JP2023151538A - Wiring fixture - Google Patents

Abstract

To provide a wiring fixture capable of radiating light on the basis of a distance to an object.SOLUTION: A wiring fixture 1 includes a distance measuring part 4, a first light source 2, and a display panel 3. The distance measuring part 4 measures a distance 41 to an object 8. The first light source 2 radiates light on the basis of the distance 41 measured by the distance measuring part 4. The display panel 3 is disposed in front of the first light source 2. The display panel 3 has a transmission part 31 transmitting the light radiated from the first light source 2 forward. An area ratio of the transmission part 31 occupied in the whole wiring fixture 1 is 50% or more when seeing the wiring fixture 1 from the front.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD This disclosure relates to wiring devices. More specifically, the present disclosure relates to a wiring fixture that includes a light source and a display panel.

Patent Document 1 discloses a non-contact small electric switch. This small non-contact electrical switch is a switch used in a wall-mountable electrical box and includes an electrical circuit that allows electricity to flow through the switch.

The non-contact small electric switch includes an object detection means for detecting the presence of an object in front of the switch and generating an output signal, and a central processing unit. The central processing unit includes a means for receiving an output signal from the object detection means and a signal for calculating the power to be output according to the output signal for generating a control signal for controlling the power supplied to the electric circuit. and processing means, and is connected to the object detection means.

A backlight LED or low power bulb is also provided on the switch to backlight the front plate from behind.

Special Publication No. 2003-530671

In the non-contact small electric switch disclosed in Patent Document 1, since the object detection means only detects the presence or absence of an object, light is emitted from an LED or a low-power light bulb based on the distance to the object. It was something that could not be done.

An object of the present disclosure is to provide a wiring device that can emit light based on the distance to a target.

A wiring device according to one embodiment of the present disclosure includes a distance measuring section, a light source, and a display panel. The distance measuring section measures the distance to the target object. The light source emits light based on the distance measured by the distance measuring section. The display panel is arranged in front of the light source. The display panel has a transmitting portion that transmits light emitted from the light source forward. When the wiring device is viewed from the front, the area ratio of the transparent portion to the entire wiring device is 50% or more.

In the wiring device of the present disclosure, light can be irradiated based on the distance to the target object.

FIG. 1 is a cross-sectional view of a wiring device according to a first embodiment of the present disclosure attached to construction material. FIG. 2 is a front view illustrating a first light source of the above wiring device. FIG. 3 is a front view of the display panel of the wiring device same as above. FIG. 4 is a block diagram of the same wiring device as above. 5A to 5C are front views illustrating the display on the display panel of the above wiring device.

(1) Overview The wiring device according to the present disclosure will be explained. The embodiments described below are only some of the various embodiments of the present disclosure, and various changes can be made in the embodiments below depending on the design etc. as long as the purpose of the present disclosure can be achieved. be. In addition, each figure described in the following embodiments is a schematic diagram, and the ratio of the size and thickness of each component in the figure does not necessarily reflect the actual size ratio. .

As shown in FIG. 1, the wiring device 1 includes a distance measuring section 4, a light source (first light source 2), and a display panel 3. The wiring device 1 is mainly attached to construction materials 9. The construction material 9 is, for example, a partition wall that partitions a space inside a building into an indoor space and a back wall space.

The distance measuring section 4 measures a distance 41 to the target object 8. The first light source 2 emits light based on the distance 41 measured by the distance measuring section 4. The display panel 3 is arranged in front of the first light source 2. The display panel 3 has a transmitting section 31 that transmits the light emitted from the first light source 2 forward. The area ratio of the transparent portion 31 to the entire wiring device 1 when the wiring device 1 is viewed from the front is 50% or more.

When the user holds his hand as the object 8 in front of the display panel 3, the distance measuring section 4 measures the distance 41 to the hand. When the distance 41 to the hand satisfies the lighting ON condition, the lighting is turned on. Furthermore, when turning on the illumination, light is emitted from the first light source 2 to the display panel 3 based on the distance 41 to the hand (object 8), thereby making it possible to perform various displays.

(2) First Embodiment A wiring device 1 according to a first embodiment will be described below based on FIGS. 1 to 5. Note that in FIG. 2, dot hatching is added to each of the LEDs 21 to 25 in order to identify the plurality of LEDs 21 to 25. That is, the dot hatching in FIG. 2 does not indicate a cross section.

