The disclosure relates to an apparatus for having a weapon(s), valuables, jewelry or other item(s) that may be concealed in a compact, portable encasement.
Devices designed for storage and to be utilized as a theft deterrent for items such as a weapon, valuables, jewelry, and other items include safes, locking cabinets, locking drawers, and hidden compartments. Weapons that may require additional safety precautions such as firearms and knives also require concealed and safe storage for theft prevention to protect children and unauthorized persons from acquiring access to these potentially harmful items.
Safes, strong boxes, drawers, and closets fitted with various chains and locks have been in existence for many centuries. These enclosures are heavy, bulky and, at the least, impractical to remain in accessible proximity to a person during normal daily activities.
More recently, firearm trigger guard locks have been used as a protective apparatus to aid in the prevention of injury of children and of persons not trained in firearm safety. However, firearm trigger guards do not conceal a weapon from the sight of a child, thief, or unapproved person and do not allow rapid access to a firearm during a crisis situation such as the domestic break-in by an assailant.
Bedside gun safes are commercially available but these devices are often too large and cumbersome for a person to carry. Further, these units are not easily and securely mounted in a concealable fashion in the various environments that a person goes throughout their day.
Due to the increase in criminal activities in recent years, many states have passed laws that permit licensed civilians to carry handguns in a concealed manner (Concealed Handgun License—CHL). A number of factors should be considered in connection with concealed weapons. A weapon such as a firearm should be conveniently concealed in each of a multiple of environments and social settings. Rapid access to the firearm or other weapon when desired or during a crisis situation is, of course, important. Children and unauthorized persons must also be prevented from accessing the firearm or weapon.
The present invention addresses and provides a solution to these needs.
Accordingly, it is an object of the present invention to provide a locking insert mechanism and a mating receiver that allows a user to secure items such as cash, credit cards, personal identification documents, jewelry, weapons, ammunition, spray irritant and/or spray immobilizers, prescription medication, keys, etc. within a portable enclosure portion of the locking insert mechanism and prevent access to the items contained within the enclosure by children and other unauthorized persons.
One embodiment provides one or more doors fixed to a locking insert mechanism such that access to item(s) housed within the portable enclosure portion is enabled only when the doors are open. The door(s) of the portable enclosure are normally locked in a closed position and open via a locking device such as a key, keypad, biometric sensor, RFID device, or wireless transmitter/transceiver. The locking insert mechanism fastens to a mating receiver in such a way that the two portions lock together. One embodiment provides a second locking device that prevents the locking insert mechanism and mating receiver from separating unless the locking device has been disabled/unlocked. The second locking device may be an independent structure from the first locking device or it can be incorporated into the structure of the first locking device. For example, a single key lock can be utilized in such a way that inserting and rotating the key in a clockwise direction causes the access door(s) to open and rotating the key in a counter-clockwise direction releases the locking insert mechanism from the mating receiver. Another variation uses a keypad in such that actuating a plurality of buttons in a first sequence causes the access door(s) to open and actuating a plurality of buttons in a second sequence releases the locking insert mechanism from the mating receiver. In one aspect, a locking device includes a combination of technologies. For example, a biometric fingerprint reader can be used in combination with mechanical buttons, switches or soft keys. Placing the user's middle finger on the biometric fingerprint reader and depressing a button located on a first side of the biometric fingerprint reader causes the access door(s) to open. Placing the user's middle finger on the biometric fingerprint reader and depressing a button located on a second side of the biometric fingerprint reader releases the locking insert mechanism from the mating receiver. Different types of locking devices presently available or various locking devices that may be available in the future, may be utilized in place of, or in combination with, locking devices described herein.
The mating receiver is adapted to be physically compatible with at least one mounting structure. In one variation, a plurality of flexible stays are adjustably fastened to the mating receiver and further fastened to but not limited to the inside wall(s) of a hand bag, purse, pouch, or knapsack.
Another embodiment provides holes in at least one side of the mating receiver that such the mating receiver may be fastened to a separate structure via screws, rivets, or other fasteners. For example, the mating receiver can be fastened to a wall of a desk, recessed into a desktop surface, or mounted inside a desk drawer.
In another aspect, a personal security network includes a plurality of mating receivers each mounted to one of a variety of structures. For example, a first mating receiver can be mounted inside a handbag; with a second mating receiver mounted inside a brief case. A third mating receiver may be mounted in the center console or glove compartment of a motor vehicle. A forth mating receiver may be mounted to a wall of a desk or inside the drawer of a desk. A fifth mating receiver may be mounted to a night stand or bed frame. A sixth mating receiver can be mounted inside a kitchen or bathroom cabinet. A seventh mating receiver may be mounted into a recessed cavity behind a picture or mirror on the wall of a home or office. A personal security network comprising a plurality of mating receivers allows a user to quickly fasten the locking insert mechanism into the mating receiver that is in closest proximity to their person as the user moves from location to location throughout the user's daily routine. Such a personal security network provides an approved user convenient and immediate access to the contents of the portable enclosure portion of the locking insert mechanism regardless of where the user is located.
