JP2015076270A - Lighting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting device having a component commonized between a single type lighting device and a double type lighting device.SOLUTION: A lighting device includes a first light source unit 10, a first housing body 50, a first connection structure, and a base 80. The first housing body 50 includes a first side and houses the first light source unit 10. The first connection structure can be connected to a second housing body which houses a second light source unit being a constitutional element of a double type lighting device. The first connection structure is provided in the first side of the first housing body 50. The base 80 is connected to the first housing body 50 via the first connection structure.

Description

  The present invention relates to a lamp used in the field of navigation or aviation.

  In order to ensure the safety of voyage and air traffic, it is obliged to attach a lamp to the hull or aircraft by law or regulation. In recent years, a lamp using, for example, a light emitting diode as a light source has been proposed, and proposals have been made regarding techniques such as luminous intensity and light distribution by the light emitting diode.

  The shiplight described in Patent Document 1 includes a light source composed of a large number of light emitting diodes arranged in a circular or arc shape in the horizontal direction, and a pair of disk-shaped and conical reflections disposed above and below the light source. With a mirror. The ship lamp includes a base unit in which a power supply circuit is accommodated, a trunk cylinder provided on the base unit and containing the light source and the reflecting mirror, and a top unit provided on the trunk cylinder. Have Between the base unit and the top unit, a light-shielding plate that shields light from the light source is provided in a necessary angular range in the circumferential direction (for example, paragraphs [0018] and [0018] in the specification of Patent Document 1). 0024], see FIG.

  In order to obtain a desired light distribution angle when viewed in the horizontal direction, the lamp buoy described in Patent Document 2 has a large number of light emitting diodes arranged in a ring shape as a light source, and a parabolic reflection. And an annular saddle-shaped reflecting mirror having a surface (see, for example, paragraph [0026] of FIG. 2 in the specification of Patent Document 1).

JP 2007-27052 A JP 2007-313946 A

  By the way, double type lamps that have been integrated with a regular lamp and a spare lamp have been used, but the single lamp with only a regular lamp and the components that make up the dual lamp Is different. Therefore, since these different parts and molds for forming them are necessary, it is difficult to reduce the manufacturing cost of the lamp.

  In view of the above circumstances, an object of the present invention is to provide a lamp having parts shared between single and double lamps.

In order to achieve the above object, a lamp according to the present invention includes a first light source unit, a first housing, a first connection structure, and a base.
The first container has a first side and houses the first light source unit.
The first connection structure is connectable to a second container that houses a second light source unit, and is provided on the first side of the first container.
The base is connected to the first container via the first connection structure.

  In the present invention, the first container can be coupled to the second container by the first connection structure. In this case, the base connected to the first container via the first connection structure can be removed, and the first and second containers can be coupled. This single-type lamp can be used as a double-type lamp by connecting to a second container that houses the second light source unit. For example, the main part of the first and second light source units, In addition, the main parts of the first and second containers can be shared. This eliminates the need for parts and molds for each lamp.

  The lamp may further include a second connection structure provided on a second side opposite to the first side of the first container.

  The base may have a third connection structure having a common structure with the second connection structure. When the first container and the second container have a common structure, the second container coupled to the first container is connected to the third container via the third connection structure (that is, the second connection structure). Can be connected to the base. Thereby, it is possible to implement | achieve the structure of a double type lamp with the 1st container and the 2nd container being symmetrically arranged.

  The first connection structure and the second connection structure may have a common structure. Thereby, the structure of a double-type lamp can be implement | achieved by making 1st container and 2nd container symmetrical.

  The lamp may further include a lid connected to the second connection structure. Thereby, a lid can be connected to the opposite side of a base on both sides of a container.

  The first container includes a cover including a light-transmitting region disposed around the first light source unit, and a base cover that is attached to the cover and provided with the first connection structure. May be. Thereby, the base or the second container can be connected to the base cover of the first container via the first connection structure.

  The first container includes a light-transmitting region disposed around the first light source unit, a cover provided with the second connection structure, and a cover attached to the cover, the first connection And a base cover provided with a structure.

  The lid may have a reference mark indicating the direction of the lamp. Thereby, an operator on the manufacturing side of the lamp or a user of the lamp can assemble the lamp or install the lamp on the traveling body based on the reference mark. Therefore, the assembly and installation become easy.

  The lamp may further include a louver that is arranged at one installation angle among a plurality of different installation angles around the first light source unit, and that defines a light emission range from the lamp. Good. The first container may have a mounting portion for the louver provided according to the plurality of installation angles.

Until now, it has been treated as different types of lamps depending on the installation angle of the louver relative to the light source unit. On the other hand, in the present invention, any one of the plurality of installation angles of the louver with one container is provided by the first container having the mounting portions respectively set according to the plurality of installation angles of the louver. Installation angle can be selected. That is, since a lamp with a common container can be realized, parts and molds for each model are not necessary.
The first light source unit may include a light source, a reflector that reflects light from the light source, and a support that integrally supports the light source and the reflector.
The support may be an inner cover that has a light-transmitting region and is disposed in the first container.

A lamp according to another aspect of the present invention includes a first light source unit, a first housing, a second light source unit, a second housing, a connection structure, and a connection structure. .
The first container has a first side and a second side opposite to the first side, and houses the first light source unit.
The second container has a first side and a second side opposite to the first side, and accommodates the second light source unit.
The connection structure can connect the first side of the first container and the first side of the second container.
The base has a connection structure that is connected to the second side of the second container and is connectable to the first side of the first container.

