JP6129661B2 - Shift device - Google Patents

Description

  The present invention relates to a shift device in which a shift position is changed by operating a shift member.

  In the shift device described in Patent Document 1 below, the shift lever is rotatably supported by the select rotation shaft and is urged by the check unit.

  Here, in this shift device, the urging center axis of the check portion with respect to the shift lever intersects the rotation center axis (second rotation center axis) by the select rotation axis of the shift lever. For this reason, the check portion cannot be disposed on the shift lever beyond the select rotation shaft, and the amount of extension of the check portion from the shift lever increases, which may increase the size of the shift device.

JP 2010-202083 A

  An object of the present invention is to obtain a shift device that can be miniaturized in consideration of the above facts.

The shift device according to claim 1 is a shift body whose shift position is changed by being operated, a support body that supports the shift body and is provided with a contact surface , the shift body, and the support body. A rotating means for rotating the shift body by supporting the shift body on the support surface, and the shift body. wherein the holding cylinder which is extended from the rotation means includes a contact member held by the holding cylinder, biasing the shift member by causing contact with the contact member on the contact surface of the And an urging means in which an operation center axis of the shift body is shifted from a rotation center of the shift body.

A shift device according to a second aspect is the shift device according to the first aspect, wherein the urging means is disposed up to a side opposite to an extending direction of the holding cylinder with respect to a rotation center of the shift body.

  In the shift device according to the first aspect, the shift position is changed by operating the shift body. Further, at least one of the shift body and the support body is provided with a spherical support surface of the rotating means, and the shift body is made rotatable by the support body supporting the shift body on the support surface. Yes. Further, biasing means is provided on the shift body, and the biasing means biases the shift body.

  Here, the urging center axis of the urging means for the shift body is shifted from the rotation center of the shift body. For this reason, the urging means can be disposed on the shift body beyond the rotation center of the shift body, the amount of extension of the urging means from the shift body can be reduced, and the shift device can be miniaturized.

It is the perspective view seen from the left diagonal back which shows the shift lever apparatus which concerns on embodiment of this invention. It is the disassembled perspective view seen from the diagonally left back which shows the shift lever apparatus which concerns on embodiment of this invention. It is sectional drawing (3-3 line sectional drawing of FIG. 1) seen from the left which shows the shift lever apparatus which concerns on embodiment of this invention. It is sectional drawing (4-4 sectional view taken on the line of FIG. 1) seen from the front which shows the shift lever apparatus which concerns on embodiment of this invention.

  FIG. 1 is a perspective view of a shift lever device 10 (shifter) as a shift device according to an embodiment of the present invention as viewed obliquely from the left rear, and FIG. It is shown in the exploded perspective view seen from diagonally backward. In the drawing, the front of the shift lever device 10 is indicated by an arrow FR, the right side of the shift lever device 10 is indicated by an arrow RH, and the upper side of the shift lever device 10 is indicated by an arrow UP.

  The shift lever device 10 according to the present embodiment is applied to a vehicle (automobile), and the shift lever device 10 is a so-called floor type and is installed on a floor portion (floor) of a passenger compartment. The shift lever device 10 is directed frontward, rightward, and upward toward the front of the vehicle, rightward of the vehicle, and upward of the vehicle, respectively.

  As shown in FIGS. 1 and 2, the shift lever device 10 is provided with a substantially rectangular parallelepiped box-shaped support body 12. The support body 12 is fixed in the vehicle interior so that the shift lever device 10 is mounted on the vehicle. It is installed on the floor of the room.

  The support 12 is provided with a substantially rectangular cylindrical plate 14 as an accommodating portion, and a substantially rectangular parallelepiped cover 16 as a first support is fixed in the upper end of the plate 14. The cover 16 is formed with a support hole 18 (see FIGS. 3 and 4) that constitutes a rotating means. The support hole 18 is opened to the upper side and the lower side of the cover 16, and the outer peripheral surface is supported. A spherical first support surface 18A is used as the surface.

  In the cover 16 of the support body 12, a lever body 20 as a shift body is vertically penetrated in the support hole 18, and a resin holding portion 22 is provided in a lower portion of the lever body 20. Yes.

  The upper portion of the holding portion 22 is formed with a substantially spherical insertion portion 24 as a second support portion constituting a rotating means, and the outer peripheral surface of the insertion portion 24 is a second spherical surface as a support surface. A support surface 24A is provided. The insertion portion 24 is inserted into the support hole 18 of the cover 16, whereby the second support surface 24 </ b> A of the insertion portion 24 is rotatably supported by the first support surface 18 </ b> A of the support hole 18. The lever body 20 is rotatably supported by the cover 16 about the center O (see FIG. 4) of the fitting portion 24 equal to the center O of the support surface 18A and the second support surface 24A. The lever body 20 is pivoted in the horizontal direction (rotating around the vertical direction) by the cover 16, and the lever body 20 moves in the front-rear direction (shift direction) and the left-right direction (select direction). ) Can be rotated.

  A cylindrical fixed tube 26 is formed on the front side of the holding portion 22 below the fitting portion 24, and the fixed tube 26 extends outward in the radial direction of the fitting portion 24.

