JP2016096040A - Attachment for illumination control, reception device for illumination control, luminaire, and transmission/reception device for illumination control - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an attachment for a reception device for illumination control capable of adjusting directivity of a reception angle of a reception part in an ex-post manner, a reception device for illumination control, a luminaire, and a transmission/reception device for illumination control.SOLUTION: An attachment for a reception device for illumination control has an angular change unit that changes an incident angle of a signal from outside to a reception unit 35 by being attached to a reception device 200 for illumination control having the reception unit 35. The attachment has a light diffusion member 100 as the angular change unit, and the attachment is attached to the reception device, and thereby the light diffusion member 100 diffuses the signal from the outside to the reception unit 35, and changes the incident angle of the signal.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lighting control attachment, a lighting control receiving device including the same, a lighting device, and a lighting control transmitting / receiving device.

  Patent Document 1 discloses a method of controlling a plurality of lighting devices using a lighting control transmitting / receiving device. Specifically, a channel setting switch for setting a communication channel with the lighting control transmission device is provided in the lighting device, and the plurality of lighting devices are used by using different communication channels for the plurality of lighting devices. A method for individually controlling the above is disclosed.

  Further, in Patent Document 2, the position of the lighting device to be controlled is specified from among a plurality of lighting devices from the position of the lighting control transmission device and the angle of the lighting control transmission device being operated, etc. The illumination control transmission device transmits position information of the illumination control transmission device and the control target illumination device to a control device that controls the plurality of illumination devices, and the control device transmits the illumination control transmission device. And a method of controlling the lighting device to be controlled based on position information of the lighting device to be controlled.

JP 2013-239463 A JP 2013-120623 A

  However, there is a problem that the directivity of the reception angle of the reception unit cannot be adjusted after the installation of the illumination control receiver.

  Therefore, the present invention has an object to provide an attachment for an illumination control receiver, an illumination control receiver, an illumination device, and an illumination control transceiver that can adjust the directivity of the reception angle of the receiver afterwards. And

  In order to achieve the above object, an attachment for a lighting control receiver of the present invention (hereinafter also referred to as an “attachment”) is attached to a lighting control receiver including a receiving unit from the outside. And an angle changing unit that changes the incident angle of the signal to.

The first lighting control receiving device (hereinafter also referred to as “receiving device”) of the present invention includes a receiving unit, a lighting control unit, and an attachment.
The receiving unit receives an operation signal,
The lighting control unit transmits a lighting control signal to a lighting device to be controlled based on the operation signal received by the receiving unit,
The attachment is an attachment for the receiving device for lighting control according to the present invention, and is detachably attached so as to cover the receiving unit.

The second illumination control receiver of the present invention includes a reception unit, an illumination control unit, and a reception angle adjustment unit,
The receiving unit receives an operation signal,
The lighting control unit transmits a lighting control signal to a lighting device to be controlled based on the operation signal received by the receiving unit,
The reception angle adjustment unit may change an incident angle of a signal from the outside to the reception unit.

  The illumination device of the present invention includes an illumination control receiver and an illumination unit, and the illumination control receiver is the illumination control receiver of the present invention.

The transmission / reception device for illumination control of the present invention includes a reception device for illumination control and a transmission device for illumination control,
The illumination control receiver is the illumination control receiver of the present invention.

  ADVANTAGE OF THE INVENTION According to this invention, the directivity of the receiving angle of the said receiving part can be adjusted afterwards about the receiver for illumination control.

FIG. 1A is a schematic perspective view showing a configuration of a receiving device for illumination control in which an attachment is not attached in the first embodiment, and FIG. 1B is a view from the II direction in FIG. It is a schematic cross-sectional view, (C) is a schematic perspective view showing an example of the configuration of the illumination control receiving device to which the attachment of Embodiment 1 is attached, and (D) is a cross-sectional view taken along line II- in FIG. It is a schematic cross section seen from the II direction. FIG. 2A is a schematic perspective view illustrating an example of the configuration of the attachment according to the second embodiment, and FIG. 2B is a schematic cross-sectional view seen from the III-III direction of FIG. FIG. 3 is a schematic perspective view illustrating an example of the configuration of the attachment according to the third embodiment. FIG. 4A is a schematic perspective view showing the configuration of the attachment before attachment of the fourth embodiment, and FIG. 4B is a schematic perspective view showing the configuration of the attachment after attachment of the fourth embodiment. FIG. 5A is a schematic perspective view showing the configuration of the attachment before attachment of Embodiment 5, and FIG. 5B is a schematic perspective view showing the configuration of the attachment after attachment of Embodiment 5. FIG. 6 is a schematic perspective view illustrating the configuration of the attachment according to the sixth embodiment. FIG. 7A is a schematic perspective view showing the configuration of the attachment of the seventh embodiment, and FIG. 7B is a schematic view of the attachment of the seventh embodiment when the cover part is slid and the signal passing part is exposed. It is a perspective view. FIG. 8A is a schematic perspective view showing the configuration of the attachment according to the eighth embodiment, and FIG. 8B is a schematic perspective view when the aperture of the aperture structure body is enlarged in the attachment according to the eighth embodiment. FIG. 9 is a schematic perspective view illustrating an example of the configuration of the receiving apparatus according to the ninth embodiment. FIG. 10 is a perspective view showing an example of the configuration of the illumination device of the present invention. FIG. 11 is a schematic perspective view showing an example of the configuration of the illumination control transmitting / receiving apparatus of the present invention.

The attachment for the illumination control receiver of the present invention includes a light diffusing member as the angle change unit,
It is preferable that the light diffusing member diffuses a signal from the outside to the receiving unit by changing the incident angle of the signal by attaching the attachment to the receiving device, and the light diffusing member is configured to diffuse the light. A sheet or a lens is more preferable.

The attachment for the receiving device for lighting control of the present invention is a cylindrical body that covers the receiving unit,
The cylindrical body includes a signal passing unit for entering a signal from the outside into the receiving unit,
A reflective member is disposed on the inner surface of the cylindrical body,
By attaching the attachment to the receiving device, it is preferable that the reflecting member reflects a signal from the outside to the receiving unit to change the incident angle of the signal, and the reflecting member is a reflecting sheet. More preferably.

The attachment for the receiving device for lighting control of the present invention is a cylindrical body that covers the receiving unit,
The cylindrical body includes a signal passing unit for entering a signal from the outside to the receiving unit, and a moving unit that moves up and down,
It is preferable that the incident angle of the signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and changing the distance between the bottom surface of the cylindrical body and the receiving unit by the moving unit.

