The present disclosure generally relates to a support assembly, and more specifically, to a support assembly for an appliance.
According to one aspect of the present disclosure, a vacuum insulated appliance includes an outer wrapper and an inner liner positioned within the outer wrapper. A ladder rack is coupled to the inner liner. The ladder rack includes first and second sidewalls coupled together via a connecting wall that defines a plurality of apertures. An adapter member includes a hook configured to extend through an aperture of the plurality of apertures when coupled to the ladder rack. The adapter member is coupled with a locking member that engages inner surfaces of the first and second sidewalls of the ladder rack. A cantilever support is coupled to the adapter member and extends outward from the ladder rack. A rail assembly is coupled to an upper surface of the cantilever support. A spacer is coupled to an end of the cantilever support and abuts an inner liner surface. A storage feature is coupled to the rail assembly and operable between stowed and deployed positions.
According to another aspect of the present disclosure, an appliance support assembly includes an inner liner and a ladder rack coupled to the inner liner. The ladder rack includes first and second sidewalls. A cantilever support is coupled to the ladder rack and extends outwardly therefrom. A rail assembly is disposed on an upper surface of the cantilever support. A spacer is coupled to an outer surface of the cantilever support and abuts an inner liner surface. A locking member is coupled to the cantilever support and engages the first and second sidewalls of the ladder rack. A storage feature is coupled to the rail assembly and is operable between stowed and deployed positions.
According to yet another aspect of the present disclosure, a support assembly for an insulated appliance includes first and second ladder racks coupled to an inner liner of said insulated structure and are spaced-apart from one another. First and second adapter members are coupled to the first and second ladder rack. First and second cantilever supports are coupled to the first and second ladder racks via the first and second adapter members. A locking member engages one of the first and second ladder racks and one of the first and second adapter members. First and second rail assemblies are disposed on the first and second cantilever supports. A storage feature is coupled to the first and second rail assemblies and is operable between stowed and deployed positions.
These and other features, advantages, and objects of the present disclosure will be further understood and appreciated by those skilled in the art by reference to the following specification, claims, and appended drawings.
In the drawings:
The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles described herein.
The present illustrated embodiments reside primarily in combinations of method steps and apparatus components related to a support assembly for an appliance. Accordingly, the apparatus components and method steps have been represented, where appropriate, by conventional symbols in the drawings, showing only those specific details that are pertinent to understanding the embodiments of the present disclosure so as not to obscure the disclosure with details that will be readily apparent to those of ordinary skill in the art having the benefit of the description herein. Further, like numerals in the description and drawings represent like elements.
For purposes of description herein, the terms “upper,” “lower,” “right,” “left,” “rear,” “front,” “vertical,” “horizontal,” and derivatives thereof shall relate to the disclosure as oriented in
The terms “including,” “comprises,” “comprising,” or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. An element proceeded by “comprises a . . . ” does not, without more constraints, preclude the existence of additional identical elements in the process, method, article, or apparatus that comprises the element.
Referring to
Referring to
The appliance 10, as illustrated in
In various examples, the one or more insulation materials may substantially fill the insulating cavity 118 to form a substantially continuous layer between the outer wrapper 14 and the inner liner 18. A vacuum 122, or at least a partial vacuum 122, may be defined within the insulating cavity 118 and may define a pressure differential between an exterior 126 of the appliance 10 and the insulating cavity 118. This pressure differential may serve to define an inward compressive force that may be exerted upon one and/or both of the outer wrapper 14 and the inner liner 18. This pressure differential also tends to bias the outer wrapper 14 and the inner liner 18 toward the insulating cavity 118 of the appliance 10. The vacuum 122 within the insulating cavity 118 also tends to cause gas to infiltrate the insulating cavity 118 from an area exterior to the appliance 10. This infiltration of gas is sometimes referred to as gas permeation.
