JP6886912B2 - Shift device - Google Patents

Description

The present invention relates to a shift device in which a shift body is moved to change a shift position.

In the shift device described in Patent Document 1 below, the shift lever is swung to move the sensor operating pin. Further, the substrate detects the position of the sensor operating pin, and the position of the shift lever is detected.

Here, in this shift device, the lower surface of the substrate is brought into contact with the upper end of the large diameter portion of the positioning member, and the substrate is installed.

Japanese Unexamined Patent Publication No. 2010-221972

It is an object of the present invention to obtain a shift device capable of increasing the accuracy of the mounting position of the substrate in consideration of the above facts.

The shift device of the first aspect of the present invention guides the shift body whose shift position is changed by being moved, the substrate that detects the movement position of the shift body, and the movement along the plate surface to the installation position of the substrate. It is provided with a guide unit that is made possible.

In the shift device of the first aspect of the present invention, the shift device of the second aspect of the present invention is a pair of accommodating bodies that are assembled with each other to accommodate the shift body and the substrate sandwiched between them. To be equipped.

The shift device according to the third aspect of the present invention includes an installation body in which the substrate can be installed while the shift body is installed in the shift device according to the first or second aspect of the present invention.

The shift device according to the fourth aspect of the present invention includes an installation guide unit capable of guiding the substrate to an installation position in any one of the first to third aspects of the present invention.

In the shift device according to the fifth aspect of the present invention, in any one of the first to fourth aspects of the present invention, the substrate is assembled and the guide portion guides the movement of the substrate. It is equipped with a moving body that can be guided.

The shift device according to the sixth aspect of the present invention includes an assembly body provided with a pair of assembling members and a pair of the assembling members in any one of the first to fifth aspects of the present invention. It includes a pair of assembling members for fastening the substrate and a fastening member for assembling the substrate.

In the shift device of the first aspect of the present invention, the shift body is moved to change the shift position. Further, the substrate detects the moving position of the shift body.

Here, the guide portion is made capable of guiding the movement along the plate surface to the installation position of the substrate. Therefore, the guide portion can limit the positional deviation of the substrate, and the accuracy of the mounting position of the substrate can be improved.

In the shift device of the second aspect of the present invention, a pair of accommodating bodies are assembled with each other, and the shifting body is housed inside.

Here, the substrate is sandwiched between the pair of housings. Therefore, the positional deviation of the substrate can be effectively limited, and the accuracy of the mounting position of the substrate can be effectively increased.

In the shift device of the third aspect of the present invention, the substrate can be installed on the installation body while the shift body is installed on the installation body. Therefore, the displacement of the substrate with respect to the shift body can be suppressed, and the accuracy of the installation position of the substrate with respect to the shift body can be improved.

In the shift device of the fourth aspect of the present invention, the installation guide unit can guide the substrate to the installation position. Therefore, the substrate can be easily moved to the installation position.

In the shift device of the fifth aspect of the present invention, the substrate is attached to the moving body, and the guide portion guides the moving body so that the movement of the substrate can be guided. Therefore, damage to the substrate can be suppressed.

In the shift device of the sixth aspect of the present invention, the fastening member fastens the pair of assembling members of the assembly body and the substrate, and the pair of assembling members and the substrate are assembled. Therefore, the number of fastening portions can be reduced.

It is an exploded perspective view seen from diagonally right rear view which shows the shift device which concerns on embodiment of this invention. It is a breaking perspective view seen from the right side which shows the shift device which concerns on embodiment of this invention. It is a breaking perspective view seen from the rear side which shows the shift device which concerns on embodiment of this invention. It is an exploded perspective view which showed the substrate unit of the shift apparatus which concerns on embodiment of this invention, and was seen from diagonally right rear. It is a perspective view which showed the substrate unit of the shift apparatus which concerns on embodiment of this invention, and was seen from diagonally right rear. (A) and (B) are cutaway perspective views showing the substrate unit of the shift device according to the embodiment of the present invention as viewed from the rear side, and (A) shows the outside of the fastening portion by the first screw. (B) shows the fastening portion by the first screw.