For a more complete understanding, reference is now made to the following description taken in conjunction with the accompanying Drawings in which:
a is a perspective view of the locking insert mechanism of
b is a partial perspective view of the locking insert mechanism of
c is a cross-section of one wall of the receiver of
d is a partial perspective view of the locking insert mechanism of
e is a cross-section of one wall of the receiver of
a-3c are partial side, rear and top views of a locking insert mechanism of
d illustrates insertion of a weapon into the locking insert mechanism of
a-4d are partial side, rear and top views of the locking insert mechanism of
e illustrates insertion of a weapon into the locking insert mechanism of
a-5d are partial side, rear and top views of the locking insert mechanism illustrating a second embodiment of the locking access doors;
e illustrates insertion of a weapon, extra magazines, and handcuffs into the locking mechanism of
a-6c are partial rear views of the locking insert mechanism of
a-7d are partial side, rear and top views of another embodiment of a locking insert mechanism;
e illustrates insertion of a weapon, extra magazines, and handcuffs into the locking insert mechanism of
a-9e are partial side and rear views of a structural adapter and mounting hardware to couple the locking insert mechanism of
a is a partial perspective view of a second alternating structure of affixing the receiver of
b and 12c are cross section view illustrating the mounting structure of
a-13b are partial side views of an embodiment of the locking insert mechanism adapted to receive a hand gun or similar item at an angled inclination relative to the bottom wall of the locking insert;
a-14b illustrate an embodiment of the locking insert mechanism adapted to receive a hand gun or similar item at an inclination parallel to the side walls of the locking insert;
a-15c are side views of a drop panel embodiment of a locking insert mechanism of the disclosure;
a-16c are side, rear and top perspective views of an alternate embodiment of an insert mechanism adapted for depth adjustment;
a-17c are partial side, rear and top views, respectively, of the locking insert mechanism of
d and 17e are partial end views of the locking mechanism of
a-18c are partial cut-away views further illustrating a docking lock according to the disclosure in locked and unlocked positions;
a-19b are partial side views illustrating an alternative docking lock in locked and unlocked positions;
a-20c are partial side and side cut away views of alternative embodiments of the dock lock;
a and 22b are partial side and edge views of one embodiment of a dock lock mounted in the locking insert mechanism of
a-24d are partial front views of externally accessible input devices suitable for use with a lock control system according to the disclosure;
a-26j are various views illustrating different applications wherein the locking insert system of the disclosure may be utilized;
a, 27b, and 27c are partial top and cut away side views of the insert mechanism of
a-28f are perspective views illustrating a method of utilizing the locking insert mechanism of the disclosure.
Referring now to the drawings, wherein like reference numbers are used herein to designate like elements throughout, the various views and embodiments of a locking insert mechanism and receiver to secure personal weapons, valuables and other items are illustrated and described, and other possible embodiments are described. The figures are not necessarily drawn to scale, and in some instances the drawings have been exaggerated and/or simplified in places for illustrative purposes only. One of ordinary skill in the art will appreciate the many possible applications and variations based on the following examples of possible embodiments.
In the following detailed description, reference is made to the accompanying drawings that form a part hereof, and in which are shown by way of illustration specific embodiments in which the invention may be practiced. It is understood that other embodiments may be utilized and structural changes may be made without departing from the scope of the invention.
a is a perspective view of insert 20 portion of
Lower encasement 30 includes opposed side walls 31 and 32 and opposed end walls 33 and 34. Opposed side walls 31 and 32 and opposed end walls 33 and 34 of lower encasement 30 are perpendicular to, and configured in such a way as to mate with opposed parallel side walls 22 and 23 and opposed parallel end walls 24 and 25 of upper encasement 21, respectively. Lower encasement 30 includes a hopper section 35 with ramp surfaces 36, 27, 28 and 39 (
b is a perspective view of the locking insert of
d is a perspective view of insert 20 illustrating an alternative placement of dock locks 130 on locking insert 20.
a, 3b and/or 3c are side, rear, and top views of the locking insert of
Referring again to
In various embodiments, access doors 26 and 27 may be actuated by one or a combination of mechanically assisted, electro-mechanical, pneumatic, hydraulic, and/or totally manual operated structures. One structure and method can be employed to open access doors 26 and 27 and the same or different structure and method can be employed to close access doors 26 and 27. Although as illustrated, two access doors 26 and 27 are utilized, a structure comprising a single access door or more than two access doors may be implemented. For example, a single door similar to the combined surface area of access doors 26 and 27 can be used. The single door may be configured to retract into upper encasement 21 parallel and adjacent to wall 22 (or to wall 23) of upper encasement 21. Another embodiment of the present invention uses a hinging door structure that pivots from one edge of the door so that a portion of a single door extends outward and beyond upper encasement 21.
In one alternative embodiment, spring-loaded hinges may be utilized as an alternative structure to axle rods 60 and 61. In this alternative, releasing the door locking mechanism 70 (
a, 5b, 5c and 5d are partial side, rear, and top views of second embodiment of a locking insert mechanism 20 illustrating an alternative structure to open and close access doors 26 and 27. In the embodiment illustrated in 5a, 5b, 5c and 5d, doors 26 and 27 access doors 26 and 27 retract into the upper encasement 21 portion of locking insert mechanism 20.
a, 6b, and 6c are partial rear views of the locking insert mechanism of
Therefore, the width of arched counter-bored groove 64 is:
(r+W)−r=W
The counter-bored grooves 65 and 66 of end walls 24 and 25 are vertical, parallel, and opposed to each other as shown in
The depth and width of arched counter-bored grooves 64 in walls 24 and 25 is sufficient to provide adequate tolerance so as to allow the ends of axle rods 62 and 63 to slide along the arched path of counter-bored groove 64 between and perpendicular to end walls 24 and 25 with minimal friction. The length of axle rods 62 and 63 is selected to permit the ends of the side rods to be received in and slide along groove 64. The depth and width of vertical counter-bored grooves 65 and 66 in walls 24 and 25 is selected to provide sufficient tolerance to allow the ends of axle rods 60 and 61 to slide along the vertical path of counter-bored grooves 65 and 66, between and perpendicular to walls 24 and 25, with minimal friction. The length of axle rods 60 and 61 is selected to enable the ends of axle rods 60 and 61 to be received in and move freely along grooves 65 and 66, respectively. The embodiment of locking insert 20 illustrated in
a, 7b, 7c and 7d are side, rear, and top views illustrating a fourth embodiment of the locking insert 20 with the side panel.
