JP2024048540A - Lighting equipment - Google Patents

Abstract

[Problem] To provide a lighting device that can improve wiring workability. [Solution] The lighting device includes a fixture body 20, an annular light source 40, an emergency unit 15, and a light source connector 43. The annular light source 40 is disposed in the fixture body 20. The emergency unit 15 is disposed in the fixture body 20 and located inside the annular light source 40. The light source connector 43 is located inside the annular light source 40 at a position facing the emergency unit 15, and is electrically connected to the annular light source 40. [Selected Figure] Figure 3

Description

An embodiment of the present invention relates to a lighting device.

Conventionally, in a circular lighting device, a circular light source is placed in the center of the main body of the fixture, with a power source, emergency unit, batteries, etc. placed around it, and these are covered by a globe that is attached to the main body of the fixture.

In such lighting devices, the space inside the fixture is limited, making wiring difficult.

JP 2019-102369 A

The problem that this invention aims to solve is to provide a lighting device that can improve wiring workability.

The lighting device of the embodiment includes a fixture body, an annular light source, an emergency unit, and a light source connector. The annular light source is disposed in the fixture body. The emergency unit is disposed in the fixture body and is located inside the annular light source. The light source connector is located inside the annular light source at a position facing the emergency unit, and is electrically connected to the annular light source.

The lighting device of this embodiment is expected to improve wiring workability.

1 is a perspective view of a lighting device showing a first embodiment. FIG. FIG. 2 is a bottom view of the lighting device with a globe and a light source cover removed. FIG. 2 is a perspective view of the lighting device with a globe and a light source cover removed. FIG. 2 is a bottom view of the fixture body of the lighting device. FIG. 2 is an enlarged perspective view of a portion of the fixture body of the lighting device. FIG. 11 is a bottom view of the lighting device according to the second embodiment with a globe and a light source cover removed.

The first embodiment will be described below with reference to Figures 1 to 6.

The lighting device 10 is shown in Figures 1 and 2. The lighting device 10 is a round bracket type emergency lighting fixture. The lighting device 10 is installed on the ceiling or wall surface on which it is to be installed.

The lighting device 10 includes a housing 11, a light source unit 12 arranged within the housing 11, a terminal block 13, a power supply unit 14, an emergency unit 15, and a battery 16.

The housing 11 comprises an instrument body 20 that is placed on the installation surface, and a globe 21 that is removably attached to the instrument body 20.

As shown in Figures 2 to 6, the device body 20 has a circular mounting surface 22 and a peripheral surface 23 that rises from the periphery of the mounting surface 22, and is formed in a cylindrical shape with an opening on the side opposite the mounting surface 22. The mounting surface 22 has a wiring hole 24 in the center through which the power cord passes, and a set of installation holes 25 and a set of installation holes 26 are provided in the radial direction centered on the wiring hole 24. The set of installation holes 25 located on the inner diameter side are for screwing to the mounting surface, and the set of installation holes 26 located on the outer diameter side are for attaching a hanging bolt.

A pair of cylindrical mounting parts 27 protrude from the inner surface of the mounting surface 22 to mount the light source unit 12 at diagonal positions across the central wiring hole 24, and support parts 28 and 29 protrude from the inner surface of the mounting surface 22 to support the rear side of the light source unit 12 in a direction intersecting the direction connecting the pair of mounting parts 27.

On the inner surface side of the mounting surface portion 22, a wall portion (protrusion) 30 protrudes at a midpoint between the central wiring hole 24 and the peripheral surface portion 23 in one direction intersecting the direction in which the installation holes 25, 26 are arranged. The wall portion 30 is provided in the form of a wide wall along the direction in which the installation holes 25, 26 are arranged. One support portion 28 is provided on one end side in the width direction of the wall portion 30. The wall portion 30 is provided with a lower protruding height from the inner surface of the mounting surface portion 22 than the one support portion 28. The emergency unit 15 is disposed on the inner diameter side of the wall portion 30, and the battery 16 is disposed on the outer diameter side. The wall portion 30 has a function of supporting the emergency unit 15 and a function of positioning the battery 16. A battery positioning portion 31 that positions the four sides of the battery 16 is protruded on the outer diameter side of the wall portion 30. The wall portion 30 also serves as a battery positioning protrusion 31 that positions one side of the battery 16.