The outer wrapper 14 and the inner liner 18 may be configured to form the cabinet 102 of the appliance 10. In this way, the outer wrapper 14 may have a three-dimensional shape and may define a central cavity 130. The inner liner 18 may correspond with the outer wrapper 14 and may have a plurality of panels 134. Each of the plurality of panels 134 includes the inner liner surface 86. Additionally or alternatively, the plurality of panels 134 of the inner liner 18 may form an inner cavity 138. It is generally contemplated that the inner liner 18 may be received within the central cavity 130 of the outer wrapper 14, and thus partially defines the insulating cavity 118. Stated differently, the inner liner 18 may be positioned within the outer wrapper 14 and may define the insulating cavity 118 therebetween. According to various aspects, the outer wrapper 14 and the inner liner 18 may include materials that are capable of at least partially resisting, bending, biasing, or otherwise being formed in response to the inward compressive force. These materials may include, but are not limited to, metals, plastics, polymers, metal alloys, combinations thereof, and/or other similar substantially rigid materials that can be used for vacuum insulated structures within appliances 10.
It is contemplated that the trim breaker 114 may be coupled to outer edges 142, 146 of the outer wrapper 14 and the inner liner 18. As illustrated in
Referring again to
According to various aspects, the first support assembly 154 may include first and second ladder racks 158, 162 coupled to the inner liner 18. As illustrated in
Referring to
According to various aspects, the cantilever support 66 may be mechanically fastened to the adapter member 42. In this way, the cantilever support 66 and the adapter member 42 may be coupled together via a mechanical fastener, such as, for example, a screw, a bolt rivet, or other similar fasteners. The cantilever support 66 may include materials that can work and support the storage features 90 (
In various examples, an upper portion 194 of the adapter member 42 may be configured to receive the locking member 54. The adapter member 42 may define a notch 198 proximate the second end 182 of the cantilever support 66. Additionally or alternatively, the adapter member 42 may define a cutout 202 spaced-apart from the notch 198. The cutout 202 may be advantageous for preventing and/or minimizing interference between the locking member 54 and the adapter member 42 when assembled to the ladder rack 22 (
Referring still to
Referring still to
The rail assembly 70 may be disposed on the upper surface 74 of the upper support wall 178 of the cantilever support 66. The rail assembly 70 may include a rail 226 fixedly coupled to the upper support wall 178 of the cantilever support 66. A rail slide 230 may slidably engage the rail 226. The rail slide 230 may be coupled to the rail 226 and be configured to slide fore and aft relative to the rail 226. In this way, when the rail slide 230 moves fore and aft relative to the rail 226, the rail slide 230 may define the stowed and deployed positions 94, 98.
Referring now to
The first support assembly 154 may include a first locking member 258, which includes the first and second arms 206, 210 and the connector 214. The connector 214 of the first locking member 258 may be disposed within the notch 198 defined by the first adapter member 242. A first rail assembly 262 may be disposed on the upper support wall 178 of the first cantilever support 238. The first rail assembly 262 may include the rail 226 fixedly coupled to the first cantilever support 238 and the rail slide 230 slidably engaged with the rail 226. Additionally or alternatively, the first support assembly 154 may include a first spacer 266. The first spacer 266 may include a protrusion 270 that extends therefrom. The protrusion 270 may engage a receiving aperture 274 defined by the first cantilever support 238. As illustrated in
In various examples, the storage features 90 may also be supported by the second support assembly 234. According to various aspects, the second support assembly 234 may be a mirror image of the first support assembly 154. The second support assembly 234 may include a second cantilever support 282 that is coupled to a second adapter member 286. The second adapter member 286 may include the coupling portion 246 configured to be inserted within the interior of the second cantilever support 282. The coupling portion 246 of the second adapter member 286 may be mechanically fastened to the second end 182 of the second cantilever support 282. Similar to the first adapter member 242, the rear edge 250 of the second adapter member 286 may have a height greater than the height of the front edge 254 of the second adapter member 286. The front edge 254 may have a height that corresponds to the second end 182 of the second cantilever support 282. The rear edge 250 of the second adapter member 286 may have a greater height to increase the surface area of the second adapter member 286 that engages with the second ladder rack 162.
According to various aspects, the second support assembly 234 may include a second locking member 290, which may include the first and second arms 206, 210 and the connector 214. The connector 214 of the second locking member 290 may be disposed within the notch 198 defined by the second adapter member 286. The first and second arms 206, 210 of the second locking member 290 may extend outward and away from the second cantilever support 282.
