JP7031839B2 - Lighting lamp - Google Patents

Description

The present invention relates to a lighting lamp capable of wireless communication.

In recent years, a lighting system has been proposed in which a plurality of lighting devices are integratedly controlled by a lighting control device (for example, Patent Document 1). It should be noted that such a lighting system is used, for example, when a plurality of lighting devices are installed in a room having a certain size.

The lighting fixture (corresponding to a lighting device) described in Patent Document 1 includes an fixture installation member and a light source module. The light source module includes a mounting member, a light source substrate, a light source cover, an end cover, a lighting device, and a communication unit for lighting, and these are integrated. The lighting communication unit includes a circuit board provided with a wireless communication circuit module, and a case in which the circuit board is housed and fitted to a mounting member or a fixture mounting member.

Japanese Unexamined Patent Publication No. 2017-63010

The light source module described in Patent Document 1 is incorporated as a lighting device. Therefore, it is intended to be applied to a lighting device in which an LED straight tube lamp (an example of a "lighting lamp" in the present specification) is detachably attached to a lighting fixture mounted on an installation surface. , The entire device needs to be replaced.
The present invention has been made in view of such circumstances, and lighting that can be integratedly controlled even in a lighting device in which a lighting lamp is detachably attached to a lighting fixture mounted on an installation surface. It is intended to provide lamps and lighting systems.

In order to solve the above problems, the lighting lamp according to one aspect of the present invention is a lighting lamp attached to a lighting fixture, in which a light source module having a plurality of light emitting elements and the light source module based on lighting information are used. A lighting circuit unit for lighting, a base provided with the light source module and the lighting circuit unit, a communication unit for receiving control information and transmitting lighting information to the lighting circuit unit, and a lighting fixture provided on the base and provided with the lighting equipment. It is equipped with a base unit that can be attached to.
In order to solve the above problems, the lighting system according to one aspect of the present invention includes a plurality of lighting devices including a lighting device and a lighting lamp mounted on the lighting device, and lighting of the plurality of lighting devices. A lighting system including a lighting control device for controlling the above, wherein at least one of the plurality of lighting lamps is the lighting lamp, and the communication unit receives the control information from the lighting control device side. Lighting system.

According to the present invention, since the communication unit is provided, it can be easily applied to a device in which a lighting lamp is detachably attached to a lighting fixture already installed on the installation surface.

It is a schematic diagram which shows the lighting system which concerns on this embodiment. It is a perspective view of the lighting device of this embodiment, in a state where the LED straight tube lamp is removed from a lighting fixture. It is a vertical sectional view of the LED straight tube lamp. It is a cross section of an LED straight tube lamp, (a) is a view of the AA cross section in FIG. 3 viewed from the arrow direction, and (b) is a view of the BB cross section in FIG. 3 viewed from the arrow direction. be. It is a perspective view which looked at the disassembled state of the LED straight tube lamp from the back side. It is a perspective view which looked at the disassembled state of the LED straight tube lamp from the front side. It is sectional drawing in the part where the lighting circuit unit exists in the LED straight tube lamp. It is a block diagram of a lighting circuit unit and a communication unit. It is a perspective view of the supply side base unit, (a) is a view which cut out a part, and (b) is a vertical sectional view. It is a perspective view which looked at the disassembled state of the communication side base unit from the other end back side. It is a perspective view which looked at the disassembled state of the communication side base unit from the other end front side. It is a perspective view which saw the disassembled state of a communication side base unit from the back side at one end. It is an enlarged view of the vertical cross section in the state where the communication side base unit was removed from the base. It is a cross-sectional view of a communication side base unit, (a) is a cross section of a portion where a screw body is present, (b) is a cross section of a portion where a stretched plate portion is present, and (c) is a support portion. It is a cross section at the part to be used. It is a perspective view which looked at the disassembled state of a dongle from the front side. It is a perspective view which looked at the disassembled state of a dongle from the back side. It is a flowchart of a communication control unit.

<Overview>
The lighting lamp according to one aspect is a lighting lamp attached to a lighting fixture, which includes a light source module including a plurality of light emitting elements, a lighting circuit unit for lighting the light source module based on lighting information, the light source module, and the light source module. It includes a base provided with the lighting circuit unit, a communication unit that receives control information and transmits lighting information to the lighting circuit unit, and a base unit provided on the base and attached to the lighting fixture.
In the lighting lamp according to another aspect, the communication unit is provided apart from the lighting circuit unit. As a result, the influence of noise on the lighting circuit unit can be reduced.
In the lighting lamp according to another aspect, the lighting circuit unit is arranged on the back side of the light source module. As a result, the dimension in the longitudinal direction can be reduced.
In the lighting lamp according to another aspect, the base has a long shape, the base unit has two, the two base units are provided at both ends in the longitudinal direction of the base, and the communication unit has the two base units. It is provided on one side of the base unit. As a result, the communication unit can be arranged without blocking the light emitted from the light source module.

<Embodiment>
1. 1. Overall Configuration of Lighting System 8 and Lighting Device 1 This will be described mainly with reference to FIGS. 1 and 2.
As shown in FIG. 1, the lighting system 8 includes a plurality of lighting devices 1 and a lighting control device 7. As shown in FIG. 1, there are 12 lighting devices 1 here, and the lighting, extinguishing, dimming, etc. (hereinafter, also simply referred to as “lighting, etc.”) of the 12 lighting devices 1 are lighting control devices. It is integratedly controlled by 7.
As an example, the six lighting devices 1 of A01 to A04 and B01 to B02 are turned off all at once at 18:00, and the lighting devices 1 of C01 to C03 and D01 to D03 gradually start to darken at 20:00 and 30 minutes later. It goes out, etc.
The lighting device 1 has a communication unit, and a network capable of communicating with another lighting device 1 and a lighting control device 7 is constructed via the communication unit.

The lighting device 1 as an example is a long-shaped lighting device attached to an installation surface such as a ceiling. As shown in FIG. 2, the lighting device 1 includes a long lighting fixture 3 attached to an installation surface and an LED straight tube lamp 5 detachably attached to the lighting fixture 3.
In the lighting device 1, the side that emits light is referred to as the front side, and may be simply referred to as the “front side”. In the lighting device 1, the side where the installation surface exists is the back side, and may be simply referred to as the “back side”. The longitudinal direction of the long illuminating device 1 may be simply referred to as the "longitudinal direction", and the lateral direction of the illuminating device 1 may be simply referred to as the "minor direction".

2. 2. Lighting equipment 3
It will be mainly described with reference to FIGS. 2 to 4.
The luminaire 3 is fixed to the mounted surface by, for example, a hanging bolt or the like (not shown).
The luminaire 3 includes a fixture base 31 and a pair of sockets 33. The lighting fixture 3 here can be equipped with two LED straight tube lamps 5. The instrument base 31 is formed by pressing, for example, a metal plate. The instrument base 31 is a so-called inverted Fuji type having a low isosceles triangle shape in which the base is located on the installation surface side in the cross-sectional shape.
The pair of sockets 33 are inclined plate portions constituting the isosceles right side of the instrument base 31, and are provided on both ends in the longitudinal direction.

