JP2021163643A - Switch device - Google Patents

Abstract

To provide a switch device capable of causing the front surface part and side surface part of an operation handle to emit light.SOLUTION: The switch device includes an operation handle 3, a contact circuit, light sources 51a and 51b, and translucent members 91L and 91R. The operation handle 3 is movable by the operation of an operator. The contact circuit is switched to an open state and a closed state according to the operation of the operation handle 3. The light sources 51a and 51b are arranged on the back side of the operation handle 3. The translucent members 91L and 91R are provided in the operation handle 3. The operation handle 3 has the front surface part and the side surface part. The translucent members 91L and 91R include a first light emitting part and a second light emitting part. The first light emitting part is provided in the front surface part of the operation handle 3, transmits the light from the light sources 51a and 51b, and emits the light to the outside of the operation handle 3. The second light emitting part is provided in the side surface part of the operation handle 3, transmits the light from the light sources 51a and 51b, and emits the light to the outside of the operation handle 3.SELECTED DRAWING: Figure 4

Description

The present disclosure relates to a switch device, and more particularly to a switch device including an operation handle.

The switch (switch device) described in Patent Document 1 includes an operation handle, a display unit (first light emitting unit), and a light emitting source (light source). The operating handle is swingably supported. The light emitting source is arranged behind the operation handle and emits light according to the swinging operation of the operation handle. The display unit is provided on the front surface of the operation handle, transmits light from the light emitting source, and emits light to the front side of the operation handle.

Japanese Unexamined Patent Publication No. 2003-151402

In the switch described in Patent Document 1, since the display unit is provided only on the front surface portion of the operation handle, only the front portion of the operation handle can emit light. However, there is a need to emit light not only on the front surface of the operation handle but also on the side surface.

In view of the above problems, it is an object of the present disclosure to provide a switch device capable of emitting light from the front surface portion and the side surface portion of the operation handle.

The switch device according to one aspect of the present disclosure includes an operation handle, a contact circuit, a light source, and a translucent member. The operation handle can be operated by the operation of the operator. The contact circuit switches between an open state and a closed state according to the operation of the operation handle. The light source is arranged behind the operation handle. The translucent member is provided on the operation handle. The operation handle has a front surface portion and a side surface portion. The light transmitting member has a first light emitting portion and a second light emitting portion. The first light emitting portion is provided on the front surface portion of the operation handle, transmits light from the light source, and emits light to the outside of the operation handle. The second light emitting portion is provided on the side surface portion of the operation handle, transmits light from the light source, and emits light to the outside of the operation handle.

The switch device according to the present disclosure has an effect that the front surface portion and the side surface portion of the operation handle can emit light.

FIG. 1 is a perspective view of the switch device according to the embodiment as viewed from the front side. FIG. 2 is a perspective view of the same switch device as viewed from the rear side. FIG. 3 is a cross-sectional view taken along the line A1-A1 of FIG. FIG. 4 is a cross-sectional view taken along the line A2-A2 of FIG. FIG. 5 is an exploded perspective view showing the same switch device. FIG. 6 is an exploded perspective view showing a part of the switch device of the same as above. FIG. 7 is a perspective view showing a cover of the switch device of the same as above. FIG. 8 is a perspective view of the operation handle of the switch device of the above as viewed from the rear side. FIG. 9 is a perspective view showing the reversing handle of the switch device of the same as above. FIG. 10 is a perspective view showing a conversion spring of the same switch device. FIG. 11A is a perspective view showing a light guide member of the switch device of the same. 11B is a cross-sectional view taken along the line X1-X1 of FIG. 11A. FIG. 12 is a perspective view showing a prism of the switch device of the same as above. FIG. 13 is a side view showing how light propagates in the same prism. FIG. 14 is a side view showing another way of propagating light in the same prism. FIG. 15 is a perspective view showing the operation handle of the first modification. FIG. 16 is a perspective view showing the operation handle of the modified example 2. FIG. 17 is a perspective view showing an operation handle of the modified example of the modified example 2. FIG. 18A is a cross-sectional view showing a main part of the switch device of the modified example 3. FIG. 18B is a plan view of the same switch device and panel member as viewed from the front side. FIG. 19 is a cross-sectional view showing a main part of the switch device of the modified example 4. FIG. 20 is a cross-sectional view showing a main part of the switch device of the modified example 5. FIG. 21 is a cross-sectional view showing a main part of the switch device of the modified example 6.

(Embodiment 1)
(Overview)
The switch device 1 of the present embodiment will be described with reference to FIGS. 1 to 14. In the following description, unless otherwise specified, the vertical, horizontal, and front-rear directions of the switch device 1 are defined and described by using the up-down, left-right, and front-back arrows shown in FIG. These arrows are provided solely for the purpose of assisting explanation and are not accompanied by substance. Further, the above-mentioned provision of the direction does not mean to limit the usage mode of the switch device 1 of the present embodiment.

The switch device 1 of the present embodiment is a seesaw type (also referred to as a tumbler type or rocker type) operation switch device for switching the operating state of the load to be operated. The switch device 1 can be applied as, for example, a switch device attached to an indoor wall surface and for switching lighting and extinguishing of a lighting fixture (load) installed indoors.

As shown in FIGS. 1 and 2, the switch device 1 has a body 2 in which a circuit component including an opening / closing contact is housed. A seesaw-type operation handle 3 is provided on the front surface 22j of the body 2. The operation units 3L and 3R on both sides of the operation handle 3 are provided with a pair of translucent windows 31L and 31R on both sides.

More specifically, the translucent windows 31L and 31R are provided over the side edge 3s side edge and the side surface 3s of the front surface 3g of the operation units 3L and 3R, and are provided in the translucent windows 31L and 31R. Is provided with a light emitting unit 91a capable of emitting light. Each light emitting portion 91a is provided over the edge portion and the side surface portion 3s on the side surface portion 3s side of the front surface portion 3g of each of the operation units 3L and 3R. As a result, the operation handle 3 uses the light emitted from the translucent windows 31L and 31R (that is, the light emitted from each light emitting unit 91a) to cause the front surface 3g and the side surface 3s of the operating units 3L and 3R. It can emit light. The entire front portion 3t of the operation handles 3L and 3R, including the front portions 3g, constitutes the front portion 3t of the operation handle 3. The side surface portions 3s of the operation portions 3L and 3R constitute the left side surface portion 3e and the right side surface portion 3f of the operation handle 3, respectively. When the left and right side surface portions 3e and 3e of the operation handle 3 are not distinguished, they are described as the side surface portions 3s.

The rear surface 21b of the body 2 is provided with a plurality of (for example, four) wiring holes 22k into which wiring from the outside is inserted. By inserting the wiring from the outside into the wiring hole 22k, the wiring is electrically connected to the circuit component in the body 2.

The switch device 1 performs a seesaw operation in which when any one of the operation units 3L and 3R on both sides of the operation handle 3 is pressed, the other is lifted. By alternately pressing the operation units 3L and 3R on both sides of the operation handle 3, the opening / closing contacts in the body 2 are alternately opened / closed. At that time, in this switch device 1, of the pair of translucent windows 31L and 31R, only the translucent windows provided on the raised side of the operating portions 3L and 3R on both sides of the operation handle 3 emit light.

(Detailed explanation)
As shown in FIGS. 5 to 13, in addition to the above-mentioned body 2 and operation handle 3, the switch device 1 includes a contact device 4 (contact circuit), a light source unit 5, a reversing handle 6, a reversing spring 7, and a conversion spring. 8. The light source member 9, a pair of light-shielding portions 10L, 10R (see FIG. 8), and a prism 11 are provided.

The body 2 is an outer shell that houses the components of the switch device 1 (operation handle 3, contact device 4, light source unit 5, reversing handle 6, reversing spring 7, conversion spring 8, light guide member 9, and prism 11). be. The body 2 is a rectangular parallelepiped box-shaped synthetic resin body 21 having an open front surface, and a synthetic resin cover 22 formed in a rectangular frame shape having an opening 22c and bonded to the front surface side of the body 21. And have.

The body 21 has a plurality of (for example, four) assembly protrusions 21a (see FIG. 6). The plurality of assembly protrusions 21a are provided on both outer surfaces of the body 21 in the lateral direction (vertical direction) so as to be separated from each other in the longitudinal direction of the body 21. An assembled tongue piece 22a extends rearward from the rear edge of the cover 22 (see FIG. 7). The body 21 and the cover 22 are connected to each other by fitting the assembly hole 22b and the assembly protrusion 21a provided in the assembly tongue piece 22a to each other (see FIG. 1).

As shown in FIG. 7, the opening 22c of the cover 22 has a first opening 22d and a second opening 22e. The first opening 22d is an opening in which the reversing handle 6 is arranged, and is, for example, rectangular. The first opening 22d is provided at a position deviated from the center of the cover 22 in the longitudinal direction to one side (for example, the right side) of the cover 22 in the longitudinal direction. The second opening 22c is an opening in which the prism 11 is arranged, and is a rectangular opening smaller than the first opening 22d. The second opening 22c is provided on the left side of the first opening 22d (that is, the side opposite to the side in the direction in which the first opening 22d is displaced). The first opening 22d and the second opening 22c are connected to each other to form one opening 22c.

The cover 22 has a pair of bearing protrusions 22f, a pair of bearing recesses 22h, and a pair of fitting recesses 22i.

The pair of bearing projecting pieces 22f are both side edges in the lateral direction (vertical direction) and project forward from the center in the longitudinal direction (horizontal direction) on the front surface 22j of the cover 22. A bearing hole 22g into which a pair of shaft protrusions 32, which will be described later, of the operation handle 3 are inserted is formed on each facing surface of the pair of bearing projecting pieces 22f. That is, the pair of bearing holes 22g are arranged at the center of the cover 22 in the longitudinal direction and penetrate in the vertical direction. Each of the pair of bearing holes 22g is a substantially pentagonal hole having a triangular shape at the front and a rectangular shape at the rear.

