JPWO2012099173A1 - Lighting device - Google Patents

Abstract

To provide a lightweight, power-saving and efficient lighting device that can generate diffused light and concentrated light with a single unit. A cover portion 12 that covers the outside of the light source 32 is provided on the base portion 14 provided with the light source 32, and the cover portion 12 is made of a material that is light transmissive or light diffusive and has elasticity or flexibility. Then, by pressing the cover portion 12 inward toward the light source 32, the cover portion 12 is deformed and moved from the non-deformable configuration 12 a located away from the light source 32, so that the cover portion 12 is brought close to the light source 32. The cover portion 12 can be switched to the position of the deformed configuration 12b. In the deformed configuration 12b of the cover portion 12, light emitted from the light source 32 is irradiated to the outside of the cover portion 12 to a portion of the cover portion 12 adjacent to the light source 32. An illumination device provided with a light irradiation unit.

Description

  The present invention relates to a lighting device.

  Many campers and hikers often use headlamps while engaged in activities.

  By the way, many headlamps provide only a straight line of light, but in activities such as camping, lantern type light (diffuse light) is often required.

  Therefore, to reduce the need for separate concentrated light sources and diffused light, or lantern-type light sources, headlamp manufacturers cover the headlamps and take the concentrated light from the headlamps and apply it to the inner surface. A separate appendage was developed to reflect light and then diffuse light through certain materials.

  Examples of this method are TR1 + Ambient light Set by Mammut and http://joby.com at http://www.mammut.ch/en/productDetail/232000220_v_0001/TR1+%2B+_Ambient+light+Set.html Indicated by JOBY's gorilla torch switchback located at / gorillatorch / swichback. However, this approach required additional, separate and often bulky equipment accessories, and light inefficiencies could occur due to light concentration, subsequent scattering and diffusion.

  Another approach is to add an additional light source for use only in lantern mode, as shown in Tarter US Pat. No. 7,635,195. However, this approach uses a separate light source in the headlamp configuration, but requires a dedicated light source for use in the lantern configuration, so that the lantern configuration consumes more energy than the headlamp configuration. In addition, the added light source adds to the size, weight, and complexity of the device.

  There is a demand from users for the appearance of a lightweight, power-saving, and efficient lighting device that can generate diffused light and concentrated light without using a separate accessory.

  The present invention provides an illumination device that meets the above-described needs.

  The gist of the present invention will be described with reference to the accompanying drawings.

  The base portion 14 having the light sources 32, 132, 232, and 532 is provided with cover portions 12, 112, and 212 that cover the outside of the light sources 32, 132, 232, and 532. By making the cover part 12, 112, 212 inward toward the light source 32, 132, 232, 532, composed of a transparent or light diffusing material and having elasticity or flexibility. The cover portion 12, 112, 212 is in the proximity of the light source 32, 132, 232, 532 as the cover portion 12, 112, 212 is deformed from the non-deformation configuration 12a located away from the light source 32, 132, 232, 532. It is possible to switch to the deformed configuration 12b located at the position of the cover portion 12, 112, 212 in the deformed configuration 12b, and the cover portions 12, 112, 212 are located close to the light sources 32, 132, 232, 532. A light irradiating unit for irradiating the light emitted from the light sources 32, 132, 232, and 532 to the outside of the cover portions 12, 112, and 212. Those of the lighting device, characterized in that the.

  Further, the cover parts 12, 112, and 212 are configured in a dome shape that covers the outside of the light sources 32, 132, 232, and 532, and the light irradiating portion is formed at the center of the dome-shaped cover parts 12, 112, and 212. The light irradiation part is closest to the light source 32/132/232/532 by pressing the light irradiation part or the vicinity of the light irradiation part inward toward the light source 32/132/232/532. 2. The illumination device according to claim 1, wherein the cover portions 12, 112, and 212 are configured to be deformed into the deformed configuration 12b having a concave curved shape.

  Further, the base portion 14 provided with the light sources 32, 132, 232, and 532 is provided with cover portions 12, 112, and 212 that cover the outside of the light sources 32, 132, 232, and 532, and the cover portions 12, 112, and 212 are The cover portion 12, 112, 212 is pressed inward toward the light source 32, 132, 232, 532. As a result, the cover portions 12, 112, and 212 are deformed from the non-deformable configuration 12a that is located away from the light sources 32, 132, 232, and 532, and the cover portions 12, 112, and 212 are deformed into the light sources 32, 132, 232, and 532. It is configured to be switchable to the deformed configuration 12b positioned in the proximity state, and in the deformed configuration 12b of the cover portion 12, 112, 212, the cover portions 12, 112, 212 are close to the light sources 32, 132, 232, 532. A lens assembly 30, 130, 230 is provided at the site, and the light source 32, through the lens assembly 30, 130, 230. The present invention relates to an illuminating device characterized in that light emitted from 132, 232, and 532 is irradiated to the outside of the cover portions 12, 112, and 212.

  Further, the cover parts 12, 112, and 212 are formed in a dome shape that covers the outside of the light sources 32, 132, 232, and 532, and the lens assembly 30 is formed at the center of the dome-shaped cover parts 12, 112, and 212. The lens assembly 30 is provided by pressing the lens assembly 30, 130, 230 or the vicinity of the lens assembly 30, 130, 230 inward toward the light source 32, 132, 232, 532. 4. The cover portion 12, 112, 212 is configured to be deformed into the deformed configuration 12 b having a concave curve closest to the light source 32, 132, 232, 532. This relates to a lighting device.

  Further, the base portion 14 provided with the light sources 32, 132, 232, and 532 is provided with cover portions 12, 112, and 212 that cover the outside of the light sources 32, 132, 232, and 532, and the cover portions 12, 112, and 212 are The cover portion 12, 112, 212 is pressed inward toward the light source 32, 132, 232, 532. As a result, the cover portions 12, 112, and 212 are deformed from the non-deformable configuration 12a that is located away from the light sources 32, 132, 232, and 532, and the cover portions 12, 112, and 212 are deformed into the light sources 32, 132, 232, and 532. It is configured to be switchable to the deformed configuration 12b positioned in the proximity state, and in the deformed configuration 12b of the cover portion 12, 112, 212, the cover portions 12, 112, 212 are close to the light sources 32, 132, 232, 532. An opening is provided in the part, and the light emitted from the light sources 32, 132, 232, and 532 through the opening is covered with the cover. Those of the lighting apparatus characterized by being configured so as to irradiate the minute 12, 112, 212 outside of.

  Further, the cover parts 12, 112, and 212 are configured in a dome shape that covers the outside of the light sources 32, 132, 232, and 532, and the opening is formed at the center of the dome-shaped cover parts 12, 112, and 212. By installing and pressing the opening or the vicinity of the opening inward toward the light source 32, 132, 232, 532, the opening is concavely curved closest to the light source 32, 132, 232, 532. 6. The lighting device according to claim 5, wherein the cover portion 12, 112, 212 is deformed to the deformed configuration 12b.

