JP6924720B2 - Shift device - Google Patents

Description

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

The following Patent Document 1 has a shift lever that can slide and move along shift directions and select directions that are orthogonal to each other, a base member that is fixed to the vehicle, and a shift gate through which the shift lever penetrates. A shift device including a housing having a cover member to be fixed and a guide member arranged in the housing, capable of parallel movement along a shift direction together with a shift lever, and guiding the shift lever in a select direction is disclosed. There is.

By the way, in this shift device, a rail-shaped groove for guiding the shift lever is provided in the guide member, and the shift lever is guided in the select direction along the groove. That is, since this shift device has a structure in which the guide member receives the load when a load in the vertical direction is applied to the shift lever, it is necessary to give the guide member rigidity. Therefore, there are restrictions on the shape and material.

Japanese Unexamined Patent Publication No. 2007-290602

In consideration of the above facts, an object of the present invention is to obtain a shift device capable of widening the selection of shapes and materials for a member that guides a shift lever in a slide direction.

The shift device according to the first aspect of the present invention includes a shift body whose shift position is changed by being slid in one direction and another direction intersecting the one direction, and a main body of the shift body. A support, a second support fixed to the first support and sandwiching the main body between the first support, and at least one of the first support and the second support. It is provided with a guide body that is slidably supported, guided in the one direction, and guides the main body portion in the other direction.

The shift device of the second aspect of the present invention is the shift device of the first aspect, in which the guide body is adjacent to the main body portion and is arranged between the first support body and the second support body. ..

The shift device according to the third aspect of the present invention is the shift device according to the first or second aspect, wherein the main body has a plurality of protrusions that are in sliding contact with at least one of the first support and the second support. Have.

In the shift device according to the fourth aspect of the present invention, in any one of the first to third aspects, the guide body includes the first moderation means for imparting a sense of moderation in one direction, and the main body portion. Provided a second moderation means for imparting a sense of moderation in the other direction.

In the shift device of the fifth aspect of the present invention, in the shift device of the fourth aspect, the first moderation means has an urging means for applying an urging force along the one direction.

The shift device according to the sixth aspect of the present invention is the shift device according to any one of the first to third aspects. It is provided with a second moderation means provided separately from the first moderation means.

In the shift device of the first aspect, the shift body is sandwiched between the first support and the second support, and the load applied to the shift body in each direction is input to the first support and the second support. NS. In other words, in this shift device, by consolidating the functions related to strength into the first support and the second support, it is possible to broaden the range of choices of shapes and materials for the guides that guide the shift body in the sliding direction. can.

In the shift device of the second aspect, the guide body is arranged between the first support and the second support, so that the place where the backlash occurs in the slide mechanism can be reduced. As a result, the operation feeling of the shift body is improved.

The shift device of the third aspect has the shift body and the first support or the second support by limiting the sliding contact points between the shift body and the first support or the second support to a plurality of protrusions. Since the sliding resistance is reduced, the operation feeling of the shift body is improved.

In the shift device of the fourth aspect, the moderation means is set for each of the one direction and the other direction, which are the slide directions, so that the operating loads in both directions do not affect each other. Therefore, the load can be set in each of the one direction in which the shift body slides and the other direction.

In the shift device of the fifth aspect, in addition to the effect of claim 4, the first moderation means is provided with the urging means along the sliding direction of the guide body, and the urging means generates the urging force. A sense of moderation is given. According to such a first moderation means, since the load increases in proportion to the stroke, the load characteristic of the slide becomes linear. Further, as compared with the case where the moderation pin is provided in the direction perpendicular to the slide direction of the guide body, the sliding resistance between the moderation pin and the moderation surface can be reduced, and the automatic return force when the operating force is released is improved. ..

In the shift device of the sixth aspect, the moderation means is set for each of the one direction and the other direction, which are the slide directions, so that the operating loads in both directions do not affect each other. Therefore, the load can be set in each of the one direction in which the shift body slides and the other direction. In particular, in this shift device, the guide body is not provided with moderation means, and the structure can be simplified. Therefore, for the guide body, it is possible to select a material that is superior in terms of slidability, wear resistance, durability, cost, etc., without giving priority to strength.