A screw portion 32, which is a helical female screw, is formed on the inner surface of the peripheral portion 23 to rotate the globe 21 in the circumferential direction to attach and detach it.

The globe 21 is made of, for example, a milky white globe that has optical transparency and optical diffusion properties. The globe 21 has a circular front portion 33 and a peripheral portion 34 that is raised from the periphery of the front portion 33, and is formed in a cylindrical shape with an opening on the side opposite the front portion 33. The peripheral portion 34 of the globe 21 is formed with an insertion portion 35 that is inserted into the inside of the instrument body 20, and a threaded portion 36 that is a helical male screw that screws into the threaded portion 32 of the instrument body 20 is formed around the insertion portion 35.

A disk-shaped gasket 37 is placed on the back side of the fixture body 20, and an annular gasket 38 is interposed between the fixture body 20 and the globe 21, resulting in a waterproof lighting device 10.

As shown in Figures 2 to 4, the light source unit 12 includes an annular light source 40, a substantially annular heat sink 41 to which the annular light source 40 is attached, a light source cover 42 that covers the annular light source 40 between the heat sink 41, and a light source connector 43 attached to the heat sink 41.

The annular light source 40 comprises an annular substrate 44 and a plurality of normal light source elements 45 and a plurality of emergency light source elements 46 mounted on the substrate 44.

The board 44 has a roughly rectangular outer shape, with a roughly circular light source opening (board opening) 47 formed on the inside. A first wiring pattern in which multiple normal light source elements 45 are mounted and connected in series or series-parallel, and a second wiring pattern in which multiple emergency light source elements 46 are mounted and connected in series or series-parallel, are formed on the front side of the board 44. A board connector 48 electrically connected to the first wiring pattern and the second wiring pattern is mounted on the board 44. The back side of the board 44 is placed on the front side of the heat sink 41, and is attached to the heat sink 41 with multiple screws 49.

The plurality of regular light source elements 45 are, for example, light-emitting diodes, mounted on the first wiring pattern of the substrate 44, and arranged in a ring shape on the outer periphery of the substrate 44.

The multiple emergency light source elements 46 are, for example, light-emitting diodes, connected to the second wiring pattern of the substrate 44, and arranged in a ring shape on the inner side of the substrate 44 than the normal light source elements 45.

The normal light source element 45 and the emergency light source element 46 may be the same element or different elements, and the number of emergency light source elements 46 used is less than the number of normal light source elements 45.

The heat sink 41 is formed from a metal plate with a diameter smaller than the inner diameter of the peripheral surface portion 23 of the device body 20. The heat sink 41 has a circular outer shape, and a heat sink opening 50 smaller than the light source opening 47 is formed on the inside.

A pair of mounting holes 51 in the shape of a bellows are provided at the edge of the heat sink opening 50 of the heat sink 41, facing the tip surfaces of a pair of mounting parts 27 protruding from the fixture body 20. The light source unit 12 is attached to the fixture body 20 by screwing each screw 52 into each mounting part 27 through each mounting hole 51. The back side of the edge of the heat sink opening 50 of the heat sink 41 abuts against the tip surfaces of the support parts 28, 29 protruding from the fixture body 20. Therefore, the light source unit 12 is attached by the pair of mounting parts 27 and the support parts 28, 29 in a state where it is positioned on the opening side of the fixture body 20 separated from the inner surface of the mounting surface part 22.

A connector mounting portion 41a for mounting the light source connector 43 is formed at the edge of the heat sink opening 50 of the heat sink 41 by bending it approximately vertically toward the front side. The connector mounting portion 41a is bent so as to face the circumferential direction of the heat sink 41.