  Since the first container and the second container can be coupled via the first coupling structure and the base can be connected to the second container via the connection structure, the double type lamp Can be realized. Moreover, since the base has a connection structure that can be connected to the first side of the first container, a single-type lamp can be realized. Thereby, components, such as the principal part of a 1st container and a 2nd container, can be shared by a single type and a double type lamp.

  As mentioned above, according to this invention, the lamp | ramp which has the component shared between the single | single_type | double_type lamp | ramp and a lamp | ramp is realizable.

FIG. 1 is a perspective view showing the front side of a single-type ship lamp as the lamp according to the first embodiment of the present invention. FIG. 2 is a perspective view showing the back side of the lamp shown in FIG. FIG. 3 is an exploded perspective view of the lamp shown in FIG. FIG. 4 is a plan view of the lamp shown in FIG. FIG. 5 is a partial schematic cross-sectional view taken along line AA in FIG. FIG. 6 is an exploded perspective view of the light source unit. 7A to 7C are plan views of louvers having different light emission angles. FIG. 8 is a perspective view showing the outer cover. FIG. 9 is a plan view of the outer cover shown in FIG. FIG. 10 is a plan view schematically showing the outer cover (and lid) in order to explain the angular arrangement of the locking grooves, particularly in the attachment region. 11A to 11D show, for example, the installation angle of the louver for each lamp installed in each place of one hull in relation to the angular position of each locking groove of the outer cover (and lid). FIG. 12 is a plan view of the container as viewed from the lower surface side of the base cover. FIG. 13 is a plan view of the base as viewed from the upper surface side. FIG. 14 is a cross-sectional view showing a lamp device according to a second embodiment of the present invention. 15 is an exploded perspective view of the light source unit of the lamp shown in FIG. FIG. 16 is a perspective view showing a double type lamp according to the third embodiment of the present invention. FIG. 17 is a perspective view showing the back side of the double type lamp shown in FIG. FIG. 18 is an exploded perspective view of the lamp shown in FIG. 19 is a cross-sectional view of the lamp shown in FIG. 20A to 20D show, for example, the installation angle of the louver for each lamp installed in each place of one hull in relation to the angular position of each locking groove of the base. FIG. 21 is a perspective view showing a lamp device according to a fourth embodiment of the present invention. FIG. 22 shows an example of the arrangement of ship lights on the hull.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1. General description of ship lights

  As a lamp according to an embodiment of the present invention, a boat lamp installed on a hull will be described. FIG. 22 shows an example of the arrangement of ship lights on the hull. Generally, the hull 1000 includes a bow lamp 1001, a stern lamp 1002, a central mast lamp 1003, and a lamp 1004 including a starboard lamp and a port lamp. The range of light emitted by these various lamps conforms to the Ship Safety Law. Depending on the size of the ship, the number of installed ship lights differs. For example, in the case of a small-sized ship, there is a case where a single lamp with the left and right lamps integrated is used.

  Specifically, the emission range of the bow lamp 1001 and the central mast lamp is defined as 225 ° centered on the bow direction, and the emission range of the stern lamp 1002 is defined as 135 ° centered on the stern direction. . Further, the illumination range of the lantern 1004 is defined as 112.5 ° from the bow direction to the left and right, respectively.

  There are two types of ship lights: a single type with a service light only, and a double system with a service light and a spare light. For ships navigating the pelagic area, double-type ship lights are mainly used. The dual lamp will be described as a third embodiment in this specification.

  2. First embodiment

1) Overall Configuration of Lamp Device FIG. 1 is a perspective view showing a front side of a single ship lamp as a lamp device according to a first embodiment of the present invention. FIG. 2 is a perspective view showing the back side of the lamp device 100 shown in FIG. FIG. 3 is an exploded perspective view of the lamp device 100. The lamp device 100 is mainly used with the z direction as the vertical direction (vertical direction) in FIG. In the following description, the z direction is the vertical direction, and the x and y directions are the biaxial directions perpendicular to each other in the horizontal plane.

  The lamp device 100 includes a light source unit 10 (see FIG. 3), a housing 50 that houses the light source unit 10, a louver 90 that is attached to the housing body 50 and defines a range of light emitted from the lamp device 100, and a housing body. And end members 60 respectively connected to the upper and lower sides of 50.

  The container 50 includes, for example, a translucent outer cover (cover) 20 and a base cover 30 attached to the outer cover 20. The end member 60 includes, for example, a lid 70 attached to the upper part of the outer cover 20 and a base 80 attached to the lower part of the base cover 30. The base 80 is a part for mainly attaching the lamp 100 to the hull. The lid 70 is provided with a handle 71. Each component of the light source unit 10, the outer cover 20, the base cover 30, the lid 70, and the base 80 has a generally cylindrical shape.

  FIG. 4 is a plan view of the lamp device 100. FIG. 5 is a partial schematic cross-sectional view taken along line AA in FIG. FIG. 6 is an exploded perspective view of the light source unit 10.

  An end portion (lower end in the drawing) of the outer cover 20 is opened, and one end (upper end in the drawing) facing the one end of the base cover 30 is opened. The outer cover 20 is provided with a projecting portion 21 projecting outward (see, for example, FIG. 8), and the base cover 30 also has a projecting shape substantially corresponding to the shape of the projecting portion 21. A part 31 is provided. A plurality of, for example, six screw holes 21a and 31a are formed in the projecting portions 21 and 31, respectively. The outer cover 20 and the base cover 30 are connected by the projecting portions 21 and 31 coming into contact with each other and fastened with the screw N1. Further, a seal ring 59 shown in FIGS. 3 and 5 is interposed between the projecting portions 21 and 31.

