JP2013171761A - Lever combination switch - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lever combination switch that is made small-sized, lightweight, and compact.SOLUTION: A lever combination switch includes: a lever movable portion which can be operated in multiple directions; a switch mechanism portion 21 where a first switch operation portion 41 rotating as the lever movable portion swings in one direction and a second switch operation portion 51 rotating as the lever movable portion swings in the other direction crossing the one direction are arranged on the same axis line; and an attachment portion for attaching the switch mechanism portion 21 to the outside of a fixation attachment portion attached to a steering column of a vehicle.

Description

  The present invention relates to a lever combination switch in which a lamp system switch, a wiper system switch, or the like is assembled.

  In a vehicle steering device, a steering shaft is rotatably supported in a column post attached to a vehicle body, and a steering wheel attached to an upper end portion of the steering shaft is connected to a wheel steering device via the steering shaft. Has been.

  On the outer periphery of the column post, there are a first case housing a switch mechanism that outputs a switch in accordance with an operation position of a lamp-type lever combination switch (hereinafter referred to as “LCS”), and an operation position of the wiper-type LCS. Accordingly, a second case containing a switch mechanism that outputs a switch is attached. On one side of the first case, a turn operation lever constituting the lamp system LCS is provided so as to protrude. On one side of the second case, a wiper operation lever constituting the wiper system LCS is provided so as to protrude.

  As an example of this type of lamp system LCS, for example, a turn operation lever including a turn signal switch and a dimmer / passing switch has been proposed (see, for example, Patent Document 1).

  The conventional turn operation lever described in Patent Document 1 is mounted in the first case so as to be swingable in the vehicle longitudinal direction and the vehicle vertical direction. In the first case, there is a movable contact for a dimmer / passing switch that switches the switch output by swinging the turn operation lever in the longitudinal direction of the vehicle body, and a turn that switches the switch output by swinging the turn operation lever in the vertical direction of the vehicle body. The movable contacts for the signal switch are provided so as to be linearly movable in a direction crossing each other.

Japanese Patent Application Laid-Open No. 11-250772

  However, the conventional turn operation lever described in Patent Document 1 linearly moves the movable contact for the dimmer / passing switch and the movable contact for the turn signal switch in the first case in a direction crossing each other. Need a moving space for. As a result, the switch mechanism must be enlarged, and it is inevitable that the first case that houses the switch mechanism is also enlarged.

  Accordingly, an object of the present invention is to provide a lever combination switch that can be reduced in size, weight, and size.

[1] In the present invention, the lever movable portion that can be operated in multiple directions, the first switch operating portion that rotates as the lever movable portion swings in one direction, and the one direction of the lever movable portion intersect. A switch mechanism portion in which a second switch actuating portion that rotates along with swinging in the other direction is arranged on the same axis, an attachment portion that attaches the switch mechanism portion outside a fixed attachment portion attached to a steering column of the vehicle, It is in the lever combination switch characterized by comprising.

[2] In the invention described in [1] above, the first switch actuating portion includes a first contact terminal that rotates in conjunction with the swinging of the lever movable portion in the one direction, and the lever movable portion. A first rotary motion conversion mechanism that converts a swing motion into a rotary motion of the first contact terminal, and the second switch actuating portion is interlocked with the swing of the lever movable portion in the other direction. And a second rotational motion converting mechanism for converting the swinging motion of the lever movable portion into the rotational motion of the second contact terminal.

[3] In the invention described in [2], the first rotational motion conversion mechanism is configured to swing the unidirectional swing of the first terminal holding member that holds the first contact terminal and the lever movable portion. A link member that rotates about a rotation axis in conjunction with the support member, and a support arm that is supported by a free end of the link member; and the support arm has a central portion of the first terminal holding member on one surface. And a connecting portion connected in a fixed state, and an operating portion to which a rotational force is applied by the link member on the other surface.

[4] In the invention described in [2] above, the second rotational motion conversion mechanism includes a second terminal holding member that holds the second contact terminal, and the second contact terminal of the second terminal holding member. And an actuating portion disposed at a position eccentric from the rotation center of the lever, and the actuating portion is provided with a rotational force in conjunction with the swinging of the lever movable portion in the other direction. To do.

