JP2014004974A - Shift lever device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a shift lever device which can improve assembly workability in a step of assembling an operating lever to a base bracket.SOLUTION: A base bracket-side bearing 4, an operating lever 2 having an operation support shaft 9, a select lever 5, and a fixing member 7 are assembled in this order from one direction toward a journal part 32 of a base bracket 3 along an axial direction of the operation support shaft 9. The assembled select lever 5 is journaled to a select lever support shaft 8 by the fixing member 7.

Description

  The present invention relates to a shift lever device that is mainly applied to a manual transmission (MT) in which an operation lever swings back and forth and left and right.

  Conventionally, as a shift lever device for a manual transmission (MT), a configuration shown in FIG. 6 (Patent Document 1) has been proposed. The shift lever device 101 is supported so that the operation lever 102 can swing in a shift (vehicle front-rear) direction and a select (vehicle left-right) direction.

  The shift lever device 101 includes a support body 103 on a base bracket (not shown) fixed to the vehicle body, and the operation lever 102 is a support body that can swing in a shift (vehicle front-rear) direction and a select (vehicle left-right) direction. 103.

  The operation lever 102 is provided with a select shaft 109 orthogonal to the axial direction of the operation lever 102, and a support-side spherical portion 141 and a select-side spherical portion 162 are formed at both ends of the select shaft 109. The support-side spherical portion 141 is sandwiched between the support 103 and the auxiliary member 103a, and is fixed to the spherical recess 103c of the support 103 by fixing the support 103 and the auxiliary member 103a with a fixing bolt 103b. It is fitted. Further, the select-side spherical portion 162 is fitted to the select lever 105 that is pivotally supported by the support body 103.

  In addition, a linkage member (not shown) extending from a transmission (not shown) is linked to the operation lever 102, and the linkage member is displaced by operating the operation lever 102. Then the transmission switches.

JP-A-1-249524

  By the way, in the technique described in Patent Document 1, when the support-side spherical portion 141 of the operation lever 102 is assembled to the spherical recess 103c of the support 103, the auxiliary member 103a is assembled to the select shaft 109, Since the support-side spherical portion 141 is sandwiched between the support 103 and the auxiliary member 103a and fixed with the fixing bolt 103b, the work process is complicated and the assembly workability is poor.

  Further, when the operation lever 102 is assembled to the support, the direction of assembling to the support 103 is different for each part, and this also has a problem that the assembling workability is poor.

  Accordingly, an object of the present invention is to provide a shift lever device that can improve the assembling workability in the process of assembling the operation lever to the support in consideration of the above circumstances.

  According to the first aspect of the present invention, the operation support shaft that is integral with the operation lever and orthogonal to the axial direction of the operation lever is configured such that the base bracket side support portion at one end of the operation support shaft is a base bracket side bearing. While being pivotally supported by the support portion, the select lever side support portion which is the other end side is pivotally supported by the select lever side bearing to the engagement receiving portion of the select lever, and the select lever is pivoted to the base bracket by the select lever support shaft. A shift lever device to be supported, wherein the base bracket side bearing, the operation lever having the operation support shaft from one direction toward the shaft support portion of the base bracket along the axial direction of the operation support shaft, The select levers are assembled in the order of the select levers, and the assembled select levers face the shaft support portion of the base bracket. It is characterized by being pivotally supported on the select lever support shaft by a fixing member to be assembled from one direction Te.

  According to a second aspect of the present invention, in the shift lever device according to the first aspect, the base bracket side bearing includes a base bracket side spherical convex portion and a bearing, and the base bracket side spherical convex portion is configured to support the operation. The shaft comprises a spherical projection formed integrally with the base bracket side support portion of the shaft, and the bearing comprises a cylindrical member having a spherical recess corresponding to the base bracket side spherical projection on the inner surface. Is provided with a plurality of slits along the axial direction in the cylindrical wall, and a locking claw on the outer periphery of the cylindrical wall, and the cylindrical wall when the base bracket side spherical convex part is assembled to the spherical concave part Is bent and deformed in the diameter increasing direction along the shape of the spherical recess, the base bracket side spherical convex portion is accommodated in the spherical concave portion, and when the spherical concave portion is assembled to the shaft support portion of the base bracket, The locking claw is And deformed along the shape of the branch, locking pawl engages with the engagement portion provided on the shaft support, the bearing is characterized in that it is disposed within the shaft support of the base bracket.