  An opening 22 is formed at the upper center of the outer cover 20, and a valve (not shown) for adjusting the air pressure in the container 50 is provided on the opening 22 through the opening 22.

  As shown in FIG. 3, the louver 90 includes a main body portion 93 that forms a part of a cylindrical body and has a light shielding property, and a blade portion 95 provided so as to spread from the main body portion 93. The louver 90 is attached so as to be sandwiched between the lid 70 and the outer cover 20. Matters relating to the attachment of the louver 90 to the lamp body will be described in detail later.

  As shown in FIG. 4 and the like, a reference mark 72 serving as a reference for the orientation of the lamp 100 is attached to the upper surface of the lid 70. The fiducial mark 72 is preferably formed integrally when the lid 70 is molded. However, in addition to such a method, the fiducial mark 72 may be connected to the lid 70 by an adhesive or ultrasonic bonding means after the lid 70 is formed. Good. An operator on the manufacturing side of the lamp device 100 or a user of the lamp device 100 (hereinafter referred to as an operator) assembles the lamp device 100 with reference marks 72 as a reference, or attaches the louver 90 to a mounting portion as will be described later. Or the lamp device 100 can be installed on the hull, so that the assembly and installation thereof are facilitated. For example, in the present embodiment, the lamp 100 can be installed at each position of the hull so that the reference mark 72 is directed in the bow direction.

2) Configuration of Light Source Unit As shown in FIGS. 5 and 6, the light source unit 10 includes a light emitting diode (LED) 15 that is a solid light emitting element as a light source, a reflector 12 that reflects light from the LED 15, and the LEDs 15. And an inner cover 13 as a support that integrally supports the reflector 12.

For example, a plurality of LEDs 15 are mounted on the light source substrate 11, and are arranged at equiangular intervals on the circumference around the reflector 12. Each LED 15 is provided, for example, six pieces, each generating green light. If the lamp is a port light, the LED 15 generates red light, and if it is another ship light, it generates white light. Some lamps generate yellow light.
Hereinafter, for convenience of explanation, an axis parallel to the vertical axis (z axis) passing through the center of the circle in which the plurality of LEDs 15 are arranged is referred to as a “light source central axis”.

  The reflector 12 includes a flat plate-like fixing portion 122 that is placed and fixed on the light source substrate 11, a reflecting portion 124 that is provided around the fixing portion 122, and a mounting flange 126 that is provided around the reflecting portion 124. And have.

  The inner cover 13 is a part formed by, for example, integral molding, is made of a translucent resin material, and has a substantially cylindrical shape. As shown in FIG. 5, the inside of the inner cover 13 is divided into two regions, a light emission region 13 </ b> A and a substrate placement region 13 </ b> B, by a partition plate 131, and the cross section of the inner cover 13 has a substantially H shape. In the drawing, the light emitting region 13A, which is the upper region, is mainly provided with the light source substrate 11 and the reflecting portion 124 of the reflector 12. For example, two circuit boards (a power supply board B1 and a control board B2 described later) are arranged in the board arrangement area 13B, which is the lower area.

  An upper opening 132 and a lower opening 133 are formed by opening the upper end of the light emitting region 13A of the inner cover 13 and the lower end of the substrate arrangement region 13B, respectively. An upper flange 134 is provided around the upper opening 132, and a plurality of protrusions 134 a are provided at predetermined angular positions around the z axis in the upper flange 134. As shown in FIG. 6, these protrusions 134 a engage with holes 126 a provided in the attachment flange 126, and the lower surface of the attachment flange 126 of the reflector 12 is placed on the upper surface of the upper flange 134 of the inner cover 13. The

  The macro shape of the reflecting portion 124 (the reflecting surface which is the surface thereof) of the reflector 12 is a quadratic curved surface (for example, a parabolic surface or an elliptical surface). That is, the macro shape of the cross section of the reflecting portion 124 (reflecting surface) when viewed in the cross section shown in FIG. 5 draws a quadratic curve.

  The reflector 12 and the light source substrate 11 are relatively positioned so that each LED 15 is arranged on the focal point of the quadratic curve of such a reflection unit 124. Specifically, after the light source substrate 11 is positioned and fixed on the fixing base 131 a provided on the partition plate 131, a flat portion that forms the lower surface of the fixing portion 122 of the reflector 12 is mounted on the light source substrate 11. Placed. And the reflector 12 and the light source board | substrate 11 are positioned by the screwing of several places, for example, three places P1 (refer FIG. 6).

  The fixing part 122 of the reflector 12 and the fixing means for the light source substrate 11 may be mechanical engaging means different from screws or an adhesive.

  As described above, the positioning of the reflector 12 and the light source substrate 11 is mainly performed by the fixing portion 122, and the engagement between the protrusion 134a of the upper flange 134 and the hole 126a of the mounting flange 126 is a secondary or auxiliary positioning. It becomes.

  With the arrangement of the LED 15 and the reflector 12 as described above, the amount of light emitted in the horizontal direction can be increased.

  On the other hand, as shown in FIG. 6, the reflector 124 of the reflector 12 has a plurality of convex surfaces 124 a provided concentrically from a microscopic viewpoint. These convex surfaces 124a are surfaces formed convex toward the light source substrate 11 side. The radial widths of these convex surfaces 124a become smaller toward the light source central axis.

  Thereby, since each convex surface 124a can reflect so that the light from LED15 may each be diffused, it can radiate | emit uniform light in the whole reflection part 124. FIG. That is, even when an LED that is a point light source is used, uniform light can be emitted from the entire reflecting portion 124 that is a set of convex surfaces 124a.

