JP6948615B2 - Lighting device - Google Patents

Description

The present invention relates to a lighting device.

In recent years, lighting devices using LEDs (Light Emitting Diodes) have become widespread. Conventionally, as this type of lighting device, a long LED lighting including a long housing and a plurality of LED modules linearly arranged in the housing is known (for example, Patent Document 1). ..

Further, in order to realize long LED lighting, a technique of linearly connecting a plurality of long lighting units in which a light source is housed has been proposed (for example, Patent Document 2).

Japanese Unexamined Patent Publication No. 2012-84367 JP-A-2009-99363

When a plurality of lighting units containing a light source are linearly connected, a concave-convex structure may be used to connect two adjacent lighting units. In this case, the convex structure may be grasped and damaged by the operator during construction.

The present invention provides a lighting device capable of suppressing damage to a convex structure (protruding portion) used for connection with another lighting device.

One aspect of the illuminating device according to the present invention is a long illuminating unit that houses a light source and has a translucent portion that transmits the light of the light source, and is provided at one end of the illuminating unit in the longitudinal direction. The connecting portion is provided with a connecting portion and a connected portion provided at the other end portion in the longitudinal direction of the lighting unit, and the connecting portion projects outward in the lighting unit in the longitudinal direction of the lighting unit. The first projecting portion and the second projecting portion, which are the first protruding portion and the second protruding portion arranged side by side, and the claw portion provided on the first protruding portion, are described above. The connected portion has an insertion hole into which the first protruding portion can be inserted and a locking hole into which the claw portion can be locked.

The lighting device of the present invention can suppress damage to a protruding portion used for connection with another lighting device.

FIG. 5 is an external perspective view of the lighting device according to the embodiment when viewed from the first connecting portion (male connector) side. FIG. 5 is an external perspective view of the lighting device according to the embodiment when viewed from the first connected portion (female connector) side. It is an exploded perspective view of the lighting apparatus which concerns on embodiment. It is sectional drawing of the lighting apparatus which concerns on embodiment. It is an enlarged view of one end portion of the lighting apparatus which concerns on embodiment. It is an enlarged view of the other end portion of the lighting apparatus which concerns on embodiment. It is an external perspective view of the 1st end cover of another form. It is a perspective view when the lighting device for power-on line is seen from one end. It is a perspective view when the lighting device for power-on line is seen from the other end. It is a figure for demonstrating the construction example which connects two lighting devices which concerns on embodiment. It is a 1st perspective view for demonstrating the structure of a guide jig. It is a 2nd perspective view for demonstrating the structure of a guide jig. It is a figure for demonstrating the method of breaking the connection state of two lighting devices which concerns on embodiment. It is external perspective view of the jig of another form. It is a figure for demonstrating the method of breaking the connection state of two lighting units using the jig of another form. It is the first figure for demonstrating attachment of a jig. It is a 2nd figure for demonstrating attachment of a jig.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that all of the embodiments described below show a preferred specific example of the present invention. Therefore, the numerical values, shapes, materials, components, arrangement positions of the components, connection forms, etc. shown in the following embodiments are examples and are not intended to limit the present invention. Therefore, among the components in the following embodiments, the components not described in the independent claims indicating the highest level concept of the present invention will be described as arbitrary components.

Each figure is a schematic view and is not necessarily exactly illustrated. In each figure, substantially the same configuration is designated by the same reference numerals, and duplicate description may be omitted or simplified.

Further, in the present specification and the drawings, the X-axis, the Y-axis, and the Z-axis represent the three axes of the three-dimensional Cartesian coordinate system. In the present embodiment, the Z-axis direction is the vertical direction and is perpendicular to the Z-axis. (Direction parallel to the XY plane) is the horizontal direction. The X-axis and the Y-axis are orthogonal to each other and both are orthogonal to the Z-axis.

(Embodiment)
First, the lighting device 1 according to the embodiment will be described with reference to FIGS. 1 to 4. FIG. 1 is an external perspective view of the lighting device 1 according to the embodiment when viewed from the first connecting portion 210 (male connector) side. FIG. 2 is an external perspective view of the lighting device 1 when viewed from the first connected portion 310 (female connector) side, and FIG. 2A shows a state in which the protective cap 170 is attached, and FIG. 2B shows a state in which the protective cap 170 is attached. ) Indicates a state in which the protective cap 170 is removed. FIG. 3 is an exploded perspective view of the lighting device 1. FIG. 4 is a cross-sectional view of the lighting device 1. In FIG. 3, the protective cap 170 is omitted.

The lighting device 1 shown in FIG. 1 is installed in a living room or bedroom of a house and used as indirect lighting such as cove lighting or cornice lighting, or is installed in a kitchen or the like and used as kitchen lighting or the like. The lighting device 1 may be used not as indirect lighting but as main lighting such as a base light installed on a ceiling or the like.

As shown in FIG. 1, the illuminating device 1 is a thin and long luminaire (slim line illuminating) as a whole, and emits line illuminating light. The overall shape of the lighting device 1 in the present embodiment is a flat rectangular parallelepiped, but the present invention is not limited to this.

As shown in FIGS. 1 and 2, the lighting device 1 includes a long lighting unit 100 and a first connecting portion 210 and a second connecting portion 210 provided at one end of the lighting unit 100 in the longitudinal direction. To attach the lighting unit 100 to a part 220, a first connected part 310 and a second connected part 320 provided at the other end in the longitudinal direction of the lighting unit 100, and a building material such as a ceiling or a wall. The mounting plate 400 of the above is provided.

As shown in FIGS. 1 to 4, the lighting unit 100 includes a light emitting module 110, a long housing 120, and a first end cover 130 attached to one end of the housing 120 in the longitudinal direction. A second end cover 140 attached to the other end of the housing 120 in the longitudinal direction, a metal plate 150, and an insulating sheet 160.

The lighting unit 100 houses a light emitting element 112 that serves as a light source for the lighting device 1. In the present embodiment, the lighting unit 100 houses not only the light emitting element 112 but also a power source that generates electric power for causing the light emitting element 112 to emit light. That is, the lighting unit 100 is a light emitting unit with a built-in power supply.

Hereinafter, each component of the lighting device 1 according to the present embodiment will be described in detail with reference to FIGS. 1 to 4.

[Light emitting module]
The light emitting module 110 is an example of a light source unit of the lighting unit 100, and emits white light, for example. In the present embodiment, the light emitting module 110 is an LED module composed of LEDs. The emission color of the light emitting module 110 is not limited to white light.

The light emitting module 110 is housed in the lighting unit 100. Specifically, the light emitting module 110 is housed in the housing 120. The light of the light emitting module 110 passes through the translucent portion 121a of the housing 120 and is radiated to the outside of the housing 120 as illumination light.

As shown in FIGS. 3 and 4, the light emitting module 110 includes a substrate 111, a light emitting element 112, a first connection terminal 113, a second connection terminal 114, and a circuit element 115.

The substrate 111 is a long plate member whose longitudinal direction is the Y-axis direction. The substrate 111 is, for example, a resin substrate, a ceramic substrate, a metal base substrate, or the like. The substrate 111 is not limited to a rigid substrate, and may be a flexible substrate or a film substrate.

A plurality of light emitting elements 112 are arranged on the substrate 111. Each of the plurality of light emitting elements 112 is a light source of the lighting device 1 and is housed in the lighting unit 100. Specifically, the light emitting element 112 is housed in the housing 120. Each light emitting element 112 emits light by the DC power supplied from the circuit element 115 constituting the power supply circuit.

As shown in FIG. 3, the plurality of light emitting elements 112 are arranged in a line on the substrate 111 along the longitudinal direction of the substrate 111. The plurality of light emitting elements 112 arranged in a line shape function as a line light source that emits light in a line shape.

In the present embodiment, each light emitting element 112 is an LED light source composed of LEDs. Specifically, each light emitting element 112 is an SMD type LED element in which an LED chip is packaged, and is a white container made of resin or ceramic having a recess, and is primarily mounted on the bottom surface of the recess of the container1. It has one or more LED chips and a sealing member enclosed in a recess of the container. The sealing member is made of a translucent resin material such as a silicone resin. The sealing member may be a phosphor-containing resin containing a wavelength conversion material such as a phosphor.

The LED chip is an example of a semiconductor light emitting element that emits light by a predetermined DC power, and is a bare chip that emits monochromatic visible light. The LED chip is, for example, a blue LED chip that emits blue light when energized. In this case, in order to obtain white light, the sealing member contains a yellow phosphor such as YAG (yttrium aluminum garnet) that fluoresces the blue light from the blue LED chip as excitation light.

As described above, the light emitting element 112 in the present embodiment is a white LED light source composed of a blue LED chip and a yellow phosphor. Specifically, the yellow phosphor absorbs a part of the blue light emitted by the blue LED chip and is excited to emit the yellow light, and this yellow light and the blue light not absorbed by the yellow phosphor are mixed. Becomes white light. The sealing member is not limited to the yellow phosphor, and may contain a red phosphor and a green phosphor.

A first connection terminal 113 and a second connection terminal 114 are arranged on the substrate 111. The first connection terminal 113 is arranged at one end of the substrate 111 in the longitudinal direction, and the second connection terminal 114 is arranged at the other end of the substrate 111 in the longitudinal direction. Each of the first connection terminal 113 and the second connection terminal 114 is a pair of connector terminals to which electric wires such as lead wires are connected, and is, for example, a quick connection terminal.

The first connection terminal 113 is an input side terminal to which power is input from the outside of the light emitting module 110. That is, the first connection terminal 113 is a power receiving terminal that receives power from the outside of the light emitting module 110. The first connection terminal 113 is electrically connected to the first connection portion 210 by a lead wire (not shown) or the like, and is input to the first connection portion 210 to the first connection terminal 113. Power is input. For example, AC power from a commercial power source is input to the first connection terminal 113 via the first connection portion 210.

The second connection terminal 114 is an output side terminal that outputs electric power to the outside of the light emitting module 110. That is, the second connection terminal 114 is a power transmission terminal that transmits electric power to the outside of the light emitting module 110. The second connection terminal 114 is electrically connected to the first connected portion 310 by a lead wire (not shown) or the like, and is externally connected from the second connection terminal 114 via the first connected portion 310. Power is output to.

