JP7117575B2 - lighting equipment - Google Patents

Description

FIELD OF THE DISCLOSURE The present disclosure relates generally to lighting devices, and more particularly to lighting devices having a lighting circuit for lighting a light source.

2. Description of the Related Art Conventionally, a lighting device using an LED (Light Emitting Diode) as a light source is known, and is disclosed in Patent Document 1, for example. The lighting device described in Patent Literature 1 is a downlight lighting device and includes a power supply section and a light source section. The power supply unit has a power terminal block and a power supply device. The light source section has a heat sink and a light emitting section on which a light emitting element (LED) is mounted. The power supply is arranged inside the heat sink.

JP 2017-98131 A

However, in the lighting device described in Patent Document 1, since the power supply device (inner device) is housed in a closed space surrounded by parts such as a heat sink (housing), heat tends to stay in this closed space, resulting in heat dissipation. was difficult to improve.

This indication is made in view of the above-mentioned point, and an object of this indication is to provide a lighting installation which can aim at improvement in heat dissipation.

A lighting device according to an aspect of the present disclosure includes an inner container capable of holding the light source at one end in one direction, and a housing that accommodates the inner container. and a cover attached to the housing and having a window through which the light source is exposed to the outside. The cover has a plurality of holding portions each holding a plurality of supports for attaching the cover to the construction material. Each of the plurality of holding portions protrudes in the one direction from a mounting surface of the cover to which the housing is mounted. The plurality of holding portions are arranged side by side so as to surround the housing when viewed from the one direction, and are spaced apart from each other in the circumferential direction of the cover. The mounting surface of the cover is provided with one or more ribs projecting in the one direction. The one or more ribs are arranged so as to line up with the plurality of holding portions in the circumferential direction of the cover. The housing has a fixing portion for fixing the inner device to the housing. A portion of the one or more ribs facing the fixed portion is open so as to expose the fixed portion to the outside.

The present disclosure has the advantage of being able to improve heat dissipation.

1 is a schematic perspective view showing a cover of a lighting device according to an embodiment of the present disclosure; FIG. FIG. 2 is a schematic plan view showing a cover of the same illumination device. FIG. 3 is a schematic perspective view of the same lighting device as seen from above. FIG. 4 is a schematic perspective view of the same lighting device as seen from below. 5A and 5B are schematic perspective views showing housings of the same illumination device, respectively. FIG. 6 is a schematic block diagram showing the connection relationship between the illumination device and the standby power supply device of the same. 7A and 7B are conceptual diagrams for explaining a method of assembling the same lighting device. FIG. 8 is a schematic perspective view of another cover to which the assembled housing of the same lighting device is attached. FIG. 9 is a schematic perspective view of a state in which the assembled housing of the same lighting device is attached to another cover.

(1) Configuration Hereinafter, a lighting device 100 according to an embodiment of the present disclosure will be described with reference to the drawings. However, each drawing described in the following embodiments is a schematic drawing, and the ratio of the size and thickness of each component does not necessarily reflect the actual dimensional ratio. Further, in the following description, as shown in FIG. 7, the first direction (longitudinal direction) D1 of the housing 1 is defined as the vertical direction, the bottom piece 11 side as viewed from the opening of the housing 1 is "up", and the opposite side is "up". Define "bottom". Note that the arrow pointing in the first direction D1 (up-down direction) and the arrow pointing in the second direction D2 shown in the drawings are only shown for the sake of explanation and are not substantial. Moreover, the definition of the direction described above is not intended to limit the mode of use of the lighting device 100 .

As shown in FIGS. 1 to 4, the illumination device 100 of this embodiment includes a housing 1, an inner device 2, a light source 3, a cover 6, and a plurality of (here, two) supports 7. , is equipped with The inner device 2 has a lighting circuit 212 (see FIG. 6) for lighting the light source 3 including a light emitting diode (LED). Further, the inner device 2 is configured to be able to hold the light source 3 at one end (here, the lower end) in one direction (first direction D1). The housing 1 accommodates the inner device 2 and is configured to be able to hold the inner device 2 at a first end (here, a lower end) in the first direction D1 (see FIG. 7). That is, the inner device 2 is held by the housing 1 by fixing the first end of the inner device 2 in the first direction D1 to the first end of the housing 1 in the first direction D1.

In the present embodiment, the lighting device 100 is configured as a so-called separate power source type emergency light (emergency lighting equipment) that does not incorporate a battery. The lighting device 100 is installed in a building such as an accommodation facility or an office building, for example. Specifically, the lighting device 100 is embedded in a construction material (here, ceiling material) A1 in a space to be illuminated, such as a passageway or corridor in a building (see FIG. 4). As shown in FIG. 6, the illumination device 100 is configured to light the light source 3 with DC power or AC power (here, DC power) supplied from an external standby power supply device B1.

The housing 1 is formed by punching and bending a single sheet metal (that is, plate material) such as a galvanized steel plate or a stainless steel plate. As shown in FIGS. 5A and 5B, the housing 1 is generally formed in a bottomed cylindrical shape with an open bottom surface and a long bottom in the first direction D1 with the top portion as the bottom. The “first direction” in the present disclosure corresponds to the direction in which the lighting device 100 is inserted into and removed from the embedding hole A11 provided in the building material A1 when the lighting device 100 is attached to the building material A1. In this embodiment, the lighting device 100 is attached to the ceiling material as the construction material A1, so the first direction D1 is, for example, the vertical direction. Of course, the first direction D1 may not be the vertical direction, and may be a direction inclined at a predetermined angle with respect to the vertical direction.

