Nothing Special   »   [go: up one dir, main page]

WO2019207914A1 - Shifting device - Google Patents

Shifting device Download PDF

Info

Publication number
WO2019207914A1
WO2019207914A1 PCT/JP2019/005387 JP2019005387W WO2019207914A1 WO 2019207914 A1 WO2019207914 A1 WO 2019207914A1 JP 2019005387 W JP2019005387 W JP 2019005387W WO 2019207914 A1 WO2019207914 A1 WO 2019207914A1
Authority
WO
WIPO (PCT)
Prior art keywords
lever
shift
moderation
engagement
displacement
Prior art date
Application number
PCT/JP2019/005387
Other languages
French (fr)
Japanese (ja)
Inventor
一博 齋藤
雅之 馬場
Original Assignee
株式会社東海理化電機製作所
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 株式会社東海理化電機製作所 filed Critical 株式会社東海理化電機製作所
Publication of WO2019207914A1 publication Critical patent/WO2019207914A1/en

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K20/00Arrangement or mounting of change-speed gearing control devices in vehicles
    • B60K20/02Arrangement or mounting of change-speed gearing control devices in vehicles of initiating means

Definitions

  • the present invention relates to a shift device in which a shift body is moved and a shift position of the shift body is changed.
  • the locking slider guide is provided with a plurality of locking recesses, and the locking recesses and the locking pins of the select lever are engaged so that the select lever is selected. A moving force toward the lever position is applied. Further, the select lever is turned in a state where the separation device releases the engagement between the locking recess and the locking pin.
  • the separation device displaces the locking pin to release the engagement between the locking recess and the locking pin.
  • An object of the present invention is to obtain a shift device that can easily release the engagement between the engagement portion and the engagement member in consideration of the above fact.
  • the shift device includes a shift body that is moved to change a shift position, an installation body that the shift body is relatively moved, and one of the shift body and the installation body.
  • An engagement body provided with an engagement portion, and an engagement provided on the other of the shift body and the installation body and engaged with the engagement portion so that the shift body acts on a shift position side.
  • a member and a moving mechanism that moves the shift body in a state in which the engagement body is displaced to disengage the engagement portion and the engagement member.
  • the engaging member is provided on the installation body so as not to be displaced. For this reason, an engagement member can be easily provided in an installation body.
  • the shift device 10 is installed on a console (vehicle body side) of a vehicle (automobile) and is arranged on the inner side in the vehicle width direction of a driver's seat (not shown) of the vehicle.
  • the left side and the upper side are respectively directed to the front, left side, and upper side of the vehicle.
  • a substantially columnar lever 16 as a shift body is provided in the plate 12.
  • a pair of columnar support shafts 16A are provided at the middle portion of the lever 16 in the vertical direction (longitudinal direction), and the pair of support shafts 16A protrude coaxially on the left side and the right side, respectively.
  • the lever 16 is supported in the plate 12 by a pair of support shafts 16A, and the lever 16 can be rotated (tilted and moved) in the front-rear direction within a predetermined range around the pair of support shafts 16A.
  • a substantially rectangular rotating protrusion 16B as a moving part is integrally provided at the lower and rear end of the left surface of the lever 16, and the rotating protrusion 16B protrudes to the left.
  • the lever 16 extends to the upper side of the plate 12 so as to be pivotable in the front-rear direction, and the upper portion of the lever 16 is disposed in the passenger compartment.
  • a knob (not shown) is provided at the upper end of the lever 16, and the lever 16 can be rotated with a vehicle occupant (especially a driver seated in the driver's seat) holding the knob. Yes.
  • the lever 16 is rotated in the front-rear direction so that the shift position can be changed.
  • the lever 16 moves from the front side to the rear side as a “P” position (parking position, predetermined shift position). ), “R” position (reverse position), “N” position (neutral position), and “D” position (drive position).
  • a substantially rectangular parallelepiped guide hole (not shown) is formed in the lower portion of the lever 16, and the guide hole extends in the vertical direction (longitudinal direction of the lever 16) and is formed on the lower side. It is open.
  • a predetermined number (two in this embodiment) of displacement springs 20 (compression coil springs) as displacement urging members constituting the moderation mechanism are provided above the moderation piece 18.
  • the displacement spring 20 urges the moderation piece 18 downward and protrudes downward of the lever 16.
  • a detection mechanism 22 is provided, and the detection mechanism 22 detects the rotation position of the lever 16 and detects the shift position of the lever 16.
  • the detection mechanism 22 is electrically connected to a vehicle control device 24, and an automatic transmission 26 (transmission) of the vehicle is electrically connected to the control device 24. Under the control of the control device 24, the shift range corresponding to the shift position of the lever 16 is changed.
  • Rotating mechanism 28 as a moving mechanism is provided in plate 12 on the left side of the lower portion of lever 16.
  • the rotating mechanism 28 is provided with a rotor cam 30 having an L-shaped cross section as a moving member, and the rotor cam 30 extends along the rotating circumferential direction of the lever 16.
  • the rotor cam 30 can be rotated (moved) in the rotation circumferential direction of the lever 16, and the rotor cam 30 is disposed at the reference position.
  • the rear end surface as the operating portion of the rotor cam 30 is disposed on the front side of the rotation protrusion 16B of the lever 16, and can rotate even if the lever 16 is rotated between the "P" position and the "D” position.
  • the protrusion 16B cannot be brought into contact with the rear end surface of the rotor cam 30.
  • the upper surface of the upper side wall of the rotor cam 30 is formed as an arrangement surface 30A at the rear, and the arrangement surface 30A extends along the rotation circumferential direction of the lever 16 and is below the displacement protrusion 18A of the moderation piece 18. It arrange
  • the upper surface of the upper side wall of the rotor cam 30 is an inclined surface 30B as a displacement portion on the front side of the arrangement surface 30A, and the inclined surface 30B moves upward (inward in the rotational radial direction of the lever 16) toward the front side. Inclined in the direction.
  • the upper surface of the upper side wall of the rotor cam 30 is a release surface 30C as a release portion on the front side of the inclined surface 30B, and the release surface 30C extends along the rotational circumferential direction of the lever 16 and is disposed on the arrangement surface. It is arranged on the upper side with respect to 30A (inward in the radial direction of the lever 16).
  • a drive mechanism 32 is mechanically connected to the rotor cam 30, and the drive mechanism 32 is electrically connected to the control device 24, and the drive mechanism 32 is driven under the control of the control device 24 to drive the rotor cam 30.
  • the rotor cam 30 is rotated by the driving force of the mechanism 32.
  • the moderation pin 14 is inserted into the recess 18B on the lower surface of the moderation piece 18 by the urging force of the displacement spring 20, and the lever 16 is shifted to each position. Held in position.
  • the lever 16 is pivoted back and forth to change the shift position of the lever 16, the convex portion 18 ⁇ / b> C on the lower surface of the moderation piece 18 gets over the moderation pin 14 against the urging force of the displacement spring 20.
  • a sense of moderation is applied to the turning operation of the lever 16.
  • the release surface 30C of the rotor cam 30 maintains the upward displacement of the displacement protrusion 18A, and the upward displacement of the moderation piece 18 is maintained, whereby the engagement of the lower surface of the moderation piece 18 to the moderation pin 14 is released. Is maintained, so that the lower surface of the moderation piece 18 cannot be brought into contact with the moderation pin 14.
  • the rear end surface of the rotor cam 30 is brought into contact with the rotation protrusion 16B of the lever 16, and the rotation protrusion 16B is rotated rearward, whereby the lever 16 is moved from the shift position other than the “P” position to “P”. To the "" position. For this reason, the shift position of the lever 16 matches the shift range of the automatic transmission 26.
  • the drive mechanism 32 is reversely driven by the control of the control device 24, and the rotor cam 30 is rotated forward. Therefore, the inclined surface 30B of the rotor cam 30 reaches the displacement projection 18A of the moderation piece 18 and allows the displacement projection 18A to be displaced downward, so that the moderation piece 18 is lowered by the biasing force of the displacement spring 20.
  • the lower surface (recessed portion 18 ⁇ / b> B) of the moderation piece 18 is engaged with the moderation pin 14. Further, the rotor cam 30 is rotated (returned) to the reference position.
  • the rotor cam 30 displaces the moderation piece 18 and the engagement of the lower surface of the moderation piece 18 with the moderation pin 14 is released. For this reason, unlike the case where the rotor cam 30 displaces the moderation pin 14, the displacement of the moderation piece 18 causes rattling with respect to the guide hole of the lever 16 by displacing the moderation piece 18 which is enlarged with respect to the moderation pin 14. Therefore, the engagement between the lower surface of the moderation piece 18 and the moderation pin 14 can be easily released.
  • a moderation pin 14 is provided in the plate 12 so as not to be displaced. For this reason, the moderation pin 14 can be easily provided in the plate 12.
  • the moderation pin 14 is made rotatable. For this reason, when the lever 16 is rotated, the resistance that the convex portion 18C on the lower surface of the moderation piece 18 gets over the moderation pin 14 can be reduced, and the feeling of the rotation operation of the lever 16 can be improved.
  • a separate moderation pin 14 is provided in the plate 12.
  • the moderation pin 14 may be integrally formed in the plate 12. Thereby, the number of parts can be reduced and the cost of the shift device 10 can be reduced.
  • FIG. 3 shows a side view of the shift device 50 according to the second embodiment of the present invention as viewed from the left side.
  • FIG. 4 shows a perspective view of the shift device 50 as viewed from the left diagonally rear side. Is shown.
  • the shift device 50 according to the present embodiment has substantially the same configuration as that of the first embodiment, but differs in the following points.
  • a torsion spring 54 as a biasing member constituting a moderation mechanism is stretched between the rotating rod 52 and the inside of the plate 12, and the torsion spring 54 biases the rotating rod 52 upward.
  • the moderation pin 14 of the rotating rod 52 is engaged with the lower surface of the moderation piece 18 of the lever 16.
  • the urging force of the torsion spring 54 to the upper side of the rotating rod 52 is smaller than the urging force of the predetermined number of displacement springs 20 to the lower side of the moderation piece 18.
  • the downward displacement of the piece 18 is regulated by the lever 16.
  • the moderation piece 18 is biased by the displacement spring 20 by the rotor cam 30 of the rotation mechanism 28 as in the first embodiment. It is displaced upward against Further, the upward rotation of the rotating rod 52 by the urging force of the torsion spring 54 is restricted in the plate 12. For this reason, the moderation pin 14 is disengaged from the lower surface of the moderation piece 18 so that the lower surface of the moderation piece 18 cannot be brought into contact with the moderation pin 14.
  • FIG. 5 shows a perspective view of a shift device 60 according to a third embodiment of the present invention as viewed obliquely from the left rear.
  • the moderation pin 14 is supported on the left side of the lower portion of the lever 16 in the plate 12 (not shown in FIGS. 5 to 7).
  • the right surface (tip surface) of 14 is a convex spherical surface on the right side.
  • a substantially curved rectangular columnar moderation piece 18 is fitted in the guide hole 16D, and the moderation piece 18 is curved along the rotational circumferential direction of the lever 16 and is guided by the guide hole 16D to a predetermined range. It is possible to displace (slide) in the left-right direction.
  • a substantially rectangular parallelepiped displacement projection 18A is integrally provided on the rear side of the upper portion of the left surface of the moderation piece 18, and the displacement projection 18A protrudes to the left side, and to the left side as the front surface moves toward the rear side. It is inclined in the direction of heading.
  • a plurality of recesses 18B are formed in the lower part of the left surface of the moderation piece 18, and the recesses 18B are open on the left side.
  • a convex portion 18C is formed between the concave portions 18B, and the convex portion 18C protrudes to the left side.
  • a predetermined number of displacement springs 20 are provided in the lower part of the lever 16 on the right side of the moderation piece 18. The side portion is urged to the left and protrudes to the left of the lever 16.
  • the lower part of the left surface of the moderation piece 18 is engaged with the moderation pin 14 in the plate 12 in the left-right direction (moving width direction of the lever 16) by the urging force of the displacement spring 20, and the lever 16 is disposed at each shift position.
  • the moderation pin 14 is inserted into the recess 18B in the lower left portion of the moderation piece 18 by the urging force of the displacement spring 20, and the lever 16 is acted upon by the rotational force toward each shift position.
  • the convex portion 18 ⁇ / b> C of the lower portion of the left side of the moderation piece 18 resists the urging force of the displacement spring 20. Get over.
  • the operating projection 30D of the rotor cam 30 is brought into contact with the rotating surface 16C of the lever 16 and rotates the rotating surface 16C to the rear side, whereby the lever 16 is moved from the shift position other than the “P” position to “ It is rotated to the “P” position (see FIG. 7).
  • a separate moderation pin 14 is provided in the plate 12.
  • the moderation pin 14 may be integrally formed in the plate 12. Thereby, the number of parts can be reduced and the cost of the shift device 10 can be reduced.
  • one moderation pin 14 is provided.
  • a plurality of moderation pins 14 may be provided. Thereby, the engagement pressure between the lower surface of the moderation piece 18 or the lower left surface portion and the moderation pin 14 can be reduced, and the wear of the lower surface of the moderation piece 18 or the lower left surface portion and the moderation pin 14 can be reduced.
  • the rotor cam 30 (moving member) is made rotatable in the rotating mechanism 28 (moving mechanism) to rotate the lever 16.
  • the moving member may be allowed to move linearly (slidably) in the moving mechanism to rotate the lever 16.
  • the lever 16 (shift body) is rotatable.
  • the shift body may be rotatable or slidable around the central axis.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Arrangement Or Mounting Of Control Devices For Change-Speed Gearing (AREA)