A first “c-channel” is thereby formed by joining the adjacent, vertical edges of wall section 24a to wall 22 and the adjacent, vertical edge of wall 22 to wall section 25a. Similarly, the outside vertical edge of wall sections 24b and 25b are affixed to the adjacent vertical edge of wall 23. A second “c-channel” is thereby formed by joining the adjacent, vertical edge of wall section 24b to wall 23 and the adjacent, vertical edges of wall 23 to wall section 25b. As illustrated, access doors 26 and 27 are retractable inside the upper encasement 21 portion of locking insert mechanism 20 as described in connection with
Thus, the over-all external size of the insert mechanism 20 of
Receiver 50 has a plurality of holes 56 that may be used to mount receiver 50 to a any one of a plurality of external structures, mating interface structures, and to lock the mating locking insert mechanism 20 to receiver 50. In one embodiment, receiver 50 has at least one hole 56, circular counter-bore detent 57, non-circular counter-bore detent 58, and/or polygonal shaped counter-bore detent 59 located on at least one internal wall surface for locking insert mechanism 20 to receiver 50 via lock control system 129. Another embodiment uses a locking guide-rail 60 to guide and to fasten locking insert mechanism 20 to receiver 50. Other structures may be used to facilitate the fastening of locking insert mechanism 20 to receiver 50 such as a motorized ratchet mechanism or other motorized structure, spring, hydraulic, pneumatic, crank and/or other mechanically actuated structures. It is to be noted that receiver 50 is not limited to a rectangular geometric shape or to a structure comprising a limited number of walls, doors, and/or panels. For example, and embodiment comprising a flat, circular, oval, or spherical structure having at least one wall is hereby included. Any feasible geometric shape or structure that can mount or mate with insert mechanism 20 can be utilized and is hereby included.
a-9e are partial side and rear views illustrating a structured adapter and mounting hardware suitable for coupling the locking insert 20 at
Structural adapter 61 positions the moving portion insert mechanism 20 above the structure of receiver 50. The mounting structure includes a plurality of blocks 63 and 64 having threaded holes 65 and corresponding screws 62. Structural adapter 61 includes a plurality of holes 66 that are positioned to align with the threaded holes 65 of blocks 63 and 64. The mounting of structural adapter 61 to the
Base member 102 has a plurality of holes 93 to be used to mount angled mount 100 to an external structure with screws 94, bolts, rivets 95, brackets, leather or fabric sleeves 96. Similar to the mounting structure illustrated in
a is a perspective view of a second alternative mounting structure for affixing receiver 50 to a variety of external structures. In the embodiment shown in
Vertical support member 113 is affixed to base member 112 with any suitable mounting hardware such as screws 94, rivets 95, etc. During the fabrication process, base member 112 and vertical support member 113 can be molded together as one structure. Alternatively, if the composition of base member 112 and vertical support member 113 are metal, the base and vertical support members may be welded together. Bracket 111 of vertically pre-loaded mount 110 includes a first portion 114 and a second portion 115. First portion 114 and second portion 115 of bracket 111 can be molded together or welded together as one structure, or affixed with any suitable mounting hardware such as screws 94, rivets 95, etc. First portion 114 of bracket 111 is configured in a geometric shape that mates with vertical support member 113 so as to allow the first portion to slide in vertically with minimal or acceptable rotational motion. In the embodiment shown in
The structure of mating vertical support member 113 and first portion 114 of bracket 111 is not limited to a rectangular geometric shape. Any geometric shape or structure that allows the vertically upward and downward movement between bracket 111 and base member 112 of vertically pre-loaded mount 110 may be utilized. The first portion 114 of bracket 111 comprises at least one hole 116 through one or more surfaces of first portion 114. A pin 117 may be inserted into at least one hole 116 in such a way as to remain fixed in position without loosening or coming out of position. At least one hole 116 of first portion 114 extends completely through two opposing sides of first portion 114 allowing pin 117 to pass completely through opposing sides of first portion 114. Pin 117 is thereby fixed in position being held in position on one side by the head of pin 117 which has a larger diameter than hole 116 and being held in position on the opposing side by for example, a carter pin, snap ring, threaded nut, or other fastener. For security purposes, after the structure of vertically pre-loaded mount 110 is fully assembled, pin 117 can be welded or, in some way, permanently fixed into position.
Vertical support member 113 includes at least one elongated slot 118 and at least one spring 119. Elongated slot 118 is positioned vertically along at least one surface of vertical support member 113 and is contained within the upper and lower vertical dimensions of vertical support member 113. A second elongated slot is formed in an opposing side of vertical support member 113. At least one spring 119 is positioned vertically within support member 113 and has an outside coil diameter that is less than the smallest inside dimension of vertical support member 113.
As illustrated, pin 117 passes through first portion 114 of bracket 111 via at least one hole 116 and also passes through vertical support member 113 via at least one elongated slot 118. When bracket 111 moves in a vertically downward direction, pin 117 eventually comes into contact with the lower most edge of elongated slot 118, limiting the downward vertical travel of bracket 111. When bracket 111 moves in a vertically upward direction, pin 117 eventually comes into contact with the upper most edge of elongated slot 118, limiting upward vertical travel of bracket 111.
