JP6901291B2 - Control units, control units, lighting units, and lighting systems - Google Patents

Description

The present invention relates to a control device, a control unit, a lighting unit, and a lighting system capable of controlling a luminaire.

The lighting control system described in Patent Document 1 includes an external device for transmitting a control signal and a lighting fixture. The control signal includes information for controlling the illumination light. The luminaire includes a lighting circuit unit for lighting a light source. The luminaire converts the control signal into a lighting control signal, and controls the lighting circuit unit based on the lighting control signal. External devices are installed on the walls indoors. Lighting fixtures are installed on the ceiling.

Japanese Unexamined Patent Publication No. 2015-109196

However, when the external device (control unit) is installed on the wall surface, complicated work such as drilling a hole for passing the wiring through the wall and passing the wiring through the wall is required.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a control device, a control unit, a lighting unit, and a lighting system in which a control unit can be easily installed.

The control device disclosed in the present application can control a luminaire. The control device includes a control unit, a housing, and a mounting unit. The control unit acquires lighting information indicating the control content of the lighting fixture, and generates a control signal for controlling the lighting fixture based on the lighting information. The housing houses the control unit. The mounting portion can mount the housing on a rail portion that can support the lighting fixture. The rail unit is provided with a signal transmission unit that transmits the control signal and a conductive unit that transmits electric power. The mounting portion includes a signal connecting portion, a power connecting portion, and a plurality of mounting mechanisms. The signal connection unit can connect the control unit to the signal transmission unit. The power connection unit can connect the control unit to the conductive unit. Each mounting mechanism can mount the housing to the rail portion. When the housing is attached to the rail portion by the first attachment mechanism, the signal connection portion connects the signal transmission unit and the control unit. When the housing is attached to the rail portion by the second attachment mechanism, the power connection portion connects the conductive portion and the control portion.

Control device disclosed in the present application is capable of controlling the lighting equipment. The control device includes a control unit, a housing, and a mounting unit. The control unit acquires lighting information indicating the control content of the lighting fixture, and generates a control signal for controlling the lighting fixture based on the lighting information. The housing houses the control unit. The mounting portion can mount the housing on a rail portion that can support the lighting fixture. It said rail portion includes a signal transmitting unit transmitting the control signal, Ru is provided and the conductive portion for sending power. The attachment portion that Yusuke a signal connection, a power connection portion, and a mounting mechanism. Signal connections, Ru connectable der the control unit to the signal transmitting unit. Power connections, Ru connectable der the control unit to the conductive portion. The mounting mechanism can mount the housing on the rail portion. When the housing is attached to the rail portion by the mounting mechanism, the signal connection portion connects the signal transmission unit and the control unit, and the power connection unit connects the conductive portion and the control unit. To do .

The control device disclosed in the present application preferably further includes a switching unit. The switching unit preferably switches the state of the control unit to either an operating state or a stopped state.

The control device disclosed in the present application preferably further includes a notification unit. It is preferable that the notification unit notifies the energized state of the control circuit and / or the operating state of the control circuit.

The control unit disclosed in the present application includes the control device and the rail portion.

The lighting unit disclosed in the present application includes the control device and the lighting fixture.

The lighting system disclosed in the present application includes the control device, the rail portion, and the lighting fixture.

According to the present invention, the control unit can be easily installed.

The schematic block diagram which shows the 1st Embodiment of a lighting system. A block diagram showing a lighting system. (A) Side view showing the first control mounting mechanism and the second signal connection part, (b) Side view showing the second control mounting mechanism and the second power connection part, (c) Side view showing the control mounting part. , (D) Top view showing the control mounting portion. (A) A side view showing a control mounting portion, and (b) a top view showing a control mounting portion. (A) A partial cross-sectional view showing the rail unit and the first control mounting mechanism, and (b) a partial cross-sectional view showing the rail unit and the first control mounting mechanism. (A) A partial cross-sectional view showing the rail unit and the second control mounting mechanism, and (b) a partial cross-sectional view showing the rail unit and the second control mounting mechanism. (A) A partial cross-sectional view showing a modified example of the rail unit and the second control mounting mechanism, and (b) a partial cross-sectional view showing a modified example of the rail unit and the second control mounting mechanism. The block diagram which shows the 3rd Embodiment of a lighting system.

An embodiment of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding parts are designated by the same reference numerals and the description is not repeated.

[First Embodiment]
A first embodiment of the lighting system 1 will be described with reference to FIG. FIG. 1 is a schematic configuration diagram of a first embodiment of the lighting system 1.

As shown in FIG. 1, the lighting system 1 includes a rail unit 20, a lighting fixture 30, an input device 50, and a control device 60.

The input device 50 transmits lighting information indicating the control content of the lighting fixture 30 to the control device 60. The control device 60 transmits a control signal to the luminaire 30 via the rail unit 20 to control the luminaire 30. Electric power is supplied from the distribution board 100 to each of the luminaire 30 and the control device 60 via the rail unit 20.

Next, the configuration of the lighting system 1 will be described with reference to FIGS. 1 and 2. FIG. 2 is a block diagram showing the lighting system 1.

As shown in FIGS. 1 and 2, the lighting fixture 30 and the control device 60 constitute a lighting unit 2. The rail unit 20 and the control device 60 form a control unit 3.