3. 3. LED straight tube lamp 5
As shown in FIG. 3, the LED straight tube lamp 5 includes at least a light source module 50 having an LED element 501 as an example of a light emitting element as a light source, a lighting circuit unit 51 for controlling lighting of the light source module 50, and a light source module. The base 52 provided with the 50 and the lighting circuit unit 51, the base units 54 and 55 provided on the base 52 and attached to the socket 33 of the lighting fixture 3, and the control information is received and the lighting information is transmitted to the lighting circuit unit 51. The communication unit 58 is provided.
The base unit 54 here has a function of receiving power from the lighting fixture 3 and supplying electric power to the lighting circuit unit 51, and the base unit 54 is used as a supply-side base unit 54. The base unit 55 is provided with a communication unit 58, and the base unit 55 is a communication side base unit 55.
In addition to the above configuration, the LED straight tube lamp 5 includes a translucent cover 53 that covers the light source module 50. As shown in FIGS. 5 and 6, the LED straight tube lamp 5 includes a reflection sheet 506 that reflects the light from the light source module 50 to the front side.
Here, in the longitudinal direction, the side where the communication side cap unit 55 exists is referred to as "one end", and the side where the supply side cap unit 54 exists is referred to as "the other end".
Hereinafter, each part will be described.

(1) Light source module 50
As shown in FIGS. 3, 4, and 7, the light source module 50 includes a plurality of LED elements 501 and an LED substrate 503. The LED substrate 503 has an elongated rectangular shape in the longitudinal direction.
As an example, the LED elements 501 are arranged in a row along the longitudinal direction. Here, since the LED straight tube lamp 5 has a long shape, two light source modules 50A and 50B are continuously arranged in the longitudinal direction as shown in FIGS. 5 and 6. The two light source modules 50A and 50B are connected by a jumper wire (not shown).

As shown in FIG. 6, the two LED boards 503 are provided with connectors 505A and 505B for connecting to the power supply cable. The connectors 505A and 505B are provided at both ends in the longitudinal direction when the two LED substrates 503 arranged in the longitudinal direction are combined into one.

As shown in FIG. 7, the LED substrate 503 is supported by the substrate retainer 507 at intervals in the longitudinal direction. The board retainer 507 has a pair of mounting portions 508 that are mounted on the base 52 and a connecting portion 509 that connects the pair of mounting portions 508. The mounting portion 508 has a rectangular shape extending in the longitudinal direction, and the extending portion 508a extending outward from the outer surface engages with the groove 525a of the base 52.
The pair of connecting portions 509 connects the pair of mounting portions 508 in the lateral direction in a state of being in contact with the surface of the LED substrate 503 and sandwiching the LED element 501 between them. The connecting portion 509 of the substrate retainer 507 is elastically deformable, and the stretched portion 508a can be inserted into the groove 525a by elastically deforming the connecting portion 509.

(2) Lighting circuit unit 51
The lighting circuit unit 51 generates lighting power from the power received from the commercial power source via the supply side cap unit 54 and supplies the lighting power to the light source module 50.
As shown in FIG. 8, the lighting circuit unit 51 transfers the lighting power of the lighting information instructed by the lighting power generation unit 510 and the lighting control device 7 (see FIG. 1) to the lighting power generation unit 510 to generate the lighting power. It includes a lighting control unit 511 to be generated and a storage unit 512 to store lighting information and the like.
The lighting power is generated based on the lighting information included in the control signal received from the lighting control device 7 and the lighting information stored in the storage unit 512. The received control signal is also referred to as a "received signal", and the received signal including the lighting information of the light source module 50 is referred to as a lighting signal.

As shown in FIGS. 3 and 4, the lighting circuit unit 51 includes a plurality of electronic components 513 for constituting a lighting power generation unit 510, a lighting control unit 511, and a storage unit 512, and a plurality of electronic components 513. It includes a circuit board 514 to be mounted.
The lighting circuit unit 51 here includes a circuit case 515 that houses the electronic component 513 and the circuit board 514. The circuit case 515 insulates the base 52 from the electronic components 513 and the circuit board 514. As shown in FIGS. 3, 4, and 7, the lighting circuit unit 51 is arranged on the back side of the light source module 50 mounted on the base 52. In the figure, a plurality of electronic components 513 are represented as one block.

The lighting power generation unit 510 uses, for example, PWM control to turn on (turn off) the light source module 50, or adjust the duty ratio to turn on the light source module 50 in a dimming manner. The duty ratio is adjusted by the lighting control unit 511.
The lighting control unit 511 is composed of a microcomputer equipped with a CPU, RAM, ROM, and the like. The lighting control unit 511 controls the lighting based on the programs and data stored in the ROM by the CPU, and stores the lighting information received from the lighting control device 7 via the communication unit 58 in the non-volatile storage unit 512. To do. The lighting control unit 511 outputs the operation status for the control instruction from the lighting control device 7 to the communication control unit 584.

As shown in FIG. 7, the circuit case 515 is shaped so as to abut on the inner peripheral surface of the straight wall portion 524 of the base 52 and the arc wall portion 527. The cross-sectional shape of the circuit case 515 is close to a trapezoidal shape. The circuit case 517 includes a flat plate portion 515a that abuts (closely) to the straight wall portion 524, a pair of standing plate portions 515b that are erected on the back side from both ends of the flat plate portion 515a, and a back side end of each standing plate portion 515b. It has a pair of inclined plate portions 515c extending obliquely from the back side, and a flat plate portion 515d connecting the pair of inclined plate portions 515c. The outer surface of the inclined plate portion 515c abuts (closes) to the inner surface of the arc wall portion 527 of the base 52. Since the base 52 is made of a metal material (aluminum), the circuit case 515 is made of an insulating resin material.

The attachment of the circuit board 514 to the circuit case 515 is mainly performed by using an adhesive. For example, as another aspect, as shown in the enlarged view of FIG. 3, the circuit case 515 has a stretch piece 515e extending into the circuit case 515 in the flat plate portion 515a, and the stretch piece 515e has a through hole 514a of the circuit board 514. Is inserted. As a result, the circuit board 514 is locked to the circuit case 515. Further, the locking portion can be fixed with an adhesive.
As shown in FIG. 13, the circuit case 515 has a through hole 515f at the end on the communication side base unit 55 side. The convex portion 561h of the extended portion 561 g of the communication side base unit 55 engages with the through hole 515f. As a result, the circuit case 515 is positioned with respect to the base 52.

Although partially not shown, the lighting circuit unit 51 has a connector for a power receiving cable that connects the circuit board 514 and the supply side base unit 54, and a communication cable 519 that connects the circuit board 514 and the communication unit 58 (see FIG. 8). The circuit board 514 is provided with a connector 519a (see FIGS. 10 and 12) for power supply cable 518 (see FIG. 8) for connecting the circuit board 514 and the light source module 50.
The power supply cable 518 is connected to a first power supply cable connected to one end in the longitudinal direction of the LED substrate 503 located on one end side in the longitudinal direction and to the other end in the longitudinal direction of the LED substrate 503 located on the other end side in the longitudinal direction. There are two cables, one with the second power supply cable.

(3) Base 52
As shown in FIG. 7, the base 52 has a module mounting function for mounting the light source module 50. The base 52 has a heat dissipation function of releasing heat generated in the light source module 50 during lighting. The base 52 has a circuit accommodating function for accommodating (equiping) the lighting circuit unit 51. The base 52 has a base mounting function for mounting the supply side base unit 54 and the communication side base unit 55. The base 52 has a cover mounting function for mounting the translucent cover 53.
The base 52 here is a base for mounting a mounting portion on which the light source module 50 is mounted, an accommodating portion and a positioning portion for accommodating the lighting circuit unit 51, and a supply side cap unit 54 and a communication side cap unit 55. It has a mounting part.