  According to a third aspect of the present invention, in the shift lever device according to the second aspect, an elastic member is disposed between the shaft support portion of the base bracket and the bearing.

  According to a fourth aspect of the present invention, in the shift lever device according to the first aspect, the fixing member includes a base portion fixed to the base bracket and an arm portion extending from the base portion. A locking claw, and when the fixing member is assembled to the base bracket, the locking claw bends and deforms along the base bracket and engages with a fixing member receiving portion provided on the base bracket; The fixing member is disposed on the base bracket, and the arm portion is engaged with the select lever in a state where the fixing member is disposed on the base bracket.

  According to a fifth aspect of the present invention, in the shift lever device according to any one of the first to fourth aspects, a weak portion is provided in the base bracket side support portion, and a load exceeding a set value is applied to the operation lever. In this case, the fragile portion is broken.

  In the invention of claim 1, when the shift lever device is assembled, the base bracket side bearing, the operation lever, the select lever, and the fixing member can be assembled to the base bracket in order from the same direction, so that the direction of the base bracket can be changed for each process. Since there is no need to change, assembly workability can be improved.

  In the invention of claim 2, the engaging claw provided on the bearing is engaged with the engaging portion provided on the shaft supporting portion, and the base bracket side bearing is disposed on the shaft supporting portion of the base bracket. Since the bracket-side bearing can be assembled to the base bracket in one step, the assembly workability can be improved. In addition, with such a configuration, since there is no need for a fastening means for fixing the base bracket side spherical portion with the auxiliary member and the fixing bolt to the base bracket as in the past, the assembly workability can be improved, The configuration can be simplified and the number of parts can be reduced.

  In the third aspect of the invention, the elastic member is arranged between the base bracket side bearing and the base bracket, so that the backlash between the base bracket side bearing and the base bracket is prevented. For this reason, even if it is the structure which fixes a bearing with a latching claw, it does not produce backlash.

  According to a fourth aspect of the present invention, the fixing member is assembled to the base bracket by engaging the locking claws of the fixing member with the fixing member receiving portion provided on the bracket, so that the fixing member can be assembled in one step. Since it can be assembled to the bracket, the assembly workability can be improved. Further, with such a configuration, the fastening means becomes unnecessary, so that the number of parts can be reduced and the assembling workability can be further improved.

  In the invention of claim 5, by providing a weak portion on the base bracket side support portion, when a tilt in a predetermined direction acts on the operation lever, the weak portion 91 a breaks and the passenger is caught. The impact can be reduced and the breaking load can be easily controlled.

1 is a perspective view of a shift lever device according to an embodiment of the present invention. 1 is an exploded perspective view of a shift lever device according to an embodiment of the present invention. 1 is a side view of a shift lever device according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of a main part taken along line IV-IV in FIG. 3. FIG. 5 is a cross-sectional view of a principal part taken along line VV in FIG. 3. It is a principal part sectional drawing which shows the shift lever apparatus of a prior art example.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. The shift lever device 1 of the present embodiment is mainly applied to a manual transmission (MT). As shown in FIGS. 1 to 5, the shift lever device 1 is pivotally supported by a base bracket 3 so that an operation lever 2 can swing in a shift (vehicle front-rear) direction and a select (vehicle left-right) direction. The shift lever device 1 includes a base bracket side bearing 4, a select lever 5, a select lever side bearing 6, and a fixing member 7 in order to pivotally support the operation lever 2 on the base bracket 3.

  The base bracket 3 is formed of resin by injection molding and is fixed to a vehicle body (not shown). The base bracket 3 is formed of a substantially rectangular frame, has installation holes 3a at the lower four corners, and is installed on the vehicle body by bolts (not shown) penetrating the installation holes 3a. The base bracket 3 includes a shaft support portion 32 that supports the operation lever 2, a base bracket side select lever receiving portion 33 that supports the select lever 5, and a fixing member receiving portion 34 in which the fixing member 7 is disposed.

