JP7177679B2 - lighting structure - Google Patents

Description

The present invention relates to lighting structures.

Patent Literature 1 listed below describes an illumination structure of an operating device. Briefly describing this illumination structure, the operation knob of the operation device is provided with an illumination portion extending in the circumferential direction of the operation knob. An indicator lens is provided on the back side of the illumination section, and an indicator light source is provided on the opposite side of the indicator lens to the illumination section. When the indicator light source is turned on, the light transmitted through the indicator lens illuminates the illumination section, thereby illuminating the illumination section.

By the way, when illuminating the illumination section extending in the circumferential direction of the operation knob as described above, the illumination section may be illuminated by a plurality of light sources. In this case, by turning on or off any one of the plurality of light sources, the length of the illuminated portion of the illumination section can be varied. That is, as the number of light sources to be lit increases, the length of the illuminated portion in the illumination section increases.

JP-A-2002-197946

However, when the illumination section is illuminated by a plurality of light sources as described above, the light transmitted through the indicator lens may diffuse and illuminate areas illuminated by other light sources. In this case, there is a problem that the contour of the illuminated portion is blurred in the illumination portion, and the illuminance of the illumination portion deteriorates.

In consideration of the above facts, the present invention provides a lighting structure capable of improving the lighting performance of the lighting section.

One or more embodiments of the present invention comprise an indicator member having a linearly extending illumination portion, and an indicator member spaced behind the indicator member and arranged along the longitudinal direction of the illumination portion. a plurality of light sources for irradiating the light emitted to the lighting section; a case provided between the indicator member and the light source; and light emitted from the light source assembled in the case. and a plurality of light guide portions guiding the light to the illumination portion, wherein the plurality of light guide portions are arranged in pairs with the plurality of light sources and are adjacent to each other along the longitudinal direction of the illumination portion and divided into a plurality of groups, the plurality of light guide sections forming each group are arranged at predetermined intervals along the longitudinal direction of the illumination section and connected by a connecting section. The lighting structure is characterized by :

In one or more embodiments of the present invention, the illumination section extends in a curved line, and the light guide section is attached to the case while the connection section is bent along the illumination section. A lighting structure characterized by being assembled.

One or more embodiments of the present invention is an illumination structure, characterized in that the side surfaces of the light guide sections adjacent to each other are arranged to face each other in the longitudinal direction of the illumination section.

In one or more embodiments of the present invention, the illumination structure is characterized in that the case is formed with a support wall that shields between the plurality of light sources and supports the light guide section. be.

One or more embodiments of the present invention is an illumination structure comprising a panel member that houses the case, and wherein the indicator member is fixed to the panel member.

According to one or more embodiments of the present invention, it is possible to improve the illuminance of the illumination section.

1 is a plan view showing an operating device to which an illumination structure according to this embodiment is applied; FIG. FIG. 2 is a vertical cross-sectional view of the operating device shown in FIG. 1 (cross-sectional view taken along line 2-2 in FIG. 1); FIG. 2 is a vertical cross-sectional view of the operating device shown in FIG. 1 (cross-sectional view taken along line 3-3 in FIG. 1); 2 is an exploded perspective view of the operating device shown in FIG. 1; FIG. Figure 5 is a plan view of the case shown in Figure 4; (A) is a perspective view showing a state before the first lens shown in FIG. 4 is assembled to the case, and (B) is a perspective view showing the second lens shown in FIG. 4 before being assembled to the case. It is a perspective view which shows a state. (A) is a plan view showing a curved state of the first lens shown in FIG. 6(A), and (B) is a curved state of the second lens shown in FIG. 6(B). It is a plan view showing. (A) is an explanatory diagram for explaining the transmission state of a light guide section for light in the illumination structure according to the present embodiment, and (B) is a diagram for explaining the transmission state of the light guide section for light in the illumination structure of the comparative example; It is an explanatory view for explaining a state.

Hereinafter, the operating device 10 to which the lighting structure S according to the present embodiment is applied will be described with reference to the drawings. The operating device 10 is assembled to, for example, various machine tools (not shown) and configured as an operating section of the machine tool.

As shown in FIGS. 1 to 4, the operating device 10 as a whole is formed in a substantially stepped columnar shape. In the following description, one axial side of the operating device 10 (arrow A direction side in FIGS. 2 to 4) is defined as the upper side of the operating device 10, and the other axial side of the operating device 10 (in FIGS. 2 to 4) The arrow B direction side) is the lower side of the operating device 10 . In the following description, when the vertical direction is used for description, the vertical direction of the operating device 10 is indicated unless otherwise specified.

The operating device 10 includes a panel member 12 forming a lower portion of the operating device 10, a case unit 20 and a circuit board 60 housed inside the panel member 12, and a dial unit 40 forming an upper end portion of the operating device 10. and Further, the upper portion of the dial unit 40 protrudes upward from the panel member 12 and is operably exposed to the outside of the machine tool. The operating device 10 is configured to be capable of two operations: a rotating operation to rotate the dial unit 40 around the axis AL of the operating device 10 and a pressing operation to press the dial unit 40 downward. Each configuration of the operating device 10 will be described below.