As shown in FIGS. 3 and 4, the base 52 has a cylindrical shape that is long in the longitudinal direction and has a flat surface. As shown in FIG. 4, the base 52 here has a tubular shape having a cross-sectional shape close to a semicircle or a semicircle. The cross-sectional shape of the base 52 is constant (same) in the longitudinal direction. The base 52 is made of, for example, a metal material (aluminum) and is obtained, for example, by extrusion molding. The outer surface of the base 52 is painted white, for example. As a result, the color tone is similar to that of a fluorescent straight tube lamp. Further, the light emitted from the light source module 50 can be reflected, and the light extraction efficiency can be improved.

As shown in FIG. 7, the base 52 has a straight wall portion 524 extending in the lateral direction and an “L” shape or “L” from both ends of the straight wall portion 524 in the lateral direction to the front side in the cross section. A pair of L-shaped wall portions 525 extending in a shape similar to a character, and a pair of straight wall portions 524 extending in an "S" shape or an "S" shape from both ends in the lateral direction to the back side. It has an S-shaped wall portion 526 and an arc wall portion 527 that connects the backside ends of the pair of S-shaped wall portions 526 in an arc shape.
As shown in FIG. 7, a part of the S-shaped wall portion 526 forms an "S" shape by utilizing the end portion of the straight wall portion 524 in the lateral direction.

As shown in FIG. 7, the surface of the straight wall portion 524 constitutes a mounting portion on which the light source module 50 is mounted. Here, the reflective sheet 506 is arranged between the light source module 50 and the straight wall portion 524. The reflective sheet 506 is an insulating resin sheet. The light source module 50 and the reflective sheet 506 are fixed to the straight wall portion 524 with, for example, an adhesive or double-sided tape.

As shown in FIG. 7, a groove 525a extending in the longitudinal direction is formed between the tip portion 525b of the L-shaped wall portion 525 and the end portion of the straight wall portion 524 in the lateral direction. The stretched portion 508a of the substrate retainer 507 is inserted into the groove 525a. As a result, the stretched portion 508a engages with the groove 525a, and the substrate retainer 507 is attached to the base 52.
As shown in FIG. 7, the substrate retainer 507 has a step 508b on the back surface of the mounting portion 508. The step 508b regulates (positions) the displacement of the reflective sheet 506 in the lateral direction.

As shown in FIG. 4, the S-shaped wall portion 526 forms two outer grooves 526a and an inner groove 526b that are separated from each other in the front-back direction by using the "S" shape. The outer groove 526a is located on the front side of the S-shaped wall portion 526, and opens on the outer side in the lateral direction. The inner groove 526b is located on the back side of the S-shaped wall portion 526, and the inner side in the lateral direction opens.
The S-shaped wall portion 526 has a ridged portion 526c that projects outward from the outer side end portion in the portion constituting the outer groove 526a. As shown in FIGS. 4 and 7, a stepped ridge portion 532 formed at the opening side end portion of the translucent cover 53 is inserted into the outer groove 526a. In the inserted state, the stepped ridge portion 532 engages with the ridge portion 526c of the groove 526a of the base 52. As a result, the translucent cover 53 is attached to the base 52.
As shown in FIGS. 5 and 6, the inner groove 526b is screwed with screw bodies 71 and 73 for mounting the supply side cap unit 54 and the communication side cap unit 55 to the base 52, which will be described later. In this way, the groove 526b constitutes the base mounting portion.

As shown in FIG. 7, the base 52 has a cylindrical shape, and the lighting circuit unit 51 is housed in the space inside the base 52. That is, the internal space of the base 52 becomes the accommodating portion of the lighting circuit unit 51. Since the base 52 is made of a metal material, the noise generated in the lighting circuit unit 51 is shielded by the base 52.
The inner surface of the pair of S-shaped wall portions 526 of the base 52 abuts (closely) to the outer surface of the pair of standing plate portions 515b of the circuit case 515, and the inner surface of the arc wall portion 527 of the base 52 is inclined to the circuit case 515. It comes into contact with (close to) the plate portion 515c. As a result, the circuit case 515 is supported and positioned by the base 52. That is, the positioning portion of the lighting circuit unit 51 is configured by the S-shaped wall portion 526 and the arc wall portion 527 of the base 52. The positioning here is performed in a direction orthogonal to the longitudinal direction.

(4) Translucent cover 53
As shown in FIG. 7, the translucent cover 53 has a semicircular shape or a semicircular shape similar to a semicircle in its cross section. The translucent cover 53 has a protective function of covering and protecting the light source module 50. The translucent cover 53 is made of a translucent material such as polycarbonate that transmits light emitted from the light source module 50.

As shown in FIG. 7, the translucent cover 53 includes a semi-cylindrical main body portion 531, a stepped convex strip portion 532 provided at the opening side end portion of the main body portion 531 and a stepped convex portion in the main body portion 531. It has a convex strip portion 533 provided on the front side of the strip portion 532. The stepped ridge portion 532 and the ridge portion 533 project inward in the lateral direction and continuously extend in the longitudinal direction.

As shown in FIG. 7, the step 532a of the stepped convex portion 532 becomes higher on the back side from the outer surface to the inner surface. The step 532a fits into the convex portion 526c of the base 52. The step 532a of the stepped ridge portion 532 constitutes a detachment prevention portion for preventing the translucent cover 53 from coming off from the base 52.

The distance between the stepped ridge portion 532 and the ridge portion 533 corresponds to the length of the L-shaped wall portion 525 of the base 52 in the front-back direction. The L-shaped wall portion 525 of the base 52 is inserted between the stepped ridge portion 532 and the ridge portion 533 of the translucent cover 53. The insertion is performed by inserting the translucent cover 53 from the longitudinal end portion of the base 52.

The base 52 and the translucent cover 53 form a housing for accommodating the light source module 50 and the lighting circuit unit 51. The outer peripheral shape of the cross-sectional shape of the housing is the same as or similar to that of a conventional straight tube fluorescent lamp, and is circular or similar to a circle. In order to enhance the heat dissipation function of the base 52, the surface area of the translucent cover 53 is 20 (%) to 30 (%) of the surface of the entire housing in the cross section. If it is not necessary to enhance the heat dissipation function, the ratio of the surface area of the translucent cover may be higher than the above ratio. As a result, an LED straight tube lamp that emits light in a wide range can be obtained.

(5) Supply side base unit 54
As shown in FIGS. 3 and 9, the supply-side cap unit 54 has a pair of cap pins 541 in the supply-side cap main body 542. The base pin 541 is connected to a power receiving cable (not shown).
As shown in FIG. 9, the supply side base main body 542 is formed along the inner peripheral surface of the housing (translucent cover 53 and base 52) from the bottomed cylinder portion 543 and the opening side end of the bottomed cylinder portion 543. It has a stretched portion 544 that extends to the bottom and an outer flange portion 545 provided on the outer peripheral surface of the opening side end portion of the bottomed tubular portion 543.

As shown in FIG. 9B, the pair of base pins 541 insert through the through hole 543b of the bottom portion 543a of the bottomed cylinder portion 543. As shown in FIG. 9A, the supply-side cap body 542 has a guide portion 546 for passing the power receiving cable through the cap pin 541. The guide portion 546 has a guide plate portion 543d provided on the inner surface of the cylinder portion 543c of the bottomed cylinder portion 543, and a guide cylinder portion 543e provided so as to straddle the cylinder portion 543c and the bottom portion 543a. There is.