  As shown in FIG. 5, the power supply board B1 and the control board B2 are arranged in the board arrangement region 13B of the inner cover 13 as described above. Specifically, these circuit boards are supported by a support portion formed so as to protrude from the partition plate 131 and fixed by screws.

  The power supply board B1 supplies power to the LED 15. The control board B2 controls the driving of the LED 15 by the power supply board B1 and monitors the operation of the LED 15. Note that the power supply board B1 and the control board B2 do not have to be separate from each other as described above, and may be configured by one board.

  The side wall that forms the inner cover 13 includes a wall portion 136 that forms the light emission region 13A and a wall portion 137 that forms the substrate arrangement region 13B. The wall portion 137 forming the substrate arrangement region 13B may have a surface formed like a plurality of chamfering processes in order to make the inside of the substrate arrangement region 13B less visible (or invisible), or The wall 137 may be colored.

  A lower flange 135 formed in a polygonal shape, for example, a substantially hexagonal shape when viewed in the z direction, is provided at an end portion (lower end in FIG. 5) of the wall portion 137 forming the substrate arrangement region 13B. At least three of the holes 135a provided at the six corners of the lower flange 135 are screw holes. As shown in FIG. 3, three screw hole portions 39 are provided on the bottom of the base cover 30 at positions corresponding to the three screw holes. Thereby, the inner cover 13 is fixed to the base cover 30 with the screw (see FIG. 5) N2. Thereby, the light source unit 10 is attached to the container 50 including the base cover 30.

  The light source board 11, the power supply board B1, and the control board B2 are connected by a cable group 16. Two attachment holes 38 for connecting two harnesses 58 (see FIGS. 3 and 5) are provided at predetermined locations on the side peripheral wall 32 of the base cover 30. The cable group 17 for external connection such as the power supply board B1 is drawn out of the lamp device 100 through these harnesses 58.

3) Attaching the louver FIGS. 7A to 7C are plan views of the louver 90 having different incident angles.

  The louver 90A shown in FIG. 7A has a light emission angle of 225 ° and is shared by the bow lamp 1001 and the central mast lamp 1003. The louver 90B shown in FIG. 7B has an emission angle of 112.5 ° and is shared by the left and right lamps 1004. A louver 90C shown in FIG. 7C has an emission angle of 135 ° and is used for a stern light 1002 and a pulling boat light.

  One of the technical thoughts is that one louver 90 or a plurality of louvers 90A to C shown in FIGS. 7A to 7C is installed in one of a plurality of different installation angles around the light source unit 10. It can be installed in the main body of the lamp device 100 at the corner. In order to realize this, the housing 50 is provided with attachment portions of the louver 90 corresponding to the plurality of installation angles of the louver 90. Specifically, the container 50 is configured as follows.

  8 is a perspective view showing the outer cover 20, and FIG. 9 is a plan view thereof. The outer cover 20 constituting a part of the container 50 has a side peripheral portion 23 (functioning as a part or all of the light-transmitting region) 23 that mainly emits light from the light source unit 10 to the outside. In addition, the outer cover 20 has the protruding portion 21 that protrudes outward from the side peripheral portion 23 as described above. The projecting portion 21 has an attachment region 25 including a plurality of attachment portions of the louver 90.

  For example, the attachment region 25 includes a circumferential groove 26 and a locking groove 27 as an attachment portion. The circumferential groove 26 is a groove that is provided over the entire circumference of 360 ° along the outer shape of the side circumferential portion 23 and in which the main body 93 of the louver 90 is disposed. The locking grooves 27 are respectively connected to the circumferential grooves 26 at predetermined angular positions around the circumferential grooves 26, and engage with the blade portions 95 of the louver 90. When the blade portion 95 of the louver 90 is engaged with two predetermined locking grooves 27 among the plurality of locking grooves 27, the movement of the louver 90 around the z-axis is substantially restricted and locked.

  7A to 7C, each louver 90 according to the present embodiment has an engagement rib 94 as an engagement portion that can be engaged with the locking groove 27. In this case, the locking groove 27 functions as a first engaging portion, and the engaging rib 94 functions as a second engaging portion. For example, the engagement rib 94 is provided so as to protrude outward from the main body 93 and is formed long in a direction (vertical direction) substantially orthogonal to the circumferential direction of the main body 93.

  As shown in FIG. 7A, the engaging rib 94 of the louver 90 </ b> A is provided at the central angular position of the main body portion 93. As shown in FIG. 7B, the engagement rib 94 of the louver 90 </ b> B is provided so as to be shifted from the central angular position of the main body portion 93 toward the one blade portion 95. For example, the engagement rib 94 is provided at a position 60 ° to 70 ° away from the angular position of one blade portion 95 (the blade portion closer to the engagement rib 94). As shown in FIG. 7C, the engagement rib 94 of the louver 90 </ b> C is provided at the central angular position of the main body portion 93.

  Similarly to the outer cover 20, the lid 70 also has a mounting region 75 for the louver 90 including a circumferential groove 76 (see FIG. 5) and a locking groove 77 (see FIGS. 1 and 2). Specifically, the lid 70 has an attachment region 75 at the outer peripheral edge at the lower end. In each of the attachment regions 25 of the outer cover 20 and the lid 70 in FIG. 5, only the circumferential grooves 26 and 76 are drawn depending on the cross-sectional positions, and the locking grooves 27 and 77 are not drawn.

  The arrangement of the locking grooves 77 of the lid 70 is the same angle as that of the locking grooves 27 of the outer cover 20. Accordingly, the louver 90 is attached to the lamp body such that the attachment region 25 of the outer cover 20 and the attachment region 75 of the lid 70 sandwich the louver 90.