FIG. 1 shows an exploded perspective view of the shift device 10 according to the embodiment of the present invention as viewed from diagonally right rearward. Further, FIG. 2 shows a breaking perspective view of the shift device 10 viewed from the right side, and FIG. 3 shows a breaking perspective view of the shift device 10 viewed from the rear side. In the drawings, the front of the shift device 10 is indicated by an arrow FR, the right side of the shift device 10 is indicated by an arrow RH, and the upper part of the shift device 10 is indicated by an arrow UP.

The shift device 10 according to the present embodiment is a floor type and is installed at the center of the floor (vehicle body side) of the vehicle interior of the vehicle (automobile) in the vehicle width direction, and is located in front of the shift device 10. The left and upper sides are directed to the front, left and upper sides of the vehicle, respectively.

As shown in FIGS. 1 to 3, the shift device 10 is provided with a resin plate 12 as an accommodating body and an installation body, and the plate 12 is installed (fixed) on the floor of the vehicle interior. .. A substantially rectangular parallelepiped box-shaped housing 14 is provided on the front portion of the plate 12 as an installation portion. The housing 14 is configured by assembling the front housing 14A on the front side and the rear housing 14B on the rear side in the front-rear direction, and the inside of the front housing 14A is opened to the rear side and the inside of the rear housing 14B is open. It is open to the front.

On the left and right portions of the rear surface of the rear housing 14B, a substantially cylindrical fixing cylinder 16 is integrally provided in the vertical intermediate portion, and the axial direction of the fixing cylinder 16 is arranged parallel to the vertical direction. ing. An inclined surface 16A as an additional guide portion is formed at the rear end and the upper corner portion of the fixed cylinder 16, and the inclined surface 16A is inclined upward as it goes forward.

A rectangular insertion hole 18 is formed through the upper portions of the front housing 14A and the rear housing 14B, and the pair of insertion holes 18 face each other in the front-rear direction. The front housing 14A is formed with a guide surface 18A as an installation guide portion at a lower and rear corner portion of the front insertion hole 18, and the guide surface 18A is directed upward as it goes forward. It is tilted. Further, in the insertion hole 18 on the front side, the lower surface protrudes forward with respect to the upper surface.

A spherical support surface 20 as a support portion is formed on the inner surface of the upper portion of the housing 14, and the support surfaces 20 are arranged on the upper side and the lower side of each insertion hole 18.

A substantially U-shaped plate-shaped guide frame 22 as a guide portion is provided on the rear side of the plate 12 from the housing 14, and the guide frame 22 is integrated with the lower portion of the rear housing 14B and is on the upper side. And it is open to the rear side. A guide protrusion 22A having a rectangular cross section is formed on the upper ends of the left wall and the right wall of the guide frame 22, and the guide protrusion 22A projects inward in the left-right direction of the guide frame 22. The guide protrusion 22A is extended in the front-rear direction, and the lower surface of the guide protrusion 22A is arranged vertically in the vertical direction. An insertion groove 22B is formed on the lower surface of the guide frame 22, and the insertion groove 22B is extended in the front-rear direction and opened rearward.

A long substantially columnar lever 24 made of resin as a shift body is provided in the housing 14, and the lever 24 is extended in the vertical direction. A substantially spherical spherical shaft 24A as a shaft portion is formed in the vertical (longitudinal direction) intermediate portion of the lever 24, and a spherical rotating surface (not shown) is formed on the outer circumference of the spherical shaft 24A. ing. The rotating surface is fitted to the supporting surface 20 of the housing 14, whereby the spherical shaft 24A is rotatably supported by the supporting surface 20. The lever 24 is rotatably extended to the upper side of the housing 14, and the upper portion (longitudinal tip portion) is extended into the vehicle interior. The upper end portion of the lever 24 is extended in the front-rear direction (shift direction) by a vehicle occupant. ) And in the left-right direction (select direction) within a predetermined range, the ball shaft 24A is rotated in the front-rear direction and the left-right direction, respectively, and the shift position of the lever 24 is changed.