The supply-side cap main body 542 has a mounting portion formed so as to straddle the opening-side end portion of the bottomed cylinder portion 543 and the outer flange portion 545. The mounting portion is for mounting the supply-side base unit 54 on the base 52. A screw body 71 screwed into the inner groove 526b (see FIG. 7) of the base 52 is used for mounting. As shown in FIG. 9, the mounting portion is composed of a through hole 543f for the screw body 71. The through hole 543f utilizes the outer flange portion 545, and in order to secure a space for the head of the screw body 71 and a space for screwing work of the screw body 71, the cylinder portion 543c of the bottomed cylinder portion 543 is provided. The corresponding portion is a recessed portion of 543 g that is recessed inward.

As shown in FIG. 9A, the stretched portions 544 are provided at two locations here. The two stretched portions 544 exist on the front side and the back side with respect to the virtual line portion connecting the pair of through holes 543f when viewed from the stretching direction.
As shown in FIG. 4A, the stretched portion 544 on the translucent cover 53 side has a circular cross-sectional shape so as to abut (close) to the inner peripheral surface of the main body portion 531 of the translucent cover 53. It has an arc shape. The end of the stretched portion 544 on the translucent cover 53 side in the circumferential direction of the arc abuts (closes) to the convex portion 533 of the translucent cover 53. As a result, the translucent cover 53 is positioned in the circumferential direction with respect to the supply side base unit 54.

As shown in FIG. 4A, the stretched portion 544 on the base 52 side has an arcuate cross-sectional shape so as to abut (close) to the inner peripheral surface of the arc wall portion 527 of the base 52. .. The end of the stretched portion 544 on the base 52 side in the circumferential direction of the arc abuts (closes) to the S-shaped wall portion 526 of the base 52. As a result, the base 52 is positioned in the circumferential direction with respect to the supply side base unit 54.

(6) Communication side base unit 55
As shown in FIG. 3, the communication side base unit 55 has a mounting function for mounting the LED straight tube lamp 5 to the lighting fixture 3. The communication side base unit 55 includes a pair of base pins 551 inserted into the mounting holes of the socket 33 (see FIG. 2) of the lighting fixture 3 in the base case 552. Here, the base pin 551 is attached to the base case 552 in a state of being attached to the board 550. A communication unit 58 is provided in the base case 552. As shown in FIGS. 5 and 6, a board with a pin 551 attached to the board 550 and integrated with the board is referred to as a board with a pin 553.

(6-1) Base case 552
As shown in FIG. 3, the base case 552 includes a case main body 560, a case lid body 570, and a board body 550. A communication module 581 constituting the communication unit 58 is housed in the base case 552, and a through window for making the dongle 582 (see FIGS. 15 and 16) containing the storage device 585 removable from the communication module 581. 576 (see FIG. 5) is formed on the case lid 570 of the base case 552.
The base case 552 houses the communication module 581 and is equipped with a dongle 582. Therefore, as shown in FIG. 4B, the external shape of the case body 560 is similar to that of a rectangular parallelepiped, and the cross-sectional shape of the base case 522 is non-circular.

The external shape of the case body 560 is different from the circular shape which is the external shape of the housing in which the translucent cover 53 and the base 52 are combined. However, since the dimensions of the case body 560 in the lateral direction substantially match the dimensions of the translucent cover 53 and the base 52 in the lateral direction, the LED straight tube lamp 5 is viewed from the direction orthogonal to the LED substrate 503. Occasionally, the base case 552 and the translucent cover 53 look similar in shape, enhancing the design.

(6-1-1) Case body 560
As shown in FIGS. 10 to 12, the case body 560 has a mounting portion 561 for mounting the communication side base unit 55 on the base 52, and a case portion 562 for accommodating the communication module 581. .. As shown in FIG. 12, the case body 560 has a support portion 563 that supports the other end of the peripheral wall 571b of the case lid 570 in the longitudinal direction.

(A) As shown in FIG. 3, the fixing portion mounting portion 561 has a contact plate portion 561a that abuts on the end faces of the base 52 and the translucent cover 53. As shown in FIG. 4B, the contact plate portion 561a has an outer peripheral surface having substantially the same outer peripheral surface shape as that of the base 52 and the translucent cover 53. Thereby, the design of the contact (proximity) portion between the communication side base unit 55 and the base 52 and the contact (proximity) portion between the communication side base unit 55 and the translucent cover 53 can be improved.
As shown in FIG. 12, the contact plate portion 561a has a disk shape having a through hole 561b in the central portion. The leader line of the through hole 561b has an arrow at the tip thereof in order to distinguish it from the circuit-side extension portion 561j.
The case body 560 has a mounting portion for mounting the communication side base unit 55 on the base 52 in the contact plate portion 561a. For mounting, a screw body 73 (see FIGS. 10 to 12) screwed into the inner groove 526b (see FIG. 7) of the base 52 is used, and the mounting portion is composed of a through hole 561c for the screw body 73.

As shown in FIG. 10, the mounting portion 561 includes a base-side stretched portion 561d extending from the contact plate portion 561a into the base 52 and a cover-side stretched portion extending from the abutment plate portion 561a into the translucent cover 53. It has 561e.
As shown in FIG. 4B, the base-side stretched portion 561d has an arcuate cross-sectional shape so as to abut (close) to the inner peripheral surface of the arc wall portion 527 of the base 52. As shown in FIG. 10, the base-side stretched portion 561d is not formed in the portion of the contact plate portion 561a located on the backmost side, and two portions are present along the circumferential direction with the non-formed portion interposed therebetween. ..
As shown in FIG. 4B, the front end of the base-side stretched portion 561d abuts (closes) to the S-shaped wall portion 526 of the base 52. As a result, the base 52 is positioned in the circumferential direction with respect to the case body 560.

As shown in FIG. 4B, the cover-side stretched portion 561e has an arcuate cross-sectional shape so as to abut (closely) to the inner peripheral surface of the main body portion 531 of the translucent cover 53. .. The end portion of the stretched portion 561e on the cover side in the circumferential direction abuts (closes) to the convex portion 533 of the translucent cover 53. As a result, the translucent cover 53 is positioned in the circumferential direction with respect to the case body 560.
As shown in FIG. 4B and FIG. 12, the mounting portion 561 extends to the back side straddling the inner surface of the contact plate portion 561a and the inner surface of the cover-side extending portion 561e, and as shown in FIG. It has a base contact portion 561f that abuts on the end surface of the straight wall portion 524 of the base 52.

As shown in FIGS. 10 and 13, the mounting portion 561 has a stretched portion 561 g extending from between the pair of base-side stretched portions 561d in the contact plate portion 561a into the circuit case 515 of the lighting circuit unit 51. There is. As shown in FIG. 13, a convex portion 561h projecting to the back side is provided on the back surface of the stretched tip portion of the stretched portion 561 g. As shown in FIG. 13, the convex portion 561h engages with the through hole 515f of the circuit case 515. As a result, the lighting circuit unit 51 is positioned (fixed) in the base 52.
The pair of base-side stretched portions 561d and the stretched portions 561 g are connected as shown in FIG.

As shown in FIG. 4B and FIG. 10, the mounting portion 561 has a pair of circuit-side extending portions 561j extending from the contact plate portion 561a into the circuit case 515 of the lighting circuit unit 51. As shown in FIG. 4, the circuit-side stretched portion 561j is stretched along the inner surface of the vertical plate portion 515b of the circuit case 515. As a result, it is possible to regulate the deviation of the circuit case 515 in the lateral direction.