It is a perspective view which looked at the shift lever device which concerns on 1st Embodiment from diagonally right rear view. It is an exploded perspective view which looked at the shift lever device which concerns on 1st Embodiment from diagonally right rear view. It is an enlarged view around the gate groove in the shift lever device which concerns on 1st Embodiment. It is a side sectional view (cross-sectional view of XX line of FIG. 1) of the shift lever device which concerns on 1st Embodiment. It is a rear sectional view (cross-sectional view of YY line of FIG. 1) of the shift lever device which concerns on 1st Embodiment. It is a perspective view which looked at the main part of the shift lever device which concerns on 2nd Embodiment from diagonally right rear view. It is a perspective view which looked at the main part of the shift lever device which concerns on 3rd Embodiment from diagonally right rear view.

[First Embodiment]
The structure of the shift lever device 10 as the shift device according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 5. In the drawings, 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 part 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 the floor of a vehicle interior. The vehicle is a right-hand drive vehicle, and the driver's seat is arranged on the front side and the right side of the passenger compartment, and the shift lever device 10 is arranged on the left side of the passenger compartment of the driver's seat. Further, the shift lever device 10 is directed forward, to the right, and upward of the vehicle, respectively, to the front of the vehicle, to the right of the vehicle, and to the upper side of the vehicle.

As shown in FIG. 1, the shift lever device 10 is provided with a substantially rectangular parallelepiped box-shaped plate 12 as a support. As shown in FIG. 2, the plate 12 has an upper plate 14 which is a first support having a wall portion on a side surface and an open lower surface, and a substantially plate-shaped first plate fixed so as to close the open portion of the upper plate 14. It has a lower plate 16 which is a support. In the present embodiment, the fixing pin 34 is inserted into the upper plate 14 and the lower plate 16 and the push nut 36 is fitted to fix the lower plate 16 to the upper plate 14. Further, the upper plate 14 is fixed to the floor of the vehicle interior.

As shown in FIGS. 2 and 3, a gate groove 14A through which a lever 40B described later is inserted is provided in the front-rear center portion and the left-right center portion of the upper wall portion 14B in the upper plate 14. The gate groove 14A is a substantially h-shaped groove whose left and right sides are inverted. Further, as shown in FIG. 2, a through groove 16A through which a columnar portion 46 described later is inserted is provided in the front-rear central portion and the left-right central portion of the lower plate 16. The through groove 16A is a substantially h-shaped groove that is inverted left and right.

As shown in FIG. 4, a substantially rectangular plate-shaped slider 20 as a guide body is housed in the plate 12. The slider 20 is sandwiched between a pair of guide walls 14C provided in the front-rear direction on the lower side of the upper plate 14. The slider 20 is provided with a pair of left and right guide grooves 24 provided along the front-rear direction and an insertion groove 26 provided along the front-rear direction and arranged between the pair of guide grooves 24. .. The guide groove 24 is penetrated in the vertical direction, and is an inclined surface that faces outward in the left-right direction as the wall surface 24A on the center side in the left-right direction moves downward (see FIG. 5). Further, the insertion groove 26 is penetrated in the vertical direction, and its width is slightly larger than the outer diameter of the columnar portion 46 described later, and its length is the outer diameter of the columnar portion 46 in the front-rear direction of the columnar portion 46. It is larger than the distance including the slide amount.

As shown in FIG. 5, on the right side surface of the slider 20, the axial direction is arranged in the left-right direction, and a moderation hole 28 opened on the right side is provided. A compression coil spring 30 as an urging means constituting the first moderation means 22 is inserted into the moderation hole 28, and the left end (axial end) of the compression coil spring 30 is locked to the bottom surface of the moderation hole 28. Has been done. Further, a substantially columnar guide pin 32 constituting the first moderation means 22 is inserted into the moderation hole 28 and the compression coil spring 30. The guide pin 32 is fixed by being fitted into the wall portion on the right side of the upper plate 14, and protrudes into the plate 12.