The rail unit 20 includes a rail portion 21, a signal transmission portion 22, and a conductive portion 23. The rail unit 20 is composed of, for example, a wiring duct and a duct rail. The rail portion 21 can support the luminaire 30. Therefore, the rail portion 21 supports the luminaire 30. A signal transmission unit 22 and a conductive unit 23 are installed on the rail unit 21. Each of the signal transmission unit 22 and the conductive unit 23 has conductivity. Each of the signal transmission unit 22 and the conductive unit 23 extends along the longitudinal direction X. The longitudinal direction X indicates the extending direction of the rail portion 21. The signal transmission unit 22 sends a control signal. The control signal indicates a signal for controlling the luminaire 30. The conductive portion 23 is connected to the distribution board 100. The conductive portion 23 is supplied with electric power from the distribution board 100. The conductive portion 23 sends electric power.

A plurality of lighting fixtures 30 are provided. The plurality of luminaires 30 are arranged along the longitudinal direction X. Each of the plurality of luminaires 30 is a slave luminaire. The control device 60 is a master and transmits a control signal to each luminaire 30 to control each luminaire 30. One of the plurality of lighting fixtures 30 may be used as a master lighting fixture, and the rest may be used as a slave lighting fixture. Further, the lighting system 1 may include a plurality of lighting fixtures 30, or may include a single lighting fixture 30.

In the following, one of the plurality of lighting fixtures 30 will be focused on and described.

The lighting fixture 30 includes a light source 31, a lighting portion 32, a lighting mounting portion 33, and a first housing 41.

The light source 31 includes a light emitting element. The light emitting element indicates, for example, an LED (Light Emitting Diode) element. The light emitting element is not limited to the LED element. The light source 31 may have, for example, a semiconductor light emitting device such as a semiconductor laser, an organic EL (Electro Luminescence), or a solid light emitting element such as an inorganic EL.

The lighting unit 32 has a lighting circuit 34 and a lighting power supply circuit 35.

The distribution board 100 supplies AC power to the lighting power supply circuit 35 via the conductive portion 23. The lighting power supply circuit 35 converts AC power into DC power and supplies it to the lighting circuit 34. The lighting circuit 34 lights the light source 31 with the electric power supplied from the lighting power supply circuit 35.

The first housing 41 accommodates the lighting unit 32. Specifically, the first housing 41 accommodates the lighting circuit 34 and the lighting power supply circuit 35. A light source 31 is attached to the first housing 41.

The lighting mounting portion 33 can mount the first housing 41 on the rail portion 21. The fact that the first housing 41 can be attached to the rail portion 21 includes not only the case where the first housing 41 can be directly attached to the rail portion 21 but also the case where it can be indirectly attached to the rail portion 21. .. When the first housing 41 is indirectly attached to the rail portion 21, for example, the case where the first housing 41 is attached to the rail portion 21 via a support member such as a bracket is shown. The lighting mounting portion 33 is installed in the first housing 41. Therefore, the lighting unit 32 is housed in the single first housing 41, and the lighting mounting unit 33 is installed. The lighting mounting portion 33 is composed of, for example, a wiring plug and a duct plug.

The lighting mounting unit 33 includes a plurality of lighting mounting mechanisms, a first signal connecting unit 38, and a first power connecting unit 39. In the first embodiment, the plurality of lighting mounting mechanisms are composed of the first lighting mounting mechanism 36 and the second lighting mounting mechanism 37. The lighting mounting portion 33 attaches the first housing 41 to the rail portion 21 by using the first lighting mounting mechanism 36 and the second lighting mounting mechanism 37.

The first signal connection unit 38 can connect the lighting unit 32 to the signal transmission unit 22.
When the first housing 41 is attached to the rail portion 21 by the first lighting attachment mechanism 36, the first signal connection portion 38 connects the signal transmission portion 22 and the lighting portion 32. When the signal transmission unit 22 and the lighting unit 32 are connected, the signal transmission unit 22 and the lighting unit 32 are electrically connected, and a control signal can be sent from the signal transmission unit 22 to the lighting unit 32. Is shown.

The first power connection unit 39 can connect the lighting unit 32 to the conductive unit 23.
When the first housing 41 is attached to the rail portion 21 by the second lighting attachment mechanism 37, the first power connection portion 39 connects the conductive portion 23 and the lighting portion 32. The state in which the conductive unit 23 and the lighting unit 32 are connected indicates a state in which the conductive unit 23 and the lighting unit 32 are electrically connected and electric power can be sent from the conductive unit 23 to the lighting unit 32.

Therefore, when the first housing 41 is attached to the rail portion 21 using both the first lighting attachment mechanism 36 and the second illumination attachment mechanism 37, the lighting portion 32 is connected to both the signal transmission portion 22 and the conductive portion 23. Will be done. As a result, the lighting unit 32 receives the control signal and operates based on the control signal.

As shown in FIG. 2, the lighting system 1 further includes a lighting switching unit 80.
The lighting switching unit 80 is manually operated. The lighting switching unit 80 is, for example, a lever switch, a button switch, a slide switch, or a seesaw switch. The lighting switching unit 80 is, for example, a switch installed on the wall of the living room. The lighting switching unit 80 switches the light source 31 between a lighting state and an extinguishing state. The lighting switching unit 80 electrically connects the distribution board 100 and the conductive unit 23 of the rail unit 20 when the light source 31 is turned on. Further, when the light source 31 is turned off, the lighting switching unit 80 cuts off the electrical connection between the distribution board 100 and the conductive unit 23 of the rail unit 20. When a plurality of lighting units 2 are attached to the rail unit 21, the light sources 31 of the plurality of lighting units 2 are turned on and off at once by the operation of the lighting switching unit 80.

The input device 50 has an input unit 51 and a transmission unit 52. The input unit 51 receives lighting information indicating the control content of the lighting fixture 30. The illumination information is, for example, information indicating a lighting instruction of the light source 31, information indicating brightness, information indicating a color temperature, and information indicating an instruction to turn off the light source 31. The transmission unit 52 transmits the lighting information input via the input unit 51 to the control device 60. The transmission unit 52 may transmit the lighting information by any of a wired method and a wireless method.

