JP2019102404A - Lever switch device - Google Patents

Abstract

To provide a lever switch device capable of improving operability of a push switch 60.SOLUTION: A lever switch device 10 comprises: an axial part 30 extended to a tip end side from a base end side; a rotation operation part which is fitted to the outside of the middle of the axial part, and can perform a rotation operation as a center of the axial part; a holder 90 assembled to the axial part in a cross direction crossing to an axial core direction of the axial part, and attached to a tip of the axial part; a push switch part 61 held by the holder; and a compressing operation part provided in a state of being contacted to the push switch part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lever switch device, for example, to a lever switch device provided with a rotary switch and a push switch.

  As a conventional lever switch apparatus, the lever switch apparatus for vehicles of patent document 1 is known, for example. The on-vehicle lever switch device includes a cylindrical lever body and a holder incorporated and fixed in the cylindrical lever body. The circuit board is attached to the holder, and the first rotation knob is rotatably connected by a snap fit. Further, a push switch is mounted on the circuit board, and a pressing knob is connected to the first rotation knob by snap fit so as to be capable of reciprocating. The pressing knob has a drive rod, and the drive rod is disposed to be able to press the push switch.

JP, 2013-168287, A

  In the on-vehicle lever switch device of Patent Document 1, the push switch is fixed to the holder via the substrate. On the other hand, the pressing knob which presses the push switch is connected by snap fitting to the first rotating knob, and the first rotating knob is connected by snap fitting to the holder. Further, in the state where the pressing knob does not press the push switch, a gap is provided between the pressing knob and the push switch.

  Therefore, when the pressing knob is pressed, in addition to the movement of the pressing knob corresponding to the pressing operation, the positional deviation of the first rotary knob with respect to the holder and the positional deviation of the pressing knob with respect to the first rotational knob snap It occurs due to the fit structure. Therefore, the operation amount (moving distance) of the pressing knob required for the input of the push switch is not constant. Therefore, the movement distance of the pressing knob for inputting the push switch changes every time the pressing knob presses the push switch.

  In particular, as the push switch, there may be used one in which the displacement amount of the push switch with respect to the pressing operation is very small, for example, about 0.5 mm. In this case, in the configuration as described in Patent Document 1, the amount of change in the movement distance of the pressing knob with respect to such a displacement amount becomes relatively large. Therefore, the user who presses the push switch with the pressing knob is likely to feel discomfort.

  The present invention was made in order to solve such a subject, and it aims at providing a lever switch device which aimed at improvement in the operativity of a push switch.

  The lever switch device according to an aspect of the present invention is provided with a shaft portion extending from the proximal end side to the distal end side, and is externally fitted in the middle of the shaft portion, and a rotation operation capable of rotational operation about the shaft portion Contact with the holder mounted on the tip of the shaft, the push switch held by the holder, and the push switch, assembled in the cross direction intersecting the axial center direction of the shaft with the shaft and the shaft And a pressing operation unit provided in the closed state.

  According to this configuration, the holder is fixed in the axial direction with respect to the shaft portion by being assembled in the cross direction to the direction in which the shaft portion extends (axial direction). Further, the pressing operation unit is in contact with the push switch unit held by the holder. Thus, the relative positional relationship between the pressing operation portion and the push switch portion in the pressing direction parallel to the axial direction becomes constant with respect to the shaft portion. Therefore, since the movement distance of the pressing operation unit for pressing the push switch unit and inputting is hard to change every time the push operation unit is input by the pressing operation unit, the user can feel the push switch unit through the cover without a sense of discomfort The pressing operation can be performed.

  In the lever switch device, the push switch unit may be a tactile switch that provides a moderation feeling corresponding to the pressing operation. According to this configuration, it is possible to approximate the input timing of the push switch unit according to the pressing operation and the application timing of the moderation by the moderation mechanism. As a result, the user can use the push switch portion without discomfort.

  In the lever switch device, a groove extending in the cross direction is formed in the circumferential portion of the shaft portion, and the holder may have a convex portion fitted in the groove by assembly in the cross direction. According to this configuration, for example, when the holder is attached to the shaft by the adhesive, it takes time to dry the adhesive. On the other hand, by fitting the convex portion in the groove, the holder can be fixed to the shaft portion without requiring time, and the workability is excellent.

  The lever switch device further includes a moderation mechanism that imparts a sense of moderation according to the rotation of the rotation operation unit, and the moderation mechanism contacts a moderation surface on which a moderation peak protruding toward the base end is formed and a moderation surface A rotational operation unit, a moderation surface, and a spring having a ball, a spring biasing the ball toward the tip side toward the moderation surface, and an accommodation portion having an accommodation space opening to the tip side and accommodating the ball and the spring; The housing portion may have an insertion hole through which the shaft portion is inserted.

  According to this configuration, it is possible to easily attach them to the shaft portion by passing the shaft portion through the insertion holes of the rotation operation portion, the moderation surface and the housing portion and stacking them. Further, at this time, by turning the tip end side of the shaft portion upward, the opening portion of the housing portion opened to the front end side can be directed upward, so the housing portion is housed with the ball and the spring housed in the housing portion. It can be attached to the shaft. Furthermore, the holder can be easily mounted on the tip of the upward facing shaft.

  The present invention has an effect that it is possible to provide a lever switch device which has the configuration described above and improves the operability of the push switch.

