Disclosed herein are various embodiments of vehicle security shields, along with related methods of use and/or installation. In some embodiments and implementations, a ballistic-rated, transparent glazing may be either retrofit to, or permanently coupled during automobile manufacturing, with one or more windows of a vehicle, such as a police vehicle or another security vehicle. In other preferred embodiments, a portion of the shield, or the entire shield, may be removeable from the vehicle to allow an officer or other user to use the shield or shield portion as a portable, personal shield.
Preferably, the shield will either completely absorb or substantially reduce the kinetic energy of bullets or other projectiles to either keep the vehicle occupants safe, or at least reduce the severity and/or possibility of such injury. The insert-shield may also prevent or at least inhibit vehicle break-ins. Preferably, the insert-shield is installed so as to be spaced apart from the vehicle's original/existing glass in order to allow the original glass to operate as normal.
In some embodiments comprising two shield-layers, one of these shields (such as preferably an interior shield) may be removably coupled with the outer and/or primary insert-shield. For example, a sliding mechanism may be used such that the interior shield can slide out and be used as portable protection away from the vehicle. The interior shield may therefore comprise one or more handles to allow the insert-shield to be carried and used as a portable, personal shield.
In other embodiments comprising two or more shield-layers, the interior shield may be permanently coupled with the outer insert-shield and be configured so as to be installed and removed without tools in seconds and may be transferred to and used in another like-vehicle.
In other embodiments, the insert-shield may be of sufficient thickness itself to meet the minimum level of perceived threat.
In some embodiments, the outer insert-shield may comprise a CNC-fabricated flat panel of suitable, ballistic-grade material. The material used for the outer shield may vary in thickness around certain portions of the perimeter and/or on the main body. More particularly, the outer shield may either be formed with reduced thickness portions, such as flanges, at the top and/or bottom, or such flanges may be coupled to the top and/or bottom of the shield or such flanges may be routed from an original piece of material. These portions may allow the outer shield to be inserted into the existing space/groove between the inner door panel and the original/existing glass.
Preferably, the outer insert-shield is cut to fit/match, or at least substantially match, the shape of the original/existing window, but may exceed the height of the original window/opening slightly, such as, for example, by about between an inch and about two inches. At the top of the outer insert-shield, the flange may be bonded and/or mechanically attached to the door frame, such as in some embodiments with a very high bond (VHB) tape or a VHB-type attachment with hooks and loops (Velcro®) or Dual-Lock®, which may allow the outer shield to be quickly removed if desired. Preferably, the upper flange is positioned and configured so that it not only is positioned adjacent to the door frame, but also is thin enough so that it can be pinched and/or compressed between the door frame and the body frame of the vehicle (such as the rubber door gasket) without impeding the door from being fully closed.
The features, structures, steps, or characteristics disclosed herein in connection with one embodiment may be combined in any suitable manner in one or more alternative embodiments.
Non-limiting and non-exhaustive embodiments of the disclosure are described, including various embodiments of the disclosure with reference to the figures, in which:
A detailed description of apparatus, systems, and methods consistent with various embodiments of the present disclosure is provided below. While several embodiments are described, it should be understood that the disclosure is not limited to any of the specific embodiments disclosed, but instead encompasses numerous alternatives, modifications, and equivalents. In addition, while numerous specific details are set forth in the following description in order to provide a thorough understanding of the embodiments disclosed herein, some embodiments can be practiced without some or all of these details. Moreover, for the purpose of clarity, certain technical material that is known in the related art has not been described in detail in order to avoid unnecessarily obscuring the disclosure.
Apparatus, methods, and systems are disclosed herein relating to vehicle ballistic security. More particularly, vehicle ballistic security shields are disclosed herein that may be applied to existing vehicles, such as police vehicles or other security vehicles, or may be installed as such vehicles are manufactured, to provide protection from bullets, other projectiles, and/or unauthorized entry. In some embodiments, the security shield may include two independent shields/layers. In some such embodiments, one of these shields/layers may be removable to allow for use as a portable shield. In still other embodiments, shield layers may be rigidly coupled together via bonding and/or mechanical fasteners and act as one unit that may be inserted in vehicle door window frames for ballistic protection and removed to become a personal security shield.