The pair of bearing recesses 22h is a portion into which a pair of shaft protrusions 32, which will be described later, of the reversing handle 6 are inserted. The pair of bearing recesses 22h are provided in a concave shape on the inner side surfaces of the first opening 22d of the cover 22 on both sides in the lateral direction at the center of the inner side surfaces in the longitudinal direction. Each of the pair of bearing recesses 22h is, for example, a substantially triangular recess when viewed from the vertical direction.

The pair of fitting recesses 22i is a portion where the pair of fitting protrusions 16 described later of the prism 11 are fitted. The pair of fitting recesses 22i are provided in a concave shape on both inner side surfaces of the second opening 22e in the lateral direction. Each of the pair of fitting recesses 22i is, for example, a rectangular recess when viewed from the vertical direction.

The contact device 4 and the light source unit 5 are housed in the body 21 (see FIG. 6).

The contact device 4 includes an open / close contact for switching the operating state (operation and stop) of the load to be operated, and an external connection terminal for connecting to wiring from the outside. As shown in FIG. 6, the contact device 4 includes terminal plates 41 to 43, a support plate 44, an opening / closing element 45, and a lock spring 46.

Each of the terminal plates 41 to 43 is a portion that is electrically connected to the external wiring. The terminal plates 41 and 42 are housed at one end (for example, the left end) of the body 21 in the longitudinal direction (left-right direction). The terminal plate 43 is housed in the other end (for example, the right end) of the body 21 in the longitudinal direction. The terminal plates 41 and 42 are provided with fixed contacts 41a and 42b. The switch 45 is arranged between the fixed contacts 41a and 42b. One lock spring 46 is housed in each of the terminal plates 41 and 42, and two lock springs 46 are housed in the terminal board 43.

The support plate 44 is arranged in the center of the bottom surface of the body 21 and is electrically connected to the terminal plate 43. The switch 45 is housed in the center of the body 21 in the longitudinal direction. The lower end of the switch 45 is in contact with the support plate 44. The switch 45 can swing on the support plate 44 with its lower end as a fulcrum.

The switch 45 has, for example, a plate shape. The front end of the switch 45 is provided with a groove 45c into which the peripheral edge of the tubular portion 62 of the reversing handle 6, which will be described later, fits. The switch 45 has movable contacts 45a and 45b (see FIG. 3) on the main surfaces on both sides, respectively. The movable contact 45a and the fixed contact 41a form one opening / closing contact, and the movable contact 45b and the fixed contact 41b form one opening / closing contact. When the switch 45 swings, the closed state and the open state of the two opening / closing contacts are switched alternately. These two open / close contacts constitute the above open / close contact.

In the present embodiment, as described later, when the operation handle 3 operates the seesaw, the reversing handle 6 operates the seesaw, and when the reversing handle 6 operates the seesaw, the switch 45 swings and the above two opening / closing contacts are closed. And switch to the open state. Therefore, the contact device 4 switches between the open state and the closed state according to the operation of the operator.

Such a switch device in which two opening / closing contacts are alternately switched by a common switch 45 is called a three-way switch. This three-way switch is provided, for example, on the upper floor and the lower floor of the stairs, and can be used as a switch device for switching on and off of a common lighting fixture that illuminates the stairs. In the present embodiment, the switch device 1 is a three-way switch, but the switch device 1 is not limited to the three-way switch.

On the rear wall of the body 21, an electric wire insertion hole 22k (see FIG. 2) is provided at a portion corresponding to each of the four lock springs 46. By inserting the electric wire into the body 21 through the electric wire insertion hole 22k, the tip of the electric wire is sandwiched between the lock spring 46 and the terminal plates 41, 42, 43. As a result, the tip of the electric wire is electrically connected to the terminal plates 41 to 43. These terminal plates 41 to 43 form the above-mentioned external connection terminal.

As shown in FIG. 6, the light source unit 5 includes a circuit board 52, two light sources 51a (first light source), and a light source 51b (second light source).

The two light sources 51a and 51b are light sources that emit light emitted from the pair of translucent windows 31L and 31R. The two light sources 51a and 51b emit light having different light colors (for example, red light and white light). The light source 51a is a light source for a position display function, and emits white light, for example. The light source 51b is a light source for a pilot function, and emits, for example, red light. The two light sources 51a and 51b are, for example, LEDs (Light Emitting Diodes). The two light sources 51a and 51b are provided on the front surface of the circuit board 52 in a state of being arranged side by side in the longitudinal direction (left-right direction) of the body 21. The two light sources 51a and 51b are arranged behind the operation handle 3.

The light source 51a is always lit regardless of whether the contact device 4 is energized or de-energized between the open / close contacts in the closed state (that is, regardless of whether the load to be operated is activated or stopped). The light source 51b is switched on and off according to the energization and de-energization between the open / close contacts in the closed state in the contact device 4 (that is, according to the operation and stop of the load to be operated). Specifically, the light source 51b is turned off when the open / close contacts in the closed state are energized (that is, when the load is operating), and when the open / close contacts in the closed state are not energized (that is, when the load is operating). Lights up when the load is stopped).

The light source unit 5 is housed above the terminal plates 41 and 42 at one end (for example, the left end) in the longitudinal direction (left-right direction) of the body 21. That is, the two light sources 51a and 51b are housed on one end (left end) side in the longitudinal direction in the body 21 and are arranged in the longitudinal direction of the body 21.

As shown in FIG. 9, the reversing handle 6 is a handle that opens and closes the opening / closing contact of the contact device 4 according to the operating state of the operating handle 3. The reversing handle 6 has a reversing handle main body 61 and a tubular portion 62.

The reversing handle main body 61 has a bottom portion 61a, two side wall portions 61b, a plurality of (for example, four) fitting protrusions 61c, and a pair of shaft protrusions 61d. The bottom portion 61a has a rectangular plate shape. Each of the two side wall portions 61b has a rectangular plate shape. The two side wall portions 61b project forward from both the upper and lower edges of the bottom portion 61a. The four fitting protrusions 61c are protrusions for fixing the conversion spring 8. Each of the four fitting protrusions 61c is, for example, cylindrical. Two fitting protrusions 61c are provided on each of the two side wall portions 61b. The two fitting protrusions 61c provided on each side wall portion 61b are arranged side by side in the longitudinal direction (left-right direction) of the front surface of the side wall portion 61b. The pair of shaft protrusions 61d are portions that are swingably supported by the pair of bearing recesses 22h of the cover 22. Each of the pair of shaft protrusions 61d is, for example, a triangular column with an apex angle at the front end. The pair of shaft protrusions 61d are provided so as to project from the outer surfaces of the pair of side wall portions 61b.

The tubular portion 62 is a portion that accommodates the reversing spring 7. The tubular portion 62 is provided so as to project rearward from the rear surface of the reversing handle main body 61 (that is, the rear surface of the bottom portion 61a). The rear peripheral edge of the tubular portion 62 is hooked on the groove 45c (see FIG. 6) at the front end portion of the switch 45. In this state, a reversing spring 7 made of a coil spring is held between the cylinder portion 62 and the switch 45.

The reversing handle 6 is arranged in the first opening 22d of the cover 22 (see FIG. 4). In this state, the pair of shaft protrusions 61d of the reversing handle 6 are inserted into the pair of bearing recesses 22h of the cover 22. As a result, the reversing handle 6 can swing with respect to the cover 22 with the front end of the pair of shaft protrusions 61d as a fulcrum. That is, the reversing handle 6 can swing around the rotation axis (second rotation axis) L2 passing through the front ends of the pair of shaft protrusions 61d (that is, the seesaw can operate). Due to the swing of the reversing handle 6, the direction of the spring force acting on the switch 45 from the reversing spring 7 is reversed, and one of the movable contacts 45a and 45b is the fixed contact 41a, corresponding to the movable contact 45a and 45b. Contact 42b. That is, the terminal plate 43 electrically connected to the switch 45 is selectively connected to any one of the two terminal plates 41 and 42.

The operation handle 3 is a part that receives the operation of the operator, and operates (operates) the seesaw according to the operation of the operator. The operation handle 3 has a shallow box shape with an open rear surface. As shown in FIG. 8, the operation handle 3 has an operation handle main body 31, a pair of shaft protrusions 32, four contact portions 33, and a fixing protrusion 34.

The operation handle main body 31 has a main wall portion 31a and a peripheral wall portion 31b. The main wall portion 31a has a rectangular plate shape. The main wall portion 31a is bent in a substantially V shape along the center line L3 (see FIG. 5). As a result, both side portions of the center line L3 on the main wall portion 31a are inclined so as to project forward. The center line L3 extends in the lateral direction (vertical direction) of the main wall portion 31a at the center of the main wall portion 31a in the longitudinal direction (horizontal direction). The peripheral wall portion 31b rises behind the main wall portion 31a from the entire outer peripheral edge of the main wall portion 31a. The peripheral wall portion 31b is configured such that the upper wall portion 31c, the lower wall portion 31d, the left wall portion 31e, and the right wall portion 31f are integrally connected in an annular shape. The upper wall portion 31c and the lower wall portion 31d are bent in a substantially V shape according to the substantially V shape of the main wall portion 31a.

The outer surface of the main wall portion 31a constitutes the front surface portion 3g of the operation handle 3. In the present embodiment, the outer surface of the main wall portion 31a (that is, the front surface portion 3g) constitutes the main surface of the outer surface of the operation handle 3. The outer surfaces of the left wall portion 31e and the right wall portion 31f form the side surface portions 3s (3e, 3f) on the left and right sides of the operation handle 3, and the outer surfaces of the upper wall portion 31c and the lower wall portion 31d are respectively. , The upper and lower side surface portions of the operation handle 3 are formed. The left and right side surface portions 3s of the operation handle 3 are side surface portions that intersect the front surface portion 3g. The upper and lower side surface portions of the operation handle 3 are side surface portions that intersect both the front surface portion 3g and the side surface portion 3s.

