Abstract:
There is disclosed a method of mounting a container support body to a mounting body, the method comprising: threadedly coupling a first threaded portion of a fastener to the mounting body; and coupling an end portion of the fastener to the container support body in an opening defined by the container support body. There is also disclosed a container support apparatus comprising a container support body comprising: a structural body comprising a structural material; and a frictional body on the structural body and comprising a frictional material different from the structural material; wherein the frictional material defines a frictional support surface extending substantially along an entire length of the container support body. Other methods, other apparatuses, and systems, kits, assemblies, and uses are also disclosed.

Description:
BACKGROUND 
       [0001]    1. Field 
         [0002]    This disclosure relates generally to: methods of mounting container support bodies; systems including container support bodies; kits including container support bodies; assemblies including container support bodies; apparatuses including container support bodies; and uses of the systems, kits, assemblies, and apparatuses. 
         [0003]    2. Related Art 
         [0004]    Storage of containers, such as wine bottles for example, can require particular needs in different circumstances. For example, wine bottles can require storage at particular orientations to preserve corks in the wine bottles, and wine bottles can also require particular temperatures to maintain quality of wine in the wine bottles during storage. Also, aesthetic appeal of wine racks can be desirable in some circumstances. 
         [0005]    Some known wine racks may be difficult to assemble or install. For example, assembling one known wine rack involves passing machine bolts through a support member, welding the machine bolts through a support member on a rear side of the support member, and threading wine bottle support rods onto threaded shank ends of the machine bolts on a front side of the support member. Therefore, assembling one known wine rack involves accessing both front and rear sides of the support member, which can add significant delay and cost to installations of some wine racks. Also, if the machine bolts are pre-welded to the support member, then threaded shank ends will protrude from the support member, which may complicate shipping or storage of the support member. 
         [0006]    Known wine racks include various materials, but some materials (such as metal) have relatively low coefficients of friction and therefore may not effectively prevent a container such as a wine bottle supported on the wine racks from movement. 
       SUMMARY 
       [0007]    According to one illustrative embodiment, there is provided a method of mounting a container support body to a mounting body, the method comprising: threadedly coupling a first threaded portion of a fastener to the mounting body; and coupling an end portion of the fastener to the container support body in an opening defined by the container support body. 
         [0008]    The method may further comprise adjusting a longitudinal position of the fastener in the opening defined by the container support body to adjust a length of a portion of the fastener that extends away from the container support body. The container support body may define internal threads in the opening defined by the container support body. 
         [0009]    Adjusting the longitudinal position of the fastener in the opening defined by the container support body may comprise rotating at least one of the container support body and the fastener to move a second threaded portion of the fastener, defining threads complementary to the internal threads, longitudinally in the opening defined by the container support body. Rotating the at least one of the container support body and the fastener may comprise rotating the container support body. 
         [0010]    Rotating the container support body may comprise applying a torque from a torque application tool to a tool interface defined by the container support body. The tool interface may comprise an inner surface of a lateral opening defined by the container support body. 
         [0011]    The container support body may be generally rotationally symmetric about an axis of rotation of the fastener. 
         [0012]    The container support body may have a generally cylindrical outer surface. The container support body may define at least one recess extending transversely across the container support body to receive at least a portion of a container positioned transversely to the container support body. The recess may be sized to receive a portion of a body of a wine bottle positioned transversely to the container support body. The recess may be sized to receive a portion of a neck of a wine bottle positioned transversely to the container support body. 
         [0013]    The first threaded portion of the fastener may define wood screw threads. The mounting body may comprise a wood body. 
         [0014]    Threadedly coupling the first threaded portion of the fastener to the mounting body may comprise threadedly coupling the first threaded portion of the fastener to the mounting body in a threaded opening defined by the mounting body. 
         [0015]    The mounting body may comprise a first panel. The first panel may define the threaded opening defined by the mounting body. The first panel may comprise an insert defining the threaded opening defined by the mounting body. 
         [0016]    The method may further comprise mounting a second panel between the container support body and the mounting body. Mounting the second panel between the container support body and the mounting body may comprise mounting the second panel between the container support body and the mounting body only by mounting a plurality of container support bodies comprising the container support body to the mounting body. 
         [0017]    The method may further comprise supporting a wine bottle on the container support body. According to another illustrative embodiment, there is provided a container support system comprising: a fastener defining a first threaded portion and having an end portion, the first threaded portion configured to be threadedly coupled to a mounting body; and a container support body defining an opening and configured to be coupled to the fastener when the end portion of the fastener is received in the opening defined by the container support body. 
