JP6723070B2 - Shift device - Google Patents

Description

The present invention relates to a shift device that changes a shift position of a shift body by moving the shift body.

In the shift lever device of Patent Document 1, the shift lever is movable in the shift direction and the select direction, and the shift position of the shift lever is changed by the movement of the shift lever. Further, this shift lever device is provided with a synchronization link, and the shift lever is engaged with the synchronization link. The synchronous link is provided with a connecting lever, and the moving position of the connecting lever is detected and the shift position of the shift lever is detected.

Further, this shift lever device is provided with a control lever, and the shift lever is engaged with the control lever. Further, it is understood that when the connecting member is connected to the control lever, the moving position of the connecting member is detected and the shift position of the shift lever is detected.

Here, in such a shift lever device, it is preferable that the detection accuracy of the shift position of the shift lever can be improved.

JP, 2008-183937, A

The present invention has been made in view of the above facts, and an object of the present invention is to provide a shift device that can improve the detection accuracy of the shift position of the shift body.

The shift device according to claim 1, wherein a shift body that is moved in one direction and the other direction to change a shift position, and a shift body that is provided in the shift body, the moving position is detected, and the shift position of the shift body is detected. And a second detection unit that is provided on the shift body, is connected to a connecting member, detects a movement position of the connecting member, and detects a shift position of the shift body.

In the shift device according to the first aspect, the shift position of the shift body is changed by moving the shift body in one direction and the other direction. Further, the movement position of the first detection unit is detected and the shift position of the shift body is detected. Further, the connecting member is connected to the second detection unit, the moving position of the connecting member is detected, and the shift position of the shift body is detected.

Here, the first detector and the second detector are provided on the shift body. Therefore, the positional accuracy of the first detection unit and the second detection unit with respect to the shift body can be improved, and the detection accuracy of the shift position of the shift body can be increased.

The shift device according to claim 2 is the shift device according to claim 1, wherein a movement position of the first detection unit is detected to detect a plurality of shift positions of the shift body, and a movement position of the connecting member. Is detected and the specific shift position of the shift body is detected.

In the shift device according to claim 2, the moving position of the first detecting portion is detected to detect a plurality of shift positions of the shift body, and the moving position of the connecting member is detected to detect a specific shift position of the shift body. To be done. Thereby, a plurality of shift positions of the shift body and a specific shift position of the shift body can be detected.

A shift device according to a third aspect is the shift device according to the first or second aspect, which includes a support portion having a spherical peripheral surface and supporting the shift body so as to be movable in one direction and the other direction. ..

In the shift device according to the third aspect, the shift body is supported so as to be movable in one direction and the other direction. Since the peripheral surface of the support portion is spherical, the support accuracy of the shift body can be increased, and the arrangement accuracy of the first detection portion and the second detection portion can be increased.

Shift device according to claim 1 is extended from the previous SL shift member, said first detector and the second detector includes an extending portion provided.

In the shift device according to claim 1, wherein the extending portion is provided on the shift member, the first detector and the second detector is provided on the extending portion. Therefore, it is possible to increase the detection accuracy of the shift position of the shift body using the first detection unit and the second detection unit.

According to the present invention, there is an effect that the detection accuracy of the shift position of the shift body can be improved.

FIG. 6 is a perspective view showing a main part of the shift lever device according to the present embodiment. It is a development view showing an operation hole. It is the front view which looked at the shift lever from the front side.

FIG. 1 shows a shift lever device 10 as a shift device according to the present embodiment in a perspective view seen from the front and diagonally above the left side. In each figure, the upper side of the shift lever device 10 is indicated by an arrow UP, the front side of the shift lever device 10 is indicated by an arrow FR, and the left side of the shift lever device 10 is indicated by an arrow LH. There is.

The shift lever device 10 according to the present embodiment is of a so-called gate type and by-wire type. Further, the shift lever device 10 is of a floor type, and is installed on the floor of the vehicle compartment inside the driver's seat (not shown) of the vehicle (automobile) in the vehicle width direction. , Left side and upper side are respectively directed to the front, left side and upper side of the vehicle.

The shift lever device 10 is provided with a resin-like substantially rectangular parallelepiped box-shaped housing 12 (plate) as a locking body, and the housing 12 is fixed to the floor of the vehicle compartment. Further, the shift lever device 10 is provided with a shift lever 14 as a shift body. The shift lever 14 is provided with a lever body 16 as a shift member and a base end portion 18 (ball shaft) as a support portion, and the base end portion 18 has a spherical peripheral surface 18A. The base end portion 18 is connected to one end portion of the lever body 16 in the longitudinal direction, and the lever body 16 and the base end portion 18 are integrated.