The embodiments of the disclosure may be best understood by reference to the drawings, wherein like parts may be designated by like numerals. It will be readily understood that the components of the disclosed embodiments, as generally described and illustrated in the figures herein, could be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the apparatus and methods of the disclosure is not intended to limit the scope of the disclosure, as claimed, but is merely representative of possible embodiments of the disclosure. In addition, the steps of a method do not necessarily need to be executed in any specific order, or even sequentially, nor need the steps be executed only once, unless otherwise specified. Additional details regarding certain preferred embodiments and implementations will now be described in greater detail with reference to the accompanying drawings.
Outer insert-shield 110 may be preferably, permanently, or at least more permanently, coupled with the vehicle. Thus, in some embodiments, outer insert-shield 110 may be machined or otherwise formed within an upper and/or lower portion that may be positioned within an opening within the vehicle. Thus, as shown in
The upper end of outer insert-shield 110 may also be machined or otherwise formed with a reduced thickness flange 114. This may allow the vehicle door to continue to close following installation. Preferably, the thickness of flange 114 is such that it can be positioned between the chassis door frame 12 and the window/door frame 10 when the door is closed. Because the preferred thickness of the main body of the outer insert-shield 110 would not allow the door to be closed in this manner, providing a reduced thickness flange 114 may be useful. In preferred embodiments, flange 114 may have a thickness of between about 0.12 and about 0.5 inches. In some such embodiments, the thickness of flange 114 may be about 0.25 inches. However, these dimensions, along with various other dimensions set forth herein, may vary as needed in accordance with different vehicle specifications.
It is preferred that outer insert-shield 110 be formed to have a shape that is at least as big as and/or matches, or at least substantially matches, that of the existing window/glass 15, at least in two dimensions (as discussed below, unlike typical vehicle windows, shield 110 may be flat in the third dimension). This is preferable to avoid regions in the existing window/glass 15 that are left unprotected by assembly 100 and therefore may allow for projectiles to pass therethrough and/or may allow for unauthorized vehicle entry.
Outer insert-shield 110 (and inner shield 120 if desired) are preferably made up of a transparent glazing material to allow it to be positioned adjacent to (internal to) a vehicle window/glass so that the officer/driver/occupant can be protected by assembly 100 and still be able to look out of the window. The material used is preferably bulletproof, or at least bullet resistant so as to serve as a ballistic protective barrier. In preferred embodiments, a transparent, polycarbonate plastic or combination of various laminated plastics (which may contain ceramics and/or acrylics) may be used, such as ballistic-grade, Bayer® Makrolon® polycarbonate sheets. In preferred embodiments, the thickness of outer shield 110 may range from between about 0.5 and about 1.25 inches. In some such embodiments, the thickness of outer insert-shield may be about 0.5 inches.
The inner shield 120 may be thicker than or thinner than the outer insert-shield 110. Thus, in preferred embodiments, the thickness of inner shield 120 may range from between about 0.5 and about 1 inches. In some such embodiments, the thickness of inner shield 120 may be about 0.75 inches.
In certain preferred embodiments, the combination of the two layers/shields may be sufficient to satisfy at least level the minimum level of protection specified by a customer. In preferred embodiments, the minimum level of protection may be Level 1 of the Standard Underwriters Laboratory Protection Level Ratings for bullet-resistant systems or Level IIIA from the National Institute of Justice (“NIJ”). The tradeoffs are a balance between the weight of the assembly and the minimum protection provided against various types of threats ranging from a hand-gun to a rifle. For example, a material thickness may be 0.500″ may be necessary to protect against a 0.9 mil handgun and perhaps up to 2.500″ of material to protect against rounds from certain rifles. In some embodiments, it may be preferable for the outer shield to be approximately 0.500″ thick, protecting against lower caliber weapons, with a smaller (in area) inner shield that may be 1.250″ thick positioned to protect the head and torso from higher caliber weapons. The thicknesses of each of the outer insert-shield and inner shield may vary depending upon customer specifications. Thus, this layered shield would have an overall lower weight than if the entire outer insert-shield were 1.500″ thick.
