The invention relates to a lockable firearm cabinet which provides a secure repository for a firearm but which facilitates easy access to the firearm when necessary. The cabinet can be mounted in a wall, closet or furniture, or it can be used as a portable device for secure transport of a firearm.
There are numerous firearm cabinets that are intended to secure there in a firearm so that it cannot be removed and used except by and authorized person. These types of cabinets include various locking mechanisms and are arranged in a variety of configurations such as drawers, close to compartments, boxes, safes, and even mechanisms that immobilize the trigger mechanisms of the firearms.
Despite the current cabinets and related security devices, there still remains a need for an improved cabinet that can facilitate movement of the firearm in an inoperative condition as well as to prevent unauthorized access to the firearm during transport or subsequent storage. The present invention now provides a number of improvement firearm cabinets and security arrangements that are significantly advanced over what is known in the art.
The invention provides new and useful devices for securing and retaining firearms away from general access such that the firearms can only be retrieved and operated by an authorized user.
One embodiment of the invention relates to a firearm receptacle having an open interior and comprising a locking device associated with the interior of the receptacle for engaging an insertable structure that is attached to or forms part of a handle of a firearm, the locking device including a locking mechanism having a first position which engages the insertable structure to securely hold it in place within the receptacle and a second position wherein the locking mechanism is out of engagement with the insertable structure; biasing means for fixing the locking mechanism in the first position; and means for overriding the biasing means to move the locking mechanism to the second position wherein the insertable structure can be freely removed from or inserted into the locking mechanism.
The locking mechanism generally comprises male or female portions one of which is present in the receptacle and the other of which is associated with or forms part of the insertable structure. The locking mechanism preferably includes first and second arm members each having a protrusion or tab member that engages a mating aperture in the insertable structure when the locking mechanism is in the first position, and the biasing means comprises a spring which is operatively associated with the arm members to urge them toward each other and toward the first position.
The means for overriding the biasing means may comprise a rotatable cam member that is operatively associated with the arm members, the cam member having arm contact portions of different sizes, wherein, when the cam member is rotated, contact portions of larger dimensions contact the arm members to move them out of engagement with the insertable structure and into the second position. If desired, the rotatable cam member may be operatively associated with an external key lock so that a key inserted into the key lock can be used to rotate the cam member to move the arm members out of engagement with the insertable structure.
The means for overriding the biasing means may instead comprise flap members connected to the arm members through a pivot rod so that movement of the flap members also moves the arm members to overcome the biasing means and urge the arm and tab members to the second position.
The firearm receptacle preferably is rectangular in shape, and includes a door for access to the receptacle interior. If desired, an additional door that forms at least part of a wall member of the receptacle can be provided, wherein the receptacle includes a separate locking member to lock the receptacle in the housing. The door or doors can be opened by a biometric unlocking mechanism, a key pad, or a key.
Preferably, the firearm is a handgun having a handle the bottom of which is releasably mounted onto the insertable structure, wherein the insertable structure has a width that is no larger than that of the handgun handle. The receptacle can include a trigger engaging lock to prevent accidental discharge of the handgun when being transported.
The invention also relates to a lockable firearm cabinet comprising a housing having outer components surrounding an interior with the outer components including a base, one or more walls and a top; and one of the receptacles disclosed herein. The housing receives the receptacle as a drawer that can slide into the housing, such that the sliding of the receptacle completely into the housing causes the means for overriding the biasing means to disengage the locking mechanism from the insertable structure and further wherein the sliding removal of the receptacle from the housing locks the insertable member in the drawer. Also, after the receptacle is received in the housing of the cabinet, the insertable structure can be freely removed from or inserted into the locking mechanism.
The sliding of the receptacle completely into the housing causes the overriding means to disengage the locking mechanism from the insertable structure so that the firearm is ready to be removed when the receptacle interior is opened by an authorized user. Alternatively, the sliding removal of the receptacle from the housing locks the insertable member in the drawer. This locking can also be accomplished by turning the key to rotate the cam member.