A first end of spring 119 is positioned adjacent to the mounting surface between vertical support member 113 and base member 112. Pin 117 is horizontally positioned on top of and adjacent to a second end of at least one spring 119. In this configuration, the weight of bracket 111 in combination with receiver 50, insert mechanism 20, and the contents within insert mechanism 20 are supported by pin 117 as this structure places spring 119 under compression preloading the apparatus. In a different embodiment, the pre-loaded mount includes a combination of springs that are placed in such a way that at least one spring is positioned below pin 117 so as to exert an upward force on pin 117 with at least one spring is positioned above pin 117 between pin 117 and bracket 111 to exert a downward force on pin 117. This configuration places the structure into a neutral loading condition. The springs used in this embodiment do not have to exhibit the same compression and/or tension characteristics. Pads, bushings, or rubber stoppers can be positioned to dampen any noise generated by pin 117 contacting either vertical extreme of elongated slot 118.
A second portion 115 of bracket 111 includes a plurality of holes 93. One or more of holes 93 align with at least one of the plurality of holes 56 in at least one wall section 51-54 of receiver 50. Second portion 115 of bracket 111 is fastened to receiver 50 with, but not limited to, at least one screw 94, rivet 95, or other suitable fastener.
Turning to
Base member 112 is mounted to the bottom floor of handbag 160 with screws 94, rivets 95, leather or fabric sleeves 96 or other suitable fastener or adhesive. Top portion of receiver 50 may be secured to the top portion of the handbag 160 with adjustable stays 90 and leather or fabric sleeves 96. As illustrated, stays 90 are adjusted in such a way as to mount vertically pre-loaded mount 110 off center and closer to one wall of the handbag. Each first portion 91 and second portion 92 of each stay 90 is individually cut as required to fit this application. Handbag 160 has at least one access opening, for example, zipper 161 and 162. As illustrated, the left-hand zipper 161 accesses doors 26 and 27 of insert mechanism 20 the right-hand zipper 162 accesses the inside body of the handbag permitting a user to access items in the insert mechanism as well as the interior of handbag 160.
a and 13b are partial side views of an embodiment of insert mechanism 20 adapted to receive a hand gun or other item at an angled inclination relative to bottom wall 148 of locking insert 20. Insert mechanism 20 includes walls 22, 23, 24, and 25 and bottom 148. An access door 26 has a base portion 79 affixed to at least one wall 22, 23, 24 or 25. As illustrated, access door 26 and base portion 79 may be constructed from a common piece of 90° c-channel. Access door 26 is coupled to at least one of walls 22, 23, 24, and/or 25 of insert mechanism 20 via pivot pin 78. Encasement portion 40 is attached to access door 26 and base portion 79. In the embodiment shown in
Base portion 79 includes an opening of sufficient size to allow first end portion 75 of actuator 74 to remain attached in its mounted position as the structure of access door 26, base portion 79, and encasement portions 40 and 42 rotate from the fully closed position to the fully open position.
Actuator 74 can be a spring loaded device, a pneumatic or hydraulic device, a magnetically and/or electromagnetically operated device, an electrically energized device such as a motor and/or a combination of similar or various devices. In one embodiment actuator 74 is a rotationally compressed coil spring positioned so that a pivot pin 78 extends through the open core of the spring. A first end of the rotationally compressed coil spring actuator 74 is placed against an internal surface of at least one wall 22, 23, 24, and/or 25 of insert mechanism 20. A second end of the coil spring actuator 74 is placed against the rotating structure of access door 26 and base portion 79.
During assembly, rotationally compressed coil spring actuator 74 is placed into a rotational compressed state when access door 26 is closed. When freely enabled, rotationally compressed coil spring actuator 74 exerts sufficient force to cause access door 26 to rotate outwardly and away from at least one wall 22, 23, 24, and/or 25 and/or bottom 148 on the axis provided by pivot pin 78. A striker plate 72 is rigidly affixed to the structure including access door 26 and base portion 79 and extends through an opening 73 in at least one wall 22, 23, 24, and/or 25 and/or bottom 148 of insert mechanism 20.
Locking mechanism 70 and latch 71 may be mounted to an exterior surface of insert mechanism 20. Locking mechanism 70 can be one or a combination of, a mechanical key locking mechanism, an electrically, mechanically, pneumatically, hydraulically, and/or magnetically actuated locking mechanism. Locking mechanism 70, latch 71, and strike plate 72, may also be mounted and housed inside the enclosure created by walls 22, 23, 24, 25 and bottom 148. Locking mechanism 70 controls latch 71 causing it to retract thereby freeing striker plate 72. The force applied to the structure of access door 26, base portion 79, and encasement portions 40 and 42 by actuator 74 is consequently released allowing access door 22 to rotate around pivot pin 78 until actuator 74 is fully extended or otherwise stopped. As actuator 74 extends, access door 26 swings to a position that provides an opening in the top section of insert mechanism 20 allowing designated user access to the contents therein.
a and 14b illustrate an embodiment of insert 20 adapted to receive a hand gun or other item at an orientation parallel to side walls 24 and 25. As illustrated, insert mechanism 20 includes walls 22, 23, 24, and 25 and bottom 148. Access door 26 is located opposite to bottom 148 and is coupled to the upper structure of insert mechanism 20 via a spring-loaded hinge. Moving platform 86 includes at least one encasement portion 40 and is mechanically coupled to slide/glide mechanism 87. A pulley 80 is mounted to a retainer or similar structure 85 in close proximity to access door 26 and wall 25. Tension spring 74 has a first end 75 is affixed to an inside surface of insert mechanism 20 on or near bottom 148 and directly below pulley 80. Cable 82 has a first end 83 attached to second end 76 of spring 74.