  The positioning mechanism according to any one of claims 1 to 6, further comprising a releasable positioning mechanism (36, 38) for positioning and holding the cover portion (12, 112, 212) in the deformable configuration (12b). This relates to a lighting device.

  The base portion 14 is provided with a strap assembly 18 for fixing to a user's head, and the strap assembly 18 is provided with an adapter 22 such as a hanging hook. This relates to the lighting device according to item 1.

  The lighting device according to claim 7, wherein a strap assembly (18) for fixing to a user's head is provided on the base portion (14), and an adapter (22) such as a hanging hook is provided on the strap assembly (18). It is concerned.

  Since the invention according to the first, third, and fifth aspects is configured as described above, the light emitted from the light source can be irradiated as diffused light through the cover part of the non-deformable configuration, and the cover part is switched to the deformed configuration. Can irradiate, for example, a concentrated light beam to the outside of the cover portion through the light irradiating unit, the lens assembly, or the opening, and thus can be generated by switching between diffused light and, for example, the concentrated light beam without using an accessory. It is a lightweight, power-saving and efficient lighting device, and the switching operation from the diffused light generation state (non-deformed configuration of the cover part) to, for example, the concentrated light generation state (deformed configuration of the cover part) simply uses the cover part as the light source. Since it only needs to be deformed by pressing it inward, the lighting device is extremely practical, such as excellent switching operability.

  In particular, in the invention according to the third aspect, for example, by using a condensing lens as a lens assembly, a concentrated light beam can be easily and reliably generated in the modified configuration.

  In the inventions of claims 2, 4 and 6, the diffused light can be satisfactorily irradiated through the dome-shaped cover portion, and the concave curved deformation structure of the cover portion functions as a reflector. In order to achieve this, it is possible to generate a concentrated light beam that is excellent in practical use.

  In the invention according to claim 7, the lighting device has a configuration that is more practical and that can reliably hold the deformed configuration.

  In the inventions according to claims 8 and 9, for example, a headlamp type lighting device suitable for camping and mountain climbing applications and the like can be connected to an appropriate place via an adapter, so that it can be easily used as a lantern. For example, it is possible to provide a lighting device having a configuration that is more practical.

It is a perspective view in the lantern structure of a present Example. It is a perspective view in the concentrated light structure of a present Example. It is a partial cutaway view of the concentrated light configuration and the lantern configuration of the present embodiment. It is a partial cutaway figure in the lantern structure of a present Example. It is a partial cutaway view in the concentrated light configuration in which the inclination is adjusted to a value larger than zero according to the present embodiment. It is a perspective view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a side view in the concentrated light structure of a present Example. It is a top view in the lantern structure of a present Example. It is a top view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a perspective view in the concentrated light structure of a present Example. It is a perspective view in the lantern structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a side view in the lantern structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a perspective view in the lantern structure provided with the integrated suspension apparatus of the present Example. It is a side view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a front view of the lighting state in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a perspective view of the lighting state in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a top view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a front view in the lantern structure of a present Example. It is a perspective view of the lighting state in the concentrated light structure of another Example. It is a perspective view of the lighting state in the lantern structure of another Example. It is a perspective view of the light extinction state in the lantern structure of another Example. It is a partial cutaway figure in the lantern structure of another Example. It is a front view in the lantern structure of another Example. It is a partial cutaway figure in the concentrated light structure of another Example. It is a perspective view in the lantern structure of another Example. It is a partial cutaway figure in the lantern structure of another Example. It is a front view in the lantern structure of another Example. It is a partial cutaway figure in the concentrated light structure of another Example. It is a front view in the lantern structure of other some Examples. It is a circuit diagram of a present Example.

  An embodiment of the present invention which is considered to be suitable will be briefly described with reference to the drawings showing the operation of the present invention.

  In the non-deformation configuration 12a in which the cover portions 12, 112, and 212 are located away from the light sources 32, 132, 232, and 532, the light emitted from the light sources 32, 132, 232, and 532 is light transmissive or light diffusive. The light is diffused through the cover portion and is emitted to the outside of the cover portions 12, 112, and 212.

  When the cover portions 12, 112, and 212 are pressed inward toward the light sources 32, 132, 232, and 532 from the non-deformable configuration 12a, the cover portions 12, 112, and 212 having elasticity or flexibility are deformed and moved. Then, the light source 32, 132, 232, 532 is switched to the deformed configuration 12b that is located in the proximity of the light source 32, 132, 232, 532. The light is irradiated to the outside of the cover portions 12, 112, and 212 from the light irradiating portion, the lens assembly 30, 130, 230, or the opening provided in the vicinity of the light sources 32, 132, 232, and 532.

  That is, in this modified configuration 12b, the light source 32, 132, 232, 532 and the light irradiation unit or lens assembly 30, 130, 230, or the opening are close to each other. It becomes easy to irradiate to the outside of the cover portions 12, 112, 212 from 130, 230 or the opening as a concentrated light beam such as spot light.

  Further, when the lens assembly 30, 130, 230 is provided in the cover portion 12, 112, 212, if a condensing lens is used as the lens assembly 30, 130, 230, it is easily and surely concentrated on the deformed configuration 12b. Light rays can be generated.

  Therefore, according to the present invention, a light, power-saving, and efficient lighting device that can be generated by switching between diffused light and concentrated light, for example, without using an accessory or the like, and a diffused light generation state ( The switching operation from the non-deformed configuration 12a) of the cover portions 12, 112, 212 to, for example, the concentrated light generation state (the deformed configuration 12b of the cover portions 12, 112, 212) also simply changes the cover portions 12, 112, 212 to the light source 32. Since it only needs to be pressed inward toward 132, 232, 532 and deformed, it can be operated very easily.

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

  Exemplary embodiments of the present invention are shown in FIGS. 1-30, where the same or generally similar features use common reference numerals.

  FIG. 1 shows a perspective view of a lantern configuration for generating diffused light of the lighting device 20 of the present embodiment.

  The illuminating device 20 of the present embodiment is a luminaire 10 including a base portion 14, a light source 32, a lens assembly 30, and a cover portion 12, and the lens assembly 30 is positioned away from the light source 32. The cover portion 12 is configured to support the lens assembly 30 during translation of the lens assembly 30.

  The cover portion 12 has a dome shape and protrudes from one side of the thick disc-shaped base portion 14. The cover portion 12 may be configured in various shapes as will be described later.

  Further, a power switch 60 is provided on the outer peripheral surface of the base portion 14, and the power switch 60 is operated so that lighting / extinguishing control, constant lighting / strobe switching, and illuminance switching can be performed.

