JP2023088775A - lever device - Google Patents

Abstract

To provide a lever device capable of being downsized.SOLUTION: A lever device comprises a lever, a housing, a first cover, and a second cover. The lever includes an operation part and a rolling element. The second cover includes a first rib. The first rib extends further to the housing side than the center of the rolling element from a surface facing the first cover in a first direction along an axial direction of the lever. The first cover includes a snap fit part. The snap fit part extends further to the housing side than the center of the rolling element from a side surface of the first cover in the first direction. The housing includes an engaged part and a second rib. The snap fit part is engaged with an end part of the engaged part in the first direction. The second rib is located closer to the lever side than the snap fit part in a second direction orthogonal to the first direction. The first rib is located between the snap fit part and the second rib in the second direction. The first rib and the snap fit part extend at least to the end part of the engaged part.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to lever devices.

BACKGROUND Conventionally, a lever device is known that includes a housing, a lever, a ball shaft connected to the lever, and a ball bearing. A cover is provided above the ball shaft. The cover engages the housing over the ball shaft to prevent disengagement of the ball shaft from the ball bearing.

JP 2014-15084 A

In order to prevent the ball shaft from coming off the ball bearing, the conventional lever device needs to be provided with an engaging portion above the ball shaft where the cover and the housing are engaged with each other. Therefore, a space is required above the ball shaft, making it difficult to miniaturize the lever device.

The present disclosure provides a lever device that can be miniaturized.

To achieve the above object, a lever device according to the present disclosure includes a lever, a housing, a first cover, and a second cover. The lever has an operating portion and a rolling element coupled to the operating portion. The housing allows the lever to pass therethrough and accommodates the rolling elements in a rotatable manner. A 1st cover covers the rolling element accommodated in the housing|casing. The second cover covers the first cover. The second cover has a first rib. The first rib extends toward the housing from the center of the rolling element from the surface facing the first cover in the first direction along the axial direction of the lever. The first cover is provided with a first hole and has a snap fit portion. A first rib is inserted through the first hole. The snap fit portion extends from the side surface of the first cover toward the housing from the center of the rolling element in the first direction. The housing is provided with a second hole, and has an engaged portion and a second rib. The first rib and the snap fit portion are inserted through the second hole. The snap fit portion engages the end of the engaged portion in the first direction. The second rib is located closer to the lever than the snap fit portion in a second direction perpendicular to the first direction. The first rib is located between the snap fit portion and the second rib in the second direction. The first rib and snap fit portion extend at least to the end of the engaged portion.

The lever device according to the present disclosure can be downsized.

FIG. 1 is a perspective view of the lever device of this embodiment. FIG. 2 is an exploded perspective view of FIG. 1 of the lever device of this embodiment. FIG. 3 is a sectional view showing a part of the structure of FIG. 1 of the lever device of this embodiment. FIG. 4 is a perspective view of the cap of this embodiment. FIG. 5 is a perspective view of the cap of this embodiment from a direction different from that of FIG.

(embodiment)
Hereinafter, the lever device 1 according to this embodiment will be described based on the drawings. The configurations of the embodiments described below and the actions and results (effects) brought about by the configurations are merely examples, and are not limited to the following descriptions. In this specification, ordinal numbers are used only to distinguish parts and members, and do not indicate order or priority.

FIG. 1 is a perspective view of a lever device 1 according to this embodiment. FIG. 2 is an exploded perspective view of the lever device 1 according to this embodiment. As shown in FIGS. 1 and 2, the lever device 1 of this embodiment includes a lever 2, a case 3, a base 4, a cap 5, and a cap cover 6. The case 3 is an example of a housing, and the cap 5 is an example of a first cover. Furthermore, the cap cover 6 is an example of a second cover.

In the figures below, three mutually orthogonal directions are defined for convenience. The X direction is a direction along the longitudinal direction of the base 4 and can also be referred to as the front-rear direction. The Y direction is a direction along the width direction of the base 4 and can also be referred to as a left-right direction. The Z direction is the direction along the axial direction of the lever 2 in the non-operated state, and can also be referred to as the vertical direction. It should be noted that expressions indicating directions such as front, back, left, right, up and down in the present embodiment are names for convenience, and do not limit the position, posture, and mode of use of the lever device 1 . Also, the Z direction is an example of a first direction.

Furthermore, in the following description, the radial direction about the axis Ax of the lever 2 is simply referred to as the radial direction, and the circumferential direction about the axis Ax of the lever 2 is simply referred to as the circumferential direction. Also, the radial direction is an example of the second direction.