(2.1) Case As shown in FIG. 1, the wiring fixture 1 has a case 10 that houses the first light source 2 and the distance measuring section 4. The case 10 is attached to the construction material 9. Specifically, the case 10 is inserted into an opening formed in a construction material 9 made of a partition wall, and attached to the construction material 9 by an appropriate method such as screwing or fitting. The construction material 9 is a partition wall and has a front surface 91 facing the indoor space and a back surface 92 facing the back wall space. The indoor space (the front 91 when the center of the construction material 9 is the reference) is the front, and the back wall space (the back 92 when the center of the construction material 9 is the reference) is the rear. shall be.

The case 10 has a bottom wall 11 located behind the back surface 92 of the construction material 9 and disposed in the back wall space, and a side wall 12 extending forward from the peripheral end of the bottom wall 11. It is open towards. The bottom wall 11 is formed into a square shape when viewed from the front (that is, when viewed from the front to the rear). The side wall 12 partially includes a light guide member 61, which will be described later. The front end of the side wall 12 is formed by the light guide member 61 and is located forward of the front surface 91. The case 10 can be inserted into the opening of the construction material 9 from the front.

A bezel 13 is attached to the front side of the front end of the side wall 12. The bezel 13 is a square frame member when viewed from the front. The front end of the side wall 12 is fitted into the rear part of the bezel 13. Thereby, the bezel 13 is attached to the side wall 12. Further, the display panel 3 is attached to the front part of the bezel 13.

A rear case 14 is arranged behind the case 10. The back case 14 is attached to the back surface 92 of the construction material 9, and covers a portion of the case 10 that protrudes rearward from the back surface 92 from the rear. The back case 14 has a bottom wall facing the bottom wall 11 and a side wall facing a portion of the side wall 12 that projects rearward from the back surface 92, and is open toward the front. The back case 14 is attached to the construction material 9 by an appropriate method such as screwing.

(2.2) First Light Source The first light source 2 emits light forward. Note that the vector representing the direction in which the light emitted from the first light source 2 travels only needs to have at least a component pointing forward. The first light source 2 is arranged at the center of the front surface of the bottom wall 11 of the case 10. The first light source 2 is mounted on the wiring board 200. The first light source 2 is arranged on the bottom wall 11 by attaching the wiring board 200 on which the first light source 2 is mounted to the bottom wall 11 with screws or the like. As shown in FIG. 2, in the first embodiment, the first light source 2 includes a plurality of LEDs (Light Emitting Diodes) 21 to 25. The plurality of LEDs 21 to 25 are mounted on the wiring board 200. The LED 21 is arranged at the center of the bottom wall 11 when viewed from the front. The LEDs 22 to 25 are arranged to surround the LED 21 when viewed from the front.

The LED 21 is composed of an LED capable of emitting white light and blue light. The LED 22 is composed of an LED capable of emitting red light. The LED 23 is composed of an LED capable of emitting green light. The LED 24 is composed of an LED capable of emitting purple light. The LED 25 is composed of an LED capable of emitting blue light.

As shown in FIG. 1, a diffusion lens 20 is arranged in front of the first light source 2. The diffusing lens 20 diffuses the light emitted from the first light source 2 toward a narrow range in front. As a result, the light emitted forward from the first light source 2 would be irradiated onto a narrow range of the display panel 3, which will be described later, if there was no diffusion lens 20, but the light is diffused by the diffusion lens 20 and the light is emitted from the display panel 3. Irradiates a wide area.

(2.3) Display Panel The display panel 3 is arranged in front of the first light source 2. The display panel 3 is irradiated with light emitted forward from the first light source 2. The display panel 3 is composed of a first panel 34 to a third panel 36. The first panel 34 to the third panel 36 are overlapped in the thickness direction of the display panel 3 and are laminated (integrated). The first panel 34 to the third panel 36 are located in the order of the first panel 34, the second panel 35, and the third panel 36 from the front. As shown in FIG. 3, each of the first panel 34 to third panel 36 has a square shape when viewed from the front. The shape of the first panel 34 when viewed from the front determines the shape of the display panel 3 when viewed from the front.