The first connection terminal 113 and the second connection terminal 114 are electrically connected by a feed wiring (not shown). The feed wiring is, for example, a pair of metal wirings, and is formed as a pattern wiring of the substrate 111. As an example, the pair of feed wires are two metal wires formed in parallel, both ends of which are connected to a pair of first connection terminals 113 and a pair of second connection terminals 114. The feed wiring is composed of only metal wiring, and the first connection terminal 113 and the second connection terminal 114 have the same potential except for the resistance component of the feed wiring. As a result, the AC power input to the first connection terminal 113 is supplied to the second connection terminal 114 via the feed wiring (AC feed wiring) in the same AC waveform without changing the frequency and amplitude. .. For example, when AC100V AC power is supplied to the first connection terminal 113, AC100V AC power is supplied to the second connection terminal 114 as it is. Therefore, in this case, the second connection terminal 114 transmits AC 100V AC power to the outside of the light emitting module 110. As a result, the transmission of AC power from the first connecting portion 210 to the second connecting portion 220 is realized.

Further, the AC power input to the first connection terminal 113 is also supplied to the power supply circuit composed of the plurality of circuit elements 115. For example, when AC100V AC power is supplied to the first connection terminal 113, AC100V AC power is supplied to the power supply circuit. That is, the first connection terminal 113 also functions as a power supply terminal for supplying AC power to the power supply circuit.

As described above, in the light emitting module 110 of the present embodiment, when the AC power is supplied to the first connection terminal 113, the AC power is supplied to the second connection terminal 114 via the feed wiring, and a plurality of AC powers are supplied. AC power is also supplied to the power supply circuit composed of the circuit element 115 of the above.

The plurality of circuit elements 115 are arranged along the longitudinal direction of the substrate 111. The plurality of circuit elements 115 are arranged in parallel with the element trains of the plurality of light emitting elements 112. That is, the plurality of circuit elements 115 are arranged side by side with the plurality of light emitting elements 112.

The plurality of circuit elements 115 include electronic components constituting a power supply circuit (power supply) that generates electric power for causing the plurality of light emitting elements 112 to emit light. The electric power generated by the plurality of circuit elements 115 constituting the power supply circuit is supplied to each of the plurality of light emitting elements 112 via the pattern wiring formed on the substrate 111.

In the present embodiment, since the light emitting module 110 is driven by the AC direct method, AC power is supplied to the first connection terminal 113. In this case, the plurality of circuit elements 115 constituting the power supply circuit convert the AC power supplied to the first connection terminal 113 into DC power for causing the light emitting element 112 to emit light. Therefore, the plurality of circuit elements 115 include, for example, a rectifying element that rectifies an AC voltage and converts it into a DC rectified voltage, and the plurality of light emitting elements 112 emit light according to the rectified voltage. The plurality of circuit elements 115 constituting the power supply circuit include, for example, a capacitive element such as an electrolytic capacitor or a ceramic capacitor, a resistance element such as a resistor, a rectifying element, a fuse, a noise filter, a diode, a switching element, an integrated circuit element, or the like. Semiconductor elements and the like.

The plurality of circuit elements 115 may include elements that do not form a power supply circuit. For example, the plurality of circuit elements 115 may include a control circuit element for controlling the light emitting state of the light emitting element 112, a communication circuit element for communicating with another device, and the like.

[Case]
As shown in FIGS. 1 to 4, the housing 120 is an outer housing that forms the outer shell of the lighting unit 100, and houses the light emitting module 110. Specifically, the housing 120 has a substantially square cylinder shape with the Y-axis direction as the longitudinal direction.

As shown in FIGS. 3 and 4, the housing 120 has a long cover 121 and a long base 122 facing the cover 121. The cover 121 is an upper cover that covers the front side (light emitting element 112 side) of the light emitting module 110, and the substrate 122 is a lower cover that covers the back side of the light emitting module 110.

The cover 121 has a translucent portion 121a that covers the plurality of light emitting elements 112, a light-shielding portion 121b that covers the plurality of circuit elements 115, and an eaves portion 121c that projects outward in the width direction of the housing 120. The light-transmitting portion 121a, the light-shielding portion 121b, and the eaves portion 121c are arranged side by side in the X-axis direction, and each extends in the Y-axis direction.

The light transmitting unit 121a transmits the light emitted from the light emitting element 112 (light source). The translucent portion 121a is made of a translucent resin material such as acrylic or polycarbonate, or a translucent material such as glass material. The translucent portion 121a is formed by extrusion molding using, for example, a resin material such as polycarbonate.

The light transmitting portion 121a may further have light diffusing property (light scattering property). By providing the light transmitting portion 121a with light diffusivity, even if the light emitting element 112 is an LED light source having strong directivity, the light of the light emitting element 112 can be scattered, so that the light emitted from the plurality of light emitting elements 112 can be emitted. It is possible to suppress the feeling of crushing (uneven brightness) due to the difference in brightness.

When the translucent portion 121a is provided with light diffusivity, a light diffusing material such as light-reflecting fine particles is dispersed in a translucent resin material to produce the translucent portion 121a, or the surface of the translucent portion 121a made of a transparent member. By forming a milky white light diffusing film containing a light diffusing material or the like on (inner surface or outer surface), the light transmitting portion 121a can be made to have light diffusivity. Alternatively, instead of using a light diffusing material, micro-concavities and convexities are formed on the surface of the translucent portion 121a made of a transparent member by performing embossing or the like, or a dot pattern is formed on the surface of the translucent portion 121a made of a transparent member. The translucent portion 121a may be provided with light diffusivity by printing or the like.

The upper surface of the light-transmitting portion 121a is substantially flush with the upper surface of the light-shielding portion 121b. That is, the upper surface of the light-transmitting portion 121a and the outer surface of the light-shielding portion 121b are flush with each other, and the upper surface of the light-transmitting portion 121a and the upper surface of the light-shielding portion 121b are continuous surfaces without a step. Thereby, the thin housing 120 can be easily formed.

In the present embodiment, the translucent portion 121a has a substantially L-shaped cross section. That is, the light of the light emitting element 112 is emitted from both the upper surface portion and the side surface portion of the translucent portion 121a of the housing 120.

The light-shielding portion 121b blocks the light of the light emitting element 112. The light-shielding portion 121b is made of a light-shielding material. For example, the light-shielding portion 121b is made of a white insulating resin material. Therefore, the light-shielding portion 121b has light reflectivity with respect to visible light. That is, the light-shielding portion 121b shields light by reflecting light. In the present embodiment, the light-shielding portion 121b is made of white polycarbonate.

The light-shielding portion 121b may be made of a metal material such as aluminum or iron instead of a resin material. Further, the material of the light-shielding portion 121b is not limited to a material that reflects light to block light, and may be a material that absorbs light to block light. In this case, for example, the light-shielding portion 121b may be made of a black insulating resin material. Further, the light-shielding portion 121b is not limited to a non-transmissive portion that blocks 100% of incident light, and may have a low light transmittance and partially transmit light.

The eaves portion 121c is provided on the upper part of the housing 120. Specifically, the eaves portion 121c is formed in a plate shape so as to project outward from the upper portion of the light-shielding portion 121b in the width direction of the housing 120. In the present embodiment, the eaves portion 121c is made of the same material as the light-shielding portion 121b, and is integrally formed with the light-shielding portion 121b. The light-shielding portion 121b and the eaves portion 121c are formed by, for example, extrusion molding using a light-shielding resin material.

The cover 121 configured in this way is integrated by joining the light-transmitting portion 121a, the light-shielding portion 121b, and the eaves portion 121c. For example, the translucent portion 121a, the light-shielding portion 121b, and the eaves portion 121c may be integrated by multicolor molding such as two-color molding, or the structure engages with each of the translucent portion 121a and the light-shielding portion 121b. It may be integrated by providing the above, or it may be integrated by fixing it with an adhesive or a screw. In this embodiment, the cover 121 is formed by two-color extrusion molding.

The base 122 is a support member that supports the light emitting module 110. The substrate 122 is made of a light-shielding material. For example, the substrate 122 is made of the same white insulating resin material as the light-shielding portion 121b, but is not limited to this.

A pair of protrusions of ridges are formed on the inner bottom surface of the base 122. A metal plate 150 is arranged between the pair of protrusions. The metal plate 150 is a heat radiating plate for radiating heat generated by the light emitting module 110, and is made of, for example, a metal material such as aluminum. The metal plate 150 is arranged between the substrate 111 of the light emitting module 110 and the bottom of the substrate 122. Further, in order to improve the insulating property, an insulating sheet 160 made of an insulating resin material such as polypropylene is inserted between the substrate 111 and the metal plate 150. The metal plate 150 and the insulating sheet 160 do not have to be arranged.

Further, each of the inner side surfaces of the substrate 122 is formed with a groove into which an end portion of the substrate 111 of the light emitting module 110 in the width direction (X-axis direction) is inserted. The pair of grooves regulates the movement of the substrate 111 in the width direction. The pair of grooves extend in the longitudinal direction of the housing 120 and function as guide rails when the substrate 111 is slid and moved in the housing 120.

The cover 121 is formed with a first side wall portion 121d extending in the longitudinal direction of the housing 120. Further, the substrate 122 is formed with a second side wall portion 122a extending in the longitudinal direction of the housing 120. The first side wall portion 121d of the cover 121 and the second side wall portion 122a of the base 122 form a partition wall of the lighting unit 100. That is, the internal region of the lighting unit 100 is spatially separated in the width direction of the lighting unit 100 by the first side wall portion 121d and the second side wall portion 122a constituting the partition wall.

Specifically, as shown in FIG. 4, the lighting unit 100 has a first housing area A1 and a second housing area A2 divided in the width direction of the lighting unit by separating such a partition wall. The first housing area A1 and the second housing area A2 are spatial areas in the lighting unit 100.

A light emitting element 112 (light source) is arranged in the first housing region A1. In the present embodiment, the first housing region A1 is a closed space region constituting the internal space of the housing 120 in which the light emitting module 110 is housed. The first housing region A1 is an electrical connection region for connecting electrical elements such as the light emitting element 112 and the circuit element 115.

