DE69931466T2 - FLASHLIGHT - Google Patents

Description

The The present invention relates to the field of flashlights or Flashlights and in particular hand-held, portable, battery-operated Flashlights or flashlights.

Flashlights generally comprise a battery chamber with an end cap for Recording one or more batteries, one electrically with the one or more batteries connected light bulb, and a reflector for reflecting the light from the bulb in a certain direction. The electrical connection between the batteries and the bulb usually includes a switching mechanism to selectively electrical energy from the batteries to the bulb supply, whereby a switching on and off the flashlight is enabled. The main function of flashlights is to provide a comfortable portable storable To provide a light source which is suitable for light in a certain Send direction.

Some flashlights are capable of focusing or defocusing light emitted by the flashlight by movably placing the bulb within the reflector along the optical axis of the reflector. The reflector is typically a parabolic reflector because such a reflector, when the bulb is positioned at the focal point of the parabolic reflector, provides a theoretical focus of light. In this regard, light rays emitted from a light bulb positioned at the focal point of the parabolic reflector are reflected parallel to the optical axis of the parabolic reflector. In 1A the light beam expansion of a parabolic reflector is shown with a light bulb arranged in the focal point of the parabolic reflector. In contrast, shows 1B the case of a light bulb that has been moved out of the focus of the parabolic reflector. In this case, the light rays reflected from the parabolic reflector diverge (ie, defocus), whereby a clear range of reduced light intensity is formed around the center of the reflected light rays, thereby reducing the collected light amount of the light bulb.

The Electric energy to operate a flashlight is commonly used by a held in the battery chamber of the flashlight battery, or provided by two or more batteries arranged in series. When the charge of the battery is exhausted, a user becomes typically replace the battery by removing the end cap, removing the old batteries from the battery chamber, new ones Batteries in the battery chamber inserts and the end cap again touches down. If, however, several batteries in a flashlight be replaced, so there is a possibility that a user the batteries are improperly positioned so that they do not line up are arranged. For example, a user can use the new batteries misalign, so that the positive poles of the batteries facing each other, or he can the old batteries with the new batteries and a new one Battery wrongly align with an old battery. An incorrect insertion of the Batteries can for the user of the flashlight unwanted consequences bring, e.g. an explosion causing physical injury to the user.

moreover often emit batteries naturally Hydrogen gas. So, when batteries are in the battery chamber the flashlight are stored, the possibility that the of The hydrogen gas emitted by the batteries is trapped in the flashlight. under such circumstances a broken battery will be big Emit quantities of hydrogen gas. Consequently, hydrogen gas can be accumulate inside the flashlight, reducing the likelihood undesirable Consequences for the user of the flashlight is increased, for example one physical injury causing explosion.

Finally, parts have to the flashlight will be replaced from time to time. For example is the light bulb replacing a flashlight when the incandescent filament of the bulb burns out, which is often found when the flashlight is needed (e.g., if there are currently no other sources of light available, as with blackouts occurring at night or in the dark at Outdoor camping). Flashlights usually include a spare bulb, which is positioned inside the end cap. Replacing a burned out light bulb by a bulb positioned on the end cap is difficult, in particular if there is little or no light. For example, at a power failure replacing the bulb in a typical flashlight from the user request that this removed the end cap, located the small spare bulb on the end cap and take it without it the batteries fall out of the flashlight that he is the Restores the end cap that he removed the head assembly, replaced the burnt out bulb, and replaced the head assembly resumes, all of which must happen in darkness.

The US-A-5345370 discloses a multifunctional rotating circuit arrangement.

One The aim of the present invention is to provide an improved To provide flashlight with improved switching and Fokusierfähigkeiten.

Accordingly, the invention consists in a flashlight, comprising: a chamber device for receiving at least one battery;
a lamp;
electrical connection means for holding the lamp and selectively electrically connecting the lamp to the at least one battery received by the chamber means;
a header attached to the chamber means and exclusively radially rotatable with respect to the chamber means;
a reflector for reflecting the light from the lamp; and
a skirt attached to the header,
the collar being rotatable with respect to the header to move the reflector axially with respect to the chamber; and
the head piece being rotatable to cause the electrical connection means to selectively electrically connect the lamp and the at least one battery received by the chamber means,
characterized in that the enclosure is exclusively radially rotatable with respect to the head piece.

According to one embodiment The present invention provides an improved flashlight with an end cap, a chamber, a head assembly, and a Lamp holder assembly. In an embodiment of the invention comprises the head assembly has an elliptical reflector around it by the flashlight to increase the reflected amount of light, when a light source is positioned within the elliptical reflector is. Preferably, the elliptical reflector has an eccentricity value of less than about .80 on and not more than about .99. Preferably, the elliptical reflector has a peak curvature value of not less than about 2.0 and not more than about 5.2. In one arrangement, the elliptical reflector has an eccentricity value of about .96 and a crown curvature of about 3.1.

According to one another embodiment of the present invention is a flashlight with an elliptical Reflector with either a negative or concave lens, or paired with a flat or planar lens. In this regard are the focusing and light-collecting properties of the flashlight optimized when the elliptical reflector of the flashlight with a negative or flat lens is matched. Preferably, the Flashlight elliptical reflector paired with a lens that an effective focal length of not more than about -6.4 cm (-2.5 '') matched. In an arrangement becomes an elliptical reflector with an eccentricity value of about .96 and a vertex curvature of about 3.1 paired with a lens that has an effective focal length of about 0 cm (0 '').