The input device 50 may be a general-purpose device such as a personal computer, a smartphone, or a tablet terminal. Further, the input device 50 may be a dedicated operator.

The control device 60 can control the luminaire 30. Therefore, the control device 60 controls the luminaire 30. Specifically, the control device 60 includes a receiving unit 61, a control unit 62, a control mounting unit (mounting unit) 63, and a second housing (housing) 71.

The receiving unit 61 receives the lighting information transmitted by the transmitting unit 52. The receiving unit 61 has, for example, an antenna that wirelessly receives lighting information.

The control unit 62 includes a control circuit 64 and a control power supply circuit 65.

The control circuit 64 includes a storage element (for example, a semiconductor memory) such as a ROM (Read Only Memory) and a RAM (Random Access Memory). The storage element stores various computer programs. The control circuit 64 includes processors such as a CPU (Central Processing Unit) and an MPU (Micro Processing Unit). The control circuit 64 controls the lighting circuit 34 by executing a computer program.

The control circuit 64 acquires lighting information from the receiving unit 61. The control circuit 64 generates a control signal based on the illumination information. The control signal is transmitted to the lighting unit 32 via the signal transmission unit 22. The lighting circuit 34 operates the light source 31 based on the control signal. As a result, the light source 31 operates according to the contents specified in the illumination information. Specifically, the lighting circuit 34 converts the electric power supplied from the lighting power supply circuit 35 into electric power corresponding to the illumination information and supplies the electric power to the light source 31. As a result, the light source 31 turns on, turns off, changes the brightness, and / or changes the color temperature according to the contents specified in the illumination information.

The method of controlling the light source 31 by the control signal is not particularly limited. As the control method of the light source 31, for example, the control method specified in DALI (registered trademark), the control method by PWM control, or the control method by T / Flex (registered trademark) may be applied.
Further, the control content of the light source 31 by the control signal may include at least one of dimming control and toning control in addition to the control of turning on and off the light source 31.

The distribution board 100 supplies AC power to the control power supply circuit 65 via the conductive portion 23. The control power supply circuit 65 converts AC power into DC power and supplies it to the control circuit 64. The control circuit 64 operates on the electric power supplied from the control power supply circuit 65.

The second housing 71 accommodates the control unit 62. Specifically, the second housing 71 accommodates the control circuit 64 and the control power supply circuit 65. In the first embodiment, the receiving unit 61 is installed outside the first housing 41. However, the present invention is not limited to this, and the receiving unit 61 may be housed in the first housing 41.

The control mounting portion 63 can mount the second housing 71 on the rail portion 21. The fact that the second housing 71 can be attached to the rail portion 21 includes not only the case where the second housing 71 can be directly attached to the rail portion 21 but also the case where it can be indirectly attached to the rail portion 21. .. When the second housing 71 is indirectly attached to the rail portion 21, for example, the case where the second housing 71 is attached to the rail portion 21 via a support member such as a bracket is shown. The control mounting portion 63 is installed in the second housing 71. Therefore, the control unit 62 is housed in the single second housing 71, and the control mounting unit 63 is installed.

The control mounting unit 63 includes a plurality of control mounting mechanisms, a second signal connection unit (signal connection unit) 68, and a second power connection unit (power connection unit) 69. In the first embodiment, the plurality of mounting mechanisms are composed of a first control mounting mechanism (first mounting mechanism) 66 and a second control mounting mechanism (second mounting mechanism) 67. The control mounting portion 63 mounts the second housing 71 on the rail portion 21 by using the first control mounting mechanism 66 and the second control mounting mechanism 67.
Therefore, since the second housing 71 is mounted on the rail portion 21 by a plurality of mounting mechanisms, the rail portion 21 can stably hold the second housing 71.

As described above with reference to FIG. 2, the control mounting portion 63 can mount the second housing 71 on the rail portion 21. Further, the rail portion 21 can support the lighting fixture 30. Therefore, the second housing 71 can be attached to the rail portion 21 by utilizing the structure for supporting the lighting fixture 30 provided on the rail portion 21. As a result, the control unit 62 can be easily installed.

The second signal connection unit 68 can connect the control unit 62 to the signal transmission unit 22.
When the second housing 71 is attached to the rail portion 21 by the first control attachment mechanism 66, the second signal connection portion 68 connects the signal transmission unit 22 and the control unit 62. When the signal transmission unit 22 and the control unit 62 are connected, the signal transmission unit 22 and the control unit 62 are electrically connected, and the control unit 62 can send a control signal to the signal transmission unit 22. Is shown.

The second power connection unit 69 can connect the control unit 62 to the conductive unit 23.
When the second housing 71 is attached to the rail portion 21 by the second control attachment mechanism 67, the second power connection portion 69 connects the conductive portion 23 and the control portion 62. The state in which the conductive unit 23 and the control unit 62 are connected indicates a state in which the conductive unit 23 and the control unit 62 are electrically connected and electric power can be sent from the conductive unit 23 to the control unit 62.

Therefore, when the second housing 71 is attached to the rail portion 21 using both the first control mounting mechanism 66 and the second control mounting mechanism 67, the control unit 62 is connected to both the signal transmission unit 22 and the conductive unit 23. Will be done. As a result, the control unit 62 operates. Specifically, the control unit 62 generates a control signal and transmits the control signal to the signal transmission unit 22.

Next, the first control mounting mechanism 66 and the second signal connecting portion 68 will be described with reference to FIG. 3A. FIG. 3A shows the first control mounting mechanism 66 and the second signal connecting portion 68.