As shown in FIG. 1, the second panel 35 and the third panel 36 are fitted into the front portion of the bezel 13. Thereby, the display panel 3 is attached to the bezel 13 and then attached to the case 10 via the bezel 13.

While the display panel 3 is attached to the bezel 13, the first panel 34 is not fitted into the bezel 13. In a front view, the size of the first panel 34 is larger than the size of the second panel 35 and the third panel 36. The peripheral edge of the first panel 34 protrudes outward from the peripheral edges of the second panel 35 and the third panel 36, and the protruding peripheral edge of the first panel 34 is located on the front side of the bezel 13.

The first panel 34 to the third panel 36 are formed of a translucent member. As the translucent member, various resins including acrylic resin, glass, etc. are used, but the material of the member is not particularly limited.

The first panel 34 is formed to have high translucency and a flat surface. The light irradiated onto the first panel 34 is not particularly diffused (scattered). Note that, as will be described later, a gradation printing section 341 having a light-shielding property is formed on a part of the back surface of the first panel 34 (see FIG. 3).

The second panel 35 is formed to have high translucency and to easily diffuse light on its surface. In order to make it easier for light to be diffused on the surface of the second panel 35, methods such as applying so-called grain processing to the surface of the second panel 35 or pasting a diffusion sheet on the surface of the second panel 35 are adopted. , other methods may be used and are not particularly limited.

The third panel 36 is formed to be milky white. The light transmitted through the third panel 36 is diffused, and as a result, the third panel 36 irradiated with the light appears milky white. The third panel 36 contains, for example, a white pigment mixed therein.

As shown in FIG. 3, the display panel 3 includes a transmitting section 31 and a light shielding section 32. The transmitting section 31 transmits the light emitted from the first light source 2 forward. The light blocking section 32 blocks the light emitted from the first light source 2 from transmitting forward.

The light shielding section 32 is formed by a part of the gradation printing section 341. The gradation printing section 341 is formed inward from the peripheral edge of the back surface of the first panel 34 . The gradation printing section 341 is formed into a square frame shape when viewed from the front. A portion of the gradation printing portion 341 that includes the peripheral edge of the first panel 34 and overlaps with the bezel 13 when viewed from the front becomes the light shielding portion 32 . The light shielding part 32 prevents the bezel 13 located on the back side of the display panel 3 from being seen from the front of the display panel 3.

The portion inside the light shielding section 32 when the display panel 3 is viewed from the front becomes the transmitting section 31 . The transmitting portion 31 includes a portion of the gradation printing portion 341 that is not the light blocking portion 32 and transmitting some light, and a portion in which the gradation printing portion 341 is not formed. When viewed from the front, the transparent portion 31 is formed at the center of the display panel 3 , and the light shielding portion 32 is formed at the periphery of the display panel 3 .

The ratio of the area of the transparent portion 31 to the area of the entire wiring device 1 when viewed from the front (hereinafter referred to as area ratio) has a predetermined value. In the first embodiment, the first panel 34 of the display panel 3 is the entire wiring device 1 that can be seen in a front view. Therefore, the area of the entire wiring device 1 in a front view is the area of the entire first panel 34 in a front view. becomes. That is, the area ratio is the ratio of the area of the transmitting portion 31 to the area of the entire first panel 34 when viewed from the front, and is 90% in the first embodiment.

As shown in FIG. 1, the display panel 3 has a diffusion section 33 that diffuses the light emitted from the first light source 2. The diffusion section 33 is composed of the second panel 35 and the third panel 36 described above. The diffusing section 33 diffuses the light emitted from the first light source 2 and transmits the diffused light forward from the transmitting section 31 .

(2.4) Distance measurement section The distance measurement section 4 measures the distance 41 to the target object 8. The distance measuring section 4 is equipped with a so-called infrared distance sensor. The infrared distance sensor has an infrared light emitting part and an infrared light receiving part, and the light receiving part receives the infrared light emitted from the light emitting part and reflected by the target object, and measures the distance to the target object. The distance measuring section 4 is disposed at a portion away from the center of the bottom wall 11 of the case 10 when viewed from the front.