         [0018]    When the end portion of the fastener is received in the opening defined by the container support body, a longitudinal position of the fastener in the opening defined b the container support body may be adjustable to adjust a length of a portion of the fastener that extends away from the container support body. 
         [0019]    The container support body may define internal threads in the opening defined by the container support body. The fastener may define a second threaded portion complementary to the internal threads. 
         [0020]    The container support body may define a tool interface. The tool interface may comprise an inner surface of a lateral opening defined by the container support body. 
         [0021]    The container support body may be generally rotationally symmetric about an axis of rotation of the fastener. The container support body may have a generally cylindrical outer surface. 
         [0022]    The container support body may define at least one recess extending transversely across the container support body to receive at least a portion of a container positioned transversely to the container support body. The recess may be sized to receive a portion of a body of a wine bottle positioned transversely to the container support body. The recess may be sized to receive a portion of a neck of a wine bottle positioned transversely to the container support body. 
         [0023]    The first threaded portion of the fastener may define wood screw threads. The first threaded portion of the fastener may define machine screw threads. 
         [0024]    According to another illustrative embodiment, there is provided use of the system in a wine rack. According to another illustrative embodiment, there is provided a wine rack comprising the system. 
         [0025]    According to another illustrative embodiment, there is provided a kit comprising: a plurality of the container support systems; and the mounting body. 
         [0026]    According to another illustrative embodiment, there is provided a kit comprising: a plurality of the container support systems; and the mounting body, wherein the mounting body comprises a first panel defining a plurality of threaded openings, each one of the plurality of threaded openings being complementary to the first threaded portion of the fastener of a respective one of the plurality of container support systems. 
         [0027]    According to another illustrative embodiment, there is provided a kit comprising a plurality of the container support systems and the mounting body, wherein the mounting body comprises: a first panel; and a plurality of inserts configured to be coupled to the first panel, wherein when each one of the plurality of inserts is coupled to the first panel, each one of the plurality of inserts defines a threaded opening complementary to the first threaded portion of the fastener of a respective one of the plurality of container support systems. The plurality of inserts may be coupled to the first panel. 
         [0028]    The kit may further comprise a second panel configured to be mounted between: the respective container support bodies of the plurality of container support systems; and the mounting body. 
         [0029]    According to another illustrative embodiment, ere is provided use of the kit for a wine rack. 
         [0030]    According to another illustrative embodiment, there is provided a container support assembly comprising: a mounting body; a plurality of fasteners, each one of the plurality of fasteners defining a respective first threaded portion and having a respective end portion, wherein the respective first threaded portion of each one of the plurality of fasteners is threadedly coupled to the mounting body; and a plurality of container support bodies, each one of the plurality of container support bodies defining a respective opening and being coupled to a respective one of the plurality of fasteners with the respective end portion of the respective one of the plurality of fasteners received in the respective opening defined by each one of the plurality of container support bodies. 
         [0031]    A longitudinal position of each one of the plurality of fasteners in the respective opening defined by the respective one of the plurality of container support bodies may be adjustable to adjust a length of a portion of each one of the plurality of fasteners that extends away from the respective one of the plurality of container support bodies. 
         [0032]    Each one of the plurality of the container support bodies may define internal threads in the respective opening defined by each one of the plurality of the container support bodies. Each one of the plurality of fasteners may define a respective second threaded portion complementary to the internal threads of the respective one of the plurality of the container support bodies. 
         [0033]    Each one of the plurality of container support bodies may define a respective tool interface. The respective tool interface of each one of the plurality of container support bodies may comprise a respective inner surface of a lateral opening defined by each one of the plurality of container support bodies. 
         [0034]    Each one of the plurality of container support bodies may be generally rotationally symmetric about an axis of rotation of the respective one of the plurality of fasteners. 
         [0035]    Each one of the plurality of container support bodies may have a generally cylindrical outer surface. 
         [0036]    Each one of the plurality of container support bodies may define a respective at least one recess extending transversely across each one of the plurality of container support bodies to receive at least a portion of a container positioned transversely to each one of the plurality of container support bodies. The respective at least one recess of a first at least one of the plurality of container support bodies may be sized to receive a portion of a body of a wine bottle positioned transversely to the first at least one of the plurality of container support bodies. The respective at least one recess of a second at least one of the plurality of container support bodies may be sized to receive a portion of a neck of a wine bottle positioned transversely to the second at least one of the plurality of container support bodies. 