The lever 2 has a cylindrical shape, extends in the vertical direction (Z direction), and is inserted through the case 3 . During operation, the lever 2 can be tilted in the radial direction.

As shown in FIG. 2 , the lever 2 has an operating portion 21 , a ball shaft 22 , a support rod 23 and a projection 24 . Note that the ball shaft 22 is an example of a rolling element.

The operating portion 21 is a portion exposed to the outside of the lever 2 inserted through the case 3 . The operation unit 21 rotates the ball shaft 22 by being gripped and tilted by the operator.

The ball shaft 22 is connected to the operating portion 21 and housed in the case 3 . Although the ball shaft 22 is spherical in this embodiment, the shape of the ball shaft 22 is not limited to this. For example, the shape of the ball shaft 22 may be ellipsoidal.

The support rod 23 extends downward (-Z direction) from the center of the ball shaft 22 . During operation, the support rod 23 tilts in a direction opposite to the direction in which the operating portion 21 tilts. The protrusion 24 protrudes radially outward from the outer peripheral surface of the ball shaft 22 .

FIG. 3 is a sectional view showing the configuration of part of the lever device 1 according to this embodiment. As shown in FIGS. 2 and 3, the case 3 includes a first snap-fit portion 31, a support portion 32, a first engaged portion 33, a second engaged portion 34, ribs 35, and recesses 36. and have The first engaged portion 33 is an example of an engaged portion, and the rib 35 is an example of a second rib.

A plurality of first snap fit portions 31 are provided radially from the center of the case 3 . The plurality of first snap fit portions 31 are separated from each other in the front-rear direction (X direction) and the left-right direction (Y direction). A lever 2 is positioned between two first snap-fit portions 31 among the plurality of first snap-fit portions 31 .

Each of the first snap fit portions 31 is made of, for example, an elastically deformable resin or the like. Each of the first snap-fit portions 31 extends downward (−Z direction) from the side surface 3a of the case 3 . The side surface 3a is a substantially flat surface that extends in the vertical direction (Z direction) and faces the outside.

Each of the first snap fit portions 31 includes an extension portion 31a extending downward (−Z direction) from the side surface 3a, a slit 31b opening from the extension portion 31a in a direction orthogonal to the vertical direction, and an engaging surface surrounding the slit 31b. 31c and.

The slit 31b opens in a direction perpendicular to the vertical direction from the inner surface of the extension 31a facing the base 4 . The engaging surface 31c is a part of the extension portion 31a, is an inner surface of the slit 31b, and faces upward (+Z direction).

The support portion 32 has a through hole 321 through which the lever 2 is inserted, and a support surface 322 that supports the ball shaft 22 . The shape of the support surface 322 is a curved surface corresponding to the shape of the ball shaft 22 . In the support portion 32 , the support surface 322 supports the ball shaft 22 of the lever 2 inserted through the through hole 321 . Thereby, the ball shaft 22 is positioned in the vertical direction (Z direction). In other words, the case 3 rotatably accommodates the ball shaft 22 in the support portion 32 .

In addition, in this embodiment, the shape of the support surface 322 is a curved surface corresponding to the shape of the ball shaft 22 . However, the shape of the support surface 322 may be appropriately changed according to the shape of the ball shaft 22 .

A plurality of first engaged portions 33 are provided in a radial direction from the axis Ax of the lever 2 when the lever 2 in the non-operated state is attached to the case 3 . Two of the plurality of first engaged portions 33 are separated from each other in a direction crossing the vertical direction (Z direction). The lever 2 is positioned between two of the plurality of first engaged portions 33 . That is, two of the plurality of first engaged portions 33 are separated from each other in the radial direction so that the lever 2 is positioned between two of the plurality of first engaged portions 33 .

Each of the first engaged portions 33 extends downward (−Z direction) from the upper surface 3b of the case 3 . The upper surface 3b is a substantially flat surface that extends along a direction (XY plane) perpendicular to the vertical direction (Z direction) of the case 3 and faces upward (+Z direction). Each of the first engaged portions 33 has an inclined surface 33 a inclined downward toward the inside of the case 3 .

A lower end portion 33b, which is an end portion in the downward direction (−Z direction) of each of the first engaged portions 33, is located below the center of the ball shaft 22 ( −Z direction). Note that the lower end portion 33b is an example of an end portion.

A plurality of second engaged portions 34 are provided on the side surface 3 a of the case 3 . The plurality of second engaged portions 34 are arranged apart from each other in the circumferential direction of the case 3 .

