JP6817603B2 - Lighting device - Google Patents

Description

The present invention relates to a lighting device.

In recent years, lighting devices using LEDs (Light Emitting Diodes) are becoming widespread. For example, in Patent Document 1, in an LED lighting fixture having an LED substrate and a power supply circuit, an illumination including an LED casing for accommodating the LED substrate and a power supply casing which is configured separately from the LED casing and accommodates the power supply circuit. The device is disclosed. Further, the lighting device described in Patent Document 1 is configured so that the LED casing and the power supply casing can be detachably assembled.

Japanese Unexamined Patent Publication No. 2008-258066

By the way, in order to replace the light source provided in the lighting device, the main body of the lighting device fixed to a structure such as a wall or a ceiling and the components of the lighting device provided in the lighting device may be detachably attached. .. In that case, the lighting device is required to improve the workability of the operator who attaches / detachs the component to / from the main body.

The present invention provides a lighting device with improved workability.

The lighting device according to one aspect of the present invention is described by sliding the main body attached to the construction surface of the structure, the legs erected on the main body, and the direction parallel to the construction surface. A mounting plate detachably attached to one end of the leg portion and a light emitting portion arranged on the mounting plate are provided, and the leg portion moves in a direction in which the mounting plate moves away from the construction surface. It has a regulatory department to regulate.

According to the present invention, a lighting device with improved workability is realized.

FIG. 1 is an external perspective view of the lighting device according to the embodiment as viewed from below. FIG. 2 is an exploded perspective view of the lighting device according to the embodiment as viewed from below. FIG. 3 is a view in which the components attached to the mounting plate are removed from the mounting plate. FIG. 4 is a cross-sectional view of the lighting device according to the embodiment. FIG. 5 is a diagram showing the movement of the mounting plate when the mounting plate is mounted on the main body. FIG. 6 is an exploded perspective view of the legs. FIG. 7 is an external perspective view showing a state in which the mounting plate is attached to the main body. FIG. 8 is a cross-sectional view taken along line VIII-VIII of FIG. 7, showing the shape of the leaf spring when the mounting plate is attached to the body. FIG. 9 is a cross-sectional view taken along the line IX-IX of FIG. 7 showing the shape of the leaf spring when the mounting plate is attached to the main body.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that all of the embodiments described below show comprehensive or specific examples. The numerical values, shapes, materials, components, and the like shown in the following embodiments are examples, and are not intended to limit the present invention. Further, among the components in the following embodiments, the components not described in the independent claims indicating the highest level concept are described as arbitrary components.

Further, 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.

In the drawings of the following embodiments, the Y-axis direction is, for example, the vertical direction (vertical direction), and the Y-axis positive direction side may be described as an upper side or a ceiling side. Further, the Y-axis negative direction side may be described as a lower side or a light emitting side. Further, the X-axis direction and the Z-axis direction are directions orthogonal to each other on a plane (horizontal plane) perpendicular to the Y-axis. Further, in the following embodiments, the plan view means viewing from the Y-axis direction.

(Embodiment)
First, the configuration of the lighting device according to the embodiment will be described in detail. FIG. 1 is an external perspective view of the lighting device according to the embodiment as viewed from below. FIG. 2 is an exploded perspective view of the lighting device according to the embodiment as viewed from below. FIG. 3 is a view in which the components attached to the mounting plate included in the lighting device according to the embodiment are removed from the mounting plate. FIG. 4 is a cross-sectional view of the lighting device according to the embodiment.

As shown in FIGS. 1 to 4, the lighting device 10 includes a main body 20, a light emitting unit 30, a mounting plate 40, a translucent cover 50, a storage battery 60, a control unit 70, a terminal block 80, and the like. To be equipped.

The lighting device 10 is a disaster prevention (emergency) lighting device used in a semi-outdoor space such as a common area of an apartment. Specifically, the lighting device 10 is attached to a construction surface such as a ceiling as a ceiling light or a wall surface as a bracket light. In the present embodiment, the plan view shape of the lighting device 10 is circular.

The main body 20 is a member to be attached to a construction surface of a structure such as a ceiling or a wall surface, in other words, a mounting base. The main body 20 is formed of, for example, aluminum die casting, but may be formed of other metal or resin. The main body 20 includes a flat plate-shaped base portion 21 having a circular plan view shape, and a side wall portion 22 erected on the lower side (main surface 21a side) near the peripheral edge of the base portion 21.