  The shaft support portion 32 is formed of a through hole having a substantially circular cross section, and claw grooves 32a are formed along the axial direction of the through hole at two opposing locations on the inner peripheral surface. In addition, an engaging portion 32b including a step portion is formed in the inner portion of the claw groove 32a.

  The base bracket side select lever receiving portion 33 is formed of a columnar protrusion and includes a base bracket side protruding shaft 81 constituting the select lever support shaft 8. The select lever support shaft 8 is configured by arranging a base bracket side protruding shaft 81 and a columnar fixed member side protruding shaft 82 protruding from the fixing member 7 in series in the axial direction.

  The fixing member receiving portion 34 is formed with a claw groove 34a that is bent and deformed while a locking claw 71a formed below the fixing member 7 is in contact with the surface thereof. Further, a fixing engagement portion 34b formed of a concave portion is formed in the inner portion of the claw groove 34a, and the fixing claw 71a of the fixing member 7 is fitted into the fixing engagement portion 34b, whereby the fixing member 7 is It is fixed to the base bracket 3.

  The operation lever 2 is made of a cylindrical bar, and an operation knob (not shown) as an operation unit is disposed at the distal end portion thereof, and a resin operation-side linkage portion 21 is provided at the base end portion thereof. A linkage member (not shown) extending from (not shown) is linked. Further, an operation support shaft 9 is provided at the base end portion of the operation lever 2. The operation support shaft 9 is formed integrally with the operation lever 2 and orthogonal to the axial direction of the operation lever 2. The operation support shaft 9 has a base bracket side support portion 91 on one end side made of resin, and is pivotally supported on the shaft support portion 32 of the base bracket 3 via the base bracket side bearing 4 and on the other end side. The select lever side support portion 92 is pivotally supported by the select lever side engagement receiving portion 61 constituting the select lever side bearing 6. The base bracket side support portion 91 of the operation support shaft 9 is provided with a fragile portion 91a having a smaller diameter than the diameter of a base bracket side spherical convex portion 41 (to be described later) of the base bracket side bearing 4. The fragile portion 91a is made of resin in the same manner as the base bracket side support portion 91 so as to be broken when a load exceeding the set value is applied to the operation lever 2. However, it does not have to be made of resin, and the material and diameter are set depending on the situation.

  The base bracket side bearing 4 includes a base bracket side spherical convex portion 41 and a bearing 42. The base bracket side spherical convex portion 41 is made of resin, and is configured by a spherical projection formed of resin integrally with the base bracket side support portion 91 of the operation support shaft 9. The bearing 42 includes a cylindrical member 42 a having a spherical concave portion 44 corresponding to the base bracket side spherical convex portion 41 on the inner surface. The cylindrical member 42a includes a plurality of slits 42c along the axial direction in the cylindrical wall 42b, and a locking claw 42d having flexibility on the outer periphery of the cylindrical wall 42b. When the base bracket side spherical convex portion 41 is assembled to the bearing 42, the cylindrical wall 42 b is bent and deformed in the diameter increasing direction along the shape of the spherical concave portion 44, so that the base bracket side spherical convex portion 41 becomes the bearing 42. Is housed in. Further, when the bearing 42 is assembled to the shaft support portion 32 of the base bracket 3, the locking claw 42 d bends and deforms along the shape of the claw groove 32 a formed in the shaft support portion 32, and the tip of the locking claw 42 d. Is engaged with the engaging portion 32 b, and the bearing 42 is disposed in the shaft support portion 32. An O-ring 43 (elastic member) made of an elastic material is disposed between the shaft support portion 32 and the bearing 42.

  The select lever side bearing 6 includes an engagement receiving portion 61 formed on the select lever 5 and a select lever side spherical convex portion 62. The engagement receiving portion 61 is configured by a through hole that penetrates the select lever 5 and has the same diameter as the select lever side spherical convex portion 62. The select lever side spherical convex portion 62 is constituted by a spherical protrusion formed integrally with the select lever side support portion 92 of the operation support shaft 9. The select lever side spherical convex portion 62 is inserted into the engagement receiving portion 61.

  The select lever 5 is formed of a substantially L-shaped member, and a round hole-shaped select lever bearing portion 51 through which the select lever support shaft 8 passes is formed at one end portion. An engagement receiving portion 61 is formed at the L-shaped bent portion of the select lever 5, and a linking member (not shown) extending from the transmission (not shown) at the other end of the select lever 5. Are formed on the select side linkage 52.

