A butane fuel supply container for a cooking stove, the container has a thin side wall held rigid by the vapor pressure of the fuel, but the side wall can be finger deformed when the can has been depressurized or hand crushed with the exit valve of the container open, the vapor therein being expelle
A butane fuel supply container for a cooking stove, the container has a thin side wall held rigid by the vapor pressure of the fuel, but the side wall can be finger deformed when the can has been depressurized or hand crushed with the exit valve of the container open, the vapor therein being expelled as the container is deformed or crushed. The vapor tube has a vapor entrance in the vapor pocket above the pool of liquid fuel when the container is correctly oriented in the stove. The vapor tube passes vapor through a valve at the dome of the container.
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A butane fuel supply container for a cooking stove, the container has a thin side wall held rigid by the vapor pressure of the fuel, but the side wall can be finger deformed when the can has been depressurized or hand crushed with the exit valve of the container open, the vapor therein being expelle
A butane fuel supply container for a cooking stove, the container has a thin side wall held rigid by the vapor pressure of the fuel, but the side wall can be finger deformed when the can has been depressurized or hand crushed with the exit valve of the container open, the vapor therein being expelled as the container is deformed or crushed. The vapor tube has a vapor entrance in the vapor pocket above the pool of liquid fuel when the container is correctly oriented in the stove. The vapor tube passes vapor through a valve at the dome of the container. to detect the presence of said structure more easily, which in turn allows said animals to re-direct their paths and avoid colliding with said structure. 3. The apparatus of claim 2, wherein: said structures are wind turbines; and said moving elements are rotor blades. 4. The apparatus of claim 3, wherein: said animals are birds. 5. The apparatus of claim 2, wherein: said stripes are staggered on said plurality of moving elements such that each stripe is in a different location than the other stripes on any of said plurality of moving elements. 6. The apparatus of claim 2, wherein: said stripes are staggered on said plurality of moving elements such that each stripe is in the same location as the other strip on any of said plurality of moving elements. 7. The apparatus of claim 2, wherein: said stripes are located on one moving element only; and said other moving elements are blank. 8. An apparatus for altering retinal velocity in animals, comprising: a structure having a plurality of moving elements, said moving elements creating a retinal image in eyes of said animals; said retinal image having a retinal velocity; and a pattern on at least one of said moving elements for altering said retinal velocity in said animals, said pattern is comprised of a plurality of thin stripes, said thin stripes are located on one moving element only; and said other moving elements are blank; wherein said retinal velocity allows said animals to detect the presence of said structure more easily, which in turn allows said animals to re-direct their paths and avoid colliding with said structure. 9. A method for causing behavioral modifications in animals by altering retinal responses to stimuli, comprising the steps of: providing said animals with eyes capable of having said retinal responses; providing said stimuli before said eyes, said stimuli having adjustable parameters and creating said retinal responses in said eyes; measuring and evaluating said retinal responses of said eyes; adjusting said parameters of said stimuli before said eyes and repeating said step of measuring and evaluating said retinal responses of said eyes; designating optimal retinal responses from said measured and evaluated retinal responses; determining parameters of said stimuli for said optimal retinal responses; duplicating said parameters of said optimal retinal responses on various types of stimuli which said animals will encounter; and wherein said stimuli having said duplicated parameters of said optimal retinal responses allow said animal to more quickly and accurately perceive said stimuli having said duplicated parameters causing said animal to modify its behavior. 10. The method of claim 9, wherein: said animals are avians; said stimuli are markings on wind turbines; wherein said markings having parameters of said optimal responses will cause said avians to alter their behavior in response to seeing said markings on any stimuli. 11. The method of claim 10, wherein: said parameters are at least one of: a) size of said stimuli, b) shape of said stimuli, c) color of said stimuli, d) frequency of said stimuli, e) location of said stimuli, f) velocity of said stimuli, g) retinal velocity of said stimuli, h) distance from a center of said stimuli to its perimeter, i) number or amount of said stimuli, and j) distance of said stimuli from said eyes; wherein said markings causing optimal retinal response will allow said avians to acknowledge said wind turbines quicker than they would without said markings and modify their behavior. 12. A method for detecting and altering motion smears in animals, comprising the steps of: providing said animals with eyes capable of having said motion smears; providing a stimuli before said eyes, said stimuli having adjustable parameters and creating said motion smears in said eyes; measuring and evaluating said motion smears; adjusting said parameters o
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Horewitch Richard L. (2063 22nd Ave. San Francisco CA 94116), Burner assembly for heating chafing dishes.
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