The attachment for the receiving device for lighting control of the present invention is a cylindrical body that covers the receiving unit,
The cylindrical body is a member that includes a signal passing portion for making an external signal incident on the receiving portion, and that can form a through hole by a punch,
It is preferable to change the incident angle of the signal from the outside to the receiving unit by attaching the attachment to the receiving device and forming the through hole in the cylindrical body.

The attachment for the receiving device for lighting control of the present invention is a cylindrical body that covers the receiving unit,
The cylindrical body includes one or more through-holes as a signal passing part for making an external signal incident on the receiving part,
On the outer surface of the cylindrical body, a peelable seal member is arranged in a state covering the through hole,
It is preferable that the incident angle of the signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and peeling the seal member from the cylindrical body.

The attachment for the receiving device for lighting control of the present invention is a cylindrical body that covers the receiving unit,
The cylindrical body includes a signal passing unit for entering a signal from the outside into the receiving unit,
The signal passing part of the cylindrical body is preferably a signal passing part that gives an incident angle different from that of the receiving apparatus when the attachment is not attached.

The attachment for the receiving device for lighting control of the present invention is a cylindrical body that covers the receiving unit,
The cylindrical body includes one or more signal passage portions for allowing an external signal to enter the reception portion, and a slidable cover portion that covers the signal passage portion,
By attaching the attachment to the receiving device and sliding the cover portion of the cylindrical body to expose or unexpose the signal passage portion of the cylindrical body, the incident angle of the signal from the outside to the receiving portion is increased. It is preferable to change.

The attachment for the illumination control receiver of the present invention is a diaphragm structure that covers the receiver,
It is preferable that the incident angle of the signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and changing the size of the hole of the diaphragm structure.

In the illumination control receiver of the present invention, the reception angle adjustment unit includes a moving unit,
Preferably, the moving means changes the incident angle of the signal from the outside to the receiving unit by moving the position of the receiving unit.

In the illumination control receiver of the present invention, the reception angle adjustment unit includes an installation angle adjustment unit,
It is preferable that the installation angle adjustment unit changes an incident angle of a signal from the outside to the reception unit by changing an installation angle of the reception unit.

In the illumination control receiver of the present invention, the reception angle adjustment unit includes a cylindrical body,
The cylindrical body is installed so as to cover the receiving unit,
The cylindrical body is a member that includes a signal passing portion for making an external signal incident on the receiving portion, and that can form a through hole by a punch,
It is preferable to change the incident angle of the signal from the outside to the receiving unit by forming the through hole in the cylindrical body.

In the illumination control receiver of the present invention, the reception angle adjustment unit includes a cylindrical body,
The cylindrical body is installed so as to cover the receiving unit,
The cylindrical body includes one or more through-holes as a signal passing part for making an external signal incident on the receiving part,
On the outer surface of the cylindrical body, a peelable seal member is arranged in a state covering the through hole,
It is preferable to change the incident angle of the signal from the outside to the receiving unit by peeling the sealing member from the cylindrical body.

The illumination control receiver of the present invention further includes a storage unit,
The storage unit stores a light intensity control signal transmitted from the lighting control unit to the lighting device to be controlled based on a light intensity operation signal received by the receiving unit,
The lighting control unit preferably transmits the light intensity control signal stored in the storage unit to the lighting device to be controlled based on the lighting operation signal received by the receiving unit.

The illumination control receiver of the present invention further includes a notification unit,
It is preferable that the notification unit notifies that the reception unit has received the operation signal based on the operation signal received by the reception unit.

  It is preferable that the lighting device of the present invention further includes a lighting control transmission device.

  Hereinafter, the attachment for illumination control, the reception device for illumination control, the illumination device, and the transmission / reception device for illumination control according to the present invention will be described in detail with reference to the drawings. However, the present invention is not limited or limited to the following examples. In the drawings, for convenience of explanation, the structure of each part may be simplified as appropriate, and the dimensional ratio of each part may be schematically shown, unlike the actual case. Each embodiment can be combined with each other unless otherwise specified. The descriptions of the embodiments can be used with each other unless otherwise specified.

  In the present invention, “angle directivity” means, for example, setting the reception angle and reception direction of the reception unit to a predetermined angle and direction. Examples of the predetermined angle and direction include an angle and direction in which reception areas of the plurality of illumination control receiving apparatuses do not overlap when a plurality of the illumination control receiving apparatuses are installed. Further, in the present invention, “up” refers to the direction opposite to the reception surface side of the reception unit, and “down” refers to the direction of the reception surface side of the reception unit. In the present invention, “height” refers to the length in the vertical direction, and “diameter” refers to the length in the vertical direction with respect to the vertical direction.

<Attachment for lighting control receiver>
As described above, the attachment for the illumination control receiver of the present invention is attached to the illumination control receiver including the receiver, and is also referred to as a signal (hereinafter also referred to as “operation signal”) from the outside to the receiver. The angle change part which changes the incident angle of) is included. The attachment of the present invention includes an angle changing unit that changes an incident angle of a signal from the outside to the receiving unit by being attached to a lighting control receiving device including the receiving unit, and other configurations and conditions are as follows. There is no particular restriction. Since the attachment of the present invention can change the incident angle of the signal from the outside to the receiving unit by being attached to the illumination control receiving device including the receiving unit, for example, the attachment having a different rate of change of the incident angle. By exchanging with, the directivity of the receiving angle of the receiving unit can be adjusted afterwards. The above effect is the same in the following embodiments.

  In the present invention, examples of the signal used for transmission / reception include infrared rays, radio waves, and visible light.

(Embodiment 1)
FIG. 1A is a schematic perspective view showing a configuration of a receiving device for illumination control in which no attachment is attached in the present embodiment, and FIG. 1B is a view from the II direction of FIG. It is a schematic cross-sectional view, (C) is a schematic perspective view showing an example of the configuration of a receiving device for illumination control to which the attachment of the present embodiment is attached, and (D) is a cross-sectional view taken along line II- in FIG. It is a schematic cross section seen from the II direction. As shown in FIG. 1, in this embodiment, the light diffusing member 100 that is an attachment is attached to the lower side of the housing 33 in the receiving device 200. The illumination control receiver 200 includes a reception chamber 31, an illumination control unit 32, a housing 33, and a wiring 34. The reception chamber 31 is installed so as to be embedded in one surface of the housing 33. The reception chamber 31 is electrically connected to the illumination control unit 32 via the wiring 34. The receiving unit 35 is installed at the end opposite to the opening of the receiving chamber 31. In the present embodiment, the lighting control receiver 200 has an arbitrary configuration and may or may not be present.