Abstract

In the shifting device, when a rotor cam causes a lever to pivot from a shift position other than "P" to the "P" position, engagement between a lower surface of a detent piece and a detent pin is released. Specifically, the rotor cam displaces the detent piece, and the engagement between the lower surface of the detent piece and the detent pin is released. Therefore, it is possible to easily release the engagement between the lower surface of the detent piece and the detent pin.

Description

シフト装置Shift device
 本発明は、シフト体が移動されてシフト体のシフト位置が変更されるシフト装置に関する。 The present invention relates to a shift device in which a shift body is moved and a shift position of the shift body is changed.
 特表2010-522115号公報に記載の操作装置では、係止スライダガイドに複数の係止凹部が設けられており、係止凹部とセレクトレバーの係止ピンとが係合されて、セレクトレバーがセレクトレバー位置側への移動力を作用される。また、分離装置が係止凹部と係止ピンとの係合を解除した状態で、セレクトレバーが旋回される。 In the operating device described in JP-T-2010-522115, the locking slider guide is provided with a plurality of locking recesses, and the locking recesses and the locking pins of the select lever are engaged so that the select lever is selected. A moving force toward the lever position is applied. Further, the select lever is turned in a state where the separation device releases the engagement between the locking recess and the locking pin.
 ここで、この操作装置では、分離装置が、係止ピンを変位させて、係止凹部と係止ピンとの係合を解除する。 Here, in this operating device, the separation device displaces the locking pin to release the engagement between the locking recess and the locking pin.
 本発明は、上記事実を考慮し、係合部と係合部材との係合を容易に解除できるシフト装置を得ることが目的である。 An object of the present invention is to obtain a shift device that can easily release the engagement between the engagement portion and the engagement member in consideration of the above fact.
 本発明の第1態様のシフト装置は、移動されてシフト位置が変更されるシフト体と、前記シフト体が相対移動される設置体と、前記シフト体及び前記設置体の一方に設けられ、複数の係合部が設けられる係合体と、前記シフト体及び前記設置体の他方に設けられ、前記係合部と係合されて前記シフト体がシフト位置側への移動力を作用される係合部材と、前記係合体を変位させて前記係合部と前記係合部材との係合が解除される状態で前記シフト体を移動させる移動機構と、を備える。 The shift device according to the first aspect of the present invention includes a shift body that is moved to change a shift position, an installation body that the shift body is relatively moved, and one of the shift body and the installation body. An engagement body provided with an engagement portion, and an engagement provided on the other of the shift body and the installation body and engaged with the engagement portion so that the shift body acts on a shift position side. A member and a moving mechanism that moves the shift body in a state in which the engagement body is displaced to disengage the engagement portion and the engagement member.
 本発明の第2態様のシフト装置は、本発明の第1態様のシフト装置において、前記シフト体に前記係合体が変位可能に設けられる。 The shift device according to the second aspect of the present invention is the shift device according to the first aspect of the present invention, in which the engaging body is movably provided on the shift body.
 本発明の第3態様のシフト装置は、本発明の第1態様又は第2態様のシフト装置において、前記設置体に前記係合部材が変位不能に設けられる。 The shift device according to the third aspect of the present invention is the shift device according to the first or second aspect of the present invention, wherein the engaging member is provided on the installation body so as not to be displaced.
 本発明の第1態様のシフト装置では、シフト体が設置体に対し移動されて、シフト体のシフト位置が変更される。さらに、シフト体及び設置体の一方の係合体に複数の係合部が設けられると共に、シフト体及び設置体の他方に係合部材が設けられており、係合部と係合部材とが係合されて、シフト体がシフト位置側への移動力を作用される。また、係合部と係合部材との係合が解除される状態で、移動機構がシフト体を移動させる。 In the shift device of the first aspect of the present invention, the shift body is moved relative to the installation body, and the shift position of the shift body is changed. In addition, a plurality of engaging portions are provided in one engaging body of the shift body and the installation body, and an engaging member is provided in the other of the shift body and the installation body, and the engaging portion and the engaging member are engaged. As a result, the shift body is subjected to a moving force toward the shift position. Further, the moving mechanism moves the shift body in a state where the engagement between the engagement portion and the engagement member is released.
 ここで、移動機構が係合体を変位させて、係合部と係合部材との係合が解除される。このため、係合体が係合部材に対し大型にされることで、係合体の変位にガタツキが発生することを抑制でき、係合部と係合部材との係合を容易に解除できる。 Here, the moving mechanism displaces the engagement body, and the engagement between the engagement portion and the engagement member is released. For this reason, when the engagement body is made larger than the engagement member, it is possible to suppress the occurrence of rattling in the displacement of the engagement body, and the engagement between the engagement portion and the engagement member can be easily released.
 本発明の第2態様のシフト装置では、シフト体に係合体が変位可能に設けられる。このため、係合体の変位スペースをシフト体に設けることができ、小型化できる。 In the shift device according to the second aspect of the present invention, the engagement body is provided in a displaceable manner on the shift body. For this reason, the displacement space of an engagement body can be provided in a shift body, and it can reduce in size.
 本発明の第3態様のシフト装置では、設置体に係合部材が変位不能に設けられる。このため、設置体に係合部材を容易に設けることができる。 In the shift device according to the third aspect of the present invention, the engaging member is provided on the installation body so as not to be displaced. For this reason, an engagement member can be easily provided in an installation body.
本発明の第1実施形態に係るシフト装置を示す左方から見た側面図である。It is the side view seen from the left which shows the shift device concerning a 1st embodiment of the present invention. 本発明の第1実施形態に係るシフト装置を示す左斜め後方から見た斜視図である。It is the perspective view seen from the left diagonal back which shows the shift apparatus which concerns on 1st Embodiment of this invention. 本発明の第2実施形態に係るシフト装置を示す左方から見た側面図である。It is the side view seen from the left which shows the shift apparatus which concerns on 2nd Embodiment of this invention. 本発明の第2実施形態に係るシフト装置を示す左斜め後方から見た斜視図である。It is the perspective view seen from the left diagonal back which shows the shift apparatus which concerns on 2nd Embodiment of this invention. 本発明の第3実施形態に係るシフト装置においてレバーが「P」位置に配置される際を示す左斜め後方から見た斜視図である。It is the perspective view seen from the diagonally left back which shows when the lever is arrange | positioned in the "P" position in the shift device which concerns on 3rd Embodiment of this invention. 本発明の第3実施形態に係るシフト装置においてレバーが「D」位置に配置される際を示す左斜め後方から見た斜視図である。It is the perspective view seen from the diagonally left back which shows when the lever is arrange | positioned in the "D" position in the shift device which concerns on 3rd Embodiment of this invention. 本発明の第3実施形態に係るシフト装置において回動機構がレバーを「P」位置に回動させた際を示す左斜め後方から見た斜視図である。It is the perspective view seen from the diagonally left rear which shows the time of the turning mechanism turning the lever to the “P” position in the shift device according to the third embodiment of the present invention.
 [第1実施形態]
 図1には、本発明の第1実施形態に係るシフト装置10が左方から見た側面図にて示されており、図2には、シフト装置10が左斜め後方から見た斜視図にて示されている。なお、図面では、シフト装置10の前方を矢印FRで示し、シフト装置10の左方を矢印LHで示し、シフト装置10の上方を矢印UPで示す。
[First Embodiment]
FIG. 1 is a side view of the shift device 10 according to the first embodiment of the present invention as viewed from the left side. FIG. 2 is a perspective view of the shift device 10 as viewed from the left rear side. Is shown. In the drawing, the front of the shift device 10 is indicated by an arrow FR, the left side of the shift device 10 is indicated by an arrow LH, and the upper side of the shift device 10 is indicated by an arrow UP.
 本実施形態に係るシフト装置10は、車両(自動車)のコンソール(車体側)に設置されて、車両の運転席(図示省略)の車幅方向内側に配置されており、シフト装置10の前方、左方及び上方は、それぞれ車両の前方、左方及び上方に向けられている。 The shift device 10 according to the present embodiment is installed on a console (vehicle body side) of a vehicle (automobile) and is arranged on the inner side in the vehicle width direction of a driver's seat (not shown) of the vehicle. The left side and the upper side are respectively directed to the front, left side, and upper side of the vehicle.
 図1及び図2に示す如く、シフト装置10には、設置体としての略直方体形箱状のプレート12が設けられており、プレート12は、コンソール内に固定されている。プレート12内の下端部には、節度機構を構成する係合部材としての円柱状の節度ピン14が支持されており、節度ピン14は、プレート12に対し変位不能にされている。節度ピン14の中心軸線は、左右方向に平行にされており、節度ピン14は、中心軸線周りに回転可能にされている。 As shown in FIGS. 1 and 2, the shift device 10 is provided with a substantially rectangular box-shaped plate 12 as an installation body, and the plate 12 is fixed in the console. A columnar moderation pin 14 as an engaging member constituting the moderation mechanism is supported at the lower end portion in the plate 12, and the moderation pin 14 is not displaceable with respect to the plate 12. The central axis of the moderation pin 14 is parallel to the left-right direction, and the moderation pin 14 is rotatable around the central axis.