Each of the second engaged portions 34 has a claw portion 34a, an inclined surface 34b, and an engaged surface 34c. The claw portion 34 a extends upward (+Z direction) from the side surface 3 a of the case 3 and protrudes outside the case 3 . The inclined surface 34b is a part of the claw portion 34a and is inclined downward toward the outside of the case 3 . The engaged surface 34c is a part of the claw portion 34a and faces downward (-Z direction) of the claw portion 34a.

A plurality of ribs 35 are provided radially from the center of the support portion 32 . The plurality of ribs 35 are spaced apart from each other in the circumferential direction.

Each rib 35 extends downward (−Z direction) from the upper surface 3b of the case 3 . Each of the ribs 35 has a regulating surface 35 a that is a substantially flat surface facing the first engaged portion 33 .

The recessed portion 36 is located adjacent to the surface of the support portion 32 facing the through hole 321 and recessed downward (−Z direction) from the upper surface 3b of the case 3 .

Further, the case 3 is provided with a plurality of holes 37 opened in the vertical direction (Z direction) and a plurality of screw holes 38 . Note that the hole 37 is an example of a second hole.

A plurality of holes 37 are provided adjacent to the rib 35 . Note that the sizes of the plurality of holes 37 may be appropriately changed as long as the sizes allow the second snap-fit portion 52 of the cap 5 and the restricting ribs 63 of the cap cover 6 to pass through.

In this embodiment, each of the screw holes 38 is provided at the four corners of the surface of the case 3 facing the base 4 when the case 3 is attached to the base 4 . The position of each screw hole 38 may be appropriately changed to a position that does not interfere with the tilting lever 2 inside the case 3 .

The base 4 is attached to a vehicle member or the like with, for example, bolts or the like. Inside the base 4 , the support rod 23 of the lever 2 passing through the case 3 contacts the inner wall of the base 4 . Thereby, the base 4 limits the rotation range of the lever 2 .

As shown in FIG. 2, when the case 3 is attached to the base 4, the base 4 has a plurality of screw holes 41 opening vertically (in the Z direction) at the four corners of the surface of the base 4 facing the case 3. is provided. The base 4 fixes the case 3 with each of the screws 39 in a state in which the plurality of screw holes 41 and the plurality of screw holes 38 of the case 3 overlap.

A plurality of engaged portions 42 are provided on a side surface 4a that extends in the vertical direction (Z direction) of the base 4 and is a substantially flat surface facing the outside. The plurality of engaged portions 42 are arranged apart from each other in the circumferential direction of the base 4 .

Each of the engaged portions 42 has a claw portion 42a, an inclined surface 42b, and an engaged surface 42c. The claw portion 42 a protrudes outward from the side surface 4 a of the base 4 . The inclined surface 42 b is part of the claw portion 42 a and is inclined downward toward the outside of the base 4 . The engaged surface 42c is a part of the claw portion 42a and faces downward (-Z direction) of the claw portion 42a.

Each of the engaged portions 42 couples the case 3 and the base 4 by engaging the engaged surface 42 c with the engaging surface 31 c of the first snap fit portion 31 . That is, in this embodiment, the method of connecting the case 3 and the base 4 is snap fit.

Note that the method of connecting the case 3 and the base 4 is not limited to this. For example, each of the first snap-fit portions 31 of the case 3 has a claw-like projection, and a method of engaging this projection with a groove provided on the side surface 4a of the base 4 may be employed.

FIG. 4 is a perspective view of the cap 5 according to this embodiment. FIG. 5 is a perspective view of FIG. 4 viewed from below (-Z direction).

As shown in FIGS. 3, 4, and 5, the cap 5 allows the lever 2 to pass through an opening 51 opened in the vertical direction (Z direction) at the center of the cap 5, and the ball shaft 22 accommodated in the case 3. cover. In other words, the cap 5 is located above the ball shaft 22 (+Z direction).

The edge of the opening 51 restricts the rotation range of the lever 2 by abutting the operation portion 21 and the edge of the opening 51 when the operation portion 21 is tilted by the operator.

Also, the cap 5 has a second snap fit portion 52 , a first spherical portion 53 , a second spherical portion 54 , a spherical rib 55 , a holding portion 56 and a convex portion 57 . The second snap fit portion 52 is an example of a snap fit portion, and the spherical rib 55 is an example of a third rib.

A plurality of second snap fit portions 52 are provided in the radial direction from the axis Ax of the lever 2 . Two of the plurality of second snap fit portions 52 are separated from each other in a direction crossing the vertical direction (Z direction). A lever 2 is positioned between two of the plurality of second snap fit portions 52 . That is, two of the plurality of second snap fit portions 52 are spaced apart from each other in the radial direction such that the lever 2 is positioned between two of the plurality of second snap fit portions 52 .