The operation handle main body 31 has a pair of translucent windows 31L and 31R. The pair of translucent windows 31L and 31R are portions that emit light from the light sources 51a and 51b. The pair of translucent windows 31L and 31R emit light by emitting light from the light sources 51a and 51b. The pair of translucent windows 31L and 31R are provided on the operation portions 3L and 3R on both sides of the operation handle main body 31 so as to penetrate the inside and outside of the operation handle main body 31. The operation units 3L and 3R on both sides of the operation handle main body 31 are the left and right side portions of the operation handle main body 31 divided into two by the center line L2. The operation units 3L and 3R on both sides of the operation handle main body 31 constitute operation units 3L and 3R on both sides of the operation handle 3.

More specifically, the pair of translucent windows 31L and 31R are provided over the edge portion and the side surface portion 3s of the front surface portion 3g of the operation portions 3L and 3R on both sides of the operation handle main body 31. The translucent windows 31L and 31R have, for example, a rectangular shape. More specifically, the translucent windows 31L and 31R have a first window portion 311 and a second window portion 312. The first window portion 311 is provided on the edge portion of the front surface portion 3g of the operation portions 3L and 3R, and the second window portion 312 is provided on the side surface portion 3s of the operation portions 3L and 3R. Each of the first window portion 311 and the second window portion 312 has a rectangular shape, for example. The first window portion 311 and the second window portion 312 are integrated to form one translucent window.

The pair of shaft protrusions 32 are portions supported by the pair of bearing holes 22g of the cover 22. The pair of shaft protrusions 32 are provided so as to project from the inner side surfaces on both the upper and lower sides of the operation handle main body 31 (that is, the inner side surfaces of the upper wall portion 31c and the lower wall portion 31d). The pair of shaft protrusions 32 are provided at the center of the trailing edges of the inner side surfaces on both the upper and lower sides of the operation handle main body 31. Each of the pair of shaft protrusions 32 has a substantially triangular shape with the front end as the apex.

When the pair of shaft protrusions 32 are inserted into the pair of bearing holes 22g of the cover 22, the operation handle 3 can swing with respect to the cover 22 (that is, seesaw operation is possible) with the front end of the shaft protrusions 32 as a fulcrum. .. That is, the operation handle 3 can swing around the rotation shaft L1 (first rotation shaft) passing through the front ends of the pair of shaft protrusions 32 (that is, the seesaw can operate). The rotation axes L1 and L2 extend in the vertical direction and are parallel to each other but do not coincide with each other. In a state where the operation handle 3 is swingably supported by the cover 22, the operation handle 3 is arranged in the center of the front surface of the cover 22 so as to cover the entire opening 22c of the cover 22 (see FIG. 1). In this state, the operation handle 3 is arranged on the front side of the reversing handle 6.

The four contact portions 33 are portions with which the conversion spring 88 comes into contact. The four contact portions 33 are provided so as to project rearward from the back surface of the operation handle main body 31 (that is, the back surface of the main wall portion 31a). The back surface of the operation handle main body 31 is a surface facing the reversing handle 6. The four contact portions 33 extend along the longitudinal direction (left-right direction) of the operation handle main body 31. The tip portion of each contact portion 33 in the protruding direction (hereinafter, also simply referred to as “tip portion of the contact portion 33”) comes into contact with the conversion spring 88. The four contact portions 33 are provided, for example, in the vicinity of the four corner portions on the back surface of the operation handle main body 31. In the four contact portions 33, the upper left and right two contact portions 33a and 33b form a pair of contact portions, and the lower two left and right two contact portions 33a and 33b form a pair of contact portions.

Of the four contact portions 33, the left contact portion 33a (first contact portion) and the right contact portion 33b (second contact portion) have different undulating shapes. The left contact portion 33a and the right contact portion 33b are provided on both the left and right sides of the rotation shaft L1 of the operation handle 3. The undulating shape is the shape of the tip end portion (that is, the end portion on the conversion spring 88 side) of the contact portion 33 when the contact portion 33 is viewed from the side surface. In the present embodiment, the tip of the contact portion 33a on the left side is inclined (undulated) substantially linearly along the longitudinal direction of the contact portion 33a, and the left side is farther from the back surface of the operation handle main body 31. .. The tip of the contact portion 33b on the right side is inclined (undulated) in a curved shape (for example, substantially parabolic shape) along the longitudinal direction of the contact portion 33b, and the right side is closer to the back surface of the operation handle body 31. There is.

The fixing protrusion 34 is a portion to which the light guide member 9 is fixed. The fixing protrusion 34 is provided so as to project from the center of the back surface of the operation handle main body 31.

The pair of light-shielding portions 10L and 10R (translucency control mechanism) are portions that block the light emitted from the prism 11 to the pair of light-transmitting windows 31L and 31R according to the operating state of the operation handle 3. The pair of light-shielding portions 10L and 10R correspond to the pair of light-transmitting windows 31L and 31R, and block the light emitted from the prism 11 to the corresponding light-transmitting windows 31L and 31R. The pair of light-shielding portions 10L and 10R are provided so as to project from the back surface of the operation handle main body 31. The pair of light-shielding portions 10L and 10R are arranged on both sides of the center in the longitudinal direction (left-right direction) on the back surface of the operation handle main body 31. The pair of light-shielding portions 10L and 10R extend along the lateral direction (vertical direction) on the back surface of the operation handle main body 31.

The conversion spring 8 is a component that transmits the operation of the operation handle 3 to the reversing handle 6. The conversion spring 8 is arranged between the operation handle 3 and the reversing handle 6, and is fixed to, for example, the reversing handle 6 and elastically contacts the operating handle 3 (see FIG. 3).

As shown in FIG. 10, the conversion spring 8 has a pair of spring bodies 81 and a pair of connecting pieces 82. Each of the pair of spring bodies 81 extends in the left-right direction, and is arranged side by side in the vertical direction. The left ends of the pair of spring bodies 81 are connected by one connecting piece 82, and the right ends of the pair of spring bodies 81 are connected by the other connecting piece 82. The pair of spring bodies 81 are formed symmetrically with each other (that is, vertically symmetrically). The pair of spring bodies 81 have a one-to-one correspondence with the two side wall portions 61b of the reversing handle 6, and have a one-to-one correspondence with the upper and lower two pairs of contact portions 33 of the operation handle 3.

The pair of spring bodies 81 each have a substrate portion 81a, a fixing piece 81b, a positioning piece 81c, and a pair of elastic pieces 81d and 81e (first elastic piece and second elastic piece). That is, the conversion spring 8 has a pair of substrate portions 81a, a pair of fixing pieces 81b, a pair of positioning pieces 81c, and a pair of elastic pieces 81d.

The substrate portion 81a has a flat plate shape extending in the left-right direction. The fixed piece 81b projects outward in the width direction from one end (for example, one end facing the other spring body 81) in the width direction (vertical direction) of the substrate portion 81a. The fixed piece 81b has a through hole 8f penetrating in the thickness direction (front-back direction). One of the pair of fitting protrusions 61c of the corresponding side wall portion 61b of the reversing handle 6 is fitted into the through hole 8f. The positioning piece 81c is a portion of the reversing handle 6 that comes into contact with the side surface (for example, the outer surface) of the corresponding side wall portion 61b. The positioning piece 81c projects rearward from one end of the substrate portion 81a in the lateral width direction (for example, one end facing the other spring body 81). In the present embodiment, the positioning piece 81c protrudes from the left and right sides of the fixing piece 81b from the rear, and the two protruding portions extend in the left-right direction and are connected to each other.

The pair of elastic pieces 81d and 81e are portions of the operation handle 3 that come into contact with the corresponding pair of contact portions 33a and 33b. The pair of elastic pieces 81d and 81e extend in the longitudinal direction (left-right direction) from both ends in the longitudinal direction (left-right direction) of the substrate portion 81a, and are bent in an inverted V shape so as to project forward. The left ends of the elastic pieces 81d on the left side of the pair of spring bodies 81 are connected by one connecting piece 82, and the right ends of the elastic pieces 81e on the right side of the pair of spring bodies 81 are connected by the other connecting piece 82. There is. The pair of connecting pieces 82 have a strip shape extending vertically.

When the conversion spring 8 is fixed to the reversing handle 6 (see FIG. 3), the pair of positioning pieces 81c come into contact with the outer surfaces of the two side wall portions 61b of the reversing handle 6. Further, the through hole 81f of the pair of fixing pieces 81b fits into the fitting protrusion of one (for example, the left side) of each pair of fitting protrusions 61c of the two side wall portions 61b. By the above contact and fitting, the relative position of the conversion spring 8 in the vertical and horizontal directions with respect to the reversing handle 6 is fixed. Further, the pair of elastic pieces 81d and 81e are located on the left and right sides of the rotation axis L2 of the reversing handle 6.

In the present embodiment, the reversing handle 6 is arranged slightly biased to the right side with respect to the operation handle 3. Therefore, the conversion spring 8 fits into the fitting protrusion 61c on the left side of the two fitting protrusions 61c on the left and right in order to cancel the bias. As a result, the conversion spring 8 is fixed slightly to the left with respect to the reversing handle 6.

Further, in a state where the conversion spring 8 is fixed to the reversing handle 6, the four elastic pieces 81d and 81e elastically contact the four contact portions 33a and 33b of the operation handle 3 (see FIG. 3). More specifically, the pair of left and right elastic pieces 81d and 81e of the upper spring body 81 elastically contact the pair of left and right contact portions 33a and 33b on the upper side of the operation handle 3. Then, the pair of left and right elastic pieces 81d and 81e of the lower spring body 81 elastically contact the pair of left and right contact portions 33a and 33b on the lower side of the operation handle 3.

The light guide member 9 is a member that guides the light emitted from the prism 11 to the pair of translucent windows 31L and 31R to the pair of translucent windows 31L and 31R. The light guide member 9 is fixed to the back surface of the operation handle 3 (see FIG. 4). As shown in FIGS. 11A and 11B, the light guide member 9 has a pair of prisms 91L and 91R (translucent members), a pair of connecting portions 92, and a fixing piece 93. The light guide member 9 is integrally formed of a translucent resin member (for example, a polycarbonate resin or an acrylic resin).