         [0037]    The respective first threaded portion of a first at least one of the plurality of fasteners may define wood screw threads. The mounting body may comprise a wood body. The mounting body may define at least one threaded opening. The respective first threaded portion of a second at least one of the plurality of fasteners may be threadedly coupled to the mounting body in a respective one of the at least one threaded opening defined by the mounting body. The mounting body may comprise a first panel. The first panel may define the at least one threaded opening defined by the mounting body. The mounting body may further comprise at least one insert coupled to the panel and defining the at least one threaded opening defined by the mounting body. 
         [0038]    The assembly may further comprise a second panel mounted between the plurality of container support bodies and the mounting body. The second panel may be mounted between the plurality of container support bodies and the mounting body only by the plurality of container support bodies. 
         [0039]    According to another illustrative embodiment, there is provided use of the assembly in a wine rack. According to another illustrative embodiment, there is provided a wine rack comprising the assembly. 
         [0040]    According to another illustrative embodiment, there is provided a container support apparatus comprising a container support body comprising: a structural body comprising a structural material; and a frictional body on the structural body and comprising a frictional material different from the structural material; wherein the frictional material defines a frictional support surface extending substantially along an entire length of the container support body. 
         [0041]    The frictional support surface may be sized to extend longitudinally along a body of a wine bottle when the wine bottle is supported longitudinally by the apparatus. 
         [0042]    The structural material may be metallic. The frictional material may be non-metallic. The frictional material may comprise polyurethane or silicone. 
         [0043]    The frictional body may be a frictional coating on the structural body. The frictional body may be a cover. The cover may be releasably held on the structural body. The container support body may be generally rotationally symmetric about a longitudinal axis of the container support body. The container support body may have a generally cylindrical outer surface. The container support body may define at least two threaded openings for receiving respective threaded fasteners. According to another illustrative embodiment, there is provided use of the apparatus in a wine rack. According to another illustrative embodiment, there is provided a wine rack comprising the apparatus. 
         [0044]    According to another illustrative embodiment, there is provided a container support system comprising at least two generally parallel and spaced-apart container support bodies projecting away from a wall, each one of the at least two container support bodies comprising: a structural body comprising a structural material; and a frictional body on the structural body and comprising a frictional material different from the structural material; wherein the frictional body of each one of the at least two container support bodies defines a respective frictional support surface extending substantially along a respective entire length of each one of the at least two container support bodies. 
         [0045]    Two of the at least two container support bodies may be sized and positioned to support a wine bottle positioned longitudinally between the two of the at least two container support bodies. The frictional support surfaces of the two of the at least two container support bodies may be sized and positioned to extend longitudinally along a body of the wine bottle when the wine bottle is supported longitudinally by the two of the at least two container support bodies. 
         [0046]    The structural material may be metallic. The frictional material may be non-metallic. The frictional material may comprise polyurethane or silicone. The frictional body of at least one of the at least two container support bodies may be a frictional coating on the structural body of the at least one of the at least two container support bodies. The frictional body of at least one of the at least two container support bodies may be a cover releasably held on the structural body of the at least one of the at least two container support bodies. The cover of the at least one of the at least two container support bodies may be releasably held on two structural bodies. 
         [0047]    Each one of the at least two container support bodies may be generally rotationally symmetric about a respective longitudinal axis of each one of the at least two container support bodies. Each one of the at least two container support bodies may have a generally cylindrical outer surface. Each one of the at least two container support bodies may define at least two threaded openings for receiving respective threaded fasteners. 
         [0048]    According to another illustrative embodiment, there is provided use of the system for a wine rack. According to another illustrative embodiment, there is provided a wine rack comprising the system. 
         [0049]    According to another illustrative embodiment, there is provided a kit comprising: a mounting body; at least two structural bodies each comprising a structural material, wherein the at least two structural bodies are mountable to the mounting body to be generally parallel and spaced-apart when mounted to the mounting body; and at least two frictional bodies each comprising a frictional material different from the structural material, each one of the at least two frictional bodies positionable on a respective one of the at least two structural bodies to form a respective container support body defining a respective frictional support surface of the frictional material extending substantially along a respective entire length of the respective container support body. 
         [0050]    When a first two of the at least two structural bodies are mounted to the mounting body, and when two of the at least two frictional bodies are positioned on respective ones of the first two of the at least two structural bodies to form respective container support bodies, the respective container support bodies may be sized and positioned to support a wine bottle positioned longitudinally between the respective container support bodies. When the first two of the at least two structural bodies are mounted to the mounting body, and when the two of the at least two frictional bodies are positioned on the respective ones of the first two of the at least two structural bodies to form the respective container support bodies, the frictional support surfaces may be sized and positioned to extend longitudinally along a body of the wine bottle when the wine bottle is supported longitudinally by the respective container support bodies. 