As shown in FIG. 3A, the first control mounting mechanism 66 includes a first main body 66a, a pair of first protruding portions 66b, and a first switching portion 66c. The first main body 66a is rotatably supported around a first axis N1 passing through the center of the first main body 66a. The first axis N1 indicates, for example, an axis parallel to the vertical direction. Each of the pair of first protrusions 66b is fixed to the first main body 66a. The pair of first protrusions 66b are installed at intervals of 180 ° from each other in the rotation direction of the first main body 66a. The first switching unit 66c is fixed to the first main body 66a. The user grips the first switching unit 66c and rotates the first main body 66a. The second signal connection unit 68 has a pair of first terminals 68a. Each of the pair of first terminals 68a is formed of a conductive member. Each of the pair of first terminals 68a is fixed to the first main body 66a. The pair of first terminals 68a are installed at intervals of 180 ° from each other in the rotation direction of the first main body 66a.

Next, the second control mounting mechanism 67 and the second power connection unit 69 will be described with reference to FIG. 3 (b). FIG. 3B shows the second control mounting mechanism 67 and the second power connection unit 69.

As shown in FIG. 3B, the second control mounting mechanism 67 has a second main body 67a, a pair of second protruding portions 67b, and a second switching portion 67c. The second main body 67a is rotatably supported around a second axis N2 passing through the center of the second main body 67a. The second axis N2 indicates, for example, an axis parallel to the vertical direction. Each of the pair of second protrusions 67b is fixed to the second main body 67a. The pair of second protrusions 67b are installed at intervals of 180 ° from each other in the rotation direction of the second main body 67a. The second switching portion 67c is fixed to the second main body 67a. The user grips the second switching unit 67c and rotates the second main body 67a. The second power connection unit 69 has a pair of second terminals 69a. Each of the pair of second terminals 69a is formed of a conductive member. Each of the pair of second terminals 69a is fixed to the second main body 67a. The pair of second terminals 69a are installed at intervals of 180 ° from each other in the rotation direction of the second main body 67a.

Next, the control mounting portion 63 will be described with reference to FIGS. 3 (c) and 3 (d). 3 (c) and 3 (d) show the control mounting portion 63.

As shown in FIGS. 3 (c) and 3 (d), the first control mounting mechanism 66 and the second control mounting mechanism 67 are installed in the second housing 71. The second housing 71 accommodates the first main body 66a and the second main body 67a. The second housing 71 rotatably supports each of the first main body 66a and the second main body 67a. The second housing 71 accommodates the control unit 62. The second housing 71 has a plurality of holes 71a. Each of the plurality of holes 71a communicates with the outside and the inside of the second housing 71. The pair of first terminals 68a, the pair of first protrusions 66b, the pair of second terminals 69a, and the pair of second protrusions 67b are second through any of the plurality of holes 71a. It can project to the outside of the housing 71.

Next, the operation of the control mounting portion 63 will be described with reference to FIGS. 3 (c) to 4 (b).

In FIGS. 3 (c) and 3 (d), the first control mounting mechanism 66 shows the first release posture. As shown in FIGS. 3 (c) and 3 (d), the first release posture is when the pair of first terminals 68a and the pair of first protrusions 66b are housed in the second housing 71. The posture of the first control mounting mechanism 66 is shown.

Further, in FIGS. 3C and 3D, the second control mounting mechanism 67 shows a second release posture. As shown in FIGS. 3 (c) and 3 (d), the second release posture is when the pair of second terminals 69a and the pair of second protrusions 67b are housed in the second housing 71. The posture of the second control mounting mechanism 67 is shown.

In FIGS. 4A and 4B, the first control mounting mechanism 66 shows the first mounting posture. As shown in FIGS. 4A and 4B, in the first mounting posture, the pair of first protruding portions 66b and the pair of first terminals 68a project to the outside of the second housing 71. The posture of the first control mounting mechanism 66 at the time of being is shown.

Further, in FIGS. 4A and 4B, the second control mounting mechanism 67 shows a second mounting posture. As shown in FIGS. 4A and 4B, in the second mounting posture, the pair of second protruding portions 67b and the pair of second terminals 69a project to the outside of the second housing 71. The posture of the second control mounting mechanism 67 at the time of being is shown.

As shown in FIGS. 3 (c) to 4 (b), when the first switching unit 66c is operated, the first main body 66a rotates. As a result, the first switching unit 66c switches the posture of the first control mounting mechanism 66 to either the first releasing posture or the first mounting posture. Further, when the second switching unit 67c is operated, the second main body 67a rotates. As a result, the first switching unit 66c switches the posture of the second control mounting mechanism 67 to either the second release posture or the second mounting posture.

Next, the rail unit 20 will be described with reference to FIG. 5A. FIG. 5A shows a cross-sectional view of the rail portion 21 when the rail portion 21 is cut in a direction perpendicular to the longitudinal direction X (see FIG. 1).

As shown in FIG. 5A, the rail portion 21 includes a base portion 24, a first side portion 25, a second side portion 26, a first locking portion 27, a second locking portion 28, and a second. It has one engaging portion 25a, a second engaging portion 26a, a third engaging portion 25b, and a fourth engaging portion 26b. The base 24 extends along the longitudinal direction X. Each of the first side portion 25 and the second side portion 26 is fixed to the base portion 24 and protrudes from the base portion 24. The first side portion 25 and the second side portion 26 are installed at intervals in the width direction Y and are installed so as to face each other in the width direction Y. The width direction Y indicates a direction perpendicular to the longitudinal direction X. Inside the rail portion 21, the first engaging portion 25a, the second engaging portion 26a, the third engaging portion 25b, the fourth engaging portion 26b, the first locking portion 27, and the second The locking portion 28 is installed. The inside of the rail portion 21 indicates a space sandwiched between the first side portion 25 and the second side portion 26. A terminal 22a on the negative side (low potential side) of the signal transmission unit 22 is installed in the first engaging portion 25a. A terminal 22b on the + side (high potential side) of the signal transmission unit 22 is installed in the second engaging unit 26a. A neutral terminal 23a of the conductive portion 23 is installed in the third engaging portion 25b. A live terminal 23b of the conductive portion 23 is installed in the fourth engaging portion 26b.