 プレート12内には、シフト体としての略柱状のレバー16が設けられている。レバー16の上下方向(長手方向)中間部には、円柱状の支持軸16Aが一対設けられており、一対の支持軸16Aは、それぞれ左側及び右側に同軸上に突出されている。レバー16は、一対の支持軸16Aにおいてプレート12内に支持されており、レバー16は、一対の支持軸16Aを中心として所定範囲で前後方向に回動(傾動、移動)可能にされている。レバー16の左面の下側かつ後側の端部には、移動部しての略矩形状の回動突起16Bが一体に設けられており、回動突起16Bは、左側に突出されている。 In the plate 12, a substantially columnar lever 16 as a shift body is provided. A pair of columnar support shafts 16A are provided at the middle portion of the lever 16 in the vertical direction (longitudinal direction), and the pair of support shafts 16A protrude coaxially on the left side and the right side, respectively. The lever 16 is supported in the plate 12 by a pair of support shafts 16A, and the lever 16 can be rotated (tilted and moved) in the front-rear direction within a predetermined range around the pair of support shafts 16A. A substantially rectangular rotating protrusion 16B as a moving part is integrally provided at the lower and rear end of the left surface of the lever 16, and the rotating protrusion 16B protrudes to the left.
 レバー16は、プレート12の上側に前後方向に回動可能に延出されており、レバー16の上側部分は、車室に配置されている。レバー16の上端部には、ノブ(図示省略)が設けられており、レバー16は、車両の乗員(特に運転席に着座する運転手)がノブを把持した状態で回動操作可能にされている。レバー16は、前後方向に回動操作されて、シフト位置を変更可能にされており、レバー16は、前側から後側に向けて、シフト位置としての「P」位置(パーキング位置、所定シフト位置)、「R」位置(リバース位置)、「N」位置(ニュートラル位置)、「D」位置(ドライブ位置)に配置可能にされている。 The lever 16 extends to the upper side of the plate 12 so as to be pivotable in the front-rear direction, and the upper portion of the lever 16 is disposed in the passenger compartment. A knob (not shown) is provided at the upper end of the lever 16, and the lever 16 can be rotated with a vehicle occupant (especially a driver seated in the driver's seat) holding the knob. Yes. The lever 16 is rotated in the front-rear direction so that the shift position can be changed. The lever 16 moves from the front side to the rear side as a “P” position (parking position, predetermined shift position). ), “R” position (reverse position), “N” position (neutral position), and “D” position (drive position).
 レバー16の下部内には、案内部としての略直方体状の案内孔(図示省略)が形成されており、案内孔は、上下方向(レバー16の長手方向)に延伸されると共に、下側に開放されている。 A substantially rectangular parallelepiped guide hole (not shown) is formed in the lower portion of the lever 16, and the guide hole extends in the vertical direction (longitudinal direction of the lever 16) and is formed on the lower side. It is open.
 案内孔には、節度機構を構成する係合体としての略直方体状の節度ピース18が嵌合されており、節度ピース18は、案内孔に案内されて所定範囲で上下方向に変位(スライド)可能にされている。節度ピース18の左面の前後方向中央部には、被変位部としての略矩形柱状の変位突起18Aが一体に設けられており、変位突起18Aは、レバー16の左側に上下方向に変位可能に突出されると共に、下面が下側に凸状に湾曲されている。 A substantially rectangular parallelepiped moderation piece 18 as an engaging body constituting the moderation mechanism is fitted in the guide hole, and the moderation piece 18 is guided by the guide hole and can be displaced (slid) vertically within a predetermined range. Has been. A displacement projection 18A having a substantially rectangular column shape as a displaced portion is integrally provided at the center in the front-rear direction of the left surface of the moderation piece 18, and the displacement projection 18A protrudes on the left side of the lever 16 so as to be displaced in the vertical direction. In addition, the lower surface is curved convexly downward.
 節度ピース18の下面には、係合部としての断面略三角形状の凹部18Bが複数(本実施形態では4個)形成されており、複数の凹部18Bは、レバー16の回動周方向に等間隔に配置されると共に、それぞれ下側、左側及び右側に開放されている。節度ピース18の下面には、各凹部18B間において、断面略三角形状の凸部18Cが形成されており、凸部18Cの下面は、下側に凸状に湾曲されている。 On the lower surface of the moderation piece 18, a plurality of recesses 18 </ b> B (four in this embodiment) as an engaging portion are formed, and the plurality of recesses 18 </ b> B are arranged in the circumferential direction of the lever 16. They are arranged at intervals and open to the lower side, the left side and the right side, respectively. On the lower surface of the moderation piece 18, a convex portion 18C having a substantially triangular cross section is formed between the concave portions 18B, and the lower surface of the convex portion 18C is curved in a convex shape downward.
 レバー16の下部内には、節度ピース18の上側において、節度機構を構成する変位付勢部材としての変位スプリング20(圧縮コイルスプリング)が所定数(本実施形態では2個)設けられており、変位スプリング20は、節度ピース18を下側に付勢してレバー16の下側に突出させている。 In the lower part of the lever 16, a predetermined number (two in this embodiment) of displacement springs 20 (compression coil springs) as displacement urging members constituting the moderation mechanism are provided above the moderation piece 18. The displacement spring 20 urges the moderation piece 18 downward and protrudes downward of the lever 16.
 節度ピース18の下面は、変位スプリング20の付勢力によりプレート12内の節度ピン14に係合(接触)されており、レバー16が各シフト位置(「P」位置、「R」位置、「N」位置、「D」位置)に配置される際には、変位スプリング20の付勢力により節度ピース18下面の凹部18Bに節度ピン14が挿入されて、レバー16が各シフト位置側への回動力(付勢力)を作用される。レバー16が前後方向に回動操作されて、レバー16のシフト位置が変更される際には、変位スプリング20の付勢力に抗して節度ピース18下面の凸部18Cが節度ピン14を乗越える。 The lower surface of the moderation piece 18 is engaged (contacted) with the moderation pin 14 in the plate 12 by the urging force of the displacement spring 20, and the lever 16 is in each shift position (“P” position, “R” position, “N” ”Position,“ D ”position), the moderation pin 14 is inserted into the recess 18B on the lower surface of the moderation piece 18 by the urging force of the displacement spring 20, and the lever 16 rotates to each shift position side. Acted (biasing force). When the lever 16 is pivoted back and forth to change the shift position of the lever 16, the convex portion 18 </ b> C on the lower surface of the moderation piece 18 gets over the moderation pin 14 against the urging force of the displacement spring 20. .
 プレート12内には、検出機構22が設けられており、検出機構22は、レバー16の回動位置を検出して、レバー16のシフト位置を検出する。検出機構22は、車両の制御装置24に電気的に接続されると共に、制御装置24には、車両の自動変速機26(変速機)が電気的に接続されており、自動変速機26は、制御装置24の制御により、レバー16のシフト位置に対応したシフトレンジに変更される。 In the plate 12, a detection mechanism 22 is provided, and the detection mechanism 22 detects the rotation position of the lever 16 and detects the shift position of the lever 16. The detection mechanism 22 is electrically connected to a vehicle control device 24, and an automatic transmission 26 (transmission) of the vehicle is electrically connected to the control device 24. Under the control of the control device 24, the shift range corresponding to the shift position of the lever 16 is changed.
 プレート12内には、レバー16の下部の左側において、移動機構としての回動機構28が設けられている。 Rotating mechanism 28 as a moving mechanism is provided in plate 12 on the left side of the lower portion of lever 16.
 回動機構28には、移動部材としての断面L字形板状のロータカム30が設けられており、ロータカム30は、レバー16の回動周方向に沿って延伸されている。ロータカム30は、レバー16の回動周方向に回転(移動)可能にされており、ロータカム30は、基準位置に配置されている。ロータカム30の作動部としての後端面は、レバー16の回動突起16Bの前側に配置されており、レバー16が「P」位置と「D」位置との間で回動されても、回動突起16Bがロータカム30の後端面に当接不能にされている。 The rotating mechanism 28 is provided with a rotor cam 30 having an L-shaped cross section as a moving member, and the rotor cam 30 extends along the rotating circumferential direction of the lever 16. The rotor cam 30 can be rotated (moved) in the rotation circumferential direction of the lever 16, and the rotor cam 30 is disposed at the reference position. The rear end surface as the operating portion of the rotor cam 30 is disposed on the front side of the rotation protrusion 16B of the lever 16, and can rotate even if the lever 16 is rotated between the "P" position and the "D" position. The protrusion 16B cannot be brought into contact with the rear end surface of the rotor cam 30.
 ロータカム30の上側壁の上面は、後部において、配置面30Aにされており、配置面30Aは、レバー16の回動周方向に沿って延伸されると共に、節度ピース18の変位突起18Aの下側(レバー16の回動径方向外側)に配置されている。ロータカム30の上側壁の上面は、配置面30Aの前側において、変位部としての傾斜面30Bにされており、傾斜面30Bは、前側へ向かうに従い上側(レバー16の回動径方向内側)へ向かう方向に傾斜されている。ロータカム30の上側壁の上面は、傾斜面30Bの前側において、解除部としての解除面30Cにされており、解除面30Cは、レバー16の回動周方向に沿って延伸されると共に、配置面30Aに対し上側(レバー16の回動径方向内側)に配置されている。 The upper surface of the upper side wall of the rotor cam 30 is formed as an arrangement surface 30A at the rear, and the arrangement surface 30A extends along the rotation circumferential direction of the lever 16 and is below the displacement protrusion 18A of the moderation piece 18. It arrange | positions (the rotation radial direction outer side of the lever 16). The upper surface of the upper side wall of the rotor cam 30 is an inclined surface 30B as a displacement portion on the front side of the arrangement surface 30A, and the inclined surface 30B moves upward (inward in the rotational radial direction of the lever 16) toward the front side. Inclined in the direction. The upper surface of the upper side wall of the rotor cam 30 is a release surface 30C as a release portion on the front side of the inclined surface 30B, and the release surface 30C extends along the rotational circumferential direction of the lever 16 and is disposed on the arrangement surface. It is arranged on the upper side with respect to 30A (inward in the radial direction of the lever 16).
 ロータカム30には、駆動機構32が機械的に接続されると共に、駆動機構32は、制御装置24に電気的に接続されており、制御装置24の制御により、駆動機構32が駆動されて、駆動機構32の駆動力によりロータカム30が回転される。 A drive mechanism 32 is mechanically connected to the rotor cam 30, and the drive mechanism 32 is electrically connected to the control device 24, and the drive mechanism 32 is driven under the control of the control device 24 to drive the rotor cam 30. The rotor cam 30 is rotated by the driving force of the mechanism 32.