  According to the present invention, a lever combination switch that can be reduced in size, weight, and size can be effectively obtained.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure for demonstrating the periphery of the steering wheel of the vehicle provided with the lever combination switch which concerns on suitable embodiment of this invention, (a) is a figure for demonstrating the periphery seen from the upper surface of the lever combination switch. FIG. 6B is a diagram for explaining the periphery of the lever combination switch as viewed from the front. It is a partially cutaway perspective view for explaining an appearance in which a part of a switch mechanism portion of the lever combination switch according to the embodiment of the present invention is omitted. It is a disassembled perspective view for demonstrating the component of the lever movable part of the lever combination switch which concerns on embodiment of this invention. It is a principal part perspective view for demonstrating the component of the lever movable part which concerns on embodiment of this invention. It is a principal part perspective view for demonstrating the other component of the lever movable part which concerns on embodiment of this invention. It is a principal part perspective view for demonstrating the other component of the lever movable part which concerns on embodiment of this invention. It is principal part sectional drawing for demonstrating the other component of the lever movable part which concerns on embodiment of this invention. It is a disassembled perspective view for demonstrating the component of the switch mechanism part which concerns on embodiment of this invention. It is a perspective view of the switch mechanism part which concerns on embodiment of this invention.

  Preferred embodiments of the present invention will be specifically described below with reference to the accompanying drawings.

(Configuration in front of the driver's seat of the vehicle)
In front of the front seat of the automobile, an instrument panel made of a synthetic resin and equipped with instruments, a passenger seat airbag, and the like is arranged in the vehicle width direction. As shown in FIG. 1, a steering column 1 is assembled on the driver seat side of the instrument panel. The steering column 1 includes a steering shaft 2, a column post 3 that covers the outer periphery of the steering shaft 2, and a column cover 4 that covers the outer periphery of the column post 3. A steering wheel 5 is supported at the tip of the steering shaft 2 extending from the column post 3 so as to be integrally rotatable.

  The steering column 1 is collapsed so that the axial lengths of the steering shaft 2, the column post 3, and the column cover 4 are reduced at the time of a vehicle collision, and the steering column 1 enters into the instrument panel while being crushed. In addition, a so-called collapse mechanism that absorbs an impact caused by a secondary collision between the driver and the steering wheel 5 is provided.

  As shown in FIG. 1, LCSs 6 and 7 are provided on the left and right sides of the column cover 4 so as to be swingable in the front-rear and vertical directions of the vehicle body. Each of the LCSs 6 and 7 has operation levers 10 and 20. In the illustrated example, the left operation lever 10 is a wiper system switch for operating a wiper, a washer and the like. The right operation lever 20 is a lamp system switch for operating a turn signal lamp, a head lamp, a fog lamp, and the like.

  As shown in FIG. 1, each of the LCSs 6 and 7 is supported by an LCS fixed attachment portion 8 attached to the outer periphery of the column post 3 while being inserted into the steering shaft 2. The LCS fixing mounting portion 8 is disposed inside the column cover 4, and has a main body portion 8a for fixing and holding the operation levers 10 and 20, and a cylindrical steering shaft formed integrally with an intermediate portion of the main body portion 8a. And an insertion portion 8b. The main body 8a does not contain a switch mechanism as in the conventional LCS. For example, a cable reel or a connector for electrically connecting an electrical component equipped on the steering wheel 5 to the vehicle body side circuit is accommodated in the main body 8a.

  As shown in FIG. 1, the main body portion 8 a of the LCS fixed mounting portion 8 is formed in a thin shape so as to ensure a collapse stroke of the steering column 1. In the illustrated example, the front portion and the rear portion of the main body portion 8a have shapes obtained by continuous changes with different curvatures.

  As shown in FIG. 1, the front portion of the main body portion 8 a has a curved surface having a curvature smaller than the curvature of the inner surface of the column cover 4. The front visibility of the driver is improved by setting the outer shape of the front portion of the column cover 4 arranged in the driver's front visual field to be small. On the other hand, the rear portion of the main body 8a has an arc surface along the inner surface of the column cover 4 to enlarge the space around the driver's knee.

(Overall configuration of LCS)
As shown in FIG. 1, the LCSs 6 and 7 are arranged on the outer side of the LCS fixed mounting part 8 in which the switch mechanism parts 11 and 21 incorporating the contact parts and operating parts of the operation levers 10 and 20 are attached to the outer periphery of the column post 3 The configuration arranged in is a basic configuration. This is greatly different from a conventional LCS having a configuration in which the LCS fixed mounting portion that houses the switch mechanism portion is mounted on the outside of the column post.

  As shown in FIG. 1, the operation levers 10 and 20 have the base portions of the switch mechanism portions 11 and 21 attached to the LCS fixing attachment portion 8. Lever movable portions 12 and 22 that can be swung in multiple directions are attached to the tip portions of the switch mechanism portions 11 and 21. The switch mechanism parts 11 and 21 and the lever movable parts 12 and 22 are arranged in a state of being exposed to the vehicle compartment side through a through hole formed in the column cover 4.

  The switch mechanism portions 11 and 21 are configured to output a switch in response to the swing operation of the lever movable portions 12 and 22. The operation levers 10 and 20 are of a so-called momentary type, and when the driver's fingers swing the lever movable parts 12 and 22 up and down or in the front-rear direction of the vehicle body with respect to the switch mechanism parts 11 and 21. When the operation levers 10 and 20 are separated from each other, the neutral position is automatically returned by releasing the operation force.