Each of the second snap fit portions 52 is made of, for example, an elastically deformable resin or the like. Each of the second snap-fit portions 52 is accommodated in the case 3 from the side surface 5a of the cap 5 in the vertical direction (Z direction) when the lever 2 in the non-operating state and the cap 5 are attached to the case 3. It extends downward (-Z direction) from the center of the ball shaft 22 toward the case 3 side. The side surface 5a is a surface that extends along the vertical direction (Z direction) and faces the outside.

Each of the second snap fit portions 52 is positioned radially outside of each of the ribs 35 of the case 3 . In other words, each of the ribs 35 is positioned radially inside of each of the second snap fit portions 52 . That is, each of the ribs 35 is located closer to the lever 2 than each of the second snap-fit portions 52 in the radial direction when the lever 2 in the non-operating state and the cap 5 are attached to the case 3 . .

Each of the second snap fit portions 52 has a lower end 52a, an inclined surface 52b and an engaging surface 52c. The lower end portion 52a is the end portion of each of the second snap-fit portions 52 in the downward direction (−Z direction).

In this embodiment, when the cap 5 is attached to the case 3, the lower end portion 52a is located closer to the case 3 than the center of the ball shaft 22 accommodated in the case 3, and It is positioned closer to the case 3 than the lower end portion 33 b of the portion 33 . That is, the lower end portion 52a is located below the lower end portion 33b of the first engaged portion 33 (-Z direction). However, the position of the lower end 52a of the second snap fit 52 in the vertical direction (Z direction) should be at least equal to the position of the lower end 33b of the first engaged portion 33. As shown in FIG. In other words, each of the second snap fit portions 52 extends at least to the lower end portion 33b of the first engaged portion 33 in the vertical direction (Z direction).

The inclined surface 52b is inclined upward from the lower end portion 52a toward the outside of the cap 5 . The engaging surface 52c is located on the opposite side of the lower end portion 52a and faces upward (+Z direction).

Each of the second snap-fit portions 52 couples the cap 5 and the case 3 by engaging the engaging surface 52 c with the lower end portion 33 b of the first engaged portion 33 . In other words, the method of connecting the case 3 and the cap 5 is snap fit.

The surface of the first spherical portion 53 facing the ball shaft 22 is curved. Thereby, the first spherical portion 53 partially covers the ball shaft 22 housed in the case 3 . The first spherical portion 53 contacts the ball shaft 22 when the operator tilts the operation portion 21 .

A plurality of second spherical portions 54 are provided radially from the center of the opening 51 . Each of the second spherical portions 54 is spaced apart from each other in the circumferential direction and provided inside each of the second snap fit portions 52 . In other words, each of the second snap fit portions 52 is provided outside the outer circumference of each of the second spherical portions 54 in the radial direction.

In addition, in the present embodiment, each of the second snap-fit portions 52 is provided outside the outer circumference of each of the second spherical portions 54 . However, at least one of each of the second snap fit portions 52 should be provided outside the outer circumference of each of the second spherical surface portions 54 .

A surface facing the outside of each of the second spherical portions 54 is a curved surface. Each of the second spherical portions 54 faces toward the outside of the cap 5 in a state in which the lever 2 in the non-operating state and the cap 5 are attached to the case 3, and extends from the outer circumference of the first spherical portion 53 in the radial direction. , and positioned closer to the case 3 than the first spherical portion 53 in the vertical direction (Z direction). That is, each of the second spherical portions 54 is positioned below (−Z direction) the first spherical portion 53 in the vertical direction (Z direction).

A plurality of spherical ribs 55 are provided between the first spherical portion 53 and the second spherical portion 54 and connect the first spherical portion 53 and the second spherical portion 54 . Although a plurality of spherical ribs 55 are provided in this embodiment, at least one spherical rib 55 may be provided.

The outward facing surface of each spherical rib 55 is curved. In this embodiment, each of the spherical ribs 55 connects the first spherical portion 53 and the second spherical portion 54 , but the present invention is not limited to this. For example, the plurality of spherical ribs 55 may be tapered ribs.

A plurality of gaps 551 are provided in the cap 5 . Each of the gaps 551 is provided between two adjacent ones of the plurality of spherical ribs 55 and opens in the vertical direction (Z direction).

The cap 5 is provided with two holding portions 56 . Each of the holding portions 56 is made of, for example, an elastically deformable resin or the like. Each of the holding portions 56 is positioned between the outer circumference of the first spherical portion 53 and each of the second snap-fit portions 52 in the radial direction. Furthermore, each of the holding portions 56 extends downward (-Z direction) from the bottom surface of each of the second spherical portions 54 .

