JP7033896B2 - lighting equipment - Google Patents

Description

The present invention relates to a luminaire.

Conventionally, in a lighting fixture installed on a landing of stairs, there is a lighting fixture provided with an emergency light source and an emergency lighting device that are turned on in an emergency, in addition to a light source and a lighting device that are turned on during normal use (for example, a patent). Document 1).

Further, conventionally, there is an emergency lighting fixture in which one light source unit is used for both normal use and emergency lighting (for example, Patent Document 2).

Japanese Unexamined Patent Publication No. 2017-50257 Japanese Unexamined Patent Publication No. 2017-59425

The emergency luminaire of Patent Document 1 includes a sensor, but the sensor must be arranged so that the detection area does not interfere with the light source unit. In Patent Document 1, the sensor is provided on the lower side of the light source unit and is arranged on the outside of the instrument main body. If the sensor is housed inside the fixture body, the emergency lighting fixture may become large.

Further, although the lighting fixture described in Patent Document 2 is attached to the ceiling, the light distribution is mainly controlled in the direct downward direction so as to irradiate the floor surface. Therefore, when this lighting fixture is attached to the wall surface as emergency lighting for stairs, the front of the staircase user is irradiated with light, and it is necessary to add a member for controlling the light distribution, which complicates the structure. It is expected that.

An object of the present invention is to provide a lighting fixture capable of irradiating a target irradiation area with a simple configuration.

The luminaire of the present invention
A lighting fixture including a long-shaped fixture body mounted on a wall surface and a light source unit housed inside the fixture body.
The instrument body is
It has a back surface portion arranged so as to face the wall surface and a front surface portion facing the back surface portion, and has an opening in which the back surface portion is inclined so as to tilt toward the front surface portion. ,
The light source unit is
It has a translucent cover portion arranged so as to close the opening.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a lighting fixture capable of irradiating a target irradiation area with a simple configuration.

FIG. 6 is a perspective view of the lighting fixture 1 in the figure of the first embodiment. FIG. 1 is an exploded perspective view of the lighting fixture 1 in the figure of the first embodiment. In the figure of the first embodiment, the exploded perspective view of the luminaire 1 in different directions. FIG. 2 is a sectional view taken along the line BB in FIG. FIG. 1 is a sectional view taken along the line AA of FIG. FIG. 1 is a diagram showing a cross-sectional view of a staircase and a landing in the figure of the first embodiment. FIG. 1 is a view of the first embodiment and is a view seen from the direction D of FIG.

Embodiment 1.
*** Explanation of configuration ***
The configuration of the lighting fixture 1 of the first embodiment will be described with reference to FIGS. 1 to 5.
FIG. 1 is a perspective view of the lighting fixture 1.
FIG. 2 is an exploded perspective view of the lighting fixture 1.
FIG. 3 is an exploded perspective view of the luminaire 1 in a direction different from that of FIG.
FIG. 4 is a cross-sectional view taken along the line BB of FIG.
FIG. 5 is a cross-sectional view taken along the line AA of FIG.

As shown in FIGS. 2 and 3, the lighting fixture 1 has a long-shaped fixture main body 10 attached to the wall surface 85 and a light source unit 20 attached to the fixture main body 10.
The light source unit 20 is housed in an internal 86 of the fixture body 10.
The luminaire 1 includes a sensor unit 150.
The fixture body 10 and the light source unit 20 are formed to have substantially the same length.

As shown in FIG. 1, the longitudinal direction of the luminaire 1 is the X direction, and the width direction is the lateral direction Y. As shown in FIG. 2, the instrument main body 10 has a main body portion 110 that forms an outer shell.
Further, the instrument main body 10 has a mounting portion 120, a terminal block 130, an emergency unit 140, a sensor unit 150, a sensor control unit 160, a battery 170, and an inspection switch device 180 housed inside the main body portion 110. ..
The inspection switch device 180 includes an indicator 181 and an inspection switch 182.