In order to unlock the firearm when it is secured within the receptacle and housing, the overriding means preferably comprises a bar that engages secondary tab members associated with the arm members to move the secondary tab members and tab members to overcome the biasing means and urge the arm members to the second position. To gain access to the freely removable firearm, the door can be opened by a biometric unlocking mechanism, a key pad, or a key. Typical biometric unlocking mechanisms include a fingerprint detector, a retina scanner or face recognition for fastest access to the receptacle interior. Of course, conventional keys or keypads can instead be used if desired. The receptacle generally includes one or more activation buttons for sounding an alarm, activating a monitoring camera, or providing external communication when the firearm is removed from the receptacle. To use the firearm, the insertable structure may be removed from the firearm with a key.
In another embodiment, the invention relates to a firearm securement system, comprising a wall mounted plate that includes means for securing a firearm or firearm cartridge thereto; a release mechanism that allows the firearm to be removed from the wall plate, the release mechanism including a biometric unlocking mechanism, a key pad, or a key; and electronics for wirelessly communicating with a computer and with the firearm or firearm cartridge to provide information regarding removal of the firearm or firearm cartridge from the wall mounted plate.
This firearm securement system preferably further comprises one or more activation buttons for sounding an alarm, activating a monitoring camera, or providing external communication when the firearm or firearm cartridge is removed from the wall plate.
The electronics may be mounted on the wall plate and activated when the firearm or firearm cartridge is removed from the wall plate. Alternatively, the firearm or firearm cartridge may be mounted on an immobilization plate that is locked to the wall plate, with the electronics provided on one of the wall plate or the immobilization plate.
A preferred release mechanism comprises one or more claw members that grasp the firearm or firearm cartridge to lock it to the wall plate. Alternatively, the wall plate may include a snap locking mechanism that cooperates with structure on the firearm, firearm cartridge or immobilization plate.
Additionally, the firearm or firearm cartridge includes electronics that also communicate with the computer and that allow the firearm or firearm cartridge to be wirelessly disabled when necessary.
Preferred features of the invention are more fully appreciated upon a review of the appended drawing figures, wherein:
The invention also has a number of security systems that can be built into the cabinet of the invention or that can be used for separately accessing the internal compartment of a firearm storage cabinet. One use of the cabinet is as a weapon locker in a schoolroom with the teacher being the authorized user. Details of such a system can be found in U.S. copending patent application Ser. No. 14/104,944 filed Dec. 12, 2013, the entire content of which is expressly incorporated herein by reference thereto.
While
The upper portion of the receptacle floor is shown at 164: it includes a slot 180 which is configured to have the same width as mounting structure 210. Mounting structure 210 also includes side notches 220 which assist in securing the structure 210 and weapon 200 to the base of receptacle 125 as further illustrated in
The locking mechanism is best shown in
The locking mechanism includes a pair of arm members 190A, 190B secured to pivot pins 194A, 194B. These arm members can move towards slot 180 and away from it due to rotation of the pivot points, but they are biased by spring 175 toward slot 180. This is best shown in
In
The locking mechanism can be moved between the locked and unlocked positions through the use of key lock 170 (
It is also possible to lock the structure 210 in the slot by rotating disk 177 so that the thinner areas contact arm member ends 196A, 196B to urge tab members 192A, 192B to into apertures 182A, 182B to engage the notches 220 of structure 210 to lock it in the slot. This is illustrated in
The locking of mounting structure 210 and weapon 200 in slot 180 is the default position when the receptacle 125 is removed from the enclosure. This allows the weapon to be transported in a secure cabinet by authorized personnel such that the weapon cannot be removed from the cams it without the appropriate lock releasing mechanisms. Thus, the weapon and its cartridge can be safely and securely transported from one point to another. It is also possible to include in the receptacle structure at the additional wall members or trigger engaging locks to prevent accidental or unintended discharge of the weapon as it is transported.
As shown in
Once the weapon cartridge or support is locked in place, it can only be removed from the receptacle by turning the disk so that the larger portions push against the ends of the arms and move them outwardly so that the protrusions are retracted from the apertures. This releases the lock. And as noted sliding the cabinet into a wall mount or other supporting structure allows a tab member to engage a pair of shorter flap members which are linked to the lower parts of the arm member to pivot them out of position so that the protrusions do not engage the apertures and lock the cartridge to the cabinet. This allows the weapon to be available in the cabinet after the cabinet is placed in the wall or support structure.