The pair of prisms 91L and 91R are members that guide the light emitted from the prism 11 to the pair of translucent windows 31L and 31R to the pair of translucent windows 31L and 31R, respectively. The pair of prisms 91L and 91R correspond one-to-one with the pair of translucent windows 31L and 31R. The pair of prisms 91L and 91R each have a fitting portion 91a and a prism body 91b (light guide portion).

The fitting portion 91a is a portion that fits into the corresponding translucent windows 31L and 31R, and has a plate shape having substantially the same shape and size as the opposing transmissive windows 31L and 31R. The fitting portion 91a constitutes the above-mentioned light emitting portion 91a. More specifically, the fitting portion 91a (light emitting portion) has a first fitting portion 91e (first light emitting portion) and a second fitting portion 91f (second light emitting portion). The first fitting portion 91e is a portion that fits into the first window portion 311 of the translucent windows 31L and 31R, and has a rectangular plate shape having substantially the same shape and size as the first window portion 311. The second fitting portion 91f is a portion that fits into the second window portion 312 of the translucent windows 31L and 31R, and has a rectangular plate shape having substantially the same shape and size as the second window portion 312. The outer main surface of the first fitting portion 91e faces the front side, and the outer main surface of the second fitting portion 91f faces the outer side in the left-right direction. The second fitting portion 91f projects from the outer end portion of the first fitting portion 91e in the left-right direction to the back side of the first fitting portion 91e. The first fitting portion 91e is provided on each of the first window portions 311 on the left and right sides of the front surface portion 3t of the operation handle 3, and is operated by transmitting the light from the prism 11 (that is, the light from the light sources 51a and 51b). It emits to the outside of the handle 3. The second fitting portion 91f is provided in each of the second window portions 312 of the side surface portions 3s on the left and right sides of the operation handle 3, transmits the light from the prism 11 and emits the light to the outside of the operation handle 3.

The prism body 91b has a substantially trapezoidal flat plate shape in a plan view from the front-rear direction. The prism body 91b guides the light from the prism 11 (that is, the light from the light sources 51a and 51b) to the fitting portion 91a. The prism body 91b is arranged on the rear side of the operation handle 3. The prism body 91b has a narrow end surface 91c having a relatively narrow vertical width and a wide end surface 91d having a relatively wide vertical width. The prism body 91b gradually widens from the narrow end surface 91c toward the wide end surface 91d. The prism body 91b is curved toward the front side of the prism body 91b on the way from the narrow end surface 91c to the wide end surface 91d. That is, the prism body 91b has a curved portion 91h that curves forward on the way from the narrow end surface 91c to the wide end surface 91d. The portion of the prism body 91b on the narrow end surface 91c side extends substantially in the left-right direction, and the portion of the prism body 91b on the wide end surface 91d side extends forward. The wide end surface 91d faces the front side, and the narrow end surface 91c faces the inside in the left-right direction. The portion of the prism body 91b on the wide end surface 91d side is connected to the back surface of the fitting portion 91a. More specifically, the wide end surface 91d of the prism body 91b is connected to the back surface of the first fitting portion 91e, and the lateral outer side surface 91i of the portion of the prism body 91b on the wide end surface 91d side is the second. It is connected to the back surface of the fitting portion 91f.

In the prisms 91L and 91R, the narrow end surface 91c of the prism body 91b becomes the incident surface 95, and the outer surface of the fitting portion 91a (that is, the outer main surface 91j of the first fitting portion 91e and the outer side of the second fitting portion 91f). The main surface 91k) is the exit surface 96. The entrance surface 95 is a surface for taking in external light into the prisms 91L and 91R, and the exit surface 96 is a surface for emitting light propagating in the prisms 91L and 91R to the outside. Since the exit surface 96 faces the front side and the outside in the left-right direction, the light emitted from the exit surface 96 can illuminate the front side and the outside in the left-right direction of the operation handle 3.

The prisms 91L and 91R have a recess 91m (see FIG. 11B). The recess 91m is formed so as to be recessed toward the inside of the prisms 91L and 91R on the rear surface of the prisms 91L and 91R (more specifically, the rear surface of the prism body 91b). The rear surface of the prisms 91L and 91R is an example of the outer surface of the prisms 91L and 91R.

The recess 91m is provided between the prism main body 91b and the second fitting portion 91f on the rear surface of the prisms 91L and 9R. The side surface of the recess 91 m on the incident surface 95 side functions as a reflective surface 91n. The reflecting surface 91n reflects the light C1 propagating from the incident surface 95 side inside the prism body 91b to distribute the light C1 to the side of the first fitting portion 91e and the side of the second fitting portion 91f to guide the light. .. The reflecting surface 91n is curved from the opening side of the recess 91m toward the bottom side, for example, in an arc shape. The reflecting surface 91n is formed by the outer surface of the curved portion 91h of the prism body 91b. The recess 91m (particularly the reflecting surface 91n) allows the light C1 propagating from the incident surface 95 side inside the prism body 91b to be evenly distributed to the first fitting portion 91e side and the second fitting portion 91f side. can.

Hereinafter, the incident surface 95 and the exit surface 96 of the prism 91L on the left side may be described as the incident surface 95L and the exit surface 96L, respectively. The entrance surface 95 and the exit surface 96 of the prism 91R on the right side may be described as the entrance surface 95R and the exit surface 96R, respectively.

Both ends of the fitting portion 91a in the longitudinal direction (vertical direction) project from both sides in the lateral width direction (vertical direction) of the prism body 91b. The upper ends of the fitting portions 91a of the prisms 91L and 91R are connected to each other via one connecting portion 92, and the lower ends of the fitting portions 91a of the prisms 91L and 91R connect to the other connecting portion 92. They are connected to each other via. In this state, the incident surfaces 95L and 95R of the pair of prisms 91L and 91R face inward in the facing direction (horizontal direction) of the pair of prisms 91L and 91R. The exit surfaces 96L, 96R of the pair of prisms 91L, 91R face the outside and the front side of the pair of prisms 91L, 91R in the opposite direction. In each of the prisms 91L and 91R, the incident surface 95 is located behind the exit surface 96.

The fixing piece 93 has a substantially rod shape, and is provided so as to straddle the central portion of each of the pair of connecting portions 92. The fixing piece 93 has a fitting hole 93a. The fitting hole 93a is a hole into which the fixing protrusion 34 of the operation handle 3 fits.

The light guide member 9 is fixed to the back surface of the operation handle 3 so as to be housed inside the operation handle 3. In this fixed state, as shown in FIG. 4, the pair of fitting portions 91a fit into the pair of translucent windows 31L and 31R. Further, the fixing piece 93 comes into contact with the back surface of the operation handle 3, and the fixing protrusion 34 of the operation handle 3 fits into the fitting hole 93a of the fixing piece 93. As a result, the light guide member 9 is fixed to the back surface of the operation handle 3. Further, in this fixed state, the incident surfaces 95L and 95R of the pair of prisms 91L and 91R face each other in the longitudinal direction (left-right direction) of the operation handle 3 at the center of the back surface of the operation handle 3. Is placed. The incident surfaces 95L and 95R of the pair of prisms 91L and 91R are arranged adjacent to (rear side) the tips of the pair of light-shielding portions 10L and 10R. The light guide member 9 operates integrally with the operation handle 3 by being fixed to the operation handle 3.

The prism 11 is a member that branches the light from the light sources 51a and 51b into two, and emits the branched light toward the pair of transmissive windows 31L and 31R, respectively. The prism 11 selectively guides the light from the light sources 51a and 51b to one of the prisms 91L and 91R on both sides according to the seesaw operation of the operation handle 3. As shown in FIG. 12, the prism 11 has a prism body 12 and two branch paths 13 and 14. Further, the prism 11 has two incident surfaces 11a and an incident surface 11b, and two exit surfaces 11L and 11R.

The prism body 12 incidents light from the light sources 51a and 51b, and guides the incident light to the two branch paths 13 and 14. The prism main body 12 has a first light guide unit 121 and a second light guide unit 122. The two incident surfaces 11a and 11b are formed on one end surface of the first light guide portion 121. The incident surface 11b is arranged on the right side of the incident surface 11a (next to the side on which the second light guide portion 122 extends). The first light guide unit 121 extends in an oblique direction (for example, diagonally forward to the right) with respect to the optical axes L4 and L5 of the incident surfaces 11a and 11b. The optical axes L4 and L5 of the incident surfaces 11a and 11b are in the same direction as each other, and extend in the front-rear direction, for example. The second light guide portion 122 extends from one end portion (for example, the right end portion) of the first light guide portion 121 in a direction orthogonal to (left-right direction) the optical axes L4 and L5 of the incident surfaces 11a and 11b. The two branch paths 13 and 14 are located on the side of the incident surfaces 11a and 11b (rear) from one end of the second light guide 122 (that is, the end opposite to the first light guide 121 side, for example, the right end). It protrudes to the opposite side (front side) from the side). In the present embodiment, the optical axes L4 and L5 of the incident surfaces 11a and 11b coincide with the optical axes of the light sources (light sources 51a and 51b in the present embodiment) that incident light on the incident surfaces 11a and 11b. Hereinafter, the optical axes L4 and L5 will also be referred to as the optical axes of the light sources 51a and 51b.

The first light guide unit 121 has a left side surface 121a (first reflecting surface) and a right side surface 121b (second reflecting surface). The left side surface 121a and the right side surface 121b are side surfaces adjacent to both sides of the one end surface provided with the incident surfaces 11a and 11b. The left side surface 121a is inclined 45 degrees to the right with respect to the optical axes L4 and L5 of the incident surfaces 11a and 11b, and overlaps the one end surface in the direction of the optical axes L4 and L5. The right side surface 121b is a surface parallel to the left side surface 121a and does not overlap the one end surface in the directions of the optical axes L4 and L5.