  The fixing member 7 includes a base 71 installed on the base bracket 3 and an arm 72 extending from the base 71. The base 71 includes a locking claw 71a, and when the fixing member 7 is assembled to the base bracket 3, the locking claw 71a is bent and deformed along the fixing member receiving portion 34 provided on the base bracket 3, so that the base bracket The fixing member 7 is disposed on the base bracket 3 by engaging with the three claw grooves 34a. The arm portion 72 is provided with a cylindrical fixed member-side protruding shaft 82 and, together with the base bracket-side protruding shaft 81, constitutes the select lever support shaft 8 and supports the select lever bearing portion 51. In addition, the fixing member 7 is engaged with the select lever 5 in the drop-off direction while being disposed on the base bracket 3, and prevents the select lever 5 from being removed from the select lever support shaft 8.

  Next, a procedure for assembling the shift lever device 1 of the present embodiment will be described. First, the bearing 42 is assembled to the base bracket side spherical convex portion 41 of the operation lever 2. Next, the O-ring 43 is disposed in the shaft support portion 32 of the base bracket 3, and the bearing 42 assembled to the base bracket side spherical convex portion 41 is inserted into the shaft support portion 32, and the cylindrical shape provided on the bearing 42 is formed. The locking claw 42d of the member 42a is engaged with the engaging portion 32b of the shaft support portion 32. Next, while inserting the select lever side support portion 92 of the operation lever 2 into the engagement receiving portion 61 of the select lever 5, the base bracket side protruding shaft 81 is inserted into the select lever bearing portion 51 of the select lever 5, and the select lever 5 is attached to the base bracket 3. Finally, the base 71 of the fixing member 7 is assembled to the fixing member receiving portion 34 while the fixing member-side protruding shaft 82 of the fixing member 7 is inserted into the select lever bearing portion 51, so that the fixing member 7 of the fixing member 7 is formed. The latching claw 71a is engaged with the fixing engaging portion 34b. The direction in which the O-ring 43, the bearing 4, and the operation lever 2 are assembled to the base bracket 3, the direction in which the select lever 5 is assembled to the base bracket 3, and the direction in which the fixing member 7 is assembled to the base bracket 3 are all the same direction. It is.

  According to the above embodiment, when the shift lever device 1 is assembled, the base bracket side bearing 4, the operation lever 2, the select lever 5 and the fixing member 7 can be assembled to the base bracket 3 in order from the same direction. Since there is no need to change the direction of the base bracket 3 for each process, the assembly workability can be improved.

  By engaging the engaging claw 42d of the bearing with the engaging portion 32b formed on the shaft support portion 32 of the base bracket 3 and arranging the base bracket side bearing 4 on the shaft support portion 32, the base bracket side bearing 4 is provided. Can be assembled to the base bracket 3 in one step, so that the assembly workability can be improved. Further, with such a configuration, it is not necessary to fix the base bracket side spherical portion with the base bracket, the auxiliary member, and the fixing bolt as in the conventional case, so that the number of parts can be further reduced.

  By setting the O-ring 43 made of an elastic material between the base bracket side bearing 4 and the base bracket 3, backlash between the base bracket side bearing 4 and the base bracket 3 is prevented. For this reason, even if it is the structure which fixes a bearing with a latching claw, it does not produce backlash.

  By inserting the select lever side spherical convex portion 62 into the engagement receiving portion 61 and pivotally supporting the select lever side support portion 92 of the operation support shaft 9, no fastening means is required and the engagement receiving portion is received. Since the operation support shaft 9 can be pivotally supported while absorbing the displacement of the operation support shaft 9 in the direction through which the portion 61 penetrates, the configuration can be simplified, the number of parts can be reduced, and the assembly workability can be improved.

  By engaging the locking claw 71 a formed on the fixing member 7 with the fixing member receiving portion 34 of the base bracket 3, the fixing member 7 is assembled to the base bracket 3. Since it can assemble | attach to the bracket 3, an assembly workability | operativity can be improved. Further, with such a configuration, the fastening means becomes unnecessary, so that the number of parts can be reduced and the assembling workability can be further improved.