  FIG. 10 is a plan view schematically showing the angular arrangement of the locking groove 27 in the attachment region 25 of the outer cover 20 (and the lid 70), in particular. This figure shows the angular arrangement of the locking grooves 27 with the reference mark 72 of the lid 70 facing upward in the figure. As described above, the direction in which the reference mark 72 faces is the bow direction when viewed from the center of the hull. In the figure, the bow direction is indicated by a white arrow.

  Hereinafter, for convenience of explanation, the angle in the bow direction (y direction) is set to 0 °, and with reference to the 0 °, the clockwise direction is positive and the counterclockwise direction is a negative angle when viewed from the z-axis. And That is, the angular range of the entire circumference is set as 0 ° to ± 180 °.

  The respective locking grooves a, b, b ', c, c', d, d ', e are respectively arranged at the following angular positions. The center for defining the “angular position” here substantially coincides with the point on the light source central axis.

a: 0 °
b, b ′: ± 12.5 °
c, c ′: ± 107.5 °
d, d ′: ± 115 °
e: ± 180 °

  These angles are values based on the illuminating angle of the louver 90, and can be appropriately changed based on changes in the illuminating angle according to laws and regulations, or based on fine adjustment of the installation angle of the louver 90.

  11A to 11D show, for example, the installation angle of the louver 90 (see FIGS. 7A to 7C) for each lamp 100 installed in each place of one hull of the locking grooves 27 of the outer cover 20 (and the lid 70). Shown in relation to angular position. The bow direction is indicated by a white arrow.

  FIG. 11A shows the installation angle in the bowlight (or central mastlight). In this case, the blade portion 95 of the louver 90A shown in FIG. 7A is engaged with the locking grooves d and d ', and the engagement rib 94 is engaged with the locking groove e.

  FIG. 11B shows the installation angle for the port lights. In this case, the blade portion 95 of the louver 90B shown in FIG. 7B is engaged with the locking grooves b and d ', and the engagement rib 94 is engaged with the locking groove e. FIG. 11C shows the installation angle in the starlight. In this case, the blade portion 95 of the louver 90B is engaged with the locking grooves b 'and d, and the engaging rib 94 is engaged with the locking groove e. That is, the common louver 90B for the lantern is attached in a state in which the port and the starboard face each other upside down. As described above, the engaging rib 94 of the louver 90B for the lantern is provided on the main body 93 at an angular position so as to engage with the locking groove e at an angular position of ± 180 °.

  FIG. 11D shows the installation angle in the stern light. In this case, the blade portion 95 of the louver 90C shown in FIG. 7C engages with the locking grooves c and c ', and the engagement rib 94 engages with the locking groove a, like the bow lamp.

  As described above, according to the lamp 100 according to the present embodiment, the installation angle of one or more louvers 90 is set for one type of outer cover 20 (and one type of lid 70). . That is, the louver 90 can be installed by selecting an arbitrary installation angle among a plurality of installation angles of the louver 90 for one type of common component. This eliminates the need for parts and molds for each model. Thereby, the manufacturing cost of the lamp device 100 can be reduced.

  In the present embodiment, the attachment portions to which the louvers 90A, 90B, and 90C each having a plurality of emission angles (first emission angle, second emission angle, and third emission angle) are respectively attached are the first Function as a mounting portion, a second mounting portion, and a third mounting portion.

  In the present embodiment, an operator or the like holds the louver 90 between the grooves which are the attachment regions 25 and 75 provided in the projecting portions 21 of the outer cover 20 and the lid 70 to engage with each other. The louver 90 can be easily attached.

  In the present embodiment, the engagement rib 94 provided in the main body 93 of the louver 90 is also engaged with the locking groove 27 of the outer cover 20, so that the attachment state of the louver 90 can be stabilized.

  Further, there are other merits of providing the engaging rib 94 on the louver 90. For example, as shown in FIGS. 7B and C, the difference in opening angle between the blade portions 95 of the louver 90B for lanterns and the louver 90C for stern is only about 20 °. The two louvers 90B and 90C cannot be easily distinguished by just looking. However, the engaging rib 94 of the louver 90C is provided at the central angular position of the main body 93, while the engaging rib 94 of the louver 90B is provided at a position shifted from the center thereof. Can be distinguished at a glance.

  Instead of the engagement rib 94, an engagement recess may be provided in the main body 93 of the louver 90, and an engagement protrusion may be provided at the angular positions of the locking grooves a and e in the outer cover 20.

4) Connection structure of container and base (first connection structure)
FIG. 12 is a plan view of the container 50 as viewed from the lower surface side of the base cover 30. FIG. 13 is a plan view of the base 80 as viewed from the upper surface side.

  The base cover 30 and the base 80 are connected by the following connection structure (first connection structure). As shown in FIG. 12, the flat plate portion 34 provided in the base cover 30 has a plurality of screw hole portions 36 provided at predetermined positions as described above. For example, the four screw holes 36 are arranged point-symmetrically around the center position of the base cover 30 (for example, coincident with the light source central axis). In the z-direction of the container 50, the side on which the flat plate portion 34 of the base cover 30 is provided is the first side, and the side on which the flat plate portion 24 of the outer cover 20 is provided is the second side.

  On the other hand, as shown in FIG. 13, the base 80 also has four screw hole portions 86 provided at positions corresponding to the screw hole portions 36. These screw hole portions 86 are formed in the flat plate portion 84 of the base 80. As shown in FIG. 3, the bolts N <b> 3 (see FIG. 5) are tightened by these four screw holes 36 and 86, whereby the container 50 and the base 80 are connected and fixed.