The base portion 21 is provided with a mounting structure (opening) for mounting the main body 20 to the structure. The base portion 21 has a flat plate shape, and a surface opposite to the main surface 21a side on which the constituent members of the lighting device 10 such as the storage battery 60 described later are placed is attached to the construction surface of the structure. The construction surface of the structure and the main surface 21a are substantially parallel to each other. Further, in the following embodiment, the main body 20 (lighting device 10) is described as being mounted on the ceiling. Two legs 23 are attached to the base 21.

The leg portion 23 is arranged near the peripheral edge of the base portion 21, one end portion (lower end portion) is connected to the connection portion 41 of the mounting plate 40, and the other end portion (upper end portion) is connected. It is connected in a state of being erected in a direction perpendicular to the main surface 21a of the main body 20. In other words, the leg portion 23 is a member for attaching the mounting plate 40 to the main body 20. The two leg portions 23 are arranged so as to face each other in the vicinity of the peripheral edge of the base portion 21. By adopting the structure in which the mounting plate 40 is connected to the base portion 21 by the leg portion 23 in this way, the heat generated by the light emitting portion 30 is transmitted in the order of the mounting plate 40, the leg portion 23, and the base portion 21. Therefore, the effect that the heat generated by the light emitting unit 30 is less likely to be transferred to the base portion 21 can be obtained as compared with the structure in which the light emitting unit 30 is directly placed on the base unit 21. The leg portion 23 is a plate material bent into a U-shape (U-shape, bracket shape). The leg portion 23 includes a leaf spring (spring material) 24 and a support plate 25.

The leaf spring 24 is an elastic body that holds the mounting plate 40 detachably and has a restoring force (spring restoring force) that tries to return to the original shape when deformed. Specifically, the convex portion (engaging portion) 24a of the leaf spring 24 engages with the opening (engaged portion) 41a of the connecting portion 41 of the mounting plate 40, so that the mounting plate 40 is a leaf spring. It is held at 24. The leaf spring 24 is formed of, for example, a metal material such as stainless steel.

The support plate 25 is a plate material that supports the leaf spring 24, and is made of a metal material having a higher rigidity than the leaf spring 24. For example, the support plate 25 has high rigidity because it is made of a metal material having a higher elastic modulus than the leaf spring 24. As a specific example, the support plate 25 is formed of a galvanized steel plate. The support plate 25 may be made of the same material as the leaf spring 24 as long as it has a higher rigidity than the leaf spring 24. In that case, the shape, size, and the like of the leaf spring 24 and / or the support plate 25 may be appropriately adjusted.

Further, one end of the support plate 25 is bent at a right angle toward the inside of the lighting device 10. The mounting plate 40 is placed on the regulating portion 25b, which is a portion that is substantially horizontal by bending one end of the support plate 25. That is, the regulation portion 25b is a portion formed by bending one end of the leg portion 23 (specifically, the support plate 25) of the lighting device 10. In the present embodiment, the regulating portion 25b is substantially horizontal to the main surface 21a due to the bending of one end of the support plate 25. Since the leg portion 23 has the regulating portion 25b, the operator can easily recognize the position where the mounting plate 40 is installed when the mounting plate 40 is attached to the leg portion 23. Further, when the lighting device 10 is mounted on the wall or ceiling of the structure, the movement of the mounting plate 40 is regulated by the regulating portion 25b. Specifically, the regulating portion 25b regulates the movement of the mounting plate 40 in the direction away from the construction surface of the structure. Therefore, when the mounting plate 40 is attached to the main body 20, the mounting plate 40 is supported by the regulating portion 25b. In the present embodiment, the mounting plate 40 is mounted on the regulation portion 25b in a state where the mounting plate 40 is mounted on the main body 20. The mounting plate 40 mounted on the regulating portion 25b is held by the leaf spring 24 on the main body 20. Further, the other end of the support plate 25 is bent at a right angle toward the inside of the lighting device 10 and is screwed to the base portion 21.

Although the support plate 25 is separate from the main body 20, it may be integrally formed with the main body 20. In this case, the support plate 25 is formed by die-casting aluminum as a part of the main body 20.

A storage battery 60, a control unit 70, and a terminal block 80 are mounted on the main surface 21a of the base portion 21 of the main body 20.

The storage battery 60 is a power source that supplies electric power to the light emitting unit 30. The storage battery 60 is used as an emergency power source, for example, when the supply of AC power from the outside is stopped. The storage battery 60 is, for example, a nickel hydrogen battery. The storage battery 60 may be a battery that can be charged and discharged, and may be a lithium ion battery, a lead storage battery, or the like. The storage battery 60 is covered from below by the storage battery cover 61. The storage battery cover 61 is formed of, for example, aluminum die casting, but may be formed of resin.