According to one another embodiment of the present invention the head assembly has a hyperbolic reflector around it by the flashlight to increase reflected amount of light when a light source is positioned in the reflector. Preferably the hyperbolic reflector has an eccentricity value of not less than about 1.01 and not more than about 1.25. Preferably, the hyperbolic reflector has a peak curvature value of not less than about 2.0 and not more than about 7.0. In one arrangement, the hyperbolic reflector has an eccentricity value of approximately 1.04 and a vertex curvature value of about 3.3.

According to one another embodiment of the present invention is a flashlight with a hyperbolic Reflector paired with either a positive or convex lens, or with a flat or planar lens. In this regard, the focus is on and light-collecting properties of the flashlight increases when the hyperbolic reflector of the flashlight with a positive or flat lens paired becomes. Preferably, the hyperbolic reflector is with a lens with an effective focal length of not less than about 6.4 cm (2.5 '') matched. In a Arrangement is a hyperbolic reflector with an eccentricity value of approximately 1.04 and a vertex curvature of about 3.3 with a lens with an effective focal length of about 0 cm (0 '') matched.

According to one another embodiment of the present invention the flashlight electrode connections, the probability significantly reduce that electrical Energy is led by batteries that are wrong in the flashlight are aligned. In this regard, comprises the electrode connection designed around the negative pole To contact the battery, a non-conductive area in the center the electrode connection and a conductive area in the outer area of Electrode connection. Will a battery with the positive pole opposite the electrode connection inserted into the flashlight, so will the positive pole only contact the non-conductive region, not but the conductive region of the electrode connection. In addition, that includes for contact electrode connection designed with the positive pole of the battery a conductive spring with a non-conductive coating. Becomes a battery with the negative pole opposite the electrode connection inserted into the flashlight, so the negative pole only contact the non-conductive coated area.

In an embodiment of the present invention the lamp holder assembly a lamp socket with a lamp guide, the a guide for the Installation of the light bulb into the lamp socket and also provides a safe position of the bulb. According to one embodiment In the present invention, the guide facilitates the replacement of lamps under unwanted Lighting conditions and protects the lamp from impact shock when the flashlight shakes.

According to one embodiment of the present invention the flashlight is a lamp holder assembly that has a recess for Recording and mounting a replacement lamp includes. So is by simple Remove the head assembly from the chamber the spare light easily accessible, and to change the light bulb it is only necessary, the bulb from the lamp socket to remove, to take out the replacement lamp and the replacement lamp into the lamp socket. Preferably, the lamp holder assembly comprises a fluorescent coating or a fluorescent additive, the light emits in an otherwise dark environment, creating a Replacing the light bulb under unwanted Lighting conditions is simplified.

In another embodiment comprises the flashlight has a chamber for holding one or more batteries, a lamp, electrical connections for holding the lamp and optional electrically connecting the lamp to one or more batteries, and a head assembly attached to the chamber and with respect to Chamber is rotatable to cause the electrical connection optionally the lamp and one or more batteries accommodated in the chamber electrically coupled. In this regard, the lamp holder assembly moves inside the chamber, when the flashlight turns off or on. The lamp holder assembly comprises a lamp holder, a conductive spring, a switch plate, a locking lever, a locking ball, a switching contact, a Spring contact, a contact strip, and a strip holder. At the Assembly, the lamp holder assembly is detected axially and rotatable relative to the chamber. The head area of the flashlight is mounted to the chamber by the assembled head assembly is attached to the chamber so that the lamp within the first central opening the reflector is positioned. The result is the head assembly removably attached to the chamber. When the head assembly is completely seated, then it engages the switch plate and the rotation of the head assembly causes rotation of the lamp holder assembly. The lamp holder assembly is rotatable about three locks. The first occurs when the head assembly is removed or attached to the chamber. The second occurs when the head assembly is in the "off" position is. The third occurs when the head assembly is in the "on" position. The Arrests are effected by the Arretierungskugel in one of three recesses is positioned through the outer edge the chamber are formed. As a result, the flashlight is movable between the "on" and "off" locking positions by means of radial movements of the head assembly. In the "off" position the switch contact does not contact the contact strip. The switch contact contacts the contact strip in the "off" position. The "on" lock occurs on when the locking ball in a second recess on the outer edge the chamber rolls. It should be noted that the locking mechanism is physically is separated from the switching mechanism.

In another embodiment the flashlight becomes the replacement lamp through the lamp holder assembly held securely until the user of the flashlight the lamp holder assembly turns to a replacement bulb opening align with the replacement lamp.

In the drawings:

shows 1A a light beam expansion of a parabolic reflector with a positioned at the focal point of the reflector light source.

shows 1B a light beam expansion of a parabolic reflector with a defocused light source, which is located in 1/3 of the distance between the focal point and the vertex of the reflector curvature.

is 2 a perspective view of a flashlight according to the present invention.

is 3 an exploded perspective view showing the structure of the flashlight 2 shows.

is 4 an exploded side view of the end cap, the chamber, the lamp holder assembly and the head assembly.

is 5 a cross-sectional view of the flashlight along the center of the flashlight 2 , along the plane indicated by 2-2.

is 6A an exploded perspective view of the interior of the end cap.

is 6B a cross-sectional view of the end cap along the plane indicated by 2-2.

is 7A an exploded perspective view of the head assembly.

is 7B a partial cross-sectional view of the head assembly 7a along the plane marked 7-7.

is 8A an exploded view of the lamp holder assembly.

is 8B a partial cross section of the lamp holder assembly 8A along the plane indicated by 8-8.

are the 9A and 9B Cross-sectional views of the flashlight off 2 along the plane indicated by 2-2 showing aligned or misaligned batteries.

is 10 a perspective view of the lamp holder assembly positioned within the chamber.

is 11 a partial cross-section of the head portion of the flashlight 2 along the plane indicated by 2-2, which shows the flashlight in the "off" position.