An opening 12</b>A is formed in the upper wall of the housing 12, and the base end 18 side of the shift lever 14 is inserted into the opening 12</b>A so that the base end 18 is arranged inside the housing 12. A bearing member 20 as a support member is provided in the housing 12, and the bearing member 20 is attached inside the housing 12. The bearing member 20 has a bottomed tubular shape, and the opening of the bearing member 20 is directed upward. Further, the inner peripheral surface 20A including the bottom surface of the bearing member 20 has a substantially hemispherical shape.

The base end portion 18 is fitted into the bearing member 20, and the base end portion 18 has a peripheral surface 18</b>A slidably supported by the inner peripheral surface 20</b>A of the bearing member 20. As a result, the shift lever 14 is supported in the housing 12 via the bearing member 20 and is rotatable (movable) about the center of curvature of the base end portion 18. Regarding the rotation direction of the shift lever 14, the front-rear direction is the shift direction and the left-right direction is the select direction.

A rectangular columnar projection 18B is integrally formed on the base end portion 18, and the projection portion 18B projects rearward from the peripheral surface 18A of the base end portion 18. A notch (guide groove) not shown is formed in the housing 12 (bearing member 20), and the protrusion 18B is inserted in the notch. As a result, the vertical rotation of the protrusion 18B and the rotation around the central axis are allowed by the notch, and the rotation of the shift lever 14 in the shift direction and the select direction is guided.

A not-shown mounting member is provided above the housing 12, and an upper wall of the mounting member is exposed inside the vehicle compartment and has an operation hole 22 (see FIG. 2 ). The shift lever 14 is inserted through the operation hole 22, and the shift lever 14 is rotated in the operation hole 22 in the shift direction and the select direction.

The operation hole 22 is formed with a first hole 22A and a second hole 22B, each of which is a long hole, and each of the first hole 22A and the second hole 22B has a longitudinal direction in the front-rear direction. .. The second hole 22B is arranged adjacent to the left side (or right side) of the first hole 22A, and the rear end portion of the first hole 22A and the central portion in the longitudinal direction of the second hole 22B. And are in communication.

The shift position of the shift lever 14 is a P (parking) position, an R (reverse) position, an N (neutral) position, and a D (drive) position as specific shift positions in order from the front end portion to the rear end portion of the first hole 22A. Is in position. The shift position of the shift lever 14 is such that the center portion of the second hole 22B in the front-rear direction is at the M (manual) position, and the front end of the second hole 22B is at the -(minus) position. The rear end of the hole 22B is located at the + (plus) position.

The shift lever 14 is rotated in the shift direction within the first hole 22A, so that the shift position is changed to the P position, the R position, the N position, and the D position. Further, the shift lever 14 is rotated in the shift direction in the 22nd hole 22B, so that the shift position is changed to the M position, the − position, and the + position. Further, the shift lever 14 is rotated in the select direction (leftward) from the D position of the first hole 22A, so that the shift position is changed to the M position of the second hole 22B, and the M position of the second hole 22B. By rotating in the select direction (to the right) from, the shift position is changed to the D position of the first hole 22A.

On the other hand, as shown in FIG. 1, the shift lever 14 is provided with an arm portion 24 as an extending portion, and the arm portion 24 is formed into a substantially flat plate shape and is formed integrally with the shift lever 14. ing. Further, the arm portion 24 is formed on the base end portion 18 side of the shift lever 14, protrudes forward from the end portion of the shift lever 14 on the base end portion 18 side, and the tip end side portion extends downward. Has been done. The tip of the arm portion 24 is arranged below the base end portion 18 (bearing member 20). Thereby, the arm portion 24 is provided on the front side of the base end portion 18 so as to avoid the base end portion 18 and the bearing member 20, and the arm portion 24 rotates about the center of curvature of the base end portion 18. To be done.

A boss portion 28 serving as a first detection portion is provided on the front wall surface 26 of the arm portion 24, and the boss portion 28 projects forward from a central portion of the arm portion 24 in the vertical direction. The boss portion 28 is rotated in the vertical direction when the shift lever 14 is rotated in the shift direction, and is also rotated in the horizontal direction when the shift lever 14 is rotated in the select direction. Further, the rotation position of the boss portion 28 corresponds to the shift position of the shift lever 14.

A locking pin 30 serving as a second detection unit is provided at the lower end (tip end) of the arm portion 24, and the locking pin 30 projects leftward from the left surface of the arm portion 24. The locking pin 30 is rotated in the front-rear direction when the shift lever 14 is rotated in the shift direction, and is rotated in the left-right direction when the shift lever 14 is rotated in the select direction (Fig. 3). Further, the rotation position of the locking pin 30 corresponds to the shift position of the shift lever 14.