Subsequently, with reference to FIGS. 5A and 5B, the operation of the first control mounting mechanism 66 when the second housing 71 is mounted on the rail portion 21 by the first control mounting mechanism 66 will be described. .. FIG. 5A shows a first control mounting mechanism 66 in the first release posture. FIG. 5B shows the first control mounting mechanism 66 in the first mounting posture.

As shown in FIG. 5A, the first main body 66a is inserted inside the rail portion 21 while the first control mounting mechanism 66 is in the first release posture. As shown in FIG. 5B, after the first main body 66a is inserted inside the rail portion 21, the first switching portion 66c is operated. The first switching unit 66c switches the posture of the first control mounting mechanism 66 to the first mounting posture. When the posture of the first control mounting mechanism 66 becomes the first mounting posture, one of the pair of first protruding portions 66b comes into contact with the first locking portion 27, and the other contacts the second locking portion 28. As a result, the second housing 71 is locked to the rail portion 21, and the second housing 71 is attached to the rail portion 21. When the posture of the first control mounting mechanism 66 becomes the first mounting posture, one of the pair of first terminals 68a comes into contact with the terminal 22a, and the other comes into contact with the terminal 22b. As a result, the signal transmission unit 22 and the control unit 62 are connected.
Therefore, when the second housing 71 is attached to the rail portion 21 by the first control attachment mechanism 66, the second signal connection portion 68 connects the signal transmission unit 22 and the control unit 62.

The first switching portion 66c is operated from the state in which the second housing 71 is attached to the rail portion 21 by the first control mounting mechanism 66. The first switching unit 66c switches the posture of the first control mounting mechanism 66 to the first release posture (see FIG. 5A). As a result, the state in which the second housing 71 is attached to the rail portion 21 is released by the first control attachment mechanism 66. Further, when the posture of the first control mounting mechanism 66 becomes the first release posture, the signal transmission unit 22 and the control unit 62 are disconnected.

Next, with reference to FIGS. 6A and 6B, the operation of the second control mounting mechanism 67 when the second housing 71 is mounted on the rail portion 21 by the second control mounting mechanism 67 will be described. .. FIG. 6A shows a second control mounting mechanism 67 in the second release posture. FIG. 6B shows a second control mounting mechanism 67 in the second mounting posture.

As shown in FIG. 6A, the second main body 67a is inserted inside the rail portion 21 while the second control mounting mechanism 67 is in the second release posture. As shown in FIG. 6B, after the second main body 67a is inserted inside the rail portion 21, the second switching portion 67c is operated. As a result, the second switching unit 67c switches the posture of the second control mounting mechanism 67 to the second mounting posture. When the posture of the second control mounting mechanism 67 becomes the second mounting posture, one of the pair of second protruding portions 67b comes into contact with the first locking portion 27, and the other contacts the second locking portion 28. As a result, the second housing 71 is locked to the rail portion 21, and the second housing 71 is attached to the rail portion 21. When the posture of the second control mounting mechanism 67 becomes the second mounting posture, one of the pair of second terminals 69a comes into contact with the terminal 32a, and the other comes into contact with the terminal 23b. As a result, the conductive unit 23 and the control unit 62 are connected.
Therefore, when the second housing 71 is attached to the rail portion 21 by the second control attachment mechanism 67, the second power connection portion 69 connects the conductive portion 23 and the control portion 62.

The second switching portion 67c is operated from the state in which the second housing 71 is attached to the rail portion 21 by the second control mounting mechanism 67. The second switching unit 67c switches the posture of the second control mounting mechanism 67 to the second release posture (see FIG. 6A). As a result, the state in which the second housing 71 is attached to the rail portion 21 is released by the second control attachment mechanism 67. Further, when the posture of the second control mounting mechanism 67 becomes the second release posture, the conductive portion 23 and the control portion 62 are disconnected.

The first switching unit (switching unit) 66c and the second switching unit (switching unit) 67c switch the state of the control unit 62 to either an operating state or a stopped state. The operating state indicates a state in which the signal transmission unit 22 and the control unit 62 are connected, and the conductive unit 23 and the control unit 62 are connected. That is, the operating state indicates a state in which the control unit 62 can control the lighting fixture 30. The stopped state indicates a state in which the signal transmission unit 22 and the control unit 62 are disconnected and / or the conductive unit 23 and the control unit 62 are disconnected. That is, the stopped state indicates a state in which the control unit 62 cannot control the luminaire 30.

Therefore, by operating the first switching unit 66c and the second switching unit 67c, it is possible to select whether or not to control the luminaire 30 using the control unit 62. When the control unit 62 is switched to the stopped state, the user operates the lighting switching unit 80 to operate the lighting fixture 30. Specifically, the user operates the lighting switching unit 80 to switch the light source 31 between the lighting state and the extinguishing state.

The lighting mounting unit 33 (see FIG. 1) has the same configuration as the control mounting unit 63 described with reference to FIGS. 3 (a) to 6 (b). Specifically, the first lighting mounting mechanism 36 has the same configuration as the first control mounting mechanism 66, and the second lighting mounting mechanism 37 has the same configuration as the second control mounting mechanism 67.