  The light diffusing member 100 is not particularly limited, and examples thereof include a material that diffuses light, and examples thereof include a light diffusing sheet and a lens. The light diffusion sheet is not particularly limited, and examples thereof include those obtained by imparting a light diffusion function to a transparent member. Examples of the transparent member include acrylic, polycarbonate, and glass. The light diffusing function can be imparted by, for example, squeezing, forming a coating film, or applying a diffusing agent. The lens is not particularly limited, and examples thereof include a concave lens, a convex lens, an uneven lens, and a prism. For example, by increasing the degree of diffusion of the light diffusion sheet, the rate of change of the incident angle of a signal from the outside to the reception unit can be increased during installation, and the light reception angle of the reception unit can be increased. it can. In addition, by reducing the transmittance of the light diffusion sheet, for example, the degree of the light diffusion sheet can be increased. For this reason, by changing the transmittance of the light diffusion sheet, for example, the incident angle of the signal from the outside to the receiving unit, that is, the directivity of the light receiving angle of the receiving unit can be adjusted. The transmittance can be measured as in JIS K 7375, for example. When the receiving chamber 31 has a diameter of 3 mm and a height of 20 mm, for example, the light diffusion angle is set to 44 to 90% by setting the transmittance of the light diffusion sheet to 65 to 90%, preferably 65 to 85%. It can be 50 degrees. More specifically, by setting the transmittance of the light diffusion sheet to about 85%, the light receiving angle can be set to about 44 degrees, and by setting the transmittance of the light diffusion sheet to about 65%. The light receiving angle can be about 50 degrees.

  The method of attaching the light diffusing member 100 to the illumination control receiving device includes, for example, fixing using fixing means such as adhesion and screws, as described in the illumination control receiving device of Embodiment 9 to be described later. However, the present invention is not limited to these methods.

  The illumination control receiver 200 will be described later.

  The attachment of this embodiment can change the incident angle of the signal from the outside to the receiving unit only by attaching the light diffusion material 100 to the receiving device 200. For this reason, according to the attachment of this embodiment, an incident angle can be changed simply, for example.

(Embodiment 2)
FIG. 2A is a schematic perspective view showing an example of the configuration of the attachment of the present embodiment, and FIG. 2B is a schematic cross-sectional view seen from the III-III direction of FIG. As shown in FIGS. 2A and 2B, the attachment 110 of the present embodiment is a cylinder 1 that covers the receiving unit, and the cylinder 1 is a signal for making an external signal incident on the receiving unit. A reflection member 3 is disposed on the inner surface of the cylinder 1 including the passage portion 2. As shown in FIG. 2A, in the present embodiment, the signal passing portion 2 is a hole of the cylinder 1. Attachment 110 of this embodiment can be attached so that the receiving part may be covered with a hole (connecting part 10) opposite to signal passing part 2 in cylinder 1, for example.

  Examples of the cylinder 1 include a bottomless cylinder and a bottomed cylinder. The material for forming the tube 1 is not particularly limited, and for example, a material that does not pass signals to the receiving unit (hereinafter also referred to as “non-transparent material”) is preferable. Examples of the non-transmissive material include a material that reflects the signal, a material that absorbs the signal, and a material that blocks the signal. The non-transparent material can be appropriately determined according to, for example, the signal to be used. When the signal is infrared, the non-transparent material includes, for example, chromatic resin, opaque resin such as black resin, Esca (manufactured by Mitsubishi Rayon Co., Ltd.), Super Esca (manufactured by Mitsubishi Rayon Co., Ltd.), black infrared shielding Infrared light shielding resin such as resin, and metals such as aluminum and iron are mentioned, and since black light shielding property is high, black resin and infrared light shielding resin are preferable. When the signal is a radio wave, examples of the non-transmissive material include resins such as urethane and polystyrene, metals such as iron, nickel and light metals, ceramics such as ferrite, and carbon. The shape, size, cross-sectional shape, and the like of the tube 1 are not particularly limited, and can be appropriately determined according to the shape, size, cross-sectional shape, and the like of the receiving unit.

  When the tube 1 is formed of the non-transparent material, the entire tube 1 may be formed of the non-transparent material or a part of the tube 1 may be formed of the non-transparent material. . In the latter case, the entire surface of the cylinder 1 may be formed of the non-permeable material, and the outer surface or the inner surface may be formed of the non-permeable material. In the latter case, the cylinder 1 can be formed by applying the non-permeable material to the base.

  The signal passing unit 2 enters an external signal into the receiving unit. In the present embodiment, the signal passing portion 2 is a hole of the cylinder 1, but the present invention is not limited to this. The signal passage part 2 may be provided as a through hole on the side surface of the cylinder 1, for example. The number of signal passing portions 2 is not particularly limited and may be one or more. When a plurality of signal passing portions 2 are included, the size, shape, etc. of each signal passing portion may be the same or different.

  The reflection member 3 reflects a signal from the outside to the receiving unit and changes the incident angle of the signal. Examples of the reflection member 3 include a reflection layer, a mirror, a plating layer formed by plating such as specular reflection plating, a coating layer formed by high reflection coating, and the like. Examples of the reflective sheet include highly reflective polycarbonate. In the present embodiment, the reflecting member 3 is disposed on the entire inner surface of the cylinder 1, but may be disposed on a part of the inner surface. In the latter case, the position of the reflecting member 3 on the inner surface of the cylinder 1 is not particularly limited. And other areas. For example, the reflecting member 3 can be arranged on the signal passing portion 2 end side of the tube 1 to increase the rate of change of the incident angle of the signal from the outside to the receiving portion, and the light receiving angle of the receiving portion can be increased. Can be bigger. For this reason, by changing the position of the reflecting member 3 on the inner surface of the cylinder 1, for example, the incident angle of the signal from the outside to the receiving unit, that is, the directivity of the light receiving angle of the receiving unit can be adjusted.

  For example, the connecting unit 10 connects the attachment 110 to the receiving device. In this embodiment, the connection part 10 can be suitably determined according to the attachment method of the attachment 110, for example.