As shown in FIG. 2, a shift lever 40 as a shift body is arranged on the upper side of the slider 20. The shift lever 40 has a substantially block-shaped shift portion 40A and a columnar lever 40B. As shown in FIGS. 4 and 5, the shift portion 40A is housed in the plate 12 together with the slider 20. Specifically, the shift portion 40A and the slider 20 are arranged between the upper plate 14 and the lower plate 16. At this time, in the shift portion 40A, the protrusions 56 formed to protrude upward at the left, right, front and rear corners are in contact with the ceiling portions 14D provided on both sides of the upper wall portion 14B in the front-rear direction (see FIG. 4).

A pair of left and right substantially triangular columnar guide portions 44 and a columnar columnar portion 46 arranged between the pair of guide portions 44 are provided on the lower portion of the shift portion 40A. The guide portion 44 has a longitudinal direction in the front-rear direction, and an inclined surface toward the outside in the left-right direction as the wall surface 44A on the center side in the left-right direction moves downward. Then, when the shift lever 40 is arranged on the upper side of the slider 20, the pair of guide portions 44 are housed in the corresponding guide grooves 24, respectively. At this time, the columnar portion 46 penetrates the insertion groove 26. The columnar portion 46 constitutes a sensor unit that is a means for detecting the shift position, and a magnet for sensing is attached to the tip of the columnar portion 46.

As shown in FIG. 2, the protruding portion on the upper side of the shift portion 40A is provided with a pair of left and right moderation holes 50 and an insertion hole 48 arranged between the pair of moderation holes 50. The insertion holes 48 are arranged in the vertical direction in the axial direction and are open to the upper side. A lever 40B is inserted into the insertion hole 48 and fitted. That is, the axial direction of the lever 40B is parallel to the vertical direction. When the lever 40B is operated in the front-rear direction and the left-right direction by the occupant (driver) of the vehicle, the shift lever 40 is orthogonal (intersects) to each other in the front-rear direction (shift direction, other direction) and the left-right direction (select direction, respectively). It is slid in one direction).

As shown in FIG. 3, in the present embodiment, the shift lever 40 is usually arranged at the "H" position (home position) as the shift position (predetermined position). The shift lever 40 is slid to the rear from the "H" position and is arranged at the "B" position (brake position) as the shift position, and is slid to the right from the "H" position to the shift position. Is placed in the "N" position (neutral position). Further, the shift lever 40 is slid from the "N" position to the front side to be arranged at the "R" position (reverse position) as the shift position, and is slid from the "N" position to the rear side. It is arranged at the "D" position (drive position) as the shift position.

Further, as shown in FIG. 5, the moderation holes 50 are arranged substantially parallel in the vertical direction in the axial direction and are open to the upper side. A compression coil spring 52 as an urging means constituting the second moderation means 42 is inserted into the moderation hole 50, and the lower end (one end in the axial direction) of the compression coil spring 52 is the lower surface (bottom surface) of the moderation hole 50. Is locked in. A substantially columnar moderation pin 54 as a moderation member constituting the second moderation means 42 is fitted in the moderation hole 50 on the upper side of the compression coil spring 52, and the moderation pin 54 is placed on the upper side by the compression coil spring 52. It is urged to protrude above the moderation hole 50.

Here, a moderation surface 18 constituting the second moderation means 42 is formed on the lower side of the upper wall portion 14B of the upper plate 14 and on the lateral side of the gate groove 14A in the left-right direction, and the moderation surface 18 is formed. , The moderation pin 54 is in contact with the urging force of the compression coil spring 52. The moderation surface 18 is inclined downward from the central portion in the front-rear direction toward both sides in the front-rear direction, and there is no change in height in the left-right direction.

Next, the operation of this embodiment will be described.

In the shift lever device 10 having the above configuration, the shift portion 40A of the shift lever 40 is slidably supported with respect to the plate 12. Normally, the shift position of the shift lever 40 is set to the "H" position (home position) as a predetermined position, and the shift position is changed by sliding the shift lever 40 from the "H" position.