Additionally or alternatively, the second support assembly 234 may include a second rail assembly 294 disposed on the upper support wall 178 of the second cantilever support 282. The second rail assembly 294 may include the rail 226 coupled to the second cantilever support 282 and the rail slide 230 slidably engaged with the rail 226. In various examples, the first and second rail assemblies 262, 294 may simultaneously translate. In this way, the first and second rail assemblies 262, 294 may simultaneously move first and second sides 298, 302 of the storage feature 90, which may provide easier movement between the stowed and deployed positions 94, 98 (
Referring still to
In various examples, the first and second ladder racks 158, 162 may have substantially similar configurations to one another. Each of the first and second ladder racks 158, 162 may include the first sidewall 26 and the second sidewall 30. The first and second sidewalls 26, 30 may be spaced-apart from one another. The first and second sidewalls 26, 30 may be coupled to one another via the connecting wall 34. The connecting walls 34 of each of the first and second ladder racks 158, 162 may each define the plurality of apertures 38. In various examples, each connecting wall 34 may be configured as a plurality of connecting walls 34 spaced-apart by the respective plurality of apertures 38.
Referring to
Additionally or alternatively, the first adapter member 242 may extend outward beyond the second edge 314 of the storage feature 90 when the storage feature 90 is in the stowed position 94 and the deployed position 98 (
According to various aspects, the receiving aperture 274 that is defined by the first cantilever support 238 may be disposed proximate the first end 82 of the first cantilever support 238 and the first edge 310 of the storage feature 90 when in the stowed position 94. The first spacer 266 may be coupled to the outer surface 278 of the first cantilever support 238 and the protrusion 270 may extend toward the first side 298 of the storage feature 90. The storage feature 90 may be coupled to the rail slide 230 of the first rail assembly 262. In various examples, a top edge 318 of the storage feature 90 may be coupled to the rail slide 230. It is contemplated that the second support assembly 234 may be similarly configured without departing from the teachings herein.
As illustrated in
Other configurations of the storage feature 90 may be similarly arranged with the first and second support assemblies 154, 234. In such configurations, for example, where the storage feature is a shelf, a wine rack and/or a bin the first and second support assemblies 154, 234 may extend at least a portion of the depth of the storage feature 90 when in the stowed position 94. Further, in such examples, the storage feature 90 may be operable between the stowed and deployed positions 94, 98 by the first and second rail assemblies 262, 294. This may be advantageous for providing increased access to the storage feature 90. In configurations where the storage feature 90 may not include the front panel 322, the first and second support assemblies 154, 234 may be at least partially visible to a user.
Referring to
The projection 186 may extend through one aperture 50 adjacent to the hook 46. Stated differently, the hook 46 extends through one aperture 50 and the projection 186 extends through another adjacent aperture 50. The projection 186 may extend through an aperture 50 that is disposed vertically below the aperture 50 the hook 46 extends through. In various examples, the projection 186 may have a height that corresponds to a height of the aperture 50 through which the projection 186 extends. In this way, the projection 186 may abut one or both inner edges 334 of the connecting wall 34 that define the aperture 50.
The engagement of the hook 46 and the projection 186 with the connecting wall 34 may couple the first adapter member 242 to the first ladder rack 158. Additionally or alternatively, the rear edge 250 may abut the connecting wall 34 which may provide additional stability to the first support assembly 154. According to various aspects, the first locking member 258 may be coupled to the first adapter member 242 and engage the first ladder rack 158. The connector 214 may be disposed in the notch 198 defined by the first adapter member 242. The first arm 206 may extend from the connector 214 toward the rear edge 250 of the first adapter member 242 in a substantially horizontal manner. In various examples, the first locking member 258 may engage the first ladder rack 158 in an interference fit. This may be advantageous to increase the stability of the second end 182 of the first cantilever support 238.
Additionally or alternatively, the first locking member 258 may engage the first and second sidewalls 26, 30 of the first ladder rack 158 to lockably engage the first adapter member 242 to the first ladder rack 158. As illustrated in
Referring to
Referring to
The first spacer 266 may be disposed within a gap 338, defined between the inner liner surface 86 and the first cantilever support 238. A position of the first spacer 266 relative to the outer surface 278 of the first cantilever support 238 may be adjustable by rotation of the first spacer 266 in the receiving aperture 274. Adjustment of the first spacer 266 may correspondingly adjust the size of the gap 338 that is defined between the first cantilever support 238 and the inner liner surface 86. Stated differently, the gap 338 can be adjusted in response to adjustment of the position of the first spacer 266 relative to the outer surface 278 of the first cantilever support 238. In this way, the gap 338 may be adjusted via rotation of the first spacer 266. The gap 338 may be advantageous for improving airflow within the cabinet 102 of the appliance 10. Additionally or alternatively, the gap 338 may increase the uniformity of the cooling performance and air distribution within the appliance 10.