(Regarding the panel member 12)
The panel member 12 is formed in a substantially bottomed cylindrical shape that is open downward. A plurality of (three in this embodiment) retainers 14 are fixed to the outer peripheral portion of the panel member 12 , and the retainers 14 are arranged at equal intervals in the circumferential direction of the panel member 12 . The panel member 12 is assembled to the machine tool by the retainer 14, and the operating device 10 is fixed to the machine tool.

In the upper wall of the panel member 12, a support recess 12A that opens upward is formed at the center. protruded to A support hole 12B is formed through the bottom wall of the support recess 12A. Further, an illumination hole 12C is formed through the upper wall of the panel member 12 radially outwardly of the support recess 12A, and the illumination hole 12C has its longitudinal direction parallel to the circumferential direction of the panel member 12. It is formed in the shape of an elongated hole. Specifically, the lighting hole 12C is curved in a C shape (arc shape) that opens radially outward of the panel member 12 in plan view from above. A plurality of (three in the present embodiment) panel side fixing bosses 12D (see FIG. 3) are formed on the upper wall of the panel member 12 (in FIG. 3, one panel side fixing boss 12D is formed). 12D is shown). The panel-side fixing bosses 12D are formed in a substantially cylindrical shape with the vertical direction as the axial direction, protrude downward from the upper wall of the panel member 12, and are arranged at equal intervals in the circumferential direction of the panel member 12. ing.

A cover 16 is provided in the opening of the panel member 12, and the cover 16 is formed in a substantially disc shape with the plate thickness direction extending in the vertical direction. Three cover-side fixing bosses 16A are formed in the cover 16 at positions corresponding to the panel-side fixing bosses 12D of the panel member 12 . The cover-side fixed boss 16A is formed in a cylindrical shape whose axial direction is the vertical direction, extends upward from the cover 16, and the inside of the cover-side fixed boss 16A penetrates vertically. A screw SC is inserted into the cover-side fixing boss 16A from below and screwed into the panel-side fixing boss 12D, so that the cover 16 is attached to the panel member 12 while closing the opening of the panel member 12. Fixed. In the fixed state of the cover 16, the cover-side fixing boss 16A of the cover 16 and the panel-side fixing boss 12D of the panel member 12 sandwich the case 22 and the circuit board 60, which will be described later (see FIG. 3).

An indicator housing portion 12E projecting upward is formed on the upper surface of the panel member 12 at the outer peripheral portion, and the indicator housing portion 12E is formed in a substantially circular concave shape with a relatively shallow bottom and open upward. It is An indicator member 18 is arranged inside the indicator housing portion 12E. The indicator member 18 is made of a colorless and transparent glass material, and is formed in the shape of an annular plate whose plate thickness direction is the vertical direction. The bottom surface of the indicator member 18 is adhered to the bottom surface of the indicator housing portion 12E with double-sided tape. Note that the indicator member 18 may be made of a colorless and transparent resin material (such as polycarbonate, for example).

The indicator member 18 has an illumination portion 18A, and the illumination portion 18A is illuminated by light guided by a light guide portion 38 of a first lens 34 and a second lens 36, which will be described later. That is, the surface of the indicator member 18 is printed on a portion other than the portion constituting the illumination portion 18A, thereby forming the illumination portion 18A. The illumination portion 18A is formed in a curved shape along the circumferential direction of the panel member 12 and curved in an arc shape in a plan view. Further, the illumination portion 18A is disposed facing the illumination hole portion 12C of the panel member 12 in the vertical direction.

(Regarding case unit 20)
As shown in FIGS. 2 to 4, the case unit 20 includes a case 22, a rotor 30, a push support 32, a first lens 34, and a second lens .

<About case 22>
As also shown in FIG. 5 , the case 22 is formed in a bottomed cylindrical shape that is open upward as a whole, and is arranged inside the panel member 12 . Three case-side fixing bosses 22A are formed on the outer peripheral portion of the bottom wall of the case 22 at positions corresponding to the panel-side fixing bosses 12D of the panel member 12 . The case-side fixed boss 22A is formed in a cylindrical shape whose axial direction is the vertical direction, protrudes upward from the bottom wall of the case 22, and the inside of the case-side fixed boss 22A penetrates in the vertical direction. The screw SC described above is inserted into the case-side fixing boss 22A, and the case 22 is vertically sandwiched between the circuit board 60 and the panel member 12, which will be described later (see FIG. 3).

The outer peripheral side wall of the case 22 has a double wall structure. That is, the outer peripheral side wall of the case 22 is composed of a first outer peripheral wall 22B and a second outer peripheral wall 22C arranged radially inside the first outer peripheral wall 22B. A lower end portion of the first outer peripheral wall 22B and a lower end portion of the second outer peripheral wall 22C are connected by a plurality of support walls 22D (see FIG. 5). The support walls 22D extend radially from the center of the case 22 and are arranged at equal intervals in the circumferential direction of the case 22 in plan view. Note that the plurality of support walls 22D are not formed in the entire circumferential direction of the case 22, but are formed at positions corresponding to the illumination portions 18A of the indicator member 18 described above.