  The above object, other objects, features and advantages of the present invention will be apparent from the following detailed description of preferred embodiments with reference to the attached drawings.

It is a sectional view showing a lever switch device concerning an embodiment of the invention. It is a disassembled perspective view of the lever switch apparatus of FIG. Fig.3 (a) is the perspective view which looked at the holder of FIG. 1 from the front end side. FIG.3 (b) is the perspective view which looked at the holder of FIG. 3 (a) from proximal end. It is a perspective view which shows the axial part of FIG. 1, and the moderation part attached to this tip. It is a perspective view which shows FPC of FIG. It is a perspective view which shows the 2nd board | substrate part of FIG. 2, its mounting part, and a 2nd wiring part and its wiring path part. It is a perspective view which shows the 1st board | substrate part and its fixing | fixed part of FIG. 2, and a 2nd board | substrate part and its holder. It is a perspective view which shows the state which attaches the holder of FIG. 2 to an axial part.

  Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings. In the following, the same or corresponding elements are denoted by the same reference numerals throughout all the drawings, and the redundant description will be omitted.

<Configuration of Lever Switch Device>
As shown in FIGS. 1 and 2, the lever switch device 10 according to the embodiment is disposed, for example, in the vicinity of a steering device such as a steering wheel of a vehicle, and is used as an operation lever such as a light and a wiper. The lever switch device 10 includes a case 20 and a sliding body 11. The sliding body 11 side of the case 20 is referred to as a base end side, and the opposite side is referred to as a tip end side.

  The case 20 has a substantially cylindrical shape and is made of insulating resin such as ABS and polyamide, and the fixed knob 21, the rotating knobs (the first rotating knob 22 and the second rotating knob 23), the tip knob 24 and the cover (switch cover 25). The fixed knob 21, the first rotation knob 22, the second rotation knob 23, and the tip knob 24 have internal spaces, respectively, and are connected in this order so that the internal spaces communicate with each other.

  The fixed knob 21 has a main body portion 21a and an inclined portion 21b. The inclined portion 21 b is disposed on the proximal end side of the main body portion 21 a and is inclined with respect to the main body portion 21 a. The base end of the inclined portion 21b is connected to the sliding body 11, and the tip end of the inclined portion 21b is connected to the base end of the main body portion 21a.

  The main body portion 21a, the first rotation knob 22, the second rotation knob 23, and the tip end knob 24 are coaxially connected to each other to form a substantially cylindrical shape. The shaft portion 30, the rotary switch 40 and the push switch 60 are accommodated in this internal space. The shaft portion 30 extends from the proximal side to the distal side.

  In addition, a shaft stopper 26 is fixed to the proximal end of the shaft portion 30. When the shaft stopper 26 abuts on a locking portion (not shown) provided on the inner surface of the main body portion 21a, the shaft portion 30 is locked with respect to the main body portion 21a in the axial center direction. In addition, for convenience of explanation, a direction parallel to the central axis of the shaft portion 30 is referred to as an axial direction.

  Furthermore, the fixed knob 21 is divided into two in a direction orthogonal to the axial center direction, and is configured by the first knob portion 27 and the second knob portion 28. For example, the fixing knob 21 is formed by covering the opening of the first knob 27 with the second knob 28.

  The first rotation knob 22 is connected to the rotation portion (first rotation portion 44) of the rotary switch 40, and functions as a rotation operation portion to be rotated about the shaft portion 30 by the user together with the first rotation portion 44. Further, the second rotation knob 23 is connected to the rotation portion (second rotation portion 46) of the rotary switch 40 and functions as a rotation operation portion to be rotated about the shaft portion 30 by the user together with the second rotation portion 46. Do. The first rotation knob 22 and the first rotation unit 44 may be integrally provided to function as a rotation operation unit, and the second rotation knob 23 and the second rotation unit 46 may be integrally provided and rotate. It may function as an operation unit.

  The switch cover 25 is a pressing operation unit that is pressed by the user, and is disposed movably in the axial direction with respect to the tip knob 24. Further, the switch cover 25 covers the push switch portion 61 of the push switch 60 attached to the tip end side of the rotation operation portion in the shaft portion 30 and advances and retracts together with the push switch portion 61.

<Configuration of rotary switch>
As shown in FIG. 2, in this embodiment, the rotary switch 40 is configured of a first rotary switch 41 and a second rotary switch 42. However, the number of rotary switches 40 is not limited to this, and may be one or three or more. In addition, a rotation knob corresponding to the number of rotary switches 40 is provided in the case 20 (FIG. 1).

  The first rotary switch 41 includes a fixed unit 43, a rotating unit (first rotating unit 44), and a moderation mechanism (first moderation mechanism 45), and the second rotary switch 42 includes a fixed unit 43 and a rotating unit (a second rotation). And a moderation mechanism (second moderation mechanism 47). In this embodiment, although the first rotary switch 41 and the second rotary switch 42 share one fixing portion 43, they may have separate fixing portions 43.

  The fixing portion 43 has an annular shape, and includes an insertion hole (fixed insertion hole 43a) through which the shaft portion 30 is inserted. A blocking portion (not shown) for blocking the rotation of the fixing portion 43 with respect to the shaft portion 30 is formed on the inner surface of the fixing portion 43 defining the fixing insertion hole 43a. The fixing portion 43 is fixed to the shaft portion 30 which has passed through the fixing insertion hole 43 a by the blocking portion.