  Such a first connection structure has two housing bodies (first and second housing bodies), specifically, two base covers 30 like a lamp 300 according to a third embodiment to be described later. You can connect each other.

  5) Connection structure of container and lid (second connection structure and third connection structure common to the same)

  The container 50 and the lid 70 are connected by the following connection structure (second connection structure). As shown in FIG. 4, the lid 70 has a plurality of screw hole portions 79 provided at predetermined positions. For example, four screw hole portions 79 are arranged symmetrically with respect to the center position of the lid 70 (for example, coincident with the light source central axis).

  On the other hand, as shown in FIG. 9, the flat plate portion 24 of the outer cover 20 also has four screw hole portions 29 provided at positions corresponding to the screw hole portions 79. As shown in FIG. 3, the container 50 and the base 80 are connected and fixed by tightening the bolts at these four screw holes 79 and 29.

  The flat plate portion 84 of the base 80 is provided with a third connection structure having four screw hole portions 89 on the outer side in the radial direction from the arrangement of the screw hole portions 86. These screw hole portions 89 coincide with the arrangement of the screw hole portions 29 (and the screw hole portions 79 of the lid 70) of the outer cover 20 shown in FIG. That is, the third connection structure has a common structure with the second connection structure.

  In this way, the third connection structure having a common structure with the second connection structure allows the use of a common component with the single lamp 100 as described in the third embodiment later. The structure of the lamp device 300 can be realized.

  3. Second embodiment

  FIG. 14 is a cross-sectional view showing a lamp device according to a second embodiment of the present invention. In the following description, the same members, functions, and the like included in the lamp according to the first embodiment will not be described or will be mainly described.

  The lamp includes a light source unit 110 different from the light source unit 10 of the lamp according to the first embodiment. FIG. 15 is an exploded perspective view of the light source unit 110. The inner cover 13 after the light source unit 110 has the same configuration as the inner cover 13 according to the first embodiment.

  The light source mounted on the light source substrate 111 is one LED 15, and the LED 15 is arranged at the center of the light source substrate 111. The vertical axis passing through the position of the LED 15 is referred to as a “light source central axis” for convenience of explanation. As shown in FIG. 14, the reflector 18 includes a reflection portion 184, an annular flat plate portion 185 provided around the reflection portion 184, and a mounting flange 186 provided on the outer periphery of the flat plate portion 185.

  The reflector 184 has a vertex 182 that is closest to the LED 15, and this vertex 182 is arranged on the light source central axis. The reflector 18 has a paraboloid as a macro shape so as to draw a parabola from a vertex 182 when viewed in the cross section of FIG. The reflector 18 has a plurality of convex surfaces 184a provided concentrically as a micro shape.

  In the light source unit 110 having such a reflector 18, each convex surface 184 a can reflect the light from the LED 15 so as to diffuse it, and thus, this is the case where an LED that is a single point light source is used. However, uniform light can be emitted from the entire reflecting portion 184, which is a set of the convex surfaces 184a.

  4). Third embodiment

1) Overall Configuration of Lamp Device FIG. 16 is a perspective view showing a double type lamp device 300 according to the third embodiment of the present invention. FIG. 17 is a perspective view showing the back side of the double type lamp 300 shown in FIG. FIG. 18 is an exploded perspective view of the lamp 300. FIG. 19 is a sectional view of the lamp 300. A star lamp is used as an example of the double lamp 300 according to this embodiment.

  The double lamp 300 includes a first container 50A and a second container 50B connected to the lower part of the first container 50A. The lamp 300 includes a lid 70 as one of end members connected to the upper part of the first housing 50A and one of end members connected to the lower part of the second housing 50B. Base 80 and louvers 90 (first louver and second louver) attached to the containers 50A and 50B, respectively.

  The first container 50A and the second container 50B are arranged in a symmetric posture in the vertical direction (with respect to the xy plane). The first container 50 </ b> A is a container having a configuration similar to that of the first embodiment, and includes the outer cover 20 and the base cover 30. The second container 50B has substantially the same configuration as this, and includes the outer cover 20 and the base cover 30, but the two harnesses 58 are not provided on the base cover 30 of the first container 50A. Different from the first container 50A. The 2nd container 50B is not provided with the attachment hole to which two harnesses are attached.

  The first container 50A and the second container 50B accommodate the light source units 10 each including a plurality of LEDs similar to those according to the first embodiment. Instead of these light source units 10, the light source unit 110 according to the second embodiment may be housed in the first housing body 50A and the second housing body 50B, respectively.

  The flat plate portion 34 of the base cover 30 of each of the first container 50A and the second container 50B is provided with the same first connection structure as that shown in FIG. That is, as shown in FIG. 18, the base covers 30 are connected to each other by bolting the lower surfaces of the base covers 30 at the positions of the four screw holes 36 described above. In this case, the first connection structure functions as a connection structure.

  A sheet-like sealing material 57 (see FIG. 18) is interposed between the two base covers 30.

  On the other hand, the second connection structure for connecting the lid 70 and the outer cover 20 has a common structure with the third connection structure provided in the base 80 described in the first embodiment. That is, the arrangement of the four screw hole portions 89 of the base 80 is the same as that of the four screw hole portions 79 of the lid 70 (four screw hole portions 29 of the outer cover 20). With such a connection structure, as shown in FIGS. 16 to 18, the outer cover 20 of the second container 50 </ b> B can be connected to the base 80.

  The cable group 19 connected to the light source substrate 11 of the light source unit 10 accommodated in the second accommodating body 50B is connected to the power supply substrate B1 through the central hole 34a provided in the flat plate portions 34 of both base covers 30. Connected to.