A space between the first outer peripheral wall 22B and the second outer peripheral wall 22C in the case 22 serves as a lens accommodating portion 22E for accommodating the light guide portions 38 of the first lens 34 and the second lens 36, which will be described later. The lens accommodating portion 22E is arranged at a position overlapping the illumination portion 18A of the indicator member 18 in plan view. A space surrounded by the first outer peripheral wall 22B, the second outer peripheral wall 22C, and the support walls 22D adjacent in the circumferential direction is configured as a lens insertion hole 22F (see FIG. 5).

Further, a support cylinder portion 22G is formed in the center portion of the bottom wall of the case 22. As shown in FIG. The support cylinder portion 22G is formed in a substantially cylindrical shape with the vertical direction as the axial direction, and protrudes upward from the bottom wall of the case 22 . Further, the inner diameter of the support cylinder portion 22G is set to decrease toward the lower side, and the inside of the support cylinder portion 22G penetrates vertically.

A pair of projections 22H projecting radially inward of the support cylinder 22G is formed at the upper end of the support cylinder 22G. are arranged 180 degrees apart from each other. A concave first bearing portion 22J1 that opens upward is formed on one overhanging portion 22H, and a second concave bearing portion 22J2 that opens upward is formed on the other overhanging portion 22H. It is The first bearing portion 22J1 and the second bearing portion 22J2 are formed in a circular shape in plan view, and the inner diameter of the first bearing portion 22J1 is set smaller than the inner diameter of the second bearing portion 22J2.

A pair of arrangement holes 22K are formed through the bottom wall of the case 22 on the radially outer side of the support cylinder portion 22G. are arranged 180 degrees apart in the direction. Further, the bottom wall of the case 22 is formed with a plurality of (three in the present embodiment) support bosses 22L. The support bosses 22L are formed in a substantially columnar shape with the vertical direction as the axial direction, protrude upward from the bottom wall of the case 22, and are arranged at equal intervals in the circumferential direction of the case 22. As shown in FIG.

A return spring 24 (see FIG. 3) configured as a compression coil spring is attached to the support boss 22L. portion is locked to a push support 32, which will be described later.

The bottom wall of the case 22 is formed with a housing recess 22M that opens upward and protrudes downward. A detent spring 26 (see FIG. 3) configured as a compression coil spring is accommodated in the accommodation recess 22M. A spherical ball 28 (see FIG. 3) is accommodated in the accommodation recess 22M, and the ball 28 is arranged above the moderation spring 26. As shown in FIG.

Further, a plurality of (three in the present embodiment) engaging claws 22P are formed on the bottom wall of the case 22, and the engaging claws 22P protrude upward from the bottom wall of the case 22. , are arranged at equal intervals in the circumferential direction of the case 22 .

<Regarding the rotor 30>
As shown in FIGS. 2 and 3, the rotor 30 is formed in a cylindrical shape with a relatively shallow bottom that is open downward. A rotor-side insertion hole 30A is formed through the upper wall of the rotor 30 . The rotor 30 is rotatably accommodated inside the case 22 with the lower end portion of the support cylinder portion 22G of the case 22 inserted through the rotor-side insertion hole 30A. A flange 30</b>B projecting radially outward is formed on the outer peripheral portion of the rotor 30 on the lower end side. When the rotor 30 is housed in the case 22, the flange 30B is engaged with the engaging claw 22P (not shown in FIG. 3) of the case 22, thereby restricting the upward movement of the rotor 30. . A plurality of detent ridges 30C are formed on the lower surface of the flange 30B at positions corresponding to the balls 28 described above, and the detent ridges 30C are arranged along the circumferential direction of the rotor 30. As shown in FIG. The balls 28 described above are arranged between the adjacent detent crests 30C.

<About Push Support 32>
The push support 32 is formed in the shape of an annular plate with the plate thickness direction extending in the vertical direction, and is arranged inside the rotor 30 . A hole 32A is formed through the push support 32 at a position corresponding to the support boss 22L of the case 22 . The support boss 22</b>L is inserted into the hole 32</b>A so as to be relatively movable, and the upper end of the return spring 24 is locked to the lower surface of the push support 32 . As a result, the push support 32 is urged upward by the urging force of the return spring 24 and comes into contact with the upper wall of the rotor 30 .

<About the first lens 34 and the second lens 36>
As shown in FIGS. 2 to 4, 6, and 7, the first lens 34 connects a plurality of (thirteen in this embodiment) light guide portions 38 and a plurality of light guide portions 38. and a first connecting portion 34A as a “connecting portion”. The first lens 34 is made of a colorless and transparent resin material (in the present embodiment, polycarbonate as an example).

