The present invention pertains to the technical field of electronic devices. More particularly, the present invention pertains to the field of microcontroller systems for weapon holsters.
When an individual, particularly a law enforcement officer, withdraws a weapon from a holster for defensive or offensive reasons, a significant risk may be posed to the parties involved. The individual withdrawing the weapon and the individual(s) on the receiving side of the weapon face the risk of grave injury and civil or criminal consequences related to the circumstances and outcome of the encounter.
In response to these dangers, a few microcontroller based systems have been designed to supplement weapon holsters and provide a means to detect the removal of a weapon from such a weapon holster and then act through preventative or reactive methods to limit force misuse, force abuse, and collateral damage between parties.
An example of such a preventative measures is a weapon releasing mechanism controlled by a biometric sensor to prevent unauthorized weapon access. Examples of reactive measures include the sending of text messages, position data, audio, and images to a third party in a remote location to request emergency assistance when necessary, or the inclusion of an audio recording device to document incidents for auditing purposes.
Although the use of these aforementioned preventative and reactive measures hold potential to be affective in limiting force misuse, force abuse, and collateral damages, previous microcontroller systems do not satisfactorily meet at least one of the objectives needed for preferred implementation by individuals such as law enforcement officers. This is due to the type and/or placement of the weapon withdrawal detecting device and the overall placement of the microcontroller system with regards to the user, weapon, and weapon holster.
The objectives are as follows: The microcontroller system must not interfere with an authorized user's ability to withdrawal a weapon from their holster, handle said weapon, or access other attached equipment on their persons to enable said user to maintain effectiveness in their actions. The microcontroller system must be implemented without disturbance to either the weapon or weapon receiving pocket to enable users of said microcontroller system to avoid interference issues, as mentioned in the first objective, and to maintain full functionality. The microcontroller system must be easily implemented on a variety of holster designs to enable users of said microcontroller system to continue using their current weapon and weapon holster and to continue receiving the benefits of holster and weapon familiarity.
A brief summary of related previous inventions and their shortcomings are given below.
French et al., U.S. Pat. No. 6,641,009 discloses a holster with a built in computer system and a built in sensing device to detect the insertion or removal of a handgun from said holster. The design replaces rather than supplements holsters in present use. In other words, an individual would not be able to use his or her original weapon holster. In addition to a financial switching cost, users of prior holster designs may incur a decrease in handgun related performance due to unfamiliarity with wearing the disclosed holster and drawing a handgun from the disclosed holster.
Devine, U.S. Pat. No. 3,530,451 discloses an alarm system used in conjunction with a weapon holster that detects the removal of a weapon from said holster and in response, generates a radio signal to be received at a remote location. In one embodiment, the withdrawal of a weapon from the holster is detected through the use of a magnet attached to said weapon and an encapsulated reed switch within said holster, adjacent to said magnet when said weapon is within said holster. The system configuration requires a modification to the weapon surface and holster interior pocket. Such modifications may affect weapon weight and smoothness of weapon draw. Additionally, the radio would require large power consumption to transmit to a remote location.
Parish, U.S. Pat. No. 5,525,966 discloses a security system mounted with a weapon holster that detects the removal of a weapon from said weapon holster by means of a switch attached to the weapon retaining mechanism of said weapon holster. The security system also includes a transmitter to send a signal indicating removal of weapon from said weapon holster. Because a variety of different retaining mechanisms are used on weapon holsters, no one embodiment of the system for a specific retaining mechanism is guaranteed to work on a holster with another retaining mechanism. Additionally, the devices proximity to the retaining mechanism may interfere with the officer's ability to draw or withdraw their weapon. Lastly, a mechanical switch, such as the one disclosed, can fail to function due to dirt or rust.
Pike, U.S. Pat. No. 5,479,149 discloses a system worn by a law enforcement officer to detect the removal of a weapon from a weapon holster attached to said law enforcement officer, record all audible sounds adjacent to said law enforcement officer, and transmit the sounds and weapon removal data to a remote location. In the preferred embodiment, the sensor is attached within or behind the holster, and said sensor switches on and off an audio recording and transmitter device that is attached on to the belt of said law enforcement officer. The system requires multiple attachment points to function, however law enforcement officers may not have vacant belt space available or the additional belt attached device may interfere with the officer's ability to access adjacent items on their body. Additionally, the transmittal of data to a remote location requires large power consumption.
Hietanen, U.S. Pat. No. 7,714,720 discloses an alarm system comprising a detector connected to a holster to detect the removal of a use of force instrument from said holster, a CPU located within a device separate from said holster and detector, but still attached to the user of said holster, to receive signals from said detector, and a communication device attached to said user to automatically transmit said user's situational audio and information to a third party when a weapon is removed from said holster. The system requires multiple attachment points to function, however law enforcement officers may not have vacant space available or the additional attached device may interfere with the officer's ability to access adjacent items on their body.
To overcome the aforementioned problems with the previous inventions, the present invention, in a first aspect, is configured to be a small, single-body enclosed microcontroller system that attaches to the outside face of a personal weapon holster. This aspect enables said invention to be implemented on a variety weapon holsters, without reducing a user's ability to withdrawal a weapon from their holster, handle said weapon, or access other attached equipment on their persons when using said invention.
In a second aspect, the present invention includes a permanent magnet attached to the back face of a Hall effect sensor to detect the presence of a weapon in said weapon holster through a change in magnetic flux related to the proximity of a weapon to the front face of said Hall effect sensor. This aspect enables said invention to detect the presence of a weapon within a weapon holster without mechanical interaction with the weapon receiving pocket, holster retaining mechanism, or holster affiliated weapon.