  FIG. 2 shows the cover portion 12 of FIG. 1 deformed inward in the middle of a dome shape.

  FIG. 3 shows a partial cutaway view of an embodiment of the luminaire 10. Cover portion 12 is shown twice as 12a and 12b, where 12a is a dome-shaped cover portion 12 that is an undeformed configuration, and 12b is the center of dome-shaped cover portion 12 being pushed toward light source 32. This is a cover portion 12 having a modified configuration.

  Also, the non-deformed configuration 12a may be described as the luminaire 10 in the “lantern” configuration, and the modified configuration 12b may be described as the luminaire 10 in the “concentrated light” configuration.

  FIG. 3 also shows a lens assembly 30 fitted to the cover portion 12 and a light source 32 installed near the interior surface 34. The cover portion 12 is perforated at a position where the lens assembly 30 may block so that the lens assembly 30 is moved closer to the light source 32 when the cover portion 12 is deformed into a concentrated light configuration (deformed configuration 12b). You may prepare.

  The lens assembly 30 may be configured to direct most of the light emitted from the light source 32 through the lens assembly 30 to produce the desired lighting effect. The illumination effect may be concentrated light or light that is less diffuse than when the lens assembly 30 is not in proximity to the light source 32.

  The lens assembly 30 may be guided and fixed by a positioning mechanism 38 on or near the lens assembly 30 and a positioning mechanism 36 near the light source 32.

  The positioning mechanisms 36 and 38 may be configured so that only one exists, and may function in cooperation or independently. In addition, the positioning mechanism 36/38 may take the form of a magnet in the positioning mechanism 36 and another magnet in the positioning mechanism 38 that is attracted to the magnet, or one of the magnet and the attractive metal at each position. It may take the form of a combination of a magnet and an attractive metal, or it may take the form of a recess and a protrusion configured to fit into the recess, the recess being a groove, It may take the form of a protrusion modified to fit and detachably engage with the side of the groove as an interference fit. It may also include, but is not limited to, electromagnet and metal combinations, surface fasteners, tacky or reusable adhesives.

  Further, the positioning mechanism 36/38 may hold the lens assembly 30 in proximity to the light source 32 in both the longitudinal direction and the radial direction, in other words, the positioning mechanism 36/38 holds the lens assembly 30 in three dimensions. It may be held close to the light source 32.

  The cover portion 12 may be made of a deformable material. The deformable material may be elastic or flexible. The material may be light transmissive and / or diffusive. Suitable materials include, but are not limited to, elastomers or stretchable materials such as rubber, rubber compounds, thermoreversible elastomers, thermoreversible polyurethanes, thermoreversible rubbers, or silicones. The material used may be modified to not only diffuse light to the desired level while in the undeformed position (cover portion 12 is in the undeformed configuration 12a), but also provide the desired elasticity and durability. Good. The material selected can determine the configuration and thickness used. It is known to those skilled in the art that the wall thickness may range from less than 1 millimeter to more than 5 millimeters to achieve the desired combination of transparency, diffusivity, elasticity, durability, manufacturability, and cost. Yes.

  The cover portion 12 also has a lens on the inside toward the light source 32 to allow the positioning mechanism 36, 38 to position and removably hold the lens assembly 30 near or in proximity to the light source 32. It may be configured to move closer to the light source 32 by pushing the assembly 30 or pushing near the lens assembly 30. The lens assembly 30 may be moved from the light source 32 by pushing inward over the cover portion 12 at a point away from the lens assembly 30 to overcome the holding force of the positioning mechanisms 36,38.

  Further, the cover portion 12 has a concave curved shape (concave hemispherical shape) in which the lens assembly 30 is closest to the light source 32 by pressing the lens assembly 30 or the vicinity of the lens assembly 30 inward toward the light source 32. The deformation structure 12b is configured to be deformed.

  The light source 32 may be an electrical light source including, but not limited to, a light emitting diode (LED), two or more LEDs, and an incandescent light source or a fluorescent light source.

  Lens assembly 30 may be configured to direct light emitted from light source 32 to focus or defocus. Those skilled in the art will recognize the various configurations and materials used to create lenses that produce the desired light from a single light source or multiple light sources.

  The luminaire 10 may be substantially sealed or sealable. Sealing may prevent unwanted debris and water ingress that could damage the instrument. The seal may confine air in the area 16 under the cover portion 12 such that movement or deformation of the cover portion 12 increases or decreases the pressure in the instrument. The instrument may be sealed to create a higher pressure when the cover portion 12 is deformed (when in the deformed configuration 12b) so that the lens assembly 30 is proximate to the light source 32. This increased pressure may require the positioning mechanisms 36, 38 to be properly configured to overcome the separation force associated with the pressure resisting deformation. This positive pressure also helps the user return the cover portion 12 to the non-deformed position (non-deformed configuration 12a).

  The inner surface 34 may be treated to become a reflective surface. Base portion 14 may house a power source 40. The power source may consist of, but is not limited to, a battery, solar system, wind system, crank system, fuel cell, power source including a combustion power source.

  FIG. 4 shows a partial cutaway view of an embodiment of the luminaire 10. In the present embodiment, the cover portion 12 is shown in an undeformed shape (non-deformed configuration 12a).

  FIG. 5 shows a partial cut-out in a concentrated light configuration with the slope adjusted to a value greater than zero for this example.

  Specifically, the base portion 14 is provided with a tilt mechanism so that the light source 32 can be tilted. This tilt mechanism is configured such that a hinge is provided on the base portion 14 and the light source 32 tilts together with the base portion 14 via the hinge.

  Further, the hinge is provided with a locking claw and a plurality of engaging portions that can be engaged with the locking claw, and by selectively engaging the locking claw with the plurality of engaging portions, The inclination angle (light irradiation angle) can be selectively changed.

  In this example, the luminaire 10 may be adjusted so that light emitted from the light source 32 through the lens assembly 30 is directed away from the central axis of the mounting surface 52.

  FIG. 6 is a perspective view of a concentrated light configuration in which the inclination is adjusted to a value larger than zero according to the present embodiment.

  In this embodiment, the lighting device 20 may be configured to be secured around the user's head by using the strap assembly 18 with the adapter 22. The adapter 22 may be configured to hold the strap assembly 18 so that it can be adjusted at different lengths. Adapter 22 may also be configured to removably attach to various surfaces and structures. One such configuration may be in the form of a hook as seen in FIG.