The housing 1 has two rectangular windows 13 when viewed in a second direction D2 intersecting the first direction D1. The “second direction” referred to in the present disclosure is a direction intersecting (perpendicular to) the first direction D1. In this embodiment, the lighting device 100 is attached to the ceiling material as the construction material A1, so the second direction D2 is, for example, the horizontal direction. Of course, the second direction D2 may not be the horizontal direction, and may be a direction inclined at a predetermined angle with respect to the horizontal direction. In the state where the inner device 2 is accommodated in the housing 1 , a wire insertion port 231 of the input terminal portion 23 to be described later is exposed from one of the two windows 13 . A power cable from the standby power supply device B1 is connected to the wire insertion port 231 .

The housing 1 has a bottom piece 11 and a plurality of (here, two) side pieces 12 . The bottom piece 11 has a rectangular shape when viewed from the first direction D1, and the second end (here, the upper end) opposite to the first end (here, the lower end) in the first direction D1 is positioned at the housing. 1 constitutes the bottom. That is, in this embodiment, the upper end of the housing 1 is the bottom portion, and the lower end of the housing 1 is open.

Each of the side pieces 12 is connected to the bottom piece 11 and constitutes a side portion of the housing 1 . Each of the plurality of side pieces 12 has five rectangular pieces (first piece 121, second piece 122, third piece 123, fourth piece 124, and fifth piece 125) long in the first direction D1. is doing. In other words, the housing 1 has two each of the first piece 121 , the second piece 122 , the third piece 123 , the fourth piece 124 and the fifth piece 125 . In each of the plurality of side pieces 12, these five pieces 121-125 are integrally formed.

The first piece 121 is connected to one end of the bottom piece 11 at the second end (upper end) in the first direction D1. The first piece 121 is provided with a holding portion 14 that holds the support 7 . In other words, each of two or more side pieces 12 (first pieces 121 ) among the plurality of side pieces 12 is provided with the holding portion 14 that holds the support 7 . The holding portion 14 has a pair of holding pieces 141 . The pair of holding pieces 141 is formed by cutting and raising the first piece 121, and has a hook shape when viewed from the first direction D1. By inserting a first end portion 71 (described later) of the support 7 between the pair of holding pieces 141 of the first piece 121 , the support 7 is held by the pair of holding pieces 141 .

In this embodiment, the plurality of support members 7 are held by the plurality of holding portions 62 of the cover 6, which will be described later, respectively, so the plurality of holding portions 14 of the housing 1 are not used. A plurality of holding portions 14 of the housing 1 are used to hold a plurality of supports 7 when a separate cover 9 (described later) is used instead of the cover 6 .

The second piece 122 is connected to the first piece 121 at one end in the short direction of the first piece 121 . The third piece 123 is connected to the first piece 121 on the other end side of the first piece 121 in the short direction. A circular fixing hole 151 penetrating in the second direction D2 is provided at the first end (lower end) of the second piece 122 in the first direction. The fixing hole 151 allows insertion of the assembly screw 8 (see FIG. 3) from the second direction D2 and is used to fix the housing 1 to the heat radiating member 22 . That is, the peripheral edge of the fixing hole 151 in the second piece 122 corresponds to the fixing portion 15 fixed to the heat radiating member 22 which is a part of the inner container 2 . In other words, each of the plurality of side pieces 12 (here, second pieces 122) is fixed to a part (here, heat dissipation member 22) of inner unit 2 in second direction D2 intersecting first direction D1. It has a fixing portion 15 that is attached.

The fourth piece 124 is connected to one end in the lateral direction of the second piece 122 (one end opposite to the first piece 121). The fifth piece 125 is connected to one end of the third piece 123 in the lateral direction (the end opposite to the first piece 121). A fourth piece 124 of one side piece 12 of the two side pieces 12 and a fifth piece 125 of the other side piece 12 face each other with a gap 16 interposed therebetween. Similarly, the fifth piece 125 of one side piece 12 of the two side pieces 12 and the fourth piece 124 of the other side piece 12 face each other across the gap 16 . That is, there is a gap 16 between two adjacent side pieces 12 among the plurality of side pieces 12 .

In this embodiment, the fixing hole 151 of the fixing portion 15 is provided at a position closer to the fourth piece 124 than the intermediate portion between the first piece 121 and the fourth piece 124 . Furthermore, in each of the two or more side pieces 12 , the fixing portion 15 (here, the periphery of the fixing hole 151 ) is provided at a position closer to the gap 16 than the intermediate portion of the side piece 12 .

As shown in FIGS. 7A and 7B, the inner device 2 has a size that can be accommodated in the housing 1 as a whole, and includes a power supply unit 21, a heat dissipation member 22, an input terminal portion 23 (see FIG. 3), have. 7A and 7B, illustration of the input terminal portion 23 is omitted. 7A and 7B, the power supply unit 21 and the heat dissipation member 22 of the inner device 2 are shown in simplified shapes.

The power supply unit 21 has a cylindrical case 211 elongated in the first direction D1, and the case 211 accommodates a lighting circuit 212 (see FIG. 6). The lighting circuit 212 has, for example, a full-wave rectifier circuit such as a diode bridge and a step-down chopper circuit. The lighting circuit 212 is configured to convert DC power or AC power supplied via the input terminal section 23 into predetermined DC power. The lighting circuit 212 is configured to supply the output current of the step-down chopper circuit to the light source 3 to light the light source 3 .

The heat dissipation member 22 is a plate material made of metal such as aluminum or an aluminum alloy, and has a disk-shaped main plate 221 and a pair of projecting pieces 222 . The main plate 221 is fixed to the lower end of the case 211 of the power supply unit 21 by appropriate fixing means such as screws. Further, the main plate 221 is attached to the holder 5 and the cover 6 by appropriate fixing means such as screwing. In other words, the holder 5 can be attached to one end (lower end) of the heat radiating member 22 in the first direction D1.