2) Attachment of louver The attachment structure of the louver 90 provided in the upper part is the same as the attachment structure of the louver 90 of the single-type lamp device 100 described in the first embodiment.

  The louver 90 provided in the lower part is attached by being sandwiched between the outer cover 20 and the base 80 of the second container 50B. Specifically, as shown in FIGS. 13 and 19, the groove-like attachment region 25 provided in the protruding portion 21 of the outer cover 20 of the second container 50 </ b> B and the outer peripheral portion of the base 80 are provided. It arrange | positions between the attachment area | regions 85.

  The attachment region 85 provided on the base 80 has a circumferential protrusion 82 provided along the outer periphery of the base 80. The attachment region 85 is a groove-shaped region 88 formed between the circumferential protrusion 82 and the side periphery 23 of the outer cover 20 in a state where the flat plate portion 84 of the base 80 and the outer cover 20 are connected. including. In FIG. 13, the outer shape of the side peripheral portion 23 of the outer cover 20 provided on the base 80 is indicated by a one-dot chain line. And this attachment area | region 85 contains the latching groove | channel 87 by the predetermined angular arrangement | positioning in the circumferential projection part 82 of the base 80, as shown to this figure. The main body 93 of the louver 90 is arranged in the groove-shaped region 88 in the attachment region 85. In addition, the blade portion 95 of the louver 90 is engaged with two predetermined locking grooves 87 among the locking grooves 87.

  20A to 20D show, for example, the installation angle of the louver 90 (see FIGS. 7A to 7C) for each lamp 300 installed in each place of one hull in relation to the angular position of each locking groove 87 of the base 80. Show. The bow direction is indicated by a white arrow.

  Hereinafter, for convenience of explanation, the angle in the bow direction shown in FIG. 20A is assumed to be 0 °, and with reference to the 0 °, the clockwise direction is positive and the counterclockwise direction is negative as viewed from the z-axis. And That is, the angular range of the entire circumference is set as 0 ° to ± 180 °. For convenience of explanation, when the positions of the respective locking grooves f, g, g ′, h, h ′, i, i ′, j, j ′, k, k ′ of the base 80 are defined as follows: Based on the arrangement of the base 80 used in the bow lamp shown in FIG. 20A. The center for defining the “angular position” here substantially coincides with the point on the light source central axis.

f: ± 180 °
g, g ′: ± 115 °
h, h ′: ± 102.5 °
i, i ′: ± 90 °
j, j ′: ± 70 °
k, k ′: ± 25 °

  Here, the base 80 is installed by rotating around the z-axis for each installation position of the lamp 300 on the hull (that is, according to the installation angle of the louver 90C).

  On the other hand, the installation direction of each part other than the base 80 on the hull is fixed. That is, the angular positions of the lid 70, the first container 50A, and the second container 50B above the base 80 are all the same in the installation positions of FIGS. 20A to 20D (as shown in FIG. 11). is there.).

  On the other hand, since the base 80 is a component for mounting on the hull, a degree of freedom in the installation direction (angle around the z axis) of the base 80 is required. For example, the base 80 has a plurality of leg portions 81 provided at predetermined angular intervals (for example, 120 °) on the outer peripheral portion, and at least these leg portions 81 can be fixed to the hull.

  For example, the angle of the base lamp 80 shown in FIG. 20B differs from the angle of the bow lamp base 80 shown in FIG. 20A by 90 °. The angle of the starlight base 80 shown in FIG. 20C is 180 ° different from the angle shown in FIG. 20B. The angle of the stern light base 80 shown in FIG. 20D differs from the angle shown in FIG. 20A by 180 °. In this way, for example, the rotation angle of the base 80 is set so that the positions of the locking grooves f all face the center of the hull.

  As described above, in the double type lamp 300 according to the present embodiment, the lamp 80 can be installed on the hull by rotating the base 80 even when the orientations of the parts other than the base 80 are all constant. Flexibility can be ensured.

  The function of the base 80 is not limited to the case where it is applied to the double type lamp 300, but can be applied to the single type lamp according to the first and second embodiments.

  5. Fourth embodiment

  FIG. 21 is a perspective view showing a lamp device according to a fourth embodiment of the present invention. The lamp 400 is a small-sized lamp compared with the lamps according to the above embodiments.

  The lamp 400 includes a light source unit (not shown), a container 250 that accommodates the light source unit, a louver 290 disposed around the container 250, a lid 270 connected to the top of the container 250, and the container 250. And a base 280 connected to the lower portion. The container 250 includes an outer cover 220 and a base cover 230. The lid 270 and the base 280 each function as an end member.

  A light source unit is a light source unit which has single LED which concerns on 2nd Embodiment mentioned above, for example. Although not shown in the drawings, the configurations of the substrates such as the light source substrate and the power supply substrate, the reflector, the inner cover, and the like are the same as those in the above embodiments. The diameters of the inner cover, the reflector mounting flange, and the like are smaller than those of the first to third embodiments.

  Louver 290 has a main body portion 293 and a blade portion 295. The length of the blade | wing part 295 is formed sufficiently shorter than that of the louver 290 which concerns on said each embodiment.

  The outer cover 220 includes a side peripheral part 223, a projecting part 221 projecting outward from the side peripheral part 223, and an attachment region 225 formed on the projecting part 221 for attaching the louver 290. The attachment region 225 has a circumferential groove 226 and a locking groove 227 as an attachment portion. The lid 270 also includes an attachment region 275 for the louver 290. The attachment region 275 has a circumferential groove and a locking groove 277 (not shown). The locking grooves 227 and 277 are arranged at the same angular position in the circumferential direction of the light source central axis.