Specifically, the first housing region A1 has a light source region AL in which the light emitting element 112 is arranged, and a power supply region AP in which the circuit element 115 constituting the power supply circuit (power supply) is arranged. The light source region AL and the power supply region AP are arranged in the width direction of the lighting unit 100. In the present embodiment, the light source region AL is a region covered by the light-transmitting portion 121a of the cover 121, and the power supply region AP is a region covered by the light-shielding portion 121b of the cover 121. That is, the boundary between the light source region AL and the power supply region AP is the boundary between the light-transmitting portion 121a and the light-shielding portion 121b in the cover 121.

In the second housing area A2, an attachment member for attaching the lighting device 1 to a construction material such as a ceiling or a wall is arranged. Specifically, in the second housing region A2, as such a mounting member, a screw or the like for fixing the lighting device 1 to the construction material is arranged.

In the present embodiment, the second housing region A2 covers the first plate portion 410 (protruding portion 412) and the second plate portion 420 of the mounting plate 400 in a cross section intersecting the longitudinal direction of the lighting unit 100. This is an area surrounded by 121 (the eaves portion 121c) and the side wall of the housing 120.

Further, in the second housing region A2, a screw head of a screw 193 for fixing the cover 121 and the base 122 is located. That is, in the present embodiment, the second housing area A2 is not only an area for mechanically connecting the lighting device 1 to the construction material, but also an area for mechanically connecting the cover 121 and the base 122. Also works as.

As described above, the second housing area A2 is a mechanical connection area for making a mechanical connection with respect to the lighting device 1. The second housing region A2 is not provided with electrical elements such as the light emitting element 112 and the circuit element 115, and is not an electrical connection region for connecting the electrical elements.

When the cover 121 and the base 122 are fixed by screws 193, the through hole 121d1 formed in the first side wall portion 121d of the cover 121 and the screw hole 122a1 formed in the second side wall portion 122a of the base 122 are formed. Use. In the present embodiment, the second side wall portion 122a of the base 122 and the first side wall portion 122a of the cover 121 are provided so that the second side wall portion 122a of the base 122 is inside the first side wall portion 121d of the cover 121. The side wall portion 121d is overlapped, and the screw 193 is inserted into the through hole 121d1 of the cover 121 and the screw hole 122a1 of the base 122 from the cover 121 side, and the screw 193 is screwed into the screw hole 122a1 of the base 122. As a result, the cover 121 and the base 122 can be screwed together with the screws 193. By such mounting work of the screw 193, the screw head of the screw 193 is located in the second housing region A2.

The through hole 121d1 of the cover 121 is not provided with a screw thread, but the screw hole 122a1 of the base 122 is provided with a screw thread. As a result, the screw 193 can be easily screwed, and insects and dust can be effectively suppressed from entering the second housing region A2 to the first housing region A1.

[End cover]
As shown in FIGS. 1 to 3, the first end cover 130 and the second end cover 140 are provided at the longitudinal end of the lighting unit 100. Specifically, the first end cover 130 and the second end cover 140 are end caps that cover the longitudinal ends of the housing 120. The first end cover 130 covers one end of the housing 120 in the longitudinal direction, and the second end cover 140 covers the other end of the housing 120 in the longitudinal direction. Further, each of the first end cover 130 and the second end cover 140 closes the longitudinal ends of the first housing region A1 and the second housing region A2.

As shown in FIG. 3, a first step portion 131 recessed in the longitudinal direction of the housing 120 is provided on the upper portion of the first end cover 130. That is, the first step portion 131 is provided above the one end portion in the longitudinal direction of the lighting unit 100.

Similarly, a second step portion 141 recessed in the longitudinal direction of the housing 120 is provided on the upper portion of the second end cover 140. That is, the second step portion 141 is provided above the other end portion in the longitudinal direction of the lighting unit 100.

At least a part of the first stepped portion 131 of the first end cover 130 and the second stepped portion 141 of the second end cover 140 overlap in a side view from the longitudinal direction of the lighting unit 100. In the present embodiment, the first step portion 131 and the second step portion 141 have the same width, and both ends of the width coincide with each other in the side view from the longitudinal direction of the lighting unit 100. ing.

Further, the first end cover 130 is provided with a through hole 132. The first end cover 130 is fixed to the housing 120 by a screw 181 inserted through the through hole 132. Specifically, a screw hole is provided at one end of the cover 121 of the housing 120 in the longitudinal direction, the first end cover 130 is fitted into the end of the housing 120, and the screw 181 is inserted. The first end cover 130 can be fixed to the housing 120 by inserting it into the through hole 132 of the end cover 130 in the Y-axis direction and screwing it into the screw hole of the housing 120.

Similarly, the second end cover 140 is also provided with a through hole 142. The second end cover 140 is fixed to the housing 120 by a screw 182 inserted through the through hole 142. Specifically, a screw hole is provided at the other end of the cover 121 of the housing 120 in the longitudinal direction, the second end cover 140 is fitted into the end of the housing 120, and the screw 182 is inserted. The second end cover 140 can be fixed to the housing 120 by inserting it into the through hole 142 of the end cover 140 in the Y-axis direction and screwing it into the screw hole of the housing 120.

The first end cover 130 and the second end cover 140 may be fixed to the housing 120 with an adhesive, a claw structure, or the like, instead of being fixed with screws 181 and 182.

Further, as shown in FIG. 3, the first end cover 130 is fixed to the housing 120 not only by the screw 181 but also by the screw 191. The screw 191 penetrates the through hole formed in the first side wall portion 121d of the cover 121 of the housing 120 in the X-axis direction, and is screwed into the screw hole provided in the first end cover 130.

Similarly, the first end cover 130 is fixed to the housing 120 not only by the screws 182 but also by the screws 192. The screw 192 penetrates the through hole formed in the first side wall portion 121d of the cover 121 of the housing 120 in the X-axis direction, and is screwed into the screw hole provided in the second end cover 140.

As described above, the first end cover 130 and the second end cover 140 are fixed to the housing 120 by the screws 181 and 182 screwed in the Y-axis direction and the screws 191 and 192 screwed in the X-axis direction. There is. That is, each of the first end cover 130 and the second end cover 140 is fixed to the housing 120 by two screws screwed in from two orthogonal directions. As a result, the first end cover 130 and the second end cover 140 can be securely fixed to the housing 120 to close the housing 120, so that the first housing area A1 and the second housing area A2 can be covered. Invasion of insects and dust can be suppressed.

The first end cover 130 and the second end cover 140 configured in this way are formed of a resin material such as polypropylene or polybutylene terephthalate. The first end cover 130 and the second end cover 140 are not limited to the resin material, and may be formed of a metal material.

The first end cover 130 is provided with a first connecting portion 210 and a second connecting portion 220. In the present embodiment, the first connecting portion 210 and the second connecting portion 220 are formed integrally with the first end cover 130 by, for example, a resin material, but the present invention is not limited thereto.

Further, the second end cover 140 is provided with a first connected portion 310 and a second connected portion 320. In the present embodiment, the first connected portion 310 and the second connected portion 320 are formed integrally with the second end cover 140 by, for example, a resin material, but the present invention is not limited to this.

The detailed structure of the first connecting portion 210 and the second connecting portion 220 and the first connected portion 310 and the second connected portion 320 will be described later.

[Mounting plate]
As shown in FIGS. 1 to 4, the mounting plate 400 is a mounting member for mounting the lighting device 1 on a building material such as a ceiling or a wall, and is a long member having a Y-axis direction as a longitudinal direction. The mounting plate 400 is formed using, for example, a metal plate made of a metal material such as iron or aluminum. In the present embodiment, the mounting plate 400 is formed in a predetermined shape by using an iron plate containing iron as a main component.

As shown in FIGS. 3 and 4, the mounting plate 400 has a first plate portion 410, a second plate portion 420, and a third plate portion 430.

The first plate portion 410 has a support portion 411 that supports the back surface side of the housing 120, and a protruding portion 412 that protrudes outward from the end portion of the support portion 411 in the width direction of the housing 120.

The second plate portion 420 is provided at one end in the width direction of the first plate portion 410. Specifically, the second plate portion 420 is erected on the protruding portion 412 of the first plate portion 410. In the present embodiment, the second plate portion 420 is formed so that the end portion of the first plate portion 410 is bent in a direction substantially perpendicular to the main surface of the first plate portion 410.

The third plate portion 430 is provided at the other end portion in the width direction of the first plate portion 410. Specifically, the third plate portion 430 is erected on the first plate portion 410. In the present embodiment, the third plate portion 430 is formed so that the end portion of the first plate portion 410 is bent in an oblique direction inward with respect to the main surface of the first plate portion 410.

The mounting plate 400 is fixed to a construction material such as a ceiling or a wall with screws, for example. Therefore, the mounting plate 400 is provided with a first through hole 401 and a second through hole 402 through which a screw is inserted.

The first through hole 401 is provided in the first plate portion 410. Therefore, when the outer surface of the first plate portion 410 is used as the mounting surface and attached to the building material, the mounting plate 400 can be fixed to the building material by inserting a screw through the first through hole 401.

The second through hole 402 is provided in the second plate portion 420. Therefore, when the outer surface of the second plate portion 420 is used as the mounting surface and attached to the building material, the mounting plate 400 can be fixed to the building material by inserting a screw through the second through hole 402.

Further, the mounting plate 400 is provided with a mounting spring 403. The mounting spring 403 is a metal spring for holding the lighting unit 100 on the mounting plate, and is provided at one end of the mounting plate 400 in the width direction. Specifically, the mounting spring 403 is provided inside the second plate portion 420 via the mounting bracket. By urging the lighting unit 100 to the mounting plate 400 by the mounting spring 403, the lighting unit 100 can be held by the mounting plate 400.

Specifically, when the lighting unit 100 is pushed toward the second plate portion 420 of the mounting plate 400, the mounting spring 403 is pressed and contracted, and when the lighting unit 100 is fitted into the mounting plate 400, the mounting spring 403 is fitted. A spring restoring force is generated when trying to return from the contracted state to the original state. The lighting unit 100 is pressed against the third plate portion 430 by the spring restoring force of the mounting spring 403 and held by the mounting plate 400. The lighting unit 100 held by the mounting plate 400 can slide along the longitudinal direction (Y-axis direction) of the lighting unit 100.

