Bi-metallic test switch

Electricity: measuring and testing – Electrolyte properties – Using a battery testing device

Reexamination Certificate

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Reexamination Certificate

active

06822456

ABSTRACT:

TECHNICAL FIELD
The invention relates to low cost, disposable test switches. More specifically, the invention relates to low cost, disposable test switches for use by consumers to determine an electrical characteristic of a battery-operated device.
BACKGROUND OF THE INVENTION
Low cost test switches have recently become available so that consumers can verify a characteristic of an electronic device such as a battery. “Test strips” are presently available which permit a consumer to determine the level of charge on a battery (e.g. AA size, AAA size, etc.) by depressing a strip, often integrated into the battery packaging, against the positive and negative terminals of the battery. A current flows through the strip generating heat. A thermochromic material within the strip then changes color to indicate the charge on the battery. U.S. Pat. No. 6,054,234 to Weiss et al. and U.S. Pat. No. 5,925,480 to Shacklett III, et al., the disclosures are incorporated herein by reference, disclose devices and techniques for making battery test strips which illustrate the state of the art with respect to this technology. While devices of this type are useful for their intended purpose, they are not suitable for testing an electronic device which is connected to the battery.
In the consumer flashlight art, consumers often desire to test the flashlight prior to its purchase. Many such flashlights are offered for purchase with batteries already installed. Provided that the flashlight is provided with a momentary on/off switch of the pushbutton type, manufactures often provide packaging which permits operation of the momentary pushbutton switch through the packaging so as to permit consumers to perform such examinations of the flashlight. Traditionally, flashlights of this type have utilized one or more dry cells in series with an incandescent bulb, all contained within a plastic or metallic housing.
Recent advances in semiconductor technology have provided artisans in this area of technology with the opportunity to use light-emitting diodes (hereinafter occasionally “LEDs”) as a primary light source and substitute for an incandescent bulb. LEDs are far more efficient with respect to current consumption as compared to incandescent bulbs. Due to this increased efficiency, it has ben possible to replace the standard plurality of “D” cells, “AA” cells, or the like with so-called “button cells” having a small discoid shape. An early example of a convenience flashlight of this type is disclosed in U.S. Pat. No. 5,386,351 to Tabor, issued on Jan. 31, 1995, entitled “Convenience Flashlight.” The disclosure of the Tabor patent is incorporated herein by reference. The device disclosed by Tabor has a two-piece, snap-fit case containing a discoid battery, an LED, and a pushbutton penetrating one of the snap-shut case halves. As is well known by those of ordinary skill in the electronics art, LEDs have two legs. One leg is connected to the anode of the LED, while the remaining leg is connected to the cathode. Tabor advantageously positions one of the LED legs adjacent to one side (i.e., one terminal) of the button battery while the resilient nature of the remaining leg resides in a normally spaced-apart relationship from the other side (i.e., other terminal) of the battery. The pushbutton is used to depress this remaining leg against the other terminal of the button battery, thereby completing the electrical circuit and illuminating the LED. Releasing pressure from the button permits the LED leg to resiliently resume its initial position out of contact with the other terminal of the button battery, thereby breaking the electrical circuit and extinguishing the LED. Convenience flashlights of the type disclosed in Tabor can be advantageously tested by the consumer at the point of purchase, even if the product is packaged, providing that the packaging permits the consumer to depress the button.
A more advanced version of a convenience flashlight employing a button cell battery and an LED illumination source is disclosed by Allen, the inventor herein, in International Publication No. WO 01/77575 A1 published on Oct. 18, 2001, entitled “Portable Illumination Device.” The Allen device incorporates a microprocessor, or micro controller circuit, into the LED/battery/pushbutton circuit to provide the illumination device with enhanced features, including a blinking mode, an automatic off mode, a low power mode, etc. These factors are all controlled by sequential depression of the pushbutton from the logical operation of the microprocessor or micro controller. One disadvantage of the device disclosed by Allen as compared to the device disclosed by Tabor is that although modern microprocessors or micro controllers have relatively low current drains even while in a “sleep mode” (i.e., while not performing any logic functions) the quiescent current drains of such devices are nonzero. Thus, a button cell LED-type personal flashlight, which might ordinarily have a shelf life of over ten years, may only have a shelf life of approximately two to three years if such device incorporates a modern microprocessor or micro controller. To avoid this result, the manufacturers of devices such as the portable illumination device disclosed in the Allen International Publication may insert a strip of insulating material between one terminal of the button cell battery and an electrical contact of the micro controller, microprocessor, or other circuit element to prevent the circuit from being completed. Upon purchasing the device, the consumer merely removes this insulating strip to render the device functional. If the device is provided with a clamshell-like, snap-fit case, often the insulating strip can be removed from the device with a sharp tug on a free end of the insulating strip without opening or closing the device case.
Although the aforementioned insulating strip solves the problem of undesirable current drain while personal illumination devices of the type described are on store shelves, the insulating strip prevents consumers from being able to test the personal lighting device while the device is in its packaging. This result is undesirable from a marketing point of view.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a low cost, temporary switch for installation in battery-powered devices which may be actuated by a consumer while the device is in its packaging for testing of the device.
It is a further object of the present invention to provide for a temporary test switch which achieves the above object and which also is readily removable by the consumer after the device has been purchased and removed from its packaging.
It is yet another object of the present invention to provide for a test switch which achieves the above objects and which is also inexpensive to manufacture and easy to use.
The invention achieves the above objects, and other objects and advantages which will be apparent from the description which follows, by providing a low cost, convoluted test strip for testing a battery-powered device. The strip is positionable between terminals of a power supply circuit incorporating the battery. As used herein, the term “battery” encompasses any self-contained power source, such as dry cells, wet cells, fuel cells, or any other device of similar type which may be hereinafter devised. The test strip of the present invention incorporates an elongated, insulating layer defining upper and lower sides. Conductive material is applied on the upper side and the lower side, but the upper and lower sides are not normally in electrical conduction with each other. One portion of the strip is preferably placed in the electrical circuit of a portable, battery-powered device to inhibit electrical conduction through the device. Another end of the strip is provided with a convolution such that a portion of the lower conductive surface is suspended in a spaced-apart relationship with respect to an adjacent portion of the upper surface. Nevertheless, the juxtaposed upper and lower conductive surfaces

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