A substantially rectangular columnar arrangement hole 26 as an arrangement portion is formed in the spherical axis 24A of the lever 24, and the arrangement hole 26 penetrates the spherical axis 24A in the front-rear direction and the central axis is the center of the spherical axis 24A. It passes through (the center of curvature of the surface of revolution).

A columnar magnet 28 as a detected portion is fixed to the upper end portion and the lower end portion of the arrangement hole 26, and the magnet 28 is made rotatable integrally with the spherical shaft 24A. The pair of magnets 28 are arranged coaxially, and the central axis of the pair of magnets 28 passes through the center of the spherical axis 24A (the center of curvature of the rotating surface). The upper magnet 28 has an N pole on the upper side and an S pole on the lower side, and the lower magnet 28 has an N pole on the upper side and an S pole on the lower side.

A substrate unit 30 as a detector (see (A) and (B) of FIGS. 4, 5 and 6) is attached to the plate 12.

The substrate unit 30 is provided with a substantially rectangular parallelepiped box-shaped case 32 as a moving body and an assembled body, and the case 32 is inserted into the guide frame 22 of the plate 12 from the rear side, and has a lower surface and a left surface. The right surface is in surface contact with the lower wall, the left wall, and the right wall of the guide frame 22, respectively (see FIG. 3). The case 32 is configured by assembling the upper case upper 32A and the lower case lower 32B as an assembling member in the vertical direction, and the inside of the case upper 32A is opened to the lower side and the case lower 32B. The inside is open to the upper side and the rear side. A rectangular communication hole 34 is formed through the rear wall of the case upper 32A, and the communication hole 34 communicates the inside and the outside of the case upper 32A.

A flat contact surface 36 as a guided portion is formed on the left end portion and the right end portion of the upper surface of the case upper 32A, and the contact surface 36 is vertically arranged in the vertical direction and extends in the front-rear direction. Then, it is in surface contact with the lower surface of the guide protrusion 22A of the guide frame 22 (see FIG. 3). A substantially annular plate-shaped fixing plate 38 as a fixing portion is integrally provided on the left and right portions of the front end of the case upper 32A, and the fixing plate 38 projects forward from the upper end of the case upper 32A. Has been done. A fixing screw 40 is passed through the fixing plate 38 from above, and the fixing screw 40 is screwed into the fixing cylinder 16 of the housing 14 (rear housing 14B) of the plate 12 (see FIG. 1). The fixing plate 38 is sandwiched between the head of the fixing screw 40 and the fixing cylinder 16 by fastening with the fixing screw 40, and the case 32 is assembled to the plate 12 by fastening with the fixing screw 40.

A plurality of columnar or rectangular columnar regulating columns 42 (three in this embodiment) are integrally provided on the upper wall of the case upper 32A, and the regulating columns 42 project upward. .. A cylindrical penetrating cylinder 44 as a penetrating portion is integrally provided at the front end portion of the upper wall of the case upper 32A, and the penetrating cylinder 44 projects upward and downward. A rectangular connection hole 46 is formed through the upper wall of the case upper 32A, and the connection hole 46 connects the upper side and the lower side of the upper wall of the case upper 32A.