The control unit 70 is a power supply circuit unit that converts AC power supplied from the outside of the lighting device 10 into DC power and supplies it to the light emitting unit 30. Specifically, the control unit 70 has a power supply circuit formed by mounting circuit components on a substrate, and a resin cover. The power supply circuit includes a rectifier circuit, an inverter circuit, and the like. The control unit 70 is, for example, screwed to the base portion 21 while being mounted on the main surface 21a of the base portion 21.

The terminal block 80 is a terminal unit in which one or a plurality of terminals into which an electric wire is inserted for electrically connecting the external AC power supply and the control unit 70 are arranged. The AC power is supplied to the control unit 70 from the external AC power supply via the electric wire inserted into the terminal block 80.

Further, the power supply circuit includes a charging circuit for charging the storage battery 60. The charging circuit converts the AC power supplied from the outside of the lighting device 10 into DC power suitable for charging the storage battery 60, and charges the storage battery 60 with the DC power. In the present embodiment, the storage battery 60 is trickle-charged so that the lighting device 10 can be used even in an emergency such as a power failure.

The power supply circuit also includes a detection circuit that detects a stoppage (power failure) of the supply of AC power from the outside, and a discharge circuit that discharges the storage battery 60. When a power failure is detected by the detection circuit, the discharge circuit discharges the storage battery 60. As a result, the storage battery 60 supplies DC power to the light emitting unit 30. As a result, the lighting device 10 can continue to emit light even during a power failure.

The light emitting unit 30 functions as a light source of the lighting device 10. Specifically, the light emitting unit 30 includes a COB (Chip On Board) type light emitting module 31 in which an LED chip mounted on a substrate is sealed with a translucent resin containing a phosphor. The light emitting unit 30 has a circular light emitting region. In the present embodiment, the light emitting unit 30 further includes a lens 33 for controlling the light distribution and a holder 32 for screwing the light emitting unit 30 to the mounting plate 40. The light emitting unit 30 emits, for example, illumination light mainly white light downward. That is, the light emitting unit 30 emits white light toward the translucent cover 50.

Further, the light emitting unit 30 is arranged between the light transmitting member 51 included in the light transmitting cover 50 and the mounting plate 40. Further, when viewed in a plan view, the light emitting portion 30 is arranged on a mounting surface 42a located substantially in the center of the lower surface of the mounting plate 40. The light emitting unit 30 is mounted on the mounting surface 42a of the mounting plate 40 and screwed to the mounting surface 42a. Although not shown, the light emitting unit 30 is electrically connected to the storage battery 60 and the control unit 70 by a lead wire or the like.

By the way, as described above, in order to replace the light source provided in the lighting device, the main body of the lighting device fixed to a structure such as a wall or ceiling and the component parts of the lighting device provided in the lighting device are detachably attached. May be done. In the lighting device 10 according to the embodiment, the lighting device 10 includes a storage battery 60. For example, a lighting device for disaster prevention (emergency use) having a built-in storage battery needs to check the state of the storage battery on a regular basis. At this time, if it is confirmed that the storage battery does not meet the capacity required for the storage battery, the storage battery needs to be replaced. Therefore, in the lighting device 10, the mounting plate 40 and the translucent cover 50 are detachably attached to the main body 20 in order to facilitate replacement of the storage battery 60 attached to the main body 20.

The mounting plate 40 is a mounting member that holds the light emitting portion 30 and is detachably held on the main body 20. Specifically, the mounting plate 40 is detachably attached to one end of the leg 23 by being slid and inserted in a direction parallel to the construction surface. Further, the mounting plate 40 is mounted on the main body 20 so as to cover the storage battery 60, the control unit 70, and the terminal block 80 mounted on the main surface 21a of the base portion 21. In other words, the storage battery 60, the control unit 70, and the terminal block 80 are covered with the mounting plate 40 and mounted on the main body 20. Further, the mounting plate 40 transmits light through the main body 20 (specifically, the base portion 21) and the translucent cover 50 (specifically, the translucent cover 50) in the optical axis direction (Y-axis direction) of the light emitting portion 30. It is arranged between the member 51). As shown in FIG. 4, voids (air layers) are arranged between the mounting plate 40 and the base portion 21 and between the mounting plate 40 and the light transmitting member 51, respectively. That is, the mounting plate 40 does not come into direct contact with either the main body 20 or the light transmitting member 51. As described above, according to the structure in which the light emitting portion 30 is mounted on the mounting surface 42a of the mounting plate 40, the heat generated by the light emitting portion 30 is the base rather than the structure in which the light emitting portion 30 is mounted on the base portion 21. An effect that is difficult to be transmitted to the unit 21 can be obtained.