As shown in FIG. 3, the main body 110 has a substantially pentagonal shape in the X-direction arrow view.
It is mounted on a mounted surface such as a wall surface 85.
Hereinafter, the wall surface 85 will be described as an example of the mounted surface, but the mounted surface is not limited to the wall surface 85.
The main body portion 110 has a back surface portion 111, an upper side surface portion 112, a lower side surface portion 113, a front surface portion 114, and a pair of side surface portions 116.
The upper side surface portion 112 is the first surface portion 81, and the lower side surface portion 113 is the second surface portion 82.
The upper side surface portion 112 and the lower side surface portion 113 face each other.
The back surface portion 111 is attached to the wall surface 85.
The upper side surface portion 112 extends from the upper end portion of the back surface portion 111 in a direction substantially perpendicular to the back surface portion 111.
The lower side surface portion 113 extends from the lower end portion of the back surface portion 111 in a direction substantially perpendicular to the back surface portion 111, but is shorter in length than the upper side surface portion 112.
The front surface portion 114 extends from the end portion of the upper side surface portion 112 so as to face the back surface portion 111. The pair of side surface portions 116 close both ends of the main body portion 110 in the longitudinal direction X.
Further, an opening 115 is formed between the end portion extending in the longitudinal direction X of the front surface portion 114 and the end portion extending in the longitudinal direction X of the lower side surface portion 113.
The opening 115 is shown by p, q, r, s in FIG.

As shown in FIG. 2, the back surface portion 111 is provided with a mounting hole 111a for mounting the main body portion 110 on the wall surface 85 and a power supply hole 111b for drawing an electric wire in order to receive power supply from a commercial power source.
The lower side surface portion 113 is formed with an indicator opening 113a, which is an opening for exposing the indicator 181 of the inspection switch device 180.
The front portion 114 is formed with a sensor opening 114a, which is an opening for a part of the sensor unit 150 to project.

As shown in FIGS. 2 and 4, the opening 115 is formed obliquely with respect to the back surface portion 111 and the front surface portion 114, and the light source unit 20 is inserted into the opening 115.
The opening 115 is an opening for the light source unit 20 to be housed inside the main body 110.

As shown in FIGS. 2 and 5, the light source unit 20 is obliquely inserted into and accommodated in the instrument main body 10 through the opening 115.

As shown in FIG. 4, the instrument main body 10 has a first accommodating portion 11 and a second accommodating portion 12. The space of the interior 86 has a first accommodating portion 11 and a second accommodating portion 12.
The first accommodating portion 11 is a space between the back surface portion 111 and the front surface portion 114, and is a space extending in the longitudinal direction X.
The second accommodating portion 12 is a space between the back surface portion 111 and the opening 115, and is a space extending in the longitudinal direction X.
As shown in FIGS. 2 and 5, large parts such as an emergency unit 140, a sensor unit 150, a sensor control unit 160, and a battery 170 are arranged in the first accommodating portion 11.
Further, the light source unit 20 is accommodated in the second accommodating portion 12, and small parts such as the terminal block 130 and the inspection switch device 180 are arranged so as not to interfere with the light source unit 20. In a state where the light source unit 20 is housed, the mounting portion 120, the terminal block 130, the inspection switch device 180, and the power supply device 240 are arranged so as to be arranged in the longitudinal direction. Therefore, the lighting fixture 1 can be made compact.

The mounting portion 120 has a main body side mounting portion and a light source side mounting portion.
The mounting portion 120 is a mechanism for mounting the light source unit 20 to the instrument main body 10.
An example of the main body side mounting portion arranged in the main body portion 110 is a spring 121, and an example of a light source side mounting portion arranged in the light source unit 20 is a mounting bracket 250.
The spring 121 is fixed to the spring mounting base 122.
The spring 121 engages with the mounting bracket 250 provided on the light source unit 20 to fix the light source unit 20 to the instrument main body 10.
The spring 121 is diagonally fixed by the spring mounting base 122 so that the light source unit 20 can be mounted obliquely with respect to the back surface portion 111.

The terminal block 130 has a terminal block connection portion 131 to which a power line inserted through the power supply hole 111b is connected.
A feeder line (not shown) for supplying power to the power supply device 240, the emergency unit 140, and the sensor control unit 160 of the light source unit 20 is connected to the terminal block 130.