  7-21 show diagrams of various other embodiments. 14 to 21, the lens assembly 30 is not attached to the cover portion 12, and an opening (through hole) is provided at the center of the cover portion 12. This opening is modified so that the light source 32 can pass through the opening and protrude to the outside of the cover portion 12 while the cover portion 12 is being deformed (while being in the deformed configuration 12b). Alternatively, the lens assembly 30 may be modified to allow the lens assembly 30 to pass through the opening while the lens assembly 30 is secured adjacent to the light source 32 and the cover portion 12 is deformed. Lens assembly 30 or other mechanism may be used to releasably hold cover portion 12 in a deformed state.

  14 to 18, the base portion 14 is provided with a slide mechanism portion that slides so that the light source arrangement side draws an arcuate trajectory in the vertical direction, and the light source arrangement side through the slide mechanism portion is provided. A tilt mechanism in which the light source 32 tilts by sliding movement is configured.

  Figures 22-25 show diagrams of various other embodiments. FIG. 22 shows a partial cutaway view of an embodiment of a luminaire 110 that may include a cover portion 112 that may be configured with a deformation mechanism such as an accordion, a light source 132, and a lens assembly 130. FIG. 23 shows a front view of an embodiment of the luminaire 110. FIG. 24 shows a cutaway view of an example of a luminaire 110 where the lens assembly 130 may be proximate to the light source 132. FIG. 25 is a perspective view of an embodiment of the luminaire 110. FIG.

  FIG. 26 shows a partial cutaway view of an example of a luminaire 210 that may include a cover portion 212 that may be configured with a hexagonal side cross-sectional geometric feature, a light source 232, and a lens assembly 230. . FIG. 27 shows a front view of an embodiment of the luminaire 210. FIG. 28 shows a partial cutaway view of an example of a luminaire 210 with the lens assembly 230 moved to the proximity of the light source 232. For example, the light source 232 may comprise a plurality of LEDs, and the lens assembly 230 may be modified to operably receive the plurality of LEDs and direct a substantially focused light beam through the lens assembly 230. .

  The deformation mechanism of the cover parts 12, 212, 212 may be made to provide a constant, predetermined or easier deformation. The deformation mechanism may have a slight or desired effect on diffused light depending on the size and configuration of the deformation mechanism. The deformation mechanism may take the form of a crease, a portion with reduced material, or a portion with increased material. The crease, material reduction or increase may be created during the forming of the cover parts 12, 212, 212 or after the initial creation of the cover parts 12, 212, 212. Those skilled in the art will know and understand the various methods of adding material, reducing material, or creating creases.

  FIG. 29 shows a diagram of another embodiment. These embodiments may include a spherical section, icosahedron, truncated icosahedron, dodecahedron, pyramid, cylinder, cone, prism, and other shapes described above or other shapes that the cover portion 12, 212, 212 may have. Only some of the possible geometric shapes are shown, including, but not limited to, any of these distorted or elongated. Those skilled in the art will appreciate that almost any shape may be modified to include, but is not limited to, commercially approved images and shapes. Type, images, or colors may be added to the cover parts 12, 212, 212.

  FIG. 30 shows a circuit of this embodiment. In this embodiment, circuit 510 includes a power source 540 connected to a light source 532 having a switch 560 that completes or interrupts the circuit. Further, the circuit 510 may include an element that adds a mechanism including, but not limited to, a dimmer, a brightness adjuster, a timer, a flasher, or another mechanism.

  One embodiment of the lighting device 20 is as a headlamp that can be converted to a lantern, but includes but is not limited to a ceiling light or reading light mounted on a vehicle, near a bed, or on a desk.

  It should be noted that the present invention is not limited to this embodiment, and many modifications and changes can be made in the arrangement and operation of details, materials, and parts that have been described and depicted.

[0002]
It was added.
SUMMARY OF THE INVENTION Problems to be Solved by the Invention [0007]
There is a demand from users for the appearance of a lightweight, power-saving, and efficient lighting device that can generate diffused light and concentrated light without using a separate accessory.
[0008]
The present invention provides an illumination device that meets the above-described needs.
Means for Solving the Problems [0009]
The gist of the present invention will be described with reference to the accompanying drawings.
[0010]
Cover portions 12, 112, and 212 that cover the outside of the light sources 32, 132, 232, and 532 are provided on the base portion 14 that includes the light sources 32, 132, 232, and 532, and the cover portions 12, 112, and 212 are formed of light. By making the cover portion 12, 112, 212 inward toward the light source 32, 132, 232, 532, it is made of a material having transparency or light diffusivity and elasticity or flexibility. The cover portions 12, 112, and 212 are moved away from the light source 32, 132, 232, and 532, and the cover portions 12, 112, and 212 are deformed to be close to the light sources 32, 132, 232, and 532. The cover portion 12, 112, 212 is configured to be switchable to the deformed configuration 12 b located in the state. The dome-shaped cover portion 12, 112, and 212 is configured to cover the outside of the dome-shaped cover portions 12, 112, and 212, and the light source 32 is adjacent to the light sources 32, 132, 232, and 532 in the modified configuration 12 b. A light irradiation unit for irradiating the light emitted from 132, 232, 532 to the outside of the cover parts 12, 112, 212 is provided, and the light source 32, 132, 232, By pressing inward toward the 532, the dome-shaped non-deformable configuration 12a in which the light irradiation portion at the center of the cover portion 12, 112, 212 is located away from the light sources 32, 132, 232, 532 is provided. Therefore, the cover portion 12, 112, 212 is deformed so that the light irradiating portion has the concave curved shape closest to the light source 32, 132, 232, 532. Those of the lighting device, characterized in that the structure 12b is configured to switch deformed.
[0011]
[0012]
In addition, the dome shape configured to cover the outside of the light sources 32, 132, 232, 532

[0003]
When the cover parts 12, 112, and 212 are deformed into the concave curved deformation structure 12 b, a lens assembly is provided at a position closest to the light sources 32, 132, 232, and 532 at the center of the cover parts 12, 112, and 212. 30, 130, and 230 are provided to constitute the light irradiation unit, and the lens assembly 30, 130, 230, or the vicinity of the lens assembly 30, 130, 230 is inward toward the light source 32, 132, 232, 532. By pressing, the cover parts 12, 112, and 212 are deformed into the deformed configuration 12 b having the concave curved shape in which the lens assemblies 30, 130, and 230 are closest to the light sources 32, 132, 232, and 532. Light emitted from the light sources 32, 132, 232, 532 via 130, 230 Those of the lighting apparatus according to claim 1, characterized by being configured to illuminate the outside of the cover portion 12, 112 - 212.
[0013]
[0014]
Further, when the cover portions 12, 112, and 212 configured in a dome shape that covers the outside of the light sources 32, 132, 232, and 532 are deformed into the concavely curved deformed configuration 12 b, the cover portions 12, 112, and 212 are formed. An opening is provided in the central portion of the light source closest to the light sources 32, 132, 232, and 532 to form the light irradiating portion, and emitted from the light sources 32, 132, 232, and 532 through the opening. The illumination device according to claim 1, wherein light is emitted to the outside of the cover portions 12, 112, and 212.