In embodiments configured to be applied to side windows of police cars or other vehicles, it is also preferable that shield assembly 100 be coupled with a vehicle so as to allow the original/existing window to be operational following installation. In some embodiments, this may be accomplished by, for example, providing a spacing/gap 18 in between the original window/glass 15 and the outer surface of outer shield 110, as shown in
As also shown in both
More particularly, in practice, when it is desired to remove inner shield 120 for use as a portable shield, inner shield 120 may be slid parallel to the vehicle window 15 and the outer shield 110 (with the vehicle door open). Similarly, when it is desired to return inner shield 120 to assembly 100, inner shield 120 may be inserted into the channels formed by coupling members 125a and 125b and slid into place behind the outer shield 110. It is contemplated that, in alternative embodiments, a single rail, such as only lower rail 125 may be used. Although in the depicted embodiment the means for releasably coupling inner shield 120 to outer shield 110 and/or the vehicle comprises a means for slidably coupling inner shield 120 to outer shield 110 and/or the vehicle, alternative embodiments are contemplated in which the inner shield may be coupled in alternative ways. For example, in some embodiments, the two shields may be permanently coupled. In other embodiments, the inner shield 120 may be releasably coupled using, for example, a releasable hook and loop or other fastener fabric, one or more groove/projection pairs or any other suitable coupling structure(s). In still other embodiments, only a single shield may be provided.
As also shown in
Although
Similarly, in some embodiments, the upper flange 314 may have a length (in this cross-sectional view) of between about 0.5 inches and about 1.5 inches. In some such embodiments, the upper flange 314 may have a length of about 1.5 inches. In some such embodiments, or in alternative embodiments, thus, assembly 300 may be configured such that the upper flange 314 exceeds the height of the original/existing vehicle glass by between about 0.5 and about 2 inches. In some such embodiments, assembly 300 may be configured such that the upper flange 314 exceeds the height of the original/existing vehicle glass by about 1.5 inches. As stated previously, the cross-sectional lengths of the upper and lower flanges will be dependent upon and specific to each vehicle's model-type and year.
As with assembly 100, assembly 300 further comprises a pair of channels 325a and 325b that together comprise a holster or means for releasably coupling inner shield 320 to outer shield 310 and/or a vehicle. In the depicted embodiment, these channels may be defined by anodized U-shaped members. However, other structures may be used, such as L-shaped, Z-shaped, and h-shaped members, as well as alternative materials. If sufficiently flexible materials are used, inner shield 320 may be coupled with outer shield 310 by simply pressing inner shield 320 against outer shield 310, as shown in the arrow of
Assembly 300 may further comprise one or more handles 330, which, as previously mentioned, may be used to facilitate removal of shield 320 and/or be used to facilitate gripping/use of shield 320 as a portable shield following such removal.
In addition, assembly 400 comprises a pair of handles 430 positioned adjacent to the bottom and top ends of inner shield 420 to facilitate removal and use of inner shield 420 as a portable shield, as previously mentioned.
As also shown in
In some embodiments, fasteners 415 may comprise quick-release fasteners to allow for the outer shield 410, or the entire assembly 400, to be removed. This may be useful, for example, in order to allow the outer shield 410 to be cleaned. In some such embodiments, the quick-release fasteners may comprise a mounting stud, washers, mounting nuts, and a latching body, which may comprise a quick-release button or other actuation mechanism to allow for release of the latching body. In other embodiments, the fastener may be a quick-release fabric or plastic like Velcro® or Dual-Lock® respectively. The latching body may be mounted to the outer shield 410. Such quick-release fastening assemblies are therefore an example of a means for releasably mounting an outer shield to a vehicle window and/or door frame.
Although not shown in
An opening with direct access to the outside of the vehicle when the vehicle window glass is lowered may provide the benefits of ventilation, the ability to talk to others or pay tolls, or the ability to fire a weapon through the opening from the inside of the vehicle. Insert-shield opening 510o may be substantially overlapped with cut-out 5210 in inner shield 521 on one end. Cut-out 5210 may serve as a channel for sliding door 513. Sliding door 513 may be comprised of the same material at the same thickness as inner shield 521. As shown with the two-sided arrow, sliding door 513 may be moved to the left to fully expose opening 510 or moved to the right to completely cover opening 510. Bottom rail 525a and top rail 525b may be coupled to inner shield 521 and insert-shield 510 via fasteners 526; said rails serving to act as a holster as previously described to contain sliding door 513 during operation. Spacer 541 may increase the needed space to allow sliding door 513 to move more freely in cut-out 521o. The thickness of sliding door 513 may preferably be sufficient to provide the specified level of protection to the vehicle occupant.