  The operation levers 10 and 20 configured as described above differ only in the objects to be switch-controlled, and both the left and right operation levers 10 and 20 have substantially the same configuration. For this reason, in the following embodiment, it demonstrates centering on the operation lever 20 of the right side which has a lamp system switch seeing from the driver | operator side.

(Configuration of lever moving part)
As shown in FIG. 2, the lever movable portion 22 has a configuration in which a lower knob 23, a fog SW knob 24, an intermediate knob 25, and a light SW knob 26 are sequentially arranged around the axis of the light lever 27.

  As shown in FIGS. 2 and 3, the fog SW knob 24 is configured to be rotatable with respect to the lower knob 23 to an on position where the fog lamp is turned on and an off position where the fog lamp is turned off. One light SW knob 26 is configured to be rotatable with respect to the intermediate knob 25 to an off position where the taillight and the headlight are turned off, a tail position where the taillight is turned on, and a head position where the headlight is turned on. .

(Fog SW knob configuration)
As shown in FIG. 3, a cylindrical lower knob 23 is attached in a fixed state near the base end of the light lever 27. A fixed terminal (not shown) that is integrally formed with the annular insulator 24a is attached to the lower knob 23 in a fixed state. A cylindrical fog SW knob 24 is rotatably attached to the opposing surface of the lower knob 23 on the intermediate knob 25 side.

  As shown in FIG. 3, a pair of moderation mechanisms 24d and 24d having a moderation piece 24b and a moderation spring 24c are arranged between the fog SW knob 24 and the intermediate knob 25. By the moderation mechanism 24d, the fog SW knob 24 is configured to provide a moderation feeling when the knob is rotated.

  A contact terminal (not shown) is fixedly attached to the opposite surface of the fog SW knob 24 on the lower knob 23 side. With the rotation of the fog SW knob 24, the contact terminal rotates and moves on the opposite surface of the insulator 24a, so that the contact terminal is electrically disconnected from the fixed terminal. The contact terminal and the fixed terminal are switched to positions corresponding to the off position and the on position of the fog SW knob 24. Thereby, the switch contact mechanism of the fog SW knob 24 is configured.

(Configuration of light SW knob)
As shown in FIG. 3, a fixed terminal (not shown) formed integrally with an annular insulator 26a is fixedly attached to the opposite surface of the intermediate knob 25 on the light SW knob 26 side. A cylindrical terminal holder 26 b is rotatably attached to the outer peripheral portion of the light lever 27 on the opposite surface of the insulator 26 a on the light SW knob 26 side. A cylindrical stator 26 c is fixedly attached to the outer peripheral portion of the light lever 27 on the opposite surface of the terminal holder 26 b on the light SW knob 26 side.

  As shown in FIG. 3, a pair of moderation mechanisms 26f and 26f having a moderation piece 26d and a moderation spring 26e are disposed between the terminal holder 26b and the stator 26c. By this moderation mechanism 26f, the light SW knob 26 is configured to give a sense of moderation when the knob is rotated.

  As shown in FIG. 3, a cap-shaped light SW knob 26 is rotatably attached to the base end portion of the light lever 27. Inside the light SW knob 26, a terminal holder 26b, a stator 26c, and a moderation mechanism 26f are accommodated. The light SW knob 26 and the terminal holder 26b rotate integrally around the axis of the light lever 27.

  A contact terminal (not shown) is attached to the opposing surface of the terminal holder 26b on the intermediate knob 25 side. As the light SW knob 26 rotates, the contact terminal rotates and moves on the opposing surface of the insulator 26a, so that the contact terminal and the fixed terminal are electrically connected to each other. The position is switched to a position corresponding to the off position and the on position of the SW knob 26. Thereby, the switch contact mechanism of the light SW knob 26 disposed on the same axis as the switch contact mechanism of the fog SW knob 24 is configured.

  As shown in FIG. 3, a lead wire 30 is wired to the fixed terminal of the fog SW knob 24 and the fixed terminal of the light SW knob 26. The lead wire 30 is electrically connected to a connector (not shown) on the column post 3 side via a connector 31. The contact terminal and the fixed terminal are formed of, for example, a copper-based or stainless-based conductive metal plate-like spring material, and the constituent members of the lever movable portion 22 other than the terminals are made of various synthetic resin materials. Become.

(Support structure of lever moving part)
As shown in FIG. 3, a synthetic resin case 32 that forms a design surface of the switch mechanism portion 21 is attached to the base end portion of the lever movable portion 22. An opening 32a is formed in the case 32, and a square cylindrical support bracket 33 is accommodated through the opening 32a. The support bracket 33 is attached in the case 32 by tightening the protector 34 with screws. A cover body 35 for closing the support bracket 33 and the protector 34 is detachably attached to the opening 32 a of the case 32.