[0004]
[0015]
[0016]
6. The positioning mechanism according to claim 1, further comprising: a releasable positioning mechanism for positioning and holding the cover portions 12, 112, and 212 in the deformable configuration 12 b. This relates to the described illumination device.
[0017]
The base portion 14 is provided with a strap assembly 18 for fixing to a user's head, and the strap assembly 18 is provided with an adapter 22 such as a hanging hook. It concerns the illuminating device of any one item | term.
[0018]
The lighting device according to claim 7, wherein a strap assembly (18) for fixing to the user's head is provided on the base portion (14), and an adapter (22) such as a hanging hook is provided on the strap assembly (18). It is concerned.
Effects of the Invention [0019]
Since the invention according to the first, third, and fifth aspects is configured as described above, the light emitted from the light source can be irradiated as diffused light through the cover part of the non-deformable configuration, and the cover part is switched to the deformed configuration. Can irradiate, for example, a concentrated light beam to the outside of the cover portion through the light irradiating part, the lens assembly or the opening, and thus, for example, the concentrated light and the concentrated light can be radiated without the need for an accessory or the like.

[0005]
A light-weight, power-saving and efficient lighting device that can generate light by switching between light beams, and switching operation from a diffused light generation state (non-deformed configuration of the cover part) to, for example, a concentrated light generation state (deformed configuration of the cover part) Since it is only necessary to press the cover part inward toward the light source and deform it, the lighting device is extremely practical, such as excellent switching operability.
[0020]
In particular, in the invention according to the third aspect, for example, by using a condensing lens as a lens assembly, a concentrated light beam can be easily and reliably generated in the modified configuration.
[0021]
[0022]
In the invention according to claim 7, the lighting device has a configuration that is more practical and that can reliably hold the deformed configuration.
[0023]
In the inventions according to claims 8 and 9, for example, a headlamp type lighting device suitable for camping and mountain climbing applications and the like can be connected to an appropriate place via an adapter, so that it can be easily used as a lantern. For example, it is possible to provide a lighting device having a configuration that is more practical.
BRIEF DESCRIPTION OF THE DRAWINGS [0024]
FIG. 1 is a perspective view of a lantern configuration of the present embodiment.
FIG. 2 is a perspective view of the concentrated light configuration of the present embodiment.
FIG. 3 is a partial cutaway view of a concentrated light configuration and a lantern configuration of the present embodiment.
FIG. 4 is a partial cutaway view of the lantern configuration of the present embodiment.
FIG. 5 is a partial cut-out view in the concentrated light configuration in which the inclination is adjusted to a value larger than zero according to the present embodiment.
FIG. 6 is a perspective view of a concentrated light configuration in which the inclination is adjusted to a value larger than zero according to the present embodiment.
FIG. 7 is a side view of the concentrated light configuration of the present embodiment.

  The present invention relates to a lighting device.

  Many campers and hikers often use headlamps while engaged in activities.

  By the way, many headlamps provide only a straight line of light, but in activities such as camping, lantern type light (diffuse light) is often required.

  Therefore, to reduce the need for separate concentrated light sources and diffused light, or lantern-type light sources, headlamp manufacturers cover the headlamps and take the concentrated light from the headlamps and apply it to the inner surface. A separate appendage was developed to reflect light and then diffuse light through certain materials.

  Examples of this method are TR1 + Ambient light Set by Mammut and http://joby.com at http://www.mammut.ch/en/productDetail/232000220_v_0001/TR1+%2B+_Ambient+light+Set.html Indicated by JOBY's gorilla torch switchback located at / gorillatorch / swichback. However, this approach required additional, separate and often bulky equipment accessories, and light inefficiencies could occur due to light concentration, subsequent scattering and diffusion.

  Another approach is to add an additional light source for use only in lantern mode, as shown in Tarter US Pat. No. 7,635,195. However, this approach uses a separate light source in the headlamp configuration, but requires a dedicated light source for use in the lantern configuration, so that the lantern configuration consumes more energy than the headlamp configuration. In addition, the added light source adds to the size, weight, and complexity of the device.

  There is a demand from users for the appearance of a lightweight, power-saving, and efficient lighting device that can generate diffused light and concentrated light without using a separate accessory.

  The present invention provides an illumination device that meets the above-described needs.

  The gist of the present invention will be described with reference to the accompanying drawings.

  The base portion 14 having the light sources 32, 132, 232, and 532 is provided with cover portions 12, 112, and 212 that cover the outside of the light sources 32, 132, 232, and 532. By making the cover part 12, 112, 212 inward toward the light source 32, 132, 232, 532, composed of a transparent or light diffusing material and having elasticity or flexibility. The cover portion 12, 112, 212 is moved away from the light source 32, 132, 232, 532, and the cover portion 12, 112, 212 is deformed to be close to the light source 32, 132, 232, 532. The cover portion 12, 112, 212 is configured in a dome shape that covers the outside of the light source 32, 132, 232, 532, and the dome-shaped cover portion 12 In the center of 112 and 212, in the modified configuration 12b, in proximity to the light sources 32, 132, 232, and 532, the light sources 32, 132, and 232 A light irradiating part for irradiating the light emitted from 532 to the outside of the cover part 12, 112, 212 is provided, and this light irradiating part or the vicinity of this light irradiating part is directed toward the light source 32, 132, 232, 532 The cover portion 12, 112, 212 is pressed against the dome-shaped non-deformation configuration 12a in which the light irradiation portion at the center of the cover portion 12, 112, 212 is located away from the light source 32, 132, 232, 532. An illuminating device characterized in that 12, 112, 212 is deformed and the light irradiating portion is switched to the concavely curved deformed configuration 12b closest to the light source 32, 132, 232, 532. It is concerned.

  Further, when the cover portion 12, 112, 212 configured in a dome shape that covers the outside of the light source 32, 132, 232, 532 is deformed into the concave curved deformed configuration 12b, the cover portion 12, 112, 212 is formed. The lens assembly 30, 130, 230 is provided at a position closest to the light source 32, 132, 232, 532 at the center of the lens to constitute the light irradiator, and this lens assembly 30, 130, 230, or this lens assembly 30 By pressing the vicinity of 130/230 inward toward the light source 32/132/232/532, the lens assembly 30/130/230 has a concave curved shape closest to the light source 32/132/232/532. The cover portions 12, 112, and 212 are deformed into the deformed configuration 12b, and light emitted from the light sources 32, 132, 232, and 532 through the lens assemblies 30, 130, and 230 is transmitted to the cover portions 12, 112, and 212. The illumination device according to claim 1, wherein the illumination device is configured to irradiate the outside of the illumination device. Those of the device.