The first spacer 266 may abut the inner liner surface 86. This configuration may be advantageous for increasing stabilization of the first cantilever support 238, and accordingly, the first support assembly 154, when the storage feature 90 moves between the stowed and deployed positions 94, 98. In this way, the first spacer 266 may increase stability and/or provide support for the first support assembly 154 when the storage feature is in the stowed position 94, when the storage feature 90 is in the deployed position 98, and when the storage feature 90 translates therebetween. The first spacer 266 may include, for example, plastic materials and/or rubber materials. In plastic examples, the first spacer 266 may have an increased rigidity relative to the rubber examples. In this way, the first spacer 266 may limit and/or prevent lateral movement of the first support assembly 154. This configuration may be advantageous to reduce and/or prevent movement of the first support assembly 154 as the storage feature 90 translates along the first rail assembly 262. In a non-limiting example, the plastic first spacer 266 may be utilized in the first support assembly 154 when the storage feature 90 is configured as the wine rack. The wine rack configuration may have increased sensitivity to vibrations that can result from the addition and/or removal of bottles on the wine rack relative to other configurations of the storage feature 90. In rubber examples, the first spacer 266 may limit lateral movement of the first support assembly 154. The rubber first spacer 266 may allow slight movement of the first support assembly 154 while reducing vibrations. This configuration may also be advantageous for protecting the inner liner 18 from scratches and/or other similar damage. Additionally or alternatively, when the first spacer 266 includes rubber materials, the spacer may elastically deform in response to a force acting on the first spacer 266 to stabilize the first cantilever support 238.
Referring to
The first and second cantilever supports 238, 282 may be tightened toward the respective inner liner surface 86, 342. In this way, the size of the respective gaps 338 may be altered. The first and second spacers 266, 306 may provide rigidity to the respective first and second support assemblies 154, 234. The first and second spacers 266, 306 can be screwed into the first and second cantilever supports 238, 282 through the rotatable engagement of the threaded protrusions 270 with the threaded apertures 274.
Referring to
After the storage feature 90 is positioned on the first and second cantilever supports 238, 282 coupled to the first and second ladder racks 158, 162, the first and second spacers 266, 306 may be rotated to abut the inner liner surfaces 86, 342. In this way, a body 346 of the spacers 266, 306 may be spaced-apart from the first and second cantilever supports 238, 282 by the protrusions 270 to abut the respective inner liner surfaces 86, 342 to reduce lateral movement of the first and second cantilever supports 238, 282. The protrusions 270 of each of the first and second spacers 266, 306 may define at least one slot 350 in an end 354 thereof for engaging a tool, such as, for example, a screwdriver. The end 354 of each of the protrusions 270 that defines the slot 350 may be accessible by a user to adjust the first and second spacers 266, 306 with respect to the inner liner surfaces 82, 342. An access hole 358 may be defined in the first and second cantilever supports 238, 282 to align with the aperture 274. In the first cantilever support 238, the aperture 274 may be defined in the first wall 170 (e.g., an outer wall) and the access hole 358 may be defined in the second wall 174 (e.g., an inner wall). In the second cantilever support 282, the aperture 274 may be defined in the second wall 174 (e.g., the outer wall) and the access hole 358 may be defined in the first wall 170 (e.g., the inner wall). In this way, the access holes 358 can be accessed from a space defined between the first and second cantilever supports 238, 282. The tool can extend through the access holes 358 to engage the slot 350 and allow for rotation of the respective first and second spacers 266, 306. The access holes 358 may be coaxial with the apertures 274.
Accordingly, the first and second support assemblies 154, 234 may include stabilizing features disposed at both of the opposing first and second ends 82, 182 of the first and second cantilever supports 238, 282. It is also contemplated that a single spacer 78 may be used. In this way, the spacer 78 may be associated with one of the first and second support assemblies 154, 234. Additionally or alternatively, the hook 46 and the projection 186 of each of the first and second adapter members 242, 286 may extend through the apertures 50 of the plurality of apertures 38 to secure and/or retain the first and second support assemblies 154, 234 to the first and second ladder racks 158, 162.