  The fixing portion 43 supports the first substrate portion 71 on at least one end face (face) of the base end side and the tip end side. In this embodiment, the first substrate unit 71 is configured of a first rotary substrate unit 73 for the first rotary switch 41 and a second rotary substrate unit 74 for the second rotary switch 42. For this reason, the first rotary base plate portion 73 is disposed on the base end side surface of the fixed portion 43, and the second rotary base plate portion 74 is disposed on the tip side surface of the fixed portion 43. However, depending on the number of rotary switches and the arrangement of the fixing portion 43 and the rotating portion, the fixing portion 43 may support the first substrate portion 71 at the proximal end side surface and / or the distal end side surface.

  The first rotary substrate unit 73 and the second rotary substrate unit 74 have, for example, fixed contacts, and are configured of flexible printed circuits (FPCs 70). The FPC 70 will be described later.

  The first rotary substrate portion 73 is fixed on the base end side surface of the fixed portion 43 by the cover (first substrate cover 48), and the second rotary substrate portion 74 is the tip side surface of the fixed portion 43 by the cover (second substrate cover 49). It is fixed on top. Thus, the lever switch device 10 can be miniaturized by sandwiching one fixed portion 43 between the first rotary substrate portion 73, the first substrate cover 48, and the second rotary substrate portion 74 and the second substrate cover 49. Is planned.

  The first substrate cover 48 has an annular shape, and has an insertion hole (a first substrate cover insertion hole 48 a) through which the shaft portion 30 is inserted. Further, the first substrate cover 48 has a first opening (not shown) different from the first substrate cover insertion hole 48a, and a first claw (not shown). The first substrate cover 48 is attached to the fixing portion 43 with the first rotary substrate portion 73 sandwiched between the first claw portion and the fixing portion 43. Further, in this state, the fixed contact of the first rotary substrate 73 is exposed to the outside through the first opening.

  The second substrate cover 49 has an annular shape, and has an insertion hole (second substrate cover insertion hole 49a) through which the shaft portion 30 is inserted. The second substrate cover 49 also has a second opening (not shown) different from the second substrate cover insertion hole 49a, and a second claw (not shown). The second substrate cover 49 is attached to the fixing portion 43 by sandwiching the second rotary substrate portion 74 with the fixing portion 43 by the second claw portion. Further, in this state, the fixed contact of the second rotary base plate 74 is exposed to the outside through the second opening.

  The first rotating portion 44 has an annular shape, and includes an insertion hole (first rotation insertion hole 44 a) through which the shaft portion 30 is inserted. When the shaft portion 30 passes through the first rotation insertion hole 44 a, the first rotating portion 44 is externally fitted in the middle of the shaft portion 30 and is rotatably attached to the shaft portion 30. In addition, the first rotating portion 44 is accommodated in a state of being fixed to the first rotating knob 22. Thereby, the first rotating portion 44 is rotated as the first rotating knob 22 is rotated.

  A contact piece (first contact piece 50) is attached on the surface on the tip side of the first rotating portion 44. The first contact piece 50 has a movable contact, and is disposed to face the first rotary substrate portion 73 via the first substrate cover 48. For this reason, the first contact piece 50 rotates with the rotation of the first rotating portion 44, and the movable contact of the first contact piece 50 moves so as to be able to contact or separate from the fixed contact of the first rotary base plate portion 73. A signal of the first rotary switch 41 is formed by the position relative to the movable contact with respect to the fixed contact.

  The second rotating portion 46 has an annular shape, and includes an insertion hole (second rotation insertion hole 46 a) through which the shaft portion 30 is inserted. When the shaft portion 30 passes through the second rotation insertion hole 46 a, the second rotating portion 46 is externally fitted in the middle of the shaft portion 30 and is rotatably attached to the shaft portion 30. The second rotating portion 46 is accommodated in a state of being fixed to the second rotating knob 23. Thereby, the second rotating portion 46 is rotated as the second rotating knob 23 is rotated.

  A contact piece (second contact piece 51) is attached on the surface of the base end side of the second rotating portion 46. The second contact piece 51 has a movable contact, and is disposed to face the second rotary substrate portion 74 via the second substrate cover 49. For this reason, the second contact piece 51 rotates with the rotation of the second rotating portion 46, and the movable contact of the second contact piece 51 moves so as to be able to contact and separate from the fixed contact of the second rotary base plate 74. The position of the movable contact relative to the fixed contact forms the signal of the second rotary switch 42.

  The first moderation mechanism 45 is a mechanism for giving a sense of moderation corresponding to the rotation of the first rotating portion 44, and is a moderation surface (first moderation surface 52), a ball (first ball 53), a spring (first spring) 54) and a housing portion (first housing portion 55). In this embodiment, two first balls 53 and two first springs 54 are provided, but one or three or more may be provided.

  The first housing portion 55 has an annular shape, and includes an insertion hole (housing insertion hole 55a) through which the shaft portion 30 is inserted. A blocking portion (not shown) for blocking the rotation of the first housing portion 55 with respect to the shaft portion 30 is formed on the inner surface of the first housing portion 55 which defines the housing insertion hole 55a. The first housing portion 55 is fixed to the shaft portion 30 which has passed through the housing insertion hole 55a by the blocking portion.