Each of the holding portions 56 has a lower end portion 56a, an inclined surface 56b and an engaging surface 56c. The lower end portion 56a is the end portion of the holding portion 56 in the downward direction (−Z direction).

The inclined surface 52b is inclined upward toward the inside of the cap 5 from the lower end portion 52a. The engaging surface 52c is a curved surface located on the opposite side of the lower end portion 52a and facing upward (+Z direction).

Each of the holding portions 56 holds the cap 5 on the lever 2 by engaging the engagement surface 56 c with the tip of the projection 24 of the lever 2 .

The convex portion 57 protrudes radially outward from the side surface 5 a of the cap 5 . The convex portion 57 fits into the concave portion 36 of the case 3 when the cap 5 is attached to the case 3 . Thereby, the cap 5 is fixed in the case 3 in the circumferential direction.

The cap 5 is also provided with a plurality of holes 58 that are open in the vertical direction (Z direction). Note that the hole 58 is an example of a first hole.

A plurality of holes 58 are provided adjacent to the second snap fit portion 52 . One hole portion 58 is adjacent to one second snap fit portion 52 .

Further, in the present embodiment, each of the holes 58 is provided between two adjacent ones of the plurality of second spherical surface portions 54 in the circumferential direction. The size of each of the holes 58 may be changed as appropriate as long as the size allows the regulation rib 63 of the cap cover 6 to pass through.

As shown in FIGS. 2 and 3, the cap cover 6 covers the cap 5 attached to the case 3 by inserting the lever 2 through an opening 61 opened in the vertical direction (Z direction) at the center of the cap cover 6. . In other words, the cap cover 6 presses the cap 5 from above (+Z direction).

When the operating portion 21 is tilted by the operator, the edge of the opening 61 contacts the operating portion 21 together with the edge of the opening 51 of the cap 5 , thereby limiting the rotation range of the lever 2 .

Also, the cap cover 6 has a third snap fit portion 62 and a regulation rib 63 . Note that the restricting rib 63 is an example of a first rib.

A plurality of third snap fit portions 62 are provided in the radial direction from the axis Ax of the lever 2 in the non-operated state. The plurality of third snap fit portions 62 are separated from each other in the front-rear direction (X direction) and the left-right direction (Y direction). The lever 2 is positioned between two third snap-fit portions 62 among the plurality of third snap-fit portions 62 .

Each of the third snap fit portions 62 is made of, for example, an elastically deformable resin or the like. Each of the third snap-fit portions 62 extends from the side surface 6a of the cap cover 6 to the side surface 3a of the case 3 in a state where the non-operating lever 2, the cap 5, and the cap cover 6 are attached to the case 3. also extends radially outward and then downward (-Z direction). The side surface 6a extends in the vertical direction (Z direction) and faces outward.

Each of the third snap fit portions 62 includes an extension portion 62a extending downward (−Z direction) after extending radially from the side surface 6a, a slit 62b opening from the extension portion 62a in a direction orthogonal to the vertical direction, and an engaging surface 62c surrounding the slit 62b.

The slit 62b opens in a direction orthogonal to the up-down direction from the inner surface of the extension 62a facing the case 3 . The engaging surface 62c is a part of the extension portion 62a, an inner surface of the slit 62b, and faces upward (+Z direction).

Each of the third snap-fit portions 62 is engaged with the engaging surface 62c of the third snap-fit portion 62 and the engaged surface 34c of the second engaged portion 34 so that the cap cover 6 and the case 3 are connected together. combine the That is, in this embodiment, the method of connecting the cap cover 6 and the case 3 is snap fit.

Note that the method of connecting the cap cover 6 and the case 3 is not limited to this. For example, each of the third snap-fit portions 62 of the cap cover 6 may have a claw-like projection, and a method of engaging this projection with a groove provided on the side surface 3a of the case 3 may be employed.

A plurality of restricting ribs 63 are provided radially from the axis Ax of the lever 2 . Two of the plurality of restricting ribs 63 are separated from each other in a direction crossing the vertical direction (Z direction). A lever 2 is positioned between two of the plurality of restricting ribs 63 . That is, two of the plurality of restricting ribs 63 are spaced apart from each other in the radial direction so that the lever 2 is positioned between two of the plurality of restricting ribs 63 .