When the shift lever 40 is slid backward (shift direction) from the "H" position to the "B" position, the left and right moderation pins 54 as the shift lever 40 is separated from the "H" position. Are pressed against the moderation surface 18 and moved into the moderation hole 50, thereby increasing the amount of compression of the compression coil spring 52 and increasing the urging force of the compression coil spring 52. Further, when the shift lever 40 is slid from the "N" position toward the "R" or "D" position in the front-rear direction (shift direction), the shift lever 40 is separated from the "N" position. The left and right moderation pins 54 are pressed against the moderation surface 18 and moved into the moderation hole 50, so that the amount of compression of the compression coil spring 52 is increased and the urging force of the compression coil spring 52 is increased.

On the other hand, when the shift lever 40 is slid from the "H" position to the "N" position in the left-right direction (select direction), the shift lever 40 is moved away from the "H" position. The compression coil spring 30 is pressed by the slider 20 connected to. Then, by moving the compression coil spring 30 into the moderation hole 28, the amount of compression of the compression coil spring 30 is increased, and the urging force of the compression coil spring 30 is increased.

Therefore, when the operating force is released while the shift lever 40 is arranged in the "B" position, the shift lever 40 is slid (returned) to the "H" position by the urging force of the compression coil spring 52. .. Further, when the operating force is released while the shift lever 40 is arranged at the "R" and "D" positions, the shift lever 40 slides (returns) to the "N" position by the urging force of the compression coil spring 52. ). Then, the shift lever 40 is slid (returned) to the "H" position together with the slider 20 by the urging force of the compression coil spring 30.

As shown in FIGS. 4 and 5, in the present embodiment, the shift portion 40A of the shift lever 40 is slidable in the front-rear direction with respect to the slider 20. Specifically, the guide portion 44 provided in the shift portion 40A slides along the guide groove 24 provided in the slider 20, so that the shift portion 40A slides in the front-rear direction. Further, the slider 20 to which the shift portion 40A is joined is slidable in the left-right direction with respect to the upper plate 14. Specifically, the slider 20 slides in the left-right direction by sliding along the guide wall 14C provided on the upper plate 14. In the present embodiment, the shift portion 40A is slidably supported in the front-rear direction and the left-right direction, so that the movement in the rotation direction about the up-down direction is restricted.

As described above, in the shift lever device 10 of the present embodiment, the shift portion 40A of the shift lever 40 is arranged above the slider 20, but the shift portion 40A is sandwiched between the upper plate 14 and the lower plate 16. ..

Here, the load applied to the shift lever 40 is held by the plate 12 as follows. First, as shown in FIG. 3, the load applied to the shift lever 40 in the front-rear and left-right directions is held by the lever 40B coming into contact with the inner wall surface of the gate groove 14A provided in the upper plate 14. Further, as shown in FIG. 4, the upward load applied to the shift lever 40 is held by the protrusions 56 formed at the four corners of the shift portion 40A coming into contact with the ceiling portion 14D of the upper plate 14. Further, as shown in FIG. 5, the downward load applied to the shift lever 40 is held by the guide portion 44 formed on the lower side of the shift portion 40A coming into contact with the lower plate 16. Since the lower plate 16 is connected to the upper plate 14 by the fixing pin 34, the downward load applied to the shift lever 40 is input to the upper plate 14.

As described above, according to the present embodiment, the loads applied to the shift lever 40 in each direction are input to the upper plate 14 and the lower plate 16. That is, in the present embodiment, by consolidating the functions related to strength in the upper plate 14 and the lower plate 16 (particularly, the upper plate 14), it is possible to broaden the range of shape and material selection for other parts such as the slider 20. can.

Supplementally, in the present embodiment, since the vertical load input to the shift portion 40A via the lever 40B is not input to the slider 20, the strength requirement for the slider 20 is low. Therefore, for the slider 20, a material that is superior in terms of slidability, wear resistance, durability, cost, and the like can be selected.