The light guide portion 38 is formed in a substantially rectangular columnar shape extending in the vertical direction. Specifically, the interval between adjacent light guide portions 38 matches the interval between every other lens insertion hole 22</b>F in the case 22 . The lower end portion of the light guide portion 38 is configured as an insertion portion 38A, and the width dimension of the insertion portion 38A is set smaller than the width dimension of the upper end side of the light guide portion 38 . More specifically, the outer shape of the insertion portion 38A is formed to match the shape of the lens insertion hole 22F of the case 22 in plan view. A protrusion 38B is formed on the upper end side portion of the light guide portion 38 so as to protrude to one side in the thickness direction. In order to distinguish between the first lens 34 and a second lens 36, which will be described later, the first lens 34 has light guiding lenses arranged at both ends in the longitudinal direction of the first lens 34 and in the central part in the longitudinal direction. In portion 38, projection 38B is omitted. In addition, by omitting the projections 38B in the light guide portions 38 arranged at both ends in the longitudinal direction and the central portion in the longitudinal direction of the first lens 34, the panel-side fixed bosses 12D of the panel member 12 and the light guide portions 38 can be separated from each other. Interference is suppressed.

The first connecting portion 34A is formed in a substantially rectangular bar shape extending in the width direction of the light guide portion 38 . The first connecting portion 34A is formed integrally with the other thickness direction side portion of the upper end side portion of the light guide portion 38 . As a result, the plurality of light guide portions 38 are integrally formed in a state in which the side surfaces 38C in the width direction of the light guide portions 38 are formed from the lower end to the upper end. In addition, before the first lens 34 is assembled to the case 22, the first lens 34 extends linearly in the width direction of the light guide section 38 (see FIG. 6A).

The first lens 34 is attached to the case 22 and housed in the lens housing portion 22E of the case 22 . Specifically, the first connecting portion 34A is bent in an arc shape in plan view (see FIG. 7A), and the insertion portion 38A of the light guide portion 38 is inserted into the lens insertion hole 22F of the case 22. ing. Thereby, the lower end portion of the light guide portion 38 is supported by the support wall 22</b>D of the case 22 . Further, at this time, the light guide portion 38 of the first lens 34 is arranged corresponding to every other lens insertion hole 22</b>F arranged in the circumferential direction of the case 22 . Further, when the first lens 34 is assembled to the case 22, the lower surface of the projection 38B of the light guide portion 38 is in contact with the upper surface of the second outer peripheral wall 22C of the case 22. A lower surface of the connecting portion 34A is in contact with the upper surface of the first outer peripheral wall 22B of the case 22 . Furthermore, the upper end portion of the light guide portion 38 of the first lens 34 is inserted into the illumination hole portion 12C of the panel member 12 so that the light guide portion 38 approaches the lower side of the illumination portion 18A of the indicator member 18. are placed.

The second lens 36 is formed similarly to the first lens 34, except as noted below. That is, the second lens 36 has a plurality of (12 in this embodiment) light guide portions 38 used in the first lens 34, and these light guide portions 38 serve as "connecting portions". It is connected by the second connecting portion 36A.

The second connecting portion 36A is formed in a substantially rectangular rod shape extending in the width direction of the light guide portion 38, and the second connecting portion 36A is integrated with the other thickness direction side portion of the upper end side portion of the light guide portion 38. is formed in Further, in the second lens 36 , the second connecting portion 36A is arranged above the first connecting portion 34A of the first lens 34 . Furthermore, in the second lens 36 as well, the second lens 36 extends linearly in the width direction of the light guide portion 38 before the second lens 36 is assembled to the case 22 (see FIG. 6). (B)). Also, the longitudinal length of the first lens 34 is longer than the longitudinal length of the second lens 36 .

The second lens 36 is attached to the case 22 and housed in the lens housing portion 22E of the case 22 . Specifically, the second connecting portion 36A is bent in an arc shape in plan view (see FIG. 7B), and the light guide portion 38 of the second lens 36 is aligned with the adjacent light guide portion of the first lens 34. 38 is inserted. When the second lens 36 is assembled to the case 22, the insertion portion 38A of the light guide portion 38 is inserted into the lens insertion hole 22F of the case 22, and the lower surface of the projection 38B of the light guide portion 38 is aligned with the case. 22, and the lower surface of the second connecting portion 36A of the light guide portion 38 is in contact with the upper surface of the first connecting portion 34A of the first lens 34. As shown in FIG. Further, the upper end portion of the light guide portion 38 of the second lens 36 is inserted into the illumination hole portion 12C of the panel member 12 so that the light guide portion 38 is brought closer to the lower side of the illumination portion 18A of the indicator member 18. are placed.

As described above, when the first lens 34 and the second lens 36 are assembled to the case 22 , the light guide portion 38 of the first lens 34 and the light guide portion 38 of the second lens 36 are positioned around the case 22 . They are arranged alternately in the direction and adjacent to each other in the circumferential direction of the case 22 . In other words, the plurality of light guide portions 38 arranged adjacent to the lens accommodating portion 22E are divided into two groups, one group forming the first lens 34 and the other group forming the second lens 36 . A plurality of light guide portions 38 constituting the first lens 34 are connected by a first connecting portion 34A, and a plurality of light guiding portions 38 constituting the second lens 36 are connected by a second connecting portion 36A. there is

Further, when the light guide portions 38 are assembled to the case 22, the light guide portions 38 are arranged so that the side surfaces 38C in the width direction of the adjacent light guide portions 38 are arranged to face each other in the circumferential direction of the case 22. 38 shapes are set. That is, the light guide portions 38 are arranged so that the side surfaces 38C in the width direction of the adjacent light guide portions 38 are arranged substantially parallel to each other and are in close contact with each other.