So that the insert-shield assembly 500 may be carried by the user, handles 530 may be coupled along rails 525a and 525b (shown horizontally in the embodiment of
An opening with direct access to the outside of the vehicle when the vehicle window glass is lowered may provide the benefits of ventilation, the ability to talk to others or pay tolls, or the ability to fire a weapon through the opening from the inside of the vehicle.
Insert-shield opening 610o may be covered as needed by sliding door 613 that may be comprised of the same material at the same or a different thickness as insert-shield 620. As shown with the two-sided arrow, sliding door 613 may be moved to the left to fully expose opening 610 or moved to the right to completely cover opening 610. A containment pocket may be created by orienting lower standoff 627a and upper standoff 267b in a manner to contain sliding door 613. Standoffs 627a/627b may be the same thickness as or a thickness slightly greater than sliding door 613. Bottom rail 625a and top rail 625b may be coupled to standoffs 627a and 627b respectively and insert-shield 610 via fasteners 626 and overlap over sliding door 613; said rails serving to act as a holster as previously described to contain sliding door 613 during operation. Spacer 641 may increase the needed space to allow sliding door 613 to move more freely in cut-out 621o. The thickness of sliding door 613 may preferably be sufficient to provide the specified level of protection to the vehicle occupant.
So that the insert-shield assembly 600 may be carried by the user, handle 630 may be coupled from the left side of lower and upper rails 625a and 625b respectively (shown vertically in the embodiment of
The following may be one method to install, without tools, one or more of the quick-release insert-shield assemblies contemplated herein:
1. The door of the vehicle should be open with its window in the fully retracted position. This further assumes that the mating portion of any fastener system has been affixed to the top of the window frame of the door.
2. Position the back of the lower flange of the insert-shield assembly to the groove into which the window retracts and then lower the remaining forward portion of the lower flange into said groove ensuring that any gaskets/seals are oriented to their proper position, usually pointed cup′. At this point, the top flange may be 4 to 24 inches away from the top of the door's window frame.
3. Push the upper flange toward the top of the door's window frame until the quick-release fasteners make contact and couple.
The following may be one method to operate one or more of the insert-shield assemblies contemplated herein:
1. Open and close the vehicle door as needed.
2. Open and close the vehicle's stock glass window as needed.
3. Open and close the sliding door of the insert-shield assembly as needed.
The following may be one method to uninstall one or more of the quick-release insert-shield assemblies contemplated herein:
1. Pull the top flange away from the upper portion of the door's window frame until the quick-release fasteners disengage and the angle of the top of the flange is 20 to 45 degrees.
2. Lift up on the insert-shield assembly either uniformly or beginning at one of the two ends and remove the assembly until it is free of the car door frame.
3. If the insert-shield is needed as a personal shield, grasp the handle and rotate the now personal-shield to the proper orientation for use.
In
In some embodiments, quick-release fasteners 775 may comprise quick-release fasteners to allow for the shield 720 to be quickly removed. In preferred embodiments, the quick-release fastener may be a latching body mounted to support member 771 comprised of an arm that rotates about axis 775x, said arm engaging shield 720 to hold in in place as desired, and said arm rotated out of the path of shield 720 when it is desired to remove shield assembly 722. In other embodiments, the quick-release fasteners may comprise a quick-release button or other actuation mechanism to allow for release of the latching body. Such quick-release fastening assemblies are therefore an example of a means for releasably mounting a shield to a vehicle window and/or door frame.
In preferred embodiments, fasteners 777 that couple support member 771 to the window frame components 10f and 10r, may be, for example, Z-brackets, that are themselves mechanically fastened to the window frame components. As an example, the first flange portion of the Z-bracket may be fastened to the side of the window frame component facing the viewer in
In preferred embodiments, shield body 720 may be machined or otherwise formed, e.g., router, to comprise a lower portion/flange 712 that may be positioned toward the outer surface of the shield to fit within/between a window retraction slot 10g of the vehicle door. Thus, as shown in
In some embodiments, either in addition or as an alternative to such permanent fasteners 777, a tape may be used, such as a double-sided, very high bond (VHB) tape. In still other embodiments, a removable tape or other means for coupling may be used such as VELCRO® or another hook-and-loop material or Dual-Lock®. This may allow for removing the entire shield system 700 if desired.