The emergency unit 140 includes a charging circuit, a switching unit, and an emergency lighting circuit.
The charging circuit supplies the electric power supplied from the commercial power source to the battery 170 to charge the battery 170.
The switching unit selectively switches between a non-power failure state in which the battery is connected to the charging circuit and a power failure state in which the battery 170 is connected to the emergency lighting circuit, depending on the power supply status from the commercial power source.
The emergency lighting circuit receives power from the battery 170 in an emergency and lights the light source unit 20.
The emergency unit 140 is connected to the light source unit 20.

The sensor unit 150 transmits microwaves in the SHF band and receives radio waves reflected by an object, and moves like a person or a door that is opened and closed based on the frequency difference between the transmitted wave and the received wave due to the Doppler effect. Detect the body.
When the sensor unit 150 detects a moving object, the sensor unit 150 outputs a detection signal to the sensor control unit 160.
However, as the sensor unit 150, a device that detects a moving body by transmitting and receiving ultrasonic waves may be used instead of radio waves.

When the detection signal is not output from the sensor unit 150, the sensor control unit 160 stops the power supply device 240 of the light source unit 20 to turn off the light source unit 20, or supplies power sufficiently less than the rating to the power supply device 240. The light source unit 20 is dimmed and lit.
As a method of dimming and lighting the light source unit 20 by the power supply device 240, there are a method of changing the amplitude value of the current value and a method of changing the period for supplying the current to increase or decrease the supplied power per unit time. ..

Further, when the detection signal is output from the sensor unit 150, the sensor control unit 160 controls the power supply device 240 to supply the rated output, thereby lighting the light source unit 20 in a rated manner.
When the standby time elapses from the time when the detection signal is no longer output from the sensor unit 150, the sensor control unit 160 controls the power supply device 240 to turn off the light source unit 20 or turn on the dimming.
However, if the detection signal is output again within the standby time, the sensor control unit 160 resets the clock of the standby time and keeps the light source unit 20 rated and lit. The standby time is set in advance in the sensor control unit 160.

The battery 170 stores electric power supplied via the emergency unit 140.
The battery 170 supplies power to the emergency unit 140 and lights the light source unit 20 in an emergency when the power supply from the commercial power supply is stopped.

The indicator 181 included in the inspection switch device 180 indicates the state of charge of the battery 170.
When the inspection switch 182 of the inspection switch device 180 is pressed, the switching unit of the emergency unit 140 is forcibly switched to the non-power failure state, and the inspection work to confirm whether the emergency lighting circuit operates normally starts. do.
The inspection switch device 180 is arranged so that the inspection switch 182 and the indicator 181 are exposed from the indicator opening 113a formed in the lower side surface portion 113 of the main body portion 110.

The light source unit 20 has a long shape, is inserted into the instrument main body 10 through an opening 115, and is housed in the instrument main body 10.
As can be seen from FIGS. 1 and 2, the light source unit 20 is formed to have substantially the same length as the opening 115.
The light source unit 20 includes a light emitting unit 210, a frame 220, a cover unit 230, a power supply device 240, and a mounting bracket 250.
In the light emitting unit 210, the light emitting element 211 is mounted on the substrate 212.
A light emitting unit 210 is attached to the frame 220.
The cover portion 230 is attached to the frame 220 so as to face the light emitting portion 210.
The power supply device 240 supplies electric power for lighting the light emitting unit 210.
The mounting bracket 250 engages with the spring 121 to detachably fix the light source unit 20 to the fixture body 10.

The light source unit 20 is housed in the instrument body 10 so that the cover portion 230 closes the opening 115.
Further, the light source unit 20 is housed in a state of being inclined obliquely toward the lower side surface portion 113 with respect to the vertical direction of the back surface portion 111.
That is, the light source unit 20 is housed in the fixture body 10 downward from the horizontal.
The light source unit 20 is housed in the fixture body 10, and the light emitting unit 210 is located inside the fixture body 10 rather than the opening 115.
The light source unit 20 is obliquely housed in the instrument main body 10 so as to be able to irradiate the assumed target range.
The assumed target range is, for example, the floor in the case of a corridor, and the range of the landing and stairs in the case of a landing of stairs.