Further, the upper plate 14 is fixed to the floor of the vehicle interior, and the load in the front-rear direction and the left-right direction of the shift lever 40 is input to the upper plate 14 (gate groove 14A). Therefore, by increasing the strength of the upper plate 14, it is possible to suppress the occurrence of play in the upper plate 14 and improve the operation feeling of the shift lever 40.

Further, in the shift lever device 10 of the present embodiment, the shift portion 40A of the shift lever 40 is sandwiched between the upper plate 14 and the lower plate 16. Therefore, the occurrence of backlash in the vertical direction is suppressed in the shift lever 40, and the operation feeling of the shift lever 40 is improved.

Further, since the slider 20 is sandwiched between the upper plate 14 and the lower plate 16, it is possible to reduce the place where the slider 20 is loosened with respect to the shift lever 40, and as a result, the operation feeling of the shift lever 40 is improved. ..

In the present embodiment, protrusions 56 are formed at the upper four corners of the shift portion 40A that slides back and forth and left and right, and at the contact portions of the upper plate 14 with the ceiling portion 14D. That is, in the present embodiment, the sliding contact points with the upper plate 14 in the shift portion 40A are limited to the four protrusions 56. As a result, the sliding resistance between the shift portion 40A and the upper plate 14 is reduced, and the operation feeling of the shift lever 40 is improved.

It should be noted that protrusions may be formed on both ends of the lower surface of the guide portion 44 in the front-rear direction and in contact with the lower plate 16. In this case, the sliding contact point between the shift portion 40A and the lower plate 16 is limited to the four protrusions, so that the sliding resistance between the shift portion 40A and the lower plate 16 is also reduced, and the operation feeling of the shift lever 40 is reduced. Is further improved.

In the present embodiment, the first moderation means 22 gives the shift lever 40 (slider 20) a sense of moderation in the left-right direction (select direction, one direction), and the second moderation means 42 gives the shift lever 40 a feeling of moderation in the front-rear direction (the shift lever 40). A sense of moderation in the shift direction and other directions is given. Here, when giving a sense of moderation in the left-right direction and the front-back direction by one moderation means, if the lever is operated in the select direction and then the operation in the shift direction is continuously performed, the operation in the select direction ends. It is necessary to operate in the shift direction while continuing the spring compression reaction force at that time. Therefore, the load characteristics at the time of operation in the shift direction are greatly affected by the load in the select direction, and the settable operating force is limited.

On the other hand, in the present embodiment, by setting the moderation means for each of the select direction and the shift direction, the operating loads in both directions do not affect each other, and the load can be set in each of the select direction and the shift direction. It will be possible. For example, the select direction can be a low load and the shift direction can be a high load.

Further, in the present embodiment, in the first moderation means 22, the compression coil spring is not pressed via the moderation pin protruding in the direction perpendicular to the slide direction of the slider 20, but is arranged horizontally along the slide direction. The compression coil spring 30 is pressed. That is, in the first moderation means 22, a feeling of moderation is given by directly pressing the compression coil spring 30. According to the first moderation means 22 of the present embodiment, since the load increases in proportion to the stroke, the load characteristic of the slide becomes linear. In this way, when linear load characteristics are to be obtained in the moderation means, the sliding resistance between the moderation pin and the moderation surface can be reduced and the operating force is released by setting the operating load with the horizontal compression coil spring. The automatic return force to the "H" position (home position) is improved.

The first moderation means 22 of the present embodiment is composed of one compression coil spring 30 as an urging means, but is not limited to this, and may be composed of a plurality of compression coil springs 30. Further, the urging means is not limited to the compression coil spring, and a tension coil spring, a leaf spring, a rubber or urethane bush or the like may be adopted.

Further, in the second moderation means 42 of the present embodiment, a pair of a compression coil spring 52, a moderation pin 54, and a moderation surface 18 are provided on each of the left and right sides, but the present invention is not limited to this, and one of the left and right sides is provided. May be provided only. Further, the urging means is not limited to the compression coil spring, and a leaf spring, a rubber or urethane bush or the like may be adopted.