is 12 a partial cross section of the head portion of the flashlight 2 along the plane indicated by 2-2, which shows the flashlight in the "on" position.

show the 13A and 13B the result of simulations of different eccentricity values.

show the 14A the lamp before it is inserted into the lamp socket.

shows 14B the lamp inserted in the lamp socket.

shows 14C a replacement bulb that has been removed from the recess that receives the replacement bulb.

is 15A a front view of the lamp holder assembly when the head assembly is removed from the chamber.

is 158 a front view of the lamp holder assembly when the head assembly is attached to the chamber.

is 16 an exploded perspective view showing the structure of the flashlight 2 with the alternative lamp holder assembly shows.

is 17 a side exploded view of the end cap, the chamber, the alternative lamp holder assembly and the head assembly.

is 18 a cross-sectional view of the flashlight with the alternative lamp holder assembly through the center of the flashlight 2 along the plane indicated by 2-2.

is 19 a partial cross-section of the head assembly 7A along the plane indicated by 7-7, which shows a different shaped guide to accommodate the alternative lamp holder assembly.

is 20 an exploded view of the alternative lamp holder assembly.

is 21 a partial cross section of the lamp holder assembly 20 along the plane marked 20-20.

is 22A a perspective view of the positioned in the chamber alternative lamp holder assembly, wherein in addition to the lamp holder assembly still the locking lever and the switch plate are shown.

is 22B a perspective view of the fully inserted into the chamber alternative lamp holder assembly.

22C is a side view of the perspective view 22A ,

is 23 a front view of the alternative lamp holder assembly (without the switch plate) at the second end of the chamber, wherein the position of the alternative lamp holder assembly is shown, in which the head assembly is capable of being attached to or removed from the second end of the chamber.

is 24 a front view of the alternative lamp holder assembly (without the switch plate) at the second end of the chamber, wherein the positions of the alternative lamp holder assembly is shown, in which the flashlight is in the "off" position.

is 25 a front view of the alternative lamp holder assembly (without the switch plate) at the second end of the chamber, wherein the position of the alternative lamp holder assembly is shown, in which the flashlight is in the "on" position.

is 26 a front view of the alternative lamp holder assembly (without the scarf terplatte) at the second end of the chamber, wherein the position of the alternative lamp holder assembly is shown, in which the replacement lamp is exposed.

is 27 a perspective view of the alternative lamp holder assembly, which is positioned within the chamber, wherein in addition to the lamp holder assembly, the locking lever and the switch plate are shown.

Referring to the 2 to 5 becomes a flashlight 10 according to an embodiment of the present invention shown with a chamber 20 , an end cap 30 , a head arrangement 40 and a lamp holder assembly 50 , The chamber 20 includes an interior area for holding two batteries 60 . 62 in a series arrangement, openings at a first end 210 and a second end 220 , a first at the first end 210 positioned O-ring 230 , as well as a second one at the second end 220 positioned O-ring 240 , Referring to the 6A and 6B includes the end cap 30 a curved tripod area 310 to the standing of the flashlight 10 on a flat surface to facilitate an internal thread 320 , as well as a conductive disc 330 , In addition, referring to the 7A and 7B includes the head assembly 40 a headboard 410 , a first O-ring 420 , a mount 430 , a reflector 440 , a second O-ring 450 , as well as a lens 460 , The headboard 410 includes a first end 411 , one in the headboard 410 at the first end 411 located annular tongue 412 , Guides 413 , a second end 414 , as well as within the header area 410 at the second end 414 positioned protrusions 415 , The reflector 440 includes a specular surface on the inside of the reflector 440 , a first central opening 442 , a substantially the first central opening 442 opposite second central opening 444 , Wings 446 and an external thread 448 , Preferably, the reflector consists 440 made of a durable plastic such as that offered by General Electric Company under the name / brand ULTEM. The mount 430 includes a first end 431 , Inner thread 432 at the first end 431 in the external thread 448 of the reflector 440 engage, an annular recess tongue 433 at the first end 431 , a second end 434 , as well as an annular tongue 435 at the second end 434 , The Lens 460 is located at the periphery of the first end 431 of the mount 430 , The exterior of the flashlight 10 consists of a metal or a durable plastic. For example, the exterior of the flashlight 10 made of a polycarbonate, or acrylonitrile-butadiene-styrene, or the polycarbonate offered by General Electric Company under the name / brand CYCOLOY.

In the 5 shown chamber 20 which are the two batteries 60 . 62 holds, is at the first end 210 through the end cap 30 closed and at the second end 220 through the head assembly 40 , Referring to the 4 - 8th is the end cap 30 at the first end 210 removable at the chamber 20 attached to the interior of the chamber 20 optionally uncover so that the batteries 60 . 62 can be inserted or removed. For this purpose, the chamber includes 20 a thread 250 on the outer surface of the first end 210 the chamber 20 to interact with the internal threads 320 on the end cap 30 , If the end cap 30 with the chamber 20 screwed, then causes the first O-ring 230 a cohesive cohesion.