  The first housing portion 55 has a housing space, and is attached to the shaft portion 30 so that the housing space is open at the distal end side. The first moderation surface 52 is disposed adjacent to the front end side where the first accommodation portion 55 opens. Then, the first ball 53 and the first spring are brought into contact such that the first ball 53 contacts the first moderation surface 52 and the first spring 54 biases the first ball 53 toward the first moderation surface 52 toward the tip side. 54 are accommodated in the accommodation space.

  The first moderation surface 52 is provided on the proximal end side surface of the first rotating portion 44, and, for example, a plurality of convex peaks (junction degree mountains) protruding to the proximal side center on the first rotation insertion hole 44a. It is arranged radially. Thereby, the first ball 53 hits the moderation mountain of the first moderation surface 52 by the rotation of the first moderation surface 52 of the first rotating portion 44, and a moderation feeling is generated.

  The second moderation mechanism 47 is a mechanism that provides a moderation feeling corresponding to the rotation of the second rotating unit 46, and includes a moderation unit 80, a ball (second ball 57), a spring (second spring 58), and an accommodation unit It has a second accommodating portion 59). In this embodiment, two second balls 57 and two second springs 58 are provided respectively, but may be one or three or more each.

  The moderation portion 80 has an annular shape and has an insertion hole (moderation insertion hole 80a) through which the shaft portion 30 is inserted. A blocking portion (not shown) for blocking the rotation of the moderation portion 80 with respect to the shaft portion 30 is formed on the inner surface defining the moderation insertion hole 80a. The moderation portion 80 is fixed to the shaft portion 30 which has passed through the moderation insertion hole 80a by the blocking portion.

  A moderation surface (second moderation surface 81) is provided on the proximal end side surface of the moderation portion 80. On the second moderation surface 81, for example, a plurality of convex ridges (junction level mountains) protruding to the base end side are arranged in a radial shape centering on the moderation insertion hole 80a.

  The second housing portion 59 is provided in the second rotating portion 46, has a housing space, and is attached to the shaft portion 30 so that the housing space is open at the tip end side. The second moderation surface 81 is disposed adjacent to the front end side where the second accommodation portion 59 is opened. In addition, the second ball 57 and the second spring cause the second ball 57 to contact the second moderation surface 81 and the second spring 58 bias the second ball 57 toward the second moderation surface 81 toward the tip side. 58 are accommodated in the accommodation space. As a result, the second accommodation portion 59 rotates with the rotation of the second rotation portion 46, and the second ball 57 in the second accommodation portion 59 hits the moderation mountain of the second moderation surface 81, generating a sense of moderation.

<Configuration of Push Switch>
As shown in FIG. 2, the push switch 60 includes a push switch unit 61 and a second substrate unit 72 connected to a terminal (not shown) extended from the push switch unit 61. The push switch portion 61 has a displacement portion 61a, and the displacement portion 61a is displaced by a pressing operation, the switch contact inside the push switch portion 61 is opened and closed, and the signal is output from the terminal to the second substrate portion 72.

  In this embodiment, the push switch unit 61 has a moderation mechanism for giving a moderation feeling corresponding to the pressing operation, and a tactile switch is used. However, the push switch unit 61 is not limited to the tactile switch as long as it is an operation switch that opens and closes (inputs) the contact by moving the displacement unit 61a in the axial direction by the pressing operation with a finger or the like.

  The push switch portion 61 is fixed to the shaft portion 30 by the holder 90 and is electrically connected to the second substrate portion 72. As shown in FIG. 3A, the holder 90 has a placement portion 91, a wall portion 92, and a path portion (first path portion 93). The first path unit 93 will be described later.

  The placement unit 91 is a portion on which the push switch unit 61 is placed, and has, for example, an octagonal flat plate shape. The wall 92 has, for example, a tubular shape having an octagonal cross section so as to surround the periphery of the mounting portion 91, and has a first wall 92a and a second wall 92b facing the first wall 92a. doing. A notch (first notch 94) is formed in the first wall 92a on the tip end side of the mounting portion 91. Further, a pair of protrusions 91 a is provided on the end side surface of the mounting portion 91. The pair of protrusions 91 a are arranged in the vicinity of the first notch 94 at an interval.

  As shown in FIG. 3B, on the proximal end side of the holder 90, a notch (second notch 95) and a groove (holder groove 96) are provided. The second notch 95 is provided at a portion closer to the base end than the placement portion 91 of the second wall 92 b, and is disposed on the opposite side to the first notch 94 with the placement portion 91 interposed therebetween. It is done.

  The holder groove 96 extends from the second notch 95 toward the first wall 92a, and one end is opened via the second notch 95, and the other end is closed by the first wall 92a. Further, the holder groove 96 is opened via the opening 96 a on the proximal end side, and the distal end side is closed by the placement portion 91.

  A pair of convex portions 97 are provided on a pair of inner surfaces of the wall 92 defining the holder groove 96 in a direction (in this embodiment, orthogonal to this embodiment) with respect to the direction in which the holder groove 96 extends and the axial direction. It is provided. The pair of convex portions 97 are attachment portions for attaching the holder 90 to the shaft portion 30 (FIG. 2), and project from the inner surface of the wall portion 92 so that the distance between the holder 90 and the shaft portion 30 is narrow. Therefore, the distance between the pair of convex portions 97 is smaller than the width of the holder groove 96. The convex portion 97 extends along the holder groove 96 at the proximal end edge of the holder 90.