Inside the front wall of the case lower 32B, a substantially cylindrical first cylinder 48 as a fastening portion is integrally provided, and the lower end of the first cylinder 48 is integrated with the lower wall of the case lower 32B and the upper surface thereof. Is flush with the upper surface of the case lower 32B. Inside the right wall of the case lower 32B, a substantially cylindrical second cylinder 50 is integrally provided. The lower end of the second cylinder 50 is integrated with the lower wall of the case lower 32B, and the upper surface of the second cylinder 50 is the case lower 32B. It is flush with the top surface. A substantially cylindrical third cylinder 52 is integrally provided on the lower wall of the case lower 32B, and the third cylinder 52 is projected upward and downward, and the lower portion is inside the insertion groove 22B of the guide frame 22. (See FIGS. 2 and 3).

On the upper side of the case 32 (upper side of the case upper 32A), a substantially rectangular plate-shaped sensor board 54 as a board (first board) is provided, and the sensor board 54 is a plurality of regulating columns 42 of the case upper 32A. Is penetrated and fitted to restrict movement in the horizontal direction (direction perpendicular to the vertical direction), and downward movement is restricted by the upper wall of the case upper 32A. A first screw 56 as a fastening member is penetrated through the sensor board 54 from above, and the first screw 56 is penetrated through the through cylinder 44 of the case upper 32A and into the first cylinder 48 of the case lower 32B. It is screwed. The sensor board 54 is sandwiched between the head of the first screw 56 and the upper wall of the case upper 32A by fastening with the first screw 56, and the sensor board 54 is fastened with the first screw 56 to the case upper 32A. The case upper 32A is attached to the case lower 32B by fastening with the first screw 56. The sensor substrate 54 is arranged vertically in the vertical direction, and the upper surface and the lower surface (plate surface) of the sensor substrate 54 are arranged vertically in the vertical direction.

A rectangular plate-shaped extending portion 54A is provided on the front portion of the sensor substrate 54, and the extending portion 54A extends to the front side. The extension portion 54A is penetrated through the insertion hole 18 on the rear side of the housing 14 of the plate 12 and the arrangement hole 26 of the ball shaft 24A of the lever 24, and the front end portion of the extension portion 54A is the insertion on the front side of the housing 14. It is inserted into the hole 18 and is in contact with the lower surface of the insertion hole 18 on the front side.

Sensors 58 (for example, 3D hall sensors) as detection units are provided on the upper surface and the lower surface of the extension portion 54A, and the upper and lower sensors 58 are opposed to each other with the extension portion 54A interposed therebetween. It is arranged coaxially with the upper and lower magnets 28. When the lever 24 is rotated to rotate the spherical shaft 24A, the peripheral surface of the arrangement hole 26 and the magnet 28 are not brought into contact with the extending portion 54A. Further, on the upper surface of the sensor substrate 54, an illumination unit (LED or the like) and a switch unit are provided in a portion rearward from the extension portion 54A.

A substantially rectangular plate-shaped control board 60 as a second board is provided on the upper side of the case lower 32B, and the control board 60 is restricted from moving in the horizontal direction with respect to the case lower 32B and is restricted by the upper surface of the case lower 32B. Movement to the lower side is restricted. A second screw 62 is passed through the control board 60 from above, and the second screw 62 is screwed into the second cylinder 50 of the case lower 32B. The control board 60 is sandwiched between the head of the second screw 62 and the upper surface of the case lower 32B by fastening with the second screw 62, and the control board 60 is assembled to the case lower 32B by fastening with the second screw 62. Has been done. The control board 60 is sandwiched between the through cylinder 44 of the case upper 32A and the second cylinder 50 of the case lower 32B by fastening with the first screw 56, and the control board 60 is fastened with the first screw 56 to the case upper. It is attached to 32A and case lower 32B. The control board 60 is electrically connected to the sensor board 54 by a connector connection via a connection hole 46 on the upper wall of the case upper 32A, and the control board 60 is provided with a control unit (microcomputer). There is.