(B) Case portion 562
As shown in FIGS. 10 to 12, the case portion 562 is a part of the base case 552 and constitutes substantially half of the case accommodating the communication module 581. The case portion 562 is provided on the side opposite to the side where the base side stretched portion 561d and the cover side stretched portion 561e are stretched with respect to the contact plate portion 561a of the mounting portion 561. The case portion 562 is continuously provided on the front half of the disk-shaped contact plate portion 561a.
As shown in FIG. 11, the case portion 562 includes a case portion 562a, a case side board mounting portion 562b for mounting the pinned board 553, and a lid mounting portion 562c for mounting the case lid 570. And have.

As shown in FIGS. 11 and 12, the case portion 562a has a shape as if the rectangular parallelepiped box is halved and the corner portions along the longitudinal direction are rounded. As shown in FIG. 11, the case portion 562a includes a rectangular bottom wall 562d long in the longitudinal direction of the luminaire 3, a pair of side walls 562e erected from the end on the long side of the bottom wall 562d, and a bottom wall. It has an end wall 562f that connects one ends of the 562d and the pair of side walls 562e. The connecting portion between the bottom wall 562d and the side wall 562e is rounded, but the rounded portion is the side wall 562e.

As shown in FIG. 12, the side wall 562e has a groove 562 g extending in the longitudinal direction on the back end surface. As shown in FIG. 11, the groove 562g is fitted with a ridge portion 571d on the end surface of the peripheral wall 571b of the case lid 570 (see (c) in FIG. 14).
As shown in FIG. 11, the end wall 562f has a recessed portion 562h that is recessed from the back side to the front side. The recessed portion 562h has a semicircular shape.
As shown in FIG. 12, the case portion 562 connects the facing plate portion 562j facing the end wall 562f at a distance in the longitudinal direction, and the facing plate portion 562j and the end wall 562f in a state orthogonal to each other. It has an orthogonal plate portion 562k and the like. A groove 562m is formed from the end wall 562f, the facing plate portion 562j, and the orthogonal plate portion 562k.
The circular plate-shaped portion 550a of the pinned board 553 is fitted into the recessed portion 562h of the end wall 562f, and the arc-shaped portion 550b (see FIGS. 10 and 12) of the pinned board 553 is fitted into the groove 562m. It fits. That is, the case side board mounting portion 562b is formed by the recessed portion 562h of the end wall 562f and the groove 562m (including the plate portion for forming the groove) (see FIG. 11).

As shown in FIG. 12, the case portion 562 has a stretched portion 562p having screw holes 562n in the front and back directions on the bottom wall 562d. The threaded portion of the screw body 75 through which the through hole 573c (see FIG. 13) of the lid 570 is inserted is screwed into the screw hole 562n. As a result, the case lid 570 is attached to the case body 560 (see FIG. 12). The screw hole 562n provided in the stretched portion 562p constitutes the lid mounting portion 562c (see FIG. 12).

As shown in FIG. 10, the case portion 562 has support portions for supporting the communication module 581 from the front side on the bottom wall 562d and the side wall 562e. The support portion is composed of a long ridge portion 562q that protrudes to the back side and extends in the longitudinal direction, and a short ridge portion 562r that protrudes to the back side and extends outward from the long ridge portion 562q in the lateral direction. ..
As shown in FIG. 10, the case portion 562 has a positioning portion for positioning the communication module 581 on the bottom wall 562d and the side wall 562e. The positioning portion is composed of a long ridge portion 562q and a stretched portion 562s extending from the short ridge portion 562r to the back side along the edge (end face) of the communication board 591 of the communication module 581. A plurality of positioning portions are provided along the peripheral edge of the communication board 591.

The case portion 562 has a positioning portion for positioning the communication module 581 on the bottom wall 562d. As shown in FIG. 12, the positioning portion is composed of a stretched portion 562t extending to the back side. The stretched portion 562t has a circular cross section and inserts a through hole 591a of the communication board 591 of the communication module 581.

(C) Support portion 563
As shown in FIG. 12, the support portion 563 is provided on the surface on one end side of the contact plate portion 561a. The support portion 563 has a protruding portion 563a projecting to one end side in the longitudinal direction in the contact plate portion 561a where the case portion 562a is not formed. The protruding portion 563a has a "U" shape whose front side is connected to the case portion 562a when viewed from one end side in the longitudinal direction. Of the protruding portions 563a, the arcuate portion abuts (closes) to the inner surface of the peripheral wall 571b of the case lid 570, as shown in FIG. 14 (a). As a result, the other end of the case lid 570 in the longitudinal direction is supported by the case body 560.

(6-1-2) Case lid 570
The case lid 570 includes the case body 560 and the board 550 to form the base case 552.
The case lid 570 has a lid 571 as shown in FIG. The lid portion 571 has an end wall 571a and a peripheral wall 571b. The case lid 570 has a lid side board mounting portion 572 for mounting the pinned board 553 on the lid portion 571. The case lid 570 has a lid-side mounting portion 573 for mounting the lid portion 571 to the case body 560.

As shown in FIG. 12, the end wall 571a has a recessed portion 571c that is recessed from the front side to the back side. The recessed portion 571c has a semicircular shape.
As shown in FIG. 11, the lid portion 571 has a ridge portion 571d that projects outward and extends in the longitudinal direction on the front end surface of the peripheral wall 571b. As shown in FIG. 14C, the ridge portion 571d is inserted (fitted) into the groove 562g of the side wall 562e of the case body 560.

As shown in FIG. 10, the lid portion 571 is the other end portion of the peripheral wall 571b on the opposite side to the end wall 571a, and is inward from the end edge in the longitudinal direction toward the inside (central axis side). Stretched plate portions 571e extending in a plate shape are provided at both ends on the opening side.
When the case lid 570 is attached to the case body 560, as shown in FIG. 14A, the inner surface of the other end of the peripheral wall 571b in the longitudinal direction is close to the outer peripheral surface of the protruding portion 563a of the case body 560. (Abutment).
When the case lid 570 is attached to the case body 560, as shown in FIG. 13, the other end surface of the stretched plate portion 571e is close to the one end side surface of the protruding portion 563a.

As shown in FIG. 10, the outer side of the peripheral wall 571b in the longitudinal direction from the stretched plate portion 571e is a chipped portion 571f as shown in FIG. When the case lid 570 is attached to the case body 560, the head of the screw body 73 is located in the space formed by the chipped portion 571f as shown in FIG. 14 (a).

As shown in FIGS. 10 and 13, the lid portion 571 has a stretched plate portion 571g which is the other end side of the peripheral wall 571b and extends in a plate shape from the back side end (the top of the arc) to the front side. A convex portion 571h, which is a surface on the other end side of the stretched plate portion 571g and projects to the other end side, is provided on the front end portion. When the case lid 570 is attached to the case body 560, as shown in FIG. 13, the convex portion 571h engages with the inner surface of the projecting portion 563a of the case body 560 from the front side.

As shown in FIG. 11, the lid portion 571 connects the facing plate portion 572a facing the end wall 571a at a distance in the longitudinal direction, and the facing plate portion 572a and the end wall 571a in a state orthogonal to each other. It has an orthogonal plate portion 572b and the like. A groove 572c is formed from the end wall 571a, the facing plate portion 572a, and the orthogonal plate portion 572b.
The plate-shaped portion 550a of the pinned board 553 is fitted into the recessed portion 571c of the end wall 571a, and the arc-shaped portion 550b of the pinned board 553 is fitted into the groove 572c. That is, the recessed portion 571c of the end wall 571a and the groove 572c (including the plate portion for forming the groove) form the lid side board mounting portion 572.