A light source cover mounting structure for mounting the light source cover 42 is provided around the mounting position of the substrate 44 on the heat sink 41. In this light source cover mounting structure, a pair of hook holes 53 are provided on one side around the mounting position of the substrate 44, a screw hole 54 is provided on the other side opposite the one side, and insertion holes 55 are provided on both sides that intersect with the one side and the other side.

The light source cover 42 is, for example, a transparent cover that has optical transparency, and is formed in a ring shape corresponding to the shape of the substrate 44. A pair of claws 56 protrude from one side of the light source cover 42 to be inserted into and hooked onto the hook holes 53 of the heat sink 41, and a mounting piece 58 protrudes from the other side opposite the one side to be attached to the screw fastening hole 54 with a screw 57, and plug parts 59 protrude from both sides that intersect the one side and the other side to be inserted into the plug holes 55.

The light source connector 43 is attached to the connector mounting portion 41a of the heat sink 41, and is disposed inside the annular light source 40 in a front view, and is disposed closer to the front portion 33 of the globe 21 in the light emission direction than the annular light source 40. The connector connection surface side of one end of the light source connector 43 is disposed facing the circumferential direction of the light source unit 12. A wiring 60 is drawn out from the other end of the light source connector 43, and a connection connector 61 is connected to the tip side of this wiring 60. The connection connector 61 is connected to a board connector 48 mounted on a board 44.

As shown in Figs. 2 and 5, the terminal block 13 is attached to the mounting surface 22 of the device body 20 at the wall 30 of the device body 20 and the side of the emergency unit 15 and the battery 16. A power line drawn from a wiring hole 24 of the device body 20 is electrically connected to the terminal block 13. The power line supplies external power such as commercial AC power.

The power supply unit 14 is attached to the mounting surface 22 of the fixture body 20 at a position facing the emergency unit 15 via the wiring hole 24. The input side of the power supply unit 14 is connected to one end of the input wiring, the other end of which is connected to the terminal block 13, and external power is input through the terminal block 13. The output side of the power supply unit 14 is connected to one end of the normal output wiring, the other end of which is connected to the fixture side connector 65. The fixture side connector 65 is detachably connected to the light source connector 43. The power supply unit 14 then converts the input external power into a predetermined lighting power such as DC power and supplies it to the normal light source element 45 of the annular light source 40, lighting the normal light source element 45.

The emergency unit 15 is attached to the mounting surface 22 of the fixture body 20 at a position between the wiring hole 24 and the wall 30. The emergency unit 15 is formed in a long rectangular parallelepiped shape, and one end in the longitudinal direction is attached to the mounting surface 22 of the fixture body 20. The other end in the longitudinal direction of the emergency unit 15 penetrates the inside of the annular light source 40 and is positioned closer to the front surface 33 of the globe 21 in the light irradiation direction than the annular light source 40.

The emergency unit 15 comprises a case 70 and a circuit section housed within this case 70. The circuit section includes a charging circuit that charges the battery 16 when external power is input and discharges the power of the battery 16 during a power outage, an emergency power supply circuit that converts the power from the battery 16 into a specified emergency lighting power during a power outage, and an inspection circuit that executes an inspection mode to inspect the battery 16 and light source unit 12 in response to an inspection signal or the operation of an inspection switch 74 from the remote control.

The emergency unit 15 includes an input terminal section 71 (shown in FIG. 6) to which one end of the input wiring, the other end of which is connected to the terminal block 13, is connected, a connector 72 to which the battery 16 is connected, and an output terminal section 73 to which the annular light source 40 is connected. One end of the emergency output wiring is connected to the output terminal section 73, and the other end of the emergency output wiring is connected to the fixture side connector 65. The normal output wiring is connected together with the emergency output wiring to the fixture side connector 65, which then connects the normal output wiring to the light source connector 43. The emergency unit 15 supplies the lighting power obtained by converting the power from the battery 16 to the emergency light source element 46 of the annular light source 40 during a power outage, thereby lighting the emergency light source element 46.

