The present disclosure relates to light sources. In particular, the present disclosure is directed to portable flashlights.
According to the present disclosure, a flashlight includes a body sized to be held in the hand of a user. The flashlight includes a light source coupled to the body for emitting light when the light source is activated by a user.
In illustrative embodiments, a flashlight includes a body formed by a first light generator and a second light generator pivotable relative to one another about a pivot axis. In some embodiments, each light generator includes an axial light source and a movable light source. The axial light source projects light along the pivot axis. The movable light source projects light perpendicular to the pivot axis along a longitudinal axis of its corresponding light generator.
In some embodiments, the flashlight also includes prop means for supporting the first light generator and the second light generator of the body relative to a surface when the first light generator and the second light generator are arranged in preselected positions at an angle with the surface by a user. As a result, the first light generator and the second light generator continue to provide light in predetermined directions corresponding to the preselected positions without the user holding either light generator or the prop means.
In illustrative embodiments, the prop means includes an axle arranged to extend along the pivot axis and a support leg coupled to the axle. The first light generator and the second light generator are coupled to the axle with an interference fit so that each light generator pivots about the axle when acted on by a user and is held in place relative to the axle when released by the user. The support leg is situated between the light generators and is coupled to the to the axle with an interference fit so that the support leg pivots about the axle when acted on by a user and is held in place relative to the axle when released by the user.
In illustrative embodiments, the support leg pivots about the pivot axis from a stowed position to a use position. In the stowed position, the support leg is located between the first light generator and the second light generator. In the use position, the support leg is arranged to extend out from between the first light generator and the second light generator to support the first light generator and the second light generator when placed on a surface.
Additional features of the present disclosure will become apparent to those skilled in the art upon consideration of illustrative embodiments exemplifying the best mode of carrying out the disclosure as presently perceived.
The detailed description particularly refers to the accompanying figures in which:
An illustrative flashlight 10 includes a body 12, an axle 14, and an interchangeable support leg 16 as shown in
Body 12 of the illustrative embodiment includes a first light generator 12A and a second light generator 12B as shown in
Arms 20A, 20B include a hub section 32A, 32B, an extension section 34A, 34B, and a battery door 36A, 36B. Hub sections 32A, 32B support axial light sources 22A, 22B and each hub section 32A, 32B receives an end 14A, 14B of axle 14 so that arms 20A, 20B can pivot independently about pivot axis 18 defined by axle 14. Extension sections 34A, 34B extend from hub sections 32A, 32B perpendicular to pivot axis 18 and support movable light sources 24A, 24B. Battery doors 36A, 36B are removably coupled to extension sections 34A, 34B and allow access to power systems 26A, 26B that are housed in arms 20A, 20B.
Arms 20A, 20B each also include a pad 35A, 35B coupled to extension sections 34A, 34B of arms 20A, 20B. Pads 35A, 35B are situated at the distal ends 30A, 30B of arms 20A, 20B and extend between the arms 20A, 20B. Pads 35A, 35B contact one another when the distal ends 30A, 30B of arms 20A, 20B are aligned to provide space between the arms 20A, 20B so that support leg 16 is not pinched between the arms 20A, 20B when flashlight 10 is gripped by a user.
Hub sections 32A, 32B each form a cavity 38A, 38B that extend along pivot axis 18. Cavities 38A, 38B are round and are defined by bearing surfaces 40A, 40B that include grooves 42A, 42B. Bearing surfaces 40A, 40B contact an outer surface 15 of axle 14 so that the hub sections 32A, 32B are in rotative bearing engagement with axle 14. Grooves 42A, 42B formed in bearing surfaces 40A, 40B receive protrusions 17A, 17B that extend out from the outer surface 15 of axle 14 so that hub sections 32A, 32B are locked on to axle 14 when flashlight 10 is assembled. In operation, hub sections 32A, 32B may be separated from axle 14 so that each light generator 12A, 12B may be used by two users. In the illustrative embodiment, the ends 14A, 14B of axle 14 are lightly interference fit with the bearing surfaces 40A, 40B of hub sections 32A, 32B so that axle 14 provides a frictional arm-support means configured to support the arms 20A, 20B in a position selected by a user when a user pivots one or both of arms 20A, 20B about axle 14.
In some alternative embodiments, the ends of axle 14 and hub sections 32A, 32B may be formed to include corresponding teeth to support the arms 20A, 20B when positioned by a user relative to axle 14. In other embodiments, magnets (not shown) may be mounted in each of hub sections 32A, 32B in order to couple light generators 12A, 12B when brought together. In some such embodiments, axle 14 may be metallic or magnetic to couple each light generator 12A, 12B to axle 14 when flashlight 10 is assembled. In other embodiments, one or more complementary mechanical tabs and tab receivers (not shown) may be included in first light generator 12A, second light generator 12B, and axle 14 to couple each light generator 12A, 12B to axle 14 when flashlight 10 is assembled. In still other embodiments, another locking mechanism such as a set screw may support the arms 20A, 20B when positioned by a user relative to axle 14.