The pair of protruding pieces 222 has a rectangular shape when viewed from the second direction D2, and is provided at portions of the heat radiating member 22 facing each of the plurality of side pieces 12 (here, the second pieces 122). The pair of protruding pieces 222 protrude downward from both sides of the main plate 221 in the second direction D2 (that is, in the first direction D1 from the heat radiating member 22 toward the holder 5). Each of the pair of projecting pieces 222 is provided with a circular fixing hole 223 penetrating in the second direction D2. The two fixing holes 223 and the two fixing holes 151 of the housing 1 are superimposed on each other and screwed with assembly screws 8 to form a pair of projecting pieces 222 (that is, a part of the inner device 2). is fixed to the fixing portion 15 of the housing 1 .

The lower surface of the main plate 221 contacts the mounting board of the light source 3 with the heat dissipation sheet interposed therebetween when the heat dissipation member 22 is attached to the holder 5 . Thereby, the heat dissipation member 22 is thermally coupled with the light source 3 . The heat radiation member 22 is thermally coupled to the light source 3, so that the heat generated by the lighting of the light source 3 is released to the outside through the housing 1 fixed to the pair of protrusions 222 of the heat radiation member 22. configured to escape.

The input terminal portion 23 is a terminal block to which a power cable is connected. In this embodiment, the input terminal portion 23 is configured by a terminal block with a feed terminal. Of course, the input terminal part 23 does not need to have a sending terminal. DC power or AC power supplied from the standby power supply device B1 is input to the input terminal portion 23 via a power cable. DC power or AC power input to the input terminal portion 23 is output to the lighting circuit 212 .

The light source 3 is an LED module. In the light source 3, at least one LED chip is mounted in the center of the mounting surface of the mounting substrate in the form of a rectangular flat plate. The LED chip is preferably, for example, a blue light emitting diode that emits blue light. Further, the mounting surface of the mounting substrate including the LED chip is covered with a disk-shaped sealing resin mixed with a fluorescent substance that converts the wavelength of the blue light emitted from the LED chip. Further, a cathode electrode and an anode electrode are formed on the mounting substrate. The light source 3 is configured to emit white illumination light by applying a DC voltage between an anode electrode and a cathode electrode. A light source 3 is held by a holder 5 together with a lens 4 .

The lens 4 is made of glass, for example, and has a hemispherical lens portion 41 and an annular collar portion protruding outward from the peripheral edge of the lens portion 41 as shown in FIG. The lens portion 41 has a paraboloidal incident surface of revolution. The lens portion 41 is configured to control the light distribution of the light incident on the incident surface (that is, the light emitted from the light source 3).

The holder 5 is made of, for example, a synthetic resin material such as polycarbonate resin, and is shaped like a disc as shown in FIG. 7A. The holder 5 is provided with an opening penetrating in the first direction D1. The light source 3 is held by the holder 5 so that the LED chip is exposed to the outside through this opening. Further, the lens 4 is held by the holder 5 at the flange so that the light emitted from the light source 3 is incident on the incident surface of the lens portion 41 . The holder 5 is attached to the heat radiating member 22 and the cover 6 by appropriate fixing means such as screwing.

The cover 6 is made of, for example, a metal material such as aluminum, and is formed in a disk shape larger than the outer shape of the housing 1 as shown in FIGS. 1 and 2 . The cover 6 is attached to the housing 1 and configured to close the opening on the bottom surface of the housing 1 . A circular window hole 61 penetrating in the first direction D1 is provided in the center of the cover 6 . The window hole 61 has a size that allows the lens portion 41 of the lens 4 to pass therethrough. The lens portion 41 is inserted through the window hole 61 in a state where the cover 6 is attached to the housing 1 housing the inner device 2 . That is, the lens portion 41 faces the outside of the cover 6 through the window hole 61 . Thus, the window hole 61 exposes the light source 3 to the outside through the lens portion 41 .

The cover 6 includes a plurality of (here, two) holding portions 62, one or more (here, two) ribs 63, one or more (here, two) inner ribs 64, and a plurality (here, two 2) bosses 65 and .

The plurality of bosses 65 protrude in one direction (first direction D1) from the mounting surface 60 of the cover 6 and are formed integrally with the cover 6 . The “attachment surface” referred to in the present disclosure is the surface of the cover 6 to which the housing 1 is attached, and is the upper surface of the cover 6 . That is, the "mounting surface" is one surface of the cover 6, and includes not only the portion of the cover 6 that is in contact with the housing 1, but also the portion that is not in contact. The plurality of bosses 65 are arranged to face each other across the window hole 61 when viewed in the first direction D1. The plurality of bosses 65, the plurality of screw holes provided in the heat radiating member 22, and the plurality of screw holes provided in the holder 5 are superimposed on each other, and the cover 6 is fastened with mounting screws. The holder 5 and the heat radiating member 22 (that is, the inner container 2) are attached to the . The housing 1 is also attached to the cover 6 by covering the inner device 2 attached to the cover 6 with the housing 1 and fixing the inner device 2 to the housing 1 . Hereinafter, the housing 1 in which the inner device 2 is fixed while containing the inner device 2 is also referred to as an "assembled housing".

Each of the plurality of holding portions 62 protrudes in one direction (first direction D1) from the mounting surface 60 of the cover 6 and is formed integrally with the cover 6 . The plurality of holding portions 62 are configured to hold the support 7 respectively. Specifically, each of the plurality of holding portions 62 has a rectangular standing piece 621 elongated in the first direction D1 and a pair of holding pieces 622 provided on both sides of the standing piece 621 in the short direction. is doing. The pair of holding pieces 622 protrude from the upright pieces 621 in the radial direction (second direction D2) of the cover 6 and have a hook shape when viewed from the first direction D1. The support 7 is held by the pair of holding pieces 622 by inserting the first end portion 71 of the support 7 between the pair of holding pieces 622 in each of the plurality of holding portions 62 .