Further, the mounting plate 40 has a substantially funnel shape whose diameter decreases toward the upper side (base portion 21 side). In other words, the mounting plate 40 has a funnel shape in which the opening area expands as the distance from the light emitting portion 30 increases. The mounting plate 40 is made of, for example, aluminum, but may be made of other metals or resins.

As shown in FIG. 3, the mounting plate 40 has a mounting surface 42a and a reflecting surface 42b on the lower surface side of the mounting plate 40.

The mounting surface 42a is located at a substantially central portion of the mounting plate 40, and is a flat surface on which the light emitting portion 30 is mounted. The mounting surface 42a is a plane perpendicular to the optical axis of the light emitting portion 30, and is a part of the surface (the surface facing the light transmitting member 51) on the light transmitting member 51 side (lower side) of the mounting plate 40. .. The plan-view shape of the mounting surface 42a is not particularly limited, but is circular in the present embodiment. The light emitting unit 30 is located between the light transmitting member 51 and the mounting plate 40 by being mounted on the mounting surface 42a.

A heat radiating member such as a heat radiating sheet may be arranged between the light emitting unit 30 and the mounting surface 42a.

Further, the heat sink may be arranged on the surface of the mounting plate 40 opposite to the mounting surface 42a, that is, the surface facing the mounting surface 42a. According to the heat sink, the heat generated by the light emitting unit 30 during light emission can be released to the heat sink. The heat sink is formed of, for example, aluminum die casting, but may be formed of other metals.

Further, the mounting plate 40 may include a reflecting surface 42b that reflects the light emitted by the light emitting unit 30. In the present embodiment, the mounting plate 40 is a reflector that reflects the light emitted by the light emitting unit 30. The reflecting surface 42b is a surface formed continuously with the mounting surface 42a so as to surround the mounting surface 42a, and reflects a part of the light emitted by the light emitting unit 30 toward the light transmitting member 51. .. The reflective surface 42b is a part of the mounting plate 40 on the light transmitting member 51 side (lower side) (the surface facing the light transmitting member 51). The reflective surface 42b is a tapered surface, but the reflective surface 42b may be partially or wholly curved in the radial direction. It is preferable that the reflective surface 42b is coated with high reflection.

A pair of connecting portions 41 are arranged on the peripheral edges of the mounting plate 40 (each of both ends in the Z-axis direction). The connecting portion 41 is bent at a right angle toward the main body 20 corresponding to the end portion of the leg portion 23. In this way, since the connecting portion 41 is bent corresponding to the end portion of the leg portion 23, the installation worker of the lighting device 10 is informed that the mounting position of the mounting plate 40 is the end portion of the leg portion 23. Can be recognized. The number of connecting portions 41 arranged on the peripheral edge of the mounting plate 40 is not particularly limited. An opening 41a and a locking portion 43 are formed in the connecting portion 41.

The opening 41a is a hole through which the convex portion 24a formed on the leaf spring 24 engages. The opening 41a may be formed with a concave shape instead of a through hole, as long as the convex portion 24a is engaged. Further, the opening 41a and the convex portion 24a may be engaged with each other, and a convex portion having a protruding shape is formed in the connecting portion 41, and an opening which is a hole penetrating the leaf spring 24 is formed in the leaf spring 24. May be good. That is, the engaging portion (convex portion) and the engaged portion (opening portion) need only have a convex portion formed on one of the leaf spring 24 and the connecting portion 41 and an opening formed on the other.

The locking portion 43 has a structure that limits the movement of the mounting plate 40 so that the convex portion 24a and the opening 41a are appropriately engaged with each other when the mounting plate 40 is attached to the leg portion 23. Specifically, in the locking portion 43, the end of the connecting portion on the side opposite to the direction in which the mounting plate 40 is attached to the leg portion 23 (X-axis negative direction side) is on the leg portion 23 side (lighting device 10). It is formed by bending to the outside). By doing so, when the mounting plate 40 is mounted on the leg 23, the locking portion 43 is caught on the leg 23, so that the mounting plate 40 is at an appropriate position where the convex portion 24a and the opening 41a are engaged. Movement is regulated.

As shown in FIG. 4, the mounting plate 40 is attached to the leg portion 23 so that the corner portion formed by bending the mounting plate 40 is aligned with the regulating portion 25b formed at the other end portion of the leg portion 23. It is placed from above the formed regulation unit 25b. The mounted mounting plate 40 has a protrusion (convex) formed by projecting a part of the leaf spring 24 of the leg 23 into the opening 41a which is an opening penetrating the mounting plate 40 formed in the connecting portion 41. The portion 24a) is held by engaging.

The translucent cover 50 is a cover member that is removable from the main body 20 and constitutes a part of the outer housing of the lighting device 10. The light transmitting cover 50 includes a light transmitting member 51 and a tubular body 52.