The second light guide unit 122 has a right side surface 122a (third reflection surface). The right side surface 122a is a side surface of the second light guide unit 122 that is opposite to the side connected to the first light guide unit 121. The right side surface 122a is a surface parallel to the left side surface 121a of the first light guide unit 121, and is inclined 45 degrees to the right with respect to the optical axes L4 and L5 of the incident surfaces 11a and 11b. The right side surface 122a overlaps with the left side surface 121a of the first light guide unit 121a in the left-right direction (direction in which the second light guide unit 122 extends) orthogonal to the optical axes L4 and L5. The right side surface 122a is arranged so as to face the base ends (connecting surfaces with the second light guide portion 122) of the two branch paths 13 and 14 in the directions of the optical axes L4 and L5.

The two branch paths 13 and 14 are integrally formed with the prism body 12, and the light propagating in the prism body 12 is branched into two, and the branched light is emitted to the outside from the exit surfaces 11L and 11R, respectively. The two branch paths 13 and 14 are formed on the incident surface 1 from one end (right end) of the second light guide portion 122.
It protrudes to the opposite side (front side) from the side (rear side) of 1a and 11b. The two branch paths 13 and 14 are arranged side by side in the direction in which the second light guide portion 122 extends (left-right direction), and are inclined outward in the opposite direction (left-right direction). The two branch paths 13 and 14 have a one-to-one correspondence with the pair of translucent windows 31L and 31R.

The two exit surfaces 11L and 11R are formed by one end surfaces of each of the two branch paths 13 and 14. Each of the exit surfaces 11L and 11R is, for example, a flat surface. The normals of the two exit surfaces 11L and 11R are oriented in substantially opposite directions. The normals of the two exit surfaces 11L, 11R generally point in the direction of the corresponding translucent windows 31L, 31R. The two branch paths 13 and 14 have opposite side surfaces 13a and 14a. The facing side surfaces 13a and 14a are side surfaces facing each other in the two branch paths 13 and 14. The facing side surfaces 13a and 14a of the branch paths 13 and 14 face the exit surfaces 11L and 11R provided on the branch paths and are inclined with respect to the optical axes L4 and L5 of the incident surfaces 11a and 11b. The inclination is such that the light emitted from the exit surfaces 11L and 11R is generally emitted in the direction of the corresponding translucent windows 31L and 31R.

The incident surface 11a is incident with light from the first light source 51a. The incident surface 11b is incident with light from the second light source 51b. The two incident surfaces 11a and 11b are aligned in the direction (left-right direction) in which the second light guide portion 122 extends. The two incident surfaces 11a and 11b are, for example, semi-convex lens-shaped, but may be planar lens-shaped. The two incident surfaces 11a and 11b are arranged so as to be offset from each other in the optical axes L4 and L5 directions, but they do not have to be displaced from each other.

The prism body 12 has a slit 15. The slit 15 constitutes a reflecting surface that reflects light propagating in the prism body 12. The slit 15 is a thin flat plate-shaped through hole, and penetrates the prism body 12 in the thickness direction (vertical direction). The slit 15 is provided at a connecting portion between the first light guide portion 121 and the second light guide portion 122. In other words, the slit 15 is arranged between the two side surfaces 121a and 121b in the optical axes L3 and L4 directions, and is arranged between the two side surfaces 121a and 122a in the left-right direction orthogonal to the optical axes L3 and L4. Has been done. The slit 15 is parallel to each of the side surfaces 121a, 121b, 122a and is inclined 45 degrees to the right with respect to the optical axes L4 and L5 of the incident surfaces 11a, 11b.

The prism 11 further has a pair of fitting protrusions 16. The pair of fitting protrusions 16 are provided so as to project from the main surfaces on both sides of the prism 11 (more specifically, for example, the second light guide portion 122) in the vertical direction. The pair of fitting protrusions 16 fit into the pair of fitting recesses 22i of the prism 11. By this. The prism 11 is fixed to the body 2 (more specifically, the second opening 22e of the cover 22).

In this fixed state, as shown in FIG. 4, the two branch paths 13 and 14 of the prism 11 project from substantially the center of the cover 22 toward the front side of the cover 22. The right side portion of the second light guide portion 122 of the prism 11 is arranged between the two side wall portions 61b of the reversing handle 6. Further, the prism body 12 of the prism 11 extends obliquely to the left and rear of the cover 22 from substantially the center of the cover 22. More specifically, the second light guide portion 122 of the prism 11 is arranged along the front surface of the cover 22, and the first light guide portion 121 of the prism 11 extends obliquely to the left and rearward of the cover 22. The two incident surfaces 11a and 11b of the prism 11 are arranged in front of the two light sources 51a and 51b of the light source unit 5, respectively.

A method of propagating light in the prism 11 will be described with reference to FIG.

In this prism 11, the light C1 emitted forward from the first light source 51a passes through the incident surface 11a, is reflected by the left side surface 121a, and propagates to the right. Then, the light C1 is reflected by the right side surface 121b and propagates in the forward direction. At this time, the light C1a on the left side of the light C1 propagating in the front direction propagates in the front direction without being reflected by the slit 15, and is reflected by the left side surface 121a. Then, the light C1a propagates forward while repeating reflection between the left side surface 121a and the slit 15, and when it propagates to the front side of the slit 15, it propagates to the right by the reflection on the left side surface 121a and propagates to the right side. It is incident on the region R1 near the center position P1 of the surface 122a. Then, the light C1a is reflected forward on the right side surface 122a and propagates in the right branch path 14. Then, the light C1a propagates while being reflected in the branch path 14 on the right side, and is emitted from the exit surface 11R toward the light-transmitting window 31R on the right side.

On the other hand, the light C1b on the right side of the light C1 is reflected by the slit 15 and propagates to the right, and is incident on the region R2 near the center of the right side surface 122a. That is, the light C1b is incident on the region R2 different from the region R1. Then, the light C1b is reflected forward on the right side surface 122a and propagates in the branch path 13 on the left side. Then, the light C1b propagates while reflecting in the branch path 13 on the left side, and is emitted from the exit surface 11L toward the light-transmitting window 31L on the left side. The central position P1 of the right side surface 122a is a position where the boundary point P2 of the two branch paths 13 and 14 intersects the line L6 drawn in parallel with the optical axes L3 and L4.

In this way, the light C1 from the first light source 51a propagates in the prism 11 and is branched into two substantially evenly in the prism 11 and emitted from the two exit surfaces 11L and 11R.

Further, as shown in FIG. 14, in this prism 11, the light C2a on the left side of the light C2 emitted forward from the second light source 51b passes through the incident surface 11b and is reflected by the left side surface 121a. Propagate to the right. Then, the light C2a enters the rear region R3 of the right side surface 122a, is reflected forward by the right side surface 122a, and propagates in the left branch path 13. The light C2a is incident on a region R3 different from the regions R1 and R2. Then, the light C2a propagates while reflecting in the branch path 13 on the left side, and is emitted from the exit surface 11L toward the light-transmitting window 31L on the left side.

On the other hand, the light C2b on the right side of the above light C2 from the second light source 51b propagates in the forward direction and is reflected by the left side surface 121a. The light C2b propagates forward while repeating reflection between the left side surface 121a and the slit 15, and when it propagates to the front side of the slit 15, it propagates to the right by the reflection on the left side surface 121a and propagates to the right side 122a. It is incident on the front region R4 of. That is, the light C2b is incident on the region R4 different from the regions R1 to R3. Then, the light C2b is reflected forward on the right side surface 122a and propagates in the right branch path 14. Then, the light C2b propagates while reflecting in the branch path 14 on the right side, and is emitted from the exit surface 11R toward the light-transmitting window 31R on the right side.

In this way, the light C2 from the second light source 51b propagates in the prism 11 and is branched into two substantially evenly in the prism 11 and emitted from the two exit surfaces 11L and 11R.

When the lights C1 and C2 from the light sources 51a and 51b are simultaneously incident on the prism 11, the propagation of the light C1 of FIG. 13 and the propagation of the light C2 of FIG. 14 are superimposed. Then, the lights C1 and C2 from the two light sources 51a and 51b are branched into two substantially evenly, respectively, and are emitted from the two exit surfaces 11L and 11R. That is, the light C1 and C2 from the two light sources 51a and 51b arranged so as to be offset from each other in the left-right direction by one prism 11 are branched into two substantially evenly, respectively, and emitted from the two exit surfaces 11L and 11R. can. In this case, the light C1a, C1b, C2a, and C2b enter the regions R1 to R4 that are different from each other and are reflected by the branch paths 13 and 14.

In this prism 11, of the inner surfaces of the prism body 12, the surfaces on which light is reflected (right side surfaces 121b, 122a, left side surface 121a, and slit 15) are relative to each other with respect to the optical axes L4 and L5 of the incident surfaces 11a and 11b. It is tilted 45 degrees to the same side (for example, the right side).

In this switch device 1, the light sources 51a and 51b are arranged on the body 21 so as to be offset to the left from the center in the left-right direction (longitudinal direction). However, by using the prism 11, the light from the light sources 51a and 51b can be branched into two substantially evenly and emitted from the two exit surfaces 11L and 11R.

Next, the operation of the switch device 1 (operation of the operation handle 3 and the reversing handle 6) will be described with reference to FIG.

When any one of the operation units 3L and 3R on both sides of the operation handle 3 (for example, the operation unit 3L on the left side) is pressed (operated), the operation handle 3 rotates about the rotation axis L1 (see FIG. 8). Then, the other (for example, the operation unit 3R on the right side) is lifted forward from the front surface 22j of the cover 22. In this state, the conversion spring 8 elastically supports the operation handle 3 so as to maintain this operation state of the operation handle 3.

At this time, the operating force when one of the operating handles 3 is pressed is transmitted to the reversing handle 6 via the conversion spring 8. At this time, the four elastic pieces 81e and 81d of the conversion spring 8 elastically contact the corresponding contact portion 33 of the operation handle 3. In this contact state, the four elastic pieces 81e and 81d slide on the corresponding contact portion 33 along the longitudinal direction of the contact portion 33 in response to the operation of the operation handle 3, and receive the above-mentioned operating force and reverse. It is transmitted to the handle 6. As a result, the above-mentioned operating force is smoothly transmitted from the operating handle 3 to the reversing handle 6. That is, the reversing handle 6 smoothly rotates about the rotation axis L2 (see FIG. 9) according to the operation of the operation handle 3. In this case, the right operating portion (that is, the portion on the same side as the operating portion on the pressing side of the operating handle 3) of the operating portions 3L and 3R on both the left and right sides of the reversing handle 6 is pressed by the conversion spring 8. It rotates around the rotation axis L2. By this rotation, the opening / closing contact of the contact device 4 is switched.