As shown in FIG. 2, the plurality of holding portions 62 are arranged side by side in the circumferential direction of the cover 6 so as to surround one or more inner ribs 64 when viewed from the first direction D1. An assembled housing is placed in the recess surrounded by one or more inner ribs 64, as described below. That is, in a state in which the assembled housing is attached to the cover 6, the plurality of holding portions 62 surround the assembled housing (that is, the housing 1) when viewed from one direction (the first direction D1). placed side by side. The plurality of holding portions 62 are separated from each other with a space interposed therebetween in the circumferential direction of the cover 6 . That is, the plurality of holding portions 62 protrude from the mounting surface 60 of the cover 6, but are not connected via other parts (parts other than the plurality of holding portions 62 of the cover 6) and are independent of each other. .

Further, each of the plurality of holding portions 62 is arranged away from the one or more inner ribs 64 in the radial direction (second direction D2) of the cover 6, as shown in FIG. That is, when the assembled housing is attached to the cover 6, each of the plurality of holding portions 62 and the assembled housing (that is, the housing 1) are separated from each other.

Each of the one or more ribs 63 protrudes in one direction (first direction D1) from the mounting surface 60 of the cover 6 and is formed integrally with the cover 6 . Each of the one or more ribs 63 is arranged so as to be aligned with the plurality of holding portions 62 in the circumferential direction of the cover 6, as shown in FIG. The dimension in the radial direction (second direction D2) of the imaginary circle in which one or more ribs 63 are arranged is slightly smaller than the dimension in the radial direction of the embedding hole A11. Therefore, one or more ribs 63 function as guides for positioning the cover 6 (that is, the lighting device 100) when the lighting device 100 is attached to the construction material A1.

A gap 631 is provided in each of the one or more ribs 63 . The gap 631 is provided at a position facing the projecting piece 222 of the heat radiating member 22 when the holder 5 and the heat radiating member 22 (that is, the inner device 2 ) are attached to the cover 6 . More specifically, the gap 631 is provided at a position facing the fixed portion 15 of the housing 1 when the housing 1 is placed over the inner device 2 attached to the cover 6 . Therefore, the fixed portion 15 faces the outside through the gap 631 (and a gap 641 described later) when viewed from the second direction D2. In other words, it can be said that the portions (gap 631 ) of the one or more ribs 63 facing the fixed portion 15 are open so that the fixed portion 15 is exposed to the outside.

Each of the one or more inner ribs 64 protrudes in one direction (first direction D1) from the mounting surface 60 of the cover 6 and is formed integrally with the cover 6 . As shown in FIG. 2, each of the one or more inner ribs 64 is arranged side by side in the circumferential direction of the cover 6 so as to surround the window hole 61 when viewed from the first direction D1. The dimension in the radial direction (second direction D2) of the virtual circle in which the one or more inner ribs 64 are arranged is larger than the dimension in the radial direction of the window hole 61, and the diameter of the virtual circle in which the one or more ribs 63 are arranged. smaller than the direction dimension. An assembled housing is placed in a recess surrounded by one or more inner ribs 64 . That is, the one or more inner ribs 64 function as guides for positioning the inner container 2 when attaching the inner container 2 to the cover 6 .

A gap 641 is provided in each of the one or more inner ribs 64 . The gap 641 is provided at a position facing the projecting piece 222 of the heat radiating member 22 when the holder 5 and the heat radiating member 22 (that is, the inner device 2 ) are attached to the cover 6 . More specifically, the gap 641 is provided at a position facing the fixed portion 15 of the housing 1 when the housing 1 is placed over the inner device 2 attached to the cover 6 .

Each of the plurality of supports 7 is a member for attaching the housing 1 to the construction material A1, and is formed in the shape of a leaf spring elongated in one direction. As shown in FIG. 3, each of the plurality of supports 7 has a first longitudinal end 71 held by a holding portion 62 of the cover 6 and a second longitudinal end 72 extending from the housing. It is configured to be able to bend in a direction (upward) approaching the bottom piece 11 of 1 . When the second end 72 of each of the plurality of supports 7 is bent toward the bottom piece 11, the housing 1 can be passed through the embedding hole A11 provided in the construction material A1. be.

The standby power supply device B1 includes a storage battery, a charging circuit that charges the storage battery with AC power supplied from a commercial power supply, a switch that turns on and off the DC power supply from the storage battery to the power cable, and when a power failure of the commercial power supply is detected. It is equipped with a power failure detection circuit that switches on the switch. When the power failure detection circuit does not detect the power failure of the commercial power supply, the standby power supply device B1 turns off the switch and causes the charging circuit to charge the storage battery. Further, while the power failure detection circuit detects a power failure of the commercial power supply, the standby power supply device B1 turns on the switch to discharge the storage battery and supplies DC power to the lighting device 100 through the power cable. That is, the standby power supply device B1 is configured to supply DC power to the lighting device 100 in an emergency such as a commercial power failure. The standby power supply device B1 may be configured to supply AC power to the lighting device 100 in an emergency, such as a private power generator.

(2) Procedure A procedure for assembling the lighting device 100 of the present embodiment and a procedure for attaching the lighting device 100 to the construction material A1 will be described below with reference to FIGS. 7A and 7B. In the following description, it is assumed that the light source 3, the lens 4, the holder 5, and the cover 6 are attached in advance to the inner device 2 (heat radiation member 22). 7A and 7B, illustration of the holding portion 14 of the housing 1, the light source 3, the lens 4, and the cover 6 is omitted.