The light transmitting member 51 is a substantially circular dome-shaped optical member (glove) protruding downward. The light transmitting member 51 is, for example, white or milky white, and has light diffusing property (light scattering property) and light transmitting property.

The light transmitting member 51 is attached to the tubular body 52 so as to close the opening on the lower side of the tubular body 52. Specifically, in the light transmitting member 51, the edge of the light transmitting member 51 protruding outward in a brim shape is the lower surface of the cover holder (not shown) and the upper surface of the portion of the tubular body 52 protruding in a brim shape. It is attached to the tubular body 52 by being sandwiched between the two.

The light transmitting member 51 is formed of, for example, glass, but may be formed of a silicone resin, an acrylic resin, or a polycarbonate resin. Further, the light transmitting member 51 may have light diffusivity by performing silk printing on the surface. Further, the light transmitting member 51 may have light diffusing property by containing a light diffusing material (fine particles) such as silica or calcium carbonate. Further, the light transmitting member 51 may have light diffusing property by forming a milky white light diffusing film containing a light diffusing material or the like on the surface (inner surface or outer surface) of the light transmitting member 51. Further, instead of using a light diffusing material, the light transmitting member 51 is formed by forming minute irregularities on the surface of the light transmitting member 51 by embossing or the like, or by printing a dot pattern on the surface of the light transmitting member 51. May have light diffusivity. Further, the light transmitting member 51 may have the light diffusing property by combining the above-mentioned materials and shapes having the light diffusing property.

The tubular body 52 is a tubular housing that surrounds the light emitting portion 30 and the mounting plate 40 from the side. The tubular body 52 has a cylindrical shape. The tubular body 52, together with the main body 20 and the light transmitting member 51, constitutes an outer housing of the lighting device 10. The tubular body 52 corresponds to a side wall portion of the outer housing. As shown in FIG. 4, the tubular body 52 does not come into contact with the leg portion 23. A gap (air layer) is arranged between the tubular body 52 and the leg portion 23.

The tubular body 52 is connected to the main body 20 by being rotated with the main body 20 arranged in the upper opening. The tubular body 52 is formed of, for example, aluminum die casting, but may be formed of other metal or resin.

Further, when the translucent cover 50 is attached to the main body 20, the lighting device 10 is in a direction perpendicular to the optical axis direction with respect to the length of the light emitted by the light emitting unit 30 in the optical axis direction. It has a flat shape with a larger length. Specifically, as shown in FIG. 4, the lighting device 10 is flat in which the length in the Z-axis direction (width of the lighting device) is larger than the length in the Y-axis direction (height of the lighting device). The shape. In the present embodiment, the lighting device 10 is circular in a plan view, but may be elliptical or polygonal, and the plan view shape is not limited. When the plan view shape of the illuminating device 10 is not circular, the illuminating device 10 has the longest vertical direction in the illuminating device 10 with respect to the length in the direction parallel to the optical axis of the light emitted by the light emitting unit 30. It may be a flat shape having a larger length.

When the lighting device 10 is adopted as a lighting device for disaster prevention, the main body 20 and the translucent cover 50 constituting the outer housing of the lighting device 10 may be formed of a nonflammable or flame-retardant material. .. Specifically, as described above, the main body 20 and the tubular body 52 may be formed of aluminum die casting, and the light transmitting member 51 may be formed of glass. By doing so, when a fire breaks out, the lighting device 10 is suppressed from being ignited due to the spread of fire.

The configuration of the lighting device 10 according to the embodiment has been described in detail above.

Next, the movement of the mounting plate 40 when the mounting plate 40 is attached to the main body 20 will be described.

FIG. 5 is a diagram showing the movement of the mounting plate 40 when the mounting plate 40 is mounted on the main body 20.

The mounting plate 40 is attached to the main body 20 (specifically, the legs 23) by sliding the mounting plate 40 from the side of the main body 20. Specifically, the direction in which the mounting plate 40 is slid-inserted into the main body 20 (mounting direction) is a direction parallel to the main surface 21a (or the construction surface of the structure) of the base portion 21. In the present embodiment, the main surface 21a (and the construction surface of the structure) of the base portion 21 is an XZ plane.

As shown in FIG. 5, the mounting plate 40 is mounted on the leg 23 by being slid-inserted toward the main body 20. In FIG. 5, the mounting plate 40 is mounted on the leg 23 by sliding in the positive direction of the X-axis.