The lamp holder assembly 50 includes two embodiments. In both embodiments, the lamp holder assembly is located 50 at the second end 220 the chamber 20 , In the first embodiment, the lamp holder assembly moves 50 not in the second end 220 the chamber 20 when the flashlight 10 "Off" - or "On" is switched. In this regard and with reference to the 8A and 8B includes the lamp holder assembly 50 a lamp holder 510 , a conductive spring 520 , a shift lever 530 , a second lever 540 , a switching spring 550 , a switching contact 560 , a second spring 570 , a spring holder 580 , a contact strip 590 and a last holder 592 , The spring holder 580 includes a spring tongue 582 , a first tongue 584 , a second tongue 586 as well as a conductive contact 588 , Preferably, the spring holder comprises 580 a recess 589 into which a hydrogen catalyst can be placed to remove from the batteries 60 . 62 to absorb emitted hydrogen gas. As in 10 shown extends the lamp holder assembly 50 when she enters the chamber 20 is inserted, not over the second end 220 the chamber 20 out. Referring to the 3 . 4 . 8A . 8B and 10 becomes the lamp holder assembly 50 at the chamber 20 mounted by first the conductive spring 520 on the spring holder 580 is attached. The spring holder 580 includes a spring tongue 582 which is in an area of conductive spring 520 engages and fixes it. Next are the spring holder 580 and the conductive spring 520 at the second end 220 the chamber 20 attached. For this purpose, includes the spring holder 580 a first tongue 584 and a second tongue 586 to get to the second end 220 the chamber 20 intervene. The chamber 20 includes an end guide 260 , and the final guide 260 includes a first recess tongue 262 to intervene in the first tongue 584 , as well as a second recess tongue 283 to engage in the second strip 586 , Referring to 10 becomes the attachment of the spring retainer 580 and the conductive spring 520 to the second end 220 causes by the spring holder 580 and the attached spring 520 in the first end 210 the chamber 20 be used and the spring retaining tion 580 towards the second end 220 the chamber 20 is moved until the first recess tongue 262 in the first tongue 584 engages and the second recess tongue 263 in the second tongue 586 intervenes.

Next is the lamp holder 510 in the second end 220 the chamber 20 used, the shift lever 530 and the second lever 540 in the lamp holder 510 are mounted. The lamp holder 510 includes tongues 511 , a switching gap 512 and a second slot 513 , The shifter 530 includes tongues 532 and recesses 534 , and the second lever 540 includes tongues 542 and recesses 544 , The recesses 534 the shift lever 530 fit in the switching gap 512 so that it's the shifter 530 is possible, along the switching slot 512 to glide. The recesses 544 of the second lever 540 fit in the second slot 513 so that it's the second lever 540 allows along the second slot 513 to glide. Referring to the 3 . 5 . 8A . 8B and 10 Next is the lamp holder 510 partly in the second end 220 the chamber 20 used by the switching slot 512 with the first slot-like opening 264 the final guide 260 is aligned, as well as the second slot 513 with the second slot-like opening 266 the final guide 260 , Once they are partially inserted, the shift lever will turn 530 and the second lever 540 on the lamp holder 510 spring loaded by the switching spring 550 and the second spring 570 be used and the recesses 534 the shift lever 530 with the switching slot 512 be aligned and engaged, and by the recesses 544 of the second lever 540 with the second slot 513 be aligned and engaged. With the shift lever depressed 540 and second lever 550 the lamp holder sits 510 completely in the second end 220 the chamber 20 , As a result, as in 10 shown the tongues 532 the shift lever 530 and the tongues 542 of the second lever 540 at points 514 in the chamber 20 one. As in 5 shown, the tongues grab 511 the lamp holder 510 into the interior of the chamber 20 one. Referring to the 3 . 8A and 10 engages the switching slot 512 in the recess tongue 265 the final guide 260 and the second slot 513 reaches into the recess tongue 267 the final guide 260 , Preferably, the lamp holder assembly snaps 510 in the chamber 20 one. Referring to 11 encloses the lamp holder 510 the spring tongue 582 , whereby the conductive spring 520 continue on the spring holder 580 is attached. Referring to 11 contacts the spring holder 580 not the interior of the chamber 20 , Referring to 10 the lamp extends 70 from the second end 220 the chamber 20 when the lamp 70 in the lamp holder assembly 50 is installed.

Referring to the 7A and 7B the head assembly is mounted by first the reflector 440 in the first end 431 of the mount 430 is inserted and the threads 448 of the reflector 440 with the internal threads 432 of the mount 430 be screwed. Next is the second O-ring 450 in the annular recess tongue 433 used and the lens 460 gets stuck at the mount 430 attached by the lens 460 in the annular recess tongue 433 is pressed. The O-ring 450 allows secure attachment between the lens 460 and the mount 430 , Preferably, the lens snaps 460 into the mount 430 one. Next is the first O-ring 420 over the annular tongue 435 at the second end 434 the version 430 placed, and the second end 434 of the mount 430 will be in the first end 411 of the headboard 410 used, with the wings 446 of the reflector 440 with the guides 413 of the headboard 410 are aligned. If the second end 434 the version 430 completely in the first end 411 of the headboard 410 is inserted, engages the annular tongue 434 of the mount 430 in the annular tongue 412 of the headboard 410 one, and the wings 446 of the reflector 440 grab the guides 413 of the headboard 410 one. The result is the version 430 only one turn with respect to the head part 410 allows (ie radial), but not a movement away from the headboard 410 (ie, axially).

Preferably, the socket snaps 430 in the headboard 410 one. Because the wings 446 of the reflector 440 in the guides 413 of the headboard 410 engage, the reflector moves 440 within the version 430 axially, if the socket 430 is moved radially.

The headboard of the flashlight 410 is mounted by the assembled head assembly 440 at the chamber 20 is attached, wherein the lamp holder assembly 50 so in the chamber 20 is mounted that the lamp 70 within the first central opening 442 of the reflector 440 is positioned. In this regard, the head assembly 40 at the second end 220 at the chamber 20 removably attached. The 10 and 15A show the lamp holder assembly 50 mounted in the chamber 20 when the head assembly from the chamber 20 is removed. The chamber 20 includes the end guide 260 placed on the outer surface at the second end 220 the chamber 20 is formed. Referring to the 3 and 10 includes the end guide 260 paths 261 in the projections 415 of the headboard 410 intervention. The projections 415 are with the paths 261 aligned and the head assembly 40 will be in the direction 287 led up to the head assembly 40 completely on the second end 220 the chamber 20 sitting. The head arrangement 40 will then be in the direction 288 rotated to a first lock, which is caused by the fact that the shift lever 530 between two of the guides 413 located. The flashlight 10 is in the "off" position in this position. In this position it becomes the head assembly 40 only possible with respect to the chamber 20 to rotate (ie radial), but it can not move away from the chamber 20 move (ie axially). The second O-ring 240 provides a firm connection between the head assembly 40 and the chamber 20 ready.