  As for the attachment method of the attachment 110 to the receiving device, as described in the receiving device of Embodiment 9 described later, for example, attachment using adhesion and fitting, and attachment using the screw structure of the attachment of Embodiment 3 described later However, the present invention is not limited to these methods.

  The attachment 110 of this embodiment can change the incident angle of the signal from the outside to the receiving unit only by disposing the reflecting member 3 on the inner surface of the cylinder 1. For this reason, according to the attachment 110 of this embodiment, an incident angle can be changed more simply, for example.

(Embodiment 3)
FIG. 3 is a schematic perspective view showing an example of the configuration of the attachment of the present embodiment. As shown in FIG. 3, the attachment 120 of the present embodiment is a cylinder 1 that covers the receiving unit, and the cylinder 1 includes a signal passing unit 2 for allowing an external signal to enter the receiving unit, and a vertical direction. Including moving means for moving; As shown in FIG. 3, in the present embodiment, the moving means is a screw structure 4 of the cylinder 1. The attachment 120 of this embodiment has the same configuration as the attachment of Embodiment 2 except that the screw structure 4 is included instead of the reflection member.

  For example, the screw structure 4 is attached to the receiving device having a corresponding screw structure, and is moved up and down by rotating. Examples of the screw structure 4 include a male screw and a female screw. In the screw structure 4, the pitch is not particularly limited. In this embodiment, although the said moving means is the screw structure 4, this invention is not limited to this. The moving means may be elevating means for moving the cylinder 1 up and down, for example.

  Since the attachment 120 of this embodiment has the screw structure 4, the attachment 120 moves up and down by rotating, for example, and changes the incident angle of the signal from the outside to the receiving unit. For this reason, according to the attachment 120 of this embodiment, an incident angle can be changed more simply.

(Embodiment 4)
FIG. 4A is a schematic perspective view showing the configuration of the attachment before the attachment of the present embodiment, and FIG. 4B is a schematic perspective view showing the configuration of the attachment after the attachment of the present embodiment. As shown in FIG. 4 (A), the attachment 130 of the present embodiment is a cylinder 1 that covers the receiving unit before attachment, and the cylinder 1 is a signal for making an external signal incident on the receiving unit. It is a member (corresponding to the through-hole forming portion 5) that includes the passing portion 2 and can form the through-hole 6 by punching. Further, the attachment 130 of the present embodiment is attached to the receiving device, and the through hole 6 is formed in the tube 1. For this reason, as shown in FIG. 4B, the attachment 130 of the present embodiment includes the signal passing portion 2, the through-hole forming portion 5, and the through-hole 6 after being attached. The attachment 130 of the present embodiment has the same configuration as the attachment of the second embodiment except that it includes at least one of the through-hole forming portion 5 and the through-hole 6 instead of the reflective member.

  In the present embodiment, the cylinder 1 is a member capable of forming the through hole 6 by punching. The member is not particularly limited, and examples thereof include polycarbonate, ABS resin, polyethylene terephthalate (PET) and the like. The part formed from the member in the cylinder 1 is not particularly limited, and can be appropriately determined according to the incident angle to be changed. For example, the cylinder 1 may be entirely formed of the member, or a part thereof may be formed of the member. In the latter case, one part of the cylinder 1 may be formed of the member, or a plurality of parts of the cylinder 1 may be formed of the member. In the cylinder 1, a portion formed from the member corresponds to, for example, the through hole forming portion 5. The material for forming the tube 1 is preferably the above-described non-transparent material, and more preferably a black and non-infrared material.

  The through hole 6 can be formed, for example, by punching the through hole forming portion 5.

  The method for forming the through hole 6 is not particularly limited, and for example, the through hole 6 can be formed by punching using a punching means such as a punch. The number of through-holes 6 should just be one or more, and the upper limit is not specifically limited. The number of through holes 6 can be determined as appropriate according to the number of incident angles to be changed, for example. The size, shape and the like of the through-hole 6 are not particularly limited and can be appropriately determined according to the incident angle to be changed.

  The attachment 130 of this embodiment can form the through-hole 6 according to the incident angle to change by punching the cylinder 1. For this reason, according to the attachment 130 of this embodiment, an incident angle can be changed more simply, for example.

(Embodiment 5)
FIG. 5A is a schematic perspective view showing the configuration of the attachment before attachment of the present embodiment, and FIG. 5B is a schematic perspective view showing the configuration of the attachment after attachment of the present embodiment. As shown in FIG. 5 (A), the attachment 140 of the present embodiment is a cylinder 1 that covers the receiving unit before attachment, and the cylinder 1 is a signal for making an external signal incident on the receiving unit. The passage portion 2 includes one or more through holes 6, and a peelable seal member 7 is disposed on the outer surface of the cylinder 1 so as to cover the through holes 6. Further, the attachment 140 of the present embodiment is attached to the receiving device, and the seal member 7 is peeled off from the tube 1. For this reason, as shown in FIG. 5B, the attachment 140 of the present embodiment includes the through hole 6 as the signal passing portion 2 after the attachment 140 is attached. The attachment 140 of this embodiment has the same configuration as that of the attachment of Embodiment 2 except that the through hole 6 and the seal member 7 are included instead of the reflection member.

  The seal member 7 is arranged in a state of covering the through hole 6 before being attached. The material for forming the seal member 7 is not particularly limited, and examples thereof include the above-described non-permeable material. The number of seal members 7 is, for example, the same as the number of through holes 6. The arrangement | positioning method of the sealing member 7 should just be peelable, For example, methods, such as the above-mentioned adhesion | attachment, are mention | raise | lifted. In the present embodiment, the seal member 7 is disposed on the outer surface of the cylinder 1, but the present invention is not limited to this. The seal member 7 may be disposed on the inner surface of the cylinder 1, for example.

  The through hole 6 as the signal communication unit 2 can be formed, for example, by peeling off the seal member 7 that covers the through hole 6.

  The seal member 7 that is peeled off at the time of attachment is, for example, the seal member 7 that covers the through hole 6 corresponding to the incident angle to be changed. The number of seal members 7 to be peeled is not particularly limited, and can be appropriately determined according to the number of incident angles to be changed, for example.

  The attachment 140 of this embodiment can form the through-hole 6 as the signal passage part 2 according to the incident angle to be changed only by peeling off the seal member 7. For this reason, according to the attachment 140 of this embodiment, an incident angle can be changed more simply, for example.