A substantially rectangular plate-shaped connection board 64 as a third board is provided on the upper side of the lower wall of the case lower 32B, and the connection board 64 is restricted from moving in the horizontal direction with respect to the case lower 32B and the case lower 32B. The lower wall regulates downward movement. A third screw 66 is passed through the connection board 64 from above, and the third screw 66 is screwed into the third cylinder 52 of the case lower 32B (see FIGS. 2 and 3). The connection board 64 is sandwiched between the head of the third screw 66 and the lower wall of the case lower 32B by fastening with the third screw 66, and the connection board 64 is assembled to the case lower 32B by fastening with the third screw 66. It is attached. The connection board 64 is electrically connected to the control board 60 by connecting with a connector, and the connection board 64 is provided with the connector 64A. The connection board 64 is electrically connected to a vehicle control device (not shown) via a communication hole 34 of the connector 64A and the case 32 (case upper 32A).

A substantially rectangular parallelepiped box-shaped sensor cover 68 as an accommodating body is assembled on the upper side of the front portion of the plate 12, and the inside of the sensor cover 68 is open to the lower side. The sensor cover 68 covers the upper portion (including the upper portion of the housing 14) of the front portion of the plate 12, and the upper portion of the lever 24 is rotatably penetrated through the upper wall of the sensor cover 68. .. The front wall of the sensor cover 68 extends downward, and the front wall of the sensor cover 68 sandwiches the front end portion 54A of the extending portion 54A of the sensor substrate 54 with the lower surface of the insertion hole 18 on the front side of the housing 14. (See Fig. 2).

A substantially rectangular parallelepiped box-shaped cover 70 as a covering body is assembled on the upper side of the plate 12, the substrate unit 30, and the sensor cover 68, and the inside of the cover 70 is open to the lower side. The cover 70 covers the entire upper portion (including the upper portion of the housing 14) of the plate 12, the substrate unit 30, and the sensor cover 68, and is exposed inside the vehicle interior. The upper wall of the cover 70 has a lever. The upper part of 24 is rotatably penetrated. An indicator 70A as a display unit is provided on the upper wall of the cover 70, and the indicator 70A can be illuminated by the illumination unit of the sensor substrate 54. A switch 70B (for example, a parking switch) is provided on the upper wall of the cover 70, and the switch 70B is operated by an occupant to enable the switch portion of the sensor board 54 to be operated.

Next, the operation of this embodiment will be described.

In the shift device 10 having the above configuration, the shift position of the lever 24 is changed by rotating the lever 24 and rotating the ball shaft 24A of the lever 24. Further, the spherical shaft 24A is rotated so that the arrangement of the magnet 28 with respect to the sensor 58 of the sensor substrate 54 can be changed, the sensor 58 detects the magnetic field generated by the magnet 28, and the shift position of the lever 24 is detected. Will be done.

By the way, when the substrate unit 30 is assembled to the plate 12, the case 32 of the substrate unit 30 is inserted into the guide frame 22 of the plate 12 from the rear side, so that the lower surface, the left surface, and the right surface of the guide frame 22 are inserted. The lower surface, left surface, right surface and pair of contact surfaces 36 of the case 32 are guided to the lower surface of the pair of guide protrusions 22A, respectively, and the lower portion of the third cylinder 52 of the case 32 (case lower 32B) is the insertion groove of the guide frame 22. Inserted into 22B, the case 32 is moved forward.

Further, the extension portion 54A of the sensor substrate 54 of the substrate unit 30 is penetrated from the rear side through the insertion hole 18 on the rear side of the housing 14 of the plate 12 and the arrangement hole 26 of the spherical shaft 24A of the lever 24, and the case 32. The fixing plate 38 is guided by the inclined surface 16A of the fixing cylinder 16 of the housing 14 and moved to the upper side of the fixing cylinder 16. Further, the front end portion of the extending portion 54A is guided by the guide surface 18A of the housing 14 and moved to the upper side of the lower surface of the insertion hole 18 on the front side of the housing 14. Then, the fixing plate 38 is fastened to the fixing cylinder 16 by the fixing screw 40, and the case 32 is assembled to the plate 12.