[Second Embodiment]
A second embodiment of the lighting system 1 will be described with reference to FIGS. 7 (a) and 7 (b). 7 (a) and 7 (b) are schematic configuration views showing a second control mounting mechanism 67 (mounting mechanism). In the second embodiment, the first embodiment is configured such that the signal transmission unit 22 and the control unit 62 are connected by a single second control mounting mechanism 67, and the conductive unit 23 and the control unit 62 are connected. Different from the form. In the second embodiment, the changes from the first embodiment will be mainly described.

As shown in FIGS. 7 (a) and 7 (b), a pair of first terminals 68a are further fixed to the second main body 67a. The pair of first terminals 68a are installed at intervals of 180 ° from each other in the rotation direction of the second main body 67a. Therefore, both the pair of first terminals 68a and the pair of second terminals 69a are fixed to the second main body 67a. As a result, by operating the single second switching unit (switching unit) 67c, the state of the control unit 62 is switched to either the operating state or the stopped state.

Subsequently, with reference to FIGS. 7A and 7B, the operation of the second control mounting mechanism 67 when the second housing 71 is mounted on the rail portion 21 by the second control mounting mechanism 67 will be described. .. In FIG. 7A, the second control mounting mechanism 67 shows the third release posture. The third release posture is the posture of the second control mounting mechanism 67 when the pair of second terminals 69a, the pair of second protrusions 67b, and the pair of first terminals 68a are housed in the second housing 71. Is shown. In FIG. 7B, the second control mounting mechanism 67 shows a third mounting posture. The third mounting posture is the second control mounting mechanism when the pair of second protruding portions 67b, the pair of second terminals 69a, and the pair of first terminals 68a project to the outside of the second housing 71. Shows 67 postures.

As shown in FIG. 7A, the second main body 67a is inserted into the rail portion 21 in the state where the second control mounting mechanism 67 is in the third release posture. As shown in FIG. 7B, after the second main body 67a is inserted inside the rail portion 21, the second switching portion 67c is operated. As a result, the second switching unit 67c switches the posture of the second control mounting mechanism 67 to the third mounting posture. When the posture of the second control mounting mechanism 67 becomes the third mounting posture, one of the pair of second protruding portions 67b comes into contact with the first locking portion 27, and the other contacts the second locking portion 28. As a result, the second housing 71 is locked to the rail portion 21, and the second housing 71 is attached to the rail portion 21. When the posture of the second control mounting mechanism 67 becomes the third mounting posture, one of the pair of first terminals 68a comes into contact with the terminal 22a, and the other comes into contact with the terminal 22b. As a result, the signal transmission unit 22 and the control unit 62 are connected. When the posture of the second control mounting mechanism 67 becomes the third mounting posture, one of the pair of second terminals 69a comes into contact with the terminal 32a, and the other comes into contact with the terminal 23b. As a result, the conductive unit 23 and the control unit 62 are connected.
Therefore, when the second housing 71 is attached to the rail portion 21 by a single second control attachment mechanism 67, the second signal connection portion (signal connection portion) 68 connects the signal transmission unit 22 and the control unit 62. At the same time, the second power connection unit (power connection unit) 69 connects the conductive unit 23 and the control unit 62. As a result, the work of attaching the second housing 71 to the rail portion 21 can be smoothly performed. Further, the first control mounting mechanism 66 can be omitted, and the device configuration can be simplified.

The second switching portion 67c is operated from the state in which the second housing 71 is attached to the rail portion 21 by the second control mounting mechanism 67. The second switching unit 67c switches the posture of the second control mounting mechanism 67 to the third release posture (see FIG. 7A). As a result, the state in which the second housing 71 is attached to the rail portion 21 is released by the second control attachment mechanism 67. When the posture of the second control mounting mechanism 67 becomes the third release posture, the signal transmission unit 22 and the control unit 62 are disconnected, and the conductive unit 23 and the control unit 62 are disconnected.

The second lighting mounting mechanism 37, the first signal connecting portion 38, and the first power connecting portion 39 are the second control mounting mechanism 67 and the second control mounting mechanism 67 described with reference to FIGS. 7 (a) and 7 (b). It may have the same configuration as the configuration of the two signal connection unit 68 and the second power connection unit 69. That is, the lighting mounting portion 33 may be configured like the control mounting portion 63 of the second embodiment.

[Third Embodiment]
A third embodiment of the lighting system 1 will be described with reference to FIG. FIG. 8 is a schematic configuration diagram of a third embodiment of the lighting system 1. The third embodiment is different from the first embodiment in that it is configured to notify the state of the control unit 62. In the third embodiment, the changes from the first embodiment will be mainly described.

As shown in FIG. 8, the control device 60 includes a notification device 90. The notification device 90 includes a first detection unit 91, a second detection unit 92, and a notification unit 93. The first detection unit 91 detects the energized state of the control unit 62. The energized state of the control unit 62 indicates a state in which electric power is supplied to the control unit 62 from the conductive unit 23. The second detection unit 92 detects the operating state of the control unit 62. The operating state of the control unit 62 indicates a state in which the control unit 62 is transmitting a control signal to the signal transmission unit 22. The notification unit 93 receives an energization signal indicating the energization state of the control unit 62 from the first detection unit 91. The notification unit 93 determines whether or not the control unit 62 is in the energized state based on the energized signal. Then, the notification unit 93 notifies whether or not the control unit 62 is in the energized state. Further, the notification unit 93 receives an operation signal indicating the operation state of the control unit 62 from the second detection unit 92. The notification unit 93 determines whether or not the control unit 62 is in the operating state based on the operation signal. Then, the notification unit 93 notifies whether or not the control unit 62 is in the operating state.