Further, in the present embodiment, the slider 20 is guided in the left-right direction (select direction, one direction) with respect to the plate 12, and the shift lever 40 is guided in the front-rear direction (shift direction, other direction) with respect to the slider 20. However, this is not the case. That is, the slider 20 may be guided in the front-rear direction (shift direction, one direction) with respect to the plate 12, and the shift lever 40 may be guided in the left-right direction (select direction, other direction) with respect to the slider 20.

[Second Embodiment]
FIG. 6 shows a main portion of the shift lever device 110 as the shift device according to the second embodiment of the present invention in a perspective view seen from diagonally right rearward. The shift lever device 110 of the present embodiment has a different moderation means configuration from that of the first embodiment. Hereinafter, the differences from the first embodiment will be described. The same components as those in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

The shift lever device 110 is provided with a substantially rectangular parallelepiped box-shaped plate 112 as a support. The plate 112 has an upper plate (not shown) which is a first support having a wall portion on the side surface and an open lower surface, and a substantially plate shape fixed so as to close the open portion of the upper plate as shown in FIG. It has a lower plate 116, which is a second support of the above.

A substantially rectangular plate-shaped slider 120 as a guide body is housed in the plate 112. The slider 120 is sandwiched between a pair of guide walls 116C provided in the front-rear direction on the upper side of the lower plate 116.

Columnar columnar portions 120A are provided at both ends in the front-rear direction on the upper side of the slider 120. The columnar portion 120A is provided with a pair of moderation holes 128 that are arranged in the vertical direction in the axial direction and are open on the upper side. A compression coil spring 130 as an urging means constituting the first moderation means 122 is inserted into the moderation hole 128, and the lower end (one end in the axial direction) of the compression coil spring 130 is locked to the bottom surface of the moderation hole 128. Has been done. A substantially columnar moderation pin 132 as a moderation member constituting the first moderation means 122 is fitted in the moderation hole 128 on the upper side of the compression coil spring 130, and the moderation pin 132 is placed on the upper side by the compression coil spring 130. It is urged to project above the moderation hole 128.

Here, another moderation surface (not shown) constituting the first moderation means 122 is formed on the outer side in the front-rear direction of the lower surface of the upper wall portion of the upper plate, and the moderation pin 132 is formed on the other moderation surface. Is in contact with the urging force of the compression coil spring 130. The other moderation surfaces are inclined downward from the central portion in the left-right direction toward both sides in the left-right direction, and there is no change in height in the front-rear direction.

A shift lever 140 as a shift body is arranged on the upper side of the slider 120. The shift lever 140 has a substantially block-shaped shift portion 140A and a columnar lever 40B. The shift portion 140A is housed in the plate 112 together with the slider 120. Specifically, the shift portion 140A and the slider 120 are sandwiched between the upper plate and the lower plate 116. At this time, in the shift portion 140A, the protrusions 56 formed so as to protrude upward at the left, right, front, and rear corners are in contact with the ceiling portion 14D of the upper plate.

A wall-shaped guide portion 144 projecting downward is provided on the lower end of the shift portion 140A and on the outer end in the left-right direction. The guide portion 144 has a longitudinal direction in the front-rear direction, and a wall surface 144A on the center side in the left-right direction is a surface perpendicular to the left-right direction. When the shift lever 140 is arranged above the slider 120, the slider 120 is housed between the guide portions 144 without any gap.

Further, a substantially U-shaped notch 156 cut out from the front-rear outer end portion toward the front-rear direction central portion is provided on the front-rear direction outer side and the left-right direction central portion of the shift portion 140A. The columnar portion 120A of the slider 120 is housed in the notch portion 156. The width of the notch 156 in the left-right direction is larger than the outer diameter of the columnar portion 120A, and the length in the front-rear direction is larger than the distance obtained by adding the amount of movement of the shift lever 140 in the front-rear direction to the outer diameter of the columnar portion 120A.