  As shown in FIGS. 3 to 5, the support bracket 33 is formed with a pair of elastic bearing portions 33 a and 33 a and a pair of cylindrical shaft portions 33 b and 33 b intersect with the bearing portion 33 a. It is formed so as to protrude in the direction. Corresponding to this bearing portion 33a, a pair of shaft portions 27b and 27b are formed to project from the tip tube portion 27a of the light lever 27 as shown in FIG. With the shaft portion 27b as a swing center, the tip tube portion 27a of the light lever 27 is supported on the bearing portion 33a of the support bracket 33 so as to be swingable in the dimmer / passing operation direction which is the longitudinal direction of the vehicle body.

  On the other hand, corresponding to the shaft portion 33b of the support bracket 33, a pair of bearing portions 27c and 27c are formed in the tip tube portion 27a of the light lever 27 as shown in FIG. With the bearing portion 27c as a swing center, the tip tube portion 27a of the light lever 27 is supported on the shaft portion 33b of the support bracket 33 so as to be swingable in the turn signal operation direction which is the vehicle body vertical direction. With the light lever 27 and the support bracket 33, the lever movable portion 22 is configured to be swingable in multiple directions with respect to the switch mechanism portion 21.

(Structure of lever moderation mechanism)
As shown in FIGS. 3 and 7, a lever actuating member 29 is accommodated in the distal end cylindrical portion 27 a of the light lever 27 of the lever movable portion 22 via a compression coil spring 28 so as to be able to advance and retract. As shown in FIGS. 7 and 8, the lever actuating member 29 is positioned by a moderation member 40 formed of a cylindrical body having a disc-shaped moderation plate portion 40a and an attachment cylindrical portion 40b.

  On the moderation surface of the moderation member 40, as shown in FIGS. 7 and 8, four guide grooves 40c,..., 40c for guiding the swing of the lever actuating member 29 are 90 ° from the center of the disk. It is formed radially with a phase difference of. The bottom surface of the guide groove 40c is formed as an inclined surface that is inclined upward from the center of the disk toward the outside.

  When the lever operating member 29 moves on the inclined surface of the guide concave groove 40c of the moderation member 40 against the elastic force of the compression coil spring 28, when the operating force on the lever operating member 29 is removed, the compression coil spring The elastic return force 28 acts on the lever actuating member 29. The lever actuating member 29 slides down along the inclined surface of the guide groove 40c of the moderation member 40 and returns to the center of the four guide grooves 40c, so that the lever movable part 22 automatically returns to the initial position. Momentary operation is obtained.

(Configuration of switch mechanism)
As shown in FIGS. 8 and 9, the LCS 6 according to this embodiment has the most main configuration in the switch mechanism unit 21. At the base end of the case 32 of the switch mechanism portion 21, as shown in FIG. 8, the first switch that operates the dimmer / passing switch by rotating as the lever movable portion 22 swings in the longitudinal direction of the vehicle body. The actuating part 41 and the second switch actuating part 51 that actuates the turn switch by rotating as the lever movable part 22 swings in the vertical direction of the vehicle body are assembled on the same axis.

(Configuration of the first switch operating part)
As shown in FIG. 8, the first switch actuating portion 41 of the dimmer / passing switch is disposed so as to oppose the first insulator 42 having a cylindrical shape that forms the root portion of the switch mechanism portion 21. A contact mechanism is provided between the second insulator 43 and the cylindrical second insulator. The contact mechanism includes an annular terminal holder 44 as a terminal holding member, a contact terminal 45 held by the terminal holder 44, and a fixed terminal (not shown) that is electrically connected to the contact terminal 45. ing.

  As shown in FIG. 8, the terminal holder 44 and the contact terminal 45 are rotatably attached to a cylindrical portion formed on the lever movable portion 22 side of the first insulator 42. The terminal holder 44 and the contact terminal 45 constitute a rotating contact terminal that rotates in conjunction with the swing of the lever movable portion 22 in the longitudinal direction of the vehicle body. One fixed terminal is attached to the second insulator 43 in a fixed state.

  As shown in FIG. 8, the second insulator 43 is integrally formed with a connector 43 b that directly connects a fixed terminal. The connector 43b is electrically connected to connectors 61 and 62 formed integrally with the first insulator 42. By connecting a fixed terminal directly to the connector 43b of the second insulator 43, no lead wire is used. Lead wire wiring work and lead wire soldering work can be eliminated. As a result, the assembling work becomes easy and the cost can be reduced.