Further, in this switch device 1, the rotation axis L2 of the reversing handle 6 is displaced to the right with respect to the rotation axis L1 of the operation handle 3. Therefore, the timing at which the reversing handle 6 operates according to the operation of the operation handle 3 when the operation unit 3L on the left side of the operation handle 3 is pressed and when the operation unit 3R on the right side of the operation handle 3 is pressed. Can be different. Specifically, in this case (when the rotation axis L2 is deviated to the right with respect to the rotation axis L1), when the operation unit 3L on the left side of the operation handle 3 is pressed, the right side of the operation handle 3 is pressed. The above timing is later than when the operation unit 3R of the above is pressed.

On the other hand, in the switch device 1, of the four contact portions 33 of the operation handle 3, the contact portion 33a on the left side and the contact portion 33b on the right side have different undulating shapes. Specifically, the undulating shape of the contact portion 33b on the right side is curved to make it difficult to transmit the operating force, and the undulating shape of the contact portion 33a on the left side is linear to facilitate the transmission of the operating force. As a result, the reversing handle 6 operates at the same timing regardless of whether the operation units 3L or 3R on both sides of the operation handle 3 are pressed. As a result, the operation feeling becomes the same regardless of which of the operation units 3L and 3R on both sides of the operation handle 3 is pressed.

As described above, in the switch device 1, the operation handle 3 and the reversing handle 6 can operate around the separate rotation shafts L1 and L2, and the operation of the operation handle 3 is transmitted to the reversing handle 6 by the conversion spring 8. Therefore, by adjusting the contact method between the conversion spring 8 and the handles 3 and 6, each operation (for example, rotation angle and rotation speed) of each of the handles 3 and 6 can be adjusted independently. Further, by reducing the rotation angle of the reversing handle 6 with respect to the rotation angle of the operating handle 3, the space of the reversing handle 6 in the body 2 can be reduced, and the degree of freedom in the arrangement layout of each component can be improved. ..

Next, the operation of the pair of light-shielding portions 10L and 10R and the pair of prisms 91L and 91R of the switch device 1 will be described with reference to FIG.

In this switch device 1, when any one of the operation units 3L and 3R on both sides of the operation handle 3 (for example, the operation unit 3L on the left side) is pressed, the other (for example, the operation unit 3R on the right side) is covered with the cover 22. Lift forward from the front 22j. In response to the operation of the operation handle 3, the pair of light-shielding portions 10L, 10R and the pair of prisms 91L, 91R provided on the operation handle 3 are provided with respect to the prism 11 (more specifically, the two exit surfaces 11L, 11R). And relatively displace.

More specifically, among the pair of light-shielding portions 10L and 10R, the light-shielding portion 10R provided on the raised side (the right operation portion 3R) of the operation portions 3L and 3R on both sides of the operation handle 3 is a prism 11. Is displaced to a position that does not block the front surface of the corresponding exit surface 11R (for example, a position displaced forward from the exit surface 11R). As a result, the light emitted from the corresponding exit surface 11R of the prism 11 is not blocked by the light-shielding portion 10R, but is emitted toward the corresponding light-transmitting window 31R. On the other hand, the light-shielding portion 10L provided on the pressed side (for example, the operation portion 3L on the left side) of the operation units 3L and 3R on both sides of the operation handle 3 is a position that blocks the front surface of the corresponding exit surface 11L of the prism 11. Displace to (for example, the front position of the exit surface 11L). As a result, the light emitted from the corresponding exit surface 11L of the prism 11 is blocked by the light-shielding portion 10L and is not emitted toward the corresponding light-transmitting window 31L.

Further, among the pair of prisms 91L and 91R, the prism 91R provided on the lifted side (for example, the operation unit 3R on the right side) of the operation units 3L and 3R on both sides of the operation handle 3 is the corresponding exit of the prism 11. It is displaced to a front position of the surface 11R (that is, a position where the light emitted from the exit surface 11R can be incident from the incident surface 95R). As a result, the light emitted from the exit surface 11R of the prism 11 is incident on the incident surface 95R of the prism 91R and emitted from the exit surface 96R. That is, the light emitted from the exit surface 11R of the prism 11 is emitted from the translucent window 31R. On the other hand, the prism 91L provided on the pressed side (for example, the operation unit 3L on the left side) of the operation units 3L and 3R on both sides of the operation handle 3 is, for example, rearward from the front of the corresponding exit surface 11L of the prism 11. The position is displaced (that is, the position where the light emitted from the emitting surface 11L cannot be incident from the incident surface 95L). As a result, the light emitted from the exit surface 11L of the prism 11 does not enter the incident surface 95L of the prism 91L and is not emitted from the corresponding translucent window 31L.

As a result, of the pair of translucent windows 31L and 31R, the light source 51a, The light from 51b is emitted. The emitted light causes the front surface 3g and the side surface 3s of the lifted operation unit (for example, the operation unit 3R on the right side) to emit light. Light from the light sources 51a and 51b is not emitted from the translucent window 31L of the pressed side (for example, the operation unit 3L on the left side). The front portion 3g and the side portion 3s of the pressed operation unit (for example, the operation unit 3L on the left side) do not emit light.

Next, the lighting operation (position display function and pilot function) of the switch device 1 will be described with reference to FIG.

In this switch device 1, the light source 51a (for example, a white light source) is always lit. As a result, the light from the light source 51a (for example, white light) is always incident on the incident surface 11a of the prism 11 and emitted from the two exit surfaces 11L and 11R of the prism 11. As a result, the light from the light source 51a is emitted only from the lifted translucent window of the operating portions 3L and 3R on both sides of the operation handle 3 among the pair of translucent windows 31L and 31R. That is, when the operation handle 3 is operated and any one of the operation units 3L and 3R on both sides of the operation handle 3 is lifted, the lifted translucent windows 31L and 31R always emit light, for example, white light. .. As a result, the position of the operation handle 3 can be easily visually recognized even in the dark by the light emission (position display function).

On the other hand, in the switch device 1, the light source 51b (for example, a red light source) is switched on and off according to the operation and stop of the load to be operated. For example, the light source 51b is turned off when the load to be operated is operating, and turned on when the load to be operated is stopped.

As a result, when the load to be operated is operating, the light source 51b is turned off, so that even if the operation handle 3 is operated and one of the operation units 3L and 3R on both sides of the operation handle 3 is lifted, The light from the light source 51b is not emitted from the raised translucent windows 31L and 31R. That is, the raised translucent windows 31L and 31R do not emit light. On the other hand, when the load to be operated is stopped, the light source 51b is turned on. Therefore, when the operation handle 3 is operated and one of the operation units 3L and 3R on both sides of the operation handle 3 is lifted, the light source 51b is lifted. Light from the light source 51b (for example, red light) is emitted from the light-transmitting windows 31L and 31R. That is, the raised translucent windows 31L and 31R emit red light. As a result, the light emission makes it possible to easily visually recognize the portion of the operation handle 3 for operating the load of the operation target even in the dark (pilot function). In this embodiment, since the pilot function and the position display function are implemented together, in this case, the red light by the pilot function and the white light by the position display function are emitted from the translucent windows 31L and 31R. ..

(Main effect)
As described above, the switch device 1 according to the present embodiment includes an operation handle 3, a contact device 4 (contact circuit), light sources 51a and 51b, and prisms 91L and 91R (translucent members). The operation handle 3 can be operated by the operation of the operator. The contact device 4 switches between an open state and a closed state according to the operation of the operation handle 3. The light sources 51a and 51b are arranged behind the operation handle 3. The prisms 91L and 91R are provided on the operation handle 3. The operation handle 3 has a front surface portion 3t and a side surface portion 3s. The prisms 91L and 91R have a first fitting portion 91e (first light emitting portion) and a second fitting portion 91f (second light emitting portion). The first fitting portion 91e is provided on the front surface portion 3t of the operation handle 3, transmits light from the light sources 51a and 51b, and emits light to the outside (for example, the front side) of the operation handle 3. The second fitting portion 91f is provided on the side surface portion 3s of the operation handle 3, transmits light from the light sources 51a and 51b, and emits light to the outside (for example, the side surface side) of the operation handle 3.

According to this configuration, the front surface portion 3t and the side surface portion 3s of the operation handle 3 can be made to emit light. By causing the side surface portion 3s to emit light, the light emission of the operation handle 3 can be visually recognized from the side of the operation handle 3. Further, by causing the side surface portion 3s to emit light, it is possible to prevent the light from the operation handle 3 from directly incident on the eyes when viewed from the front side of the operation handle 3.

(Modification example)
Next, a modified example of the above embodiment will be described. The following modifications may be carried out in combination.

(Modification example 1)
In the above embodiment, the first window portion 311 and the second window portion 312 of the translucent windows 31L and 31R are integrated to form one translucent window. Further, the first fitting portion 91e (first light emitting portion) and the second fitting portion 91f (second light emitting portion) of the fitting portion 91a (light emitting portion) are also integrated to form one transparent window. Constitute. However, as shown in FIG. 15, the first window portion 311 and the second window portion 312 may be formed separately, and the first fitting portion 91e and the second fitting portion 91f may also be formed separately.

