Patent Application
20080110073
The present invention relates generally to a shot counter for a weapon, and particularly to a shot counter that links to an existing indicator mechanism of the weapon (e.g., round-in-the-chamber indicator) so that the existing indicator serves as a shot counter as well.
There are many devices used to indicate if a round is in a chamber of a handgun. For example, U.S. Pat. Nos. 6,857,213, 6,785,994, 6,622,411, 6,493,977, 6,161,322, 6,256,915, 5,926,987, 5,826,360, 3,997,994 and 6,094,850 have various designs for round-in-the-chamber indicators, wherein a lever springs up (typically from the slide or upper portion of the handgun) when a round is in the chamber.
The XD model handgun of Springfield Armory has two indicators—a striker status (cocked) indicator and a loaded chamber indicator. The loaded chamber indicator is a small button, just above the breech on top of the gun's slide, which pops up (by means of mechanical action) when a round is in the chamber. The button does not interfere with the shooter's line of sight, but is high enough to be seen easily, or felt by hand (e.g., for use in the dark). The striker status indicator works much the same way (spring-loaded mechanical action), but is located on the rear face of the slide, so the shooter can instantly tell whether or not the gun is cocked. The striker status indicator pops rearward out of the rear face of the slide when the gun is cocked and is flush with the rear face of the slide when the gun is not cocked.
The present invention seeks to provide a shot counter that links to an existing indicator mechanism of the weapon (e.g., round-in-the-chamber indicator) so that the existing indicator serves as a shot counter as well, as is described in detail further hereinbelow.
There is thus provided in accordance with an embodiment of the present invention a method including sensing movement of an existing non-shot-indicator of a handgun, and interpreting a sensed movement of the existing non-shot-indicator as a shot fired from the handgun so that the sensed movement serves as a shot counter for the handgun.
The method can include one or more of the following features. For example, the existing non-shot-indicator of the handgun may include a round-in-the-chamber indicator, wherein the sensed movement of the round-in-the-chamber indicator is interpreted as a shot fired from the handgun. As another example, the existing non-shot-indicator of the handgun may include a striker status indicator, wherein the sensed movement of the striker status indicator is interpreted as a shot fired from the handgun. An accessory may be positioned to come into contact with an element of the non-shot-indicator, wherein sensing movement of the existing non-shot-indicator may include sensing the element of the non-shot-indicator moving into contact with the accessory. The element of the non-shot-indicator may move into mechanical contact with the accessory and cause a portion of the accessory to move and indicate a shot has been fired. The element of the non-shot-indicator may move into electrical contact with the accessory and close a circuit, wherein closure of the circuit indicates a shot has been fired.
Alternatively, sensing movement of the existing non-shot-indicator may be by means of an optical sensor, accelerometer, capacitance sensor or Hall effect sensor. Upon compression of the recoil spring, the Hall effect sensor senses a change in magnetic field that is a function of proximity of the coils to one another.
There is also provided in accordance with an embodiment of the present invention a method including sensing movement of a recoil spring of a handgun, and interpreting a sensed movement of the recoil spring as a shot fired from the handgun so that the sensed movement serves as a shot counter for the handgun.
For example, sensing movement of the recoil spring may include sensing compression of the recoil spring, wherein compression of the recoil spring indicates a shot has been fired. The compression of the recoil spring may be sensed by electrical contacts, wherein upon compression of the recoil spring, the electrical contacts come into contact with one another and close a circuit, wherein closure of the circuit indicates a shot has been fired. Alternatively, compression of the recoil spring may be sensed by an optical sensor, accelerometer, capacitance sensor or Hall effect sensor.
The present invention will be understood and appreciated more fully from the following detailed description taken in conjunction with the drawings in which:
In accordance with an embodiment of the present invention, an existing non-shot-counter indicator of a handgun is exploited and turned into an extra indicator, namely, a shot counter which indicates the number of shots fired by the weapon. Non-limiting examples of existing non-shot-counters are a striker status (cocked) indicator and a loaded chamber indicator, such as those found on the Springfield Armory XD models, or a firearm safety indicator device.
The present invention is distinguished in one respect from the prior art by using existing non-shot-counters or indicators as opposed to other moving parts of the handgun. For example, it is known in the prior art to use the movement of the slide to actuate a shot counter. However, the slide is of course not an indicator or a counter (the terms counter and indicator being used interchangeably); the present invention provides a different concept.
Reference is now made to
Reference is additionally made to
It is noted that in the case of using the loaded chamber indicator 16, the shot counter 20 actually counts the number of cartridges going in and out of the chamber, which is not necessarily the true number of bullets that exit the muzzle. Likewise, in the case of using the striker status indicator 18, the shot counter 20 actually counts the number of times the striker moved or the handgun 10 was cocked, not necessarily the true number of bullets that exit the muzzle. Nevertheless, for many purposes, a less than 100% accurate and foolproof shot counter is definitely adequate.
The method may include sensing movement of an existing non-shot-indicator of a handgun (41), and interpreting a sensed movement of the existing non-shot-indicator as a shot fired from the handgun so that the sensed movement serves as a shot counter for the handgun (42).
For example, the existing non-shot-indicator of the handgun may include a round-in-the-chamber indicator, wherein the sensed movement of the round-in-the-chamber indicator is interpreted as a shot fired from the handgun (43). As another example, the existing non-shot-indicator of the handgun may include a striker status indicator, wherein the sensed movement of the striker status indicator is interpreted as a shot fired from the handgun (44). An accessory may be positioned to come into contact with an element of the non-shot-indicator, wherein sensing movement of the existing non-shot-indicator may include sensing the element of the non-shot-indicator moving into contact with the accessory (45). The element of the non-shot-indicator may move into mechanical contact with the accessory and cause a portion of the accessory to move and indicate a shot has been fired. The element of the non-shot-indicator may move into electrical contact with the accessory and close a circuit, wherein closure of the circuit indicates a shot has been fired.
Alternatively, sensing movement of the existing non-shot-indicator may be by means of an optical sensor, accelerometer, capacitance sensor or Hall effect sensor (46). Upon compression of the recoil spring, the Hall effect sensor senses a change in magnetic field that is a function of proximity of the coils to one another.
In accordance with another embodiment of the invention, the shot counter may exploit movement of a recoil spring of handgun 10. Reference is now made to
The method may include sensing movement of a recoil spring of a handgun (61), and interpreting a sensed movement of the recoil spring as a shot fired from the handgun so that the sensed movement serves as a shot counter for the handgun (62).
For example, sensing movement of the recoil spring may include sensing compression of the recoil spring, wherein compression of the recoil spring indicates a shot has been fired (63). The compression of the recoil spring may be sensed by electrical contacts, wherein upon compression of the recoil spring, the electrical contacts come into contact with one another and close a circuit, wherein closure of the circuit indicates a shot has been fired (64). Alternatively, a recoil rod may pass through the coils of the recoil spring. The recoil rod may be provided with encoder means, such that movement of the coils of the recoil spring over the recoil rod are sensed for shot counting (65). As another alternative, compression of the recoil spring may be sensed by an optical sensor, accelerometer, capacitance sensor or Hall effect sensor (66).
It is appreciated that various features of the invention which are, for clarity, described in the contexts of separate embodiments, may also be provided in combination in a single embodiment. Conversely, various features of the invention which are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable subcombination.