Each of the restricting ribs 63 is made of, for example, an elastically deformable resin or the like. Each of the regulating ribs 63 is arranged in the vertical direction (Z direction) of the cap 5 of the cap cover 6 in a state where the non-operating lever 2 , the cap 5 and the cap cover 6 are attached to the case 3 . It extends downward (-Z direction) toward the case 3 from the center of the ball shaft 22 housed in the case 3 from the inner surface 6b, which is a curved surface facing the second spherical portion 54. As shown in FIG.

Moreover, each of the restricting ribs 63 is positioned between the rib 35 of the case 3 and the second snap fit portion 52 of the cap 5 in the radial direction.

In the present embodiment, the lower end portion 63a, which is the end portion in the downward direction (−Z direction) of each of the restricting ribs 63, is attached to the case 3 when the cap 5 and the cap cover 6 are attached to the case 3. It is located closer to the case 3 than the center of the received ball shaft 22 and closer to the case 3 than the lower end portion 33 b of the first engaged portion 33 . That is, the lower end portion 63a is located below the lower end portion 33b of the first engaged portion 33 (-Z direction).

Further, the lower end portion 63a is located above (in the +Z direction) the lower end portion 52a of the second snap fit portion 52. As shown in FIG. However, the position of the lower end portion 63a of the regulating rib 63 in the vertical direction (Z direction) should be at least equal to the position of the lower end portion 33b of the first engaged portion 33 . In other words, the restricting rib 63 extends at least to the lower end portion 33b of the first engaged portion 33 in the vertical direction (Z direction).

In the lever device 1 described above, first, the cap 5 covers the ball shaft 22 with the lever 2 inserted through the opening 51 . At this time, each of the holding portions 56 is elastically deformed by the contact between the inclined surface 56b and the tip of the projection 24 of the lever 2, and the engaging surface 56c and the tip of the projection 24 of the lever 2 are engaged with each other. , holding the cap 5 on the lever 2 .

Next, the ball shaft 22 of the lever 2 is accommodated in the support portion 32 of the case 3 . At this time, each of the second snap-fit portions 52 of the cap 5 is inserted through each of the holes 37 of the case 3 and is elastically deformed by coming into contact with the inclined surface 33a of the first engaged portion 33 to engage. The lever 2 and the cap 5 are attached to the case 3 by engaging the mating surface 52 c with the lower end portion 33 b of the first engaged portion 33 .

Each of the first snap-fit portions 31 of the case 3 is elastically deformed by the inclined surface 42b of the engaged portion 42 of the base 4, and the engaging surface 31c and the engaged surface 42c of the engaged portion 42 are formed. are engaged, the lever 2 , the case 3 and the cap 5 are attached to the base 4 .

The cap cover 6 covers the cap 5 with the lever 2 inserted through the opening 61 . At this time, each of the third snap fit portions 62 is elastically deformed by the inclined surface 34b of the second engaged portion 34 of the case 3, and the engaging surface 62c and the engaged surface of the second engaged portion 34 34c, the cap cover 6 is attached to the case 3. As shown in FIG. Each of the restricting ribs 63 is inserted through each of the holes 37 of the case 3 and each of the holes 58 of the cap 5, and is inserted between each of the ribs 35 and each of the second snap-fit portions 52. be. The movement of the second snap fit portion 52 is restricted by the contact surfaces of the restricting surfaces 35a of the ribs 35 and the restricting ribs 63, respectively.

In the present embodiment, in the lever device 1, the ball shaft 22 rotates when the operator grips and tilts the operation portion 21. As shown in FIG. The ball shaft 22 that rotates within the support portion 32 of the case 3 contacts the first spherical portion 53 of the cap 5 that covers the ball shaft 22 . At this time, the edge of the opening portion 51 and the edge of the opening portion 61 are in contact with the tilting operation portion 21 to restrict the rotation range of the lever 2 .

The cap cover 6 presses the cap 5 from above (+Z direction). Furthermore, each of the regulating ribs 63 of the cap cover 6 is positioned between each of the ribs 35 and each of the second snap-fit portions 52, and is elastically deformed to allow each of the second snap-fit portions 52 to move to the first cover. Each of the engaging portions 33 is biased into engagement. As a result, the engagement between each of the second snap fit portions 52 and each of the first engaged portions 33 is less likely to be released by the force due to the rotation of the ball shaft 22 .

As described above, the lever device 1 of this embodiment includes the lever 2 , the case 3 , the cap 5 and the cap cover 6 . The lever 2 has an operating portion 21 and a ball shaft 22 connected to the operating portion 21 . The case 3 accommodates the ball shaft 22 so as to be rotatable while the lever 2 is inserted therethrough. The cap 5 covers the ball shaft 22 housed in the case 3 . A cap cover 6 covers the cap 5 .