The distance measuring section 4 emits infrared rays to the object 8 via the display panel 3 and receives the infrared rays reflected by the object 8 via the display panel 3, thereby measuring the distance from the distance measuring section 4 to the object 8. Measure distance 41. By subtracting the distance from the distance measuring section 4 to the front surface of the display panel 3 from the distance 41 measured by the distance measuring section 4, the distance 42 from the front surface of the display panel 3 to the object 8 is determined.

(2.5) Control Unit As shown in FIG. 4, the wiring device 1 includes a control unit 5. The control unit 5 includes, for example, a microcomputer, and controls each element by executing a program stored in a ROM (Read Only Memory) or the like. As such a control section 5, various known ones can be used as appropriate, and there is no particular limitation, and a detailed explanation will be omitted.

The control unit 5 receives information on the distance 41 measured by the distance measurement unit 4 and controls the first light source 2 based on the distance 41 measured by the distance measurement unit 4. Specifically, based on the distance 41 measured by the distance measuring unit 4, the control unit 5 selects a light source to emit light from among the plurality of LEDs 21 to LED 25, and control the color and light intensity (amount of light). FIG. 5A shows the display panel 3 when the LED 21 emits white light and the remaining LEDs 22 to 25 do not emit light. Note that the reference numeral 37 in the figure is a portion of the display panel 3 that appears to glow when irradiated with light from the first light source 2 (referred to as a lighting portion). FIG. 5B shows the display panel 3 when the LED 21 emits blue light and the remaining LEDs 22 to 25 do not emit light. Note that the amount of blue light emitted by the LED 21 in the case shown in FIG. 5B is larger than the amount of white light emitted by the LED 21 in the case shown in FIG. 5A, so the lighting section 37 shown in FIG. It is larger than the lighting section 37. FIG. 5C shows the display panel 3 when all the LEDs 21 to 25 emit light.

Further, the control unit 5 controls the second light source 6 and the warning sound generating unit 7.

(2.6) Second Light Source As shown in FIG. 1, the wiring fixture 1 includes a second light source 6 in addition to the first light source 2. The second light source 6 illuminates the construction material 9 to which the wiring fixture 1 is attached. The second light source 6 is mounted on the wiring board 60. The second light source 6 includes one or more LEDs. The second light source 6 is controlled by the control section 5. A wiring board 60 on which the second light source 6 is mounted is attached to the back case 14 with screws or the like, and the second light source 6 is arranged in a portion of the side wall 12 of the back case 14 facing the light guide member 61.

The light guide member 61 directs the light emitted from the second light source 6 to the outside of the wiring fixture 1 . The light guide member 61 is formed on the side wall 12 as a part of the side wall 12. In the light guide member 61, the rear portion of the portion that constitutes the outer surface of the side wall 12 serves as a light entrance portion, and the front portion of the portion that constitutes the outer surface of the side wall 12 serves as a light output portion. The light input part of the light guide member 61 faces the second light source 6 , and the light output part of the light guide member 61 is adjacent to the front surface 91 of the construction material 9 . The light irradiated from the second light source 6 enters the light entrance part of the light guide member 61, repeatedly travels inside and is reflected on the surface, and then exits from the light exit part. The light emitted from the light emitting portion illuminates the front surface 91 of the construction material 9.

(2.7) Warning Sound Generator The wiring device 1 includes a warning sound generator 7 (see FIG. 4). The warning sound generating section 7 is controlled by the control section 5.

For example, the control unit 5 controls the warning sound generating unit 7 so that the warning sound generating unit 7 emits a warning sound when the distance 41 measured by the distance measuring unit 4 is less than or equal to a threshold value for the warning sound.

(2.8) Operation and Effects The operation of the wiring device 1 will be explained. When the user holds his hand as the object 8 in front of the display panel 3, the distance measuring section 4 measures the distance 41 to the hand. When the distance 41 to the hand (object 8) satisfies the lighting ON condition, the room lighting is turned ON. The lighting ON condition is, for example, a distance 41 such that the distance 42 from the front of the display panel 3 to the hand is 5 cm or less. The wiring device 1 serves as a non-contact switch that turns on and off the lighting in the room.

Furthermore, various displays (see FIGS. 5A to 5C) are displayed on the display panel 3 by irradiating light from the first light source 2 to the display panel 3 based on the distance 41 to the hand (object 8). can be set.

In addition, by forming, for example, an icon by printing on the back surface of the display panel 3 (the back surface of the first panel 34), when the display panel 3 is irradiated with light from the first light source 2, the pattern of the icon can be seen through. This increases the variety of displays.