The arm portion 24 is inserted into the housing 12, and the boss portion 28 and the locking pin 30 are arranged inside the housing 12.

One end of a shift cable 32 as a connecting member in the housing 12 is connected to the locking pin 30 of the arm portion 24. The shift cable 32 is biased so as to pull the locking pin 30 rearward, and the other end thereof is connected to a second detecting means (inhibitor switch) provided in a transmission (not shown) of the vehicle. As a result, the shift cable 32 is moved in the longitudinal direction by rotating the shift lever 14. Further, the moving position of the shift cable 32 when the shift lever 14 is set to the P position is detected by the inhibitor switch. Accordingly, when the inhibitor switch detects the P position of the shift lever 14, the operation (starting) of the engine of the vehicle is permitted, while when the inhibitor switch does not detect the P position of the shift lever 14, , The operation of the vehicle engine (starting) is prohibited.

A rectangular opening 34A is formed in the front wall 34 of the housing 12. The boss portion 28 of the arm portion 24 is inserted into the opening portion 34A, and the boss portion 28 is rotatable inside the opening portion 34A.

The shift lever device 10 is provided with a detection mechanism 36 as a first detection means, and the detection mechanism 36 is arranged on the front wall 34 of the housing 12. The detection mechanism 36 is provided with a sensor cover 38 having a substantially rectangular box shape, and a bottom plate 40 (rear plate) of the sensor cover 38 is formed with a rectangular opening 40A. The sensor cover 38 has a longitudinal direction that is a vertical direction and is attached to the housing 12 so that the opening 40A communicates with the opening 34A of the front wall 34, and the opening 34A is opened by the opening 40A. There is.

A slider 42 is arranged on the sensor cover 38, and the slider 42 has a rectangular box shape. The longitudinal direction of the slider 42 is the vertical direction, and the slider 42 is movable in the horizontal direction. The bottom plate 44 (rear plate) of the slider 42 is formed with a long hole 44A that is long in the vertical direction.

A magnet body 46, which is a member to be detected, is arranged on the slider 42. The magnet body 46 has a substantially rectangular parallelepiped shape in which a magnet (not shown) is fixed by insert molding, and the tip of the boss portion 28 is rotatably connected to the magnet body 46. Therefore, the magnet body 46 is rotated integrally with the boss portion 28 in the vertical direction and the horizontal direction. At this time, by rotating the boss portion 28 in the vertical direction, the magnet body 46 is guided by the slider 42 and moved in the vertical direction. Further, as the boss portion 28 is rotated in the left-right direction, the slider 42 is moved in the left-right direction inside the sensor cover 38 together with the magnet body 46.

A rectangular box-shaped sensor case 48 is provided in front of the sensor cover 38. The sensor case 48 has a longitudinal direction that is the vertical direction and an opening side that is the sensor cover 38 side. It is assembled. As a result, the sensor cover 38 is covered by the sensor case 48, and the slider 42 and the magnet body 46 are housed in the internal space between the sensor cover 38 and the sensor case 48.

A detection board 50 as a detection body is attached to the front side of the magnet body 46 in the sensor case 48, and the detection board 50 faces the magnet body 46 in the entire movement range of the magnet body 46. A detection element (Hall element) is arranged on the detection substrate 50, and the position of the magnet body 46 (magnetic force generated by the magnet) that is moved according to the shift position of the shift lever 14 is detected by the detection element. The detection board 50 is electrically connected to the transmission of the vehicle, and the shift range of the transmission is changed to the shift range corresponding to the shift position of the shift lever 14 detected by the detection board 50.

Next, the operation of this embodiment will be described.
In the shift lever device 10 having the above configuration, the shift position of the shift lever 14 is changed by rotating the shift lever 14 in the shift direction and the select direction. In the detection mechanism 36, the shift lever 14 is rotated in the shift direction and the select direction, and the magnet body 46 is moved, so that the detection element of the detection substrate 50 detects the position of the magnet body 46, and the shift lever 14 is moved. The shift position of is detected. Further, as the shift lever 14 is rotated and the shift cable 32 is moved, the inhibitor switch detects the moving position of the shift cable 32, and the P position of the shift lever 14 is detected.