(Modification 2)
In the above embodiment, as shown in FIG. 16, a third window portion 313 is further provided on the edge portion of the side surface portions 3v (third side surface portion) on both the upper and lower sides of the operation handle 3, and the third window portion 313 is provided with a third window portion 313. 3 The fitting portion 91p may be provided. The translucent windows 31L and 31R in this case have a first window portion 311 and a second window portion 312 and a third window portion 313. In this case, the fitting portion 91a (light emitting portion) includes a first fitting portion 91e (first light emitting portion), a second fitting portion 91f (second light emitting portion), and a third fitting portion 91p (third fitting portion 91p). It has 3 light emitting parts). The upper and lower side surface portions 3v of the operation handle 3 intersect with both the front surface portion 3t and the side surface portion 3s of the operation handle 3. The front surface portion 3t and the side surface portion 3s intersect with each other. The third fitting portion 91p is connected to the prism main body 9b of the prisms 91L and 91R, and can emit light in the same manner as the first fitting portion 91e and the second fitting portion 91f. That is, the operation handle 3 in this case can emit light from the left and right edge portions of the front surface portion 3t, the left and right side surface portions 3s (3e, 3f), and the left and right side edges of the upper and lower side surface portions 3v. Is.

The upper side surface portion 3v of the operation handle 3 is composed of the operation portions 3L on both the left and right sides, and the upper side surface portion 3u of the 3R. It is composed of a side surface portion 3u on the lower side of the 3R. The third window portion 313 may be provided on at least a part of the side surface portion 3v of the operation handle 3.

In this modification, as shown in FIG. 16, the first window portion 311 and the second window portion 312 and the third window portion 313 are separately formed, and the first fitting portion 91e and the second fitting portion 91e are formed separately. The 91g and the third fitting portion 91p are also formed separately.

However, as shown in FIG. 17, the first window portion 311 and the second window portion 312 and the third window portion 313 are integrated to form one translucent window 31L and 31R, and the first fitting portion 91e , The second fitting portion 91f and the third fitting portion 91p may also be integrated to form one fitting portion 91a. In the example of FIG. 17, the translucent windows 31L and 31R are formed on the entire left and right end faces of the operation handle 3. The fitting portions 91a of the prisms 91L and 91R have a hexahedral box shape, and four of the six faces are the first fitting portion 91e, the second fitting portion 91f, and the third fitting portions on both the upper and lower sides. It is composed of 91p, and the remaining two surfaces (lower surface and inner surface in the left-right direction) are open. Of the two open surfaces of the fitting portion 91a, the fitting portions 91a are left and right of the operation handle 3 so that the inner surfaces in the left-right direction are aligned with the translucent windows 31L and 31R and the lower surface is adjacent to the lower surface of the operation handle 3. Provided at both ends.

(Modification example 3)
As shown in FIGS. 18A and 18B, the switch device 1 of the present modification further includes the panel member 200 in the modification 1, and is emitted from the second window portion 312 of the side surface portion 3s of the operation handle 3. The light C1 illuminates the front surface 200a of the panel member 200.

The panel member 200 is, for example, a design panel and has a plate shape having an opening 200b. The panel member 200 is arranged so as to expose the operation handle 3 from the opening 200b and cover the outer periphery of the operation handle 3 (that is, the front surface of the cover 22). The side surface portions 3s of the lifted operation portions 3L and 3R of the operation handle 3 are arranged on the front side of the front surface 100a of the panel member 200.

In this modification, the prism body 91b (light guide portion) of the prisms 91L and 91R is branched for each of the first fitting portion 91e (first light emitting portion) and the second fitting portion 91f (second light emitting portion). doing. More specifically, the prism body 91b has a first branch path 91r and a second branch path 91s, and one end of each of the first branch path 91r and the second branch path 91s is a first fitting portion 91e and a second branch path 91s, respectively. It is connected to the back surface of each of the second fitting portions 91f. The other end portions of the first branch path 91r and the second branch path 91s are bundled together to form a common light guide path. The end face of the common light guide path constitutes an incident surface 95.

The prisms 91L and 91R have a recess 91m. The recess 91m is formed so as to be recessed toward the inside of the second branch path 91s on the rear surface of the prism body 91b (more specifically, the rear surface of the second branch path 91s). The side surface of the recess 91 m on the incident surface 95 side functions as a reflective surface 91n. The reflecting surface 91n is curved from the opening side of the recess 91m toward the bottom side, for example, in an arc shape. The rear surface of the prism body 91b is an example of the outer surface of the prism body 91b.

The reflecting surface 91n reflects the light C1 propagating from the incident surface 95 side inside the second branch path 91s. As a result, when the light C1 is emitted to the outside from the second fitting portion 91f, the reflecting surface 91n directs the light C1 diagonally rearward from the second fitting portion 91f (that is, around the front surface 200a of the panel member 200). Emit (toward region W1). Thereby, the light C1 can illuminate the front surface 200a of the panel member 200. The peripheral region W1 is a peripheral region of the side surface portions 3s of the lifted operation portions 3L and 3R on the front surface 200a of the panel member 200.

As described above, since the prisms 91L and 91R have the recess 91m, the light C1 emitted from the second window portion 312 of the side surface portion 3s of the operation handle 3 effectively illuminates the front surface 200a of the panel member 200. Can be done.

In this modification, at least a part (for example, the peripheral region W1) of the front surface 200a of the panel member 200 may be textured (for example, minute unevenness). By the embossing process, the reflected light of the light C1 irradiated on the front surface 200a of the panel member 200 can be made into an eye-friendly light with suppressed glare.

(Modification example 4)
In the above embodiment, the case where the light from the common light sources 51a and 51b is distributed to the operation units 3L and 3R on both the left and right sides by the prisms 11, 91L and 91R is illustrated. However, as shown in FIG. 19, instead of distributing the light from the light sources 51a and 51b to the operation units 3L and 3R on both sides by using the prisms 11, 91L and 91R, the light sources are used for each of the operation units 3L and 3R on both the left and right sides. 51c may be provided. In this case, each light source 51c is arranged, for example, behind the corresponding operation units 3L and 3R. Further, each light source 51c is emitted so that the light source 51c corresponding to the lifted operation unit (for example, 3R) of the operation handle 3 emits light and the light source 51c corresponding to the pressed operation unit (for example, 3L) is turned off. May be controlled.

(Modification 5)
In the above embodiment, windows (first window 311 and second window 312) are provided on both the front surface 3t and the side surface 3s of the operation handle 3, and light can be emitted from both windows 311, 312. And. However, as shown in FIG. 20, the window portion 311 may be provided only on the front portion 3t of the front portion 3t and the side surface portion 3s of the operation handle 3, so that light can be emitted only from the window portion 311 of the front portion 3t. ..

In this case, the fitting portion 91a (light emitting portion) of the prisms 91L and 91R is the first of the first fitting portion 91e (first light emitting portion) and the second fitting portion 91f (second light emitting portion). It has only one fitting portion 91e. The prism main body 91b (light guide portion) of the prisms 91L and 91R is curved forward and connected only to the back surface of the first fitting portion 91e.

More specifically, the prism body 91b has a curved portion 91h that curves forward on the way from the incident surface 95 to the exit surface 96. The portion of the prism body 91b on the incident surface 95 side extends substantially in the left-right direction, and the portion of the prism body 91b on the exit surface 96 side extends forward. The light C2 propagating from the incident surface 95 side inside the prism body 91b is reflected by the outer surface of the curved portion 91h and guided to the exit surface 96 side.

According to this modification, only the front surface portion 3t of the front surface portion 3t and the side surface portion 3s of the operation handle 3 can emit light.

(Modification 6)
In this modification, as shown in FIG. 21, in the modification 3 including the panel member 200, the window portion 312 is provided only on the side surface portion 3s of the front surface portion 3t and the side surface portion 3s of the operation handle 3, and the side surface portion 3s. The light C3 can be emitted only from the window portion 312 of the above. In this case, the fitting portion 91a (light emitting portion) of the prisms 91L and 91R is the first of the first fitting portion 91e (first light emitting portion) and the second fitting portion 91f (second light emitting portion). 2 It has only the fitting portion 91f. That is, the prism body 91b extends substantially in the left-right direction. The prism main body 91b (light guide portion) of the prisms 91L and 91R has only the second branch path 91s of the first branch path 91r and the second branch path 91s, and is connected only to the back surface of the second fitting portion 91f. .. That is, the prism body 91b extends substantially in the left-right direction.

The prisms 91L and 91R (translucent member) in this case also have a recess 91 m as in the modified example 3, and the side surface of the recess 91 m on the incident surface 95 side functions as a reflecting surface 91n. As a result, as in the modified example 3, when the light C3 is emitted to the outside from the second fitting portion 91f by the reflecting surface 91n, the light C3 is obliquely rearwardly directed from the second fitting portion 91f (that is, the panel). It is emitted toward the peripheral region W1 (see FIG. 18B) of the front surface 200a of the member 200. Thereby, the light C3 can illuminate the front surface 200a of the panel member 200. The peripheral region W1 is a peripheral region of the side surface portions 3s of the lifted operation portions 3L and 3R on the front surface 200a of the panel member 200. In this case, for example, about 50% of the light C3 emitted from the second fitting portion 91f may illuminate the front surface 200a of the panel member 200.

In this modified example as well, as in the modified example 3, the prisms 91L and 91R have the recesses 91 m, so that the light C3 emitted from the second window portion 312 of the side surface portion 3s of the operation handle 3 effectively displays the panel. The front surface 200a of the member 200 can be illuminated.

(Modification 7)
In the above embodiment, at least one of the surface of the first fitting portion 91e (first light emitting portion) and the surface of the second fitting portion 91f (second light emitting portion) of the operation handle 3 is textured (for example,). Fine irregularities) may be applied. As a result, the light emitted from the first fitting portion 91e and the second fitting portion 91f can be made to be easy on the eyes with suppressed glare by the grain processing.

(Modification 8)
In the above embodiment, the light source 51b is turned off when the load to be operated is operating, and the light source 51b is turned on when the load to be operated is stopped. However, conversely, when the load to be operated is operating, the light source 51b may be turned on, and when the load to be operated is stopped, the light source 51b may be turned off. In this case, of the pair of translucent windows 31L and 31R, the raised translucent window of the operating portions 3L and 3R on both sides of the operation handle 3 emits light only when the load to be operated is operating. ..