In the light emitting unit 210, a plurality of light emitting elements 211 are mounted on a long substrate 212 in a straight line. The column in which a plurality of columns are implemented may be one column or a plurality of columns.

The frame 220 is formed by bending a metal plate.
The frame 220 has a mounting portion 221 to which the light emitting portion 210 is mounted, a reflecting portion 222 protruding from both ends of the mounting portion 221 in the lateral direction Y, and a cover holding portion 223 for holding the cover portion 230. is doing.
In addition to being formed by bending a metal plate, the frame 220 may be formed by molding a material such as aluminum.

The cover portion 230 is made of a plate-shaped glass material and is attached to the cover holding portion 223 of the frame 220.
The cover unit 230 diffuses and emits the light from the light emitting unit 210.
Further, since the cover portion 230 uses a glass material which is a non-combustible material, it is possible to suppress the spread of fire to the light emitting portion 210, and the light source unit 20 can be used as both a normal light source and an emergency light source. can. The cover portion 230 may be made of a material different from the glass material as long as it has light transmission and is a non-combustible material.
Further, the cover portion 230 is not limited to a plate shape. It may be shaped so that a part of it is curved.

The power supply device 240 converts the electric power supplied from the commercial power source into electric power that can be lit by the light emitting unit 210 and supplies the electric power to the light emitting unit 210.
The power supply device 240 has a power supply main body unit 241, a first input unit 242, a second input unit 243, an output wire 244, and a third input unit 245.
A circuit board is built in the power supply main body 241.
The first input unit 242 is provided on the input side of the power supply main body unit 241 and is connected to the terminal block connection unit 131 of the terminal block 130.
The second input unit 243 is provided on the input side of the power supply main body unit 241 and is connected to the sensor connection unit 161 of the sensor control unit 160.
The output wire 244 is provided on the output side of the power supply main body 241 and is connected to the light emitting unit 210.
The third input unit 245 is provided in the middle of the output wire 244 and is connected to the emergency connection unit 141 of the emergency unit 140.
Power from a commercial power source is supplied to the first input unit 242, a control signal from the sensor control unit 160 is transmitted to the second input unit 243, and an emergency unit 140 of the emergency unit 140 is transmitted to the third input unit 245. Power is supplied from the lighting circuit.

The mounting bracket 250 engages with the spring 121 to fix the light source unit 20 to the fixture body 10.
The mounting bracket 250 is mounted on the opposite side of the light emitting portion 210 of the mounting portion 221.
Two mounting brackets 250 are provided so as to sandwich the power supply device 240 in the longitudinal direction X.
The spring 121 may be provided in the light source unit 20, and the mounting bracket 250 may be provided in the instrument main body 10.

With reference to FIG. 5, the accommodation state of the light source unit 20 and the sensor unit 150 housed in the instrument main body 10 will be described.
The light source unit 20 and the sensor unit 150 are housed in the instrument main body 10 so as to be sandwiched between the upper side surface portion 112 and the lower side surface portion 113.
The sensor unit 150 is arranged closer to the upper side surface portion 112 than the light source unit 20.
Therefore, the detection range of the sensor unit 150 does not interfere with the light source unit 20.
Further, since the sensor unit 150 is housed in the fixture main body 10, the lighting fixture 1 becomes compact.

The light source unit 20 has a light emitting unit 84.
The light emitting unit 84 is composed of a light emitting unit 210 that emits light, a reflecting unit 222 that reflects the light emitted by the light emitting unit 210, and a cover unit 230 that transmits the light emitted by the light emitting unit 210 and the light reflected by the reflecting unit 222. Become.
The sensor unit 150 is arranged between the light emitting unit 84 and the upper side surface portion 112 and is housed in the instrument main body 10.
As shown in FIG. 5, in the lighting fixture 1, the lower side surface portion 113 is downward with respect to the upper side surface portion 112 in the used state.
Since the sensor unit 150 is arranged between the light emitting unit 84 and the upper side surface portion 112 and is housed in the fixture main body 10, the detection range of the sensor unit 150 does not interfere with the light emitting unit 84, and the lighting fixture 1 The size of is also compact.