  A cylindrical holding cylinder 28 is formed on the rear side of the holding part 22 below the fitting part 24, and the holding cylinder 28 extends to the outside of the fitting part 24. A cylindrical holding hole 28A (see FIG. 4) is coaxially formed in the holding cylinder 28. The central axis of the holding hole 28A is arranged perpendicular to the left-right direction and the fitting portion 24 has a central axis. It is shifted to the left from the center O. The holding hole 28 </ b> A extends from the center O of the insertion portion 24 to the upper side.

  In the holding portion 22, a metal-made long and substantially cylindrical lever 30 (see FIG. 4) is fixed (held) as an arrangement member, and the middle portion in the longitudinal direction of the lever 30 is bent, It is arranged at the center O of the insertion part 24. A portion above the bent portion of the lever 30 is a shift lever 30A as an operation portion, and the shift lever 30A extends outward in the radial direction (upper side) of the fitting portion 24. A portion below the bent portion of the lever 30 is a guide lever 30B as a guide portion. The guide lever 30B extends outward in the radial direction (lower side and front side) of the fitting portion 24 and is fixed to the fixed cylinder. 26 is coaxially fitted into the inner wall 26 and extends from the front end surface (lower end surface and front end surface) of the fixed cylinder 26.

  Further, the base end of the shift lever 30 </ b> A and the base end of the guide lever 30 </ b> B, which are bent portions of the lever 30, are arranged at the center O of the fitting portion 24. For this reason, the amount of penetration of the shift lever 30A and the guide lever 30B into the holding portion 22 is increased, and the fixing strength of the shift lever 30A and the guide lever 30B to the holding portion 22 is increased. Moreover, the amount of extension of the shift lever 30A and the guide lever 30B from the holding portion 22 is reduced, and the lever body 20 is reduced in size.

  The shift lever 30A extends to the upper side of the support body 12 (cover 16), and the lever body 20 can be rotated by operating the shift lever 30A by a vehicle occupant (driver). .

  In the support body 12 (in the plate 14), a guide plate 32 having a substantially rectangular plate shape as a guide body (gate body) is provided in a lower and front portion, and the guide plate 32 has a predetermined shape. The guide hole 32A is formed through. The guide lever 30B of the lever body 20 is inserted into the guide hole 32A, and the turning operation of the lever body 20 is guided by the guide lever 30B being guided to the guide hole 32A. Therefore, the shift position of the lever body 20 is changed from the “H” position (home position) as the predetermined position to the “N” position (neutral position), the “R” position (reverse position), and the “D” position (drive position). And “B” position (brake position).

  When the lever body 20 is disposed at the “N” position, the “R” position, and the “D” position, the lever body 20 is disposed at the “H” position and the “B” position. The lower part of 20 is rotated to the right.

  As shown in FIGS. 3 and 4, a coil spring 34 as an urging member constituting urging means (moderation means) is coaxially inserted (held) in the holding hole 28A of the lever body 20 (holding portion 22). ) Further, in the holding hole 28A, a substantially cylindrical detent pin 36 as a contact member constituting the biasing means (moderation means) moves coaxially (slides) below and behind the coil spring 34. The detent pin 36 is fitted (held) in a possible manner, and extends from the front end surface (lower and rear end surfaces) of the holding cylinder 28 of the holding portion 22.

  In the support body 12 (inside the plate 14), a block-shaped detent slope 38 as a biasing body (moderation body) is provided in the lower and rear portions, and the detent slope 38 has a predetermined shape. A contact surface 38A is formed. The detent pin 36 is in contact with the contact surface 38A. As a result, the coil spring 34 is compressed and urges the detent pin 36 toward the distal end side of the holding cylinder 28, whereby the coil spring 34 is moved to the lever body. 20 is energized. When the lever body 20 is rotated from the “H” position, the detent pin 36 is moved into the holding cylinder 28 by the contact surface 38A as the lever body 20 is separated from the “H” position. As the amount of compression of the coil spring 34 is increased, the urging force of the coil spring 34 is increased, and the turning operation load of the lever body 20 is increased. Further, when the turning operation force is released in a state where the lever body 20 is arranged at a position other than the “H” position, the lever body 20 is turned to the “H” position by the biasing force of the coil spring 34 ( Return).

  When the lever body 20 is disposed at the “H” position and the “B” position, the tip of the detent pin 36 (the end on the detent slope 38 side) is disposed on the left side with respect to the center O of the fitting portion 24. When the lever body 20 is disposed at the “N” position, the “R” position, and the “D” position, the tip of the detent pin 36 is disposed on the right side with respect to the center O of the fitting portion 24.

  Next, the operation of this embodiment will be described.

  In the shift lever device 10 having the above-described configuration, the lever body 20 is rotated about the center O of the fitting portion 24 by operating the shift lever 30 </ b> A of the lever 30, thereby changing the shift position. Further, the guide lever 30B of the lever 30 is guided into the guide hole 32A of the guide plate 32, and the turning operation of the lever body 20 is guided.