Cable 82 extends upward from a second end 76 of spring 74, into the groove that follows the circumference of pulley 80, over the top of pulley 80, and vertically down to moving platform 86. A second end 84 of cable 82 is attached to moving platform 86 at a location near a slide mechanism 87. Striker plate 72 is rigidly affixed to moving platform 86 and extends through an opening 73 in at least one of wall 22, 23, 24, and/or 25 and/or bottom 148 of insert mechanism 20. Door locking mechanism 70 controls latch 71 causing it to retract thereby freeing strike plate 72. The upward force applied to the moving platform 86 by spring 74 is consequently released, moving platform 86, including encasement mechanisms 40 and 42 and contents therein, upward until actuator 74 is fully relaxed or otherwise stopped. Moving platform 86 slides in a vertically upward direction forcing access door 26 to open and allowing a user access to the contents therein. In one embodiment, a pivoting rod member (not shown) has two pivoting ends, a first end affixed to a pivot mount located on an inside surface of access door 26 and a second end affixed to a pivot mount located on moving platform 86, to facilitate opening door 26.
a-15c are partial side views of a drop panel embodiment of insert mechanism 20 including at least one encasement portion 40. As illustrated, insert mechanism 20 includes walls 22, 23, 24, and 25 and bottom wall 148. Access door 26 is located opposite to bottom wall 148 and is coupled to the upper structure of insert mechanism 20 with a spring-loaded hinge 89. The embodiment of locking insert 20 illustrated in
A door locking mechanism 70 controls latch 71 causing it to retract thereby freeing striker plate 72. The downward force applied to sliding access door 27 by spring 74 via cable 82 is sliding access door 27 downward until spring 74 is fully relaxed or otherwise stopped. Sliding access door 27 slides in a vertically downward as the spring-loaded hinge 89 causes access door 26 to rotate open in an upward direction allowing the designated user(s) access to the contents of locking insert 20.
a-16c are rear and perspective views of an alternate embodiment of insert mechanism 20 including a portable locking compartment that houses items such as, but not limited to, jewelry, gems, personal heirlooms, wallet, cash, coins, credit cards, precious metals, keys, cell phone(s), prescription medication, software media, and/or confidential/important documents. The portable locking compartment permits a user to lock and protect personal items when going to the beach, community pool, doctor, and/or hospital, etc. As illustrated, insert mechanism 20 includes an upper encasement 21 having walls 22-25, and at least one door (two illustrated), a vertically lower encasement 30 having walls 31-34, and bottom wall 149. Vertically adjustable lower encasement 30 is configured to accommodate items of various dimensions and quantities.
An internally accessible analog and/or digital input device initiates a trigger to control circuitry to activate auxiliary automatic system generally indicated as 182 to increase or to decrease the depth of locking insert mechanism 20 by moving lower encasement 30 in a vertical direction. Auxiliary system 182 includes at least one electric gear motor w/drive gear/sprocket 184, chain/belt 185, one or more sprockets 186 with threaded tube portion 187, at least one threaded rod 188 and fixed tab 189. An inner bottom wall (not shown) may be used to separate the drive components from variable depth upper compartment 193. Motor 184 drives belt or chain 185 which in turn rotates sprockets 186. Sprockets 186 rotate threaded rods 187 to raise or lower upper portion 30a of lower encasement 30. Chain/belt 185 travels around the outside perimeter defined by walls 31, 32, 33, and 34 of lower encasement 30. Chain/belt 185 is chosen, adjusted, or modified to have a length to provide sufficient tension in the drive structure to keep the chain or belt taunt. An adjustable idler pulley or sprocket (not shown) may be utilized to keep the desired tension in chain/belt 185.
The geometry of upper encasement 21 and/or lower encasement 30 of insert mechanism 20 is not limited to a rectangular geometric shape or to a structure comprising a limited number of walls, doors, and/or panels. For example, and embodiment comprising a circular, oval, or spherical structure having at least one wall is hereby included. Any feasible geometric shape or structure including but not limited to a non-symmetrical structure may be utilized. In another embodiment, a plurality of encasements and mounting structures are mounted within locking insert mechanism 20 to separately house and/or secure various items.
a-17c are partial side, rear, and top views, respectively, of the locking insert mechanism 20 of
Lifting knob 131 in an upward direction causes actuator(s) 135 to retract into the structure of dock lock 130. This in turn disengages locking insert mechanism 20 from receiver 50 (
Dock lock 130 is positioned near the center of gravity of locking insert mechanism 20. An upward force applied to knob 131 of dock lock 130 performs a dual functionality of disengaging the locking structure of locking insert mechanism 20 and simultaneously lifting and separating locking mechanism 20 from receiver 50. In other embodiments, more than one dock locks 130 with locking insert mechanism 20 may be used. For example, a first dock lock 130 may be located in close proximity or adjacent to an inside wall 24 of insert mechanism 20 with a second dock lock 130 located in close proximity or adjacent to an inside wall 25 of insert mechanism 20.