  As shown in FIG. 8, the terminal holder 44 has three leg portions 44a,..., 44a formed radially with a phase difference of 120 °. The three leg portions 44a are formed in a shape having elasticity, and the contact terminal 45 is received by receiving a load in the vertical direction of the vehicle body of the contact terminal 45 rotated in conjunction with the swing of the lever movable portion 22. It is configured to rotate stably. By adopting a configuration in which the load in the vertical direction of the vehicle body is received at a portion other than the contact terminal 45, the contact pressure in the vertical direction of the vehicle body of the counterpart fixed terminal is stabilized, and a good contact pressure can be secured. Become.

(Configuration of the first rotational motion conversion mechanism)
As shown in FIG. 8, the first switch operating unit 41 includes a first rotational motion conversion mechanism that converts the swinging motion of the lever movable portion 22 into the rotational motion of the contact terminal 45. The first rotational motion conversion mechanism includes a terminal holder 44, a moderation link 46 that rotates about the rotation axis 40d of the moderation plate portion 40a of the moderation member 40 by the swing of the lever movable unit 22, and the free end of the moderation link 46 Three members including a support arm 47 that is rotatably supported by the main body are used as main constituent members.

  As shown in FIG. 8, the support arm 47 has a connecting shaft portion 47 a that is fixedly connected to the terminal holder 44 on one surface, and an operating portion 47 b that is given rotational force by a moderation link 46 on the other surface. have.

  As shown in FIG. 8, a cylindrical connection boss portion 44 b is formed at the center portion of the terminal holder 44 so as to protrude toward the second insulator 43 side. In the cylindrical portion of the connecting boss portion 44b, the connecting shaft portion 47a of the support arm 47 is attached in a fixed state while being inserted into a cylindrical boss portion 43a formed at the center of the second insulator 43. .

  As shown in FIG. 8, an operating portion 47 b is formed to project toward the moderation member 40 side at an eccentric position of the connection shaft portion 47 a. The operating portion 47b is attached so as to be movable along an arcuate guide hole 40e formed through the circumference of the moderation plate portion 40a of the moderation member 40.

  On the same circumference as the guide hole 40e of the moderation plate portion 40a, as shown in FIG. 8, a rotating shaft 40d composed of an elastic shaft portion having a pair of elastic pieces protrudes. The guide hole 40e and the rotating shaft 40d are arranged to face the terminal portion of the guide groove 40c of the moderation plate portion 40a.

  As shown in FIG. 8, one end of the moderation link 46 is rotatably supported on the rotating shaft 40d. In the flat portion of the moderation link 46, a slit-shaped moderation hole 46a having a length dimension crossing the guide groove 40c from the rotation shaft 40d of the moderation plate portion 40a is formed so as to penetrate therethrough. The operating portion 47b of the support arm 47 is attached to the end portion in the longitudinal direction of the moderation hole 46a through the guide hole 40e of the moderation plate portion 40a. The lever operating member 29 of the lever movable portion 22 is inserted into the middle portion of the guide hole 40e.

  When the lever actuating member 29 swings while sliding in the moderation hole 46 a of the moderation link 46, the swinging force acts on the moderation link 46. One end of the moderation link 46 rotates about the rotation shaft 40d, so that a rotational force is applied to the operating portion 47b of the support arm 47. With the rotation of the support arm 47, the contact terminal 45 rotates together with the terminal holder 44 via the connection shaft portion 47 a of the support arm 47 and the connection boss portion 44 b of the terminal holder 44. Thereby, the swinging motion of the lever movable portion 22 is converted into the rotational motion of the contact terminal 45.

(Configuration of stroke expansion mechanism)
As shown in FIG. 8, the first switch actuating portion 41 configured as described above has a moderation link 46 that swings in conjunction with the lever actuating member 29 of the lever movable portion 22, and is linked to the moderation link 46. The two members, the support arm 47 that rotates in this manner, are the main components of the stroke expansion mechanism.

  The moderation link 46 and the support arm 47 constitute a compact stroke expansion mechanism with a small occupied volume. With this stroke expansion mechanism, a function of expanding the swing angle of the lever movable portion 22 and transmitting it to the moderation link 46 and the support arm 47 is obtained. The moderation link 46 and the support arm 47 set a large rotation stroke of the terminal holder 44 that holds the contact terminal 45. By appropriately changing the length of the moderation hole 46a of the moderation link 46, the rotation stroke of the terminal holder 44 that holds the contact terminal 45 can be arbitrarily changed.

  According to this stroke enlarging mechanism, the rotation angle of the support arm 47 is expanded by swinging the moderation link 46 and transmitted to the terminal holder 44 that holds the contact terminal 45. The rotation angle required for the switching operation of the first switch operating unit 41 can be set larger than the swing angle of the lever movable unit 22. Although the entire structure of the LCS 6 is small, a switching operation can be performed reliably.