As shown in FIG. 13, the lid portion 571 has a bottomed tubular portion 573a extending to the front side on the peripheral wall 571b. A through hole 573c is provided in the bottom portion 573b of the bottomed cylindrical portion 573a. The threaded portion of the screw body 75 (see FIG. 10) is screwed into the screw hole 562n of the case body 560 through the through hole 573c of the lid body 570. As a result, the case lid 570 is attached to the case body 560. The head of the screw body 75 is arranged in the bottomed tubular portion 573a. Further, the bottomed tubular portion 573a and the through hole 573c provided in the bottomed tubular portion 573a constitute the lid-side mounting portion 573.

As shown in FIG. 11, the case lid 570 has a support portion 574 that supports the communication module 581 of the case body 560. The support portion 574 extends from the inner surface of the peripheral wall 571b to the front side. As shown in FIG. 14 (c), the stretched tip portion of the support portion 574 comes into contact with (closely) to the back surface of the communication board 591 of the communication module 581. As a result, the position of the communication module 581 is fixed.

(6-1-3) Regarding the communication unit As shown in FIG. 11, the communication side base unit 55 houses the communication module 581 inside the base case 552, and is a dongle that is detachably connected to the communication module 581. The base case 552 has a through window 576 for 582 and a dongle support portion 577 for supporting the dongle 582.
The communication module 581 is arranged in the base case 552 and is separated from the lighting circuit unit 51, so that it is not easily affected by the noise of the lighting circuit unit 51. Although the communication side cap unit 55 is separated from the lighting circuit unit 51, it is provided in a state closer to the lighting circuit unit 51 than the power feeding side cap unit 54. Therefore, the expensive communication cable 519 including the signal line and the power line can be shortened.

As shown in FIG. 10, the through window 576 is provided on the peripheral wall 571b of the case lid 570. The shape of the through window 576 seen from the back side is substantially the same as the shape of the dongle 582 seen from the back side. The through window 576 is formed so as to be close to the central axis extending in the longitudinal direction in the base case 552 and not to include the central axis when the long base case 552 is viewed from the back side. As a result, the dongle 582 long in the front-back direction can be accommodated in a portion of the base case 522 having a large size in the front-back direction, and the dongle 582 can be prevented from protruding from the base case 522.

As shown in FIGS. 11 and 13, the dongle support portion 577 includes a tubular portion 577a extending from the through window 576 to the surface, a convex portion 577b (see FIG. 11) formed on the inner surface of the tubular portion 577a, and a tubular portion. It has through grooves 577c formed on both sides of the convex portion 577b in 577a.

The tubular portion 577a is formed along the outer peripheral surface of the dongle 582. As shown in FIG. 11, the tubular portion 577a has a shape similar to a rectangular shape whose cross-sectional shape is long in the longitudinal direction of the base case 522. As shown in FIG. 10, the dongle support portion 577 has a groove portion 577d that bulges outward and extends in the tubular axial direction of the tubular portion 577a. Here, the groove portion 577d is formed at two portions facing each other in the longitudinal direction in the tubular portion 577a. As shown in FIGS. 10 and 11, the ridge portion 597k of the dongle 582 is inserted into the groove portion 577d. That is, the groove portion 577d functions as a guide for the dongle 582 when connecting the dongle 582 to the communication module 581.

As shown in FIG. 11, the convex portion 577b is configured to be elastically deformable in a direction in a perspective direction with respect to the cylinder axis by the through grooves 577c on both sides. As shown in FIG. 12, the convex portion 577b is elastically deformed by the passage of the bent portion 597e of the dongle 582, and is located in the concave portion 597h after the passage. As a result, it is possible to regulate the removal of the dongle 582 from the dongle support portion 577.

(6-2) Pinned board The pinned board 553 includes a pair of base pins 551 and a board 550, as shown in FIGS. 10 to 12.
The board 550 has a plate-shaped portion 550a on which the base pin 551 is mounted, and an arc-shaped portion 550b provided on the plate-shaped portion 550a.
The surface on one end side of the plate-shaped portion 550a is flat. The plate-shaped portion 550a has a disk-shaped shape. As shown in FIG. 10, the board 550 has a boss portion 550c for fixing the base pin 551 on the other end surface of the plate-shaped portion 550a. The board 550 has a flange portion 550d protruding from the peripheral edge of the other end surface of the plate-shaped portion 550a to the other end side in an annular shape.

The arcuate portion 550b is provided so as to be line-symmetric with respect to the virtual line connecting the pair of base pins 551. The arcs of the two arc-shaped portions 550b are larger than the circle of the plate-shaped portion 550a, and are provided so as to project outward in the radial direction from the plate-shaped portion 550a. The arc-shaped portion 550b is connected to the boss portion 550c.
As shown in FIG. 12, in the pinned board 553, the plate-shaped portion 550a is fitted into the recessed portion 562h of the case body 560 and the recessed portion 571c of the case lid 570, and the arc-shaped portion 550b is a groove of the case body 560. It is inserted into the groove 572c of the case lid 570 and 562 m. As a result, the base pin 551 is attached to the base case 552.

(7) Communication unit (7-1) Circuit system As shown in FIG. 8, the communication unit 58 includes a wireless communication unit 583, a communication control unit 584, a storage device 585, and the like. The wireless communication unit 583 communicates (transmits and receives) with the lighting control device 7 (side). The storage device 585 stores identification information and the like of the own device (own LED straight tube lamp 5). The identification information here is individual identification information such as "A01" and "D01" shown in FIG.
The communication control unit 584 transmits the lighting information included in the received signal to the lighting circuit unit 51 when the received signal received by the wireless communication unit 583 is related to the own device, and the received signal is related to another device. The received signal is controlled not to be transmitted to the lighting circuit unit 51, or is controlled to be transmitted to another device. Whether or not the received signal is related to the own device is checked by collation with the identification information stored in the storage device 585.
When the operation status for the control instruction from the lighting control device 7 is input from the lighting control unit 511, the communication control unit 584 controls to transmit the operation status to the lighting control device 7.

The communication unit 58 includes a communication module 581 and a dongle 582, as shown in FIGS. 5, 8, 10 and 12.
The communication module 581 is connected to the plurality of electronic components 587 constituting the wireless communication unit 583 and the communication control unit 584, the slot 588 for mounting the storage device 585, and the lighting circuit unit 51 via the communication cable 519. The connector 589 for this purpose is mounted on the communication board 591. The plurality of electronic components 587 are shown as one block in FIGS. 10 to 12. A dongle 582 is a storage device 585 housed in a case 596. The communication cable 519 includes a signal line for transmitting lighting information, an identification signal, and the like, and a power line for the communication unit 58 to receive power from the lighting circuit unit 51.
As shown in FIG. 10, the communication board 591 is arranged on the front side of the base case 522. As a result, the dongle 582 connected in a state orthogonal to the communication board 591 can be prevented from protruding from the base case 522.

Since the dongle 582 is removable from the LED straight tube lamp 5, even if it becomes necessary to replace the LED straight tube lamp 5, for example, only the LED straight tube lamp 5 is replaced and a new LED straight tube lamp 5 is used. By inserting the dongle 582 used (included) in the previous LED straight tube lamp 5, communication control can be performed in the same manner as before the replacement without writing the individual identification information.
The communication control unit 584 is composed of a microcomputer equipped with a CPU, RAM, ROM, and the like. The communication control unit 584 collates the received signal with the CPU based on the program or data stored in the ROM, rewrites the identification information to the storage device 585, and the lighting information included in the received signal. Is transmitted to the lighting control unit 511 (see FIG. 8). Although the antenna of the wireless communication unit 583 is integrated with the CPU of the communication control unit 584 and the like, it may be provided on the communication board 591 independently of the CPU.