Further, a second moderation means 42 is provided on the upper side of the shift portion 140A. The configuration is the same as that of the first embodiment, and the description thereof will be omitted.

The second embodiment configured as described above also has the same effect as that of the first embodiment.

In the first moderation means 122 of the present embodiment, the compression coil spring 130, the moderation pin 132, and the moderation surface are each provided in pairs on the left and right sides, but the present invention is not limited to this, and only one of the left and right sides is provided. It may be provided. Further, the urging means is not limited to the compression coil spring, and a leaf spring, a rubber or urethane bush or the like may be adopted. The same applies to the second moderation means 42.

Further, in the present embodiment, the slider 120 is guided in the left-right direction (select direction, one direction) with respect to the plate 112, and the shift lever 140 is guided in the front-rear direction (shift direction, other direction) with respect to the slider 120. However, this is not the case. That is, the slider 120 may be guided in the front-rear direction (shift direction, one direction) with respect to the plate 112, and the shift lever 140 may be guided in the left-right direction (select direction, other direction) with respect to the slider 120.

[Third Embodiment]
FIG. 7 shows a main portion of the shift lever device 210 as the shift device according to the third embodiment of the present invention in a perspective view seen from diagonally right rearward. The shift lever device 210 of the present embodiment has a different moderation means configuration from the first and second embodiments. Hereinafter, the differences from the first embodiment will be described. The same components as those in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

The shift lever device 210 is provided with a substantially rectangular parallelepiped box-shaped plate 212 as a support. The plate 212 has an upper plate (not shown) which is a first support having a wall portion on the side surface and an open lower surface, and a substantially plate shape fixed so as to close the open portion of the upper plate as shown in FIG. It has a lower plate 216, which is the second support of the above.

A substantially rectangular plate-shaped slider 220 as a guide is housed in the plate 212. The slider 220 is sandwiched between a pair of guide walls 216C provided in the left-right direction on the upper side of the lower plate 216.

A shift lever 240 as a shift body is arranged on the upper side of the slider 220. The shift lever 240 has a substantially block-shaped shift portion 240A and a columnar lever 40B. The shift portion 240A is housed in the plate 212 together with the slider 220. Specifically, the shift portion 240A and the slider 220 are sandwiched between the upper plate and the lower plate 216. At this time, in the shift portion 240A, the protrusions 56 formed so as to protrude upward at the left, right, front, and rear corners are in contact with the ceiling portion 14D of the upper plate.

A wall-shaped guide portion 244 projecting downward is provided on the outer side in the front-rear direction on the lower side of the shift portion 240A. The guide portion 244 has a longitudinal direction in the left-right direction, and a wall surface 244A on the center side in the front-rear direction is a plane perpendicular to the front-rear direction. When the shift lever 240 is arranged on the upper side of the slider 220, the slider 220 is housed between the guide portions 244 without a gap.

The protruding portion on the upper side of the shift portion 240A is provided with a moderation hole 228 on the front side and a moderation hole 250 on the rear side with the insertion hole 48 interposed therebetween.

The moderation holes 228 are arranged in the vertical direction in the axial direction and are open to the upper side. A compression coil spring 230 as an urging means constituting the first moderation means 222 is inserted into the moderation hole 228, and the lower end (one end in the axial direction) of the compression coil spring 230 is locked to the bottom surface of the moderation hole 228. Has been done. A substantially columnar moderation pin 232 as a moderation member constituting the first moderation means 222 is fitted in the moderation hole 228 on the upper side of the compression coil spring 230, and the moderation pin 232 is on the upper side by the compression coil spring 230. It is urged to project above the moderation hole 228.

Here, a first moderation surface (not shown) constituting the first moderation means 222 is formed on the lower surface on the front side of the upper wall portion of the upper plate, and the moderation pin 232 is formed on the first moderation surface. The contact is made by the urging force of the compression coil spring 230. The first moderation surface is inclined downward from the central portion in the left-right direction toward both sides in the left-right direction, and there is no change in height in the front-rear direction.