When fully assembled and the batteries 60 . 62 Keeps it clean is the flashlight 10 in the position, optionally the lamp 70 with the batteries 60 . 62 connect to. The chamber 20 includes a conductive strip 590 along the length of the chamber 20 between the first end 210 and the second end 220 , The contact strip 590 will be at the first end 210 the chamber 20 through the last holder 592 held. Referring to the 6A and 6B includes the end cap 30 a non-conductive area 340 , Referring to 8th is the leading disc 330 at the point 593 with the conductive strip 590 connected when the end cap to the chamber 20 is attached. The guiding disc 330 connects the negative contact of the battery 60 with the contact strip 590 when the battery 60 clean in the chamber 20 is aligned, as in 9A is shown. The non-conductive area 340 prevents an electrical connection when the battery 60 in the chamber 20 misaligned, as in 9B shown. In this regard contacted due to the opening 332 the positive contact of a misaligned battery 60 only the non-conductive area 340 but not the leading disc 330 , as in 6A shown.

The lamp holder assembly 50 optionally connects the lamp 70 electrically with properly positioned batteries 60 . 62 in accordance with the radial movement of the head assembly 40 , In 11 is the flashlight 10 shown in the "off" position. Referring to the 3 . 10 and 12 becomes the flashlight 10 moved to the "on" position by the head assembly 40 in the direction 288 is turned. The head assembly of the flashlight 10 Can be disassembled by the head assembly 40 from the "off" position in a direction opposite to 288 is rotated and the head assembly 40 along the paths 261 from the chamber 20 is replaced.

Referring to the 8th - 12 . 14A . 14B . 14C and 15 includes the 510 a lamp socket 515 to hold a lamp 70 with a first connection 72 , a second connection 74 and a lamp guide 516 , When the head portion of the flashlight 10 is mounted, so contacted the lamp guide 516 not the reflector 440 , In this regard, by the stopper 436 prevents the reflector 440 the lamp guide 516 contacted, as in 11 shown. The lamp guide 516 is a guide that makes it easier to get started 72 and the second port 74 the lamp 70 with the lamp socket 515 align when the lamp 70 will be installed. The lamp guide 516 also provides a safe position for the lamp 70 by placing part of the exterior of the lamp 70 is supported when the lamp 70 will be installed. This simplifies the lamp guide 516 replacing a lamp 70 under adverse lighting conditions, and protects the lamp 70 also from impact shocks from the reflector 440 when the flashlight 10 shaken. In addition, the lamp holder 510 capable of a replacement lamp 71 to pick up and hold. For this purpose, includes the lamp holder 510 a recess 517 that is suitable for the replacement lamp 71 take.

As in 15B shown is the replacement lamp 71 in the recess 517 through the tongue 532 the shift lever 530 covered when the head portion of the flashlight 10 is mounted. As in 15A shown is the replacement lamp 71 in the recess 517 through the tongue 532 the shift lever 530 released when the head assembly 40 from the chamber 20 Will get removed. Such is how in the 10 . 14A . 14B . 14C . 15A and 15B shown the replacement lamp 71 easily accessible when the head assembly 40 from the chamber 20 is removed, eliminating the from the lamp holder 510 held replacement lamp 71 is made available. In this regard, to replace the lamp 70 only required the lamp 70 from the lamp socket 515 to remove the replacement bulb 71 from the recess 517 to remove and the replacement lamp 71 into the lamp socket 52 use. Preferably, the non-conductive lamp holder comprises 510 a phosphorescent coating or phosphorescent additive that emits light in the dark, making it easier to replace the lamp under undesired lighting conditions. Referring to the 8A . 8B . 9A and 9B is the first connection 72 electrically with the switching spring 550 through the conductive contact 551 connected and the second connection 74 is electric with the spring 520 through the conductive contact 588 connected when the lamp 70 in the lamp holder assembly 50 is positioned. The conductive spring 520 includes a part 521 with a non-conductive coating and an extension 522 , As in 9A shown, contacted the tail 522 the positive pool of the battery 62 when the battery 62 right in the chamber 20 is aligned. As in 9B shown the part prevents 521 with a non-conductive coating making electrical contact with a misaligned battery 62 , In this regard, the negative pool contacts a misaligned battery 62 just egg a non-conductive region of the conductive spring 520 but not a conductive region, which prevents electrical connection and eliminates the possibility of a destructive event due to reverse polarization.

Referring to the 5 . 8A . 8B . 11 and 12 is the shift lever 530 movable between the "on" and "off" position when the head of the flashlight 10 is mounted. The shifter 530 includes a switching contact 560 with a border 561 , The switching contact 560 is electric with the switching spring 550 connected. In 11 is the flashlight 10 shown in the "off" position. In this position is the shift lever 530 completely outstretched, as the shift lever 530 between two of the guides 413 within the header 410 is positioned. It follows that the shift lever 530 the edge 561 not at the point 594 with the contact strip 590 combines. Furthermore, the shift lever provides 520 in fully extended position, a catch ready to the flashlight 10 in the "off" position to hold up the flashlight 10 is moved to the "on" position. In 12 is the flashlight 10 shown in the "on" position. In this position is the shift lever 530 Clenched as the shift lever 530 one of the guides 413 within the header 410 contacted. It follows that the shift lever 530 the edge 561 with the conductive strip 590 at the point 594 connects electrically. In the "on" position is the second lever 540 between two of the guides 413 within the header 410 positioned. In this regard, when the head assembly is rotated in the direction 288 from the "off" position, the second lever 540 none of the guides 413 contact more, and will stretch out completely, as the second lever 540 between two of the guides 413 within the header 410 is positioned. The second lever 540 Fully deployed, provides a catch to the flashlight 10 in the "on" position to hold up the flashlight 10 is moved to the "off" position. Preferably, the head assembly 40 is rotatable 30 degrees between the "off" and "on" positions.