The emergency unit 15 is provided on its tip surface facing the front surface 33 of the globe 21 with an inspection switch 74 that can be manually operated to command inspection, a remote control light receiver 75 that receives signals such as an inspection signal from a remote control, and a monitor lamp 76 that displays the status of the battery 16 and the light source unit 12 and the inspection results. The inspection switch 74, remote control light receiver 75, and monitor lamp 76 are located closer to the front surface 33 of the globe 21 in the light emission direction than the annular light source 40.

The side of the emergency unit 15 is provided with a battery cord holder 77 that holds the battery cord from the battery 16 in an inserted state, and a battery connector holder 78 that temporarily holds the battery connector at the tip of the battery cord. The battery cord holder 77 has a first holder 77a that is substantially L-shaped and through which the battery cord is inserted between the side of the emergency unit 15 and the battery cord holder 77, and a second holder 77b that faces the first holder 77a and holds the battery cord in the first holder 77a. The battery cord holder 77 can be held by inserting the middle part of the battery cord through a notch between the first holder 77a and the second holder 77b. The battery connector holder 78 is provided closer to the mounting surface 22 of the device body 20 than the battery cord holder 77, and the battery connector is inserted and holds the battery connector. The battery connector holder 78 and the connection connector 72 are positioned opposite the light source opening 47 on the inside of the annular light source 40 and the heat sink opening 50 on the inside of the heat sink 41.

The battery 16 is a battery package consisting of multiple rechargeable secondary batteries connected together. The battery 16 is positioned between the surrounding battery positioning parts 31 on the side of the wall part 30, and is removably attached by a battery attachment member 82 attached to the battery positioning parts 31 with a decorative screw 81.

The battery 16 has a battery cord connected to the battery body pulled out, and a battery connector is connected to the tip of this battery cord. The battery cord is inserted through the battery cord holding portion 77 of the emergency unit 15 and connected to the connection connector 72 of the emergency unit 15. Note that when the lighting device 10 is shipped from the factory, in order to prevent the battery 16 from discharging, the battery connector is not connected to the connection connector 72, but is inserted into the connector holding portion 78 and temporarily held therein, and the battery connector is connected to the connection connector 72 when the lighting device 10 is installed.

To install the lighting device 10, the globe 21 and light source unit 12 are removed from the fixture body 20. The power line drawn from the installation surface is pulled into the fixture body 20 through the wiring hole 24, and then either screwed to the ceiling or wall surface using the installation hole 25, or when mounting to a ceiling surface, the power line is passed through the installation hole 26 onto a hanging bolt protruding from the ceiling surface, and the nut screwed onto the hanging bolt is tightened to mount to the ceiling surface. The power line pulled into the fixture body 20 is connected to the terminal block 13.

The battery connector of the battery cord of the battery 16 is removed from the battery connector holding portion 78 of the emergency unit 15 and connected to the connection connector 72 of the emergency unit 15. At this time, since the battery cord is held in the battery cord holding portion 77 of the emergency unit 15, even if the battery cord or battery connector is released from the hand during the connection operation, the battery connector can be re-grabbed without significant misalignment, and the battery cord can be connected to the connection connector 72 of the emergency unit 15 without getting caught on other parts inside the device body 20.

The light source unit 12 is inserted into the fixture body 20 and attached to the fixture body 20 with the screw 52. When the light source unit 12 is attached to the fixture body 20, the battery connector holder 78 and the connection connector 72 of the emergency unit 15 are positioned opposite the inner light source opening 47 of the annular light source 40 and the inner heat sink opening 50 of the heat sink 41, so that even after the light source unit 12 is attached to the fixture body 20, the battery connector of the battery 16 can be connected to the connection connector 72 of the emergency unit 15 as described above.

The fixture side connector 65 is pulled out to the front side of the light source unit 12 from the light source opening 47 on the inside of the annular light source 40 and the heat sink opening 50 on the inside of the heat sink 41, and connected to the light source connector 43. The light source connector 43 is attached to the connector mounting portion 41a of the heat sink 41 and is fixed in position, making it easy to connect the fixture side connector 65.

The globe 21 is attached to the fixture body 20, completing the installation.