Use of the present disclosure may provide a variety of advantages. For example, the first and second support assemblies 154, 234 may include the first and second rail assemblies 262, 294, which may translate the storage feature 90 between the stowed and deployed positions 94, 98. Additionally, the storage feature 90 may be operable between the stowed and deployed positions 94, 98 which can improve accessibility to the storage feature 90 for the user. Further, the first and second spacers 266, 306 may provide for adjustment of the gaps 338 between the respective inner liner surface 86, 342 and each of the first and second cantilever supports 238, 282. Additionally, the gaps 338 may increase airflow within the appliance 10. Moreover, the first and second locking members 258, 290 may provide increased stability to the second end 182 of each of the first and second cantilever supports 238, 282 through the interference fit with the first and second ladder racks 158, 162. Also, the first and second spacers 266, 306 may provide increased stability to the first end 82 of the first and second cantilever supports 238, 282. Further, the first and second spacers 266, 306 may reduce lateral movement of the first and second support assemblies 154, 234, and accordingly, the storage feature 90. The reduction in the lateral movement may occur when the storage feature 90 is in the stowed position 94, the deployed position 98, and when translating therebetween. Additional benefits or advantages of using this device may also be realized and/or achieved.
According to at least one aspect of the present disclosure, a vacuum insulated appliance includes an outer wrapper and an inner liner positioned within the outer wrapper. A ladder rack is coupled to the inner liner. The ladder rack includes first and second sidewalls coupled together by a connecting wall that defines a plurality of apertures. An adapter member includes a hook configured to extend through an aperture of the plurality of apertures when coupled to the ladder rack. The adapter member is coupled with a locking member that engages inner surfaces of the first and second sidewalls of the ladder rack. A cantilever support is coupled to the adapter member and extends outward from the ladder rack. A rail assembly is coupled to an upper surface of the cantilever support. A spacer is coupled to an end of the cantilever support and abuts an inner liner surface. A storage feature is coupled to the rail assembly and is operable between stowed and deployed positions.
According to another aspect, a locking member includes a first arm that engages a first sidewall and a second arm that engages a second sidewall. The first and second arms are coupled together via a connector.
According to another aspect, an adapter member defines a notch and a connector of a locking member is disposed within the notch.
According to still another aspect, first and second arms of a locking member engages first and second sidewalls in an interference fit.
According to another aspect, a storage feature is at least one of a bin, a shelf, a drawer, and a wine rack.
According to yet another aspect, a spacer includes a threaded protrusion engaged with a threaded receiving aperture defined by a cantilever support. A position of the spacer relative to an outer surface of the cantilever support adjustable via rotation of the spacer in the threaded receiving aperture.
According to another aspect, a gap defined between a cantilever support and an inner liner surface is adjusted with adjustment of a position of the spacer relative to an outer surface of the cantilever support.
According to at least one aspect of the present disclosure, an appliance support assembly includes an inner liner and a ladder rack coupled to the inner liner of the ladder rack includes first and second sidewalls. A cantilever support is coupled to the ladder rack and extends outwardly therefrom. A rail assembly is disposed on an upper surface of the cantilever support. A spacer is coupled to an outer surface of the cantilever support and abuts an inner liner surface. A locking member is coupled to the cantilever support and engages the first and second sidewalls of the ladder rack. A storage feature is coupled to the rail assembly and is operable between stowed and deployed positions.
According to another aspect, an adapter member is coupled between a ladder rack and a cantilever support.
According to still another aspect, an adapter member includes a hook and a projection spaced-apart from one another and each extends through apertures defined by a ladder rack to secure the adapter member to the ladder rack.
According to another aspect, a locking member engages first and second sidewalls of a ladder rack to lockably engage an adapter member to the ladder rack.
According to yet another aspect, a locking member engages a ladder rack via an interference fit to stabilize an end of a cantilever support.
According to another aspect, a spacer includes a threaded protrusion engaged with a threaded receiving aperture defined by a cantilever support.
According to still another aspect, a gap defined between a cantilever support and an inner liner surface is adjusted via rotation of the spacer with respect to the cantilever support.