The movement of the lamp 70 inside the reflector 440 about the lamp 70 emitting light to focus and defocus is independent of the radial movement of the head assembly 40 around the flashlight 10 "On" or "Off" to switch. During assembly, as in the 11 and 12 shown the lamp 70 inside the reflector 440 through the first central opening 442 of the reflector 440 positioned. So causes a rotation of the socket 430 concerning the head part 410 a movement of the reflector 440 within the version 430 axially with respect to the head part 410 , As a result, the reflector moves 440 concerning the lamp 70 , and such movement allows focusing of the lamp 70 emitted light by positioning the lamp 70 in the focal point of the reflector 440 , or a defocusing by movement of the lamp 70 away from the focus of the reflector 40 ,

As indicated above and with reference to FIGS 16 - 27 includes the lamp holder assembly 50 a second embodiment, namely the lamp holder assembly 500 that are in the second end 220 the chamber 20 moves when the flashlight 10 "Off" or "On" is switched. Referring to 20 For example, the lamp holder assembly includes a lamp holder 610 , a conductive spring 620 , a circuit board 630 , a locking lever 640 , a locking ball 650 , a switching contact 660 , a spring contact 670 , a contact strip 690 , as well as a last holder 692 , The lamp holder arrangement 500 gets to the chamber 20 mounted by first the conductive spring 620 on the lamp holder 610 is attached. The lamp holder 610 includes a spring tongue (not shown) formed in a part of the conductive spring 690 engages and holds, and the conductive spring 690 in contact with the spring contact 670 holds, as in 21 shown. Next, the lamp holder 10 and the attached conductive spring at the second end 220 the chamber 20 positioned. Referring to 18 includes the lamp holder 610 a tongue 612 for contacting a portion of the interior of the chamber 20 near the second end 220 at the area 614 , The positioning of the lamp holder 610 and the attached conductive spring 620 is effected by the lamp holder 610 and the attached spring 620 in the first end 210 the chamber 20 be used and the lamp holder 610 towards the second end 220 the chamber 20 it moves until the tongue 612 in the interior of the chamber 20 at the area 614 intervenes. The lamp holder 610 further comprises a tongue (not shown) provided with corresponding recesses (not shown) in the interior of the chamber 20 is aligned to ensure that the lamp holder 610 and the attached spring 620 right at the second end 220 the chamber 20 are positioned. The lamp holder 610 is in the 22A and 27 in their position at the second end 220 the chamber 20 shown.

In the 22A . 22B . 22C and 27 is the assembly of the lamp holder assembly 500 shown, with the lamp holder 610 at the second end 220 the chamber 20 exposed. In this regard, the Arretierungskugel 650 on the lamp holder 610 at the lead 611 positioned and next the locking plate 640 on the lamp holder 610 positioned with the Arretierplatttenkugelöffnung 642 on the locking ball 650 is positioned and the recesses 644 With the threaded openings 612 on the lamp holder 610 are aligned. Next is the circuit board 630 with the openings 631 aligned with the threaded holes 612 positioned. The lamp holder assembly 500 is fully assembled by passing screws (not shown) through the openings 631 be used, the screws with the threaded holes 612 be bolted and the circuit board 630 on the lamp holder 610 is attached. As a result, the lamp holder assembly is 500 axially fixed and at the second end 210 the chamber 20 rotatable.

As described above and with general reference to 18 becomes the head part of the flashlight 10 mounted by the assembled head assembly 40 at the chamber 20 is attached, wherein the lamp holder assembly 500 so in the chamber 20 is built in, that the lamp 70 within the first central opening 442 of the reflector 440 is positioned. This is the head assembly 40 removable at the chamber 20 at the second end 220 attached. 22B shows the lamp holder assembly 500 installed in the chamber 20 when the head assembly 40 from the chamber 20 Will get removed. The chamber 20 includes the end guide 260 placed on the outer surface of the second end 220 the chamber 20 is formed. The final tour 260 includes paths 261 which the projections 415 on the headboard 410 pick up and run when the head assembly 40 at the chamber 20 is attached and removed from it. The projections 415 are with the paths 261 aligned and the head assembly 40 gets in the direction 287 guided until the head assembly 40 completely on the second end 220 the chamber 20 sitting. The removal of the head assembly 40 is effected by the head assembly 40 in the opposite direction 287 is moved until the head assembly 40 is removed. 23 shows the position of the lamp holder assembly 500 (without circuit board), when the head assembly 40 is able to at the chamber 20 attached or removed from it. Referring to the 23 and 27 the lamp holder assembly is positioned at a first detent caused by the detent ball 650 in a first recess 652 at the outer edge of the chamber 20 at the second end 220 is positioned.