When external power is supplied to the lighting device 10, the lighting power converted by the power supply unit 14 is supplied to the regular light source element 45 of the annular light source 40, and the regular light source element 45 is turned on. The light of the regular light source element 45 is emitted through the globe 21. The regular light source element 45 is arranged in a ring shape and on the outer periphery of the annular light source 40, so that the entire globe 21 is illuminated evenly and the light is irradiated over a wide area.

The emergency unit 15 charges the battery 16 using external power.

When the supply of external power is stopped due to a power outage or the like, the normal light source element 45 of the lighting device 10 is turned off and the emergency light source element 46 is turned on.

When external power is cut off, the emergency unit 15 is operated by power discharged from the battery 16, and the power from the battery 16 is converted into emergency lighting power and supplied to the emergency light source element 46 of the annular light source 40, which lights up the emergency light source element 46. Since the emergency light source element 46 is arranged in a ring shape, the entire globe 21 lights up evenly, and light is irradiated over a wide area.

The emergency unit 15 also displays the state of the battery 16 and the state of the light source unit 12 with monitor lamps 76. For example, if the battery 16 is being charged normally, the green battery monitor lamp 76 is lit, and if the light source unit 12 is in a normal state, the red light source monitor lamp 76 is turned off. On the other hand, if there is an abnormality in the connection of the battery 16, the green battery monitor lamp 76 is turned off, and if an abnormality in the charging of the battery 16 or the end of the battery 16's life is detected, the green battery monitor lamp 76 flashes, and further, if there is an abnormality in the light source unit 12, the red light source monitor lamp 76 flashes.

The lighting or blinking of the monitor lamp 76 can be seen through the front portion 33 of the globe 21. The emergency unit 15 is disposed in a part of the annular light source 40, and the monitor lamp 76 of the emergency unit 15 is disposed in a position closer to the front portion 33 of the globe 21 than the annular light source 40. Therefore, even if the normal light source element 45 is lit, it is easy to confirm the lighting or blinking of the monitor lamp 76 through the globe 21.

During inspection, the remote control is operated and aimed at the lighting device 10. When a signal from the remote control is received by the remote control receiver 75 of the emergency unit 15, the emergency unit 15 executes inspection mode for the battery 16 and light source unit 12. During inspection mode, the green monitor lamp 76 for the battery and the red monitor lamp 76 for the light source are alternately blinked. The inspection result in inspection mode is displayed by the lit state of the monitor lamp 76 as described above. Note that the inspection mode is also executed when the globe 21 is removed and the inspection switch 74 of the emergency unit 15 is operated.

When replacing the battery 16, the globe 21 is removed, the fixture side connector 65 is disconnected from the light source connector 43, the screw 52 that fastens the light source unit 12 to the fixture body 20 is loosened, the light source unit 12 is shifted to the side to remove the bell-shaped mounting hole 51 from the screw 52, and the light source unit 12 is removed from the fixture body 20 (resulting in the state shown in FIG. 5). Furthermore, the battery connector is disconnected from the connection connector 72, the battery cord is removed from the battery cord holder 77, the decorative screw 81 is loosened to remove the battery mounting member 82, and the battery 16 is removed.

The new battery 16 to be replaced is placed between the battery positioning protrusions 31 of the fixture body 20, and the battery mounting member 82 attached to the battery 16 is attached to the fixture body 20 with the decorative screw 81. The light source unit 12's bell-hole-shaped mounting portion 51 is fitted into the screw 52 on the fixture body 20 side, the light source unit is shifted to the side, and the screw 52 is tightened to attach the light source unit 12 to the fixture body 20. The fixture side connector 65 is connected to the light source connector 43, and the globe 21 is attached to the fixture body 20.

In the lighting device 10 configured as described above, the emergency unit 15 is positioned so that it penetrates the inside of the annular light source 40, making it possible to effectively utilize the limited space within the device and to make it compact.

In addition, the regular light source element 45 is arranged in a ring shape on the outer periphery of the annular light source 40, and the emergency light source element 46 is arranged in a ring shape on the inner periphery, and the emergency unit 15 having the monitor lamp 76 is arranged inside the annular light source 40, so that the regular light source element 45 and the monitor lamp 76 are arranged apart, and the light of the monitor lamp 76 can be easily seen even when the regular light source element 45 is turned on.

