals are attached to the same components as those in the first embodiment, and the overlapping description is omitted. Unlike the second embodiment shown in FIG. 4, the electromagnetic engagement device 5B shown in FIG. Is provided. According to this embodiment, the same effect as in the second embodiment can be achieved, and contact on the side far from the axis Ax can be supplemented by the intermediate member 21, so that the contact surface pressure distribution in the radial direction is made uniform. Thus, the torque capacity can be prevented from being reduced, and the contact between the engagement surfaces 9a and 19a can be prevented. This effect can also be achieved by providing the intermediate mechanism 20 on the movable cam member 9 so as to be biased toward the outer peripheral side in the same manner as described above.

本発明は、上記の各形態に限定されず、本発明の要旨の範囲内において種々の形態にて実施できる。上記の各形態では、本発明の電磁式係合装置をブレーキ装置として利用した形態であるが、本発明を2つの回転要素間に介在させるクラッチとして実施することも可能である。また、上記各形態の電磁式係合装置はカム機構を含んだものであるが、カム機構を有しない形態として本発明を実施することも可能である。   The present invention is not limited to the above embodiments, and can be implemented in various forms within the scope of the gist of the present invention. In each of the above embodiments, the electromagnetic engagement device of the present invention is used as a brake device, but the present invention can also be implemented as a clutch interposed between two rotating elements. Moreover, although the electromagnetic engagement device of each of the above forms includes a cam mechanism, the present invention can be implemented as a form having no cam mechanism.

3 ケース(非回転要素)
5、5A、5B 電磁式係合装置
7 電磁駆動部(電磁駆動手段)
9 可動カム部材(係合部材)
9a 係合面
15 リターンスプリング
19 コイルハウジング(係合部材)
19a 係合面
21 中間部材
24 ストッパ(規制部材)
25 溝
Ax 軸線(共通の軸線)
G1、G2 ギャップ
3 Case (non-rotating element)
5, 5A, 5B Electromagnetic engagement device 7 Electromagnetic drive unit (electromagnetic drive means)
9 Movable cam member (engaging member)
9a Engagement surface 15 Return spring 19 Coil housing (engagement member)
19a Engagement surface 21 Intermediate member 24 Stopper (regulation member)
25 Groove Ax axis (common axis)
G1, G2 gap

Claims (6)

係合面を互いに対向させて、前記係合面同士が互いに離れた解放位置と前記係合面同士が互いに係合した係合位置との間で相対移動可能な状態で、共通の軸線上に配置された一対の係合部材と、
前記係合面同士が互いに離れる方向に前記一対の係合部材の少なくとも一方を付勢するリターンスプリングと、
前記解放位置から前記係合位置へ前記リターンスプリングの付勢力に抗して前記一対の係合部材を変位させるための電磁駆動手段と、
前記一対の係合部材のいずれか一方の係合部材の前記係合面から出没可能な状態かつ突出方向に付勢された状態で前記一方の係合部材に設けられた中間部材と、を備え、
前記解放位置において、前記中間部材と前記他方の係合部材の前記係合面との間に形成されるギャップが、前記一対の係合部材の前記係合面間に形成されるギャップよりも小さくなるように設定されている、
ことを特徴とする電磁式係合装置。
With the engagement surfaces facing each other, the engagement surfaces are movable relative to each other between a release position where the engagement surfaces are separated from each other and an engagement position where the engagement surfaces are engaged with each other. A pair of disposed engaging members;
A return spring that biases at least one of the pair of engagement members in a direction in which the engagement surfaces are separated from each other;
Electromagnetic drive means for displacing the pair of engagement members against the biasing force of the return spring from the release position to the engagement position;
An intermediate member provided on the one engagement member in a state in which the engagement member can protrude from the engagement surface of one of the pair of engagement members and is biased in a protruding direction. ,
In the release position, a gap formed between the intermediate member and the engagement surface of the other engagement member is smaller than a gap formed between the engagement surfaces of the pair of engagement members. Is set to be
An electromagnetic engagement device.
前記解放位置において、前記中間部材と前記他方の係合部材の前記係合面との間に形成されるギャップが所定値以下に抑制されるように前記中間部材の突出量を規制する規制部材を更に備える、請求項1に記載の電磁式係合装置。   A regulating member that regulates a protruding amount of the intermediate member so that a gap formed between the intermediate member and the engaging surface of the other engaging member is suppressed to a predetermined value or less at the release position; The electromagnetic engagement device according to claim 1, further comprising: 前記中間部材には、前記軸線を中心とした径方向に延びる溝が形成されている、請求項1又は2に記載の電磁式係合装置。   3. The electromagnetic engagement device according to claim 1, wherein a groove extending in a radial direction about the axis is formed in the intermediate member. 前記中間部材の摩擦係数が、前記係合面の摩擦係数よりも小さくなるように設定されている、請求項1〜3のいずれか一項に記載の電磁式係合装置。   The electromagnetic engagement device according to any one of claims 1 to 3, wherein a friction coefficient of the intermediate member is set to be smaller than a friction coefficient of the engagement surface. 前記一方の係合部材は、非回転要素に固定されている、請求項1〜4のいずれか一項に記載の電磁式係合装置。   The electromagnetic engagement device according to any one of claims 1 to 4, wherein the one engagement member is fixed to a non-rotating element. 前記中間部材は、前記軸線に近い中心側よりも前記軸線から遠い外周側に偏るようにして前記一方の係合部材に設けられている、請求項1〜5のいずれか一項に記載の電磁式係合装置。   The electromagnetic according to any one of claims 1 to 5, wherein the intermediate member is provided on the one engaging member so as to be biased toward an outer peripheral side farther from the axis than a center near the axis. Type engagement device.
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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6189527U (en) * 1984-11-20 1986-06-11
JPH031324U (en) * 1989-05-29 1991-01-09
JPH1019064A (en) * 1996-06-28 1998-01-20 Shinko Electric Co Ltd Deenergization actuating type electromagnetic clutch/ brake
JP2002195299A (en) * 2000-08-08 2002-07-10 Ntn Corp Two-way overrunning clutch mechanism

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6189527U (en) * 1984-11-20 1986-06-11
JPH031324U (en) * 1989-05-29 1991-01-09
JPH1019064A (en) * 1996-06-28 1998-01-20 Shinko Electric Co Ltd Deenergization actuating type electromagnetic clutch/ brake
JP2002195299A (en) * 2000-08-08 2002-07-10 Ntn Corp Two-way overrunning clutch mechanism

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