After complete insertion, the guides grip 413 the head assembly 40 in the recesses 634 on the circuit board 630 and the rotation of the head assembly 40 causes the lamp holder assembly 500 is turned. The head arrangement 40 will then be in the direction 288 rotated until a second lock, which is caused by the locking ball 650 in a second recess 652 at the outer edge of the chamber 20 at the second end 220 is positioned. The flashlight 10 is in the "off" position in this position. 24 shows the position of the lamp holder assembly 500 (without circuit board), when the head assembly 40 is in the "off" position. In this position is the head assembly 40 only one turn with respect to the chamber 20 (ie radial) but not movement away from the chamber 20 (ie, axially). The head area of the flashlight 10 can be removed by the head assembly 40 from the "off" position in a direction opposite to 288 is rotated until in a first lock, and by the head assembly 40 from the chamber 20 along the paths 261 is replaced.

When fully assembled and the batteries 60 . 62 be held in proper alignment, so is the flashlight 10 capable of optionally electrical connection of the lamp 70 with the batteries 60 . 62 manufacture. Referring to 20 includes the chamber 20 a contact strip 690 along the length of the chamber 20 , between the first end 210 and the second end 220 , The contact strip 690 will be at the first end 210 the chamber 20 through the last holder 692 held. The lamp holder assembly 500 optionally connects the lamp 70 electrically with properly positioned batteries 60 . 62 according to the radial movement of the head assembly 40 , Referring to 21 becomes the first connection 72 electrically with the switching spring 620 by switching contact 670 connected, and the second connection 74 becomes electrically with the switching contact 660 connected when the lamp 70 in the lamp holder assembly 500 is positioned. Referring to the 16 - 22 is the flashlight 10 movable between the "on" and "off" positions by radial movement of the head assembly in the direction 288 , As in 24 shown, contacted the switching contact 660 in the "off" position, the contact strip 690 Not. As in 25 shown, contacted the switching contact 660 the contact strip 690 , In this regard, upon rotation of the lamp holder assembly 500 also the head arrangement 40 in that direction 288 turned. The "on" lock occurs when the locking ball is in a third recess 652 on the outer edge of the chamber 20 at the second end 220 rolls. It should be noted that the locking mechanism is physically separate from the switching mechanism. Preferably, the head assembly 40 is rotatable 30 degrees between the "off" and "on" positions. The movement of the lamp 70 inside the reflector 440 to the one from the lamp 70 To focus and defocus emitted light is independent of the radial movement of the head assembly 40 to the flashlight 10 as described above "On" or "Off" to switch.

The replacement lamp 71 is through the circuit board 630 secured until the user of the flashlight 10 the lamp holder assembly 50 turns to the replacement bulb opening 632 with the replacement lam pe 71 align. Referring to 23 becomes the lamp holder assembly 500 (without circuit board) shown in the position in which the head assembly 40 from the chamber 20 Will get removed. From this position, the replacement lamp opening 632 with the replacement lamp 71 by rotation of the lamp holder assembly in the direction opposite to the direction 288 aligned. 26 shows the position of the lamp holder assembly 500 (without circuit board), when the replacement lamp opening 632 with the replacement lamp 71 is aligned. Once aligned, the replacement lamp is 71 from the lamp holder assembly 500 removable.

It should be noted that the reflector 440 and lens 460 Combining an improved collection of light from the lamp 70 , an optimal focus and minimum light rims from the reflector 440 projected light over the entire range of movement of the lamp 70 inside the reflector 440 allows. In this regard, in one embodiment of the present invention, not parabolic reflectors, but conical reflectors 440 used.

The crown curvature (ie the actual shape) of the reflector 440 is determined using the following equation for a Cartesian vertex coordinate system: f (r) = Cr 2 / (1 + √ (1 - SC 2 r 2 )), (1.1) where C is the crown curvature, r is the radial distance from the cylindrical center of the optic, and where S is one minus the square of the eccentricity. In this regard, it has been found that the use of non-parabolic reflectors minimizes the halo visible when a parabolic reflector is used, as in 1B shown. In addition, it has also been found that tuning non-parabolic reflectors with appropriate lens curvatures has optimized the direction of the beams emitted by the non-parabolic reflector. For elliptical reflectors (ie, 0 <eccentricity <1), it was found that the use of a negative or flat lens caused a more uniform and intense beam pattern when the light source was positioned at the optimum optical focus. For hyperbolic reflectors (ie, eccentricity> 1), it was found that the use of a positive or flat lens caused a more uniform and intense beam pattern when the light source was positioned at the optimum optical focus.

Referring to the in the 13A and 13B As shown in the tables, a series of simulations was performed using Equation 1.1, where the eccentricity ranged from 0.8 to 1.25. The criteria for in the 13A and 13B The results shown were as follows: (i) a reflector aperture (ie, the size of the second central aperture 49 of the reflector 44 3.6512 cm (1.4375 "); (ii) a reflector aperture (ie the size of the first central aperture 48 of the reflector 44 0.48 cm (0.19 "); (iii) a maximum illuminated spot size of 7.4 x 10 ¹ cm (29 '') from the flashlight 10 to be lit at a distance of 3.05 m (120 ''); (iv) a minimum halo throughout the focusing area (ie movement of the lamp 70 along the optical axis of the reflector 440 from about the focal point of the reflector to the point where the lamp is 70 from the reflector 440 at either the first central opening 442 for an elliptical reflector, or at the second central opening 444 for a hyperbolic reflector); (v) a maximum range of movement of the lamp 70 not more than about 0.64 cm (.25 '') over the entire focusing range; (vi) a minimum swept angle of light collected by the reflector of about 100 degrees; and (vii) a lens having an effective focal length of not less than -6.4 cm (-2.5 ").