The notification unit 93 has a display unit such as an LED indicator, for example. Specifically, the notification unit 93 has a first display unit for notifying the energized state of the control unit 62 and a second display unit for notifying the operating state of the control unit 62. When the control unit 62 is energized, the first display unit lights up. When the control unit 62 is not energized, the first display unit is turned off. Further, when the control unit 62 is in the operating state, the second display unit lights up. When the control unit 62 is not in the operating state, the second display unit is turned off. As a result, the user can recognize the energized state of the control unit 62 and the operating state of the control unit 62 by visually recognizing the notification unit 93.

The installation location of the notification unit 93 will be described.
The first light source 11 is provided on the ceiling of the irradiation chamber, for example, and irradiates the irradiation chamber with light. In this case, the notification unit 93 is installed in a place where a person in the irradiation room can see. The notification unit 93 is attached to, for example, the rail unit 21. The notification unit 93 may be attached to the second housing 71.
Further, the notification unit 93 may be installed in the vicinity of the master luminaire. For example, the notification unit 93 is attached to the first housing 41 of the master luminaire. As a result, the operator can easily find the master luminaire from among the plurality of luminaires 30 by visually recognizing the notification unit 93. As a result, the worker can smoothly perform the address reassignment work and the grouping work for the plurality of lighting fixtures 30.

The notification unit 93 may be configured to notify either the energized state of the control unit 62 or the operating state of the control unit 62. However, it is advantageous that the notification unit 93 notifies both the energized state of the control unit 62 and the operating state of the control unit 62 in that the user can recognize the state of the control unit 62 in more detail.

The embodiments of the present invention have been described above with reference to the drawings (FIGS. 1 to 8). However, the present invention is not limited to the above-described embodiment, and can be implemented in various aspects without departing from the gist of the present invention (for example, (1) and (2) shown below). In addition, various inventions can be formed by appropriately combining the plurality of components disclosed in the above embodiments. For example, some components may be removed from all the components shown in the embodiments. In order to make the drawings easier to understand, each component is schematically shown, and the number of each component shown may differ from the actual one due to the convenience of drawing. Further, each component shown in the above embodiment is an example, and is not particularly limited, and various modifications can be made without substantially deviating from the effect of the present invention.

(1) In the third embodiment, the notification device 90 is provided for the lighting system 1 of the first embodiment. However, the notification device 90 may be provided for the lighting system 1 of the second embodiment.

(2) In the first to third embodiments, the control unit 62 is housed in the single second housing 71, and the control mounting unit 63 is installed. That is, the control mounting portion 63 and the second housing 71 are integrally configured. However, the present invention is not limited to this. The control mounting portion 63 may be separated from the second housing 71, and the control mounting portion 63 and the second housing 71 may be formed separately. That is, the second housing 71 is detachably configured with respect to the control mounting portion 63. As a result, the control mounting unit 63 and the control unit 62 housed in the second housing 71 can be handled independently of each other, and the maintainability of the device can be improved.

Further, in the first to third embodiments, the lighting mounting portion 33 and the first housing 41 are integrally configured. However, the lighting mounting portion 33 may be separated from the first housing 41, and the lighting mounting portion 33 and the first housing 41 may be formed separately. That is, the first housing 41 is detachably configured with respect to the lighting mounting portion 33. As a result, the lighting mounting portion 33 and the lighting portion 32 housed in the first housing 41 can be handled independently of each other, and the maintainability of the device can be improved.

Further, when the control mounting portion 63 and the second housing 71 are separately configured and the lighting mounting portion 33 and the first housing 41 are separately configured, the control mounting portion 63 is the lighting mounting portion 33. It may be configured to also serve as. That is, the control mounting portion 63 is configured so that the first housing 41 can be mounted on the rail portion 21. Therefore, one type of mounting portion (control mounting portion 63) can be used for each of the case where the first housing 41 is mounted on the rail portion 21 and the case where the second housing 71 is mounted on the rail portion 21. it can. As a result, the ease of handling of the device can be improved.

(3) In the lighting unit 2, the lighting fixture 30 and the control device 60 may be integrally configured. The term "integral configuration of the luminaire 30 and the control device 60" indicates a case corresponding to any of the configurations (i) to (iii). Hereinafter, the configurations (i) to (iii) will be described with reference to FIGS. 2 and 8.

[Configuration (i)]
As shown in FIGS. 2 and 8, in the lighting unit 2 described in each of the first to third embodiments, the first housing 41 and the second housing 71 are fixed to each other.

[Configuration (ii)]
The lighting unit 2 according to each of the first embodiment and the third embodiment is configured as shown in (ii-1) to (ii-7).
(Ii-1) The lighting unit 2 includes a single housing A and a mounting portion B.
(Ii-2) In the housing A, the first housing 41 and the second housing 71 are configured as a single housing. Therefore, the housing A accommodates the lighting unit 32 and the control unit 62.
(Ii-3) The mounting portion B includes a signal mounting mechanism B1, a signal connecting portion B2, a power mounting mechanism B3, and a power connecting portion B4.
(Ii-4) The signal mounting mechanism B1 corresponds to the first lighting mounting mechanism 36 and the first control mounting mechanism 66. Therefore, the signal mounting mechanism B1 can mount the housing A on the rail portion 21.
(Ii-5) The signal connection unit B2 corresponds to the first signal connection unit 38 and the second signal connection unit 68. Therefore, when the housing A is attached to the rail portion 21 by the signal attachment mechanism B1, the signal connection portion B2 connects the lighting unit 32 and the control unit 62 to the signal transmission unit 22.
(Ii-6) The power mounting mechanism B3 corresponds to the second lighting mounting mechanism 37 and the second control mounting mechanism 67. Therefore, the power mounting mechanism B3 can mount the housing A on the rail portion 21.
(Ii-7) The power connection unit B4 corresponds to the first power connection unit 39 and the second power connection unit 69. Therefore, when the housing A is attached to the rail portion 21 by the power attachment mechanism B3, the power connection portion B4 connects the lighting unit 32 and the control unit 62 to the conductive portion 23.