a-18c are partial cut away rear and side views of dock lock 130 of
As illustrated, an outwardly facing end of actuator 135 is rounded or beveled in such a way that the rounded or beveled end presents a ramped surface to one or more inner wall portion(s) of at least one wall 51-54 of receiver 50 facilitating engagement of the actuator. As locking insert mechanism 20 is moved toward receiver 50, the ramped surface of one or more actuators 135 come into contact with at least one inner wall portion of one or more walls 51-54. The continued downward force exerted onto locking insert mechanism 20 after the point of contact applies a portion of the force applied to actuators 135 to be directed inwardly, compressing springs 137 and causing each actuator 135 to retract into actuator housing 134 of dock lock 130. This provides the required clearance for locking insert mechanism 20 to move into the docked position with regards to receiver 50. When locking insert mechanism 20 is in the docked position, an outward end portion of one or more of actuators 135 is physically aligned to a respective counter-bored detent 57 in at least one wall 51-54 of receiver 50 (
a-19b are partial side views of a second embodiment of dock lock 130 including lever 132, axle 141, at least one connecting rod 142, at least one actuator 135, at least one spring 137 and actuator housing 134. One end of lever 132 extends from actuator housing 134 so as to provide a user access to an end of the lever. Axle 141 is rotatably affixed to the internal structure of actuator housing 134. Lever 132 is coupled to axle 141 such that lever 132 pivots on the axle causing the end of lever 132 to move in an arc. One or more connecting rods 142 have a first end coupled to lever 132 at a distance away from axle 141 with a second end coupled to a respective actuator 135. Moving the end of lever 132 in a first direction applies a force to each connecting rod 142 causing connecting rod 142 to move a respective actuator 135 to a position extending from actuator housing 134 of dock lock 130. Moving the end of lever 132 in a second, opposite direction applies a force to each connecting rod 142 causing connecting rod 142 to move a respective actuator 135 to a position retracted into actuator housing 134 of dock lock 130. Moving the end of lever 132 in the first direction thereby extends at least one actuator 135 in a direction outward from locking insert mechanism 20 and into the opening of counter-bored detent 57, 58, or 59 in at least one wall 51-54 of receiver 50 (
A first end of at least one spring 137 is attached to actuator housing 134 of dock lock 130. A second end of at least one spring 137 is attached to lever 132 at a distance away from the coupling location of axle 141 to lever 132 in such a way as to place at least one spring 137 under a tension thereby applying a force to lever 132 and causing the end of lever 132 to move in the first direction. An outwardly facing end of each actuator 135 is rounded or beveled in such a way to facilitate engagement of locking insert 20 with at least one wall 51-54 of receiver 50. Actuator(s) 135 may be made from a flat material such as but not limited to metal plate stock of sheet metal rather than a round or square stock material. The utilization of such a flat stock material allows the structure of dock lock 130 to be made significantly narrower.
a-20c are partial side and side cut away views of embodiments of dock lock 130. The embodiment shown in
a and 22b are partial side and edge views of one embodiment of dock lock 130 mounted in the locking insert mechanism 20 of
a-24d are partial front views of externally accessible input devices 120 suitable for use with lock control system 129.
a illustrates an externally accessible input device 120 including a momentary ON-OFF-ON analog key switch 121. Inserting the key into the analog key switch 121 and momentarily rotating it in a first direction initiates a trigger to control circuitry 124 to activate at least one door locking mechanism 70 to retract latch 71 enabling at least one access door 26 and/or 27 of insert mechanism 20 to open. Inserting the key into the analog key switch 121 and momentarily rotating it in a second direction initiates a trigger to control circuitry 124 to activate at least one dock lock mechanism 130 to retract latch 135 enabling insert mechanism 20 to be removed from its mating receiver 50. This embodiment utilizes spring loaded latches 71 and 135 that physically retract then extend due to an inward linear force exerted and then removed when access door 26/27 is manually pushed closed and when insert mechanism 20 is manually inserted into receiver 50. Another embodiment of analog key switch 121 includes at least one additional switch or button 122 configured in such a way that the activation of switch or button 122 in combination with the activation of a first and/or a second direction of rotation of analog key switch 121 initiates a trigger to control circuitry 124 to close at least one access door 26 and/or 27 with an electric motor or similar actuating means. This method also applies in an embodiment utilizing a motorized or similar mechanism that automatically retracts insert mechanism 20 into receiver 50 and/or ejects mechanism 20 from receiver 50.
b illustrates an externally accessible input device 120 including momentary ON-OFF-ON analog barrel key switch 121. Analog barrel key switch 121 operates in essentially the same manner as key switch 121 of
c illustrates an externally accessible input device 120 comprising at least one momentary OFF-ON analog pushbutton switch 122. The at least one analog pushbutton switch 122 is depressed in a repetitive pattern of switch closures or a plurality of pushbuttons 122 are actuated in a first pre-defined sequence establishing a coded message to be sent requesting control circuitry 124 to activate at least one door locking mechanism 70 to retract latch 71 allowing access door 26 and/or 27 of insert mechanism 20 to open. When the plurality of pushbuttons 122 are actuated in a in a second pre-defined sequence, a different coded message is sent requesting control circuitry 124 to activate at least one dock lock mechanism 130 to retract latch 135 allowing insert mechanism 20 to be removed from mating receiver 50. In another embodiment, actuating a plurality of pushbuttons 122 using the same sequence of pushbuttons on a second occasion sends a signal to control circuitry 124 to close at least one access door 26/27 via a structure comprising an electric motor or similar mechanism. The method also applies to an embodiment including a motorized or similar mechanism that automatically retracts insert mechanism 20 into receiver 50 and/or automatically ejects mechanism 20 from receiver 50.