(2.1) Procedure for Assembling Lighting Device First, the procedure for assembling the lighting device 100 will be described. As shown in FIG. 7A , the housing 1 is placed over the inner device 2 so that the power supply unit 21 , the heat radiation member 22 and the holder 5 are accommodated inside the housing 1 . At this time, the two fixing portions 15 of the housing 1 and the pair of protrusions 222 of the heat radiating member 22 are opposed to each other, and the fixing holes 151 of the fixing portions 15 and the fixing holes 223 of the protrusions 222 are overlapped. Then, by inserting assembly screws 8 into each of the two overlapping fixing holes 151 and 223 and screwing them, fixing portion 15 (periphery of fixing hole 151) is fixed to heat radiating member 22 (protrusion 222). . Thereby, as shown in FIG. 7B, the inner device 2 is fixed to the housing 1 at the first end (lower end) of the housing 1 in the first direction D1.

(2.2) Procedure for Attaching Lighting Device to Building Material Next, a procedure for attaching the lighting device 100 to the building material A1 will be described. First, the housing 1 is inserted into the embedding hole A11 of the construction material A1 in a state where each of the plurality of supports 7 is folded so that the second end 72 contacts the first piece 121 of the housing 1 . Then, the plurality of supports 7 return to their original state (that is, the state in which the second end portion 72 is not folded) after being inserted into the embedding hole A11. As a result, the lighting device 100 is attached to the construction material A1 such that the periphery of the embedding hole A11 (that is, the construction material A1) is sandwiched between the plurality of supports 7 and the cover 6. FIG.

(3) Advantages Advantages of the lighting device 100 of the present embodiment will be described below with reference to the lighting device of Comparative Example 1. FIG. The lighting device of Comparative Example 1 differs from the lighting device 100 of the present embodiment in that a plurality of holding portions are connected in the circumferential direction of the cover. In other words, in the lighting device of Comparative Example 1, the assembled housing attached to the cover is surrounded by a wall composed of a plurality of holding portions and connecting portions that connect the plurality of holding portions.

In the lighting device of Comparative Example 2, heat generated by the light source and the like is transmitted to the housing mainly through the heat dissipation member, and released from the housing to the outside. However, in the lighting device of Comparative Example 2, since the housing is surrounded by the wall, heat tends to stay in the space between the housing and the wall. On the other hand, in the illumination device 100 of the present embodiment, the plurality of holding portions 62 are arranged apart from each other with the space interposed therebetween in the circumferential direction of the cover 6 . That is, in the lighting device 100 of the present embodiment, since the assembled housing attached to the cover is not surrounded by walls, heat is less likely to accumulate, and heat dissipation is improved compared to the lighting device of Comparative Example 2. is possible.

The lighting device 100 of this embodiment also has the following advantages. That is, in the lighting device of Comparative Example 2, if the inner unit is fixed to the housing in the second direction (horizontal direction), the connecting portion tends to interfere with the work of fixing the inner unit to the housing. In this case, it is necessary to dispose the housing and the internal device above the joints in order to avoid the joints. In this case, arranging the housing and the inner unit upward may result in an increase in size of the lighting device in the height direction (first direction). On the other hand, in the illumination device 100 of the present embodiment, since the plurality of holding portions 62 are not connected in the circumferential direction of the cover 6, there is an advantage that the work of fixing the inner device 2 to the housing 1 can be easily performed. Since it is not necessary to avoid the connecting portion as in the lighting device of Comparative Example 2, there is no need to dispose the housing 1 and the inner unit 2 upward, and as a result, the size of the lighting device 100 in the height direction is increased. There is also an advantage that it is easy to avoid erosion.

Moreover, in the lighting device 100 of the present embodiment, each of the plurality of holding portions 62 and the housing 1 are separated from each other. In other words, a channel through which air flows is provided between each of the plurality of holding portions 62 and the housing 1 . Therefore, in the illumination device 100 of the present embodiment, the housing 1 is more likely to come into contact with the outside air than when the plurality of holding portions 62 and the housing 1 are in contact with each other, thereby further improving heat dissipation. has the advantage of being able to

In addition, in the illumination device 100 of the present embodiment, since the plurality of holding portions 62 and the housing 1 are separated from each other, the space between the holding portions 62 and the housing 1 can be used to support the support 7. It is possible to fold the second end portion 72 to a position closer to the center of the cover 6 than the holding portion 62 is. For this reason, when the housing 1 is inserted into the embedding hole A11 of the construction material A1, there is also the advantage that the support 7 is unlikely to hinder the insertion, and the work of installing the lighting device 100 can be easily performed.

Further, in the illumination device 100 of the present embodiment, the cover 6 is provided with one or more ribs 63 . Therefore, in the illumination device 100 of the present embodiment, when the housing 1 is inserted into the embedding hole A11, the one or more ribs 63 function as guides, so that the housing 1 can be easily inserted into the embedding hole A11. , there is an advantage that the work of installing the lighting device 100 on the construction material A1 can be easily performed. There is also an advantage that the one or more ribs 63 function as heat radiation fins, so that further improvement in heat radiation can be expected.

Here, in the lighting device 100 of the present embodiment, when fixing the fixing portion 15 to the projecting piece 222 of the heat dissipation member 22 (that is, part of the inner device 2) in the second direction D2 (horizontal direction), the driver It is necessary to tighten the assembly screw 8 using a tool such as. In the illumination device 100 of the present embodiment, a portion (gap 631) of one or more ribs 63 facing the fixed portion 15 is open so that the fixed portion 15 is exposed to the outside. Therefore, in the lighting device 100 of the present embodiment, since a tool such as a screwdriver can be easily inserted along the second direction D2 from the open portion of the one or more ribs 63, the assembly screw 8 can be easily tightened, resulting in workability. There is an advantage that it is possible to improve the

Further, in the illumination device 100 of the present embodiment, the housing 1 has the gap 16 between the two adjacent side pieces 12 (the fourth piece 124 and the fifth piece 125). The two side pieces 12 are elastically deformable to some extent. That is, in the illumination device 100 of the present embodiment, the two side pieces 12 are elastically deformed, so that the dimension of the housing 1 in the radial direction (here, the horizontal direction) can have a certain width. . Therefore, it is easy to accommodate the inner device 2 in the housing 1 without accurately adjusting the relationship between the radial dimension of the housing 1 and the radial dimension of the inner device 2 .