It may be preferred that system 700 be formed to have a shape that is substantially similar to the existing window/glass 15 and a size that may be between 70% to 100% of the surface area of the existing window/glass 15, in at least in two dimensions (unlike typical bowed vehicle windows, shield body 720 may be flat in the third dimension). This is preferable to avoid regions in the existing window/glass 15 that is left unprotected by system 700 and therefore may allow for projectiles to pass therethrough and/or may allow for unauthorized vehicle entry. However, in some specifications, officers may prefer to have the system 700 protect them from projectiles from hidden angles while having open space from the more visible angles, in preferred embodiments, the more front angles, so they may communicate with others outside the vehicle.
Shield body 720 and/or support member 771 may preferably be comprised of transparent glazing material to allow them to be positioned adjacent to (internal to) a vehicle window/glass so that the officer/driver/occupant can be protected by system 700 and still be able to see out of the window. The material used is preferably bulletproof, or at least bullet resistant so as to serve as a ballistic protective barrier. In preferred embodiments, a transparent, polycarbonate plastic or combination of various laminated plastics (which may contain ceramics and/or acrylics) may be used, such as ballistic-grade or bullet resistant, Bayer® Makrolon® polycarbonate sheets. In various embodiments, the thickness of shield body 720 may range from between about 0.5 and about 1.50 inches depending upon the threat. In preferred embodiments to mitigate threats against handguns, the preferred thickness is between about 0.75 to 1.0 inches. In some such embodiments, the thickness of insert-shield 720 may be about 0.5 inches. In various embodiments, the thickness of support member 771 may range from between about 0.5 and about 1.5 inches depending upon the threat.
In preferred embodiments, the minimum level of protection may be Level 1 of the Standard Underwriters Laboratory Protection Level Ratings for bullet-resistant systems or Level IIIA from the National Institute of Justice (“NIJ”). The tradeoffs are a balance between the weight of the insert shield assembly 722 and the minimum protection provided against various types of threats ranging from a hand-gun to a rifle. For example, a material thickness may be 0.750″ may be necessary to protect against a 0.9 mil handgun and perhaps up to 2.500″ of material to protect against rounds from certain rifles. In some embodiments, it may be preferable for insert shield 720 to be approximately 1.00″ thick.
In embodiments configured to be applied to side windows of police or other vehicles, it is also preferable that shield system 700 be coupled with a vehicle so as to allow the original/existing window to be operational following installation. In some embodiments, this may be accomplished by, for example, providing a spacing/gap 18 in between the original window/glass 15 and the outer surface of outer shield 110, as shown in
As also shown in
As also shown in
The following may be one method to install, without tools, one or more of the quick-release shield assemblies contemplated herein, assuming the retaining assembly 770 has been secured to a door frame:
1. The door of the vehicle may be opened or closed. The window may be fully retracted, fully extended, or partially extended.
2. Position the one side of the lower flange (when holstered) of the shield into the window retraction slot and then lower the remaining portion of the lower flange into said slot. The top edge of the shield should lean toward the interior of the vehicle.
3. Push the upper edge of the shield toward the support assembly until it contacts the guide, then turn quick-release fastener(s) into retention position so that the shield is contained.
The following may be one method to uninstall one or more of the quick-release insert-shield assemblies contemplated herein:
1. Turn quick-release fastener(s) to a position that does not contain the shield.
2. Tilt the top edge of the shield (when holstered) toward the interior of the car.
3. Lift the lower flange from the window retraction slot by lifting up on the handle until it is free from the door frame.
4. If the shield is needed as a personal shield, grasp the handle and rotate the now personal-shield to the proper orientation for use.
In the embodiment depicted in
To holster the insert shield, the user positions shield body 820 on a slight angle and slides flange 812 beneath a wing of flange retainer 851. Once flange 812 is positioned, the opposite long side of shield body 820 is moved towards and against the door panel and quick-release fastener arm 875a is moved to engage and hold shield body 820. To unholster the insert shield, the user turns the fastener arm 875a back over the body of the quick release fastener, angles that side of the shield body 820 away from the quick release fastener and removes flange 812 from the flange retainer 851. The bottom side of shield body 820 will rest on the arm rest 12 of the vehicle door. A significant portion of shield body 820 will be adjacent to vehicle window 15 in order to provide ballistic protection to both the head, neck, and upper shoulder areas of the occupant. In addition, the lower part of the shield will provide ballistic protection to the user's torso.