The cap cover 6 has a restricting rib 63 extending from the surface facing the cap 5 in the vertical direction (Z direction) toward the case 3 side (downward) with respect to the center of the ball shaft 22 . The cap 5 is provided with a hole portion 58 through which the restricting rib 63 is inserted, and the second snap fit extends from the side surface 5a of the cap 5 toward the case 3 (downward) from the center of the ball shaft 22 in the vertical direction (Z direction). It has a portion 52 . The case 3 is provided with a hole portion 37 through which the restricting rib 63 and the second snap fit portion 52 are inserted, and has the first engaged portion 33 and the rib 35 . The second snap fit portion 52 engages with the lower end portion 33b of the first engaged portion 33 in the vertical direction (Z direction).

The rib 35 is located radially closer to the lever 2 (inward in the radial direction) than the second snap fit portion 52 . The restricting rib 63 is located between the rib 35 and the second snap fit portion 52 in the radial direction. The restricting rib 63 and the second snap fit portion 52 extend at least to the lower end portion 33b of the first engaged portion 33. As shown in FIG.

In the lever device 1, when the operator tilts the operation portion 21, the ball shaft 22 housed in the case 3 rotates. The cap 5 engages the second snap fit portion 52 of the cap 5 with the first engaged portion 33 of the case 3 so as to cover the ball shaft 22 in order to limit the rotation range of the lever 2. , is fixed. The cap cover 6 covers the cap 5 so that the cap 5 does not come off from the case 3 and is fixed by inserting the restricting rib 63 between the second snap-fit portion 52 and the rib 35 . At this time, the second snap fit portion 52 engages on the case 3 side (lower side) than the center of the ball shaft 22 in the vertical direction.

As a result, the lever device 1 does not need to provide a space above the ball shaft 22 (in the +Z direction) where the cap 5 covering the ball shaft 22 and the case 3 are engaged with each other. Therefore, the size of the lever device 1 can be reduced.

Further, in the present embodiment, the lever device 1 has the rib 35 located inside the second snap fit portion 52 and the restricting rib 63 located between the rib 35 and the second snap fit portion 52 . Thereby, the rib 35 can be biased toward the second snap fit portion 52 via the restricting rib 63 . Therefore, the lever device 1 prevents the cap 5 from coming off the case 3 .

Further, in the present embodiment, the restricting rib 63 and the second snap fit portion 52 extend toward the case 3 side (downward) from the lower end portion 33 b of the first engaged portion 33 . When the cap 5 engages with the case 3 , the restricting rib 63 and the second snap fit portion 52 extend below the lower end portion 33 b of the first engaged portion 33 .

Thereby, the second snap fit portion 52 is hooked to the lower end portion 33 b of the first engaged portion 33 . Furthermore, the movement of the second snap fit portion 52 is restricted by the restriction rib 63 so as not to come off the lower end portion 33 b of the first engaged portion 33 . Therefore, the cap 5 is engaged with the case 3 with a stronger force. The lever device 1 thus further prevents the cap 5 from coming off the case 3 .

Further, in the present embodiment, a plurality of first engaged portions 33 , second snap fit portions 52 , and restricting ribs 63 are provided radially from the axis Ax of the lever 2 . Two of the plurality of first engaged portions 33 are separated from each other in the radial direction. The lever 2 is positioned between two of the plurality of first engaged portions 33 . Two of the plurality of second snap fit portions 52 are spaced apart from each other in the radial direction. A lever 2 is positioned between two of the plurality of second snap fit portions 52 . Two of the plurality of restricting ribs 63 are spaced apart from each other in the radial direction. Between two of the plurality of restricting ribs 63, the lever 2 is positioned.

When the cap 5 and the cap cover 6 are engaged with the case 3 , each of the second snap-fit portions 52 engages with each of the first engaged portions 33 and is restricted in movement by each of the restriction ribs 63 . be done. Thereby, the cap 5 and the cap cover 6 are more reliably engaged with the case 3 . Therefore, the lever device 1 further prevents the cap 5 and the cap cover 6 from coming off the case 3 .

Moreover, in this embodiment, the cap 5 has the first spherical portion 53 , the second spherical portion 54 , and the spherical ribs 55 . The first spherical portion 53 contacts the ball shaft 22 . The second spherical portion 54 faces the outside of the cap 5 and is located below the first spherical portion 53 (−Z direction) in the vertical direction (Z direction). The spherical rib 55 connects the first spherical portion 53 and the second spherical portion 54 . The second spherical portion 54 is connected to the first spherical portion 53 by a spherical rib 55 and supports the outer circumference of the first spherical portion 53 .