Axial light sources 22A, 22B are configured to emit light along pivot axis 18 as shown in
Movable light sources 24A, 24B are configured to emit light in a direction perpendicular to pivot axis 18 as shown in
Power systems 26A, 26B included in light generators 12A, 12B are configured to allow a user to activate axial light sources 22A, 22B and movable light sources 24A, 24B in any combination. Power systems 26A, 26B each include a power source 44A, 44B and a rotary switch 46A, 46B as shown diagrammatically in
In some embodiments in which power sources 44A, 44B are rechargeable batteries, power systems 26A, 26B may also include charge coils 45A, 45B as shown in phantom in
Rotary switches 46A, 46B of the illustrative embodiment each move through four configurations 50, 51, 52, 53 to disconnect and connect power source 44A, 44B with one or both of axial light source 22A, 22B and one or both of movable light source 24A, 24B. Each rotary switch 46A, 46B changes configuration as suggested by arrow 55 in response to a user pressing on the corresponding axial light source 22A, 22B. In a first configuration 50, rotary switch 46A, 46B couples power source 44A, 44B to open so that neither axial light source 22A, 22B nor movable light source 24A, 24B is powered. In a second configuration 51, rotary switch 46A, 46B couples power source 44A, 44B to axial light source 22A, 22B but not movable light source 24A, 24B so that only axial light source 22A, 22B is powered. In a third configuration 52, rotary switch 46A, 46B couples power source 44A, 44B to movable light source 24A, 24B but not axial light source 22A, 22B so that only movable light source 24A, 24B is powered. In a fourth configuration 53, rotary switch 46A, 46B couples power source 44A, 44B to both movable light source 24A, 24B and axial light source 22A, 22B so that both axial light source 22A, 22B and movable light source 24A, 24B are powered. Thus, any combination of one or more light sources 22A, 22B, 24A, 24B included in body 12 can be powered as desired by a user.
Support leg 16 is a monolithic plastic component formed to include a hub 56 and a strut 58 as shown, for example, in
Support leg 16 pivots between a stowed position, shown in
Flashlight 10 is also self-supportive by rotating either light generator 12A, 12B so that a light generator 12A, 12B is parallel to a flat surface and positioning the other of light generator 12A, 12B to emit light in a user selected direction. First light generator 12A or second light generator 12B arranged parallel with a flat surface can independently support the other light generator 12A, 12B or can increase stability of support from support leg 16 when support leg 16 is positioned to support body 12 of flashlight 10.
Support leg 16 may also be used so that flashlight 10 is self-supporting when used outdoors or with a supporting protrusion (not shown). Rounded point 60 of strut 58 can be driven into the ground or an object so that body 12 of flashlight 10 may be supported in place by support leg 16. Hook 62 of strut 58 can be hooked to a supporting protrusion such as a cable, a tree branch, or a nail in a wall so that body 12 of flashlight 10 may be supported relative to the supporting protrusion.
A tapped orifice 70 is coupled to the arm 20A of the first light generator 12A at the proximal end 28A of the arm 20A as shown in
In operation, movable light source 24A of first light generator 12A and movable light source 24B of second light generator 12B can emit light streams in different directions. Second light generator 12B moves between an aligned position and a number of misaligned positions relative to first light generator 12A. When second light generator 12B is aligned with first light generator 12A as shown in
In illustrative embodiments, a user can grip first light generator 12A while pivoting second light generator 12B between the aligned position and one of the misaligned positions. Thus, flashlight 10 can be user-supported while the light generators 12A, 12B are adjusted relative to one another. Also, flashlight 10 can be user-supported by one light generator 12A, 12B while emitting light streams in more than one general direction so that a user can illuminate a greater area or two separate areas in two different directions.
Axial light sources 22A, 22B can also emit light in opposing directions along pivot axis 18 so that flashlight 10 can emit light streams in up to four different directions. Axial light source 22A of first light generator 12A is arranged to emit light in a first direction 18A along pivot axis 18 and axial light source 22B of second light generator 12B is arranged to emit light in a second direction 18B, opposite the first direction 18A. Thus, flashlight 10 may emit light in up to four general directions when second light generator 12B is in one of the misaligned positions relative to first light generator 12A and all light sources 22A, 22B, 24A, 24B are powered.
In illustrative embodiments, a user can activate and direct movable light sources 24A, 24B to illuminate a subject or subjects spaced from himself and can activate at least one of axial light sources 22A, 24B to illuminate himself. Users such as policemen, firefighters, and other emergency personnel may activate axial light sources 22A, 22B to illuminate themselves while illuminating a subject with movable light sources 24A, 24B so that the user is identifiable by others nearby. Similarly, a user can illuminate himself using one movable light source 24A, 24B while illuminating a subject with the other of movable light source 24A, 24B by misaligning the second light generator 12B relative to the first light generator 12A.
An alternative support leg 116 is a monolithic plastic component as shown in
An alternative flashlight 10′, substantially similar to flashlight 10, is shown in
Flashlight 10′ is configured for use on its own or with a support base 212′, shown in
Support base 212′ illustratively includes a pedestal 214′, a column 216′ and a charging system 218′ as shown in
Column 216′ is formed to include a slot 222′ sized to receive support leg 216′ of flashlight 10′ and a notch 224′ configured to receive distal ends 30A, 30B of light generators 12A, 12B as shown in
Charging system 218′ is configured to charge the power sources 44A′, 44B′ of first and second light generators 12A′, 12B′. Charging system 218′ illustratively includes a power coil 230′ and a power cable 232′ as shown in
First and second light generators 12A′, 12B′ are coupled to axle 14′ for movement about pivot axis 18′ and each moves from a number of use positions to a charge position. In the use positions, distal end 30A′, 30B′ of first and/or second light generators 12A′, 12B′ are spaced apart from column 222′ and are arranged to emit light from movable light sources 24A′, 24B′ in a predetermined direction. In the charge position, distal end 30A′, 30B′ of first and/or second light generators 12A′, 12B′ are located adjacent to column 222′ and are received in notch 224′ of column 216′ as shown in
This application is a continuation of Ser. No. 13/656,125, filed Oct. 19, 2012, which claims priority under 35 U.S.C. §119(e) to U.S. Provisional Application Ser. No. 61/550,140, filed Oct. 21, 2011, which is expressly incorporated by reference herein.
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Child | 14728048 | US |