 次に、本実施形態の作用を説明する。 Next, the operation of this embodiment will be described.
 以上の構成のシフト装置10では、レバー16が各シフト位置に配置される際に、変位スプリング20の付勢力により節度ピース18下面の凹部18Bに節度ピン14が挿入されて、レバー16が各シフト位置に保持される。レバー16が前後方向に回動操作されて、レバー16のシフト位置が変更される際には、変位スプリング20の付勢力に抗して節度ピース18下面の凸部18Cが節度ピン14を乗越えることで、レバー16の回動操作に節度感が作用される。 In the shift device 10 configured as described above, when the lever 16 is disposed at each shift position, the moderation pin 14 is inserted into the recess 18B on the lower surface of the moderation piece 18 by the urging force of the displacement spring 20, and the lever 16 is shifted to each position. Held in position. When the lever 16 is pivoted back and forth to change the shift position of the lever 16, the convex portion 18 </ b> C on the lower surface of the moderation piece 18 gets over the moderation pin 14 against the urging force of the displacement spring 20. Thus, a sense of moderation is applied to the turning operation of the lever 16.
 ところで、レバー16が「P」位置以外のシフト位置(例えば「D」位置)に配置される際における所定の機会(例えば車両のエンジンが停止された場合)には、制御装置24の制御により、自動変速機26のシフトレンジが自動的に「P」レンジに変更される。 By the way, at a predetermined opportunity (for example, when the engine of the vehicle is stopped) when the lever 16 is arranged at a shift position (for example, “D” position) other than the “P” position, The shift range of the automatic transmission 26 is automatically changed to the “P” range.
 ここで、レバー16が「P」位置以外のシフト位置(例えば「D」位置)に配置される際における所定の機会には、回動機構28において、制御装置24の制御により、駆動機構32が正駆動されて、ロータカム30が後側に回転される。このため、ロータカム30の傾斜面30Bが、節度ピース18の変位突起18Aに当接して、変位突起18Aを上側に変位させることで、節度ピース18が変位スプリング20の付勢力に抗して上側に変位されて、節度ピース18下面の節度ピン14への係合が解除される。そして、ロータカム30の解除面30Cが変位突起18Aの上側への変位を維持して、節度ピース18の上側への変位が維持されることで、節度ピース18下面の節度ピン14への係合解除が維持されて、節度ピース18の下面が節度ピン14に当接不能にされる。 Here, at a predetermined opportunity when the lever 16 is disposed at a shift position (for example, “D” position) other than the “P” position, the drive mechanism 32 is controlled by the control device 24 in the rotation mechanism 28. The rotor cam 30 is rotated rearward by being driven forward. Therefore, the inclined surface 30B of the rotor cam 30 abuts on the displacement protrusion 18A of the moderation piece 18 and displaces the displacement protrusion 18A upward, so that the moderation piece 18 resists the biasing force of the displacement spring 20 and moves upward. By being displaced, the engagement of the lower surface of the moderation piece 18 with the moderation pin 14 is released. Then, the release surface 30C of the rotor cam 30 maintains the upward displacement of the displacement protrusion 18A, and the upward displacement of the moderation piece 18 is maintained, whereby the engagement of the lower surface of the moderation piece 18 to the moderation pin 14 is released. Is maintained, so that the lower surface of the moderation piece 18 cannot be brought into contact with the moderation pin 14.
 さらに、ロータカム30の後端面が、レバー16の回動突起16Bに当接されて、回動突起16Bを後側に回動させることで、レバー16が「P」位置以外のシフト位置から「P」位置に回動される。このため、レバー16のシフト位置が自動変速機26のシフトレンジに一致される。 Further, the rear end surface of the rotor cam 30 is brought into contact with the rotation protrusion 16B of the lever 16, and the rotation protrusion 16B is rotated rearward, whereby the lever 16 is moved from the shift position other than the “P” position to “P”. To the "" position. For this reason, the shift position of the lever 16 matches the shift range of the automatic transmission 26.
 また、レバー16が「P」位置に回動された際には、制御装置24の制御により、駆動機構32が逆駆動されて、ロータカム30が前側に回転される。このため、ロータカム30の傾斜面30Bが、節度ピース18の変位突起18Aに到達して、変位突起18Aの下側への変位を許容することで、節度ピース18が変位スプリング20の付勢力により下側に変位されて、節度ピース18の下面(凹部18B)が節度ピン14に係合される。さらに、ロータカム30が基準位置に回転(復帰)される。 Further, when the lever 16 is rotated to the “P” position, the drive mechanism 32 is reversely driven by the control of the control device 24, and the rotor cam 30 is rotated forward. Therefore, the inclined surface 30B of the rotor cam 30 reaches the displacement projection 18A of the moderation piece 18 and allows the displacement projection 18A to be displaced downward, so that the moderation piece 18 is lowered by the biasing force of the displacement spring 20. The lower surface (recessed portion 18 </ b> B) of the moderation piece 18 is engaged with the moderation pin 14. Further, the rotor cam 30 is rotated (returned) to the reference position.
 このように、回動機構28によりレバー16が「P」位置以外のシフト位置から「P」位置に回動される際には、節度ピース18下面の節度ピン14への係合が解除されて、節度ピース18の下面が節度ピン14に当接不能にされる。このため、節度ピース18の下面(凹部18B及び凸部18C)が節度ピン14に係合してレバー16の回動速度が変動することを制限でき、レバー16の回動速度を安定させることができて、レバー16を滑らかに回動させることができる。さらに、節度ピース18下面(凹部18B及び凸部18C)の節度ピン14への係合による音の発生を制限でき、レバー16を回動させる際における作動音を低減できる。 As described above, when the lever 16 is rotated from the shift position other than the “P” position to the “P” position by the rotation mechanism 28, the engagement with the moderation pin 14 on the lower surface of the moderation piece 18 is released. The lower surface of the moderation piece 18 cannot be brought into contact with the moderation pin 14. For this reason, it can restrict | limit that the lower surface (recessed part 18B and convex part 18C) of the moderation piece 18 engages the moderation pin 14, and the rotation speed of the lever 16 can be fluctuate | varied, and the rotation speed of the lever 16 can be stabilized. The lever 16 can be smoothly rotated. Furthermore, the generation of sound due to the engagement of the lower surface of the moderation piece 18 (the concave portion 18B and the convex portion 18C) with the moderation pin 14 can be restricted, and the operating noise when the lever 16 is rotated can be reduced.
 また、回動機構28では、ロータカム30が節度ピース18を変位させて、節度ピース18下面の節度ピン14への係合が解除される。このため、ロータカム30が節度ピン14を変位させる場合とは異なり、節度ピン14に対し大型にされる節度ピース18を変位させることで、節度ピース18の変位にレバー16の案内孔に対するガタツキが発生することを抑制でき、節度ピース18の下面と節度ピン14との係合を容易に解除できる。 Further, in the rotation mechanism 28, the rotor cam 30 displaces the moderation piece 18 and the engagement of the lower surface of the moderation piece 18 with the moderation pin 14 is released. For this reason, unlike the case where the rotor cam 30 displaces the moderation pin 14, the displacement of the moderation piece 18 causes rattling with respect to the guide hole of the lever 16 by displacing the moderation piece 18 which is enlarged with respect to the moderation pin 14. Therefore, the engagement between the lower surface of the moderation piece 18 and the moderation pin 14 can be easily released.
 さらに、レバー16の案内孔に節度ピース18が変位可能に設けられている。このため、節度ピース18の変位スペースをレバー16内に設けることができ、レバー16の外側における節度ピース18の変位スペースを小さくできて、シフト装置10を小型化できる。 Furthermore, a moderation piece 18 is provided in the guide hole of the lever 16 so as to be displaceable. For this reason, the displacement space of the moderation piece 18 can be provided in the lever 16, the displacement space of the moderation piece 18 outside the lever 16 can be reduced, and the shift device 10 can be miniaturized.
 また、プレート12内に節度ピン14が変位不能に設けられている。このため、プレート12内に節度ピン14を容易に設けることができる。 Further, a moderation pin 14 is provided in the plate 12 so as not to be displaced. For this reason, the moderation pin 14 can be easily provided in the plate 12.
 さらに、節度ピン14が回転可能にされている。このため、レバー16が回動操作される際に、節度ピース18下面の凸部18Cが節度ピン14を乗越える抵抗を低減でき、レバー16の回動操作のフィーリングを向上できる。 Furthermore, the moderation pin 14 is made rotatable. For this reason, when the lever 16 is rotated, the resistance that the convex portion 18C on the lower surface of the moderation piece 18 gets over the moderation pin 14 can be reduced, and the feeling of the rotation operation of the lever 16 can be improved.
 なお、本実施形態では、プレート12内に別体の節度ピン14を設けた。しかしながら、プレート12内に節度ピン14を一体に成形してもよい。これにより、部品点数を低減できて、シフト装置10のコストを低減できる。 In this embodiment, a separate moderation pin 14 is provided in the plate 12. However, the moderation pin 14 may be integrally formed in the plate 12. Thereby, the number of parts can be reduced and the cost of the shift device 10 can be reduced.
 [第2実施形態]
 図3には、本発明の第2実施形態に係るシフト装置50が左方から見た側面図にて示されており、図4には、シフト装置50が左斜め後方から見た斜視図にて示されている。
[Second Embodiment]
FIG. 3 shows a side view of the shift device 50 according to the second embodiment of the present invention as viewed from the left side. FIG. 4 shows a perspective view of the shift device 50 as viewed from the left diagonally rear side. Is shown.
 本実施形態に係るシフト装置50は、上記第1実施形態と、ほぼ同様の構成であるが、以下の点で異なる。 The shift device 50 according to the present embodiment has substantially the same configuration as that of the first embodiment, but differs in the following points.