This advantage will be described with reference to the lighting device of Comparative Example 2. FIG. The lighting device of Comparative Example 2 differs from the lighting device 100 of the present embodiment in that two adjacent side pieces (fourth piece and fifth piece) of the housing are connected and there is no gap. For example, in the lighting device of Comparative Example 2, since the two side pieces are connected to each other, it is difficult to elastically deform the housing. For this reason, if a relatively large error occurs in the radial dimension of the housing during manufacturing, there is a possibility that the internal device cannot be accommodated in the housing. On the other hand, in the illumination device 100 of the present embodiment, even if a relatively large error occurs during manufacturing, the radial dimension of the housing 1 can be adjusted to some extent by elastically deforming the two side pieces 12. Therefore, it is easy to accommodate the inner device 2 in the housing 1 . As described above, in the illumination device 100 of the present embodiment, it is easy to allow radial dimensional errors in manufacturing the housing 1 . In other words, the illumination device 100 of the present embodiment has the advantage of being able to improve the degree of freedom in designing the housing 1 .

Further, in the lighting device of Comparative Example 2, when the inner unit is fixed to the housing, the stress caused by fixing one of the two side pieces to the inner unit tends to be transmitted to the other side piece. Therefore, in the lighting device of Comparative Example 2, when the inner unit is fixed to the housing, when one side piece is fixed to the inner unit, the other side piece tends to float from the inner unit due to stress. there is a possibility. In such a case, it is difficult to fix the other side piece to the internal unit, and if the other side piece is forcibly fixed to the internal unit, there is a possibility that the housing will continue to be subjected to stress in the direction of separating the internal unit from the housing. There is

On the other hand, the illumination device 100 of the present embodiment has a gap 16 between two adjacent side pieces 12 (fourth piece 124 and fifth piece 125). For this reason, in the illumination device 100 of the present embodiment, the stress caused by fixing one side piece 12 of the two side pieces 12 to the inner device 2 is less likely to be transmitted to the other side piece 12 . In other words, in the illumination device 100 of the present embodiment, when fixing the inner device 2 to the housing 1, even if one side piece 12 is fixed to the inner device 2, the other side piece 12 is fixed to the inner device 2. There is also the advantage that the other side piece 12 can be easily fixed to the inner container 2 . Therefore, in the illumination device 100 of the present embodiment, when the inner device 2 is fixed to the housing 1, the situation in which the other side piece 12 is forcibly fixed to the inner device 2 is unlikely to occur. There is also the advantage that the stress in the direction in which the inner device 2 separates from the housing 1 is less likely to be applied.

Further, in the illumination device 100 of the present embodiment, the housing 1 can be manufactured by bending a single plate material (sheet metal). Therefore, in comparison with the lighting device of Comparative Example 2, the lighting device 100 of the present embodiment does not require a step (for example, welding) to connect the adjacent side pieces 12, thereby simplifying the manufacturing process. There is also the advantage of being able to

Further, when the illumination device 100 of the present embodiment is attached to the ceiling material as the building material A1, the inner unit 2 is not fixed to the housing 1 in the first direction D1 (vertical direction), but in the second direction. The internal unit 2 is fixed to the housing 1 at D2 (horizontal direction). Here, when fixing the inner device 2 to the housing 1 in the first direction D1, it is necessary to provide bosses for screwing in the inner device 2 . In this case, the space inside the inner unit 2 is narrowed by the boss, so that the inner unit 2 may have to be enlarged in order to accommodate the parts such as the lighting circuit 212 in the inner unit 2 . On the other hand, if the inner unit 2 is fixed to the housing 1 in the second direction D2 as in the lighting device 100 of the present embodiment, the weight of the inner unit 2 can be supported by the assembly screws 8. There is no need to provide a boss inside the inner vessel 2. Therefore, in the illumination device 100 of the present embodiment, it is easier to secure the space inside the inner unit 2 and the inner unit 2 is larger than the configuration in which the inner unit 2 is fixed to the housing 1 in the first direction D1. It also has the advantage of avoiding clotting.

By the way, in the above-described embodiment, the assembled housing can be attached not only to the cover 6 but also to another cover 9 as shown in FIGS. The separate cover 6 is used, for example, when a new embedding hole A11 is provided in the construction material A1. The cover 6 is used, for example, when an embedding hole A11 is already provided in the construction material A1 and the radial dimension of the embedding hole A11 is larger than the radial dimension of the separate cover 9 . In Japan, the separate cover 9 is used, for example, when the radial dimension of the embedding hole A11 is φ60 [mm], and the cover 6 is used, for example, when the radial dimension of the embedding hole A11 is φ100 [mm]. Used when

The dimension of the separate cover 9 in the radial direction (second direction D2) is smaller than the dimension of the cover 6 in the radial direction. Further, the separate cover 9 differs from the cover 6 in that it does not have a plurality of holding portions 62 , one or more ribs 63 and one or more inner ribs 64 . The separate cover 9 includes a window hole 91 corresponding to the window hole 61, a plurality of bosses 92 corresponding to the plurality of bosses 65, a recess 93 in which one end (lower end) of the assembled housing in the first direction D1 fits, have.

When attaching the assembled housing to the separate cover 9 , the plurality of supports 7 are held not by the cover 6 but by the plurality of holding portions 14 of the housing 1 . Then, similarly to the case of attaching the assembled housing to the cover 6, the lighting device 100 is attached to the building material A1 by following "(2.2) Procedure for attaching the lighting device to the building material".