d illustrates a lock control system 129 including an externally accessible input device 120 having a digital fingerprint scan/recognition device 123. In one variation, access door 26 and/or 27 is allowed to open when digital fingerprint scan/recognition device 123 identifies an authorized user. Other biometric recognition devices, such as a retinal scanner, a palm vein scanner, and/or a facial scanner, etc. may be used. Another implementation uses at least one analog switch or button 122 in combination with digital fingerprint scan/recognition device 123. The identity of an authorized user is first verified and accepted by digital fingerprint scan/recognition device 123 and upon verification, at least one switch/button 122 is actuated to initiate a trigger causing control circuit 124 to activate one or more, but not limited to, locking mechanism(s) 70 and/or 130. The activation of a first switch/button 122 initiates a trigger causing control circuitry 124 to activate at least one door lock mechanism 70 to retract latch 71 thereby enabling at least one access door 26 and/or 27 of insert mechanism 20 to open. The activation of a second switch/button 122 initiates a trigger causing circuitry 124 to activate at least one dock lock mechanism 130 to retract latch 135 thereby allowing the separation of insert mechanism 20 from receiver 50. In another embodiment, after verification of an authorized user by digital fingerprint scan/recognition device 123, actuating at least one pushbutton 122 on a second occasion sends a request to control circuitry 124 to close at least one access door 26/27 with an electric motor or similar system. The method also applies in an embodiment including a motorized or similar mechanism that automatically retracts insert mechanism 20 into or toward receiver 50 and/or automatically ejects mechanism 20 from receiver 50.
One embodiment of the above mentioned radio transmitter/transceiver and/or wireless proximity device includes a notification/alert signal initiated by control circuitry 124 to at least one of the authorized user, security authorities, or wireless tracking system in the event that insert lock mechanism 20 has been wrongfully or unintentionally removed from the authorized user. Upon the determination of a wrongful or unintentional separation event, control circuitry 124 initiates at least one of an audible alarm, a wireless signal transmitted to a remote receiver, a signal to initiate geographical location tracking of locking insert mechanism 20 via GPS or other wireless tracking technology. The wrongful or unintentional separation event is determined by control circuitry 124 when a defined distance between the authorized user and insert lock mechanism 20 has been exceeded or when a wireless communication signal strength level between the authorized user and the device has fallen below a predetermined minimum level.
Automatic system 180 is configured to automatically open and/or close at least one access door 26/27 with an electric motor or similar device. Automatic system 181 is configured to automatically retract insert mechanism 20 into or toward receiver 50 and/or to automatically extend insert mechanism 20 from receiver 50 with an electric motor, solenoid or similar device. In one embodiment, auxiliary automatic system 182 alters the depth dimension of the locking insert mechanism 20 of
In different embodiments, two or more lock systems are utilized in connection with the locking insert mechanism and receiver disclosed herein. A first lock system is the access door lock system that locks and/or unlocks at least one access door 26 and/or 27 of locking insert mechanism 20. A second lock system is the dock lock mechanism 130 that locks and/or unlocks insert mechanism 20 to/from a mating receiver 50 when docking and/or separating the units. One or more of these lock mechanisms can be manually operated such as, but not limited to, a mechanical lock and key or security-type barrel lock and key. The lock mechanisms may also be electronically activated and electrically implemented utilizing a combination of electrical, mechanical, and/or electro-mechanical structure. The separate lock systems may have similar structure or dissimilar structures. For example, the access door lock system may be electronically controlled, with an electromechanical door lock mechanism and the dock lock system can comprise a completely manual lock structure) This does not preclude the use of pneumatic, hydraulic, magnetic, and/or wireless technologies and/or one or more combinations of various technologies. One or more of these lock systems can be accessed externally to the locking compartment of insert mechanism 20. One or more of these lock systems can be accessed and operated from inside the structure of insert mechanism 20 or, in the case of wireless data communication, such as various RFID and GPS technologies, part or all of the lock structures can be sealed within the structure of insert mechanism 20 and/or receiver 50 with no direct physical user access to lock control system 129 whether inside the locking compartment or external to the locking compartment of insert mechanism 20.
a, 26b, 26c, 26d, 26e, 26f, 26g, 26h, 26i, and 26j are various views illustrating applications wherein the locking insert system disclosed herein may be utilized. It is to be noted that the number of applications in which the locking insert and receiver disclosed herein may be used far exceeds the examples described here and the locking insert and receiver may be used in other applications. For example, the locking insert system may be used with personal attire such as a vest, belt, boot or with different wearable carrying means such as leg straps, harnesses, bags and packs.
a illustrates receiver 50 mounted to a bed frame. Locking insert mechanism 20 is inserted into and locked within receiver 50 allowing the authorized user(s) to have easy and quick access to the contents housed within locking insert mechanism 20 while in bed, in the bedroom, or in close proximity to the bedroom.
b illustrates an enclosure 150 having an access panel 151 that opens, allowing the authorized user(s) to have easy and quick access to the contents housed within locking insert mechanism 20. In one variation, enclosure 150 has a frame 151 that surrounds the outside edges of access panel 152. Enclosure 150 and frame 151 may be made to look like a picture frame or a mirror that is mounted onto a wall. The outside surface of frame 151 can be covered by, but not limited to, a photograph, painting, or a mirror. A hole 153 is cut in the wall or other surface to facilitate mounting enclosure 150 and frame 151 in a wall. Alternatively, enclosure 150 can also be mounted directly onto the wall or other surface without cutting a hole to facilitate recessing structure 153. Receiver 50 may be fastened to the back side of frame 151. Locking insert mechanism 20 may be inserted into and locked within receiver 50 allowing an authorized user to have easy and quick access to the contents housed within locking insert mechanism 20 while in close proximity to the area where receiver 50 is located.
c illustrates an enclosure 155 that resembles an alarm clock. Receiver 50 is fastened within the enclosure portion 156. Locking insert mechanism 20 is inserted into and locked within receiver 50. A faceplate 157 may be mounted onto enclosure portion 156 with a hinge, sliding, or detachable mechanism so positioned as to allow the faceplate to swing, pivot, slide, or be moved into a position that allows the authorized user(s) to have easy and quick access to the contents housed within locking insert mechanism 20. One embodiment of enclosure 155 includes a faceplate 157 that is a functioning clock.