 図3及び図4に示す如く、本実施形態に係るシフト装置50では、プレート12内の下端部に、節度機構を構成する変位部材としての略棒状の回動棒52が前端部において支持されており、回動棒52は、前端部を中心として所定範囲で上下方向に回動(変位)可能にされている。回動棒52の後側かつ上側の端部には、節度ピン14が支持されており、節度ピン14は、中心軸線周りに回転可能にされている。 As shown in FIGS. 3 and 4, in the shift device 50 according to the present embodiment, a substantially rod-shaped rotating rod 52 as a displacement member constituting the moderation mechanism is supported at the front end portion at the lower end portion in the plate 12. The rotating rod 52 can be rotated (displaced) in the vertical direction within a predetermined range around the front end. A moderation pin 14 is supported on the rear and upper end of the rotation rod 52, and the moderation pin 14 is rotatable about the central axis.
 回動棒52とプレート12内との間には、節度機構を構成する付勢部材としてのトーションスプリング54が掛渡されており、トーションスプリング54は、回動棒52を上側に付勢して、回動棒52の節度ピン14をレバー16の節度ピース18下面に係合させている。トーションスプリング54による回動棒52の上側への付勢力は、所定数の変位スプリング20による節度ピース18の下側への付勢力より小さくされており、所定数の変位スプリング20の付勢力による節度ピース18の下側への変位は、レバー16によって規制されている。 A torsion spring 54 as a biasing member constituting a moderation mechanism is stretched between the rotating rod 52 and the inside of the plate 12, and the torsion spring 54 biases the rotating rod 52 upward. The moderation pin 14 of the rotating rod 52 is engaged with the lower surface of the moderation piece 18 of the lever 16. The urging force of the torsion spring 54 to the upper side of the rotating rod 52 is smaller than the urging force of the predetermined number of displacement springs 20 to the lower side of the moderation piece 18. The downward displacement of the piece 18 is regulated by the lever 16.
 ところで、レバー16が各シフト位置に配置される際には、トーションスプリング54の付勢力により回動棒52の節度ピン14が節度ピース18下面の凹部18Bに挿入されて、レバー16が各シフト位置に保持される。レバー16が前後方向に回動操作されて、レバー16のシフト位置が変更される際には、トーションスプリング54の付勢力に抗して回動棒52が下側に回動されて、節度ピース18下面の凸部18Cが回動棒52の節度ピン14を乗越えることで、レバー16の回動操作に節度感が作用される。 By the way, when the lever 16 is arranged at each shift position, the moderation pin 14 of the rotating rod 52 is inserted into the recess 18B on the lower surface of the moderation piece 18 by the urging force of the torsion spring 54, and the lever 16 is moved to each shift position. Retained. When the lever 16 is rotated in the front-rear direction and the shift position of the lever 16 is changed, the rotating rod 52 is rotated downward against the urging force of the torsion spring 54, and the moderation piece When the convex portion 18 </ b> C on the lower surface of the 18 moves over the moderation pin 14 of the rotation rod 52, a moderation feeling is applied to the rotation operation of the lever 16.
 レバー16が「P」位置以外のシフト位置に配置される際における所定の機会には、上記第1実施形態と同様に、回動機構28のロータカム30により節度ピース18が変位スプリング20の付勢力に抗して上側に変位される。さらに、トーションスプリング54の付勢力による回動棒52の上側への回動がプレート12内において規制される。このため、節度ピン14の節度ピース18下面への係合が解除されて、節度ピース18の下面が節度ピン14に当接不能にされる。 At a predetermined opportunity when the lever 16 is disposed at a shift position other than the “P” position, the moderation piece 18 is biased by the displacement spring 20 by the rotor cam 30 of the rotation mechanism 28 as in the first embodiment. It is displaced upward against Further, the upward rotation of the rotating rod 52 by the urging force of the torsion spring 54 is restricted in the plate 12. For this reason, the moderation pin 14 is disengaged from the lower surface of the moderation piece 18 so that the lower surface of the moderation piece 18 cannot be brought into contact with the moderation pin 14.
 ここで、本実施形態でも、プレート12内に節度ピン14が変位不能に設けられることによる作用及び効果を除き、上記第1実施形態と同様の作用及び効果を奏することができる。 Here, also in this embodiment, the same operations and effects as those of the first embodiment can be obtained except for the operations and effects due to the moderation pins 14 being provided in the plate 12 so as not to be displaced.
 [第3実施形態]
 図5には、本発明の第3実施形態に係るシフト装置60が左斜め後方から見た斜視図にて示されている。
[Third Embodiment]
FIG. 5 shows a perspective view of a shift device 60 according to a third embodiment of the present invention as viewed obliquely from the left rear.
 本実施形態に係るシフト装置60は、上記第1実施形態と、ほぼ同様の構成であるが、以下の点で異なる。 The shift device 60 according to the present embodiment has substantially the same configuration as that of the first embodiment, but differs in the following points.
 図5に示す如く、本実施形態に係るシフト装置60では、プレート12(図5~図7では図示省略)内に、レバー16の下部の左側において、節度ピン14が支持されており、節度ピン14の右面(先端面)は、右側に凸状の球面にされている。 As shown in FIG. 5, in the shift device 60 according to the present embodiment, the moderation pin 14 is supported on the left side of the lower portion of the lever 16 in the plate 12 (not shown in FIGS. 5 to 7). The right surface (tip surface) of 14 is a convex spherical surface on the right side.
 レバー16の下部の前面及び後面は、レバー16の回動径方向に沿って配置されており、レバー16の下部の前面は、移動部しての回動面16Cにされている。レバー16の下部内には、案内部としての略湾曲矩形柱状の案内孔16Dが形成されており、案内孔16Dは、レバー16の回動周方向に沿って湾曲されると共に、左右方向(レバー16の回動軸方向)に延伸されて左側に開放されている。 The front surface and the rear surface of the lower portion of the lever 16 are arranged along the rotational radial direction of the lever 16, and the front surface of the lower portion of the lever 16 is a rotating surface 16C as a moving portion. A substantially curved rectangular columnar guide hole 16D as a guide portion is formed in the lower portion of the lever 16, and the guide hole 16D is curved along the rotation circumferential direction of the lever 16 and is also provided in the left-right direction (lever 16 (rotating shaft direction) and open to the left.
 案内孔16Dには、略湾曲矩形柱状の節度ピース18が嵌合されており、節度ピース18は、レバー16の回動周方向に沿って湾曲されると共に、案内孔16Dに案内されて所定範囲で左右方向に変位(スライド)可能にされている。節度ピース18の左面上側部分の後側部には、略直方体状の変位突起18Aが一体に設けられており、変位突起18Aは、左側に突出されると共に、前面が後側へ向かうに従い左側へ向かう方向に傾斜されている。節度ピース18の左面下側部分には、複数の凹部18Bが形成されており、凹部18Bは、左側に開放されている。各凹部18B間には、凸部18Cが形成されており、凸部18Cは、左側に突出されている。 A substantially curved rectangular columnar moderation piece 18 is fitted in the guide hole 16D, and the moderation piece 18 is curved along the rotational circumferential direction of the lever 16 and is guided by the guide hole 16D to a predetermined range. It is possible to displace (slide) in the left-right direction. A substantially rectangular parallelepiped displacement projection 18A is integrally provided on the rear side of the upper portion of the left surface of the moderation piece 18, and the displacement projection 18A protrudes to the left side, and to the left side as the front surface moves toward the rear side. It is inclined in the direction of heading. A plurality of recesses 18B are formed in the lower part of the left surface of the moderation piece 18, and the recesses 18B are open on the left side. A convex portion 18C is formed between the concave portions 18B, and the convex portion 18C protrudes to the left side.
 レバー16の下部内には、節度ピース18の右側において、所定数の変位スプリング20(図5~図7では図示省略)が設けられており、変位スプリング20は、節度ピース18の前側部分及び後側部分を左側に付勢してレバー16の左側に突出させている。 A predetermined number of displacement springs 20 (not shown in FIGS. 5 to 7) are provided in the lower part of the lever 16 on the right side of the moderation piece 18. The side portion is urged to the left and protrudes to the left of the lever 16.
 節度ピース18の左面下側部分は、変位スプリング20の付勢力によりプレート12内の節度ピン14に左右方向(レバー16の移動幅方向)において係合されており、レバー16が各シフト位置に配置される際には、変位スプリング20の付勢力により節度ピース18左面下側部分の凹部18Bに節度ピン14が挿入されて、レバー16が各シフト位置側への回動力を作用される。レバー16が前後方向に回動操作されて、レバー16のシフト位置が変更される際には、変位スプリング20の付勢力に抗して節度ピース18左面下側部分の凸部18Cが節度ピン14を乗越える。 The lower part of the left surface of the moderation piece 18 is engaged with the moderation pin 14 in the plate 12 in the left-right direction (moving width direction of the lever 16) by the urging force of the displacement spring 20, and the lever 16 is disposed at each shift position. In doing so, the moderation pin 14 is inserted into the recess 18B in the lower left portion of the moderation piece 18 by the urging force of the displacement spring 20, and the lever 16 is acted upon by the rotational force toward each shift position. When the lever 16 is rotated in the front-rear direction to change the shift position of the lever 16, the convex portion 18 </ b> C of the lower portion of the left side of the moderation piece 18 resists the urging force of the displacement spring 20. Get over.
 回動機構28には、略湾曲矩形柱状のロータカム30が設けられており、ロータカム30は、レバー16の回動周方向に沿って延伸されている。ロータカム30の右面の前部には、作動部としての略矩形柱状の作動突起30Dが一体に設けられており、作動突起30Dは、右側に突出されている。作動突起30Dは、レバー16の回動面16Cの前側に配置されており、レバー16が「P」位置と「D」位置との間で回動されても、回動面16Cが作動突起30Dに当接不能にされている(図6参照)。 The rotation mechanism 28 is provided with a substantially curved rectangular columnar rotor cam 30, and the rotor cam 30 extends along the rotation circumferential direction of the lever 16. The front portion of the right surface of the rotor cam 30 is integrally provided with an operation projection 30D having a substantially rectangular column shape as an operation portion, and the operation projection 30D protrudes to the right side. The operating protrusion 30D is disposed on the front side of the rotating surface 16C of the lever 16, and even if the lever 16 is rotated between the “P” position and the “D” position, the rotating surface 16C is operated by the operating protrusion 30D. (See FIG. 6).