  As shown in FIG. 4, a pair of grooves (shaft grooves 31) are provided in the vicinity of the tip of the shaft 30. The pair of axial grooves 31 are parallel to each other, and extend in a direction intersecting the axial direction (in the embodiment, a direction perpendicular to each other) in the circumferential portion of the axial portion 30.

  A locking portion (moderation locking portion 82) is provided on the tip end side of the moderation portion 80. The moderation locking portion 82 has a pair of pedestal portions 83 and a bridge portion 84. The pair of pedestal portions 83 project from the tip side surface of the moderation portion 80 and are arranged at intervals. The bridge portion 84 has a flat plate shape, and is bridged across the pair of pedestal portions 83 at the tip end side edge of the pedestal portion 83.

  The shaft portion 30 which has passed through the moderation insertion hole 80a of the moderation portion 80 is disposed between the pair of pedestal portions 83, and the tip end of the shaft portion 30 abuts on the bridge portion 84 and is locked. In this state, the axial groove 31 of the axial portion 30 appears on the tip side surface of the moderation portion 80, and the proximal end side 31a of the shaft portion 30 defining the axial groove 31 is flush with the distal side surface of the moderation portion 80. Become. The surface 31 b of the axial groove 31 parallel to the axial direction is parallel to the bridge portion 84 and flush with the side surface 83 a of the pedestal portion 83.

  Such a moderation locking section 82 of the moderation section 80 is, as shown in FIGS. 3B and 4, in the holder groove 96 of the holder 90 via the second notch 95 and the opening 96 a on the proximal end side. It is fitted. Thus, the holder 90 is assembled in the axial direction in a direction intersecting with the shaft 30 and attached to the tip of the shaft 30.

  Here, the proximal end side edge 90 a of the holder 90 is disposed on the proximal end side surface 31 a of the axial groove 31 and the distal end side surface of the moderation portion 80 which are flush with each other. Further, the moderation locking portion 82 abuts on the first wall portion 92 a of the holder 90. Further, the convex portion 97 of the holder 90 is fitted in the axial groove 31 of the shaft portion 30 along the side surface 83 a of the pedestal portion 83 and the surface 31 b of the axial groove 31 provided flush. Thus, the holder 90 is fixed to the moderation portion 80 and the shaft portion 30 connected to the moderation portion 80 in the axial direction and the direction perpendicular thereto.

  The push switch portion 61 thus fixed to the shaft portion 30 is covered by the switch cover 25 shown in FIG. At this time, the switch cover 25 is connected to the holder 90 so as to be capable of reciprocating in the axial direction while being in contact with the displacement portion 61 a of the push switch portion 61. Here, the switch cover 25 may cover the push switch portion 61 so as to be slightly biased so as to contact the push switch portion 61 more reliably.

<FPC>
As shown in FIG. 2 and FIG. 5, a wiring through which signals for detecting the displacement of the rotation operation unit and the push switch 61 pass is laid on one FPC 70 and extended from the proximal end side to the distal end side. Specifically, the FPC 70 is provided with a connection terminal 75, a wiring portion, a first substrate portion 71, and a second substrate portion 72. Further, in this embodiment, the first substrate unit 71 has the first rotary substrate unit 73 and the second rotary substrate unit 74 in accordance with the number of rotary switches 40.

  The first rotary substrate portion 73 has an annular shape, and an insertion hole (a first substrate insertion hole 73a) is provided. The second rotary substrate portion 74 has an annular shape, and an insertion hole (second substrate insertion hole 74a) is provided. The second substrate portion 72 is formed in a size to be disposed on the placement portion 91 of the holder 90, and has a pair of notch portions 72a between the second substrate portion 72 and the second wiring portion 78.

  The wiring portion has a first wiring portion 77 and a second wiring portion 78. The first wiring portion 77 and the second wiring portion 78 branch halfway and extend to the tip side. The branch point 76 is more proximal than the first substrate portion 71 and is between the first rotary substrate portion 73 and the connection terminal 75.

  The first wiring portion 77 has a base end side first wiring portion 77 a and a tip end side first wiring portion 77 b. The connection terminal 75 is connected to the base end side of the base end side first wiring portion 77a, and the first rotary substrate portion 73 is connected to the tip end side. The distal end side first wiring portion 77 b is connected at the proximal end side to the first rotary substrate portion 73, and is connected at the distal end side to the second rotary substrate portion 74. For example, the proximal first wiring portion 77a and the distal first wiring portion 77b extend linearly so that the connection terminal 75, the first rotary substrate portion 73, and the second rotary substrate portion 74 are linearly arranged. .

  The connection terminal 75 is connected to the base end side of the second wiring portion 78, and the second substrate portion 72 is connected to the front end side. For example, the second wiring portion 78 extends in a direction orthogonal to the first wiring portion 77 from a branch point 76 with the first wiring portion 77 and then bends, and the first wiring portion 77 is spaced apart from the first wiring portion 77 by a first wiring. It extends to the tip side in parallel with the portion 77. As a result, the second wiring portion 78 is arranged in the vicinity of the first wiring portion 77 by being bent in the vicinity of the branch point 76.

  As shown in FIG. 6, the lever switch device 10 (FIG. 1) is provided with a wiring path portion that supports such a second wiring portion 78. Wiring to a component (for example, the holder 90, the moderation portion 80, the second substrate cover 49, the first substrate cover 48, the first accommodation portion 55) fixed to the shaft portion 30 (FIG. 1) of the respective components A path section is provided. For example, the wiring path portion is configured by first to fifth path portions.