Here, the storage battery 60, the control unit 70, and the terminal block 80 mounted on the main surface 21a side of the base portion 21 are mounted at positions where the mounting plate 40 does not come into contact with the mounting plate 40 when the mounting plate 40 is slid into the main body 20. It should be placed. Specifically, since the mounting plate 40 has a substantially funnel shape as described above, the storage battery 60, the control unit 70, and the terminal are not on the upper part of the mounting surface 42a but on the reflecting surface 42b or the peripheral portion of the mounting plate 40. It is preferable that the stand 80 is placed. Further, the storage battery 60, the control unit 70, and the terminal block 80 are not on the negative X-axis side of the main body 20 on which the mounting plate 40 is slide-inserted, but on the positive X-axis side of the main body 20 on the opposite side. It should be placed. By doing so, the mounting plate 40 is mounted on the leg 23 without contacting the storage battery 60, the control unit 70 and the terminal block 80, and covering the storage battery 60, the control unit 70 and the terminal block 80. That is, the lighting device 10 is miniaturized.

Further, as shown in FIG. 5, the mounting plate 40 has a pair of connecting portions 41. Further, a pair of legs 23 are erected on the main body 20. Here, the pair of connecting portions 41 and the pair of leg portions 23 are arranged at corresponding positions. Specifically, when the mounting plate 40 is slid into the leg 23, the mounting plate 40 is slid in the direction of the arrow of the alternate long and short dash line in FIG. 5, and one connecting portion 41 is inserted into the one leg 23. The other connecting portion 41 is arranged on the other leg portion 23.

Next, the details of the leg portion 23 and the details of the state in which the mounting plate 40 is attached to the leg portion 23 will be described.

FIG. 6 is an exploded perspective view of the leg portion 23. FIG. 7 is an external perspective view showing a state in which the mounting plate 40 is mounted on the main body 20 (specifically, the legs 23). Note that FIG. 7 is a partially enlarged view showing one of the pair of legs 23 erected on the main body 20 in an enlarged manner. Further, in FIG. 7, only a part of the leg portion 23 and the mounting plate 40 is enlarged and shown for the sake of explanation.

As shown in FIG. 6, the support plate 25 is formed with a hole 25a penetrating the support plate 25. The leaf spring 24 and the support plate 25 are arranged on the base portion 21 of the main body 20 so that the convex portion 24a engages with the hole 25a.

When the mounting plate 40 is slid-inserted into the main body 20, the lower surface side of the mounting plate 40 is arranged on the upper surface side of the regulating portion 25b. That is, when the mounting plate 40 is attached to the leg portion 23, the movement of the mounting plate 40 in the vertical direction (direction perpendicular to the main surface 21a and the construction surface of the structure) is regulated by the regulating portion 25b and the guide 26. .. Further, the mounting plate 40 is slidably inserted into the main body 20 in a state where the moving direction of the mounting plate 40 is regulated by the regulating portion 25b, so that the opening 41a formed in the connecting portion 41 and the convex portion of the leaf spring 24 have. The portion 24a is engaged. That is, as shown in FIG. 7, the mounting plate 40 is held by the legs 23. The guide 26 is a guide that regulates the movement of the mounting plate 40 toward the main body 20 when the mounting plate 40 is attached to the leg portion 23.

Next, the shape of the leaf spring 24 when the convex portion 24a and the opening 41a are engaged will be described.

FIG. 8 is a cross-sectional view taken along the line VIII-VIII of FIG. 7 showing the shape of the leaf spring 24 when the mounting plate 40 is slid-inserted into the main body 20. FIG. 9 is a cross-sectional view cut along the IX-IX line of FIG. 7, showing the shape of the leaf spring 24 when the mounting plate 40 is slid-inserted into the main body 20. Specifically, FIG. 8A and FIG. 9A show a state in which the mounting plate 40 is not attached to the leg portion 23. Further, FIG. 8B and FIG. 9B show a state in which the leaf spring 24 is deformed by the mounting plate 40 in the process of mounting the mounting plate 40 on the leg portion 23. Further, (c) of FIG. 8 and (c) of FIG. 9 show a state in which the mounting plate 40 is attached to the leg portion 23. 8 and 9 are partially enlarged views showing one of the pair of legs 23 erected on the main body 20 in an enlarged manner. Further, in FIGS. 8 and 9, only a part of the leg portion 23 and the mounting plate 40 is enlarged and shown for explanation. Further, the arrow of the alternate long and short dash line shown in FIG. 9 indicates the direction in which the mounting plate 40 is moved. Further, the arrow of the alternate long and short dash line shown in FIG. 9 indicates the direction in which the convex portion 24a is moved.