Thus, in the above-described embodiment, the assembled housing attachable to the cover 6 can be attached to the separate cover 9 having a relatively small radial dimension, and the assembled housing is separate from the cover 6. There is an advantage that the cover 9 can be used in common.

(4) Modifications The above-described embodiment is merely one of various embodiments of the present disclosure. The above-described embodiments can be modified in various ways according to design and the like as long as the object of the present disclosure can be achieved. Modifications of the above-described embodiment are listed below. Modifications described below can be applied in combination as appropriate.

Although the cover 6 has two holding portions 62 in the above-described embodiment, it may have more holding portions 62 .

In the above-described embodiment, the plurality of holding parts 62 may be arranged so as to be in contact with the assembled housing (that is, housing 1). Even in this case, since the housing 1 is not surrounded by walls, heat dissipation can be improved.

In the above-described embodiment, two adjacent ribs 63 among the one or more ribs 63 are separated from each other with the gap 631 interposed therebetween, but the present invention is not limited to this. For example, two adjacent ribs 63 among the one or more ribs 63 may be connected. Similarly, in the above embodiment, two adjacent inner ribs 64 among the one or more inner ribs 64 are spaced apart across the gap 641, but this is not intended to be limiting. For example, two adjacent inner ribs 64 among the one or more inner ribs 64 may be connected. In this case, the gaps 631 and 641 may be open enough to expose at least the fixing portion 15 to the outside, such as by forming a hole having a size that allows insertion of a tool.

In the above-described embodiment, the fixing portion 15 of the housing 1 is fixed to the inner device 2 using the assembly screws 8, but the invention is not limited to this. For example, instead of the fixing hole 151, the fixing part 15 may have a hook part that hooks on a part of the inner device 2. As shown in FIG. In this case, the fixing portion 15 is fixed to the inner container 2 by hooking the hook portion on a part of the inner container 2 . In addition, the fixing portion 15 may be configured to be fixed to the inner device 2 using pins instead of the assembly screws 8 . In this case, the fixing portion 15 is fixed to the inner device 2 by, for example, crimping the tip of a pin inserted into the fixing hole 151 .

In the above-described embodiment, the cover 6 does not need to have the gaps 631 and 641 if the means using a tool is not used as means for fixing the inner device 2 to the housing 1 . Also, in the above-described embodiments, the cover 6 may not have at least one of the one or more ribs 63 and the one or more inner ribs 64 .

In the above-described embodiment, the housing 1 is made of a metal plate material, but it is not intended to be limited to this. For example, the housing 1 may be made of a plate material made of resin. In this case, the housing 1 is preferably made of a resin material with relatively high thermal conductivity so that the heat generated by the light source 3 can be released to the outside through the heat radiating member 22 .

In the above-described embodiment, each of the two side pieces 12 of the housing 1 is provided with one fixing portion 15, but a plurality of fixing portions 15 may be provided. In this case, the heat radiating member 22 may have the number of projecting pieces 222 corresponding to the number of the fixing portions 15 . For example, when two fixing portions 15 are provided on each of the two side pieces 12, the heat radiating member 22 may have four projecting pieces 222 at positions facing these. Also, in this case, the one or more ribs 63 and the one or more inner ribs 64 may have the number of gaps 631 and 641 corresponding to the number of the fixing portions 15, respectively.

In the above-described embodiment, the fixing portion 15 of the housing 1 is fixed to the projecting piece 222 of the heat dissipation member 22, but the invention is not limited to this. For example, the heat dissipation member 22 may not have the pair of projecting pieces 222 . In this case, a fixing hole 223 is provided in the side portion of the main plate 221 of the heat radiating member 22, and when the fixing hole 223 and the fixing hole 151 of the fixing portion 15 are overlapped and screwed with the assembly screw 8, the fixing portion 15 can be fixed to the side of the main plate 221 . In addition, the fixing portion 15 may be fixed to a part of the inner device 2 other than the heat radiating member 22 (for example, the case 211 of the power supply unit 21). In this case, if a fixing hole 223 is provided in a part of the inner container 2 and the fixing hole 223 and the fixing hole 151 of the fixing portion 15 are overlapped and screwed together with the assembly screw 8, the fixing portion 15 can dissipate heat. It is possible to fix to a part of the inner vessel 2 other than the member 22 .

Although the housing 1 has two side pieces 12 in the above-described embodiment, it may have more side pieces 12 . In this case, each of the plurality of side pieces 12 should have one or more fixing portions 15 . Moreover, when each of the plurality of side pieces 12 has a plurality of fixing portions 15, the plurality of fixing portions 15 need not all be fixed to the inner container 2 by the same means. For example, one or more fixing portions 15 among the plurality of fixing portions 15 may employ fixing means by the assembly screws 8 , and the remaining fixing portions 15 may employ fixing means by hook portions.

In the above-described embodiment, the lighting device 100 is attached to the ceiling material as the construction material A1, but it is not intended to be limited to this. For example, lighting device 100 may be attached to a wall material as construction material A1. In this case, the first direction D1 is, for example, the horizontal direction. Of course, the first direction D1 may not be the horizontal direction, and may be a direction inclined at a predetermined angle with respect to the horizontal direction. Also, in this case, the second direction D2 is, for example, the vertical direction. Of course, the second direction D2 may not be the vertical direction, and may be a direction inclined at a predetermined angle with respect to the vertical direction.

In the above-described embodiment, the light source 3 is not limited to the configuration including only one light-emitting diode, and may be configured to include a plurality of light-emitting diodes.