As shown in FIG. 5, the instrument main body 10 has a back surface portion 111 arranged so as to face the wall surface 85, and a front surface portion 114 facing the back surface portion 111.
The opening 115 is inclined to an inclined state 83 in which the back surface portion 111 is tilted toward the front surface portion 114 by an angle θ.
The translucent cover portion 230 is arranged so as to close the opening 115.
Therefore, the light emitted through the cover portion 230 located at the opening 115 is emitted downward from the horizontal direction.

The light source unit 20 can be removed from the inside 86 of the fixture body 10 to the outside 88 of the fixture body 10 through the opening 115, and vice versa, it is attached to the inside 86 from the outside 88 of the fixture body 10 through the opening 115. It is possible.
Therefore, the light source unit 20 can be easily attached to and detached from the fixture body 10.

The light source unit 20 has a substrate 212 in which a light emitting element 211 is arranged and housed inside the instrument main body 10 so as to face the cover portion 230.
Therefore, the light emitted through the cover portion 230 located at the opening 115 is emitted downward from the horizontal direction.

Next, the irradiation range and the sensor detection range of the lighting fixture 1 will be described.
FIG. 6 is a cross-sectional view of the stairs and the landing.
FIG. 7 is a view seen from the D direction of FIG.
In FIG. 6, OD1, OD2, and OD3 indicate landing 1, landing 2, and landing 3.
K1 and K2 in FIGS. 6 and 7 indicate stairs 1 and stairs 2.
The luminaire 1 can be used both in a normal time when the light source unit 20 is in a non-power failure state and in an emergency time when the light source unit 20 is in a power failure time.
Therefore, it is possible to irradiate the range of L1 in FIG. 6 with the same light distribution for both normal use and emergency use.
Further, in the case of the configuration in which the emergency light source is separately arranged at both ends in the longitudinal direction as in Patent Document 1 (Japanese Unexamined Patent Publication No. 2017-50257), it is not possible to irradiate between the two emergency light sources, and the landing. There is a risk that the irradiated area such as the above will not be sufficiently irradiated.
On the other hand, since the light source unit 20 is long and the light source unit 20 can be used for both normal use and emergency, it is possible to irradiate the non-irradiated portion as a whole in both normal use and emergency.

Further, since the lighting fixture 1 accommodates the light source unit 20 so as to be able to irradiate diagonally downward, it is possible to irradiate the landing OD1, the landing OD2, the landing OD3, the stairs K1, and the stairs K2 in FIG.
In contrast to the lighting fixture 1 of the first embodiment, the conventional light source of Patent Document 1 has strong irradiation in the front direction perpendicular to the mounting surface and weak irradiation in the diagonally downward direction in the direction of the landing. Therefore, there is a risk that the landing will not be sufficiently illuminated.

Since the lighting fixture 1 accommodates the light source unit 20 so as to be able to irradiate the light source unit 20 in an obliquely downward direction, it is possible to suppress the pedestrian from feeling dazzling.
Since the lighting fixture of Patent Document 1 has strong light in the front direction and directly irradiates pedestrians with strong light, pedestrians may feel dazzling, and it is also considered necessary to attach a diffuser plate to suppress glare. Be done.
On the other hand, in the lighting fixture 1, since the irradiation direction of the light source unit 20 is licked downward, glare can be suppressed without increasing the number of new parts.

Further, the light source unit 20 can change the light distribution of the light source unit by changing the shape of the reflection unit 222, that is, the direction of inclination of the reflection unit 22.

The brightness of the light source unit 20 in an emergency does not have to be brighter than the normal brightness, and may be any amount of light that can secure an illuminance equal to or higher than the illuminance specified by the Fire Service Act.