[Configuration (iii)]
The lighting unit 2 according to the second embodiment is configured as shown in (iii-1) to (iii-5).
(Iii-1) The lighting unit 2 includes a single housing A and a mounting portion C.
(Iii-2) The housing A accommodates a lighting unit 32 and a control unit 62.
(Iii-3) The mounting portion C includes a mounting mechanism C1, a signal connecting portion C2, and a power connecting portion C3.
(Iii-4) The mounting mechanism C1 corresponds to the second lighting mounting mechanism 37 and the second control mounting mechanism 67. Therefore, the mounting mechanism C1 can mount the housing A on the rail portion 21.
(Iii-5) The signal connection unit C2 corresponds to the first signal connection unit 38 and the second signal connection unit 68. The power connection unit C3 corresponds to the first power connection unit 39 and the second power connection unit 69. Therefore, when the housing A is attached to the rail portion 21 by the attachment mechanism C1, the signal connection portion C2 connects the lighting unit 32 and the control unit 62 to the signal transmission unit 22, and also to the conductive unit 23. The power connection unit C3 connects the lighting unit 32 and the control unit 62.

As shown in the configurations (i) to (iii), by integrally configuring the luminaire 30 and the control device 60, the installation work of the luminaire 30 and the installation work of the control device 60 on the rail portion 21 can be performed at the same time. It can be carried out. As a result, the control unit 62 can be easily installed.

(4) In the present embodiment, the control unit 62 is installed on the rail unit 21. However, the present invention is not limited to this. The control unit 62 may be installed behind the ceiling. When the control unit 62 is installed behind the ceiling, it is not necessary to make a hole in the ceiling in order to draw the signal line on the output side of the control unit 62 from the ceiling to the living room. This is because there are already wiring holes in the ceiling. The wiring hole is a hole for passing a power line.
The power line extends from the distribution board 100 to the ceiling, and extends from the ceiling to the conductive portion 23 of the rail unit 20 via the wiring holes. Therefore, when connecting the control unit 62 behind the ceiling and the signal transmission unit 22 in the living room with a signal line, a wiring hole for the power line is also used, and the signal line can be passed from the ceiling to the living room through the wiring hole. Just do it.
As a result, when the control device 60 is installed behind the ceiling, it is not necessary to newly make a hole for a signal line in the ceiling, and the control unit 62 can be easily installed.

The present invention provides a control device, a control unit, a lighting unit, and a lighting system, and has industrial applicability.

1 Lighting system 2 Lighting unit 3 Control unit 21 Rail unit 22 Signal transmission unit 23 Conductive unit 30 Lighting equipment 60 Control device 62 Control unit 63 Control mounting unit (mounting unit)
66 First control mounting mechanism (first mounting mechanism)
66c 1st switching unit (switching unit)
67 Second control mounting mechanism (second mounting mechanism)
67c 2nd switching unit (switching unit)
68 Second signal connection (signal connection)
69 Second power connection (power connection)
71 Second housing (housing)
93 Notification unit

Claims (7)

A control device that can control lighting equipment
A control unit that acquires lighting information indicating the control content of the lighting fixture and generates a control signal for controlling the lighting fixture based on the lighting information.
A housing for accommodating the control unit and
E Bei and said housing for attachable mounting section the lighting fixture to the rail section capable of supporting,
The rail unit is provided with a signal transmission unit that transmits the control signal and a conductive unit that transmits electric power.
The mounting part is
A signal connection unit to which the control unit can be connected to the signal transmission unit,
A power connection unit to which the control unit can be connected to the conductive unit,
With a plurality of mounting mechanisms capable of mounting the housing on the rail portion
Have,
When the housing is attached to the rail portion by the first attachment mechanism, the signal connection portion connects the signal transmission unit and the control unit.
A control device in which when the housing is attached to the rail portion by the second attachment mechanism, the power connection portion connects the conductive portion and the control portion. A control device that can control lighting equipment
A control unit that acquires lighting information indicating the control content of the lighting fixture and generates a control signal for controlling the lighting fixture based on the lighting information.
A housing for accommodating the control unit and
With a mounting portion that can mount the housing on a rail portion that can support the lighting fixture
With
The rail unit is provided with a signal transmission unit that transmits the control signal and a conductive unit that transmits electric power.
The mounting part is
A signal connection unit to which the control unit can be connected to the signal transmission unit,
A power connection unit to which the control unit can be connected to the conductive unit,
The housing possess a possible attachment mechanism attached to said rail portion,
When the housing is attached to the rail portion by the attachment mechanism,
The signal connection unit connects the signal transmission unit and the control unit, and at the same time,
A control device in which the power connection unit connects the conductive unit and the control unit. The control device according to claim 1 or 2 , further comprising a switching unit that switches the state of the control unit between an operating state and a stopped state. The control device according to any one of claims 1 to 3 , further comprising a notification unit for notifying the energized state of the control unit and / or the operating state of the control unit. The control device according to any one of claims 1 to 4,
A control unit including the rail portion. The control device according to any one of claims 1 to 4,
A lighting unit including the lighting fixture. The control device according to any one of claims 1 to 4,
With the rail part
A lighting system including the lighting fixture.

Images