  The first path portion 93 is a groove portion provided on the first wall portion 92 a of the holder 90, and is connected to the placement portion 91 via the first notch 94. The second path portion 80 b is formed to protrude on the side surface of the moderation portion 80 and to the proximal side from here. The third path portion 49 b is formed to project on the side surface of the second substrate cover 49 and the tip side thereof. The fourth path portion 48 b is formed to protrude on the side surface of the first substrate cover 48 and the proximal end side from here. The fifth path portion 55 b is provided on the side surface of the first accommodation portion 55.

  The holder 90, the moderation portion 80, the second substrate cover 49, the first substrate cover 48, and the first accommodation portion 55 are attached to the shaft portion 30 in this order. Therefore, the first path portion 93, the second path portion 80b, the third path portion 49b, the fourth path portion 48b, and the fifth path portion 55b provided in these are also arranged in this order, and the shaft portions 30 (FIG. It extends linearly in parallel to). The wiring path portion supports the second wiring portion 78.

  In addition, a first wiring portion 77 overlapping the second wiring portion 78 is also disposed in the fourth path portion 48 b and the fifth path portion 55 b of the wiring path portions. Therefore, in addition to the second wiring portion 78 supporting the second wiring portion 78, the wiring path portion also supports the first wiring portion 77 overlapping with the second wiring portion 78, whereby the lever switch device 10 can be miniaturized.

  Furthermore, as shown in FIG. 2, the lever switch device 10 includes a wiring cover 110 and a holder cover 100. The wiring cover 110 is a long, substantially rectangular plate-like body, and is a first wiring portion 77 overlapping the second wiring portion 78 placed on the second to fifth path portions, and the second wiring portion 78. Cover and secure.

  The holder cover 100 has a wiring cover portion 101 and a substrate cover portion 102, as shown in FIG. The wiring cover portion 101 is a substantially rectangular plate-like body, extends from the substrate cover portion 102 to the base end side, and covers and fixes the second wiring portion 78 placed on the first path portion 93.

  The substrate cover portion 102 is a cover for fixing the second substrate portion 72 placed on the placement portion 91 of the holder 90, and has, for example, an octagonal plate shape corresponding to the shape of the placement portion 91. . An opening (switch opening 103) is provided in the substrate cover portion 102 at a position facing the push switch 61. Thus, the displacement portion 61 a of the push switch portion 61 can protrude from the substrate cover portion 102 through the switch opening portion 103 and can abut on the switch cover 25 (FIG. 1).

<Assembling method of lever switch device>
First, as shown in FIG. 7, the first rotary substrate portion 73 of the FPC 70 is bent in the direction orthogonal to the proximal first wiring portion 77 a and disposed on the proximal end side surface of the fixed portion 43, It is attached to the fixing portion 43 by the first substrate cover 48. Then, the distal end side first wiring portion 77 b is bent in a direction orthogonal to the first rotary substrate portion 73 and extends along the side surface of the fixed portion 43 from the proximal end side surface to the distal end side surface. Then, the second rotary base plate portion 74 is bent in a direction orthogonal to the front end side first wiring portion 77 b, disposed on the front end side surface of the fixing portion 43, and attached to the fixing portion 43 by the second substrate cover 49.

  Further, as shown in FIGS. 6 and 7, the push switch portion 61 is attached by solder mounting on the second substrate portion 72 of the FPC 70. Then, the second substrate unit 72 is disposed on the placement unit 91 of the holder 90. At this time, the second substrate portion 72 is positioned with respect to the mounting portion 91 by fitting the pair of notch portions 72 a of the second substrate portion 72 to the pair of projections 91 a of the mounting portion 91. In FIG. 6, the holder cover 100 is omitted for the sake of clarity.

  The second wiring portion 78 connected to the second substrate portion 72 is bent with respect to the second wiring portion 78 at the first notch 94 of the holder 90. Then, the second wiring portion 78 is disposed on the first path portion 93 connected to the first notch 94.

  Subsequently, the substrate cover portion 102 of the holder cover 100 is attached to the placement portion 91 so as to cover the second substrate portion 72. Thereby, the second substrate unit 72 is fixed to the holder 90. At this time, the wiring cover portion 101 of the holder cover 100 is disposed on the side of the first notch 94 of the mounting portion 91. Thus, the second wiring portion 78 is covered with the wiring cover portion 101 and fixed to the first path portion 93.

  Then, as shown in FIG. 2, for example, the proximal end of the shaft portion 30 is disposed below the distal end. Then, with the opening of the first accommodation portion 55 upward, the first ball 53 and the first spring 54 are accommodated from this opening. Then, the first accommodation portion 55 is attached to the shaft portion 30 by inserting the accommodation insertion hole 55 a of the first accommodation portion 55 into the shaft portion 30. Subsequently, the first rotation insertion hole 44 a of the first rotation portion 44 is passed through the shaft portion 30 so that the first moderation surface 52 of the first rotation portion 44 is on the first accommodation portion 55 side, and the first rotation portion Attach 44 to shaft 30. As a result, the first ball 53 is biased toward the first moderation surface 52 by the first spring 54, and the first moderation mechanism 45 is formed.