After that, the sensor cover 68 is assembled on the upper side of the front portion of the plate 12, and the extending portion 54A front end portion of the sensor substrate 54 is sandwiched between the front wall of the sensor cover 68 and the lower surface of the insertion hole 18 on the front side. ..

Here, when the substrate unit 30 is assembled to the plate 12, the lower surface of the case 32 and the pair of contact surfaces 36 are guided to the lower surface of the guide frame 22 of the plate 12 and the lower surface of the pair of guide protrusions 22A, respectively, to form the case. 32 is moved forward (in the direction along the upper and lower surfaces of the sensor substrate 54). Moreover, when the substrate unit 30 is assembled to the plate 12, the lower surface of the case 32 and the pair of contact surfaces 36 are in contact with the lower surface of the guide frame 22 and the lower surface of the pair of guide projections 22A, respectively. Therefore, the lower surface of the guide frame 22 and the lower surface of the pair of guide protrusions 22A can limit the positional deviation of the case 32 and the sensor board 54 in the vertical direction, and the accuracy of the installation position of the sensor board 54 in the vertical direction can be improved. The accuracy of detecting the shift position of the lever 24 by the sensor 58 of the sensor board 54 (extending portion 54A) can be improved.

Further, when the substrate unit 30 is assembled to the plate 12, the left and right surfaces of the case 32 are guided to the left and right surfaces in the guide frame 22, and the case 32 is moved forward. Moreover, when the substrate unit 30 is assembled to the plate 12, the left and right surfaces of the case 32 come into contact with the left and right surfaces in the guide frame 22, respectively. Therefore, the left and right surfaces in the guide frame 22 can limit the positional deviation of the case 32 and the sensor board 54 in the left-right direction, and the accuracy of the installation position of the sensor board 54 in the left-right direction can be improved, so that the sensor of the sensor board 54 can be detected. The detection accuracy of the shift position of the lever 24 by 58 can be further improved.

Further, the extending portion 54A front end portion of the sensor substrate 54 is sandwiched between the front wall of the sensor cover 68 and the lower surface of the insertion hole 18 on the front side of the plate 12 in the vertical direction. Therefore, the front wall of the sensor cover 68 and the lower surface of the insertion hole 18 on the front side can limit the positional deviation of the sensor board 54 (particularly the extending portion 54A) in the vertical direction, and the accuracy of the installation position of the sensor board 54 in the vertical direction can be improved. It can be effectively increased, and the detection accuracy of the shift position of the lever 24 by the sensor 58 on the sensor board 54 can be effectively increased.

Further, the sensor substrate 54 is installed on the plate 12 with the lever 24 installed in the housing 14 of the plate 12. Therefore, the displacement of the sensor board 54 with respect to the lever 24 can be suppressed, the accuracy of the installation position of the sensor board 54 with respect to the lever 24 can be improved, and the detection accuracy of the shift position of the lever 24 by the sensor 58 of the sensor board 54 is effective. Can be high.

Further, when the substrate unit 30 is assembled to the plate 12, the extending portion 54A front end portion of the sensor substrate 54 is guided by the guide surface 18A of the housing 14, and the lower surface upper side of the insertion hole 18 on the front side of the housing 14 ( It is moved to the installation position). Therefore, the front end portion of the extending portion 54A can be easily moved to the upper side of the lower surface of the insertion hole 18 on the front side.

Further, when the substrate unit 30 is assembled to the plate 12, the case 32 is guided by the guide frame 22 of the plate 12, and the movement of the sensor substrate 54 is guided. Therefore, unlike the case where the sensor substrate 54 is guided to the guide frame 22, damage to the sensor substrate 54 can be suppressed.

Further, in the board unit 30, the sensor board 54, the control board 60, the case upper 32A and the case lower 32B of the case 32 are assembled by fastening with the first screw 56. Therefore, the number of fastening portions of the sensor board 54, the control board 60, the case upper 32A and the case lower 32B can be reduced, the size can be reduced, and the assembly man-hours can be reduced to reduce the cost.