(Embodiment 6)
FIG. 6 is a schematic perspective view showing the configuration of the attachment of the present embodiment. As shown in FIG. 6, the attachment 150 of the present embodiment is a cylinder 1 that covers the receiving unit, and the cylinder 1 includes a signal passing unit 2 for making an external signal incident on the receiving unit. The signal passing unit 2 of 1 is a signal passing unit 2 that gives an incident angle different from that of the receiving device when the attachment 150 is not attached. In the attachment 150 of the present embodiment, a through hole 6 is formed as the signal passing portion 2. The attachment 150 according to the present embodiment is the same as the attachment according to the second embodiment except that the tube 1 includes a signal passing unit 2 that gives an incident angle different from that of the receiving device when the attachment 150 is not attached, instead of the reflecting member. It has the same configuration.

  In the present embodiment, the cylinder 1 is, for example, a bottomed cylinder. The attachment 150 has a planar bottom, but the present invention is not limited to this. The shape of the bottom may be any shape such as a spherical shape. The size, forming material, and the like of the tube 1 of the present embodiment are the same as those of the tube 1 of Embodiment 2, and the description thereof can be used.

  In the present embodiment, the signal passing portion 2 is formed at the bottom of the cylinder 1, but the present invention is not limited to this. The signal passing portion 2 may be formed on the side surface of the cylinder 1 or the like. In the present embodiment, the signal passing portion 2 is formed as the through hole 6, but the present invention is not limited to this. The signal passing unit 2 may be, for example, a portion formed of a material (hereinafter, also referred to as “transmission material”) through which the signal of the receiving unit passes in the cylinder 1. The transparent material can be appropriately determined according to, for example, the type of the signal, and examples thereof include materials that are not the non-transparent material described above. The number of signal passing portions 2 is not particularly limited, and can be appropriately determined according to the number of incident angles to be changed, for example.

  Since the attachment 150 of the present embodiment includes a signal passing unit that gives an incident angle different from that of the receiving device when the attachment 150 is not attached, the incident angle can be changed by attaching the attachment 150. For this reason, according to the attachment 150 of this embodiment, an incident angle can be changed more simply, for example.

(Embodiment 7)
FIG. 7A is a schematic perspective view showing the configuration of the attachment of the present embodiment, and FIG. 7B shows the case where the cover portion 8 is slid and the signal passing portion 2 is exposed in the attachment of the present embodiment. It is a model perspective view. As shown in FIG. 7A, the attachment 160 of the present embodiment is a cylinder 1 that covers the receiving unit, and the cylinder 1 passes one or more signals through which an external signal is incident on the receiving unit. 2 and a slidable cover portion 8 that covers the signal passing portion 2. Further, the attachment 160 of the present embodiment is attached to the receiving device, and the cover portion of the tube 1 is slid to expose or not expose the signal passing portion 2 of the tube 1. The attachment 160 of the present embodiment has the same configuration as the attachment of the second embodiment except that the cover 160 is included instead of the reflecting member and two signal passing portions 2 are included.

  The cover part 8 should just be slidable and can expose or not expose the signal passing part 2 of the tube 1. The size, shape, and the like of the cover portion 8 can be appropriately determined according to the size, shape, and the like of the signal passing portion 2, for example. In the present embodiment, the cover portion 8 is disposed so as to cover the signal passing portion 2 at the bottom of the cylinder 1, but the present invention is not limited to this. For example, when the signal passing portion 2 is provided on the side surface of the tube 1, the cover portion 8 may be disposed on the side surface of the tube 1. The number of cover portions 8 can be appropriately determined according to the number of signal passing portions 2, for example. When the cover unit 8 is slid, the cover unit 8 may expose or unexpose one signal passing unit 2 or may expose or unexpose a plurality of signal passing units 2. As in the form, when one signal passing portion 2 is exposed or unexposed, another signal passing portion 2 may be unexposed or exposed, respectively. For a plurality of signal passing portions 2 having different sizes, by attaching the cover portion 8 as in the present embodiment, for example, the incident angle can be changed more easily by sliding the cover portion 8.

  The attachment 160 of the present embodiment can change the incident angle by sliding the cover portion 8 so that the signal passing portion 2 of the tube 1 is exposed or not exposed. For this reason, according to the attachment 160 of this embodiment, an incident angle can be changed more simply, for example.

(Embodiment 8)
FIG. 8A is a schematic perspective view showing the configuration of the attachment according to the present embodiment, and FIG. 8B is a schematic perspective view when the aperture of the diaphragm structure is enlarged in the attachment according to the present embodiment. As shown in FIG. 8A, the attachment 170 of the present embodiment is a diaphragm structure 9 that covers the receiving unit. In the present embodiment, the aperture structure 9 is provided in the hole of the cylinder 1.

  Examples of the diaphragm structure 9 include a diaphragm mechanism such as a camera. The maximum diameter and the minimum diameter of the aperture of the aperture structure 9 are not particularly limited, and can be appropriately determined according to the incident angle to be changed. In the present embodiment, the aperture structure 9 is provided in the hole of the cylinder 1, but the present invention is not limited to this. The aperture structure 9 may be provided on the side surface of the cylinder 1, for example.

  The attachment 170 of the present embodiment is the diaphragm structure 9 and can change the incident angle only by changing the size of the hole. For this reason, according to the attachment 170 of this embodiment, an incident angle can be changed more simply, for example.

<Lighting control receiver>
As described above, the first lighting control receiver of the present invention includes a receiving unit, a lighting control unit, and an attachment. The receiving unit receives an operation signal, and the lighting control unit includes the receiving unit. The lighting control signal is transmitted to the lighting device to be controlled based on the operation signal received by the lighting device, and the attachment is an attachment for the lighting control receiving device of the present invention, and is detachable so as to cover the receiving unit. It is attached. In the first illumination control receiver of the present invention, the attachment is an attachment for the illumination control receiver of the present invention, and other configurations and conditions are not particularly limited. According to the first illumination control receiver of the present invention, the directivity of the reception angle of the receiver can be adjusted afterwards. The above effect is also the same in the second illumination control receiver of the present invention. For the first and second illumination control receivers of the present invention, for example, the description of the attachment for the illumination control receiver of the present invention can be cited.

(Embodiment 9)
FIG. 9 is a schematic perspective view showing an example of the configuration of the receiving apparatus of this embodiment. As illustrated in FIG. 9, the receiving device 210 according to the present embodiment includes an attachment 110 and a receiving device 200. Further, the attachment 110 is detachably attached so as to cover the receiving unit of the receiving device 200. In the present embodiment, the attachment 110 is the same as the attachment according to the second embodiment, and the receiving device 200 is the same as the receiving device according to the first embodiment.