Furthermore, when the distance measuring section 4 determines that the distance 41 from the front of the display panel 3 to the hand (object 8) satisfies the warning condition, the warning sound generating section 7 emits a warning sound. The warning condition is, for example, a distance 41 such that the distance 42 from the front of the display panel 3 to the hand is 3 cm or less. Thereby, it is possible to suppress the hand (target object 8) from coming into contact with the front surface of the display panel 3.

Further, since the area ratio of the transparent portion 31 to the entire wiring device 1 when the wiring device 1 is viewed from the front is 90%, the display on the display panel 3 is easily visible.

Further, since the display panel 3 has the light shielding part 32, the bezel 13 located behind the light shielding part 32 cannot be seen, resulting in a good appearance.

Furthermore, since the display panel 3 has the diffusion section 33, objects behind the display panel 3 cannot be seen directly from the front of the display panel 3, resulting in a better appearance. Further, when the display panel 3 is irradiated with light from the first light source 2, the display formed on the display panel 3 can be expressed in a soft manner.

Further, the second light source 6 can illuminate the front surface 91 of the construction material 9 around the wiring device 1 on which the wiring device 1 is installed.

Moreover, the light guide member 61 can efficiently condense the light emitted from the second light source 6. Furthermore, the light guide member 61 increases the degree of freedom in arranging the second light source 6, making it easier to design.

(3) Modification Examples Modification examples of the above embodiment will be listed below. The modified examples described below can be applied in combination as appropriate.

The construction material 9 to which the wiring device 1 is attached may be, for example, the ceiling of a building, and is not limited to the partition wall of the building. The wiring device 1 is used as a switch for turning on and off lighting in a room. The wiring device 1 is not limited to being used as a light switch.

The case 10 has an arbitrary configuration and does not need to be provided in the wiring device 1. In this case, a frame-shaped member that is attached to the construction material 9 and holds the first light source 2, display panel 3, and distance measuring section 4 may be provided. The shape of the bottom wall 11 of the case 10 when viewed from the front is not particularly limited, and may be a rectangular shape, a polygonal shape, a circular shape, etc. instead of a square shape.

The shape of the bezel 13 when viewed from the front is not particularly limited, and may be a rectangular shape, a polygonal shape, a circular shape, etc. instead of a square shape. The bezel 13 may be attached to the side wall 12 with screws or the like, and the method of attaching the bezel 13 to the side wall 12 is not limited. The bezel 13 has an arbitrary configuration and does not need to be provided on the wiring device 1.

The back case 14 has an arbitrary configuration and does not need to be provided in the wiring device 1.

The first light source 2 does not need to be constituted by an LED, and is not particularly limited. The first light source 2 does not need to be arranged at the center of the front surface of the bottom wall 11 of the case 10, and may be arranged at a part away from the center of the front surface of the bottom wall 11. Further, the first light source 2 may be attached to the side wall 12. There is no need to provide a plurality of first light sources 2, as long as at least one is provided, and the number is not limited.

The diffusing lens 20 has an arbitrary configuration and does not need to be provided in the wiring device 1.

The shape of the display panel 3 when viewed from the front is not particularly limited, and may be a rectangular shape, a polygonal shape, a circular shape, etc. instead of a square shape. The first panel 34 to the third panel 36 do not have to be laminated. Furthermore, the display panel 3 does not need to be composed of three panels, the first panel 34 to the third panel 36, and may be composed of only one panel, two panels, or four or more panels, and the number of panels is Not particularly limited.

The display panel 3 may be attached to the bezel 13 with screws or the like, and the method of attachment to the bezel 13 is not limited.

The third panel 36 can be formed to have a milky white color without being limited to mixing a white pigment into the third panel 36, and may be formed by, for example, forming minute cracks inside the third panel 36.

The above-mentioned area ratio may be 50% or more, preferably 60% or more, more preferably 70% or more, still more preferably 80% or more, still more preferably 90% or more, but is not limited to this.

The infrared distance sensor included in the distance measuring section 4 is not limited to an active type, and may be a passive type. That is, the distance measuring unit 4 may measure the distance 41 to the object 8 by detecting infrared rays emitted from the user's hand as the object 8.