[Connected part, connected part]
Next, with reference to FIGS. 1 to 4, the first connecting portion 210 and the second connecting portion 220 and the first connected portion 310 and the second connected portion 320 are shown in FIGS. 5 and 4. 6 will be described in detail. 5A and 5B are enlarged views of one end of the lighting device 1 according to the embodiment, where FIG. 5A is a perspective view and FIG. 5B is a side view. 6A and 6B are enlarged views of the other end of the lighting device 1 according to the embodiment, where FIG. 6A is a perspective view and FIG. 6B is a side view.

As shown in FIGS. 5A and 5B, the first connecting portion 210 is provided on the first end cover 130. On the other hand, as shown in FIGS. 6A and 6B, the first connected portion 310 is provided on the second end cover 140. Therefore, the first connecting portion 210 and the first connected portion 310 are provided on opposite sides of the lighting unit 100 in the longitudinal direction.

Each of the first connecting portion 210 and the first connected portion 310 has a structure capable of being electrically connected to each other. In the present embodiment, each of the first connecting portion 210 and the first connected portion 310 has a structure capable of not only electrical connection but also mechanical connection.

As shown in FIG. 5A, in the present embodiment, the first connecting portion 210 is a male connector having a male power feeding structure. On the other hand, as shown in FIG. 6A, the first connected portion 310 is a female connector having a female power feeding structure that can be electrically and mechanically connected to the male connector. That is, the first connecting portion 210 and the first connected portion have a shape that fits each other, and for example, when connecting two lighting units 100, the first of one lighting unit 100 The connecting portion 210 and the first connected portion 310 of the other lighting unit 100 are fitted. As a result, the first connecting portion 210 and the second connected portion are electrically and mechanically connected.

As shown in FIG. 5B, the first connecting portion 210 is provided at a position overlapping the first housing region A1 in a side view from the longitudinal direction of the lighting unit 100. Specifically, the first connecting portion 210 is provided at a position overlapping the power supply region AP in the first housing region A1.

As shown in FIG. 6B, the first connected portion 310 is provided at a position overlapping the first housing region A1 in a side view from the longitudinal direction of the lighting unit 100. Specifically, the first connected portion 310 is provided at a position overlapping the power supply region AP in the first housing region A1.

As described above, both the first connecting portion 210 and the first connected portion 310 are provided at positions overlapping with the first housing region A1 (specifically, the power supply region AP). In the present embodiment, the first connecting portion 210 and the first connected portion 310 are provided at positions where they exactly overlap each other in the side view from the longitudinal direction of the lighting unit 100.

As described above, the lighting unit 100 emits light by receiving AC power supply through, for example, the first connecting portion 210. Specifically, the first connecting portion 210 is electrically connected to the first connecting terminal 113 by a lead wire or the like. Therefore, the electric power received by the first connecting portion 210 is supplied to the first connecting terminal 113. As a result, the circuit element 115 constituting the power supply circuit generates electric power for causing the light emitting element 112 to emit light, and this electric power is supplied to the light emitting element 112 to cause the light emitting element 112 to emit light.

Further, the first connected portion 310 provided on the opposite side of the first connecting portion 210 is electrically connected to the second connecting terminal 114 by a lead wire or the like. Therefore, the AC power supplied to the first connection terminal 113 via the first connection portion 210 is transmitted from the first connection terminal 113 to the second connection terminal 114 by the feed wiring of the light emitting module 110. It is supplied to the first connected portion 310.

In this way, the lighting unit 100 can output the AC power input to the first connecting unit 210 to the first connected unit 310. As a result, for example, when the first connecting portion 210 of the other lighting unit 100 is connected to the first connected portion 310 of the one lighting unit 100, the other lighting unit 100 is connected to the other lighting unit 100 via the one lighting unit 100. AC power can be supplied.

Further, as shown in FIGS. 5A and 5B, the first end cover 130 is provided with a second connecting portion 220 in addition to the first connecting portion 210. Similarly, as shown in FIGS. 6A and 6B, the second end cover 140 is provided with a second connected portion 320 in addition to the first connected portion 310. ..

Each of the second connecting portion 220 and the second connected portion 320 has a structure capable of mechanically connecting to each other. In the present embodiment, each of the second connecting portion 220 and the second connected portion 320 has a structure capable of only mechanical connection among electrical connection and mechanical connection. Therefore, for example, when connecting two lighting units 100, the second connecting portion 220 of one lighting unit 100 and the second connected portion 320 of the other lighting unit 100 are mechanically connected.

Specifically, as shown in FIGS. 5A and 5B, the second connecting portion 220 has a protruding portion 221 that projects outward of the lighting unit 100 in the longitudinal direction of the lighting unit 100. It has a claw portion 222 provided on the protruding portion 221.

The protrusion 221 is provided on the first end cover 130. The protruding portion 221 is a convex body having a structure that can be inserted into the insertion hole 321 of the second connected portion 320. The protrusion 221 is formed in a plate shape, for example, but is not limited to this as long as it can be inserted into the insertion hole 321.

The claw portion 222 is a locking claw having a structure capable of locking in the locking hole 322 of the second connected portion 320. The claw portion 222 has, for example, a trapezoidal ridge having a tapered surface, but the claw portion 222 is not limited to this as long as it can be locked in the locking hole 322.

The second connected portion 320 has an insertion hole 321 into which the protruding portion 221 of the second connecting portion 220 can be inserted, and a locking hole 322 into which the claw portion 222 of the second connecting portion 220 can be locked. .. That is, in the insertion hole 321 and the locking hole 322, for example, when connecting two lighting units 100, the protruding portion 221 of one lighting unit 100 is inserted into the insertion hole 321 of the other lighting unit 100, and one of them. The structure may be such that the claw portion 222 of the lighting unit 100 of the above is locked in the locking hole 322 of the other lighting unit 100.

The insertion hole 321 is provided on the side surface of the lighting unit 100 in the longitudinal direction. Specifically, the insertion hole 321 is a through hole and is provided in the second end cover 140. The insertion hole 321 is, for example, a horizontally long rectangular slit-shaped through hole, but is not limited to this as long as the protrusion 221 provided on the first end cover 130 can be inserted.

Further, the locking hole 322 is provided on the upper surface of the lighting unit 100. Specifically, the locking hole 322 is formed in the light-shielding portion 121b of the cover 121 of the housing 120. As an example, the locking hole 322 is a rectangular through hole, but is not limited to this as long as it has a shape in which the claw portion 222 provided on the first end cover 130 can be hooked. Therefore, the locking hole 322 is not limited to the through hole, but may be a recess having a bottom portion. However, since the claw portion 222 is exposed by making the locking hole 322 a through hole, when the claw portion 222 is locked in the locking hole 322, the claw portion 222 is pushed inward to expose the claw portion 222. The locked state of 222 and the locking hole 322 can be easily released.

As shown in FIG. 5B, the second connecting portion 220 configured in this way is provided at a position overlapping the second housing region A2 in the side view from the longitudinal direction of the lighting unit 100. ..

Further, as shown in FIG. 6B, the second connected portion 320 is provided at a position overlapping with the second housing region A2 in the side view from the longitudinal direction of the lighting unit 100.

As described above, the second connecting portion 220 and the second connected portion 320 are both provided at positions overlapping with the second housing region A2. In the present embodiment, the second connecting portion 220 and the second connected portion 320 are provided at positions where they exactly overlap each other in the side view from the longitudinal direction of the lighting unit 100.

Further, in the top view of the lighting unit 100, the second connecting portion 220 is provided on the side of the first connecting portion 210. That is, in the top view of the lighting unit 100, the first connecting portion 210 and the second connecting portion 220 are provided side by side in the width direction of the lighting unit 100, and the first connecting portion 210 and the second connecting portion 210 are provided. It does not overlap with the connecting portion 220. As a result, the first connected portion 310 and the second connected portion 320 are also provided side by side in the width direction of the lighting unit 100.

[Another form of the second connecting part]
Since the protruding portion 221 of the second connecting portion 220 protrudes in the longitudinal direction of the lighting unit 100 toward the outside of the lighting unit 100, it may be grasped and damaged by an operator during construction. .. Therefore, for example, by making the protruding portion 221 thicker, the strength of the protruding portion 221 can be increased and damage to the protruding portion 221 can be suppressed. However, when connecting the two lighting units 100, that is, when locking the claw portion 222 into the locking hole 322, the deflection of the protrusion 221 is utilized, and when the protrusion 221 is thickened, the protrusion 221 is deflected. Since it becomes difficult, it becomes difficult to connect the two lighting units 100.

Therefore, the second connecting portion 220 may have another protruding portion. FIG. 7 is an external perspective view of the first end cover of such another aspect.

The first end cover 130a shown in FIG. 7 is provided with a second connecting portion 220a. The second connecting portion 220a has a protruding portion 221 and a protruding portion 223 that project outward in the lighting unit 100 in the longitudinal direction, and a claw portion 222 provided on the protruding portion 221. The protrusion 221 is an example of the first protrusion, and the protrusion 223 is an example of the second protrusion. The protrusions 221 and 223 are arranged side by side at intervals in the vertical direction.

The protruding portion 221 has a plate shape with the vertical direction as the thickness direction, and the claw portion 222 is provided on the upper main surface of the protruding portion 221. That is, the claw portion 222 is located above the protruding portion 221.

The protrusion 223 has a vertical direction as a thickness direction and has a long plate shape along the longitudinal direction of the lighting unit 100. The protrusion 223 is located below the protrusion 221. It is located on the main surface side opposite to the main surface on which the claw portion 222 is provided. That is, the upper main surface of the protrusion 223 faces the lower main surface of the protrusion 221.

The width of the protrusion 223 is shorter than the width of the protrusion 221 when viewed from the longitudinal direction of the lighting unit 100. Further, the length of the protruding portion 223 in the longitudinal direction of the lighting unit 100 is shorter than the length of the protruding portion 221. Therefore, when viewed from above, the protrusion 223 is hidden by the protrusion 221. Then, when the operator grips the protruding portion 221, the protruding portion 223 is also likely to be gripped at the same time.