  In the receiving apparatus of the present embodiment, the attachment 110 has the attachment of the second embodiment attached thereto, but the present invention is not limited to this. In the receiving device of the present invention, the attachment to be attached may be the attachment of the present invention, and examples thereof include the attachments of Embodiments 3 to 8, and the combination thereof.

  A method of attaching the attachment 110 to the receiving device 200 is not particularly limited as long as it is detachably attached. Examples of the attachment method include attachment using adhesion and fitting, attachment using the screw structure of the attachment according to the third embodiment, and fixation using a fixing means such as a screw.

  In the present embodiment, the attachment 110 is attached so as to protrude from the receiving device 200, but the present invention is not limited to this. In the receiving device of the present invention, the attachment may be attached so as to be embedded in the receiving device, for example. Specifically, the reception room 31 may be removed, and the attachment may be attached to cover the reception unit 35 instead of the reception room 31.

  The receiving room 31 includes a receiving unit 35. The size, shape, and the like of the reception chamber 31 can be appropriately determined according to the size, shape, and the like of the reception unit 35.

  The receiving unit 35 receives the operation signal transmitted from the illumination control transmitting device. In addition, for example, the reception unit 35 electrically transmits the operation signal to the illumination control unit 32. The receiving unit 35 includes, for example, a receiving circuit that can receive the operation signal, a light receiving element, and the like. The receiving circuit can be appropriately determined according to, for example, the type of communication means used for the operation signal. The type of the operation signal received by the receiving unit 35 is not particularly limited. For example, a lighting operation signal, a light-off operation signal, a light intensity operation signal, a light color operation signal, a lighting time (timer) operation signal, a lighting storage operation signal ( For example, an operation signal for storing a light intensity during illumination in a storage unit (to be described later). When the lighting device to be controlled has a plurality of light sources, the lighting operation signal or the like may be, for example, an operation signal for lighting one light source among the plurality of light sources, or 2 An operation signal for lighting two or more light sources may be used. The illumination control transmitter will be described later. Further, the size and shape of the receiving unit 35 are not particularly limited.

  The illumination control unit 32 transmits an illumination control signal to the illumination device to be controlled based on the operation signal received by the reception unit 35. Examples of the illumination control unit 32 include a microprocessor and a microcontroller. For the type of the illumination control signal, for example, the description of the type of the operation signal described above can be used. Examples of the illumination control signal include a pulse width modulation (PWM) signal and an analog signal. The illumination control signal is preferably a PWM signal because, for example, the illumination control receiving device 210 can be retrofitted to the illumination device to be controlled. The lighting device to be controlled is not particularly limited, and examples thereof include a lighting unit and a power source of the lighting device.

  The material for forming the housing 33 is not particularly limited. When the illumination control receiving device 210 is installed on the ceiling surface, the casing 33 can be reduced in weight, for example, polycarbonate (PC), ABS resin, polyphenylene sulfide resin (PPS), etc. The resin is preferred. The material for forming the housing 33 is preferably the non-transmissive material. The casing 33 is formed of the non-transparent material, so that, for example, the operation signal from the lateral direction and the upward direction of the receiving unit 35 can be blocked. The method for forming the housing 33 is not particularly limited.

  The size and shape of the housing 33 are not particularly limited, and can be appropriately determined according to the sizes and shapes of the receiving unit 35, the illumination control unit 32, and the wiring 34, for example.

  The wiring 34 is not particularly limited, and for example, a known wiring can be used.

  The height at which the illumination control receiver 210 of the present embodiment is installed is not particularly limited, and can be determined as appropriate depending on, for example, the intensity of the operation signal of the illumination control transmitter. The installation height of the illumination control receiving device 210 is, for example, 25 m or less, preferably 15 m or less, and more preferably 12 m or less, based on the floor surface of the installation location.

  The illumination control receiver of the present invention further includes a storage unit, and the storage unit transmits the light intensity transmitted from the illumination control unit 32 to the control target illumination device based on the light intensity operation signal received by the receiver 35. It is preferable that the control signal is stored, and the lighting control unit 32 transmits the light intensity control signal stored in the storage unit to the lighting device to be controlled based on the lighting operation signal received by the receiving unit 35. The reception device for lighting control according to the present invention includes the storage unit. For example, when the operator performs a lighting operation using the transmission device for lighting control, the control that receives the light intensity control signal. The light intensity of the target lighting device is turned on at the light intensity before the turn-off operation. For this reason, it is not necessary for the operator to adjust the light intensity of the lighting device to be controlled for each lighting operation, and individual lighting devices can be controlled more easily.

  The storage unit may be formed integrally with the illumination control unit 32 or may be formed separately. In the former case, the illumination control unit 32 is, for example, a microcontroller. In the latter case, examples of the storage unit include storage media such as a hard disk drive (HDD), a random access memory (RAM), and a read only memory (ROM). In the latter case, the storage unit is electrically connected to the illumination control unit 32, for example.

  The illumination control receiver of the present invention further includes a notification unit, and the notification unit preferably notifies the reception unit 35 of receiving the operation signal based on the operation signal received by the reception unit 35. . The reception device for lighting control according to the present invention includes the notification unit, so that, for example, the operation signal is received when the operator transmits the operation signal using the transmission device for lighting control. I can confirm that. For this reason, the operator can move to control of another lighting device without confirming the lighting of the lighting device to be controlled, and can control individual lighting devices more easily.

  The notification method by the notification unit is not particularly limited, and examples thereof include light notification and sound notification. In the former case, examples of the notification unit include an LED (Light Emitting Diode), an OLED (Organic Light Emitting Diode), and a laser diode. In the latter case, examples of the notification unit include a speaker and a buzzer.

  The illumination control receiving device of the present invention further includes a channel switching unit, and the channel switching unit preferably switches the channel of the operation signal that can be received by the receiving unit 35. The illumination control receiver of the present invention includes the channel switching unit, so that, for example, when a plurality of illumination control receivers of the present invention that are different in use are installed close to each other, the different channels are used. The plurality of illumination control receiving devices can be operated, and individual lighting devices can be controlled more easily. The number of the channels is not particularly limited, and is, for example, in the range of 2 to 10 channels, and preferably in the range of 2 to 5 channels.