In this embodiment, the substrate unit 30 is assembled to the rear side of the lever 24. However, the substrate unit 30 may be assembled, for example, on the lower side, the left side, the right side, or the front side of the lever 24, or the sensor substrate 54 of the substrate unit 30 may face the lever 24.

Further, in the present embodiment, the substrate unit 30 is assembled to the plate 12 to which the lever 24 is assembled. However, assembling the substrate unit 30 to the plate 12 is not limited to after assembling the lever 24 to the plate 12, for example, the plate 12 is attached to the rear housing 14B and the guide frame 22 of the plate 12 to which the substrate unit 30 is assembled. The front housing 14A and the lever 24 may be assembled.

Further, in the present embodiment, the lever 24 is made rotatable about the spherical shaft 24A. However, the lever 24 may be rotatable about, for example, a columnar shaft, or the lever 24 may be slidable.

Further, in the present embodiment, two magnets 28 and two sensors 58 are provided. However, at least one or three or more magnets 28 and sensors 58 may be provided. For example, instead of the format in which the shift position of the lever 24 is determined by combining the outputs of a plurality of ON / OFF sensors (detection units), the output result of the sensor (detection unit) changes for each shift position of the lever 24. By changing the magnetizing mode of one magnet (detected part) on the sensor (detected part) side, one magnet (detected part) is used to determine the shift position of the lever 24. The present invention may be applied to.

Further, in the present embodiment, the shift device 10 is a floor type and is installed on the floor of the vehicle interior. However, the shift device 10 may be installed on the instrument panel or steering column of the vehicle interior.

10 Shift device 12 Plates (accommodation body, installation body)
18A guide surface (installation guide)
22 Guidance frame (guidance section)
24 lever (shift body)
32 cases (moving body, assembled body)
32A case upper (assembly member)
32B case lower (assembly member)
54 Sensor board (board)
56 First screw (fastening member)
68 Sensor cover (accommodation)

Claims (8)

A shift body that is provided with a detected portion and is moved to change the shift position,
A substrate provided with an extension portion provided with a detection unit, the detection unit detecting the position of the detected portion to detect the moving position of the shift body, and a substrate.
An accommodating body in which the shift body is movably accommodated, an insertion hole is provided, the extension portion is inserted into the insertion hole, and the detection portion is arranged inside.
A guide unit that can guide the movement along the plate surface to the installation position of the board, and
A shift device equipped with. A shift body provided with a shaft portion to which a detected portion is provided and moved by rotation of the shaft portion to change the shift position, and a shift body.
A substrate that detects the position of the detected portion and detects the moving position of the shift body,
A guide portion that is a movement along the plate surface to the installation position of the substrate and is capable of guiding the movement of the substrate along the axis rotation axis.
A shift device equipped with. A shift body that is moved and the shift position is changed,
A substrate on which a lighting unit and a switch unit are provided while detecting the moving position of the shift body, and
A guide unit that can guide the movement along the plate surface to the installation position of the board, and
A shift device equipped with. The shift device according to any one of claims 1 to 3 , further comprising a pair of accommodating bodies assembled with each other to accommodate the shift body and the substrate sandwiched between them. The shift device according to any one of claims 1 to 4 , further comprising an installation body on which the substrate can be installed while the shift body is installed. The shift device according to any one of claims 1 to 5, further comprising an installation guide unit capable of guiding the substrate to an installation position. The shift device according to any one of claims 1 to 6, further comprising a moving body to which the substrate is assembled and the guide portion guides the movement of the substrate. An assembly body provided with a pair of assembly members and
A fastening member that fastens a pair of the assembling members and the substrate to assemble the pair of the assembling members and the substrate.
The shift device according to any one of claims 1 to 7.

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