  In the first switch operating portion 41, the support arm 47 and the contact terminal 45 are positioned on the moderation surface of the moderation member 40 via the moderation link 46. Even if there is a backlash between the tip cylinder portion 27a of the light lever 27 and the lever operating member 29 when the first switch operating portion 41 is operated, there is a gap between the lever operating member 29 and the moderation link 46. It ’s hard to get back. Thereby, it becomes possible to suppress the influence of the play of the support arm 47.

  Therefore, this stroke expanding mechanism is not affected by the play generated in the lever actuating member 29, and improves the operation feeling. In addition, since the play is not directly transmitted to the contact terminal 45, the positioning between the contact points of the contact terminal 45 and a fixed terminal (not shown) can be suppressed.

(Configuration of second switch operating part)
On the other hand, as shown in FIG. 8, the second switch actuating portion 51 of the turn switch includes a contact mechanism between the second insulator 43 and the moderation member 40 disposed to face the second insulator 43. Yes. The contact mechanism includes an annular terminal holder 52 that is a terminal holding member, a contact terminal 53 that is held by the terminal holder 52, and a fixed terminal (not shown) that is electrically connected to the contact terminal 53. ing. The terminal holder 52 has the same shape and function as the terminal holder 44 of the first switch operating unit 41.

  As shown in FIG. 8, the terminal holder 52 and the contact terminal 53 are rotatably attached to a cylindrical portion formed on the lever movable portion 22 side of the second insulator 43. The terminal holder 52 and the contact terminal 53 constitute a rotary contact terminal that rotates in conjunction with the swing of the lever movable portion 22 in the vertical direction of the vehicle body. One fixed terminal is fixedly attached in the cylindrical portion of the second insulator 43, and similarly to the first switch operating portion 41, the connector 43 b of the second insulator 43 and the connectors 61 and 62 of the first insulator 42. The lead wire is eliminated by connecting directly to.

(Configuration of second rotational motion conversion mechanism)
Similar to the first switch operating unit 41, the second switch operating unit 51 includes a second rotational motion conversion mechanism that converts the swing motion of the lever movable unit 22 into the rotational motion of the contact terminal 53. As shown in FIG. 8, the second rotational motion conversion mechanism is held by the terminal holder 52 inserted into and supported by a cylindrical boss 43 a formed at the center of the second insulator 43, and the terminal holder 52. Two members, the working arm 52a arranged at a position eccentric from the rotation center of the contact terminal 53, are the main constituent members.

  Of the three legs 52c,..., 52c of the terminal holder 52, one leg 52c converts the swinging motion of the lever movable portion 22 into the rotational motion of the contact terminal 53 as shown in FIG. An operating arm 52a which is an operating part is formed so as to protrude toward the lever movable part 22 side. The intermediate portion of the operating arm 52a is attached so as to be movable along an arcuate guide hole 40f formed through the circumference of the moderation plate portion 40a of the moderation member 40. The guide hole 40f is on the same circumference as the guide hole 40e of the first switch operating portion 41, and is arranged with a phase difference of 90 °.

  As shown in FIGS. 4, 5 and 8, the disc-like actuating portion 52b formed at the free end of the actuating arm 52a of the terminal holder 52 is inserted into the guide hole 40f of the moderation plate portion 40a. Thus, the light lever 27 is rotatably attached to a notch recess 33d formed in the leg 33c of the support bracket 33 for inserting and supporting the light lever 27. The guide hole 40 f of the moderation plate portion 40 a is formed along the moderation hole 46 a of the moderation link 46. Even if the support bracket 33 swings in the vertical direction of the vehicle body, the moderation link 46 does not swing. Accordingly, the first switch operating unit 41 and the second switch operating unit 51 perform a switching operation independently of each other.

  When the lever operating member 29 of the lever movable portion 22 swings in the vertical direction of the vehicle body about the shaft portion 33 b of the support bracket 33, the swinging force acts on the operating arm 52 a of the terminal holder 52. The operating arm 52 a rotates about the boss 43 a of the second insulator 43 as a rotation center, whereby a rotational force is applied to the terminal holder 52. As the terminal holder 52 rotates, the contact terminal 53 rotates. Thereby, the swinging motion of the lever movable portion 22 is converted into the rotational motion of the contact terminal 53.

  The switch mechanism unit 21 shown in FIG. 9 is obtained by assembling and assembling necessary constituent members to the first and second switch operating units 41 and 51 configured as described above. The contact terminal and the fixed terminal are formed of, for example, a copper-based or stainless-based conductive metal plate spring material, and the other constituent members of the switch mechanism 21 other than the terminals are made of various synthetic resin materials. This is the same as the lever movable unit 22.