  Also, the first rotary substrate unit 73, the first substrate cover 48, the fixing unit 43, the second rotary substrate unit 74, and the second substrate cover 49 are arranged in this order from the base end side toward the tip end side, The shaft portion 30 is passed through each insertion hole. As a result, each substrate portion, each cover, and the fixing portion 43 are attached to the shaft portion 30. At this time, the first rotary substrate portion 73 is disposed to face the first contact piece 50 on the first rotary portion 44, and the first rotary switch 41 is formed.

  Furthermore, with the base end side surface of the second rotating portion 46 to which the second contact piece 51 is attached facing downward, the second rotating insertion hole 46a is passed through the shaft portion 30, and the second rotating portion 46 is attached to the shaft portion 30 . Thereby, the second rotary base plate portion 74 is disposed to face the second contact piece 51, and the second rotary switch 42 is formed.

  Thus, when the base end side surface of the second rotating portion 46 is turned down, the opening of the second accommodation portion 59 of the second rotating portion 46 faces upward. Therefore, when the second rotation insertion hole 46 a is passed through the shaft portion 30, the second rotating portion 46 is fixed to the shaft portion 30 in a state in which the second ball 57 and the second spring 58 are accommodated in the second accommodation portion 59 from the opening. It can be attached.

  Then, the moderation insertion hole 80a is passed through the shaft section 30 so that the second moderation surface 81 of the moderation section 80 is on the second rotating section 46 side, and the moderation section 80 is attached to the shaft section 30. As a result, the second ball 57 is urged toward the second moderation surface 81 by the second spring 58, and the second moderation mechanism 47 is formed.

  Thus, when the moderation portion 80 is attached to the shaft portion 30, as shown in FIG. 4, the tip of the shaft portion 30 abuts on the bridge portion 84 of the moderation locking portion 82 of the moderation portion 80. Then, the axial groove 31 of the shaft portion 30 appears on the moderation portion 80. Then, with the holder groove 96 side of the holder 90 down, the second notch 95 is directed to the moderation locking portion 82 side, and the holder 90 is slid. Thereby, the moderation locking portion 82 is fitted into the holder groove 96 via the second notch 95, and the holder 90 is disposed on the tip of the shaft portion 30.

  At this time, the moderation locking portion 82 abuts on the second wall portion 92 b of the holder 90, and the convex portion 97 of the holder 90 fits in the axial groove 31 of the shaft portion 30. Thus, the holder 90 is fixed to the moderation portion 80 and the shaft portion 30 connected to the moderation portion 80 in the axial direction and the direction perpendicular thereto.

  Subsequently, the second wiring portion 78 attached to the holder 90 is disposed on the second to fifth path portions as shown in FIG. At this time, the second wiring portion 78 is bent and overlapped on the first wiring portion 77. And the wiring cover 110 shown in FIG. 2 is attached so that this 1st wiring part 77 and the 2nd wiring part 78 may be covered.

  Then, the assembly in which the first rotary switch 41, the second rotary switch 42 and the push switch portion 61 are attached to the shaft portion 30 is put into the first knob portion 27 of the fixed knob 21 shown in FIG. Here, the shaft stopper 26 is fixed to the base end of the shaft portion 30, and the shaft stopper 26 is brought into contact with the locking portion in the main body portion 21a of the first knob portion 27, Lock the movement to Then, the opening of the first knob portion 27 is covered with the second knob portion 28 to form the fixed knob 21. The first rotation knob 22 and the second rotation knob 23 are attached to the fixed knob 21.

  Then, the switch cover 25 is brought into contact with the push switch portion 61, and the switch cover 25 is fixed by the end knob 24. At this time, the switch cover 25 is brought into contact with the push switch portion 61.

<Action, effect>
As described above, the push switch portion 61 is fixed to the shaft portion 30 in contact with the switch cover 25 in the pressing direction parallel to the axial direction. Therefore, when the switch cover 25 is pressed and moved by the user, the movement distance thereof can be matched with the displacement amount of the displacement portion 61 a of the push switch portion 61 which is pressed and displaced by the switch cover 25. Therefore, the moving distance of the switch cover 25 for pressing the push switch portion 61 does not change at every pressing operation. Therefore, even if the displacement amount of the displacement portion 61a with respect to the pressing operation is very small, for example, about 0.5 mm, the push switch portion 61 can be pressed and input by a fixed movement distance of the switch cover 25. it can. Therefore, the user can operate the push switch 60 without discomfort.

  In addition, for example, when the holder 90 is fixed to the shaft 30 by an adhesive, it is necessary to wait for the curing time of the adhesive. On the other hand, since the convex portion 97 is fitted in the axial groove 31, fixing of the holder 90 to the axial portion 30 does not require time, and the workability is excellent.

  In addition, by disposing the push switch portion 61 in the holder 90, the lever switch device 10 can use the push switch portion 61 having the moderation mechanism. Thus, according to the pressing operation, the input timing of the push switch 60 can be made close to the timing of applying the moderation by the moderation mechanism. The user can use the push switch unit 61 without a sense of incongruity because there is no or small difference in timing.

  Furthermore, for example, the same thing as the push switch part 61 used by apparatuses other than the lever switch apparatus 10 in vehicles can be used for the lever switch apparatus 10. As a result, the user can operate the respective push switch portions 61 in the vehicle with the same operation feeling, there is no sense of discomfort due to the difference in the operation feeling between the devices, and the operability is excellent.