According to another aspect, a spacer is elastically deformable to stabilize a cantilever support when a storage feature moves between stowed and deployed positions.
According to at least one aspect of the present disclosure, a support assembly for an insulated appliance includes first and second ladder racks coupled to an inner liner of the insulated appliance and are spaced-apart from one another. First and second adapter members are coupled to the first and second ladder racks. First and second cantilever supports are coupled to the first and second ladder racks via the first and second adapter members. At least one locking member engages one of the first and second ladder racks and one of the first and second adapter members. First and second rail assemblies are disposed on the first and second cantilever supports. A storage feature is coupled to the first and second rail assemblies and is operable between stowed and deployed positions.
According to another aspect, at least one spacer is coupled to an outer surface of an end of at least one of first and second cantilever supports to stabilize the end when a storage feature moves between stowed and deployed positions.
According to still another aspect, at least one locking member includes first and second locking members. The first and second locking members engage first and second ladder rack in interference fits.
According to yet another aspect, first and second spacers are coupled to outer surfaces of first and second cantilever supports.
According to another aspect, each of first and second spacers includes a threaded protrusion that engages a threaded receiving aperture defined by a respective first and second cantilever support.
It will be understood by one having ordinary skill in the art that construction of the described disclosure and other components is not limited to any specific material. Other exemplary embodiments of the disclosure disclosed herein may be formed from a wide variety of materials, unless described otherwise herein.
For purposes of this disclosure, the term “coupled” (in all of its forms, couple, coupling, coupled, etc.) generally means the joining of two components (electrical or mechanical) directly or indirectly to one another. Such joining may be stationary in nature or movable in nature. Such joining may be achieved with the two components (electrical or mechanical) and any additional intermediate members being integrally formed as a single unitary body with one another or with the two components. Such joining may be permanent in nature or may be removable or releasable in nature unless otherwise stated.
It is also important to note that the construction and arrangement of the elements of the disclosure as shown in the exemplary embodiments is illustrative only. Although only a few embodiments of the present innovations have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters, mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited. For example, elements shown as integrally formed may be constructed of multiple parts or elements shown as multiple parts may be integrally formed, the operation of the interfaces may be reversed or otherwise varied, the length or width of the structures and/or members or connector or other elements of the system may be varied, the nature or number of adjustment positions provided between the elements may be varied. It should be noted that the elements and/or assemblies of the system may be constructed from any of a wide variety of materials that provide sufficient strength or durability, in any of a wide variety of colors, textures, and combinations. Accordingly, all such modifications are intended to be included within the scope of the present innovations. Other substitutions, modifications, changes, and omissions may be made in the design, operating conditions, and arrangement of the desired and other exemplary embodiments without departing from the spirit of the present innovations.
It will be understood that any described processes or steps within described processes may be combined with other disclosed processes or steps to form structures within the scope of the present disclosure. The exemplary structures and processes disclosed herein are for illustrative purposes and are not to be construed as limiting.
The present application is a continuation of U.S. patent application Ser. No. 18/212,850 filed on Jun. 22, 2023, entitled SUPPORT ASSEMBLY FOR AN APPLIANCE, which is a continuation of U.S. patent application Ser. No. 17/729,285, filed on Apr. 26, 2022, now U.S. Pat. No. 11,725,870, entitled SUPPORT ASSEMBLY FOR AN APPLIANCE, which is a continuation of U.S. patent application Ser. No. 17/136,106, filed on Dec. 29, 2020, now U.S. Pat. No. 11,346,595, entitled SUPPORT ASSEMBLY FOR AN APPLIANCE, which is a continuation of U.S. patent application Ser. No. 16/597,889, filed Oct. 10, 2019, now U.S. Pat. No. 10,921,050, entitled SUPPORT ASSEMBLY FOR APPLIANCE, the disclosures to which are hereby incorporated herein by reference in their entirety.
Number | Date | Country | |
---|---|---|---|
Parent | 18212850 | Jun 2023 | US |
Child | 18788524 | US | |
Parent | 17729285 | Apr 2022 | US |
Child | 18212850 | US | |
Parent | 17136106 | Dec 2020 | US |
Child | 17729285 | US | |
Parent | 16597889 | Oct 2019 | US |
Child | 17136106 | US |