For any given eccentricity and lens combination, the peak curvature was adjusted to achieve the minimum focused spot size and minimum yard in the entire focus area and the maximum swept angle of light through the reflector 440 is achieved to reach. This was done for each eccentricity value by taking a set of lenses with effective focal lengths of not less than the absolute value of about 6.4 cm (2.5 "), simulations were performed in which the apex curvature was increased until no more awning occurred lamp 70 completely defocused (ie the lamp 70 exits the reflector 440 either at the first central opening 442 for an elliptical reflector, or at the second central opening 444 for a hyperbolic reflector). The value of the apex curvature has not been increased further than is reasonably required for a distance of the yard, because a further increase in the apex curvature increases the magnification potential of the light beam of the lamp 70 decreased when the lamp 70 from the focal point of the reflector 440 was moved out.

In view of these simulations and the specified criteria, the elliptical reflector preferably has an eccentricity value of not less than about .80 and not more than about .99. Preferably, the elliptical reflector has a peak curvature value of not less than about 2.0 and not more than about 5.2. In one arrangement, the elliptical reflector has an eccentricity value of about .96 and a vertex curvature of about 3.1. In an embodiment Game of the present invention is a flashlight 10 paired with an elliptical reflector with a negative or flat lens. Preferably, an elliptical reflector is mated with a lens having an effective focal length of not more than about -6.4 cm (-2.5 ") and not more than about 0 cm (0"). In one arrangement becomes an elliptical reflector 44 with an eccentricity value of about .96 and a vertex curvature of about 3.1 with a lens 45 matched, having an effective focal length of about 0 cm (0 '').

According to another embodiment of the present invention, the head assembly comprises 40 a hyperbolic reflector. Preferably, the hyperbolic reflector has an eccentricity value of not less than about 1.01 and not more than about 1.25. Preferably, the hyperbolic reflector has a peak curvature value of not less than 2.0 and not more than about 7.2. In one arrangement, the hyperbolic reflector has an eccentricity value of about 1.04 and a vertex curvature of about 3.3. In another embodiment, a flashlight is fitted with a hyperbolic reflector having a positive or flat lens. Preferably, a hyperbolic reflector is mated with a lens having an effective focal length of not less than about 6.4 cm (2.5 "). In one arrangement becomes a hyperbolic reflector 440 with an eccentricity value of about 1.04 and a vertex curvature of about 3.3 with a lens 460 matched, having an effective focal length of about 0 cm (0 '').

Claims (6)

Flashlight ( 10 ) comprising: a chamber device ( 20 ) for receiving at least one battery ( 60 . 62 ); a lamp ( 70 ); an electrical connection device ( 510 ) for holding the lamp and for selectively electrically connecting the lamp to the at least one battery ( 60 . 62 ) from the chamber device ( 20 ) is included; a head piece ( 410 ) attached to the chamber device ( 20 ) and only radially rotatable with respect to the chamber device ( 20 ); a reflector ( 440 ) for reflecting the light from the lamp; and a mount ( 430 ) attached to the header ( 410 ) is fixed, wherein the enclosure ( 430 ) rotatable with respect to the head piece ( 410 ) is to the reflector ( 440 ) to move axially with respect to the chamber; and wherein the head piece ( 410 ) is rotatable about the electrical connection means ( 510 ), optionally the lamp with the at least one battery ( 60 . 62 ) from the chamber device ( 20 ) is electrically connected, characterized in that the enclosure ( 430 ) with respect to the head piece ( 410 ) is exclusively radially rotatable. Flashlight ( 10 ) according to claim 1, wherein the enclosure ( 430 ) in a first direction with respect to the chamber device ( 20 ) is rotatable about the reflector ( 446 ) from the chamber device ( 20 ) and rotatable in a second direction with respect to the chamber device ( 20 ) is to the reflector ( 440 ) on the chamber device ( 20 ), the headpiece ( 410 ) with respect to the chamber device ( 20 ) is rotatable to cause the electrical connection means, optionally the lamp with the one or more batteries ( 60 ) from the chamber device ( 20 ) are electrically connected. Flashlight ( 10 ) according to claim 2, wherein the connection means comprises: a lamp holder means for holding the lamp; and wherein the rotation of the head assembly with respect to the chamber means ( 20 ) causes the lamp holder assembly to rotate to cause the device to selectively electrically connect the chamber lamp and cause the chamber means to electrically connect the lamp and the at least one battery. Flashlight ( 10 ) according to claim 1, wherein the flashlight further comprises: a locking device, which provides a first locking position, in which the head piece ( 410 ) and in which it can be removably attached; the headpiece ( 410 ) is rotatable to the first locking position to the electrical connection means ( 510 ), optionally the lamp ( 70 ) and the at least one battery ( 60 . 62 ) from the chamber device ( 20 ) is connected to electrically connect; and wherein the locking device structurally independent of the electrical connection device ( 510 ). Flashlight ( 10 ) according to claim 1, wherein the flashlight further comprises: a locking device, which provides a first locking position, in which the head piece can be rotated and in which it can be removably attached; wherein the head piece is rotatable in the first locking position to the electrical connection means ( 510 ), optionally the lamp ( 70 ) and the at least one battery ( 60 . 62 ) from the chamber device ( 20 ) is connected to electrically connect; wherein the locking device is a structural part of the electrical connection device ( 510 ). Flashlight ( 10 ) according to claim 1, which is adapted to be portable and can be held by hand, and wherein the chamber means ( 20 ) a first opening for receiving one or more batteries ( 60 ) having; and a second opening disposed substantially opposite the first opening and further comprising: an end cap ( 30 ) removably connected to the chamber for selectively covering or releasing the first opening, the lamp comprising a light bulb ( 70 ) having; and means for holding the bulb, which means is received in the chamber at the second opening, the connection means ( 510 ) optionally the means for holding the bulb with one or more batteries ( 60 ), which are received by the chamber, connects, and the reflector ( 440 ) is a conical reflector having a first central opening and a second central opening substantially opposite to the first central opening and having an inner region defining from the space between the first central opening and the second central opening is.