In the above-described embodiment, the illumination device 100 is of a separate power supply type, but is not intended to be limited to this. For example, the lighting device 100 may be of a power built-in type that incorporates a storage battery that supplies power to the light source 3 . In this aspect, the storage battery is housed in case 211 of power supply unit 21 . In this aspect, the case 211 of the power supply unit 21 includes a charging circuit that receives power supply from an external power supply (eg, commercial power supply) to charge the storage battery, a power failure detection circuit that detects power failure of the external power supply, and the like. be accommodated. In this aspect, the lighting circuit 212 is configured to receive power supplied from the storage battery to light the light source 3 .

In the above-described embodiments, the application of lighting device 100 is not limited to an emergency lighting device. For example, lighting device 100 may be used as a guide light for guiding people in an emergency. Also, the lighting device 100 may be used as a lighting device for regular lighting such as a downlight.

(summary)
As described above, the lighting device (100) according to the first aspect includes the inner device (2), the housing (1), and the cover (6). The inner device (2) has a lighting circuit (212) for lighting a light source (3) including a light emitting diode, and can hold the light source (3) at one end in one direction (first direction (D1)). . A housing (1) accommodates an inner device (2). A cover (6) is attached to the housing (1) and has a window hole (61) that exposes the light source (3) to the outside. The cover (6) has a plurality of holders (62) each holding a plurality of supports (7) for attaching the cover (6) to the construction material (A1). Each of the plurality of holding portions (62) protrudes in one direction (first direction (D1)) from a mounting surface (60) of the cover (6) to which the housing (1) is mounted. The plurality of holding portions (62) are arranged side by side so as to surround the housing (1) when viewed from one direction (first direction (D1)), and are empty in the circumferential direction of the cover (6). They are separated from each other across a place.

According to this aspect, there is an advantage that heat dissipation can be improved.

In the lighting device (100) according to the second aspect, in the first aspect, each of the plurality of holding portions (62) and the housing (1) are separated from each other.

According to this aspect, there is an advantage that heat dissipation can be further improved compared to the case where the plurality of holding portions (62) and the housing (1) are in contact with each other.

In the lighting device (100) according to the third aspect, in the first or second aspect, the mounting surface (60) of the cover (6) has one or more projections projecting in one direction (first direction (D1)). ribs (63) are provided. One or more ribs (63) are arranged so as to line up with the plurality of holding portions (62) in the circumferential direction of the cover (6).

According to this aspect, when the housing (1) is inserted into the embedding hole (A11) provided in the construction material (A1), the one or more ribs (63) serve as guides, so that the lighting device (100 ) on the construction material (A1).

In the illumination device (100) according to the fourth aspect, in the third aspect, the housing (1) has a fixing portion (15) for fixing the inner device (2) to the housing (1). ing. A portion of one or more ribs (63) facing the fixed portion (15) is open so that the fixed portion (15) is exposed to the outside.

According to this aspect, when fixing the inner device (2) to the housing (1), it is easy to insert a tool such as a screwdriver toward the fixing portion (15), and workability can be improved. There are advantages.

In the illumination device (100) according to the fifth aspect, in any one of the first to fourth aspects, the housing (1) is made of a plate material, and the inner device (2) is fixed to the housing (1). It has a fixing part (15) for A housing (1) has a bottom piece (11) and a plurality of side pieces (12). The bottom piece (11) constitutes the bottom of the housing (1) at one end opposite to the one end in one direction (first direction (D1)) of the housing (1). A plurality of side pieces (12) constitute the sides of the housing (1). The plurality of side pieces (12) are each connected to the bottom piece (11), and have a gap (16) between two adjacent side pieces (12) among the plurality of side pieces (12). there is The fixing part (15) is provided on each of the plurality of side pieces (12), and the inner unit (2 ) (heat radiating member (22)).

According to this aspect, there is an advantage that the degree of freedom in designing the housing (1) can be improved.

The configurations according to the second to fifth aspects are not essential to the illumination device (100), and can be omitted as appropriate.

REFERENCE SIGNS LIST 100 Lighting device 1 Housing 11 Bottom piece 12 Side piece 15 Fixed part 16 Gap 2 Internal device 212 Lighting circuit 3 Light source 6 Cover 60 Mounting surface 61 Window hole 62 Holding part 63 Rib 7 Support tool A1 Construction material D1 First direction (one direction )

Claims (3)

an inner device having a lighting circuit for lighting a light source including a light emitting diode and capable of holding the light source at one end in one direction;
a housing that accommodates the inner device;
a cover attached to the housing and having a window hole for exposing the light source to the outside;
The cover has a plurality of holding portions each holding a plurality of supports for attaching the cover to a construction material,
each of the plurality of holding portions protrudes in the one direction from a mounting surface of the cover to which the housing is mounted;
The plurality of holding parts are arranged side by side so as to surround the housing when viewed from the one direction, and are separated from each other with a space interposed therebetween in the circumferential direction of the cover,
The mounting surface of the cover is provided with one or more ribs projecting in the one direction,
The one or more ribs are arranged so as to line up with the plurality of holding portions in the circumferential direction of the cover,
The housing has a fixing portion for fixing the inner device to the housing,
A lighting device, wherein a portion of the one or more ribs facing the fixed portion is open so as to expose the fixed portion to the outside. The lighting device according to claim 1 , wherein each of the plurality of holding portions and the housing are separated from each other. The housing is made of a plate material ,
a bottom piece forming a bottom portion of the housing at one end opposite to the one end in the one direction;
and a plurality of side pieces that form the sides of the housing,
each of the plurality of side pieces is connected to the bottom piece, and has a gap between two adjacent side pieces of the plurality of side pieces;
The lighting device according to claim 1 or 2 , wherein the fixing portion is provided on each of the plurality of side pieces and fixed to a part of the inner unit in a direction intersecting with the one direction .

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