In this way, if the projecting portion 223 is grasped by the operator in addition to the projecting portion 221, damage to the projecting portion 221 is suppressed. According to the protrusion 223, damage to the protrusion 221 can be suppressed without increasing the thickness of the protrusion 221. That is, according to the protruding portion 223, it is possible to suppress damage to the protruding portion 221 while ensuring the flexibility of the protruding portion 221.

Further, when the connection between the two lighting units 100 is released, the protruding portion 221 (claw portion 222) is pushed downward (back side) by a jig or the like. The protrusion 223 functions as a support member when the protrusion 221 is pushed downward, and can suppress damage to the protrusion 221 and deformation of the protrusion 221 when the two lighting units 100 are disconnected.

The protruding portion 223 of one lighting unit 100 is inserted into, for example, an insertion hole 321 provided in the second end cover 140 of the other lighting unit 100. As a result, it is possible to prevent the protrusion 223 of one lighting unit 100 from interfering with the other lighting unit 100 when the two lighting units 100 are connected. The protruding portion 223 may be inserted into an insertion hole provided in the second end cover 140, which is different from the insertion hole 321.

[Construction example of lighting equipment]
Next, a construction example of the lighting device 1 will be described. In the present embodiment, a case where the lighting device 1 shown in FIG. 1 and the lighting device 2 shown in FIGS. 8 and 9 are connected will be described. Specifically, the lighting device 2 shown in FIGS. 8 and 9 is a lighting device for turning on the power. The lighting device 1 shown in FIG. 1 is connected to the power-on line lighting device 2 as a connection lighting device.

First, the lighting device 2 for turning on the power supply will be described with reference to FIGS. 8 and 9. 8 and 9 are perspective views of the lighting device 2 for turning on the power.

The lighting device 2 includes a lighting unit 100A, a terminal unit 500 provided at one end of the lighting unit 100A in the longitudinal direction, and a first connected device provided at the other end of the lighting unit 100 in the longitudinal direction. A portion 310, a second connected portion 320, and a mounting plate 400 are provided.

The lighting unit 100A is different from the lighting unit 100 of the lighting device 1 in the above embodiment in that it does not have the first connecting portion 210 and the first connected portion 310. Other than that, the lighting unit 100A has the same configuration as the lighting unit 100.

Further, the terminal unit 500 has a terminal block 510, a cover 520 that covers the terminal block 510, and a switch 530. An electric wire 3 such as a VVF cable connected to an external power source such as a commercial power source is connected to the terminal block 510. In the present embodiment, AC power is input to the terminal block 510. The switch 530 switches the power input to the terminal block 510 on and off. That is, by operating the switch 530, it is possible to switch on / off the power supplied from the terminal block 510 to the lighting unit 100A.

Next, a specific construction example of connecting the lighting device 1 for connection shown in FIG. 1 and the lighting device 2 for power-on line shown in FIGS. 8 and 9 will be described with reference to FIG. FIG. 10 is a diagram for explaining a construction example of connecting two lighting devices according to an embodiment.

First, as shown in FIG. 10A, the two mounting plates 400 are arranged in a straight line and fixed to the construction material. In this case, a screw such as a wood screw is inserted into the first through hole 401 or the second through hole 402 of the mounting plate 400 to fix the mounting plate 400 to a construction material such as a ceiling or a wall.

Next, as shown in FIG. 10B, the lighting unit 100A to which the terminal block 510 is attached is attached to one of the two mounting plates 400, and the lighting unit 100A is held by the mounting plate 400. Specifically, the L-shaped metal fitting attached to the side surface of the lighting unit 100A is pushed into the mounting spring while rotating the lighting unit 100A so as to be hooked on the mounting spring of the mounting plate 400. As a result, the lighting unit 100A can be held by the mounting plate 400.

Next, as shown in FIG. 10C, the electric wire 3 is connected to the terminal block 510, and the cover 520 is attached to the terminal block 510. Further, the lighting unit 100 is attached to the other of the two mounting plates 400, and the lighting unit 100 is held by the mounting plate 400 in the same manner as the lighting unit 100A. Specifically, the L-shaped metal fitting attached to the side surface of the lighting unit 100 is pushed into the mounting spring while rotating the lighting unit 100 so as to be hooked on the mounting spring of the mounting plate 400.

Then, the lighting unit 100 held by the mounting plate 400 is slid in the direction indicated by the arrow in FIG. 10C, and the lighting unit 100 is connected to the lighting unit 100A as shown in FIG. 10D. do.

Specifically, the first connecting portion 210 (male connector) of the lighting unit 100 is connected to the first connected portion 310 (female connector) of the lighting unit 100A, and the second connecting portion 220 of the lighting unit 100 is connected. Is connected to the second connected portion 320 of the lighting unit 100A.

By connecting the first connecting portion 210 and the first connected portion 310 in this way, the lighting unit 100 and the lighting unit 100A are electrically connected. As a result, the electric power input to the terminal block 510 can be supplied to the lighting unit 100 via the lighting unit 100A.

Further, by connecting the second connecting portion 220 and the second connected portion 320, the lighting unit 100 and the lighting unit 100A are mechanically connected. Specifically, the protruding portion 221 of the second connecting portion 220 in the lighting unit 100 is inserted into the insertion hole 321 of the second connected portion 320 in the lighting unit 100A, and as shown in FIG. 10D, The claw portion 222 of the second connecting portion 220 of the lighting unit 100 is snapped in to the locking hole 322 of the second connected portion 320 of the lighting unit 100A. As a result, the lighting unit 100 and the lighting unit 100A are connected and fixed to each other in a state where they cannot be separated from each other.

As described above, the lighting device 2 for power-on line and the lighting device 1 for connection can be connected. That is, the lighting device 2 for power-on line and the lighting device 1 for connection can be electrically and mechanically connected.

By the way, when two mounting plates 400 are arranged in a straight line and fixed to a construction material as shown in FIG. 10A, it is difficult to visually secure the linearity. Therefore, for example, the guide jig 600 as shown in FIGS. 11 and 12 may be used. 11 and 12 are perspective views for explaining the structure of the guide jig 600.

When fixing the two mounting plates 400 to the construction material, the guide jig 600 is fitted between the second plate portion 420 of the two mounting plates 400 and the third plate portion 430 of the two mounting plates 400. .. At this time, the guide jig 600 is arranged at the boundary between the end of one mounting plate 400 and the end of the other mounting plate 400.

The operator fixes each of the two mounting plates 400 to the construction material with screws in a state where the guide jig 600 is fitted in this way. As a result, the two mounting plates 400 are fixed to the construction material in a state where the linearity is ensured. The guide jig 600 is removed from the mounting plates 400 after the two mounting plates 400 are fixed. Each of the lighting unit 100A and the lighting unit 100 is attached to the mounting plate 400 with the guide jig 600 removed.

The guide jig 600 is formed of, for example, a resin material such as ASA resin or ABS resin. Specifically, the guide jig 600 includes a base portion 610 and a guide wall 620 erected on the base portion 610.

The base portion 610 faces the first plate portion 410. The base portion 610 is basically flat, but includes a curved portion 630. The curved portion 630 forms a groove extending in the longitudinal direction of the first plate portion 410 when the base portion 610 is viewed from the first plate portion 410 side. The cross-sectional shape of this groove is, for example, U-shaped.

Such a curved portion 630 imparts elasticity to the guide jig 600. The curved portion 630 can bend the guide jig 600 in the lateral direction of the first plate portion 410, for example, when the guide jig 600 is fitted into the mounting plate 400.

The guide wall 620 is inside the second plate portion 420 of one mounting plate 400 and the second plate portion 420 of the other mounting plate 400 in order to linearly arrange and fix the two mounting plates 400 to the construction material. Contact at the same time. The guide wall 620 is basically flat, but has a recess 640 recessed on the third plate portion 430 side. The recess 640 forms a space for the operator to grip the guide jig 600 when the guide jig 600 is removed from the mounting plate 400. The operator can grip the guide jig 600 by inserting a finger into the space formed by the recess 640, for example.

As described above, according to the guide jig 600, the operator can fix the two mounting plates 400 to the construction material in a state where the linearity is ensured.

[Example of disconnection of lighting device]
When the connection state between the lighting unit 100 and the lighting unit 100A is released, as shown in FIG. 13, the claw portion 222 is pushed to the back side (in the height direction of the lighting unit 100) by a jig 4 or the like. The claw portion 222 is removed from the locking hole 322, and a flat-blade screwdriver 5 or the like is inserted into the gap between the second step portion 141 of the lighting unit 100A and the first step portion 131 of the lighting unit 100 and rotated. By separating the lighting unit 100A and the lighting unit 100, the connection state between the lighting unit 100A and the lighting unit 100 can be released.

As described above, in the present embodiment, the connection position (connection release position) between the first connecting portion 210 and the first connected portion 310, and the second connecting portion 220 and the second connected portion 320 Since the connection position (connection release position) of the above is different, the lighting unit 100A and the lighting unit 100 can be separated without applying unnecessary stress to the first connecting portion 210 which is a male connector.

Further, in the present embodiment, when the connection state between the lighting unit 100A and the lighting unit 100 is released, the claw portion 222 and the locking hole 322 are released from the locked state, and then the lighting unit 100A and the lighting unit 100 are released. And are separated. That is, the connected state is released by the work of two places. Therefore, in order to release the connection state between the lighting unit 100 and the lighting unit 100A, the work of both hands is required.

By daringly encouraging the work with both hands in this way, it is possible to prevent the lighting unit 100A and the lighting unit 100 from being unexpectedly detached from each other. For example, even if the claw portion 222 is pushed in when the connection state between the lighting unit 100A and the lighting unit 100 is not intended to be released, the connection state between the lighting unit 100A and the lighting unit 100 is simply pushed in. Is not released. As described above, in the present embodiment, the lighting unit 100A and the lighting unit 100 once connected cannot be easily removed by a general user.

By the way, in order to release the connection state between the lighting unit 100 and the lighting unit 100A, it is preferable to use a dedicated jig such as the jig 4. The form of the dedicated jig is not limited to the form like the jig 4, and may be, for example, the form shown in FIGS. 14 and 15. FIG. 14 is an external perspective view of a jig of another form. FIG. 15 is a diagram for explaining a method of releasing the connection state of the two lighting units by using a jig of another form.