(Configuration of mounting part)
As shown in FIGS. 2 and 3, an attachment portion 60 attached to the LCS fixing attachment portion 8 of the column post 3 is integrally formed on the opposite surface of the first insulator 42 on the column post 3 side in the switch mechanism portion 21. Has been. Two connectors 61 and 62 are provided on the mounting surface of the mounting portion 60. The connectors 61 and 62 are electrically connected to a connector (not shown) accommodated in the LCS fixed mounting portion 8.

  Further, as shown in FIG. 2, three first to third attachment members 63 to 65 made of H-shaped prisms protrude from the attachment portion 60. The three attachment members 63 to 65 are disposed at portions that form vertices of an isosceles triangle. The first mounting member 63 disposed at a portion forming the apex angle of the isosceles triangle is configured as a breaking member that absorbs an impact load by, for example, cutting, shearing, breaking or folding of the member. As this destruction member, it is suitable to arrange | position at the vehicle front side rather than the 2nd attachment member 64 and the 3rd attachment member 65. FIG.

  As shown in FIG. 2, the second mounting member 64 and the third mounting member 65 are integrally formed with a plate-like support 66 curved toward the rear of the vehicle body. For example, the LCS 6 can be operated. It is configured to withstand rigidity and strength. A plate-like support 67 that is curved toward the front of the vehicle body along the side surface in the vertical direction of the vehicle body is integrally formed with the first mounting member 63 that is one destruction member, for example, the lever movable portion 22. It is comprised so that the fracture | rupture by operation of may be prevented.

  The first mounting member 63 only needs to be formed in various shapes that are bent and deformed when an impact load is applied. As an example of the shape that bends and deforms, for example, a shape that is cut out along the base portion of the LCS 6 or a shape that is thinner than the thickness of the general portion is employed.

  In the illustrated example, a notch 63a is formed in a V-groove shape at the base portion of the first mounting member 63 in the vehicle body front direction as shown in FIG. Since the cross-sectional area of the V-groove of the notch 63a is set smaller than the cross-sectional area of the other part of the first mounting member 63, the shearing force applied to the valley portion of the V-groove is the first mounting member. 63 becomes larger than other portions. When the vehicle collides, an impact load is applied to the LCS 6 and the valley portion of the V groove of the first mounting member 63 is broken.

  In a so-called collapse mechanism in which the steering column 1 sinks into the instrument panel while colliding with the vehicle, when the steering column 1 sinks, the column cover 4 enters into the instrument panel while being collapsed, and the LCS 6 is instrumented. You will touch the panel. The side surface of the first mounting member 63, which is a breaking member, on the side of the notch 63a is extended by shearing force, and the side surface opposite to the notch is compressed.

  As a result, the first mounting member 63 is broken by the bending moment acting on the notch 63a. As described above, when the LCS 6 comes into contact with the instrument panel due to the secondary collision at the time of the vehicle collision, the destruction member of the LCS 6 is destroyed, so that the impact of the secondary collision applied to the occupant is absorbed.

(Effect of embodiment)
According to the LCS 6 configured as described above, the following effects can be obtained in addition to the above effects.

(1) A contact module in which the first switch actuating part 41 of dimmer passing and the second switch actuating part 51 of the turn are arranged in two stages on the same axis can be assembled and assembled in the case 32. Thus, it is possible to achieve a reduction in size, weight and size of the entire LCS 6.
(2) Since the first switch operating unit 41 and the second switch operating unit 51 are modularized, the switch operating units 41 and 51 can be individually managed, maintained, inspected and inspected.
(3) In the narrow working space of the LCS 6, the rotation stroke of the terminal holder 44 that holds the contact terminal 45 can be increased with respect to the swing of the lever movable portion 22.
(4) A compact stroke enlarging mechanism can be effectively obtained by the two members of the moderation link 46 that swings in conjunction with the lever operating member 29 and the support arm 47 that rotates in conjunction with the moderation link 46. it can.
(5) Since the degree of freedom of the shape of the mounting portion 60 of the LCS 6 can be increased, the degree of freedom in designing the entire LCS 6 can be increased, and the LCS 6 can be manufactured at low cost.
(6) Since the switch mechanism portion 21 of the LCS 6 is arranged outside the column cover 4, an impact absorbing structure can be formed at the base portion of the operation lever 20.
(7) Since the attachment portion 60 of the LCS 6 can be formed in various shapes, it is possible to effectively ensure the impact absorption performance that protects the driver's knee during a vehicle collision.

[Modification]
As described above, the typical configuration example of the LCS 6 in the present invention has been described with the embodiment and the illustrated example. However, the embodiment and the illustrated example do not limit the invention according to the claims. . Various configurations are possible within the scope of the technical idea of the present invention, and the following modifications are also possible.