(7-2) Storage device 585
This will be described with reference to FIGS. 15 and 16.
The storage device 585 has a storage element 593 and a connector 594 mounted on a storage board 595. As shown in FIGS. 10 to 12, the outer peripheral shape of the case 596 corresponds to the shape of the through window 576 of the base case 552 and the inner peripheral shape of the tubular portion 577a.
The case 596 includes a fixed base 597 for fixing the storage device 585 and a lid 598 for covering the storage device 585 fixed to the fixed base 597.

(7-2-1) Fixed base 597
The fixed base 597 has a deep box shape with the back side open. The cross-sectional shape of the fixed base 597 is a rectangular ring that is long in the longitudinal direction. As shown in FIG. 15, the fixed base 597 has a bottom portion 597a and a peripheral wall portion 597b.
The bottom portion 597a has a through hole 597c. The connection pin (see FIG. 10) of the slot 588 of the communication module 581 is inserted into the through hole 597c. The inserted connection pin is connected to the connector 594 of the storage device 585 arranged inside.

The pair of long wall portions 597d constituting the peripheral wall portion 597b have a bent portion 597e that bends outward in a "U" shape in the thickness direction. As a result, the storage device 585 can be housed inside without the connector 594 of the storage device 585 coming into contact with the fixing base 597.
The end surface of the bent portion 597e parallel to the short wall portion 597f has a step 597 g whose front side is lowered by one step in the longitudinal direction of the LED straight tube lamp 5. The convex portion 598c of the lid body 598, which will be described later, engages with the step 597 g.

As shown in FIG. 15, one of the bent portions 597e facing the through hole 597c has a recessed portion 597h recessed in the thickness direction. The recessed portion 597h extends from the back side end to the front side end of the bent portion 597e. Therefore, there is a remaining portion 597j that does not dent in the front end portion.
The remaining portion 597j functions as a detachment prevention portion for preventing the dongle 582 from coming off the base case 552 when the dongle 582 is inserted into the through window 576 of the base case 552. That is, when the dongle 582 is inserted, the convex portion 577b (see FIG. 11) of the base case 552 comes into contact with the remaining portion 597j of the dongle 582, and when the dongle 582 is further inserted, the convex portion 577b is elastically deformed and remains. It is located in the recessed portion 597h of the dongle 582, overcoming the portion 597j. As a result, when the dongle 582 tries to come off (disengage) from the base case 522, the remaining portion 597j of the dongle 582 engages with the convex portion 577b.

The pair of short wall portions 597f constituting the peripheral wall portion 597b has a ridge portion 597k extending in the front and back directions of the LED straight tube lamp 5. The ridge portion 597k fits into the groove portion 577d (see FIG. 10) of the cylinder portion 577a of the base case 552. The space between the inner surfaces of the pair of short wall portions 597f corresponds to the dimensions of the storage board 595 of the storage device 585.
(7-2-2) Closure 598

The lid 598 has a rectangular box shape long in the longitudinal direction of the LED straight tube lamp 5, and has a box portion 598a whose front side is open. The box portion 598a covers a portion of the storage device 585 exposed from the fixing base 597.

The fixing base 597 and the lid 598 have a joint for connecting to each other. The coupling here utilizes an engaging structure. The lid body 598 has a stretched piece 598b extending to the front side and a convex portion 598c provided on the stretched piece 598b.
The stretched pieces 598b are the front end of the rectangular box-shaped box portion 598a and are stretched from the corner portions, and there are a plurality of stretched pieces 598b. There are a total of four here. The convex portion 598c is provided in a state of facing each other in a pair of stretched pieces 598b juxtaposed in the longitudinal direction of the box portion 598a.
The convex portion 598c of the lid 598 engages with the step 597g of the peripheral wall portion 597b of the fixing base 597. The engagement relationship may be reversed.

As shown in FIG. 16, the lid body 598 has an overhanging portion 598d projecting outward from the through window 576 of the base case 552 on the back end side of the box portion 598a. The overhanging portion 598d has a "U" shape with the front side open when viewed from the overhanging direction. When the dongle 582 is connected to the communication module 581, the overhanging portion 598d abuts on the peripheral portion 571j (see FIG. 10) of the through window 576 of the case lid 570. As a result, when the dongle 582 is connected to the communication module 581, it is possible to prevent the dongle 582 from being pushed too much into the base case 552.

The corner portion 598f of the long wall portion of the rectangular box-shaped lid 598 on the side away from the central axis of the LED straight tube lamp 5 and the side wall portion adjacent to the long wall portion has an arc shape. As a result, the design of the inserted portion of the dongle 582 into the base case 522 can be enhanced.

4. Lighting control device The lighting control device 7 is an operation device (remote controller) embedded in the wall, and is an operation device (remote controller), a display unit for displaying lighting information and the like, an input unit for operating and inputting lighting information and the like, and operation input. It includes a transmission unit for transmitting the information to the lighting device 1, a storage unit for storing various conditions, data, and the like, and a control unit for controlling a display unit, an input unit, a transmission unit, a storage unit, and the like. The control unit is composed of a microcomputer equipped with a CPU and the like.

5. Communication network As shown in FIG. 1, the lighting system 8 has a plurality of lighting devices 1 and one lighting control device 7. The communication network of the lighting system 8 may be a fixed network in which the connection relationship of each device in the communication network is fixed, or an adaptive network in which the connection relationship of each device is appropriately changed.
In the adaptive network, each lighting device 1 constantly evaluates the communication quality with another lighting device 1 or the lighting control device 7, and automatically connects to the partner having the best communication quality by automatic routing. As a result, even if the environment in the communication network changes or the lighting device 1 fails, the communication quality in the communication network is always maintained optimally.

In the communication network of the lighting system 8, the control signal from the lighting control device 7 is directly or indirectly transmitted to the target lighting device 1. For example, when the physical distance between the two is close and there is no obstacle such as a wall between them, the control signal from the lighting control device 7 is directly transmitted to the target lighting device 1. When the physical distance between the two is long, or when the physical distance is short and there is an obstacle between them, the control signal from the lighting control device 7 relays the one or more lighting devices 1 for the purpose. Is transmitted to the lighting device 1. By utilizing the relay of the control signal, the lighting system 8 can be applied to a large-scale facility or a facility with many obstacles.

The communication protocol of the lighting system 8 may be an existing protocol or a proprietary protocol. Existing protocols include, for example, Bluetooth®, ZigBee®, WiFi®, ANT®, Wi-SUN®, Z-wave®, WilessHART ( Registered trademark) and EnOcean (registered trademark) can be used.

Further, in order to improve the fault tolerance of wireless communication, a communication protocol having frequency hopping may be adopted. Frequency hopping is a method of changing the frequency at which the control signal is transmitted every short predetermined unit time, and because the transmission frequency is changed one after another, even if noise occurs at a specific frequency, it is corrected by the data communicated at another frequency. It is a method that enables it. As an example, it is preferable to use frequency hopping in advance to communicate at a large number of frequencies, acquire the communication quality of each frequency channel, and then select a frequency channel with less noise for communication.