(Modification 9)
In the above embodiment, the prism 11 may be fixed to the operation handle 3 instead of being fixed to the cover 22 (that is, the body 2). Further, the light guide member 9 (that is, the pair of prisms 91L and 91R) may be fixed to the cover 22 instead of being fixed to the operation handle 3. The pair of light-shielding portions 10L and 10R may be fixed to the cover 22 instead of being fixed to the operation handle 3. Further, instead of being fixed to the reversing handle 6 and elastically contacting the operating handle 3, the conversion spring 8 may be fixed to the operating handle 3 and elastically contacting the reversing handle 6.

(Modification example 10)
In the above embodiment, as an example of the light transmission control mechanism, a pair of light-shielding portions 10L and 10R and a light guide member 9 (a pair of prisms 91L and 91R) are exemplified. The light transmission control mechanism emits light guided by the prism 11 from only one of the pair of light transmission windows 31L and 31R, depending on the operating state of the operation handle 3. It is a mechanism to make it. In the above embodiment, one or both of the pair of light-shielding portions 10L and 10R and the light guide member 9 may be omitted.

(Modification 11)
In the above embodiment, the light source 51b is switched on and off depending on the continuity and non-conduction between the open / close contacts in the closed state, but the operating state of the operation handle 3 (that is, of the operation units 3L and 3R on both sides). Depending on which one is pressed), lighting and extinguishing may be switched.

(Other variants)
In the above embodiment, the operation handle 3 is a seesaw switch, but may be a piano switch or a push button switch.

(summary)
The switch device (1) of the first aspect includes an operation handle (3), a contact circuit (4), a light source (51a, 51b), and a translucent member (91L, 91R). The operation handle (3) can be operated by the operation of the operator. The contact circuit (4) switches between an open state and a closed state according to the operation of the operation handle (3). The light sources (51a, 51b) are arranged behind the operation handle (3). The translucent members (91L, 91R) are provided on the operation handle (3). The operation handle (3) has a front surface portion (3t) and a side surface portion (3s). The light transmitting member (91L, 91R) has a first light emitting portion (91e) and a second light emitting portion (91f). The first light emitting unit (91e) is provided on the front surface portion (3t) of the operation handle (3), transmits light from the light sources (51a, 51b), and emits light to the outside of the operation handle (3). The second light emitting portion (91f) is provided on the side surface portion (3s) of the operation handle (3), transmits light from the light sources (51a, 51b), and emits light to the outside of the operation handle (3).

According to this configuration, the front surface portion (3t) and the side surface portion (3s) of the operation handle (3) can be made to emit light. By causing the side surface portion (3s) to emit light, the light emission of the operation handle (3) can be visually recognized from the side of the operation handle (3). Further, by causing the side surface portion (3s) to emit light, it is possible to prevent the light from the operation handle (3) from directly incident on the eyes when viewed from the front side of the operation handle (3).

In the switch device (1) of the second aspect, in the first aspect, the translucent member (91L, 91R) emits light from the light source (51a, 51b) into the first light emitting unit (91e) and the second light. It has a light guide unit (91b) that guides light to the exit unit (91f).

According to this configuration, the light guide unit (91b) guides the light from the light sources (51a, 51b) to the first light emission unit (91e) and the second light emission unit (91f) while suppressing the light loss. can.

In the switch device (1) of the third aspect, in the second aspect, the light transmitting member (91L, 91R) is recessed toward the inside of the light guide portion (91b) on the outer surface of the light guide portion (91b). It has a recess (91 m). The light propagating inside the light guide portion (91b) is reflected by the recess (91 m) so that the light is guided to the side of the first light emission portion (91e) or the side of the second light emission portion (91f). ..

According to this configuration, the light propagating inside the light guide portion (91b) can be evenly distributed by the first light emitting portion (91e) and the second light emitting portion (91f) by the recess (91m).

In the first aspect, the switch device (1) of the fourth aspect includes a panel member (200) that covers the outer periphery of the operation handle (3). The front surface (200a) of the panel member (200) is illuminated by the light emitted from the second light emitting unit (91f).

According to this configuration, the light emitted from the second light emitting portion (91f) not only causes the side surface portion (3s) of the operation handle (3) to emit light, but also causes the front surface (200a) of the panel member (200) to emit light. Can illuminate. As a result, a wider range can be lit by the light emitted from the operation handle (3).

In the switch device (1) of the fifth aspect, in the fourth aspect, the translucent member (91L, 91R) has a light guide unit (91b). The light guide unit (91b) guides the light from the light sources (51a, 51b) to the first light emitting unit (91e) and the second light emitting unit (91f). The light guide portion (91b) has a recess (91 m) recessed toward the inside of the light guide portion (91b) on the outer surface of the light guide portion (91b). The light propagating inside the light guide portion (91b) is reflected by the recess (91m), so that when it is emitted from the second light emitting portion (91f), it is on the front surface (200a) side of the panel member (200). It emits toward.

According to this configuration, the panel is effectively provided by the light emitted from the second light emitting portion (91f) by the recess (91 m) (that is, the light emitted from the side surface portion (3s) of the operation handle (3)). The front surface (200a) of the member (200) can be illuminated.

In the switch device (1) of the sixth aspect, in any one of the first to fifth aspects, the first light emitting unit (91e) and the second light emitting unit (91f) are integrated into one. It constitutes a light emitting part.

According to this configuration, the first light emitting unit (91e) and the second light emitting unit (91f) can be configured as one light emitting unit.

In any one of the first to sixth aspects, the switch device (1) of the seventh aspect has the side surface portion (3s) as the first side surface portion (3s). The operation handle (3) has a second side surface portion (3v). The second side surface portion (3v) intersects both the front surface portion (3t) and the first side surface portion (3s). The translucent member (91L, 91R) has a third light emitting portion (91p). The third light emitting portion (91p) is provided on the second side surface portion (3v) of the operation handle (3), transmits light from the light sources (51a, 51b), and emits light to the outside of the operation handle (3). ..

According to this configuration, in the operation handle (3), not only the front surface portion (3t) and the first side surface portion (3s) but also the second side surface portion (3v) can emit light.

In the switch device (1) of the eighth aspect, in the seventh aspect, the first light emitting part (91e), the second light emitting part (91f), and the third light emitting part (91p) are integrated. It constitutes one light emitting part.

According to this configuration, the first light emitting unit (91e), the second light emitting unit (91f), and the third light emitting unit (91p) can be configured as one light emitting unit.

In the switch device (1) of the ninth aspect, in any one of the first to eighth aspects, when one of the operation portions (3L, 3R) on both sides of the operation handle (3) is pressed. Performs a seesaw operation in which the other is lifted. Translucent members (91L, 91R) are provided on each of the operating portions (3L, 3R) on both sides. The switch device (1) includes a prism (11). The prism (11) selectively emits a light source (91L, 91R) to one of two translucent members (91L, 91R) provided with operation portions (3L, 3R) on both sides according to the seesaw operation of the operation handle (3). The light from 51a, 51b) is guided.

According to this configuration, it can be applied to the seesaw operation type operation handle (3). At that time, one of the operation units (3L, 3R) on both sides of the operation handle (3) can be selectively emitted according to the seesaw operation of the operation handle (3).

1 Switch device 3 Operation handle 3t Front part 3s, 3e, 3f Side part (side side part, first side part)
3v side surface (second side surface)
4 Contact device (contact circuit)
11 Prism 51a, 51b Light source 91b Prism body (light guide)
91e 1st fitting part (1st light emitting part)
91f 2nd fitting part (2nd light emitting part)
91L, 91R prism (translucent member)
91m recess 91p 3rd fitting part (3rd light emitting part)
200 Panel member 200a Front

Claims (9)

An operation handle that can be operated by the operator's operation,
A contact circuit that switches between an open state and a closed state according to the operation of the operation handle,
A light source located behind the operation handle and
A translucent member provided on the operation handle is provided.
The operation handle has a front portion and a side portion, and has a front portion and a side portion.
The translucent member is
A first light emitting portion provided on the front surface portion of the operating handle, transmitting light from the light source and emitting light to the outside of the operating handle.
It has a second light emitting portion provided on the side surface portion of the operating handle, which transmits light from the light source and emits light to the outside of the operating handle.
Switch device. The translucent member is
It has a light guide unit that guides light from the light source to the first light emitting unit and the second light emitting unit.
The switch device according to claim 1. The translucent member has a recess on the outer surface of the light guide portion that is recessed toward the inside of the light guide portion.
The light propagating inside the light guide portion is reflected by the recess so as to be guided to the side of the first light emitting portion or the side of the second light emitting portion.
The switch device according to claim 2. A panel member that covers the outer circumference of the operation handle is provided.
The front surface of the panel member is illuminated by the light emitted from the second light emitting portion.
The switch device according to claim 1. The translucent member is
It has a light guide unit that guides the light from the light source to the first light emitting unit and the second light emitting unit.
The light guide portion has a recess on the outer surface of the light guide portion that is recessed toward the inside of the light guide portion.
The fourth aspect of the present invention, wherein the light propagating inside the light guide portion is reflected by the concave portion, and when the light is emitted from the second light emitting portion, the light is emitted toward the front surface side of the panel member. Switch device. The first light emitting unit and the second light emitting unit are integrated to form one light emitting unit.
The switch device according to any one of claims 1 to 5. The side surface portion is used as the first side surface portion.
The operation handle has a second side surface portion that intersects both the front surface portion and the side surface portion.
The translucent member is provided on the second side surface portion of the operation handle, and has a third light emitting portion that transmits light from the light source and emits light to the outside of the operation handle.
The switch device according to any one of claims 1 to 6. The first light emitting unit, the second light emitting unit, and the third light emitting unit are integrated to form one light emitting unit.
The switch device according to claim 7. The operation handle performs a seesaw operation in which when one of the operation portions on both sides is pressed, the other is lifted.
The translucent member is provided on each of the operation portions on both sides.
One of the two translucent members provided on the operation portions on both sides is provided with a prism that selectively guides the light from the light source according to the seesaw operation of the operation handle.
The switch device according to any one of claims 1 to 8.

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