*** Explanation of effect ***
(1) In the lighting fixture 1 of the first embodiment, a part of the sensor unit 150 is housed in the first housing part 11 so as to protrude from the front portion 114, and the light source unit 20 is housed in the second housing part 12 diagonally from the opening 115. Since it is housed in the sensor unit 150, it is possible to prevent the light source unit 20 from interfering with the detection area of the sensor unit 150.
(2) Large parts such as an emergency unit 140, a sensor unit 150, a sensor control unit 160, and a battery 170 are arranged in the first accommodation unit 11, and the light source unit 20 is accommodated in the second accommodation unit 12. In addition, by arranging small parts such as the terminal block 130 and the inspection switch device 180 so as not to interfere with the light source unit 20, it is possible to prevent the lighting fixture 1 from becoming large.
(3) In the lighting fixture 1, the light source unit 20 serves as both a light source for normal use and a light source for emergency use.
Therefore, it is not necessary to newly arrange an emergency light source unit in the longitudinal direction, and it is possible to suppress an increase in the number of parts.
(4) In the lighting fixture 1, the battery 170 can be replaced by removing the light source unit 20 from the opening 115.
Although the light source unit 20 is fixed by a spring 121, the instrument body 10 can be removed by pulling the light source unit 20, so that the light source unit 20 can be attached and detached without using a tool.
Therefore, the battery 170 can be easily replaced.
(5) According to the lighting fixture 1, by accommodating the sensor unit 150 in the fixture main body 10, it is possible to provide the lighting fixture 1 which is compact and whose detection range of the sensor unit 150 does not interfere with the light source unit 20.
(6) In the lighting fixture 1, the light source unit 20 is diagonally housed in the fixture main body 10, and when the lighting fixture 1 is installed on the wall surface 85, the light source unit 20 irradiates diagonally downward with respect to the horizontal.
Therefore, according to the lighting fixture 1, it is possible to provide a lighting fixture capable of illuminating the stairs and the landing with a simple configuration.

1 Lighting equipment, 10 Equipment main body, 11 1st accommodation part, 12 2nd accommodation part, 110 main body part, 111 back part, 111a mounting hole, 111b power supply hole, 112 upper side part, 113
Lower side, 113a indicator opening, 114 front, 114a sensor opening, 115 opening, 116 side, 120 mounting, 121 spring, 122 spring mounting, 130 terminal block, 131 terminal block connection, 140 emergency Unit, 141 emergency connection, 150 sensor unit, 160 sensor control unit, 161 sensor connection, 170 battery, 180 inspection switch device, 181 indicator, 182 inspection switch, 20 light source unit, 210 light emitting part, 211 light emitting element, 212 Board, 220 frame, 221 mounting part, 222 reflective part, 223 cover holding part, 230 cover part, 240 power supply device, 241 power supply main body part, 242 first input part, 243 second input part, 244 output wire, 245th 3 input part, 250 mounting bracket, 81 first surface part, 82 second surface part, 83 tilted state, 84 light emitting unit, 85 wall surface, 86 inside, 88 outside.

Claims (4)

A lighting fixture including a long-shaped fixture body mounted on a wall surface and a light source unit housed in the internal space of the fixture body.
The instrument body is
It has a back surface portion arranged so as to face the wall surface and a front surface portion facing the back surface portion, and has an opening inclined in an inclined state in which the back surface portion falls toward the front surface portion. ,
The light source unit is
It is a plate-shaped cover portion, and a portion of the plate-shaped thickness on the side of the internal space is located in the internal space with respect to the opening, and the plate-shaped thickness is the same as the internal space. A lighting fixture having a translucent cover portion arranged so as to close the opening in a state where a portion having a thickness on the opposite side is located outside the internal space with respect to the opening. The light source unit is
The first aspect of claim 1, wherein the instrument body can be removed from the internal space of the instrument body to the outside of the instrument body through the opening, and can be attached to the internal space from the outside of the instrument body through the opening. lighting equipment. The light source unit is
The lighting fixture according to claim 1 or 2, wherein the light emitting element is arranged and has a substrate housed in the internal space of the fixture body so as to face the cover portion. The lighting fixture according to any one of claims 1 to 3, wherein the cover portion is formed of a non-combustible material.

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