초록 ▼

A personal alarm light operates as a multi-purpose emergency tool having a power pack of batteries powering a white light beam, as well as a radially emanating red light ring. An audible alarm has a loud, typically high-pitched oscillating sound. A resonance chamber amplifies the sound, which emanat

A personal alarm light operates as a multi-purpose emergency tool having a power pack of batteries powering a white light beam, as well as a radially emanating red light ring. An audible alarm has a loud, typically high-pitched oscillating sound. A resonance chamber amplifies the sound, which emanates from apertures delivering sound radially away from the resonance chamber. Crowns on each end of the tool provide regions of reduced area and alternating relieved sections about the circumference thereof, in order to provide increased impact pressure from the points when used as hammers to break glass, or as strikers to cut through fabric or other sheet materials.

대표청구항 ▼

1. A tool comprising: a base containing a closure and a plurality of points;a crown having alternating reduced axial cross sectional area and axial relief around the circumference thereof;a body configured to support a power source of power portable therewith, and secured to be closed by the base;a

1. A tool comprising: a base containing a closure and a plurality of points;a crown having alternating reduced axial cross sectional area and axial relief around the circumference thereof;a body configured to support a power source of power portable therewith, and secured to be closed by the base;a head attached for securing the power source within the body and containing a light source powered by the power source, wherein the head also includes a lens oriented to transmit light from the light source in an axial direction, and a translucent window formed as a ring, extending around the head, such that the window transmits light from the light source in a radial direction;a coupler connected to the base, the coupler comprising a first bulkhead and a second bulkhead to form a resonance chamber with the coupler, the first and second bulkheads spaced a selected distance apart;a transducer operably connected to the resonance chamber to generate a frequency forming an audible alarm;at least one of the head, body, and base further containing an actuator; andat least one of the head, body, and base further containing a controller operably connected to the power source, the transducer, the light source, and the actuator for actuating the light source and the transducer in response to an actuation procedure executed through the controller by operation of the actuator;wherein the resonance chamber comprises at least one aperture allowing radial emanation of sound. 2. The tool of claim 1, wherein the window transmits light, from the light source, as red light. 3. The tool of claim 1, further comprising a collar connected to at least one of the head and the base, wherein the collar has flats integrally formed therein. 4. The tool of claim 1 wherein the light source is a light-emitting diode. 5. A tool comprising: a base containing a closure, an audible alarm, and a plurality of points;a tubular coupler connected to the base for amplifying the sound of the alarm, the coupler comprising a first bulkhead and a second bulkhead forming a resonance chamber, the first and second bulkheads being spaced a selected distance apart to optimize a particular frequency generated by a transducer, the transducer being operably connected to the resonance chamber to broadcast sound radially from an aperture in the resonance chamber;a crown having scalloped relief around the circumference thereof;a body configured to support a source of power portable therewith, and secured to be closed by the base;a head attached for securing the power source within the body and containing a light source powered by the source, wherein the head further comprises a collar connected to the head with flats integrally formed in the collar, a lens oriented to transmit light from the light source in an axial direction, and a translucent window formed as a ring, extending around the head, such that the window transmits light from the light source in a radial direction;at least one of the head, body, and base further containing an actuator; andat least one of the head, body, and base further containing a controller operably connected to the power source, the alarm, the light source, and the actuator for actuating the light source and alarm in response to an actuation procedure executed through the controller by operation of the actuator. 6. A method comprising: providing a tool having a light source, an audible alarm allowing radial emanation of sound in the range of human hearing, a body, an actuator, a power supply, a controller operably interconnected with the actuator and the power supply, a transducer, and a resonance chamber, the resonance chamber comprising a coupler, a first bulkhead, and a second bulkhead, the first and second bulkheads spaced a selected distance apart and connected to the coupler to optimize a particular frequency generated by the transducer, wherein the transducer is operably connected inside the resonance chamber and the resonance chamber includes at least one aperture to allow radial emanation of sound from the resonance chamber;activating the light source by the controller to operate continuously in response to a first procedure applied to the actuator; andactivating the alarm by the controller to operate in an alarm mode in response to a second procedure, distinct from the first procedure, applied to the actuator; andactivating, by the controller, the light source in an intermittent alarming mode coincident with operation of the alarm. 7. The method of claim 6, further comprising: the providing the tool, further comprising a plurality of points integrally formed with at least one of a head and a base of the tool; andhammering an object with the plurality of points. 8. The method of claim 6 wherein the activating the light source produces a red, strobing light. 9. The method of claim 6, further comprising: activating the alarm with the use of the resonance chamber. 10. The method of claim 9 wherein the activating the alarm produces a sound of from about 80 to 120 decibels. 11. The method of claim 9 wherein the activating the alarm produces a sound above the frequency range of a human voice. 12. The method of claim 9, further comprising: tossing the tool a short distance to avoid a confrontation. 13. The method of claim 9, further comprising: signaling to a passerby by at least one of a light from the light source and a sound from the alarm.