The jig 540 shown in FIGS. 14 and 15 is a jig for pressing the claw portion 222 when the claw portion 222 is locked in the locking hole 322. The jig 540 is made of a resin material such as polypropylene or polybutylene terephthalate. Specifically, the jig 540 has a jig main body 541, a convex portion 542, and two inclined ribs 544.

The jig body 541 is a portion of the jig 540 that is held (pinched) by the operator. The jig body 541 has an L-shaped cross section and has a shape in which the bottom portion (the other end portion) is larger than the top portion (one end portion). A convex portion 542 is formed on the bottom surface 543 of the jig body 541.

The convex portion 542 is a substantially rectangular parallelepiped convex portion protruding from the jig main body 541 and is used for pressing the claw portion 222. The size of the convex portion 542 is slightly smaller than the size of the locking hole 322 in order to push the claw portion 222 locked in the locking hole 322 to the back side.

When the claw portion 222 is pushed to the back side by the convex portion 442, the bottom surface 543 located around the convex portion 542 abuts on the edge portion (outer surface of the lighting unit 100) forming the locking hole 322. , It functions as a regulating surface that regulates the amount of pressure of the claw portion 222 by the convex portion 442. According to the bottom surface 543, it is possible to prevent the claw portion 222 from being pushed in more than necessary and being damaged.

The inclined rib 544 has a rib structure that is erected on the jig main body 541 and extends along the longitudinal direction of the jig main body 541, and is formed on the side surface of the jig main body 541 in a direction intersecting the longitudinal direction of the jig main body 541. Two are arranged side by side. Each of the two inclined ribs 544 is linearly inclined so that the height on the top side is lower than the height on the bottom side. Such an inclined rib 544 is used to hold (attach) the jig 540 in the lighting device 2. 16 and 17 are diagrams for explaining the attachment of the jig 540.

As shown in FIGS. 16 and 17, the jig 540 is attached to the inside of the terminal unit 500 of the lighting device 2, for example. In other words, the jig 540 is held in the space covered by the cover 520. Note that in FIGS. 16 and 17, the cover 520 is not shown in order to show the internal structure of the terminal unit 500.

The jig 540 is inserted into the gap (space) between the holding portion 550 and the bottom plate 560 in the terminal unit 500. The holding portion 550 is formed, for example, by bending a part of the bottom plate 560. The jig 540 is inserted so that the low-height side of the inclined rib 544 enters the gap before the high-height side. As a result, the holding portion 550 fits in the gap between the holding portion 550 and the bottom plate 560, and the holding portion 550 can hold the jig 540 in a state where the inclined rib 544 is in contact with the holding portion 550.

In this way, if the jig 540 is bundled with the lighting device 2, it is not necessary to prepare a tool when releasing the connection state of the two lighting units. Further, by holding the jig 540 in the lighting device 2, the loss of the jig 540 is suppressed.

The jig 540 is an example of a dedicated jig, and the holding portion 550 is an example of a holding structure of the dedicated jig. The dedicated jig may have other configurations as long as it can press the claw portion 222. The holding structure may be another structure. Further, it is not essential that the dedicated jig is held in the terminal unit 500, and the dedicated jig may be held in the lighting unit 100.

[Action effect, etc.]
As described above, as shown in FIGS. 5 and 6, the lighting device 1 according to the present embodiment has a long lighting unit 100 and a first lighting unit 100 provided at one end in the longitudinal direction of the lighting unit 100. It includes a connecting portion 210 and a second connecting portion 220, and a first connected portion 310 and a second connected portion 320 provided at the other end in the longitudinal direction of the lighting unit 100. The lighting unit 100 has a first housing region A1 and a second housing region A2 divided in the width direction of the lighting unit 100 across a partition wall, and a light emitting element 112 is provided in the first housing region A1. Have been placed. Each of the first connecting portion 210 and the first connected portion 310 has a structure capable of being electrically connected to each other, and the first housing is viewed from the side view from the longitudinal direction of the lighting unit 100. It is provided at a position overlapping with the area A1. On the other hand, the first connected portion 310 and the second connected portion 320 have a structure capable of being mechanically connected to each other, and the second housing region is viewed from the longitudinal direction of the lighting unit 100. It is provided at a position where it overlaps with A2.

As described above, in the lighting device 1 according to the present embodiment, the first connecting portion 210 and the first connected portion 310 having a structure capable of being electrically connected are the first in which the light emitting element 112 is arranged. A second connecting portion 220 and a second connected portion 320, which are provided at positions overlapping the housing region A1 and have a structure capable of mechanically connecting, are separated from the first housing region A1 via a partition wall. It is provided at a position overlapping the second housing region A2. That is, the first connecting portion 210 and the first connected portion 310 having a structure capable of being electrically connected, and the second connecting portion 220 and the second connected portion 320 having a structure capable of being mechanically connected. Is provided separately, and a part for making an electrical connection and a part for making a mechanical connection when connecting the lighting unit 100 to another lighting unit are provided at different positions. There is.

As a result, since electrical elements such as the light emitting element 112 and the circuit element 115 are not arranged in the second housing region A2, even if insects and dust invade the second housing region A2, the insects and dust cause the insects and dust. It is possible to prevent the conductive portion such as the wiring in the lighting unit 100 from being short-circuited and the circuit element 115 from being deteriorated, and it is possible to prevent the lighting unit 100 from being deteriorated in appearance due to the dead insects that have invaded.

Further, even if insects or dust invade the second housing area A2, the first housing area A1 and the second housing area A2 are separated by a partition wall, so that the second housing area A2 to the second housing area A2 are separated from each other. Insects and dust can be suppressed from entering the housing area A1 of 1.

As described above, according to the lighting device 1 in the present embodiment, for example, at least one of the first connecting portion 210 and the second connecting portion 220 and the first connected portion 310 and the second connected portion 320. When the lighting unit 100 according to the above embodiment is connected to the other lighting unit having one of them, while suppressing the invasion of insects and dust into the first housing region A1 in which the light emitting element 112 is arranged, while suppressing the invasion of insects and dust. Electrical and mechanical connections between the lighting unit 100 and other lighting units can be easily made.

Further, in the lighting device 1 of the present embodiment, in the top view of the lighting unit 100, the first connecting portion 210 and the second connecting portion 220 are provided side by side in the width direction of the lighting unit 100.

As a result, physical interference between the first connecting portion 210 and the second connecting portion 220 can be avoided, so that when the lighting unit 100 is connected to another lighting unit, the first connecting portion of the lighting unit 100 is connected. The electrical connection between the 210 and the first connected portion 310 of the other lighting unit can be easily made, and the second connected portion 220 of the lighting unit 100 and the second connected portion 310 of the other lighting unit are connected. The mechanical connection with the unit 320 can be easily performed.

Moreover, the height of the lighting unit 100 can be lowered by arranging the first connecting portion 210 and the second connecting portion 220 in the width direction of the lighting unit 100. Thereby, the thin lighting device 1 can be realized.

Further, in the lighting device 1 of the present embodiment, the lighting unit 100 houses a power source for generating electric power for causing the light emitting element 112 to emit light, and the light source region AL and the power supply region AP in the first housing region A1. Are located side by side in the width direction of the lighting unit 100. The first connecting portion 210 and the first connected portion 310 are provided at positions overlapping the power supply region AP in a side view from the longitudinal direction of the lighting unit 100.

As a result, when the lighting unit 100 is connected to another lighting unit, when the first connecting portion 210 of the lighting unit 100 and the first connected portion 310 of the other lighting unit are electrically connected. In addition, the first connecting portion 210 and the first connected portion 310 can be easily electrically connected to the power source in the lighting unit 100.

Further, in the lighting device 1 of the present embodiment, the second connecting portion 220 is provided on the protruding portion 221 and the protruding portion 221 that project outward from the lighting unit 100 in the longitudinal direction of the lighting unit 100. The second connected portion 320 has a claw portion 222, and has an insertion hole 321 into which the protruding portion 221 can be inserted and a locking hole 322 into which the claw portion 222 can be locked.

As a result, when the lighting unit 100 is connected to another lighting unit, the mechanical connection between the second connecting portion 220 of the lighting unit 100 and the second connected portion 320 of the other lighting unit is easily and reliably performed. Can be done. Therefore, the lighting unit 100 and the other lighting unit can be easily connected, and the lighting unit 100 and the other lighting unit can be securely fixed so as not to be easily separated from each other.

Further, in the lighting device 1 of the present embodiment, the insertion hole 321 is provided on the side surface in the longitudinal direction of the lighting unit 100, and the locking hole 322 is provided on the upper surface of the lighting unit 100.

As a result, not only the second connecting portion 220 of the lighting unit 100 and the second connected portion 320 of the other lighting unit can be reliably mechanically connected, but also the locking hole 322 is provided in the lighting unit 100. Since it is provided on the upper surface of the above, the connection state between the lighting unit 100 and other lighting units can be easily released. That is, the lighting unit 100 and other lighting units can be easily connected and separated.

Further, in the lighting device 1 of the present embodiment, the first connecting portion 210 is a male connector, and the first connected portion 310 has a structure that can be electrically and mechanically connected to the male connector. It is a female connector.

As a result, when the lighting unit 100 is connected to another lighting unit, the first connecting portion 210 of the lighting unit 100 and the first connected portion 310 of the other lighting unit are electrically connected and at the same time mechanically connected. Can also be connected to. Therefore, the lighting unit 100 and other lighting units can be connected and fixed more reliably.

Further, in the lighting device 1 according to the present embodiment, a first step portion 131 recessed in the longitudinal direction is provided above one end of the lighting unit 100 in the longitudinal direction, and the lighting unit 100 is provided with a first step portion 131 in the longitudinal direction. A second step portion 141 recessed in the longitudinal direction is provided on the upper portion of the other end portion. Then, in the side view from the longitudinal direction of the lighting unit 100, at least a part of the first step portion 131 and the second step portion 141 overlap each other.

As a result, when the lighting unit 100 and the other lighting unit are connected, the first step portion 131 (or the second step portion 141) of the lighting unit 100 is connected to the connecting portion between the lighting unit 100 and the other lighting unit. ) And the second step portion 141 (or the first step portion 131) of the other lighting unit form a gap. As a result, the connection between the lighting unit 100 and the other lighting unit can be released by using this gap, so that the lighting unit 100 and the other lighting unit can be easily separated.