  In the above embodiment and illustrated example, the LCS6 dimmer / passing switch and the turn switch provided with the light system switch for switching on / off state of the headlamp, tail lamp and fog lamp of the automobile are exemplified, but the present invention is not limited to this. It is not something. The present invention can be applied to operations other than the dimmer / passing operation and the turn operation, and of course can be applied to the LCS 7 having other uses such as a wiper system switch for operating the wiper.

  2 and 3, the connector 61, 62, the first to third mounting members 63-65, and the mounting portion 60 including the supports 66, 67 are illustrated, but the present invention is not limited to the illustrated examples. . In the present invention, as shown in FIGS. 4 to 9, the first to third mounting members 63 to 65 and the supports 66 and 67 are omitted, and the mounting portion 60 including only the connectors 61 and 62 is used. The initial object of the present invention can be achieved.

  In the above-described embodiments and illustrated examples, the case where the present invention is applied to an automobile has been described. However, the present invention is not limited to this, and can be effectively applied to various vehicles such as construction machines and agricultural machines. Of course you can.

  As is clear from the above description, typical embodiments according to the present invention have been illustrated, but the above-described embodiments and illustrated examples do not limit the invention according to the claims. Therefore, it should be noted that not all the combinations of features described in the above embodiments and the illustrated examples are essential to the means for solving the problems of the invention.

DESCRIPTION OF SYMBOLS 1 ... Steering column, 2 ... Steering shaft, 3 ... Column post, 4 ... Column cover, 5 ... Steering wheel, 6, 7 ... LCS, 8 ... LCS fixed attachment part, 8a ... Main-body part, 8b ... Steering shaft insertion part, DESCRIPTION OF SYMBOLS 10,20 ... Operation lever, 11, 21 ... Switch mechanism part, 12, 22 ... Lever movable part, 23 ... Lower knob, 24 ... Fog SW knob, 24a, 26a ... Insulator, 24b, 26d ... Moderation piece, 24c, 26e ... Moderation spring, 24d, 26f ... Moderation mechanism, 25 ... Intermediate knob, 26 ... Light SW knob, 26b, 44, 52 ... Terminal holder, 26c ... Stator, 27 ... Light lever, 27a ... End cylinder, 27b, 33b ... Shaft Part, 27c, 33a ... bearing part, 28 ... compression coil spring, 29 ... lever operating member, 30 ... lead 31, 43 b, 61, 62 ... connector, 32 ... case, 32 a ... opening, 33 ... support bracket, 33 d ... notch recess, 34 ... protector, 35 ... cover body, 40 ... moderation member, 40a ... moderation plate part, 40b ... Installation cylindrical part, 40c ... Guide groove, 40d ... Rotating shaft, 40e, 40f ... Guide hole, 41 ... First switch operating part, 42 ... First insulator, 43 ... Second insulator, 43a ... Boss part, 44a , 52c, 33c ... leg part, 44b ... connection boss part, 45, 53 ... contact terminal, 46 ... moderation link, 46a ... moderation hole, 47 ... support arm, 47a ... connection shaft part, 47b, 52b ... actuating part, 51 ... 2nd switch operation part, 52a ... Actuation arm, 60 ... Attachment part, 63-65 ... 1st-3rd attachment member, 63a ... Notch part, 66, 67 ... Support

Claims (4)

A lever movable part that can be operated in multiple directions;
A first switch actuating portion that rotates as the lever movable portion swings in one direction and a second switch actuating portion that rotates as the lever movable portion rotates in another direction intersecting the one direction are on the same axis. A switch mechanism arranged on a line;
An attachment part for attaching the switch mechanism part to the outside of a fixed attachment part attached to a steering column of the vehicle;
Lever combination switch characterized by comprising The first switch actuating portion converts a first contact terminal that rotates in conjunction with the one-way swing of the lever movable portion, and converts the swing motion of the lever movable portion into the rotational motion of the first contact terminal. And a first rotational motion conversion mechanism that
The second switch actuating portion converts a second contact terminal that rotates in conjunction with the swinging of the lever movable portion in the other direction, and converts the swinging motion of the lever movable portion into the rotational motion of the second contact terminal. The lever combination switch according to claim 1, further comprising a second rotational motion conversion mechanism. The first rotational motion conversion mechanism includes a first terminal holding member that holds the first contact terminal, a link member that rotates about a rotation axis in conjunction with the swing of the lever movable portion in the one direction, A support arm supported by the free end of the link member;
The support arm has a connection portion that is fixedly connected to a central portion of the first terminal holding member on one surface, and an operation portion that is given a rotational force by the link member on the other surface. The lever combination switch according to claim 2. The second rotational motion conversion mechanism includes a second terminal holding member that holds the second contact terminal, and an operation unit that is disposed at a position eccentric from the rotation center of the second contact terminal of the second terminal holding member. Have
The lever combination switch according to claim 2, wherein the actuating portion is given a rotational force in conjunction with the swinging of the lever movable portion in the other direction.

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