(Regarding dial unit 40)
As shown in FIGS. 1 to 4, the dial unit 40 is mounted on the support cylinder 22G of the case 22 so as to be rotatable about the axis AL of the operating device 10 and to be pushed downward. . The dial unit 40 includes a dial main body 42, a support plate 44, and a dial cap 48. As shown in FIG.

<Regarding the dial body 42>
The dial body 42 as a whole is formed in a substantially cylindrical shape whose axial direction is the vertical direction. The dial main body 42 includes an inner cylinder 42A and an outer cylinder 42B. The outer cylinder 42B is arranged radially outward with respect to the upper part of the inner cylinder 42A. , is bent radially inward and connected to the axially intermediate portion of the inner cylinder 42A. The support cylinder portion 22G of the case 22 is inserted into the inner cylinder 42A, and the dial main body 42 is supported by the support cylinder portion 22G so as to be rotatable about the axis AL and vertically movable. In this state, the inner cylinder 42A is inserted through the support hole 12B of the panel member 12, and a part of the lower end of the outer cylinder 42B is arranged in the opening of the support recess 12A of the panel member 12. ing.

A plurality of (four in the present embodiment) engaging claws 42C are formed in the lower end portion of the inner cylinder 42A, and the engaging claws 42C are positioned below the support holes 12B in the panel member 12. is engaged with the periphery of the As a result, upward movement of the dial body 42 is restricted. An engagement groove 42D opened downward is formed in the lower end of the inner cylinder 42A. An engaging portion (not shown) of the rotor 30 is inserted into the engaging groove 42D from below, and the rotor 30 and the inner cylinder 42A are engaged with the dial main body 42 in the circumferential direction. Thereby, the rotor 30 and the inner cylinder 42A are configured to be rotatable together.

A lower end portion of the dial main body 42 is inserted through the rotor-side insertion hole 30A of the rotor 30 and arranged adjacent to the upper side of the push support 32 . As a result, the dial main body 42 (dial unit 40) is supported from below by the push support 32, and the dial main body 42 (dial unit 40) is arranged at the initial position (the position shown in FIGS. 2 and 3). ing. On the other hand, when the dial body 42 (dial unit 40) is pressed, the return spring 24 is further compressed and deformed, allowing the push support 32 and the dial body 42 to move downward. . Furthermore, when the operating force applied to the dial body 42 is released, the biasing force of the return spring 24 causes the dial body 42 (dial unit 40) to return to its initial position.

A receiving portion 42E for receiving a support plate 44, which will be described later, is formed on the inner peripheral portion of the upper opening of the inner cylinder 42A. The receiving portion 42E is formed in a concave shape that is open to the upper side and to the inner side in the radial direction of the inner cylinder 42A in a cross-sectional view, and is formed over the entire circumferential direction of the inner cylinder 42A.

<Regarding the support plate 44>
As shown in FIGS. 2 and 3, the support plate 44 has a plate main body 44A formed in the shape of an annular plate with the plate thickness direction extending in the vertical direction. The plate main body 44A is accommodated inside the receiving portion 42E of the dial main body 42, and the plate main body 44A is placed on the receiving portion 42E.

Further, the support plate 44 has a pair of first shaft portion 44B1 and second shaft portion 44B2. The first shaft portion 44B1 and the second shaft portion 44B2 are formed in a columnar shape whose axial direction is the vertical direction, extend downward from the plate body 44A, and are spaced apart by 180 degrees in the circumferential direction of the plate body 44A. are arranged as follows. The first shaft portion 44B1 forms a pair with the first bearing portion 22J1 of the case 22, and the second shaft portion 44B2 forms a pair with the second bearing portion 22J2 of the case 22. The diameter is set smaller than the diameter of the second shaft portion 44B2. The first shaft portion 44B1 is inserted into the first bearing portion 22J1 so as to be relatively movable in the vertical direction, and the second shaft portion 44B2 is inserted into the second bearing portion 22J2 so as to be relatively movable in the vertical direction. It is Therefore, the rotation of the support plate 44 is restricted by the case 22 . That is, when the dial unit 40 is rotated, the dial main body 42 rotates relative to the support plate 44 .

A rib 44C protruding upward is formed on the upper surface of the plate body 44A at the outer peripheral portion, and the rib 44C extends along the circumferential direction of the plate body 44A. It is formed all around. Further, the protrusion height of the rib 44C is set so that the rib 44C does not protrude above the upper surface of the dial body 42 when the support plate 44 is accommodated in the receiving portion 42E of the dial body 42.

A logo film 46 is provided on the upper surface of the plate body 44A radially inside the ribs 44C. The logo film 46 is formed in a circular sheet shape with the vertical direction being the thickness direction, and the lower surface of the outer peripheral portion of the logo film 46 is adhered to the upper surface of the plate body 44A with double-sided tape. A central portion of the logo film 46 is configured as a logo area 46A (see the hatched portion in FIG. 1), and a logo mark (not shown) is printed in the logo area 46A.