As described above the weapon would be maintained securely in slot 180 during transport or movement of the receptacle 125. When the receptacle is slid into the housing or enclosure, it is not desirable to maintain the weapon secured to the slot since that would delay access to the weapon when necessary. There is also no need to lock the weapon in the receptacle because the receptacle is locked in the enclosure. As noted herein, the opposite side of the enclosure has one or two access doors to allow an authorized user to quickly access the weapon when needed.
The weapon cartridge would be separate from the receptacle or enclosure but it is primarily intended to hold the weapon safely during transportation and handling of the receptacle. This would be done by providing the receptacle to be transportable. After delivering the weapon to the desired location, the receptacle would be inserted into the enclosure and secured thereto so that the weapon can be released in the cabinet so that it can be accessed through the access doors. If a supervisor had to remove the weapon they would remove it differently from how the user would access it. For example, if a substitute teacher was going to teach a certain class that had a firearm in the box and they didn't want to use a gun but they wanted to use pepper spray, the supervisor could insert a key to turn the lock to release the cartridge with gun and replace it with, e.g., a cartridge that had pepper spray in it. This is so the supervisor is not walking down the hall with a gun in hand after he or she did the exchange. This guarantees keeping the weapon in lock down. The weapon can only be handled outside the cartridge when using a special tool to remove it from the cartridge so if the supervisor didn't have a tool they could only walk with the receptacle in hand without showing the weapon.
An additional feature of the invention allows the weapon 200 and structure 210 to be released from the notch 180 when the receptacle is secured to the enclosure. As best shown in
As it is possible for someone to tamper with the flap members to release the weapon when the receptacle is in transit,
When the receptacle is secured to the enclosure, it can be accessed through one or two doors that are provided on the back of the enclosure. As in the copending application, access to the interior can be made through a dual button activation system. To open the first door one button is pushed after access by use of a key, keypad, or biometric pad. At this point there is an additional plate or door which prevents direct access to the weapon until after a further button is activated. And as noted in the prior application, activation of the second button also activates video and audio in the room so that monitoring personnel can determine whether and how the disturbance may be escalating.
The access doors include two buttons 135, 145 so that the first one can send a signal that something out of the ordinary is happening in the room while the second button is activated to access the weapon or firearm in the cabinet and indicate that the situation is becoming an emergency. The invention assumes that an authorized person would be able to initially open the outer door of the cabinet based on a remote keypad or biometric device that is unique to the authorized user, or the code to which is known only to the authorize user. For example, in a school setting, the initial access by the teacher would activate a video camera in the room while also sending a message to a monitoring station or the principal's office so that the disturbance on the room can be monitored. At that point, the principal or monitor can check in with the authorized user to make sure that the situation is coming under control or that further actions are appropriate.
The invention is also operable with a smart weapon or smart weapon cartridge that would communicate with the monitoring station after being withdrawn from the receptacle. As an example, if the authorized user does not respond to the principal, the principal can disable the box or disable the smart gun inside the box so that the teacher cannot use it inappropriately or further such that an intruder or other bad actor either cannot access the weapon or cannot use it even if the weapon is accessed. For this, the receptacle would have electronics that wirelessly communicate with the gun such that the smart gun can be disabled even after it is removed from the receptacle.
The access doors can include two buttons that can be activated to access the weapon or firearm in the cabinet. The invention assumes that an authorized person would be able to initially open the outer door of the cabinet based on a remote keypad or biometric device that is unique to the authorized user, or the code to which is known only to the authorize user. For example, in a school setting, the initial access by the teacher would activate a video camera in the room while also sending a message to a monitoring station or the principal's office so that the disturbance on the room can be monitored. At that point, the principal or monitor can check in with the authorized user to make sure that the situation is coming under control or that further actions are appropriate. For example, if the authorized user does not respond to the principal, the principal can disable the box or disable the smart gun inside the box so that the teacher cannot use it inappropriately or further such that an intruder or other bad actor either cannot access the weapon or cannot use it even if the weapon is accessed. For this, the support plate would have electronics that wirelessly communicate with the gun such that the smart gun can be disabled even after it is removed from the cabinet.