  Further, the detent pin 36 of the lever body 20 is brought into contact with the contact surface 38A of the detent slope 38, the coil spring 34 biases the lever body 20, and the lever body 20 is rotated from the “H” position. In doing so, the urging force of the coil spring 34 is increased, and the turning operation load of the lever body 20 is increased.

  By the way, in the lever body 20, the bent portion of the lever 30 (the base end of the shift lever 30 </ b> A and the base end of the guide lever 30 </ b> B) is disposed at the center O of the insertion portion 24.

  Here, the coil spring 34 and the detent pin 36 are coaxially inserted into the holding hole 28A of the lever body 20, and the center axis of the holding hole 28A is shifted to the left from the center O of the fitting portion 24. The biasing central axis of the coil spring 34 with respect to the body 20 (the central axis of the coil spring 34) is shifted to the left from the center O of the fitting portion 24.

  For this reason, even when the bent portion of the lever 30 is disposed at the center O of the insertion portion 24, the holding hole 28A can be extended to the upper side from the center O of the insertion portion 24 (the bent portion of the lever 30). The spring 34 can be disposed above the center O of the insertion portion 24 (the bent portion of the lever 30).

  As a result, the extension amount of the detent pin 36 from the lever body 20 (the front end surface of the holding cylinder 28) can be reduced, the distance between the center O of the fitting portion 24 and the contact surface 38A of the detent slope 38 can be shortened, and the shift can be performed. The lever device 10 can be reduced in size.

  Furthermore, the design width of the urging force of the coil spring 34 against the lever body 20 can be widened, and the design width of the rotation operation load of the lever body 20 can be widened.

(Modification)
In this modification, the lever body 20 is vertically penetrated through the cover 16 of the support body 12, and support holes 18 are formed on the right side and the left side of the cover body 16 through the lever body 20. The support hole 18 is formed in a columnar shape, and the first support surface 18A on the outer peripheral surface is formed into a circumferential surface.

  In the lever body 20, the insertion portion 24 is formed in a columnar shape, functions as an arrangement member, and penetrates the holding portion 22 in the left-right direction. The second support surface 24 </ b> A on the outer peripheral surface of the insertion portion 24 is a circular shape. It has a circumferential shape.

  The insertion portion 24 of the lever body 20 is inserted into the support hole 18 of the cover 16, and thereby the second support surface 24 </ b> A of the insertion portion 24 is rotatably supported by the first support surface 18 </ b> A of the support hole 18. Thus, the lever body 20 is rotatably supported by the cover 16 with the central axis of the fitting portion 24 equal to the central axes of the first support surface 18A and the second support surface 24A as the central axis. The lever body 20 is rotatable in the front-rear direction (shift direction) with respect to the cover 16.

  In the lever body 20, the central axis of the holding hole 28 </ b> A does not intersect the central axis of the fitting part 24, and the holding hole 28 </ b> A extends to the upper side from the central axis (fitting part 24) of the fitting part 24. For this reason, the biasing central axis of the coil spring 34 with respect to the lever body 20 (the central axis of the coil spring 34) does not intersect the central axis of the fitting portion 24, and the coil spring 34 has the central axis (the fitting portion) of the fitting portion 24. 24) It is arranged to the upper side.

  Here, also in this modification, the same operation and effect as the above-mentioned embodiment can be produced.

  In this modification, the support body 18 is provided with the support hole 18, and the lever body 20 is provided with the fitting portion 24. However, the support body 12 may be provided with the fitting portion 24 and the lever body 20 may be provided with the support hole 18.

  Furthermore, in the said embodiment and modification, the outer peripheral surface (1st support surface 18A) of the support hole 18 and the outer peripheral surface (2nd support surface 24A) of the insertion part 24 were made into spherical shape or a circumferential surface shape as a support surface. . However, one of the outer peripheral surface of the support hole 18 and the outer peripheral surface of the fitting portion 24 may be a spherical surface or a circumferential surface with the support surface.

  In the present embodiment, the shift lever device 10 is a floor type and is installed on the floor of the passenger compartment. However, the shift lever device 10 may be installed on a vehicle steering column or an instrument panel.

10 Shift lever device (shift device)
12 Support 18 Support hole (turning means)
18A First support surface (support surface)
20 Lever body (shift body)
24 Insertion part (turning means)
24A Second support surface (support surface)
34 Coil spring (biasing means)
36 Detent pin (biasing means)

Claims (2)

A shift body whose shift position is changed by being operated;
A support body that supports the shift body and is provided with a contact surface ;
A rotation surface that has a spherical support surface provided on at least one of the shift body and the support body, and the shift body is supported by the support body on the support surface so that the shift body can be rotated. Moving means,
A holding cylinder extending from the turning means of the shift body ;
The holding member is held in the holding cylinder, the operation force of the shift body is fluctuated by urging the shift body by bringing the contact member into contact with the contact surface , An urging means in which an urging center axis for the shift body is shifted from a rotation center of the shift body;
A shift device comprising: The shift device according to claim 1, wherein the urging unit is disposed up to a side opposite to an extending direction of the holding cylinder with respect to a rotation center of the shift body.

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