As shown in (b) of FIG. 8 and (b) of FIG. 9, the mounting plate 40 is placed on the regulating portion 25b in the process of sliding the mounting plate 40 into the main body 20. Further, the leaf spring 24 is deformed by being pushed by the connecting portion 41 of the mounting plate 40. Here, the shape of the convex portion 24a is preferably a shape in which the width is reduced as the convex portion 24a is directed toward the projecting direction when viewed in a plan view (top view or bottom view).

As shown in FIG. 9, in the present embodiment, when viewed in a plan view, the convex portion 24a has a substantially trapezoidal shape that protrudes in the positive direction of the Z axis and has a short side in the positive direction of the Z axis. There is. That is, an inclined surface 24b is formed on the convex portion 24a. In the process of sliding the mounting plate 40 into the main body 20, the connecting portion 41 pushes the inclined surface 24b in the direction of sliding insertion. As shown in (b) of FIG. 8 and (b) of FIG. 9, the convex portion 24a moves in the negative direction of the Z axis when the inclined surface 24b is pushed into the mounting plate 40. Specifically, when the inclined surface 24b is pushed into the mounting plate 40, the leaf spring 24 is deformed so that the convex portion 24a moves in the negative direction of the Z axis.

As shown in (c) of FIG. 8 and (c) of FIG. 9, when the mounting plate 40 is further slid-inserted into the main body 20, the leaf spring 24 is in the original state due to the spring restoring force (FIG. 8). Return to (a) and the state shown in (a) of FIG. As a result, the convex portion 24a engages with the opening 41a.

In the present embodiment, when the convex portion 24a is viewed in a plan view, the convex portion 24a has a substantially trapezoidal shape having a short side on the positive direction side of the Z axis, but the present invention is not limited. When viewed in a plan view, the convex portion 24a may be a curved surface in which the inclined surface 24b is curved, for example, a semicircular shape.

(Effects, etc.)
As described above, the lighting device 10 includes a main body 20 attached to the construction surface of the structure and legs 23 erected on the main body 20. Further, the lighting device 10 has a mounting plate 40 that is detachably attached to one end of the leg 23 by being slidly inserted in a direction parallel to the construction surface of the structure to which the main body 20 is mounted. A light emitting unit 30 arranged on the mounting plate 40 is provided. Further, the leg portion 23 has a regulating portion 25b that regulates the movement of the mounting plate 40 in the direction away from the construction surface of the structure.

As a result, when the mounting plate 40 is attached to the leg portion 23, the regulating portion 25b serves as a guide for restricting the movement of the connecting portion 41. Therefore, the operator can easily attach the mounting plate 40 to the main body 20 appropriately. That is, according to the lighting device 10, a lighting device with improved workability is realized.

Further, the main body 20 may have a flat plate-shaped base portion 21 attached to the construction surface of the structure. Further, the leg portion 23 may be erected in the vicinity of the peripheral edge of the base portion 21 and in a direction perpendicular to the main surface 21a of the base portion 21. Further, the restricting portion 25b may be formed by bending one end of the leg portion 23 toward the inside of the lighting device 10.

As a result, when the mounting plate 40 is attached to the leg 23, the regulating portion 25b serves as a guide for restricting the movement of the connecting portion 41, and when the mounting plate 40 is attached to the leg 23, the regulating portion 25b Supports the mounting plate 40. Therefore, the mounting plate 40 is prevented from coming off from the leg portion 23.

Further, the mounting plate 40 may be held by a leaf spring (spring material) 24 included in the leg portion 23.

As a result, the mounting plate 40 can be easily attached to and detached from the leg portion 23.

Further, the leg portion 23 may have a leaf spring 24 and a support plate 25 having a higher rigidity than the leaf spring 24.

Since the leaf spring 24 is supported by the support plate 25 and erected on the base portion 21, the leaf spring 24 is deformed to its original shape even when the mounting plate 40 is repeatedly attached to and detached from the leg portion 23. It is suppressed that it does not return. Therefore, even when the mounting plate 40 is repeatedly attached to and detached from the leg portion 23, the convex portion 24a is likely to be appropriately engaged with the opening portion 41a.

Further, the support plate 25 may have a regulation portion 25b.

That is, by providing the restricting portion 25b on the highly rigid support plate 25, the restricting portion 25b is less likely to be deformed when the mounting plate 40 is attached to the leg portion 23. Therefore, the regulation unit 25b can easily regulate the movement of the mounting plate 40.

Further, the mounting plate 40 has a mounting surface 42a on which the light emitting unit 30 is mounted, and a reflecting surface 42b arranged around the mounting surface 42a that reflects the light emitted by the light emitting unit 30. May be good.

As a result, the light emitted from the light emitting unit 30 is effectively guided from the inside of the lighting device 10 to the outside of the lighting device 10. Therefore, the light utilization efficiency of the lighting device 10 is improved.