d illustrates an embodiment described in connection with
e illustrates a portable carrying case such as a brief case, computer case, equipment/instrument case, suit case, tool case, makeup bag, or other portable case, luggage, or bag. Receiver 50 is fastened to at least one inside surface of the bag or case. Insert mechanism 20 is inserted into and locked within receiver 50 allowing the authorized user(s) to have easy and quick access to the contents housed within locking insert mechanism 20 while in close proximity to the bag or case.
f illustrates a cabinet or similar enclosure such a kitchen cabinet, a medicine cabinet, a laundry room cabinet, a portion of a hutch, home entertainment cabinet, or other furniture, a work bench or tool cabinet. Receiver 50 is fastened to at least one surface of the cabinet. Insert mechanism 20 is inserted into and locked within receiver 50 allowing an authorized user to have easy and quick access to the contents housed within locking insert mechanism 20 while in close proximity to the enclosure.
g illustrates a console or compartment of a car, truck, boat, RV, airplane, or motorcycle. Receiver 50 is fastened within the console or compartment with, for example, angled mount 100 of
h illustrates a dashboard of a car, truck, boat, RV, or other motor vehicle where a receiver 50 may be mounted. Other potential applications include an instrument cluster of an airplane or jet aircraft or a tractor or riding lawn mower. As illustrated, receiver 50 may be fastened within the glove box. Alternatively, receiver 50 may be recessed and fastened into the dashboard or instrument cluster. Receiver 50 may also be mounted beneath the dashboard/instrument cluster or mounted onto the tunnel or door panel of the vehicle. Receiver 50 may also be mounted on the floor or ceiling of a vehicle, under a seat, on a door or wall panel, or affixed inside the trunk. Again, locking insert mechanism 20 is inserted into and locked within receiver 50 allowing the designated user(s) to have easy and quick access to the contents housed within locking insert mechanism 20 while in/on the vehicle or while in close proximity to the vehicle.
i illustrates a table such as a work bench, nightstand, security desk or other workstation. A mounting hole is cut into the surface of the tabletop (or other surface) of sufficient size to allow receiver 50 to be recessed into the hole and thereby mounted. Locking insert mechanism 20 is inserted into and locked within receiver 50. This application provides an authorized user easy and quick access to the contents housed within locking insert mechanism 20 while in close proximity to the table/desk/workstation/nightstand.
j illustrates a desk with receiver 50 mounted inside a drawer of the desk. Alternatively, receiver 50 may be mounted to an external wall of the desk under the desktop and within the chamber where the user's legs are normally positioned. Again, locking insert mechanism 20 is inserted into and locked within receiver 50 allowing the designated user(s) to have easy and quick access to the contents housed within locking insert mechanism 20 while sitting at the desk or while in close proximity to the desk.
The present invention allows a designated user to safely and securely carry valuable and personal items such as jewelry, personal heirlooms, money and/or precious metals, confidential documents, software media, prescription medication, handguns and/or other weapons with them virtually everywhere he or she goes throughout the day and night. Only the authorized user(s) has access to the contents within locking insert mechanism 20. Only the authorized user(s) can remove locking insert mechanism 20 from one docking location to a second, third, fourth, etc. docking location. Unauthorized persons such as teenagers, children, thieves, criminals, etc. are locked out of locking insert 20.
a, 27b, and 27c are partial top and cut away side views of insert mechanism 20 of
a-28f are perspective views of a hand gun 198 illustrating a method to accommodate the use of locking insert mechanism 20 for items of various sizes and shapes, each item having unique dimensional parameters requiring a specific structure to house the item securely. Although the item presented in
a illustrates a handgun 198 having top hat profile member 195. Top hat profile member 195 can be made of aluminum, plastic, or any other feasible material. Top hat profile member 195 is selected having an inside height that is slightly greater than the height of the front sight of the handgun 198 and having an inside width that is slightly greater than that of the front sight. Top hat profile member 195 is cut to a length that is slightly shorter that the distance between the front and rear sights of the handgun. A temporary, removable adhesive is applied to the two flanged surfaces of top hat profile member 195 on a side of each flange that is between of top hat profile member 195 and the top surface of handgun 195. The adhesive may be applied during manufacturing of top hat profile member 195 with a peel-off tape that is to be removed just prior to this initiating the process herein described.
It is to be noted that any combinations in structure and/or function disclosed in the Detailed Description of the Invention or of the disclosed embodiments are hereby included within the scope of the claimed invention. Although the disclosed embodiments have been described in detail, it should be understood that various changes, substitutions, and alterations can be made to the embodiments without departing from their spirit and scope. The benefits, advantages, solutions to problems, and any element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced are not to be construed as a critical, required, or essential feature or element of the claimed invention. The claimed invention is not intended to be limited to the specific form set forth herein, but to the contrary, it is intended to cover such alternatives, modifications, and equivalents, as can be reasonably included within the spirit and scope of the invention as provided by the claims below.
This application claims benefit of U.S. Provisional Application No. 61/606,957, filed Mar. 5, 2012, entitled LOCKING INSERT MECHANISM AND RECEIVER TO SECURE PERSONAL WEAPONS, VALUABLES AND OTHER ITEMS, the specification of which is incorporated herein in its entirety.
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Number | Date | Country | |
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20140083338 A1 | Mar 2014 | US |
Number | Date | Country | |
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61606957 | Mar 2012 | US |