<Dial cap 48>
The dial cap 48 is made of a colorless and transparent resin material, and is shaped like a disc with the plate thickness extending in the vertical direction. The lower surface of the outer peripheral portion of the dial cap 48 is adhered to the upper surfaces of the inner cylinder 42A and the outer cylinder 42B of the dial body 42 with double-sided tape. As a result, the receiving portion 42E of the dial main body 42 is closed by the dial cap 48, and the upward movement of the support plate 44 is restricted by the dial cap 48. As shown in FIG. That is, the support plate 44 is configured to be vertically movable integrally with the dial body 42, and when the dial body 42 is pressed, the support plate 44 moves vertically together with the dial body 42. It's becoming

The central portion of the dial cap 48 (specifically, the portion vertically opposed to the logo area 46A of the logo film 46) is configured as a lens portion 48A, and the logo mark of the logo film 46 is viewed through the lens portion 48A. are configured to be visible.

The dial unit 40 has a dial cover 50 (see FIGS. 1 to 3) that covers the upper part of the dial body 42. The dial cover 50 is formed in a substantially bottomed cylindrical shape that opens downward. ing. A circular exposure hole 50A is formed through the upper wall of the dial cover 50 . A dial cover 50 is attached to the outer cylinder 42B of the dial main body 42 and fixed to the dial main body 42 .

(Regarding the circuit board 60)
As shown in FIGS. 2 to 4, the circuit board 60 is formed in a substantially disc shape with the thickness direction extending in the vertical direction. The circuit board 60 is arranged between the bottom wall of the case 22 and the cover 16 and fixed in a state of being vertically sandwiched between the bottom wall of the case 22 and the cover-side fixing bosses 16A of the cover 16 . That is, the circuit board 60 is arranged adjacent to the lower side of the case 22 while being in close contact with the lower surface of the case 22 . The circuit board 60 is formed with an insertion hole 60A through which the screw SC is inserted.

A plurality (27 in the present embodiment) of indicator light sources 62 as “light sources” are mounted on the outer peripheral portion of the upper surface of the circuit board 60 . That is, the indicator light source 62 is spaced apart from the indicator member 18 on the back side (mask side) of the indicator member 18 . The indicator light source 62 is composed of an LED (light emitting diode) and configured to irradiate emitted light upward. The plurality of indicator light sources 62 are arranged in the lens insertion holes 22F of the case 22, respectively. That is, the plurality of indicator light sources 62 are arranged at positions corresponding to the light guide portions 38 of the first lens 34 and the second lens 36 , and are arranged directly below the corresponding light guide portions 38 . Therefore, the plurality of indicator light sources 62 are arranged along the longitudinal direction of the illumination portion 18A of the indicator member 18 in plan view. Accordingly, when the indicator light source 62 emits light, the emitted light passes through the light guide portion 38 and illuminates the illumination portion 18A of the indicator member 18 .

A control unit 70 is electrically connected to the circuit board 60, and the control unit 70 detects a rotation operation of the dial unit 40, which will be described later, and controls lighting or extinguishing of each indicator light source 62. It is designed to As a result, each indicator light source 62 is turned on or off under the control of the controller 70, so that the illumination portion 18A of the indicator member 18 is illuminated within a predetermined range (length).

A logo light source 64 is mounted on the central portion of the upper surface of the circuit board 60 . The logo light source 64 is composed of an LED (light emitting diode) and configured to irradiate emitted light upward. Further, the logo light source 64 is arranged in the lower end portion of the support tube portion 22G of the case 22 so as to illuminate the logo area 46A of the logo film 46. As shown in FIG. Thereby, the logo mark in the logo area 46A is illuminated.

A pair of tact switches 66 are mounted on the upper surface of the circuit board 60 . The tact switch 66 is arranged in the arrangement hole 22K of the case 22 and arranged adjacent to the lower side of the push support 32. As shown in FIG. When the dial unit 40 is pressed, the push support 32 presses the tact switch 66 and the tact switch 66 detects the pressing operation of the operating device 10 .

(Action and effect)
Next, the operation and effects of this embodiment will be described.

In the operating device 10 configured as described above, the indicator member 18 is provided on the panel member 12, and the indicator member 18 has a curved illumination light extending in the circumferential direction of the panel member 12 in plan view. A portion 18A is formed. A plurality of indicator light sources 62 arranged along the longitudinal direction of the illumination section 18A are provided on the lower side of the illumination section 18A (on the back side of the indicator member 18). A plurality of light guide portions 38 are provided between the illumination portion 18A of the indicator member 18 and the indicator light source 62 . Therefore, the light emitted by the indicator light source 62 is guided toward the indicator member 18 by the light guide portion 38 and illuminates the illumination portion 18A of the indicator member 18 . Accordingly, the illumination portion 18A of the indicator member 18 is illuminated by the light guided by the light guide portion 38. As shown in FIG.