  Further, when the cover portion 12, 112, 212 configured in a dome shape that covers the outside of the light source 32, 132, 232, 532 is deformed into the concave curved deformed configuration 12b, the cover portion 12, 112, 212 is formed. An opening is provided at a position closest to the light sources 32, 132, 232, and 532 at the center of the light to form the light irradiation unit, and emitted from the light sources 32, 132, 232, and 532 through the opening The illumination device according to claim 1, wherein the illumination device is configured to irradiate light to the outside of the cover portions 12, 112, and 212.

Also, the cover portion 12, 112, 212, according to any one of claims 1 to 3, characterized by comprising the modified configuration 12b in the positioning releasable positioning mechanism for positioning and holding 36 & 38 This relates to a lighting device.

Further, the base portion 14, the strap assembly 18 for securing the user's head is provided, any one of the preceding claims, characterized in that the adapter 22, such as a suspension hook to the strap assembly 18 is provided This relates to the lighting device according to item 1.

Since the invention of claim 1, 2, 3, wherein the configuration described above, light emitted from the light source, it is possible to irradiate the diffused light through the cover portion of the non-deformed configuration, by switching the cover portion the deformation configuration Can irradiate, for example, a concentrated light beam to the outside of the cover portion through the light irradiating unit, the lens assembly, or the opening, and thus can be generated by switching between diffused light and, for example, the concentrated light beam without using an accessory. It is a lightweight, power-saving and efficient lighting device, and the switching operation from the diffused light generation state (non-deformed configuration of the cover part) to, for example, the concentrated light generation state (deformed configuration of the cover part) simply uses the cover part as the light source. Since it only needs to be deformed by pressing it inward, the lighting device is extremely practical, such as excellent switching operability.

In particular, in the invention described in claim 2 , for example, by using a condensing lens as a lens assembly, a concentrated light beam can be easily and reliably generated in the modified configuration.

In the invention according to claim 4 , the illumination device has a more practical configuration that can reliably hold the deformed configuration.

Further, in the invention described in claim 5 , for example, it becomes a headlamp type lighting device suitable for camping and mountain climbing applications, and since it can be connected to an appropriate place through an adapter, it can be easily used as a lantern. For example, there is an illuminating device having a configuration that is more practical.

It is a perspective view in the lantern structure of a present Example. It is a perspective view in the concentrated light structure of a present Example. It is a partial cutaway view of the concentrated light configuration and the lantern configuration of the present embodiment. It is a partial cutaway figure in the lantern structure of a present Example. It is a partial cutaway view in the concentrated light configuration in which the inclination is adjusted to a value larger than zero according to the present embodiment. It is a perspective view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a side view in the concentrated light structure of a present Example. It is a top view in the lantern structure of a present Example. It is a top view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a perspective view in the concentrated light structure of a present Example. It is a perspective view in the lantern structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a side view in the lantern structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a perspective view in the lantern structure provided with the integrated suspension apparatus of the present Example. It is a side view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a front view of the lighting state in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a perspective view of the lighting state in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a top view in the concentrated light structure by which the inclination was adjusted to the value larger than zero of a present Example. It is a front view in the lantern structure of a present Example. It is a perspective view of the lighting state in the concentrated light structure of another Example. It is a perspective view of the lighting state in the lantern structure of another Example. It is a perspective view of the light extinction state in the lantern structure of another Example. It is a partial cutaway figure in the lantern structure of another Example. It is a front view in the lantern structure of another Example. It is a partial cutaway figure in the concentrated light structure of another Example. It is a perspective view in the lantern structure of another Example. It is a partial cutaway figure in the lantern structure of another Example. It is a front view in the lantern structure of another Example. It is a partial cutaway figure in the concentrated light structure of another Example. It is a front view in the lantern structure of other some Examples. It is a circuit diagram of a present Example.

  An embodiment of the present invention which is considered to be suitable will be briefly described with reference to the drawings showing the operation of the present invention.

  In the non-deformation configuration 12a in which the cover portions 12, 112, and 212 are located away from the light sources 32, 132, 232, and 532, the light emitted from the light sources 32, 132, 232, and 532 is light transmissive or light diffusive. The light is diffused through the cover portion and is emitted to the outside of the cover portions 12, 112, and 212.

  When the cover portions 12, 112, and 212 are pressed inward toward the light sources 32, 132, 232, and 532 from the non-deformable configuration 12a, the cover portions 12, 112, and 212 having elasticity or flexibility are deformed and moved. Then, the light source 32, 132, 232, 532 is switched to the deformed configuration 12b that is located in the proximity of the light source 32, 132, 232, 532. The light is irradiated to the outside of the cover portions 12, 112, and 212 from the light irradiating portion, the lens assembly 30, 130, 230, or the opening provided in the vicinity of the light sources 32, 132, 232, and 532.

  That is, in this modified configuration 12b, the light source 32, 132, 232, 532 and the light irradiation unit or lens assembly 30, 130, 230, or the opening are close to each other. It becomes easy to irradiate to the outside of the cover portions 12, 112, 212 from 130, 230 or the opening as a concentrated light beam such as spot light.

  Further, when the lens assembly 30, 130, 230 is provided in the cover portion 12, 112, 212, if a condensing lens is used as the lens assembly 30, 130, 230, it is easily and surely concentrated on the deformed configuration 12b. Light rays can be generated.

  Therefore, according to the present invention, a light, power-saving, and efficient lighting device that can be generated by switching between diffused light and concentrated light, for example, without using an accessory or the like, and a diffused light generation state ( The switching operation from the non-deformed configuration 12a) of the cover portions 12, 112, 212 to, for example, the concentrated light generation state (the deformed configuration 12b of the cover portions 12, 112, 212) also simply changes the cover portions 12, 112, 212 to the light source 32. Since it only needs to be pressed inward toward 132, 232, 532 and deformed, it can be operated very easily.

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

  Exemplary embodiments of the present invention are shown in FIGS. 1-31, wherein the same or generally similar features use common reference numerals.

  FIG. 1 shows a perspective view of a lantern configuration for generating diffused light of the lighting device 20 of the present embodiment.

  The illuminating device 20 of the present embodiment is a luminaire 10 including a base portion 14, a light source 32, a lens assembly 30, and a cover portion 12, and the lens assembly 30 is positioned away from the light source 32. The cover portion 12 is configured to support the lens assembly 30 during translation of the lens assembly 30.

  The cover portion 12 has a dome shape and protrudes from one side of the thick disc-shaped base portion 14. The cover portion 12 may be configured in various shapes as will be described later.

  Further, a power switch 60 is provided on the outer peripheral surface of the base portion 14, and the power switch 60 is operated so that lighting / extinguishing control, constant lighting / strobe switching, and illuminance switching can be performed.