 ロータカム30の後端面は、傾斜面30Bにされており、傾斜面30Bは、前側へ向かうに従い右側へ向かう方向に傾斜されている。傾斜面30Bは、節度ピース18の変位突起18Aの前側に配置されており、レバー16が「P」位置と「D」位置との間で回動されても、変位突起18Aが傾斜面30Bに当接不能にされている(図6参照)。また、ロータカム30の右面は、傾斜面30Bの前側(作動突起30Dの後側)において、解除面30Cにされている。 The rear end surface of the rotor cam 30 is an inclined surface 30B, and the inclined surface 30B is inclined in a direction toward the right side toward the front side. The inclined surface 30B is disposed on the front side of the displacement protrusion 18A of the moderation piece 18, and even if the lever 16 is rotated between the “P” position and the “D” position, the displacement protrusion 18A is formed on the inclined surface 30B. The contact is impossible (see FIG. 6). Further, the right surface of the rotor cam 30 is a release surface 30C on the front side of the inclined surface 30B (the rear side of the operating projection 30D).
 ところで、レバー16が「P」位置以外のシフト位置(例えば「D」位置)に配置される際(図6参照)における所定の機会において、ロータカム30が後側に回転されると、ロータカム30の傾斜面30Bが、節度ピース18の変位突起18A前面に当接して、変位突起18Aを右側に変位させることで、節度ピース18が変位スプリング20の付勢力に抗して右側に変位されて、節度ピース18左面下側部分の節度ピン14への係合が解除される。そして、ロータカム30の解除面30Cが変位突起18Aの右側への変位を維持して、節度ピース18の右側への変位が維持されることで、節度ピース18左面下側部分の節度ピン14への係合解除が維持されて、節度ピース18の左面下側部分が節度ピン14に当接不能にされる(図7参照)。 By the way, if the rotor cam 30 is rotated rearward at a predetermined opportunity (see FIG. 6) when the lever 16 is disposed at a shift position (for example, “D” position) other than the “P” position, The inclined surface 30B comes into contact with the front surface of the displacement projection 18A of the moderation piece 18 and displaces the displacement projection 18A to the right side, so that the moderation piece 18 is displaced to the right side against the urging force of the displacement spring 20 and moderation is performed. The engagement of the lower portion of the left side of the piece 18 with the moderation pin 14 is released. The release surface 30C of the rotor cam 30 maintains the displacement of the displacement protrusion 18A to the right side, and the displacement of the moderation piece 18 to the right side is maintained, whereby the moderation piece 18 has a left side lower portion of the moderation piece 18 to the moderation pin 14. The disengagement is maintained, and the lower left portion of the moderation piece 18 is made unable to contact the moderation pin 14 (see FIG. 7).
 さらに、ロータカム30の作動突起30Dが、レバー16の回動面16Cに当接されて、回動面16Cを後側に回動させることで、レバー16が「P」位置以外のシフト位置から「P」位置に回動される(図7参照)。 Further, the operating projection 30D of the rotor cam 30 is brought into contact with the rotating surface 16C of the lever 16 and rotates the rotating surface 16C to the rear side, whereby the lever 16 is moved from the shift position other than the “P” position to “ It is rotated to the “P” position (see FIG. 7).
 また、レバー16が「P」位置に回動された際に、ロータカム30が前側に回転されると、ロータカム30の傾斜面30Bが、節度ピース18の変位突起18A前面に到達して、変位突起18Aの左側への変位を許容することで、節度ピース18が変位スプリング20の付勢力により左側に変位されて、節度ピース18の左面下側部分(凹部18B)が節度ピン14に係合される。さらに、ロータカム30が基準位置に回転(復帰)される(図5参照)。 Further, when the lever 16 is rotated to the “P” position and the rotor cam 30 is rotated forward, the inclined surface 30B of the rotor cam 30 reaches the front surface of the displacement protrusion 18A of the moderation piece 18, and the displacement protrusion By allowing the displacement of 18A to the left, the moderation piece 18 is displaced to the left by the urging force of the displacement spring 20, and the lower left side portion (recess 18B) of the moderation piece 18 is engaged with the moderation pin 14. . Further, the rotor cam 30 is rotated (returned) to the reference position (see FIG. 5).
 ここで、本実施形態でも、上記第1実施形態と同様の作用及び効果を奏することができる。 Here, also in this embodiment, the same operation and effect as the first embodiment can be obtained.
 なお、本実施形態では、プレート12内に別体の節度ピン14を設けた。しかしながら、プレート12内に節度ピン14を一体に成形してもよい。これにより、部品点数を低減できて、シフト装置10のコストを低減できる。 In this embodiment, a separate moderation pin 14 is provided in the plate 12. However, the moderation pin 14 may be integrally formed in the plate 12. Thereby, the number of parts can be reduced and the cost of the shift device 10 can be reduced.
 さらに、本実施形態では、プレート12に対し節度ピン14が変位不能にされる。しかしながら、プレート12に対し節度ピン14が所定範囲で左右方向にスライド(変位)可能にされてもよい。この場合、節度機構を構成する付勢部材としての付勢スプリング(例えば圧縮コイルスプリング)が節度ピン14を右側に付勢してレバー16の節度ピース18左面下側部分(凹部18B)に係合させる。さらに、付勢スプリングによる節度ピン14の右側への付勢力が所定数の変位スプリング20による節度ピース18の左側への付勢力より小さくされると共に、所定数の変位スプリング20の付勢力による節度ピース18の左側への変位がレバー16によって規制される。また、回動機構28のロータカム30により節度ピース18が変位スプリング20の付勢力に抗して右側に変位された際には、付勢スプリングの付勢力による節度ピン14の右側へのスライドがプレート12内において規制されることで、節度ピン14の節度ピース18左面下側部分への係合が解除されて、節度ピース18の左面下側部分が節度ピン14に当接不能にされる。これにより、上記第2実施形態と同様の作用及び効果を奏することができる。 Furthermore, in this embodiment, the moderation pin 14 is made undisplaceable with respect to the plate 12. However, the moderation pin 14 may be slidable (displaceable) in the left-right direction within a predetermined range with respect to the plate 12. In this case, an urging spring (for example, a compression coil spring) as an urging member constituting the moderation mechanism urges the moderation pin 14 to the right side and engages with the lower part of the left side of the moderation piece 18 of the lever 16 (recess 18B). Let Further, the urging force to the right side of the moderation pin 14 by the urging spring is made smaller than the urging force to the left side of the moderation piece 18 by the predetermined number of displacement springs 20, and the moderation piece by the urging force of the predetermined number of displacement springs 20. The leftward displacement of 18 is regulated by the lever 16. Further, when the moderation piece 18 is displaced to the right side against the urging force of the displacement spring 20 by the rotor cam 30 of the rotation mechanism 28, the slide to the right side of the moderation pin 14 by the urging force of the urging spring is performed on the plate. By being restricted within 12, the engagement of the moderation pin 14 with the lower part of the left side of the moderation piece 18 is released, and the lower side of the left side of the moderation piece 18 cannot be brought into contact with the moderation pin 14. Thereby, there can exist an effect | action and effect similar to the said 2nd Embodiment.
 また、上記第1実施形態~第3実施形態では、回動機構28がレバー16を「P」位置に回動させる。しかしながら、回動機構28がレバー16を「P」位置以外のシフト位置(例えば「R」位置、「N」位置及び「D」位置)に回動させてもよい。 In the first to third embodiments, the rotation mechanism 28 rotates the lever 16 to the “P” position. However, the rotation mechanism 28 may rotate the lever 16 to a shift position other than the “P” position (eg, “R” position, “N” position, and “D” position).
 また、上記第1実施形態~第3実施形態では、節度ピン14を1個設けた。しかしながら、節度ピン14を複数設けてもよい。これにより、節度ピース18の下面又は左面下側部分と節度ピン14との係合圧力を低減でき、節度ピース18の下面又は左面下側部分及び節度ピン14の磨耗を低減できる。 In the first to third embodiments, one moderation pin 14 is provided. However, a plurality of moderation pins 14 may be provided. Thereby, the engagement pressure between the lower surface of the moderation piece 18 or the lower left surface portion and the moderation pin 14 can be reduced, and the wear of the lower surface of the moderation piece 18 or the lower left surface portion and the moderation pin 14 can be reduced.
 さらに、上記第1実施形態~第3実施形態では、プレート12側に節度ピン14を設けると共に、レバー16側に節度ピース18を設けた。しかしながら、プレート12側に節度ピース18を設けると共に、レバー16側に節度ピン14を設けてもよい。 Further, in the first to third embodiments, the moderation pin 14 is provided on the plate 12 side and the moderation piece 18 is provided on the lever 16 side. However, the moderation piece 18 may be provided on the plate 12 side and the moderation pin 14 may be provided on the lever 16 side.
 また、上記第1実施形態~第3実施形態では、回動機構28(移動機構)においてロータカム30(移動部材)が回転可能にされてレバー16を回動させる。しかしながら、移動機構において移動部材が直線移動(スライド移動)可能にされてレバー16を回動させてもよい。 In the first to third embodiments, the rotor cam 30 (moving member) is made rotatable in the rotating mechanism 28 (moving mechanism) to rotate the lever 16. However, the moving member may be allowed to move linearly (slidably) in the moving mechanism to rotate the lever 16.
 さらに、上記第1実施形態~第3実施形態では、レバー16(シフト体)が回動可能にされる。しかしながら、シフト体が中心軸線周りに回転可能又はスライド可能にされてもよい。 Furthermore, in the first to third embodiments, the lever 16 (shift body) is rotatable. However, the shift body may be rotatable or slidable around the central axis.
 また、上記第1実施形態~第3実施形態では、シフト装置10、50、60をコンソールに設置した。しかしながら、シフト装置10、50、60をインストルメントパネル又はコラムカバーに設置してもよい。 In the first to third embodiments, the shift devices 10, 50, and 60 are installed on the console. However, the shift devices 10, 50, and 60 may be installed on the instrument panel or the column cover.
 2018年4月24日に出願された日本国特許出願2018-83174号の開示は、その全体が参照により本明細書に取込まれる。 The entire disclosure of Japanese Patent Application No. 2018-83174 filed on April 24, 2018 is incorporated herein by reference.
 10・・・シフト装置、12・・・プレート(設置体)、14・・・節度ピン(係合部材)、16・・・レバー(シフト体)、18・・・節度ピース(係合体)、18B・・・凹部(係合部)、28・・・回動機構(移動機構)、50・・・シフト装置、60・・・シフト装置 DESCRIPTION OF SYMBOLS 10 ... Shift device, 12 ... Plate (installation body), 14 ... Moderation pin (engagement member), 16 ... Lever (shift body), 18 ... Moderation piece (engagement body), 18B: recess (engagement part), 28: rotation mechanism (movement mechanism), 50: shift device, 60: shift device