  By providing the base bracket side support portion 91 with the fragile portion 91a, the fragile portion 91a is broken when the operation lever is tilted in a predetermined direction, so that the impact applied to the occupant can be reduced. In addition, the breaking load can be easily controlled.

  In the present embodiment, the select lever support shaft 8 composed of the columnar base bracket side projecting shaft 81 and the fixed member side projecting shaft 82 is inserted into and supported by the round hole-shaped select lever bearing portion 51. However, the base bracket side protruding shaft 81 and the fixed member side protruding shaft 82 have a round hole shape, and the columnar select lever bearing portion 51 is inserted into the base bracket side protruding shaft 81 and the fixed member side protruding shaft 82, Similar effects can be obtained with a structure that supports the shaft.

DESCRIPTION OF SYMBOLS 1 ... Shift lever apparatus 2 ... Operation lever 3 ... Base bracket 4 ... Base bracket side bearing 5 ... Select lever 6 ... Select lever side bearing 7 ... Fixing member 8 ... Select lever support shaft 9 ... Operation support shaft 32 ... Shaft support 32b ... Engagement part 34 ... Fixed member receiving part 41 ... Base bracket side spherical convex part 42 ... Bearing 42a ... Cylindrical member 42b ... Cylindrical wall 42c ... Slit 42d ... Locking claw (bearing side)
43 ... Elastic member (O-ring)
44 ... spherical recess 61 ... engagement receiving portion 62 ... selective lever side spherical projection 71 ... base 71a ... locking claw (fixing member side)
72 ... Arm part 91 ... Base bracket side support part 91a ... Fragile part 92 ... Select lever side support part

Claims (5)

The operation support shaft that is integral with the operation lever and orthogonal to the axial direction of the operation lever is such that the base bracket side support portion which is one end side thereof is pivotally supported by the base bracket side bearing on the shaft support portion of the base bracket, The select lever side support portion on the other end side is pivotally supported by the select lever side bearing by the select lever side bearing, and the select lever is a shift lever device that is pivotally supported on the base bracket by the select lever support shaft. There,
Along the axial direction of the operation support shaft, from one direction toward the shaft support portion of the base bracket, the base bracket side bearing, the operation lever having the operation support shaft, and the select lever are assembled in this order.
The shift lever device is characterized in that the assembled select lever is pivotally supported on the select lever support shaft by a fixing member which is similarly assembled from one direction toward the pivotal support portion of the base bracket. The shift lever device according to claim 1,
The base bracket side bearing is composed of a base bracket side spherical convex portion and a bearing,
The base bracket side spherical convex portion is composed of a spherical protrusion formed integrally with the base bracket side support portion of the operation support shaft,
The bearing is formed of a cylindrical member having a spherical concave portion corresponding to the spherical convex portion on the base bracket side on the inner surface,
The cylindrical member includes a plurality of slits along the axial direction in the cylindrical wall, and a locking claw on the outer periphery of the cylindrical wall,
When the base bracket side spherical convex portion is assembled to the spherical concave portion, the cylindrical wall is bent and deformed in the diameter increasing direction along the shape of the spherical concave portion, so that the base bracket side spherical convex portion becomes the spherical concave portion. Contained,
When the spherical recess is assembled to the shaft support portion of the base bracket, the locking claw is bent and deformed along the shape of the shaft support portion, and the locking claw is brought into engagement with the engagement portion provided on the shaft support portion. The shift lever device is engaged, and the bearing is disposed in a shaft support portion of the base bracket. The shift lever device according to claim 2,
A shift lever device, wherein an elastic member is disposed between the shaft support portion of the base bracket and the bearing. The shift lever device according to claim 1,
The fixing member includes a base portion fixed to the base bracket and an arm portion extending from the base portion.
The base includes a locking claw,
When the fixing member is assembled to the base bracket, the locking claw bends and deforms along the base bracket, engages with a fixing member receiving portion provided on the base bracket, and the fixing member Placed on the bracket,
The arm is engaged with the select lever in a state where the fixing member is disposed on the base bracket. In the shift lever device according to any one of claims 1 to 4,
A weak part is provided in the base bracket side support part,
The shift lever device is characterized in that the weakened portion is broken when a load exceeding a set value is applied to the operation lever.

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