Further, in the lighting device 1 of the present embodiment, the lighting unit 100 includes a long housing 120, a first end cover 130 attached to one end of the housing 120 in the longitudinal direction, and a housing. It has a second end cover 140 attached to the other end of the body 120 in the longitudinal direction. The first connecting portion 210 and the second connecting portion 220 are provided on the first end cover 130.

As a result, the first connecting portion 210 and the second connecting portion 220 can be easily formed, and the first connecting portion 210 and the second connecting portion 210 and the second connecting portion 210 can be easily formed by simply attaching the first end cover 130 to the housing 120. The connecting portion 220 of the above can be provided in the lighting unit 100.

Further, in the lighting device 1 of the present embodiment, each of the first end cover 130 and the second end cover 140 closes the longitudinal ends of the first housing area A1 and the second housing area A2. I'm out.

As a result, it is possible to prevent insects and dust from invading the first housing region A1 and the second housing region A2.

Further, since the first housing area A1 is a space surrounded by the housing 120, it is possible to prevent insects and dust from invading the first housing area A1.

Further, the lighting device 1 according to the present embodiment includes a mounting plate 400 for mounting the lighting device 1 on the construction material. An eaves portion 121c that protrudes outward in the width direction of the housing 120 in an eaves shape is provided on the upper portion of the housing 120, and the mounting plate 400 is a support portion 411 and a housing that support the back surface side of the housing 120. It has a first plate portion 410 having a protruding portion 412 protruding outward in the width direction of the body 120, and a second plate portion 420 standing on the protruding portion 412. Then, in the cross section intersecting the longitudinal direction of the lighting unit 100, the second housing region A2 is a region surrounded by the protruding portion 412, the second plate portion 420, the eaves portion 121c, and the side wall of the housing 120.

As a result, it is possible to create a closed space surrounding the top, bottom, left, and right of the second housing region A2 in the cross-sectional view, so that it is possible to suppress the invasion of insects and dust into the second housing region A2. Therefore, it is possible to suppress the invasion of insects and dust from the second housing region A2 to the first housing region A1.

Further, in the lighting device 1 of the present embodiment, the housing 120 has a long cover 121 having a light transmitting portion 121a and a light shielding portion 121b, and a long base 122 facing the cover 121. ing. Then, in the second housing region A2, a screw head of a screw 193 for fixing the cover 121 and the base 122 is located.

When the second housing area A2 is used as the mounting work area, insects and dust invade the second housing area A2, but as described above, insects and dust have invaded the second housing area A2. Even so, it is possible to prevent insects and dust from invading from the second housing region A2 to the first housing region A1 by the partition wall. That is, the second housing region A2 can tolerate the invasion of insects and dust. As a result, the cover 121 and the base 122 can be screwed together by the screws 193 by using the second housing area A2 as the mounting connection area (machine connection area).

Further, in the lighting device 1 according to the present embodiment, a mounting member for mounting the lighting device 1 on the construction material is arranged in the second housing area A2.

As a result, the second housing area A2 capable of allowing the invasion of insects and dust can be used as a mounting work area (machine connection area) by the mounting member.

[Action effect, etc. 2]
The lighting device 1 may include a first end cover 130a shown in FIG. 7 in place of the first end cover 130. In this case, the lighting device 1 accommodates the light emitting element 112, and has a long lighting unit 100 having a light transmitting portion 121a that transmits the light of the light emitting element 112 and one end of the lighting unit 100 in the longitudinal direction. The second connecting portion 220a provided and the second connected portion 320 provided at the other end portion in the longitudinal direction of the lighting unit 100 are provided. The second connecting portion 220a is a protruding portion 221 and a protruding portion 223 that project outward from the lighting unit 100 in the longitudinal direction, and protrudes from the protruding portion 221 and the protruding portion 223 arranged side by side. It has a claw portion 222 provided in the portion 221. The second connected portion 320 has an insertion hole 321 into which the protruding portion 221 can be inserted and a locking hole 322 into which the claw portion 222 can be locked. The light emitting element 112 is an example of a light source, the protruding portion 221 is an example of a first protruding portion, and the protruding portion 223 is an example of a second protruding portion.

As a result, if the worker grasps the protrusion 223 in addition to the protrusion 221, damage to the protrusion 221 is suppressed. According to the protrusion 223, damage to the protrusion 221 can be suppressed without increasing the thickness of the protrusion 221. That is, according to the protruding portion 223, it is possible to suppress damage to the protruding portion 221 while ensuring the flexibility of the protruding portion 221.

Further, the protruding portion 221 may have a plate shape. The claw portion 222 may be provided on one main surface of the protruding portion 221 and the protruding portion 223 may face the other main surface of the protruding portion 221.

As a result, the protrusion 223 functions as a support member when the protrusion 221 is pushed to the opposite side of the claw portion 222 (when the two lighting units 100 are disconnected), and the protrusion 221 is damaged and the protrusion 221 is damaged. Deformation can be suppressed.

Further, the protruding portion 223 has a plate shape, and the main surface of the protruding portion 223 may face the other main surface of the protruding portion 221.

As a result, the plate-shaped protruding portion 223 can suppress damage to the protruding portion 221 while ensuring the flexibility of the protruding portion 221.

Further, the width of the protruding portion 223 may be shorter than the width of the protruding portion 221 when viewed from the longitudinal direction of the lighting unit 100.

This makes it difficult to see the protruding portion 223, so that when the operator grips the protruding portion 221, the protruding portion 223 is also easily grasped at the same time. If the projecting portion 223 is grasped by the operator in addition to the projecting portion 221, damage to the projecting portion 221 is suppressed.

Further, the protruding portion 223 may be inserted into the insertion hole 321 in addition to the protruding portion 221.

As a result, when the lighting unit 100 is connected to another lighting unit, the protrusion 223 is inserted into the insertion hole 321 of the other lighting unit, so that the protrusion 223 is prevented from interfering with the other lighting unit. Will be done.

Further, the lighting unit 100 may accommodate a power source that generates electric power for causing the light emitting element 112 to emit light.

As a result, the lighting unit 100 can generate electric power for causing the light emitting element 112 to emit light.

Further, the insertion hole 321 may be provided on the side surface in the longitudinal direction of the lighting unit 100, and the locking hole 322 may be provided on the upper surface of the lighting unit 100.

As a result, not only the second connecting portion 220a of the lighting unit 100 and the second connected portion 320 of the other lighting unit can be reliably mechanically connected, but also the locking hole 322 is provided in the lighting unit 100. Since it is provided on the upper surface of the above, the connection state between the lighting unit 100 and other lighting units can be easily released. That is, the lighting unit 100 and other lighting units can be easily connected and separated.

Further, the lighting unit 100 includes a long housing 120 having a translucent portion 121a, a first end cover 130a attached to one end of the housing 120 in the longitudinal direction, and a length of the housing 120. It may have a second end cover 140 attached to the other end in the direction. The second connecting portion 220a may be provided on the first end cover 130a, and the second connected portion 320 may be provided on the second end cover 140.

As a result, the second connecting portion 220a can be easily formed, and the second connecting portion 220a can be provided on the lighting unit 100 simply by attaching the first end cover 130a to the housing 120.

[Action effect, etc. 3]
Further, the lighting device 2 may include a jig 540 as shown in FIGS. 14 to 17. Such a lighting device 2 includes a long lighting unit 100 that houses the light emitting element 112 and has a light transmitting portion 121a that transmits the light of the light emitting element 112, and one end of the lighting unit 100 in the longitudinal direction. A second connecting portion 220 provided, which is a second connecting portion 220 mechanically connected to a second connected portion 320 provided at an end portion in the longitudinal direction of another lighting unit, and a second connecting portion 220. When the claw portion 222 of one of the connecting portion 220 and the second connected portion 320 of 2 is locked in the locking hole 322 of the other of the second connecting portion 220 and the second connected portion 320. A jig 540 for pressing the claw portion 222 and a holding portion 550 for holding the jig 540 are provided. The light emitting element 112 is an example of a light source.

In this way, if the jig 540 is bundled with the lighting device 2, it is not necessary to prepare a tool when releasing the connection state of the two lighting units. Further, by holding the jig 540 in the lighting device 2, the loss of the jig 540 is suppressed.

Further, the jig 540 may have a jig main body 541 and a convex portion 542 for pressing the claw portion 222 protruding from the jig main body 541. The jig main body 541 has a regulating surface around the convex portion 542 that regulates the amount of pressure of the claw portion 222 by the convex portion 542 by abutting on the edge portion forming the locking hole 322. The regulatory surface is the bottom surface 543 in the above embodiment.

As a result, it is possible to prevent the claw portion 222 from being pushed in more than necessary and being damaged.

Further, the jig 540 may further have an inclined rib 544 erected on the jig main body 541. The holding portion 550 may sandwich the jig 540 in a state where the inclined rib 544 is in contact with the holding portion 550.

The holding portion 550 can hold the jig 540 by utilizing the inclined rib 544.

Further, the lighting device 2 may further include a terminal unit 500 arranged adjacent to the other end of the lighting unit 100A in the longitudinal direction. The terminal unit 500 includes a holding unit 550, a terminal block 510 to which AC power is input, a switch 530 for switching on / off of power supplied from the terminal block 510 to the lighting unit 100, and a holding unit 550 and a terminal block 510. It may have a cover 520 to cover. The holding portion 550 may hold the jig 540 in the space covered by the cover 520.

In this way, if the jig 540 is bundled with the terminal unit 500, it is not necessary to prepare a tool when releasing the connection state of the two lighting units. Further, by holding the jig 540 in the terminal unit 500, the loss of the jig 540 is suppressed.