A significant portion of shield body 920 will be adjacent to vehicle window 15 in order to provide ballistic protection to both the head, neck, and upper shoulder areas of the occupant. In addition, the lower part of the shield will provide ballistic protection to the user's torso.
A significant portion of shield body 1020 will be adjacent to vehicle window 15 in order to provide ballistic protection to both the head, neck, and upper shoulder areas of the occupant. In addition, the lower part of the shield will provide ballistic protection to the user's torso.
In the embodiment depicted in
To holster the insert shield, the user positions shield body 1120 on a slight angle and slides flange 1112 beneath a wing of flange retainer 1151. Once flange 1112 is positioned, the opposite long side of shield body 1120 is moved towards and against the door panel and quick-release fastener arm of fastener 1175 is moved to engage and hold shield body 1120. To unholster the insert shield, the user turns the fastener arm 1175 back over the body of the quick release fastener, angles that side of the shield body 1120 away from the quick release fastener and removes flange 1112 from the flange retainer 1151. The bottom side of shield body 1120 will rest on the arm rest 12 of the vehicle door. A significant portion of shield body 1120 will be adjacent to vehicle window 15 in order to provide ballistic protection to both the head, neck, and upper shoulder areas of the occupant. In addition, the lower part of the shield will provide ballistic protection to the user's torso.
In some instances, a shield body 1120 may be less thick than other shields. In these instances a spacer 1175c may be utilized to ensure the shield body 1120 properly fits.
Shield body 1220 may be any thickness to reduce or eliminate a ballistic threat. The shape of shield body 1220 may differ from other shield bodies disclosed herein as it may not substantially be rectangular. For example, the width of the upper portion of shield body 1220, may be wider than the lower portion of shield body 1220 immediately above strap 1256. This narrowing in of the bottom width from the top width may range from 0.00″ to 10.00 inches. This additional width may provide the officer more protective coverage both in the vehicle and when away from the vehicle. One or both bottom sides may be indented from the upper side. This bottom width narrowing may assist in easily removal and placement of the shield body in the retaining assembly.
Handle 1230 is positioned high enough on the upper portion of shield 1220 so that the forces of gravity do rotate the shield in a user's hand.
In the embodiment depicted in
In some embodiments in which the bottom of shield body 1220 extends to arm rest 12, retention bracket 1257 may be coupled to door arm rest 12 in order to retain the bottom edge of shield 1220. In other embodiments in which the bottom edge of shield body 1220 is desired not to extend to arm wrest 12, then retention bracket 1257 may be coupled to door panel 11 (not shown) in order to retain the bottom edge of shield body 1220.
To holster the inset shield, the user may slide the bottom edge of shield 1220 between strap 1258 and door panel 11 and secure the bottom edge of shield 1220 within retention bracket 1257. Alternatively, the bottom edge of shield 1220 may be placed within retention bracket 1257 and the strap or straps may be fastened or fastened together as previously discussed depending if the strap system is comprised of one or two straps. Shield 1220 may be removed in the reverse fashion.
The foregoing specification has been described with reference to various embodiments and implementations. However, one of ordinary skill in the art will appreciate that various modifications and changes can be made without departing from the scope of the present disclosure. For example, various operational steps, as well as components for carrying out operational steps, may be implemented in various ways depending upon the particular application or in consideration of any number of cost functions associated with the operation of the system. Accordingly, any one or more of the steps may be deleted, modified, or combined with other steps. Further, this disclosure is to be regarded in an illustrative rather than a restrictive sense, and all such modifications are intended to be included within the scope thereof. Likewise, benefits, other advantages, and solutions to problems have been described above with regard to various embodiments. However, 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, a required, or an essential feature or element.
Those having skill in the art will appreciate that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention.
Number | Date | Country | |
---|---|---|---|
Parent | 16510797 | Jul 2019 | US |
Child | 16933998 | US | |
Parent | 16045871 | Jul 2018 | US |
Child | 16510797 | US |