  Instead of the attachment of the present invention, the second receiving device of the present invention may adjust the directivity of the receiving angle of the receiving unit afterwards by operating the receiving unit, for example. The attachment of the present invention may be used as the casing of the first receiving device, and the directivity of the receiving angle of the receiving unit may be adjusted afterwards. Hereinafter, these forms will be described.

  As described above, the second illumination control receiver of the present invention includes a reception unit, an illumination control unit, and a reception angle adjustment unit, the reception unit receives an operation signal, and the illumination control unit includes: Based on the operation signal received by the receiver, an illumination control signal is transmitted to a lighting device to be controlled, and the reception angle adjustment unit changes an incident angle of the signal from the outside to the receiver. To do. The second receiving device is characterized in that an incident angle of a signal from the outside to the receiving unit is changed by moving a position of the receiving unit by the receiving angle adjusting unit, and other configurations and Conditions are not particularly limited.

  In the second receiving apparatus of the present invention, the reception angle adjusting unit includes a moving unit, and the moving unit moves the position of the receiving unit to change the incident angle of the signal from the outside to the receiving unit. It is preferable to change. The moving unit is not particularly limited, and is, for example, a unit that moves the receiving unit up and down, left and right, or a combination thereof. Examples of the moving means include means for moving around a lighting device described later.

  In the second reception device of the present invention, the reception angle adjustment unit includes an installation angle adjustment unit, and the installation angle adjustment unit changes the installation angle of the reception unit, so that the reception unit can be externally connected to the reception unit. It is preferable to change the incident angle of the signal. The installation angle adjusting unit is not particularly limited as long as the angle of the receiving unit with respect to the installation surface can be changed. Examples of the installation angle adjustment unit include an angle adjustment adapter.

  In the second receiving apparatus of the present invention, the reception angle adjusting unit includes a cylindrical body, the cylindrical body is installed so as to cover the receiving unit, and the cylindrical body receives a signal from the outside. It is a member that includes a signal passing part for entering the receiving part and can form a through hole by punching, and by forming the through hole in the cylindrical body, a signal from the outside to the receiving part It is preferable to change the incident angle. The cylindrical body corresponds to the cylindrical body that is the attachment of the fourth embodiment. That is, for example, the receiving apparatus can be configured by installing the cylindrical body of the fourth embodiment so as to cover the receiving unit.

  In the second receiving apparatus of the present invention, the reception angle adjusting unit includes a cylindrical body, the cylindrical body is installed so as to cover the receiving unit, and the cylindrical body receives a signal from the outside. As a signal passing part for entering the receiving part, including one or more through holes, a peelable seal member is disposed on the outer surface of the cylindrical body so as to cover the through holes, It is preferable to change the incident angle of the signal from the outside to the receiving unit by peeling the sealing member from the cylindrical body. The cylindrical body corresponds to the attachment of the fifth embodiment. That is, for example, the receiving apparatus can be configured by installing the cylindrical body of the fifth embodiment so as to cover the receiving unit.

<Lighting device>
As described above, the illumination device of the present invention includes the illumination control receiver and the illumination unit, and the illumination control receiver is the illumination control receiver of the present invention. The illumination device of the present invention is characterized in that the illumination control receiver is the illumination control receiver of the present invention, and other configurations and conditions are not particularly limited. According to the illumination device of the present invention, the directivity of the reception angle of the receiving unit can be adjusted afterwards. The above-described effects are the same in the following other illumination devices of the present invention. For example, the illumination device of the present invention can use the description of the attachment for the illumination control receiver of the present invention.

  FIG. 10 is a perspective view showing an example of the configuration of the illumination device of the present embodiment. As illustrated in FIG. 10, the illumination device 300 according to the present embodiment includes an illumination control receiving device 220 and an illumination unit 230 as main components. Although not shown, in the present embodiment, the illumination control unit of the illumination control receiving device 220 is connected to be able to transmit the illumination control signal to the power supply of the illumination unit 230. And the illumination control part of the receiver 220 for illumination control controls the illumination part 230 by controlling the said power supply. Except for this point, the illumination control receiver 220 of this embodiment has the same configuration as the illumination control receiver 210 shown in FIG.

  In the present embodiment, the illumination unit 230 is formed integrally with the power source, but the present invention is not limited to this example and may be formed separately. In the latter case, the illumination control unit is connected so as to be able to transmit the illumination control signal to the power source, for example.

  The illumination unit 230 is not particularly limited, and for example, known illumination can be used. Examples of the illumination unit 230 include a fluorescent lamp, an LED, and an OLED.

  The illumination device 300 of the present embodiment may further include an illumination control transmission device to be described later.

<Light transmission / reception device>
As described above, the illumination control transmission / reception device of the present invention includes the illumination control reception device and the illumination control transmission device, and the illumination control reception device is the illumination control reception device of the present invention. Features. The illumination control transmitting / receiving device of the present invention is characterized in that the illumination control receiving device is the illumination control receiving device of the present invention, and other configurations and conditions are not particularly limited. The illumination control transmitting / receiving apparatus according to the present invention can use, for example, the description of the attachment for the illumination control receiving apparatus according to the present invention.

  FIG. 11 is a schematic perspective view showing an example of the configuration of the illumination control transmitting / receiving apparatus of the present embodiment. As shown in FIG. 11, the illumination control transmitting / receiving apparatus 500 of this embodiment includes an illumination control receiving apparatus 210 and an illumination control transmitting apparatus 410 as main components. The lighting control operating device 410 includes a lighting operation button 411 and a lighting operation button 412.

  For example, when the lighting operation button 411 and the extinguishing operation button 412 are operated, the illumination control transmitting device 410 transmits the lighting operation signal and the extinguishing operation signal.

  The illumination control transmission device 410 may further include a light intensity operation button, a light color operation button, a lighting time operation button, a lighting storage operation button, and the like corresponding to the operation signal.

  The present invention has been described above with reference to the embodiments. However, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

  ADVANTAGE OF THE INVENTION According to this invention, the attachment for the receivers for illumination control which can adjust the directivity of the receiving angle of the said receiving part after the fact, the receiver for illumination control, an illuminating device, and the transmitter / receiver for illumination control can be provided.