Furthermore, the monitor lamp 76 is positioned closer to the front portion 33 of the globe 21 than the annular light source 40, making the light from the monitor lamp 76 easier to see.

In addition, the emergency unit 15 is disposed inside the annular light source 40, and the light source side connector 43 is disposed in a position opposite this emergency unit 15, so that the fixture side connector 65, which is pulled out through the light source opening 47 on the inside of the annular light source 40, can be easily connected to the light source side connector 43, improving the workability of wiring.

Furthermore, the emergency unit 15 has a connection connector 72 at a position facing the front portion 33 of the globe 21, so that when the globe 21 is removed, the battery connector of the battery 16 can be connected to the connection connector 72 without removing the light source unit 12 from the fixture body 20.

Next, the second embodiment is shown in Figure 7.

Figure 7 shows a bottom view of the lighting device 10 with the globe 21 and light source cover 42 removed.

The annular light source 40 has a protrusion (light source protrusion) 90 that protrudes into the inner light source opening 47. The protrusion 90 is provided in a position facing the emergency unit 15. A plurality of emergency light source elements 46 are arranged together on the protrusion 90.

The battery 16 is detachably arranged between the emergency unit 15 and the protrusion 90 at a position facing the inner light source opening 47 of the annular light source 40 and the inner heat sink opening 50 of the heat sink 41.

The battery 16 is arranged in a wiring guide 91 that is arranged with a gap between it and the wiring hole 24 so that the power cord can pass through, and is arranged along the side of the emergency unit 15 and is removably attached by a battery attachment member 92 that is attached to the device body 20.

The battery mounting member 92 has a holder portion 93 that holds the battery 16 by sandwiching it between the wiring guide 91 and the emergency unit 15, and an arm portion 94 that extends from the holder portion 93 toward the mounting surface portion 22 of the fixture body 20, and the tip side of the arm portion 94 is attached to the fixture body 20 with a screw 95. The screw 95 is located in a position facing the light source opening 47 on the inside of the annular light source 40 and the heat sink opening 50 on the inside of the heat sink 41, and can be operated through the light source opening 47 on the inside of the annular light source 40 and the heat sink opening 50 on the inside of the heat sink 41.

The battery 16, together with the emergency unit 15, may penetrate through the inside of the annular light source 40, and a portion of the battery 16 may be positioned closer to the front portion 33 of the globe 21 in the light emission direction than the annular light source 40.

In the lighting device 10 of this embodiment, the emergency light source element 46 is disposed on the protruding portion 90 that protrudes inward from the annular light source 40, so that the light source opening 47 on the inside of the annular light source 40 can be made larger except for the protruding portion 90, and the inside of the annular light source 40 can be used effectively.

In addition, because the battery 16 is removably arranged inside the annular light source 40, the battery 16 can be easily replaced without removing the light source unit 12 from the fixture body 20.

The annular light source 40 may also include a ring-shaped light source in which at least the normal light source elements 45 are arranged in a ring shape and a light source opening 47 is formed on the inside, with part of the ring shape being open.

Although several embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, substitutions, and modifications can be made without departing from the gist of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are included in the scope of the invention and its equivalents described in the claims.

REFERENCE SIGNS LIST 10 Illumination device 15 Emergency unit 16 Battery 20 Fixture body 40 Annular light source 43 Light source connector 72 Connection connector

Claims (3)

An instrument body;
an annular light source disposed in the fixture body;
an emergency unit disposed in the fixture body and disposed inside the annular light source;
a light source connector disposed inside the annular light source at a position facing the emergency unit and electrically connected to the annular light source;
A lighting device comprising: a globe disposed in the device body and covering the annular light source, the emergency unit and the light source connector;
The emergency unit has a connector at a position facing the glove side,
The lighting device according to claim 1, wherein the light source connector and the connecting connector can be connected with the globe removed. The lighting device according to claim 1 , further comprising a removable battery disposed inside the annular light source.

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