  FIG. 2 shows the cover portion 12 of FIG. 1 deformed inward in the middle of a dome shape.

  FIG. 3 shows a partial cutaway view of an embodiment of the luminaire 10. Cover portion 12 is shown twice as 12a and 12b, where 12a is a dome-shaped cover portion 12 that is an undeformed configuration, and 12b is the center of dome-shaped cover portion 12 being pushed toward light source 32. This is a cover portion 12 having a modified configuration.

  Also, the non-deformed configuration 12a may be described as the luminaire 10 in the “lantern” configuration, and the modified configuration 12b may be described as the luminaire 10 in the “concentrated light” configuration.

  FIG. 3 also shows a lens assembly 30 fitted to the cover portion 12 and a light source 32 installed near the interior surface 34. The cover portion 12 is perforated at a position where the lens assembly 30 may block so that the lens assembly 30 is moved closer to the light source 32 when the cover portion 12 is deformed into a concentrated light configuration (deformed configuration 12b). You may prepare.

  The lens assembly 30 may be configured to direct most of the light emitted from the light source 32 through the lens assembly 30 to produce the desired lighting effect. The illumination effect may be concentrated light or light that is less diffuse than when the lens assembly 30 is not in proximity to the light source 32.

  The lens assembly 30 may be guided and fixed by a positioning mechanism 38 on or near the lens assembly 30 and a positioning mechanism 36 near the light source 32.

  The positioning mechanisms 36 and 38 may be configured so that only one exists, and may function in cooperation or independently. In addition, the positioning mechanism 36/38 may take the form of a magnet in the positioning mechanism 36 and another magnet in the positioning mechanism 38 that is attracted to the magnet, or one of the magnet and the attractive metal at each position. It may take the form of a combination of a magnet and an attractive metal, or it may take the form of a recess and a protrusion configured to fit into the recess, the recess being a groove, It may take the form of a protrusion modified to fit and detachably engage with the side of the groove as an interference fit. It may also include, but is not limited to, electromagnet and metal combinations, surface fasteners, tacky or reusable adhesives.

  Further, the positioning mechanism 36/38 may hold the lens assembly 30 in proximity to the light source 32 in both the longitudinal direction and the radial direction, in other words, the positioning mechanism 36/38 holds the lens assembly 30 in three dimensions. It may be held close to the light source 32.

  The cover portion 12 may be made of a deformable material. The deformable material may be elastic or flexible. The material may be light transmissive and / or diffusive. Suitable materials include, but are not limited to, elastomers or stretchable materials such as rubber, rubber compounds, thermoreversible elastomers, thermoreversible polyurethanes, thermoreversible rubbers, or silicones. The material used may be modified to not only diffuse light to the desired level while in the undeformed position (cover portion 12 is in the undeformed configuration 12a), but also provide the desired elasticity and durability. Good. The material selected can determine the configuration and thickness used. It is known to those skilled in the art that the wall thickness may range from less than 1 millimeter to more than 5 millimeters to achieve the desired combination of transparency, diffusivity, elasticity, durability, manufacturability, and cost. Yes.

  The cover portion 12 also has a lens on the inside toward the light source 32 to allow the positioning mechanism 36, 38 to position and removably hold the lens assembly 30 near or in proximity to the light source 32. It may be configured to move closer to the light source 32 by pushing the assembly 30 or pushing near the lens assembly 30. The lens assembly 30 may be moved from the light source 32 by pushing inward over the cover portion 12 at a point away from the lens assembly 30 to overcome the holding force of the positioning mechanisms 36,38.

  Further, the cover portion 12 has a concave curved shape (concave hemispherical shape) in which the lens assembly 30 is closest to the light source 32 by pressing the lens assembly 30 or the vicinity of the lens assembly 30 inward toward the light source 32. The deformation structure 12b is configured to be deformed.

  The light source 32 may be an electrical light source including, but not limited to, a light emitting diode (LED), two or more LEDs, and an incandescent light source or a fluorescent light source.

  Lens assembly 30 may be configured to direct light emitted from light source 32 to focus or defocus. Those skilled in the art will recognize the various configurations and materials used to create lenses that produce the desired light from a single light source or multiple light sources.

  The luminaire 10 may be substantially sealed or sealable. Sealing may prevent unwanted debris and water ingress that could damage the instrument. The seal may confine air in the area 16 under the cover portion 12 such that movement or deformation of the cover portion 12 increases or decreases the pressure in the instrument. The instrument may be sealed to create a higher pressure when the cover portion 12 is deformed (when in the deformed configuration 12b) so that the lens assembly 30 is proximate to the light source 32. This increased pressure may require the positioning mechanisms 36, 38 to be properly configured to overcome the separation force associated with the pressure resisting deformation. This positive pressure also helps the user return the cover portion 12 to the non-deformed position (non-deformed configuration 12a).

  The inner surface 34 may be treated to become a reflective surface. Base portion 14 may house a power source 40. The power source may consist of, but is not limited to, a battery, solar system, wind system, crank system, fuel cell, power source including a combustion power source.

  FIG. 4 shows a partial cutaway view of an embodiment of the luminaire 10. In the present embodiment, the cover portion 12 is shown in an undeformed shape (non-deformed configuration 12a).

  FIG. 5 shows a partial cut-out in a concentrated light configuration with the slope adjusted to a value greater than zero for this example.

  Specifically, the base portion 14 is provided with a tilt mechanism so that the light source 32 can be tilted. This tilt mechanism is configured such that a hinge is provided on the base portion 14 and the light source 32 tilts together with the base portion 14 via the hinge.

  Further, the hinge is provided with a locking claw and a plurality of engaging portions that can be engaged with the locking claw, and by selectively engaging the locking claw with the plurality of engaging portions, The inclination angle (light irradiation angle) can be selectively changed.

  In this example, the luminaire 10 may be adjusted so that light emitted from the light source 32 through the lens assembly 30 is directed away from the central axis of the mounting surface 52.

  FIG. 6 is a perspective view of a concentrated light configuration in which the inclination is adjusted to a value larger than zero according to the present embodiment.

  In this embodiment, the lighting device 20 may be configured to be secured around the user's head by using the strap assembly 18 with the adapter 22. The adapter 22 may be configured to hold the strap assembly 18 so that it can be adjusted at different lengths. Adapter 22 may also be configured to removably attach to various surfaces and structures. One such configuration may be in the form of a hook as seen in FIG.

  7-21 show diagrams of various other embodiments. 14 to 21, the lens assembly 30 is not attached to the cover portion 12, and an opening (through hole) is provided at the center of the cover portion 12. This opening is modified so that the light source 32 can pass through the opening and protrude to the outside of the cover portion 12 while the cover portion 12 is being deformed (while being in the deformed configuration 12b). Alternatively, the lens assembly 30 may be modified to allow the lens assembly 30 to pass through the opening while the lens assembly 30 is secured adjacent to the light source 32 and the cover portion 12 is deformed. Lens assembly 30 or other mechanism may be used to releasably hold cover portion 12 in a deformed state.