[Action effect, etc. 4]
Further, the lighting device 1 may include a guide jig 600 as shown in FIGS. 11 to 12. Such a lighting device 1 is a long lighting unit 100 that houses the light emitting element 112 and has a light transmitting portion 121a that transmits the light of the light emitting element 112, and a mounting plate 400 to which the lighting unit 100 is attached. , A second plate portion 420 erected on the first plate portion 410 that regulates the movement of the elongated first plate portion 410 and the lighting unit 100 in the lateral direction of the first plate portion 410. A guide jig that is fitted between the mounting plate 400 having the third plate portion 430 and the second plate portion 420 and the third plate portion 430 of the mounting plate 400 when the mounting plate 400 is fixed to the construction material. It is equipped with a tool 600. The guide jig 600 linearly arranges and fixes the mounting plate 400 and the other mounting plate 400 to the construction material, so that the second plate portion 420 of the mounting plate 400 and the second plate portion of the other mounting plate 400 are fixed. It has a guide wall 620 that contacts the 420 from the inside. The light emitting element 112 is an example of a light source, the first plate portion 410 is an example of a bottom plate, the second plate portion 420 is an example of a first side wall, and the third plate portion 430 is an example. This is an example of the second side wall.

According to such a guide jig 600, the operator can fix the two mounting plates 400 to the construction material in a state where the linearity is ensured.

Further, the guide wall 620 may have a recess 640 recessed on the third plate portion 430 side.

Thereby, when the guide jig 600 is removed from the mounting plate 400, the operator can grip the guide jig 600 by utilizing the space formed by the recess 640. Therefore, the guide jig 600 can be easily removed.

Further, the guide jig 600 may have a base portion 610 which is a base portion 610 facing the first plate portion 410 and includes a curved portion 630. The curved portion 630 may form a groove extending in the longitudinal direction of the first plate portion 410 when the base portion 610 is viewed from the first plate portion 410 side.

As a result, when the guide jig 600 is fitted into the mounting plate 400, the guide jig 600 can be bent in the lateral direction of the first plate portion 410. Therefore, the guide jig 600 can be easily fitted.

Further, the guide jig 600 may be removed from the mounting plate 400 after the mounting plate 400 is fixed. The lighting unit 100 may be mounted on the mounting plate 400 with the guide jig 600 removed.

As a result, the space for the guide jig 600 is not required in the completed state of the lighting device 1, so that the lighting device 1 can be easily miniaturized.

(Modification example)
Although the present invention has been described above based on the embodiments, the present invention is not limited to the above embodiments.

For example, in the above embodiment, the partition wall that separates the internal space of the lighting unit 100 into the first housing region A1 and the second housing region A2 is both the first side wall portion 121d and the second side wall portion 122a. It was a double structure using, but it is not limited to this. For example, the partition wall that separates the internal space of the lighting unit 100 into the first housing region A1 and the second housing region A2 is composed of either the first side wall portion 121d or the second side wall portion 122a. It may be configured by a structure other than the first side wall portion 121d and the second side wall portion 122a.

Further, in the above embodiment, one light emitting module 110 is arranged in one housing 120, but the present invention is not limited to this, and a plurality of light emitting modules 110 may be arranged in one housing 120. In this case, if a plurality of light emitting modules 110 are arranged so as to be adjacent to each other along the longitudinal direction of the light emitting module 110 (longitudinal direction of the substrate 111), and the two adjacent light emitting modules 110 are electrically connected by an electric wire or the like. good. As a result, AC power can be sequentially transmitted to the adjacent light emitting modules 110 by relaying each light emitting module 110.

Further, in the above embodiment, the lighting device 2 for power-on line and the lighting device 1 for connection are connected, but the present invention is not limited to this. For example, in addition to the power-on line lighting device 2 and the connecting lighting device 1, the connecting lighting device 1 may be further connected to connect three or more lighting devices. As a result, AC power can be sequentially transmitted to the adjacent lighting device 1 for connection by relaying each lighting device 1 for connection. It should be noted that a plurality of connecting lighting devices 1 may be connected without using the power-on lighting device 2.

Further, in the above embodiment, the second connecting portion 220 is composed of the protruding portion 221 and the claw portion 222, and the second connected portion 320 is composed of the insertion hole 321 and the locking hole 322. However, it is not limited to this. For example, on the contrary, the second connected portion 320 is composed of a protruding portion protruding in the longitudinal direction of the lighting unit 100 and a claw portion provided on the protruding portion, and the second connecting portion 220 is formed. However, it may be composed of an insertion hole into which the protruding portion of the second connected portion 320 can be inserted and a locking hole into which the claw portion of the second connected portion 320 can be locked.

Further, in the above embodiment, the first connecting portion 210 is a male connector and the first connected portion 310 is a female connector, but the present invention is not limited to this. For example, the first connecting portion 210 may be a female connector and the first connected portion 310 may be a male connector.

Further, in the above embodiment, as shown in FIG. 5, on one end side (first end cover 130 side) of the lighting unit 100 in the longitudinal direction, the first housing region A1 (electrical connection region). The first connecting portion 210 in the above has a convex structure (male connector), and the second connecting portion 220 in the second housing region A2 (machine connection region) has a convex structure (protruding portion 221 and claw portion 222). The combination of the convex structure and the concave structure is not limited to this, and is arbitrary.

For example, the first connecting portion 210 in the first housing region A1 has a concave structure (female connector), and the second connecting portion 220 in the second housing region A2 has a convex structure (protruding portion 221, claw portion 222). May be good. Further, the first connecting portion 210 in the first housing area A1 has a convex structure (male connector), and the second connecting portion 220 in the second housing area A2 has a concave structure (insertion hole 321 and locking hole 322). May be. Further, the first connecting portion 210 in the first housing area A1 has a concave structure (female connector), and the second connecting portion 220 in the second housing area A2 has a concave structure (insertion hole 321 and locking hole 322). May be.

In these cases, the convex structure and the concave structure of the first connected portion 310 and the second connected portion 320 on the other end side (second end cover 140 side) of the lighting unit 100 in the longitudinal direction. May have a structure opposite to the concave or convex structure of the first connecting portion 210 and the second connecting portion 220 (that is, a structure that fits each other). For example, when the first connecting portion 210 has a convex structure, the first connected portion 310 may have a concave structure, and when the first connecting portion 210 has a concave structure, the first covered portion 210 has a concave structure. The connecting portion 310 may have a convex structure. Similarly, when the second connecting portion 220 has a convex structure, the second connected portion 320 may have a concave structure, and when the second connecting portion 220 has a concave structure, the second connecting portion 320 may have a concave structure. The connected portion 320 may have a convex structure.

Further, in the above embodiment, the light emitting module 110 is an SMD type in which an SMD type LED element is used as the light emitting element 112, but the present invention is not limited to this, and may be a COB type. In this case, an LED chip (bare chip) may be used as the light emitting element 112, a plurality of LED chips may be arranged on the substrate 111, and the plurality of LED chips may be collectively sealed or individually sealed with a line-shaped sealing member.

Further, in the above embodiment, the light emitting element 112 is composed of LEDs, but the present invention is not limited to this. for example. As the light emitting element 112, other solid light emitting elements such as a semiconductor laser or an organic EL (Electro Luminescence) may be used.

Further, in the above embodiment, the circuit element 115 and the light emitting element 112 are mounted on the same substrate 111, but the present invention is not limited to this. For example, the substrate on which the circuit element 115 is mounted and the substrate on which the light emitting element 112 is mounted may be separately separated. In this case, the substrate on which the circuit element 115 is mounted (circuit board) and the substrate on which the light emitting element 112 is mounted (light source substrate) may be placed side by side on the bottom of the housing 120.

In addition, there are also forms obtained by applying various modifications to the embodiments that can be conceived by those skilled in the art, and forms realized by arbitrarily combining the components and functions of the embodiments without departing from the spirit of the present invention. Included in the present invention.

For example, the present invention may be realized as a method of attaching the lighting device 1 (or the lighting device 2) to the construction material using the guide jig 600.

1, 2 Lighting device 100, 100A Lighting unit 112 Light emitting element (light source)
120 Housing 130a First end cover 140 Second end cover 220a Second connecting part (connecting part)
221 223 Protruding part 222 Claw part 320 Second connected part 321 Insertion hole 322 Locking hole

Claims (8)

A long lighting unit that houses a light source and has a translucent portion that transmits the light of the light source.
With a connecting portion provided at one end in the longitudinal direction of the lighting unit,
It is provided with a connected portion provided at the other end portion in the longitudinal direction of the lighting unit.
The connecting portion is a first protruding portion and a second protruding portion that project outward from the lighting unit in the longitudinal direction of the lighting unit, and the first protruding portion and the second protruding portion are arranged side by side. Has a protrusion and a claw portion provided on the first protrusion.
Wherein the connected portion has a first projecting portion can be inserted insertion hole, and the pawl portion is closed and lockable locking hole,
The second protrusion has a long plate shape along the longitudinal direction of the lighting unit.
Lighting device. A long lighting unit that houses a light source and has a translucent portion that transmits the light of the light source.
With a connecting portion provided at one end in the longitudinal direction of the lighting unit,
It is provided with a connected portion provided at the other end portion in the longitudinal direction of the lighting unit.
The connecting portion is a first protruding portion and a second protruding portion that project outward from the lighting unit in the longitudinal direction of the lighting unit, and the first protruding portion and the second protruding portion are arranged side by side. Has a protrusion and a claw portion provided on the first protrusion.
Wherein the connected portion has a first projecting portion can be inserted insertion hole, and the pawl portion is closed and lockable locking hole,
The width of the second protrusion is shorter than the width of the first protrusion in the side view from the longitudinal direction of the lighting unit.
Lighting device. The first protruding portion has a plate shape and has a plate shape.
The claw portion is provided on one main surface of the first protruding portion.
The second protrusion faces the other main surface of the first protrusion.
The lighting device according to claim 1 or 2. The second protruding portion has a plate shape and has a plate shape.
The main surface of the second protrusion faces the other main surface of the first protrusion.
The lighting device according to claim 3. In addition to the first protrusion, the second protrusion can be inserted into the insertion hole.
The lighting device according to any one of claims 1 to 4. Further, the lighting unit houses a power source that generates electric power for causing the light source to emit light.
The lighting device according to any one of claims 1 to 5. The insertion hole is provided on the side surface in the longitudinal direction of the lighting unit.
The locking hole is provided on the upper surface of the lighting unit.
The lighting device according to any one of claims 1 to 6. The lighting unit includes a long housing having the translucent portion, a first end cover attached to one end of the housing in the longitudinal direction, and the other of the housing in the longitudinal direction. Has a second end cover attached to the end
The connecting portion is provided on the first end cover.
The connected portion is provided on the second end cover.
The lighting device according to any one of claims 1 to 7.

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