Although shown in
For example, if a rogue supervisor wanted to access a weapon and use it they could not access it unless they had the cartridge installed in the firearm box or had a special tool. This is so that the weapons can be sent to authorized handlers for inspection or routine maintenance and be safe from wrong use during transport. When the authorized handlers receive the cartridges they would use a special access tool to remove the weapon. If a superintendent at a school district deployed this whole system across multiple schools he or she would know that the only time a weapon is exposed outside the cartridge is when a user deployed it through the firearm box or when the cartridges are sent to handlers for maintenance. This cartridge/cabinet combination significantly increases the safety of the stored weapon.
The firearm cabinet is operatively associated with a weapon cartridge. This has a key lock to engage the lock pins to lock the weapon into place. If the weapon does not have a properly configured cartridge, a structure can be attached to the cartridge to perform that function. It is envisioned that weapon cartridges can be designed to be operable with the present cabinet as the size of the slide lock and other components can be tailored to the sizes of the various weapon cartridges.
The firearm cabinet is provided with the weapon as follows:
The weapon is loaded into weapon cartridge so it clicks in place (i.e., it locks in place by a lock mechanism in the cartridge). At this point the weapon cannot be removed out of the cartridge because the locking mechanism is in place. If a person wanted to remove the weapon at this point they would need to use a special tool.
The weapon cartridge is installed in the slide lock in the firearm cabinet. A key is inserted into the key hole of the bottom lock and is turned to actuate the protrusions or locking pins to secure the cartridge in place in the cabinet. The cabinet can now be used to safely transport the weapon.
After the weapon is returned to the room, the cabinet is placed in a wall mounting or other opening for storage of the weapon in the room or location. The weapon lock mechanism in the cartridge is automatically disengaged when the cartridge is locked down in the cabinet as described herein. This allows the weapon to be freely removable from the cabinet and removed at the end that has the access doors after those doors are opened by an authorized user who has possession of the applicable codes.
Alternatively, the weapon lock mechanism can be engaged by inserting the key in the bottom lock to unlock the arm members so that the cartridge is free for removal of the weapon from the cabinet.
Another unique feature of the box is that it can include sensors that would be activated when the box is activated. This technology would report the activity of what occurs at the box through the monitoring of sensors which can be installed at points on the area or object being secured. The sensors would be wired to a small box mounted on the device being monitored. Each sensor would plug into the small box/module and the box would communicate over the web to a cloud. Each box would not have to be linked to a local server. This is in effect a small box/module that has several female plugs that allow to have multiple devices plugged into it to be monitored over the net via an app for an iPhone, watch, tablet or computer. This module would use sim card technology for authentication to cloud and Bluetooth for local communication to local electronic devices such as speakers or other sound generating devices that provide audible alerts, beeps, sirens, or tones.
Another embodiment of the invention relates to a weapon or weapon cartridge that mounts on a wall plate. The weapon or weapon cartridge has electronics in it. The wall plate would house the biometrics or a keypad on front side. The system would have software in a computer that would control functions of the wall plate that holds the cartridge with the gun. The software from the computer would have the ability to send information to the wall plate, on through to the cartridge, and into the cartridge. Alternatively, the gun can be a smart gun that has its own electronics that operate similarly. The wall plate would have the ability to wirelessly talk to the cartridge or smart gun after it was deployed. This feature is important because if a registered user decides to go rogue or if the weapon falls into the wrong hands then the monitor or administrator can have the ability to disarm the user or smart gun.
Another use of the invention would be that the cabinet or wall plate can send information regardless whether the situation is an emergency or not. A cabinet and mounting module could be used e.g. by plugging a guitar or instrument into it. The box would allow a user to communicate their work to the cloud for someone else to monitor or review. A website could be available for users such as a music teacher reviewing play of music or a composition. This box can be used to monitor construction from a supervisor and to link it back to a website or the cloud for the user to go back and retrieve at a later time. The box with inputs would be capable of triggering devices to do things from a remote location. The user could initiate a command from a phone, tablet, watch or other mechanism wherein the device is plugged into another box or module. The guitar or other input could be used as a code to access the box or to operate something at the remote location. For example, if someone had a storage building in California and wanted to open it remotely with the sound of a guitar cord played, the connections between the boxes communicating back and forth would allow it.