In addition, each indicator light source 62 is turned on or off by the controller 70 according to the rotation operation of the dial unit 40 . As a result, the illumination portion of the illumination section 18A is varied according to the rotation operation of the dial unit 40. FIG. Specifically, as the rotational operation amount of the dial unit 40 increases, the length of the illuminated portion of the illumination section 18A increases.

Here, the plurality of light guide portions 38 are arranged in pairs with the indicator light sources 62, and are arranged adjacent to each other along the longitudinal direction of the illumination portion 18A (that is, the circumferential direction of the case 22). It is Thereby, the lighting section 18A can be illuminated well. Hereinafter, this point will be described with reference to FIG. 8 while comparing with the illumination structure of the comparative example.

FIG. 8A is a schematic diagram of the light guide portion 38 of the present embodiment viewed from the outside in the radial direction of the case 22, and FIG. 8B shows the illumination structure of the comparative example. 1 is a schematic diagram corresponding to FIG.
First, the illumination structure of the comparative example will be described below. In addition, in FIG. 8(B), the same code|symbol is attached|subjected to the member comprised similarly to the operating device 10 of this Embodiment. That is, the illumination structure of the comparative example has a light guide member 100 in which the plurality of light guide portions 38 of the present embodiment are integrated. The light guide member 100 is formed with a slit 100A into which the support wall 22D of the case 22 is inserted. Thus, the light guide member 100 is formed with a plurality of light guide portions 100B corresponding to the plurality of indicator light sources 62 . That is, the side surface 100C of the light guide portion 100B is not formed at the upper end portion of the light guide member 100. As shown in FIG. In the comparative example, the support wall 22D of the case 22 extends upward compared to the present embodiment in order to suppress light leakage from the indicator light source 62 to the other indicator light source 62 side.

In the illumination structure of the comparative example, the light emitted by the indicator light source 62 (see the thin line in FIG. 8B) is transmitted upward through the light guide portion 100B. At this time, part of the light emitted by the indicator light source 62 is transmitted upward through the light guide portion 100B while being reflected by the side surface 100C of the light guide portion 100B. At the upper end portion of the light guide member 100, the side surface 100C of the light guide portion 100B is not formed. Therefore, at the upper end portion of the light guide member 100, part of the light reflected by the light guide portion 100B is diffused outward in the width direction of the light guide portion 100B. That is, the light transmitted through the light guide member 100 illuminates the illumination portion 18A of the indicator member 18 while diffusing in the longitudinal direction of the illumination portion 18A. Therefore, there is a possibility that the light transmitted through the light guide member 100 leaks in the longitudinal direction of the illumination section 18A, and the illumination performance of the illumination section 18A deteriorates. Specifically, the outline of the illuminated portion in the illumination portion 18A is blurred and visually recognized.

In contrast, in the present embodiment, a plurality of light guide portions 38 are provided between the illumination portion 18A of the indicator member 18 and the indicator light source 62, as described above. The plurality of light guide portions 38 are arranged in pairs with the respective indicator light sources 62, and are arranged adjacent to each other along the longitudinal direction of the illumination portion 18A (that is, the circumferential direction of the case 22). ing. Then, as shown in FIG. 8A, similarly to the comparative example, the light emitted by the indicator light source 62 (see the thin line in FIG. 8A) travels upward through the light guide portion 38. To Penetrate. At this time, part of the light emitted by the indicator light source 62 is transmitted upward through the light guide portion 38 while being reflected by the side surface 38C of the light guide portion 38 . Here, in the present embodiment, the side surface 38C of the light guide portion 38 is also formed at the upper end portion of the light guide portion 38. As shown in FIG. Therefore, part of the light emitted by the indicator light source 62 is reflected by the side surface 38</b>C of the light guide portion 38 also at the upper end portion of the light guide portion 38 . As a result, the irradiation range of the light transmitted through the light guide portion 38 becomes narrower in the width direction of the light guide portion 38 than in the comparative example. As a result, leakage of the light transmitted through the light guide portion 38 toward the adjacent light guide portion 38 can be suppressed as compared with the comparative example. Therefore, the illumination portion 18A of the indicator member 18 can be well illuminated. Specifically, compared to the comparative example, the outline of the illuminated portion in the illumination portion 18A can be clearly visually recognized. As described above, it is possible to improve the illumination of the illumination section 18A.

Also, the plurality of light guide portions 38 assembled to the case 22 are divided into two groups, one group forming the first lens 34 and the other group forming the second lens 36 . A plurality of light guide portions 38 constituting the first lens 34 are connected by a first connecting portion 34A, and a plurality of light guiding portions 38 constituting the second lens 36 are connected by a second connecting portion 36A. there is Therefore, it is possible to integrally form the plurality of light guide portions 38 that constitute the first lens 34 (the second lens 36). This can contribute to a reduction in the number of parts and the number of man-hours for assembling the light guides 38 to the case 22, as compared with the case where each of the plurality of light guides 38 is manufactured separately. .