On the other hand, the moderation holes 250 are arranged in the vertical direction in the axial direction and are open to the upper side. A compression coil spring 252 as an urging means constituting the second moderation means 242 is inserted into the moderation hole 250, and the lower end (one end in the axial direction) of the compression coil spring 252 is the lower surface (bottom surface) of the moderation hole 250. Is locked in. A substantially columnar moderation pin 254 as a moderation member constituting the second moderation means 242 is fitted in the moderation hole 250 on the upper side of the compression coil spring 252, and the moderation pin 254 is on the upper side by the compression coil spring 252. It is urged to project above the moderation hole 250.

Here, a second moderation surface (not shown) constituting the second moderation means 242 is formed on the lower surface on the rear side of the upper wall portion of the upper plate, and the moderation pin 254 is formed on the second moderation surface. The contact is made by the urging force of the compression coil spring 252. The second moderation surface is inclined downward from the central portion in the front-rear direction toward both sides in the front-rear direction, and there is no change in height in the left-right direction.

The third embodiment configured as described above also has the same effects as those of the first and second embodiments. In the third embodiment, the components of the first moderation means 222 and the second moderation means 242 are integrated into a plate 212 (upper plate) and a shift lever 240. That is, the slider 220 of the present embodiment is not provided with moderation means, and its structure can be simplified. Therefore, for the slider 220, a material that is superior in terms of slidability, wear resistance, durability, cost, and the like can be selected without giving priority to strength.

The moderating means of the present embodiment is not limited to the compression coil spring, and a leaf spring, a rubber bush, a urethane bush, or the like may be adopted.

Further, in the present embodiment, the slider 220 is guided in the front-rear direction (shift direction, one direction) with respect to the plate 212, and the shift lever 240 is guided in the left-right direction (select direction, other direction) with respect to the slider 220. However, this is not the case. That is, the slider 220 may be guided in the left-right direction (select direction, one direction) with respect to the plate 212, and the shift lever 240 may be guided in the front-rear direction (shift direction, other direction) with respect to the slider 220.

In each embodiment, the shift lever devices 10, 110, and 210 are made floor type and installed on the floor of the vehicle interior. However, the shift lever devices 10, 110, 210 may be installed on the instrument panel or steering column of the vehicle interior.

10 Shift lever device (shift device)
14 Upper plate (first support)
16 Lower plate (second support)
20 Slider (guide)
22 First moderation means 30 Compression coil spring (urging means)
40 shift lever (shift body)
40A shift part (main body part)
42 Second moderation means 56 Projection 110 Shift lever device (shift device)
116 Lower plate (second support)
120 slider (guide)
122 First moderation means 140 Shift lever (shift body)
140A shift part (main body part)
210 Shift lever device (shift device)
216 Lower plate (second support)
220 slider (guide)
222 First moderation means 240 Shift lever (shift body)
240A shift part (main body part)
242 Second moderation means

Claims (6)

A shift body whose shift position is changed by sliding in one direction and in the other direction intersecting the one direction.
A first support for accommodating the main body of the shift body and
A second support fixed to the first support and sandwiching the main body with the first support,
A guide body that is slidably supported by at least one of the first support and the second support, is guided in the one direction, and guides the main body portion in the other direction.
A shift device equipped with. The guide body
The shift device according to claim 1, which is adjacent to the main body and is arranged between the first support and the second support. The main body
The shift device according to claim 1 or 2, which has a plurality of protrusions that are in sliding contact with at least one of the first support and the second support. The guide body includes a first moderation means for imparting a sense of moderation in one direction.
The shift device according to any one of claims 1 to 3, wherein the main body portion includes a second moderation means for imparting a sense of moderation in the other direction. The first moderation means
The shift device according to claim 4, further comprising an urging means for applying an urging force along the one direction. The main body
The first moderation means for imparting a sense of moderation in one direction,
The second moderation means provided separately from the first moderation means, which gives a feeling of moderation in the other direction,
The shift device according to any one of claims 1 to 3.

Images