DESCRIPTION OF SYMBOLS 1 Tube | tube 2 Signal passage part 3 Reflective member 4 Screw structure 5 Through-hole formation part 6 Through-hole 7 Seal member 8 Cover part 9 Diaphragm structure 10 Connection part 31 Reception chamber 32 Illumination control part 33 Case 34 Wiring 35 Reception part 100 Light Diffusion member 110, 120, 130, 140, 150, 160, 170 Attachment 200, 210, 220 Illumination control receiver 230 Illumination unit 300 Illumination device 410 Illumination control transmitter 411 Illumination operation button 412 Illumination operation button 500 Illumination control Transceiver

Claims (22)

An attachment for an illumination control receiving device, comprising an angle changing unit for changing an incident angle of a signal from the outside to the receiving unit by being attached to the illumination control receiving device including the receiving unit. The attachment includes a light diffusing member as the angle changing portion,
The attachment according to claim 1, wherein the light diffusing member diffuses a signal from the outside to the receiving unit and changes an incident angle of the signal by attaching the attachment to the receiving device. The attachment according to claim 2, wherein the light diffusion member is a light diffusion sheet or a lens. The attachment is a cylindrical body that covers the receiving unit,
The cylindrical body includes a signal passing unit for entering a signal from the outside into the receiving unit,
A reflective member is disposed on the inner surface of the cylindrical body,
The attachment according to claim 1, wherein by attaching the attachment to the receiving device, the reflecting member reflects a signal from the outside to the receiving unit to change an incident angle of the signal. The attachment according to claim 4, wherein the reflection member is a reflection sheet. The attachment is a cylindrical body that covers the receiving unit,
The cylindrical body includes a signal passing unit for entering a signal from the outside to the receiving unit, and a moving unit that moves up and down,
2. The incident angle of a signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and changing a distance between the bottom surface of the cylindrical body and the receiving unit by the moving unit. The attachment described. The attachment is a cylindrical body that covers the receiving unit,
The cylindrical body is a member that includes a signal passing portion for making an external signal incident on the receiving portion, and that can form a through hole by a punch,
The attachment according to claim 1, wherein the attachment angle of the signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and forming the through hole in the cylindrical body. The attachment is a cylindrical body that covers the receiving unit,
The cylindrical body includes one or more through-holes as a signal passing part for making an external signal incident on the receiving part,
On the outer surface of the cylindrical body, a peelable seal member is arranged in a state covering the through hole,
The attachment according to claim 1, wherein the attachment angle of the signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and peeling the seal member from the cylindrical body. The attachment is a cylindrical body that covers the receiving unit,
The cylindrical body includes a signal passing unit for entering a signal from the outside into the receiving unit,
2. The attachment according to claim 1, wherein the signal passing portion of the cylindrical body is a signal passing portion that gives an incident angle different from that of the receiving device when the attachment is not attached. 3. The attachment is a cylindrical body that covers the receiving unit,
The cylindrical body includes one or more signal passage portions for allowing an external signal to enter the reception portion, and a slidable cover portion that covers the signal passage portion,
By attaching the attachment to the receiving device and sliding the cover portion of the cylindrical body to expose or unexpose the signal passage portion of the cylindrical body, the incident angle of the signal from the outside to the receiving portion is increased. The attachment according to claim 1, wherein the attachment is changed. The attachment is a diaphragm structure that covers the receiving unit,
The attachment according to claim 1, wherein the attachment angle of the signal from the outside to the receiving unit is changed by attaching the attachment to the receiving device and changing a size of a hole of the diaphragm structure. Including a receiver, a lighting controller, and an attachment,
The receiving unit receives an operation signal,
The lighting control unit transmits a lighting control signal to a lighting device to be controlled based on the operation signal received by the receiving unit,
The said attachment is an attachment for receiving apparatuses for illumination control as described in any one of Claim 1-11, and is attached so that attachment or detachment is possible so that the said receiving part may be covered, The receiving apparatus for illumination controls characterized by the above-mentioned. . Including a receiving unit, an illumination control unit, and a receiving angle adjustment unit,
The receiving unit receives an operation signal,
The lighting control unit transmits a lighting control signal to a lighting device to be controlled based on the operation signal received by the receiving unit,
The reception angle adjusting unit is configured to change an incident angle of a signal from the outside to the reception unit. The reception angle adjustment unit includes a moving unit,
The illumination control receiving apparatus according to claim 13, wherein the moving unit changes an incident angle of a signal from the outside to the receiving unit by moving a position of the receiving unit. The reception angle adjustment unit includes an installation angle adjustment unit,
The illumination control receiving device according to claim 13 or 14, wherein the installation angle adjustment unit changes an incident angle of a signal from the outside to the reception unit by changing an installation angle of the reception unit. The reception angle adjustment unit includes a cylindrical body,
The cylindrical body is installed so as to cover the receiving unit,
The cylindrical body is a member that includes a signal passing portion for making an external signal incident on the receiving portion, and that can form a through hole by a punch,
The illumination control receiving device according to any one of claims 13 to 15, wherein an incident angle of a signal from the outside to the receiving unit is changed by forming the through hole in the cylindrical body. The reception angle adjustment unit includes a cylindrical body,
The cylindrical body is installed so as to cover the receiving unit,
The cylindrical body includes one or more through-holes as a signal passing part for making an external signal incident on the receiving part,
On the outer surface of the cylindrical body, a peelable seal member is arranged in a state covering the through hole,
The illumination control receiving device according to any one of claims 13 to 15, wherein an incident angle of a signal from the outside to the receiving unit is changed by peeling the sealing member from the cylindrical body. Furthermore, the receiving device for lighting control includes a storage unit,
The storage unit stores a light intensity control signal transmitted from the lighting control unit to the lighting device to be controlled based on a light intensity operation signal received by the receiving unit,
The lighting control unit transmits the light intensity control signal stored in the storage unit to the lighting device to be controlled based on a lighting operation signal received by the receiving unit. The receiving device for illumination control according to the item. Furthermore, the receiving device for lighting control includes a notification unit,
The receiving device for lighting control according to any one of claims 12 to 18, wherein the notification unit notifies that the reception unit has received the operation signal based on the operation signal received by the reception unit. Including an illumination control receiver and an illumination unit;
20. The illumination control receiver according to claim 12, wherein the illumination control receiver is the illumination control receiver according to any one of claims 12 to 19. Furthermore, the illuminating device of Claim 20 containing the transmitter for illumination control. Including a lighting control receiver and a lighting control transmitter;
20. The illumination control transmitting / receiving apparatus according to claim 12, wherein the illumination control receiving apparatus is the illumination control receiving apparatus according to any one of claims 12 to 19.

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