  Also in the lamp device 400 according to the present embodiment, the installation angle of one or more louvers 290 is set for one type of outer cover 220 (and one type of lid 270). That is, the louver 290 can be installed by selecting an arbitrary installation angle among a plurality of installation angles of the louver 290 for one type of common component. This eliminates the need for parts and molds for each model. Thereby, the manufacturing cost of the lamp device 400 can be reduced.

  6). Other embodiments

  The present invention is not limited to the embodiment described above, and other various embodiments can be realized.

  In the above-described embodiment, the second connection structure and the third connection structure are a common structure, but the first connection structure and the second connection structure may be a common structure. In this case, the screw hole portion 36 of the base cover 30 shown in FIG. 12 and the screw hole portions 86 and 89 of the base 80 shown in FIG. 13 all have the same arrangement, and the screw hole portions 86 and 89 of the base 80 are unified. It is configured with a screw hole. In this case, as a result, the first, second and third connection structures all become a common structure.

  The connection structure (the first connection structure and the second connection structure) was a fastening structure using bolts. However, instead of this, a connection structure by engagement of irregularities may be used. In this case, for example, a concave portion and a convex portion (the length in the circumferential direction is arbitrary) around the z axis are formed in two parts to be connected, and these parts are relatively moved around the z axis. A structure that engages by rotating may be used.

  In the above description, the louver is attached to the container and the lid and / or the base sandwich the louver. In addition to such an attachment structure, an attachment region including a circumferential groove and a locking groove may be provided on the container, and only the circumferential groove may be provided on the lid and the base.

  Alternatively, the lid and the base may have no attachment area, and only the container may support the louver. In this case, it is only necessary to provide some structure that can be engaged with the louver at the opposite end in the z direction of the protruding portion of the louver.

  In each of the above embodiments, the number of harnesses 58 connected to the base cover 30 is two, but may be one. In the double lamp 300 according to the third embodiment, the harness 58 and the attachment hole 38 for attaching the harness 58 may be provided in both of the two base covers 30.

  In the above description, the direction of the parts other than the base 80 in the lamp is fixed, and the direction of the base 80 is rotated according to the installation position on the hull. However, when the lid 70 is a part for attachment to the hull, the direction of parts other than the lid 70 may be fixed, and the direction of the lid 70 may be rotated according to the installation position on the hull. In this case, the lid 70 is also preferably configured with a configuration (shape, material, etc.) having the same strength as the base 80.

  In the above description, the lamp is described as a ship lamp, but it can also be used as a lamp mounted on an aircraft body or a marker lamp.

  The light source used in the light source unit is not limited to a solid light emitting element such as an LED, and an incandescent lamp or a fluorescent lamp may be used.

  It is also possible to combine at least two feature portions among the feature portions of each embodiment described above.

DESCRIPTION OF SYMBOLS 10, 110 ... Light source unit 12 ... Reflector 13 ... Inner cover 15 ... LED
20, 220 ... outer cover 21, 221 ... projecting portion 22 ... opening 23, 223 ... side peripheral portion 25, 75, 85, 225, 275 ... mounting region 26, 76, 226 ... circumferential groove 27, 77, 87, 227 277: Locking grooves 29, 36, 86, 79, 89 ... Screw hole portions 30, 230 ... Base cover 31 ... Projection portions 50, 50A, 50B, 250 ... Housing 60 ... End member 70, 270 ... Lid 72 ... Reference mark 80, 280 ... Base 88 ... Groove-shaped region 90, 90A, 90B, 90C, 290 ... Louver 93, 293 ... Body part 94 ... Engaging rib 95, 295 ... Blade part 100, 200, 300, 400 ... lights

Claims (12)

A first light source unit;
A first housing body having a first side and housing the first light source unit;
A first connection structure that is connectable to a second housing that houses a second light source unit, provided on the first side of the first housing;
A lamp comprising: a base connected to the first container via the first connection structure. The lamp according to claim 1,
The lamp further comprising a second connection structure provided on a second side of the first container opposite to the first side. The lamp according to claim 2,
The base has a third connection structure having a common structure with the second connection structure. The lamp according to claim 2,
The first connection structure and the second connection structure have a common structure. The lamp according to any one of claims 2 to 4,
The lamp further comprising a lid connected to the second connection structure. The lamp according to any one of claims 1 to 5,
The first container is
A cover including a translucent region disposed around the first light source unit;
A lamp cover mounted on the cover and provided with the first connection structure. The lamp according to any one of claims 2 to 5,
The first container is
A cover including a light-transmitting region disposed around the first light source unit and provided with the second connection structure;
A lamp cover mounted on the cover and provided with the first connection structure. The lamp according to claim 5,
The lid has a reference mark indicating a direction of the lamp. The lamp according to any one of claims 1 to 8,
The louver further includes a louver that is arranged at one installation angle among a plurality of different installation angles around the first light source unit, and that defines a range of light emitted from the lamp.
The said 1st container has the attaching part of the said louver each provided according to the said some installation angle. Lamp. The lamp according to any one of claims 1 to 9,
The first light source unit is
A light source;
A reflector that reflects light from the light source;
A lamp having a support that integrally supports the light source and the reflector; The lamp according to claim 10, wherein
The said support body is an inner cover which has a translucent area | region arrange | positioned in the said 1st container. A first light source unit;
A first container having a first side and a second side opposite to the first side, and accommodating the first light source unit;
A second light source unit;
A second container having a first side and a second side opposite to the first side, and accommodating the second light source unit;
A connecting structure capable of connecting the first side of the first container and the first side of the second container;
A lamp comprising: a base connected to the second side of the second container and having a connection structure connectable to the first side of the first container.

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