When the lever 2 tilts, the first spherical portion 53 receives a force directed outward from the rotating ball shaft 22 . At this time, the second spherical portion 54 supporting the outer periphery of the first spherical portion 53 via the spherical ribs 55 improves resistance to the force received from the rotating ball shaft 22 . This improves the rigidity and strength of the first spherical portion 53 . Therefore, the lever device 1 can improve the rigidity and strength of the cap 5 .

Moreover, in the present embodiment, at least one of the plurality of second snap fit portions 52 is provided outside the outer circumference of the second spherical portion 54 . For example, when all the second snap-fit portions 52 are provided inside the outer circumference of the second spherical portion 54, all the second snap-fit portions 52 are close to the ball shaft 22, so that the radial direction of the cap 5 is Less resistance to outward forces. On the other hand, when at least one of all the second snap fit portions 52 is provided outside the outer circumference of the second spherical portion 54, at least one of all the second snap fit portions 52 is far from the ball shaft 22. , the resistance to radially outward forces on the cap 5 increases. Thereby, each of the second snap fit portions 52 engages the case 3 and the cap 5 more reliably. The lever device 1 thus further prevents the cap 5 from coming off the case 3 .

Further, in this embodiment, the spherical rib 55 is provided with a plurality of gaps 551 that are open in the vertical direction (Z direction). Thereby, the cap 5 can reduce the weight of the spherical ribs 55 .

Moreover, in the present embodiment, the cap cover 6 covers the cap 5 and closes each of the gaps 551 . Thus, for example, when the operator tilts the operating portion 21 , the cap cover 6 prevents foreign substances such as liquid and dust from entering the inside of the case 3 through the gaps 551 from the outside.

Although the embodiment of the present disclosure has been described above, the above embodiment is merely an example and is not intended to limit the scope of the invention. The above embodiments can be implemented in various other forms, and various omissions, replacements, combinations, and modifications can be made without departing from the scope of the invention. In addition, specifications such as each configuration and shape (structure, type, direction, format, size, length, width, thickness, height, number, arrangement, position, material, etc.) may be changed as appropriate. can be implemented.

1 lever device 2 lever 21 operation part 22 ball shaft (rolling element)
3 Case (enclosure)
33 first engaged portion (engaged portion)
33b lower end (end)
35 rib (second rib)
37 hole (second hole)
5 cap (first cover)
5a side 52 second snap fit part (snap fit)
53 First spherical portion 54 Second spherical portion 55 Spherical rib (third rib)
58 hole (first hole)
6 cap cover (second cover)
63 Regulating rib (first rib)

Claims (5)

a lever having an operating portion and a rolling element connected to the operating portion;
a housing through which the lever is inserted and in which the rolling element is rotatably accommodated;
a first cover that covers the rolling elements housed in the housing;
a second cover that covers the first cover;
with
the second cover has a first rib extending from a surface facing the first cover toward the housing from the center of the rolling element in a first direction along the axial direction of the lever;
The first cover provided with a first hole through which the first rib is inserted has a snap fit portion extending from the side surface of the first cover toward the housing from the center of the rolling element in the first direction. death,
the housing provided with a second hole through which the first rib and the snap-fit portion are inserted has an engaged portion and a second rib;
the snap fit portion engages an end portion of the engaged portion in the first direction;
the second rib is positioned closer to the lever than the snap fit portion in a second direction perpendicular to the first direction;
The first rib is located between the snap fit portion and the second rib in the second direction,
The first rib and the snap fit portion extend at least to the end of the engaged portion,
lever device. The first rib and the snap fit portion extend toward the housing from the end portion of the engaged portion,
2. A lever device according to claim 1. A plurality of the first rib, the snap fit portion, and the engaged portion are provided in the second direction from the axis of the lever,
two of the plurality of first ribs are separated from each other in the second direction such that the lever is positioned between the two of the plurality of first ribs;
two of the plurality of snap-fit portions are separated from each other in the second direction so that the lever is positioned between two of the plurality of snap-fit portions;
Two of the plurality of engaged portions are separated from each other in the second direction such that the lever is positioned between the two of the plurality of engaged portions.
3. A lever device according to claim 1 or 2. The first cover has a first spherical portion with which the rolling element abuts, and a second spherical portion that faces outward from the first cover and is positioned closer to the housing than the first spherical portion in the first direction. and a third rib connecting the first spherical portion and the second spherical portion,
4. A lever device according to claim 3. At least one of the plurality of snap fit portions is provided outside the outer circumference of the second spherical portion,
5. A lever device according to claim 4.

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