Claims (6)

  1.  移動されてシフト位置が変更されるシフト体と、
     前記シフト体が相対移動される設置体と、
     前記シフト体及び前記設置体の一方に設けられ、複数の係合部が設けられる係合体と、
     前記シフト体及び前記設置体の他方に設けられ、前記係合部と係合されて前記シフト体がシフト位置側への移動力を作用される係合部材と、
     前記係合体を変位させて前記係合部と前記係合部材との係合が解除される状態で前記シフト体を移動させる移動機構と、
     を備えるシフト装置。
    A shift body that is moved to change the shift position;
    An installation body on which the shift body is relatively moved;
    An engagement body provided on one of the shift body and the installation body and provided with a plurality of engagement portions;
    An engagement member that is provided on the other of the shift body and the installation body and is engaged with the engagement portion so that the shift body exerts a moving force toward the shift position;
    A moving mechanism for moving the shift body in a state where the engagement body is displaced to disengage the engagement portion and the engagement member;
    A shift device comprising:
  2.  前記シフト体に前記係合体が変位可能に設けられる請求項1記載のシフト装置。 The shift device according to claim 1, wherein the engagement body is provided on the shift body so as to be displaceable.
  3.  前記設置体に前記係合部材が変位不能に設けられる請求項1又は請求項2記載のシフト装置。 The shift device according to claim 1 or 2, wherein the engaging member is provided on the installation body so as not to be displaced.
  4.  前記係合部が前記係合部材を変位させて前記係合部と前記係合部材との係合が解除される請求項1又は請求項2記載のシフト装置。 3. The shift device according to claim 1 or 2, wherein the engagement portion displaces the engagement member to release the engagement between the engagement portion and the engagement member.
  5.  前記シフト体の移動幅方向において前記係合部と前記係合部材とが係合される請求項1~請求項4の何れか1項記載のシフト装置。 The shift device according to any one of claims 1 to 4, wherein the engagement portion and the engagement member are engaged with each other in a movement width direction of the shift body.
  6.  前記移動機構に設けられ、移動されることで前記係合体を変位させて前記係合部と前記係合部材との係合が解除されると共に前記シフト体を移動させる移動部材を備える請求項1~請求項5の何れか1項記載のシフト装置。 The moving mechanism includes a moving member that is provided in the moving mechanism and displaces the engaging body by being moved to disengage the engaging portion from the engaging member and move the shift body. The shift device according to any one of claims 5 to 6.
PCT/JP2019/005387 2018-04-24 2019-02-14 Shifting device WO2019207914A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2018083174 2018-04-24
JP2018-083174 2018-04-24