The illumination portion 18A of the indicator member 18 is formed in an arc shape (curved line shape) extending in the circumferential direction of the panel member 12 in plan view. In the first lens 34 (second lens 36), the light guide section 38 is attached to the case 22 while the first connecting section 34A (second connecting section 36A) is bent. Therefore, the first lens 34 (second lens 36) is molded such that the first connecting portion 34A (second connecting portion 36A) of the first lens 34 (second lens 36) extends linearly. be able to. As a result, the dimensional accuracy of the first lens 34 (the second lens 36) can be improved compared to the case where the first connecting portion 34A (the second connecting portion 36A) is formed in an arcuately curved shape in advance. can. In addition, compared to the case where the first connecting portion 34A (second connecting portion 36A) is previously curved into an arc shape, the mold structure for molding the first lens 34 (second lens 36) is reduced. This can contribute to simplification and reduce the cost of the mold.

In addition, when the light guide portion 38 is assembled to the case 22, the side surfaces 38C of the light guide portions 38 that are adjacent to each other are aligned in the circumferential direction of the case 22 (longitudinal direction of the illumination portion 18A of the indicator member 18) in plan view. They are arranged facing each other. Therefore, the light guide portions 38 are assembled to the case 22 so that the side surfaces 38C of the light guide portions 38 adjacent to each other are in close contact with each other. Thereby, the light guide portion 38 can be arranged continuously in the circumferential direction of the case 22 when the first lens 34 and the second lens 36 are assembled to the case 22 .
Further, after the first lens 34 is assembled to the case 22, when the light guide portion 38 of the second lens 36 is inserted between the light guide portions 38 of the first lens 34, the light guide portion of the first lens 34 The portion 38 functions as a guide member for the light guide portion 38 of the second lens 36 . As a result, the ease of assembly of the second lens 36 can be improved.

An indicator light source 62 mounted on the circuit board 60 is arranged in the lens insertion hole 22F of the case 22 . Therefore, the support wall 22</b>D of the case 22 can support the lower end portion of the light guide portion 38 while suppressing light leakage of the light from the indicator light source 62 .

Further, the case 22 is housed inside the panel member 12 and the indicator member 18 is fixed to the panel member 12 . For this reason, a unit state in which the plurality of light guide portions 38 are assembled to the case 22 and a unit state in which the indicator member 18 is fixed to the panel member 12 are assembled together, whereby the back side of the indicator member 18 is formed. A light guide 38 can be arranged. Therefore, the assemblability of the operating device 10 can be improved.

In the present embodiment, the plurality of light guide portions 38 are divided into two groups: the plurality of light guide portions 38 forming the first lens 34 and the plurality of light guide portions 38 forming the second lens 36. However, the number of groups into which the plurality of light guide portions 38 are divided is not limited to this. That is, the plurality of light guide portions 38 may be divided into three or more groups, and the plurality of light guide portions 38 in each group may be connected by a connecting portion.

Further, in the present embodiment, the illumination portion 18A is formed in an arc shape (curved line shape) in plan view, but the shape of the illumination portion 18A is not limited to this. For example, the lighting section 18A may be formed linearly. In this case, a plurality of light guide portions 38 and indicator light sources 62 are arranged so as to line up in a straight line in a plan view corresponding to the illumination portion 18A.

Further, in the present embodiment, the first connecting portion 34A (second connecting portion 36A) of the first lens 34 (second lens 36) is formed linearly, and the first connecting portion 34A (second connecting portion The light guide portion 38 is assembled to the case 22 by bending the portion 36A) into an arc shape. Instead of this, the first connecting portion 34A (second connecting portion 36A) of the first lens 34 (second lens 36) is formed in an arc-shaped curved state in advance, and the light guide portion 38 is attached to the case 22. May be assembled.

12 Panel member 18 Indicator member 18A Lighting portion 22 Case 22D Support wall 34A First connecting portion (connecting portion)
36A Second connecting part (connecting part)
38 light guide portion 38C side surface 62 of light guide portion indicator light source (light source)
S Lighting structure

Claims (5)

an indicator member having a linearly extending illumination portion;
a plurality of light sources spaced apart on the back side of the indicator member, arranged along the longitudinal direction of the illumination unit, and emitting light to the illumination unit;
a case provided between the indicator member and the light source;
a plurality of light guide sections assembled to the case and guiding light emitted from the light source to the lighting section;
with
a plurality of the light guide portions are arranged in pairs with the plurality of the light sources, are arranged adjacent to each other along the longitudinal direction of the illumination portion , and are divided into a plurality of groups;
An illumination structure, wherein a plurality of the light guide portions constituting each group are arranged at predetermined intervals along the longitudinal direction of the illumination portion and are connected by a connecting portion . The lighting unit extends in a curved line,
2. The lighting structure according to claim 1, wherein the light guide section is assembled to the case while the connecting section is bent along the lighting section. 3. The lighting structure according to claim 1, wherein side surfaces of the light guide sections adjacent to each other are arranged to face each other in the longitudinal direction of the lighting section. 4. The case according to any one of claims 1 to 3, wherein the case is formed with a support wall that shields between the plurality of light sources and supports the light guide section. lighting structure. A panel member that accommodates the case is provided,
The lighting structure according to any one of claims 1 to 4, wherein the indicator member is fixed to the panel member.

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