Here, the shift lever 14 is integrally provided with a boss portion 28 and a locking pin 30. The boss portion 28 is connected to the magnet body 46, and when the shift lever 14 is rotated, the magnet body 46 is moved integrally with the boss portion 28. A shift cable 32 is connected to the locking pin 30, and the locking pin 30 and the shift cable 32 are integrally moved by rotating the shift lever 14. Therefore, unlike the case where the boss portion 28 and the locking pin 30 are provided as separate members from the shift lever 14, each shift position of the shift lever 14 can be detected with high accuracy from the moving position of the boss portion 28. The P position of the shift lever 14 can be detected with high accuracy.

Moreover, a separate member for providing the boss portion 28 and the locking pin 30 can be eliminated, and since it is not necessary to engage the separate member and the shift lever 14, the number of parts can be reduced and the assembling work can be performed. You can easily.

Further, the peripheral surface 18A of the base end portion 18 has a spherical shape, and the shift lever 14 is supported by the base end portion 18 so as to be rotatable in the shift direction and the select direction. As a result, unlike the case where the rotation center shaft when the shift lever 14 is rotated in the shift direction and the rotation center shaft when the shift lever 14 is rotated in the select direction are provided separately, The supporting accuracy of 14 can be increased, the arrangement accuracy of the boss portion 28 and the locking pin 30 can be increased, and the shift position of the shift lever 14 can be detected with higher accuracy using the boss portion 28 and the locking pin 30.

Moreover, since the bearing member 20 supports the base end portion 18 from the lower side, the support strength of the base end portion 18 can be increased. As a result, the support accuracy of the shift lever 14 can be increased, and the shift position of the shift lever 14 can be detected with high accuracy by the boss portion 28 and the locking pin 30.

Further, since the arm portion 24 provided with the boss portion 28 and the locking pin 30 is extended from the shift lever 14, it is possible to reduce an arrangement error of the boss portion 28 and the locking pin 30 with respect to the base end portion 18. Thereby, the arrangement accuracy of the boss portion 28 and the locking pin 30 can be increased, and the shift position of the shift lever 14 can be detected with high accuracy from the moving position of the boss portion 28 and the locking pin 30. Moreover, since the arm portion 24 extends from the base end portion 18 side of the shift lever 14, the arrangement error of the boss portion 28 and the locking pin 30 with respect to the base end portion 18 can be further reduced, and the boss portion 28 and The shift position of the shift lever 14 can be detected more accurately from the moving position of the locking pin 30.

Further, even if the shift lever 14 is arranged in the − (minus) position, the shift cable 32 does not reach the position in the length direction of the shift cable 32 when the shift lever 14 is arranged in the P position. Therefore, the inhibitor switch can detect the P position of the shift lever 14.

In the embodiment described above, the shift cable 32 connected to the locking pin 30 is used to detect the movement of the shift lever 14 to the P position, but the shift lever 14 is not limited to the P position. Other shift positions may be detected.

Further, in the present embodiment, the shift lever 14 is provided with the base end portion 18 as a support portion and the housing 12 is provided with the bearing member 20, but the present invention is not limited to this. The shift lever 14 is provided with a bearing member 20 as a support portion, the housing 12 is provided with a support member (base end portion 18) having a spherical outer peripheral surface, and the support member is fitted into the bearing member 20. 14 may be supported rotatably (movably) around the center of curvature of the outer peripheral surface of the support member. Furthermore, in the present embodiment, the base end portion 18 having a spherical peripheral surface is provided as the support portion, but the present invention is not limited to this, and the support portion uses two shafts whose axes are orthogonal to each other. It may be configured with.

Further, in this embodiment, the shift lever 14 is provided with the boss portion 28 and the locking pin 30. However, the shift lever 14 may not be provided with the boss portion 28. Further, although the floor type shift lever device 10 is described as an example in the present embodiment, the shift device is provided not only on the floor surface in the vehicle interior but also on another portion such as an instrument panel or a steering column of the vehicle. You may be taken.

10 Shift lever device (shift device)
14 Shift lever (shift body)
18 Base end (support)
24 Arm part (extension part)
28 Boss part (first detection part)
30 Locking pin (second detector)
32 shift cable (connecting member)

Claims (3)

A shift body that is moved in one direction and the other direction to change the shift position,
An extension portion provided integrally with the shift body and extended from the shift body,
A first detection unit that is provided integrally with the extension unit , detects a movement position, and detects a shift position of the shift body;
A second detection unit that is provided integrally with the extension unit , is connected with a connecting member, and detects the moving position of the connecting member and the shift position of the shift body;
Shift device including. The movement position of the first detection unit is detected to detect a plurality of shift positions of the shift body, and the movement position of the connecting member is detected to detect a specific shift position of the shift body. The described shift device. The shift device according to claim 1 or 2, wherein a peripheral surface is spherical, and the shift body includes a support portion movably supported in one direction and the other direction.