Further, when viewed in a plan view, the light emitting portion 30 may be located substantially in the center of the mounting plate 40, and the mounting plate 40 may have a funnel shape in which the opening area expands as the distance from the light emitting portion 30 increases.

As a result, the light emitted from the light emitting unit 30 reflected by the reflecting surface 42b is more efficiently guided to the outside of the illuminating device 10.

Further, the lighting device 10 may further include a storage battery 60 which is covered with a mounting plate 40 and mounted on the main body 20 to supply electric power to the light emitting unit 30.

As a result, the lighting device 10 is supplied with electric power from the storage battery 60 to the light emitting unit 30 even when a power failure or the like occurs. Therefore, even when power is not supplied from the external AC power source in the event of a disaster, for example, the light emitting unit 30 can emit light.

Further, the lighting device 10 may further include a light transmitting member 51 that transmits light emitted by the light emitting unit 30, and a transparent cover 50 that is detachably attached to the main body 20. Further, the lighting device 10 may have a flat shape having a length in the direction perpendicular to the optical axis with respect to the length in the optical axis direction of the light emitted by the light emitting unit 30.

As a result, when the lighting device 10 is attached to the construction surface of a structure such as a wall or ceiling, the problem of appearance that the lighting device 10 appears to protrude from the construction surface is suppressed.

(Other embodiments)
Although the lighting device according to the embodiment has been described above, the present invention is not limited to such an embodiment.

The shape of the lighting device described in the above embodiment is an example. For example, in the above embodiment, the plan view shape of the lighting device is circular, but the plan view shape of the lighting device may be a polygon such as a rectangle.

Further, in the above embodiment, a COB type light emitting module is used as the light emitting unit, but the mode of the light emitting unit is not particularly limited. For example, an SMD type light emitting module may be used as a light emitting unit. Further, as the light emitting unit, a fluorescent tube, a metal halide lamp, a sodium lamp, a halogen lamp, a xenon lamp, a neon tube or the like may be used instead of the light emitting module using the LED chip. Further, as the light emitting unit, inorganic electroluminescence, organic electroluminescence, chemiluminescence (chemiluminescence), a semiconductor laser or the like may be used.

The lighting device according to one or more aspects has been described above based on the embodiment, but the present invention is not limited to this embodiment. As long as the gist of the present invention is not deviated, various modifications that can be conceived by those skilled in the art are applied to the present embodiment, and a form constructed by combining components in different embodiments is also within the scope of one or more embodiments. May be included within.

10 Lighting device 20 Main body 21 Base part 21a Main surface 23 Leg part 24 Leaf spring (spring material)
25 Support plate 25b Control part 30 Light emitting part 40 Mounting plate 42a Mounting surface 42b Reflective surface 50 Translucent cover 51 Light transmitting member 60 Storage battery

Claims (6)

The main body that can be attached to the construction surface of the structure
With the legs erected on the main body,
A mounting plate that can be detachably attached to one end of the leg by being slid and inserted in a direction parallel to the construction surface.
A light emitting unit arranged on the mounting plate is provided.
The legs have a regulating portion to which the mounting plate to regulate the movement in a direction away from the working surface,
The mounting plate is held by the spring material of the legs.
The leg portion has the spring material and a support plate having a higher rigidity than the spring material.
The support plate is a lighting device having the regulation unit . The main body has a flat plate-shaped base portion attached to the construction surface.
The legs are erected in the vicinity of the peripheral edge of the base portion and in a direction perpendicular to the main surface of the base portion.
The illuminating device according to claim 1, wherein the restricting portion is formed by bending one end of the leg portion inward of the illuminating device. The mounting plate has a mounting surface on which the light emitting portion is mounted, and a reflecting surface arranged around the mounting surface described above that reflects the light emitted by the light emitting portion according to claim 1 or 2 . The lighting device described. When viewed in a plan view, the light emitting portion is located substantially in the center of the mounting plate.
The lighting device according to any one of claims 1 to 3 , wherein the mounting plate has a funnel shape in which the opening area expands as the distance from the light emitting portion increases. The lighting device according to any one of claims 1 to 4 , further comprising a storage battery covered with the mounting plate and mounted on the main body to supply electric power to the light emitting unit. Further, it has a light transmitting member that transmits light emitted by the light emitting unit, and has a transparent cover that can be detachably attached to the main body.
Any one of claims 1 to 5 that the illuminating device has a flat shape having a length in a direction perpendicular to the optical axis with respect to the length in the optical axis direction of the light emitted by the light emitting unit. Lighting equipment as described in the section.

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