The distance measuring section 4 does not need to be equipped with an infrared distance sensor, and may be, for example, a laser displacement meter, and the method of measuring distance is not particularly limited. The distance measuring unit 4 may be provided not only on the bottom wall 11 of the case 10 but also on the side wall 12, the bezel 13, or the display panel 3.

The second light source 6 may not be provided in the back case 14. The second light source 6 may be housed within the case 10, for example. Further, the second light source 6 has an arbitrary configuration and does not need to be provided in the wiring device 1.

The second light source 6 does not need to be constituted by an LED, and is not particularly limited. Moreover, the first light source 2 has an arbitrary configuration and does not need to be provided in the wiring fixture 1.

The lighting ON condition is not limited to the distance 41 such that the distance 42 from the front of the display panel 3 to the hand (object 8) is 5 cm or less.

The warning condition is not limited to the distance 41 such that the distance 42 from the front of the display panel 3 to the hand (target object 8) is 3 cm or less.

(4) Summary As explained above, the wiring device (1) of the first aspect includes a distance measuring section (4), a first light source (2), and a display panel (3). The distance measuring section (4) measures the distance (41) to the target object (8). The first light source (2) emits light based on the distance (41) measured by the distance measuring section (4). The display panel (3) is arranged in front of the first light source (2). The display panel (3) has a transmission section (31) that transmits the light emitted from the first light source (2) forward. The area ratio of the transparent portion (31) to the entire wiring device (1) when the wiring device (1) is viewed from the front is 50% or more.

In the first aspect, by irradiating light from the first light source (2) to the display panel (3) based on the distance (41) to the target object (8), the display panel (3) has various effects. can be displayed. Further, since the area ratio of the transparent portion (31) to the entire wiring device (1) when the wiring device (1) is viewed from the front is 50% or more, the display on the display panel (3) is easily visible.

The second aspect can be realized in combination with the first aspect. In the second aspect, the display panel (3) includes a transmitting section (31) and a light blocking section (32) that blocks the light emitted from the first light source (2).

In the second aspect, objects located behind the light shielding part (32) cannot be seen, and the appearance is improved.

The third aspect can be realized in combination with the first or second aspect. In a third aspect, the display panel (3) has a diffusion section (33) that diffuses the light emitted from the first light source (2).

In the third aspect, when the display panel (3) is irradiated with light from the first light source (2), the display formed on the display panel (3) can be expressed in a soft manner.

The fourth aspect can be realized in combination with any one of the first to third aspects. In a fourth aspect, the wiring fixture (1) further includes, in addition to the first light source (2), a second light source (6) that illuminates the construction material (9) to which the wiring fixture (1) is attached.

In the fourth aspect, the front surface (91) around the wiring device (1) of the construction material (9) on which the wiring device (1) is provided can be irradiated.

The fifth aspect can be realized in combination with the fourth aspect. In a fifth aspect, the wiring fixture (1) further includes a light guide member (61) that allows the light emitted from the second light source (6) to exit to the outside.

In the fifth aspect, the light emitted from the second light source (6) can be efficiently collected. Furthermore, the degree of freedom in arranging the second light source (6) increases, making design easier.

1 Wiring equipment 2 First light source 3 Display panel 31 Transmissive section 32 Light shielding section 33 Diffusion section 4 Distance measuring section 6 Second light source 61 Light guide member 8 Target object 9 Construction material

Claims (5)

A wiring device,
a distance measuring unit that measures the distance to the target;
a light source that emits light based on the distance measured by the distance measuring unit;
a display panel disposed in front of the light source,
The display panel has a transmitting part that transmits light emitted from the light source forward,
A wiring device, wherein the area ratio of the transparent portion to the entire wiring device is 50% or more when the wiring device is viewed from the front. The display panel is
the transparent part;
The wiring fixture according to claim 1, further comprising a light shielding part that blocks the light emitted from the light source. The wiring device according to claim 1 or 2, wherein the display panel has a diffusion section that diffuses the light emitted from the light source. The wiring device according to any one of claims 1 to 3, wherein the light source is a first light source, and the wiring device further comprises a second light source that illuminates construction material to which the wiring device is attached, separate from the first light source. The wiring device according to claim 4, further comprising a light guide member that allows the light emitted from the second light source to exit outside.

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