  14 to 18, the base portion 14 is provided with a slide mechanism portion that slides so that the light source arrangement side draws an arcuate trajectory in the vertical direction, and the light source arrangement side through the slide mechanism portion is provided. A tilt mechanism in which the light source 32 tilts by sliding movement is configured.

  Figures 22-25 show diagrams of various other embodiments. FIG. 22 shows a partial cutaway view of an embodiment of a luminaire 110 that may include a cover portion 112 that may be configured with a deformation mechanism such as an accordion, a light source 132, and a lens assembly 130. FIG. 23 shows a front view of an embodiment of the luminaire 110. FIG. 24 shows a cutaway view of an example of a luminaire 110 where the lens assembly 130 may be proximate to the light source 132. FIG. 25 is a perspective view of an embodiment of the luminaire 110. FIG.

  FIG. 26 shows a partial cutaway view of an example of a luminaire 210 that may include a cover portion 212 that may be configured with a hexagonal side cross-sectional geometric feature, a light source 232, and a lens assembly 230. . FIG. 27 shows a front view of an embodiment of the luminaire 210. FIG. 28 shows a partial cutaway view of an example of a luminaire 210 with the lens assembly 230 moved to the proximity of the light source 232. For example, the light source 232 may comprise a plurality of LEDs, and the lens assembly 230 may be modified to operably receive the plurality of LEDs and direct a substantially focused light beam through the lens assembly 230. .

  The deformation mechanism of the cover parts 12, 212, 212 may be made to provide a constant, predetermined or easier deformation. The deformation mechanism may have a slight or desired effect on diffused light depending on the size and configuration of the deformation mechanism. The deformation mechanism may take the form of a crease, a portion with reduced material, or a portion with increased material. The crease, material reduction or increase may be created during the forming of the cover parts 12, 212, 212 or after the initial creation of the cover parts 12, 212, 212. Those skilled in the art will know and understand the various methods of adding material, reducing material, or creating creases.

  FIG. 29 shows a diagram of another embodiment. These embodiments may include a spherical section, icosahedron, truncated icosahedron, dodecahedron, pyramid, cylinder, cone, prism, and other shapes described above or other shapes that the cover portion 12, 212, 212 may have. Only some of the possible geometric shapes are shown, including, but not limited to, any of these distorted or elongated. Those skilled in the art will appreciate that almost any shape may be modified to include, but is not limited to, commercially approved images and shapes. Type, images, or colors may be added to the cover parts 12, 212, 212.

  FIG. 30 shows a circuit of this embodiment. In this embodiment, circuit 510 includes a power source 540 connected to a light source 532 having a switch 560 that completes or interrupts the circuit. Further, the circuit 510 may include an element that adds a mechanism including, but not limited to, a dimmer, a brightness adjuster, a timer, a flasher, or another mechanism.

  One embodiment of the lighting device 20 is as a headlamp that can be converted to a lantern, but includes but is not limited to a ceiling light or reading light mounted on a vehicle, near a bed, or on a desk.

  It should be noted that the present invention is not limited to this embodiment, and many modifications and changes can be made in the arrangement and operation of details, materials, and parts that have been described and depicted.

12, 112, 212 Cover part
12a Undeformed configuration
12b Modified configuration
14 Base part
18 Strap assembly
22 Adapter
30/130/230 Lens assembly
32 ・ 132 ・ 232 ・ 532 Light source
36/38 Positioning mechanism

Claims (9)

  A cover portion covering the outside of the light source is provided on the base portion provided with the light source, and the cover portion is made of a material having light transmission or light diffusibility and elasticity or flexibility. By pressing the portion inward toward the light source, the cover portion is configured to be switchable from a non-deformable configuration located away from the light source to a deformed configuration in which the cover portion is deformed and located in the proximity of the light source, In the modified configuration of the cover part, an illumination device characterized in that a light irradiating unit for irradiating light emitted from the light source to the outside of the cover part is provided at a part of the cover part close to the light source.   The cover portion is configured in a dome shape that covers the outside of the light source, the light irradiation portion is provided at the center of the dome-shaped cover portion, and the light irradiation portion or the vicinity of the light irradiation portion faces the light source. The illumination device according to claim 1, wherein the cover portion is configured to be deformed to the concavely curved deformed configuration in which the light irradiation unit is closest to the light source by being pressed inward.   A cover portion covering the outside of the light source is provided on the base portion provided with the light source, and the cover portion is made of a material having light transmission or light diffusibility and elasticity or flexibility. By pressing the portion inward toward the light source, the cover portion is configured to be switchable from a non-deformable configuration located away from the light source to a deformed configuration in which the cover portion is deformed and located in the proximity of the light source, In the modified configuration of the cover portion, a lens assembly is provided in a portion of the cover portion adjacent to the light source, and the light emitted from the light source is irradiated to the outside of the cover portion via the lens assembly. A lighting device characterized by that.   The cover portion is configured in a dome shape that covers the outside of the light source, the lens assembly is provided at the center of the dome-shaped cover portion, and the lens assembly or the vicinity of the lens assembly is inwardly facing the light source. 4. The illumination device according to claim 3, wherein the cover portion is deformed by the pressing so that the lens assembly is deformed to the concave curved shape closest to the light source.   A cover portion covering the outside of the light source is provided on the base portion provided with the light source, and the cover portion is made of a material having light transmission or light diffusibility and elasticity or flexibility. By pressing the portion inward toward the light source, the cover portion is configured to be switchable from a non-deformable configuration located away from the light source to a deformed configuration in which the cover portion is deformed and located in the proximity of the light source, In the modified configuration of the cover portion, an opening is provided in a portion of the cover portion adjacent to the light source, and the light emitted from the light source is emitted to the outside of the cover portion through the opening. A lighting device characterized by that.   The cover portion is configured in a dome shape that covers the outside of the light source, the opening is provided at the center of the dome-shaped cover portion, and the opening or the vicinity of the opening is directed inward toward the light source. The lighting device according to claim 5, wherein the cover portion is configured to be deformed into the deformed configuration in which the opening is closest to the light source when pressed.   The illuminating device according to claim 1, further comprising a positioning mechanism capable of releasing the positioning for positioning and holding the cover portion in the deformed configuration.   The illumination according to claim 1, wherein a strap assembly for fixing to a user's head is provided on the base portion, and an adapter such as a hanging hook is provided on the strap assembly. apparatus.   The lighting device according to claim 7, wherein a strap assembly for fixing to the user's head is provided on the base portion, and an adapter such as a hanging hook is provided on the strap assembly.

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