  In addition, an insertion hole through which the shaft 30 is inserted is provided in each component, and the holder 90 and the push switch 61 are disposed on the tip of the shaft 30. Thus, the respective components can be stacked and assembled with respect to the shaft 30, and can be easily assembled using a working machine such as a robot. In addition, it is not necessary to change the direction of the part, and breakage of the part can be suppressed, which is excellent in workability.

  Furthermore, the first wiring portion 77 and the second wiring portion 78 are branched. Thus, the second substrate unit 72 connected to the second wiring unit 78 can be provided separately from the first substrate unit 71 connected to the first wiring unit 77. Therefore, the first substrate portion 71 and the first wiring portion 77 can be easily bent and attached to the fixing portion 43. Therefore, a working device such as a robot can be used for this work, the assembly accuracy can be improved, and contamination with human hands can be prevented.

  Further, the first substrate portion 71 and the second substrate portion 72 are formed by the FPC 70. As a result, the lever switch device 10 can be downsized and the degree of freedom of arrangement can be improved.

  Furthermore, the lever switch device 10 can be miniaturized by overlappingly arranging the first wiring portion 77 and the second wiring portion 78. In addition, the first wiring portion 77 and the second wiring portion 78 can be covered by one wiring cover 110, and downsizing of the lever switch device 10 and cost increase can be suppressed. Further, by providing the third path portion 49 b and the fourth path portion 48 b for wiring the second wiring portion 78 to the second substrate cover 49 and the first substrate cover 48, the lever switch device 10 can be miniaturized and the cost is increased. Suppression of

<Other Embodiments>
In the above embodiment, the holder 90 is attached to the shaft portion 30 by fitting the pair of convex portions 97 of the holder groove 96 into the shaft groove 31 of the shaft portion 30 in the holder 90. However, the mounting method is not limited to this, as long as the holder 90 is assembled in the axial direction cross direction with respect to the shaft portion 30 and attached to the tip of the shaft portion 30.

  For example, each of the shaft portion 30 and the holder 90 is provided with a through hole extending in a direction (for example, a direction orthogonal to) crossing the axial direction. Then, the holder 90 is placed on the tip of the shaft portion 30, the through hole of the holder 90 and the through hole of the shaft portion 30 are aligned, and the rod-like attachment portion is passed through these through holes. Thus, the rod-like attachment portion extends in a direction intersecting the axial center direction of the shaft portion 30, and the holder 90 is attached to the tip of the shaft portion 30. Thereby, also in this case, the operability of the push switch 60 can be improved.

  Although the switch cover 25 is used as the pressing operation unit of the push switch unit 61 in the above embodiment, the pressing operation unit is not limited to this. For example, the knob may be in contact with the push switch unit 61.

  Further, all the above embodiments may be combined with each other unless the other is excluded. From the above description, many modifications and other embodiments of the present invention will be apparent to those skilled in the art. Accordingly, the above description should be taken as exemplary only, and is provided for the purpose of teaching those skilled in the art the best mode of carrying out the present invention. The structural and / or functional details may be substantially altered without departing from the spirit of the present invention.

  The lever switch device of the present invention is useful as a lever switch device or the like for improving the operability of the push switch.

10: lever switch device 22: first rotation knob (rotation operation unit)
22: Second rotation knob (rotation operation unit)
25: Switch cover (pressing operation unit)
30: Shaft portion 31: Shaft groove (groove)
40: Rotary switch 41: First rotary switch (rotary switch)
42: Second rotary switch (rotary switch)
44: First rotation unit (rotation operation unit)
44a: first rotation insertion hole (insertion hole)
45: First moderation mechanism (moderation mechanism)
46: 2nd rotation part (rotation operation part)
46a: second rotation insertion hole (insertion hole)
47: Second moderation mechanism (moderation mechanism)
52: 1st moderation surface (moderation surface)
53: 1st ball (ball)
54: First spring (spring)
55: first housing part (housing part)
57: The second ball (ball)
58: Second spring (spring)
59: second housing part (housing part)
61: push switch unit 81: second moderation surface (moderation surface)
90: Holder 97: Convex part

Claims (4)

An axial portion extending from the proximal side to the distal side;
A rotary operation unit provided so as to be externally fitted in the middle of the shaft and capable of rotating about the shaft;
A holder which is assembled in a cross direction intersecting the axial center direction of the shaft with respect to the shaft, and is attached to the tip of the shaft;
A push switch unit held by the holder;
A lever switch device comprising: a pressing operation portion provided in a state of being in contact with the push switch portion.   The lever switch device according to claim 1, wherein the push switch portion is a tactile switch that imparts a moderation feeling corresponding to a pressing operation. A groove extending in the cross direction is formed in a circumferential portion of the shaft portion,
The lever switch device according to claim 1, wherein the holder has a convex portion fitted in the groove by the assembly in the cross direction. It further comprises a moderation mechanism for giving moderation feeling according to the rotation of the rotation operation unit,
The moderation mechanism is
A moderation surface in which a moderation peak projecting to the proximal side is formed;
A ball contacting the moderation surface;
A spring biasing the ball towards the tip towards the moderation surface;
And an accommodating portion having an accommodating space which is open at the distal end side and accommodates the ball and the spring.
The lever switch device according to any one of claims 1 to 3, wherein the rotation operation portion, the moderation surface and the housing portion have an insertion hole through which the shaft portion is inserted.

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