Publications (1)

Publication Number Publication Date
WO2019207914A1 true WO2019207914A1 (en) 2019-10-31

Family

ID=68293536

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2019/005387 WO2019207914A1 (en) 2018-04-24 2019-02-14 Shifting device

Country Status (1)

Country Link
WO (1) WO2019207914A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2021183470A (en) * 2020-05-22 2021-12-02 株式会社東海理化電機製作所 Shift device

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2017043258A (en) * 2015-08-27 2017-03-02 株式会社東海理化電機製作所 Shift device
JP2017114178A (en) * 2015-12-21 2017-06-29 株式会社東海理化電機製作所 Shifter

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2017043258A (en) * 2015-08-27 2017-03-02 株式会社東海理化電機製作所 Shift device
JP2017114178A (en) * 2015-12-21 2017-06-29 株式会社東海理化電機製作所 Shifter

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2021183470A (en) * 2020-05-22 2021-12-02 株式会社東海理化電機製作所 Shift device

Similar Documents

Publication Publication Date Title
US10288165B2 (en) Shift device
WO2017122642A1 (en) Shifting device
US20150219207A1 (en) Transmission shift selector assembly
US20190211922A1 (en) Shift device
WO2020145054A1 (en) Shift device
WO2019207914A1 (en) Shifting device
JP7157417B2 (en) parking mechanism
CN113700843B (en) Gear shifting device
JP4888006B2 (en) Shifting device for automatic transmission
JP2019123432A (en) Shift device
EP3246600A1 (en) Transmission shifter with multi-position lockout
JP7276766B2 (en) shift device
WO2016084619A1 (en) Shift device
JP2012025334A (en) Shift device
JP6698043B2 (en) Shift device
KR102522916B1 (en) Automotive tranmission
JP6199165B2 (en) Shift device
JP7502082B2 (en) Shifting device
JP6096257B2 (en) Shift lock device
JP7403511B2 (en) shift device
JP7431202B2 (en) shift device
JP3001319B2 (en) Shift lever device
JP2023174344A (en) shift device
JP2020111155A (en) Shift device
JP6228512B2 (en) Shift device

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 19793864

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 19793864

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: JP