Additional features of the invention are provided by the box itself with regard to its size, shape, color and types of functions of work flow to provide safe access with alerts from the operation of mechanisms to access the internal compartment. The activation buttons can also be used to activate sirens, doors, keypads, other rooms or compartments, lights or other related functions or mechanisms.
As the box would not have any signals to transmit wired/wirelessly from any cameras or transmit signal taking from a mike, it would just send audible alerts through a speaker with flashing text on a LCD screen and have bright flashing lights on top of the box for viewing for the deaf. This box would have provisions for mounting all kinds of sensors. The compartment box would have an onboard speaker connected to an electronic circuit board that creates an audible alert when triggered and same with text. The compartment box would have a battery for use when power is out but would typically be hard wired for continuous power. The mechanisms can still work opening doors without having any power battery/electrical as well as no sirens or flashing text. The siren when having power can be loud enough to be heard nearby.
Yet another feature of the invention is a detection system which can be added to the previously disclosed firearm box. This detection system includes a detection device that is wirelessly connected to a detectable collar, ankle bracelet, chip that is worn on or by an unauthorized person. As that person comes into range of the detection device that is associated with the firearm box, an alert is triggered by the detection device. For example, if there are areas where the firearm box is located and this area is off limits to people such as felons, mentally ill, suspected terrorist or registered sex offender, the detection device will read the detectable collar, ankle bracelet, or chip and send an alert that signifies the presence of the unauthorized person. This system would be triggered when the unauthorized or restricted person is in proximity of the sensors of the detection device. If desired, sensors would be installed at the front door, in the yard, or in another area of interest such as by a school or government building. Although wireless sensors are preferred, the sensors can be hard wired instead depending upon the configuration and age of the building. As the system is triggered, alerts are send to owners of the firearm box or of others who would need to know of the presence of such unauthorized person. For example, a mother of a child at a school could be notified at work that a felon, mentally ill person, suspected terrorist or registered sex offender is in proximity of the school as measured by the device that is present in the firearm box and that scans a perimeter which is the sensor area.
Additionally, a firearm security system and access lock can be provided on the weapon that is maintained in the firearm box.
This firearm security system would be similar to that described in Torii U.S. Pat. No. 5,598,151. This security system is provided for the containment of at least one firearm in the firearm box and it operates in conjunction with an alarm system adapted to generate a signal upon the emergency opening of the repository indicative access to and removal of the firearm contained therein. The alarm system generates a signal at a remote location that is indicative as to whether the weapon in the firearm box has been accessed and/or removed in an intended manner, such as by a criminal that overpowers the person that has authorized access to the firearm box or when the weapon is removed under emergency and/or duress conditions. The Torii patent also discloses arrangements of electronic components to carry out this monitoring of the movement of the weapon. When used in conjunction with the other features of the invention, it becomes easy to determine where the weapon is located so that backup or reinforcement personnel can be quickly deployed to the appropriate area to provide assistance or defense.
While there has been shown and described what are considered to be preferred embodiments of the invention, it will of course be understood that various modifications and changes in form or detail could readily be made without departing from the spirit of the invention. It is therefore intended that the invention be not limited to the exact form and detail herein shown and described, nor to anything less than the whole of the invention herein disclosed as hereinafter claimed.
This application is a continuation-in-part of U.S. application Ser. No. 15/134,985 filed Apr. 21, 2016 and International Application PCT/US2017/026067 filed Apr. 5, 2017, the entire content of each of which is expressly incorporated herein by reference thereto.
Number | Date | Country | |
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Parent | 15134985 | Apr 2016 | US |
Child | 16166024 | US | |
Parent | PCT/US2017/026067 | Apr 2017 | US |
Child | 15134985 | US |