Referring now to the present invention in more detail,
In the preferred embodiment, the weapon 16 is a pistol and the weapon holster 2 relates to the pistol. However, the weapon 16 may alternatively be an electroshock weapon, baton, or other personal weapon with ferromagnetic properties or associated with an item with ferromagnetic properties and the weapon holster 2 may be related to its aforementioned affiliated weapon 16.
Referring to the electronic operations of the present invention as shown in
The Containing Body 1
In the preferred embodiment as shown in
Referring to
The containing body 1 is attached to the weapon holster 2 through the use of a restraining device 3, which is preferably an adjustable belt or adhesive tape that wraps around the exterior of both the containing body 1 and the weapon holster 2, in the direction perpendicular to the longitudinal axis of both objects. Alternatively, the restraining device 3 may be located between the large exterior surface of the lower body 17 and the exterior face of the weapon holster 2 and have properties such as adhesion and/or hook and loop fastening on its faces to attach the containing body 1 to the weapon holster 2. The restraining device 3 is to hold the containing body 1 in the specified position on the weapon holster 2 until a person intends to remove the present invention from the weapon holster 2.
In further detail, the containing body 1 is of a minimal size to ensure minimal interference with a user's hand and body movements when withdrawing a weapon 16 from the weapon holster 2. The containing body 1 is to have an approximate normal stress distribution and minimal deformation for loads expected from typical use by having a certain thicknesses for both the lower body 17 and the upper body 18, and round edges for the upper body 18. The Hall effect device enclosure 20 portion of the lower body 16 has a sensor platform floor 21 that is of a thickness to minimize the distance between the Hall effect sensor 14 and a weapon 16 inside the weapon holster 2, to insure accurate Hall effect sensor 14 output of the state of the weapon 16 within the weapon holster 2. The restraining device 3 has a preferable width of less than 4 centimeters to insure compatibility for a variety of weapon holsters by not overlapping and interfering with any weapon retention mechanisms of said holster 2.
With the aforementioned properties of the containing body 1 and its affiliated restraining device 3, the containing body 1 enclosing the microcontroller system 4 can be easily implemented on a variety weapon holsters, without reducing a user's ability to withdrawal a weapon 12 from their holster 2, handle said weapon 16, or access other attached equipment on their persons when using said invention.
The Microcontroller System 4
As shown in
In the preferred embodiment, the circuit board 5 is a one sided printed circuit board but may also be multi-level printed circuit board. The microcontroller 6 is of a type with the function of a real time clock, in order to output the current time to the memory device 7, and analog input pins, to interpret the voltage level outputted from the Hall effect sensor 14. The memory device 7 is a programmable read-only memory integrated circuit or, in one alternative, an electrically erasable programmable read-only memory integrated circuit. The power supply 10 is a high capacity battery. The adaptor 11 is of a type that enables serial communication to and from the microcontroller 6 and a computer 26, to enable a person to read data stored in the memory device 7. The radio transmitter 12 is a transmitter of a type that sends data through a short range but does not receive data to reduce power consumption from the power supply 10. The Hall effect sensor 14 is of the linear voltage output type.
The Hall effect device 13 comprises a permanent magnet 15 attached to the backside of the Hall effect sensor 14 with the Hall effect sensor face 23 directed toward the weapon receiving pocket 24 of said weapon holster 2 but exterior to said weapon holster 2. The permanent magnet 15 provides the source for a magnetic field that can propagate through solid bodies and that has a magnetic flux density detectable by the Hall effect sensor 14 at the Hall effect sensor face 23. With a weapon 16 not present inside the holster 2, the Hall effect sensor 13 detects a specific magnitude of magnetic flux density, pending on the strength of magnetic field generated by the permanent magnet 15. When a weapon 16 with a weapon slide 25 having ferromagnetic properties is placed in the holster 2 and in front of the Hall effect sensor face 23, the weapon slide 25 interacts with the permanent magnet's 15 magnetic field and induces a greater magnitude of magnetic flux density that is then detected by the Hall effect sensor 14. The outputted voltage from the Hall effect sensor 14 increases with the magnitude of detected magnetic flux density, thus when a weapon 16 with a weapon slide 25 having ferromagnetic properties is placed in the holster 2, the Hall effect sensor 14 outputs a larger voltage than with no weapon 16 present within the weapon holster 2, and therefore the said voltage from the Hall effect sensor 14 is interpretable by the microcontroller 6 to determine the state of the weapon 16 within the weapon holster 2.
With the aforementioned properties of the Hall effect sensor 14 and permanent magnet 15, the Hall effect device 13 does not require mechanical interaction with the weapon receiving pocket 24, any holster retaining mechanism or holster affiliated weapon 16. Therefore, the Hall effect device 13 can be external to the holster 2 and a part of the microcontroller system 4 that is enclosed within the containing body 1. Thus, the Hall effect device 7 facilitates the present invention's aim to not interfere with an authorized user's ability to withdrawal a weapon 16 from their holster 2, handle said weapon 16, or access other attached equipment on their persons and the aim to be easily removed or replaced with limited disturbance to either the holster 2 or weapon 16 to enable user of said devices to maintain full functionality.
While the foregoing written description of the invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiment, method, and examples herein. The invention should therefore not be limited by the above described embodiment, method, and examples, but by all embodiments and methods within the scope and spirit of the invention.