The medium for wireless communication is not limited to radio waves, but may be light such as infrared rays or visible light.
The lighting control device 7 may be provided with a wireless communication unit inside or outside. As an example of preparing for the outside, there is a case of connecting to an external relay device such as a router by wire.

6. Operation of Communication Control Unit An example of operation when the communication control unit 584 in the communication unit 58 receives a control signal will be briefly described with reference to FIG.
When the communication control unit 584 receives the control signal from the wireless communication unit 583, the communication control unit 584 starts the communication control program.
In step S1, it is determined whether the received signal is related to the own device or another device. The determination is made by comparing the self-identification information stored in the storage device 585 with the identification information included in the received signal.

In step S1, when the received signal is related to the own device (“Yes”), it is determined whether or not the received signal is a lighting signal (S2). In this example, the control information transmitted from the lighting control device 7 is a lighting signal relating to lighting information such as lighting time, extinguishing time, and dimming timing, and an identification signal relating to identification information stored in the storage device 585. It is a kind.

When the received signal is a lighting signal related to lighting information (“Yes” in S2), the lighting information is transmitted to the lighting control unit 511 of the lighting circuit unit 51 (S3). In response to this, the lighting control unit 511 stores new lighting information in the storage unit 512, and causes the lighting power generation unit 510 to generate lighting power corresponding to the lighting information.
When the received signal is not a lighting signal in step S2, that is, when the received signal is an identification signal (“No”), the identification information of the storage device 585 is rewritten with new identification information (S4). When step S3 or step S4 is completed, the processing for the control signal received this time is completed (END), and the process waits until the next reception.

Although the embodiment has been described above, the embodiment is not limited to this embodiment, and for example, the following modification may be used. Further, the embodiment, the modified example, and the modified example may be combined.
Further, the present invention includes examples not described in the embodiments and modifications, and design changes within a range not deviating from the gist.

<Modification example>
1. 1. In the lighting device and the lighting system embodiment, the lighting information is changed for each block assuming one floor of the office as shown in FIG. However, the lighting system may be for a plurality of floors, or may be for a plurality of conference rooms and offices on one floor.
The lighting system of the embodiment assumes one floor of an office. For this reason, a lighting device, which is a long base light that is often used in offices, is described. However, the lighting system may be, for example, for a large store or for a general residence. In the case of a general house, the lighting fixture in each room may include a base type, a pendant type, a ceiling type and the like, and as the lighting lamp, for example, an LED bulb, an LED annular lamp and the like can be used. Further, the plurality of lighting devices may all be of the same type or may be of different types.

The lighting fixture 3 of the embodiment is equipped with two LED straight tube lamps 5, but may be, for example, a lighting fixture equipped with one or three or more LED straight tube lamps. The lighting fixture 3 includes a fixture base 31 in which a set of sockets 33 is attached to an isosceles triangular inclined surface, but may be, for example, an fixture base in which a set of sockets is attached to a flat surface. However, it may be an instrument base in which a plurality of sets of sockets are attached to a flat surface.
The lighting fixture 3 of the embodiment is attached to the installation surface, but may be, for example, an embedded fixture or a hanging fixture. The luminaire 3 does not have a cover, but may have a cover.

The LED straight tube lamp 5 of the embodiment has a plurality of LED elements 501 in a row, but may have a plurality of LED elements in a two-row or staggered pattern, for example. Although the LED straight tube lamp 5 is configured to be dimmable, it may be configured to be dimmable by providing LED elements of a plurality of colors. In the embodiment, the LED element 501 is used as the light emitting element, but an organic EL element, a laser element, or the like may be used as the light source.
Although the lighting fixture 3 and the LED straight tube lamp 5 of the embodiment are provided with G type terminals, R type or GX type terminals may be used. By changing the type of terminal provided on the board 550, a base unit having another terminal structure can be obtained without changing the other structure.

The LED straight tube lamp 5 of the embodiment has base units 54 and 55 at both ends, and each base unit 54.55 has base pins 541 and 551. However, in the straight tube type, for example, the lighting lamp is provided with a base pin 541 only at one end (power supply side base unit) and a base pin 551 at the other end (communication side base unit). Instead, it may be a so-called one-sided power supply type that is fixed to the lighting fixture 3 with a lamp holder or the like. The same applies to a base unit having a terminal other than the base pin.

2. 2. Lighting control device The lighting control device 7 of the embodiment is a control device (remote controller) dedicated to the lighting device, but for example, a personal computer, a smartphone, a tablet, or the like can be used as the lighting control device. Further, various settings and operations for the lighting device 1 may be performed by a dedicated application or a general web browser.

3. 3. Communication unit (1) Communication unit The communication unit 58 of the embodiment is provided in the base case 522 of the base unit (communication side base unit) 55, but for example, the circuit case 515 of the lighting circuit unit 51 is left behind. May be good. However, when using the metal base 52, it is necessary to provide a window for communication or the like.
(2) Communication module In the embodiment, the communication unit 58 and the lighting circuit unit 51 are connected by a communication cable 519. The communication method between the two is not particularly limited, and for example, a communication circuit such as a UART (Universal Asynchronous Receiver Transmitter) circuit, a UART circuit, or I2C (registered trademark) may be used.
Further, as the communication, one-way communication, half-duplex communication, full-duplex communication and the like can be appropriately used according to the purpose of communication. The communication may be wired or wireless.

(3) Storage device In the embodiment, the storage device 585 is provided in the form of a dongle 582, but the function of the storage device 585 may be incorporated into a communication module and integrated.
In the embodiment, the main surface of the storage board 595 is detachably attached to the slot 588 of the communication board 591 so that the main surface of the storage board 595 is parallel to the front and back directions, but the main surface of the storage board 595 is parallel to the main surface of the communication board 591. It may be detachably attached to the slot so as to be.
In the embodiment, the storage device 585 is provided in the form of a dongle 582, but for example, the storage device 585 may be detachably attached to the communication module 581 and attached to the base case.

(4) Identification information The identification information of the embodiment is individual identification information for distinguishing the own device from other devices, but for example, the block name, block number, room name, and conference room in which the own device is provided. Group identification information such as a name may be added and stored, or may be stored instead of individual identification information.
Further, when a plurality of lighting devices 1 are arranged over a plurality of floors, the number of floors on which the own device is arranged may be stored as identification information.

1 Lighting device 3 Equipment 5 LED straight tube lamp (lighting lamp)
7 Lighting control device 8 Lighting system

Claims (5)

In lighting lamps attached to luminaires
A light source module with multiple light emitting elements and
A lighting circuit unit that lights the light source module based on the lighting information,
The base on which the light source module and the lighting circuit unit are provided, and
A communication unit that transmits the lighting information to the lighting circuit unit,
It is provided with a base unit provided on the base and attached to the luminaire.
The communication unit has a ridge portion extending in the front-back direction on the surface thereof.
The base unit has a case body that houses the communication unit inside and is provided with a through window on the back side for making it removable.
The case body is a lighting lamp having a groove portion that guides the ridge portion when the communication unit is attached or detached. A pair of the ridges are provided,
The lighting lamp according to claim 1, wherein the groove portions are provided in pairs. The lighting lamp according to claim 1 or 2, wherein the communication unit is provided apart from the lighting circuit unit. The lighting lamp according to any one of claims 1 to 3, wherein the lighting circuit unit is arranged on the back side of the light source module. The base has a long shape and is
There are two base units, and the two base units are provided at both ends in the longitudinal direction of the base.
The lighting lamp according to any one of claims 1 to 4, wherein the communication unit is provided on one of the two base units.

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