         [0051]    The structural material may be metallic. The frictional material may be non-metallic. The frictional material may comprise polyurethane or silicone. At least one of the at least two frictional bodies may be a frictional coating on the respective one of the at least two structural bodies. At least one of the at least two frictional bodies may be a cover. The cover may be releasably positionable on the respective one of the at least two structural bodies. The cover may be releasably positionable on a second two of the at least two structural bodies. Each one of the container support bodies may be generally rotationally symmetric about a respective longitudinal axis of each one of the container support bodies. Each one of the container support bodies may have a generally cylindrical outer surface. Each one of the at least two container support bodies may define at least two threaded openings for receiving respective threaded fasteners. According to another illustrative embodiment, there is provided use of the kit for a wine rack. 
         [0052]    Other aspects and features will become apparent to those ordinarily skilled in the art upon review of the following description of illustrative embodiments in conjunction &lt;′≧ with the accompanying figures. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0053]    In drawings of illustrative embodiments: 
           [0054]      FIG. 1  is an exploded perspective view of a container support assembly according to an illustrative embodiment; 
           [0055]      FIG. 2  is a front elevation view of a first panel of the container support assembly of  FIG. 1 ; 
           [0056]      FIG. 3  is a front perspective view of an insert of the container support assembly of  FIG. 1 ; 
           [0057]      FIG. 4  is a rear perspective view of the insert of  FIG. 3 ; 
           [0058]      FIG. 5  is a front elevation view of a second panel of the container support assembly of  FIG. 1 ; 
           [0059]      FIG. 6  is a perspective view of a fastener of the container support assembly of  FIG. 1 ; 
           [0060]      FIG. 7  is a perspective view of a container support body of the container support assembly of  FIG. 1 ; 
           [0061]      FIG. 8  is a cross-sectional view of the container support body of  FIG. 7 , taken along the line VIII-VIII shown in  FIG. 7 ; 
           [0062]      FIG. 9  is a perspective view of a container support system of the container support assembly of  FIG. 1 , including the fastener of  FIG. 6  and the container support body of  FIG. 7 ; 
           [0063]      FIG. 10  is a plan view of a wrench according to an illustrative embodiment; 
           [0064]      FIG. 11  is an assembled perspective view of the container support assembly of  FIG. 1 ; 
           [0065]      FIG. 12  is a cross-sectional view of the container support assembly of  FIG. 1 , taken along the line XII-XII shown in  FIG. 11 ; 
           [0066]      FIG. 13  is a cross-sectional view of the container support assembly of  FIG. 1 , taken along the line XIII-XIII shown in  FIG. 11 ; 
           [0067]      FIG. 14  is a partially exploded perspective view of a container support assembly according to another illustrative embodiment; 
           [0068]      FIG. 15  is a rear perspective view of a cover of the container support assembly of  FIG. 14 ; 
           [0069]      FIG. 16  is an assembled perspective view of the container support assembly of  FIG. 14 ; 
           [0070]      FIG. 17  is an exploded perspective view of a container support assembly according to another illustrative embodiment; 
           [0071]      FIG. 18  is an assembled perspective view of the container support assembly of  FIG. 17 ; 
           [0072]      FIG. 19  is a cross-sectional view of the container support assembly of  FIG. 17 , taken along the line XIX-XIX shown in  FIG. 18 ; 
           [0073]      FIG. 20  is an exploded perspective view of a container support assembly according to another illustrative embodiment; 
           [0074]      FIG. 21  is a perspective view of a fastener of the container support assembly of  FIG. 20 ; 
           [0075]      FIG. 22  is an assembled perspective view of the container support assembly of  FIG. 20 ; 
           [0076]      FIG. 23  is a cross-sectional view of the container support assembly of  FIG. 20 , taken along the line XXIII-XXIII shown in  FIG. 22 ; 
           [0077]      FIG. 24  is a perspective view of a container support assembly according to another illustrative embodiment; 
           [0078]      FIG. 25  is a side elevation view of the container support assembly of  FIG. 24 ; 
           [0079]      FIG. 26  is a perspective view of a container support assembly according to another illustrative embodiment; 
           [0080]      FIG. 27  is a perspective view of a container support assembly according to another illustrative embodiment; 
           [0081]      FIG. 28  is a perspective view of a container support assembly according to another illustrative embodiment; 
           [0082]      FIG. 29  is a perspective view of a container support assembly according to another illustrative embodiment; and 
           [0083]      FIG. 30  is a perspective view of a container support assembly according to another illustrative embodiment. 
       
    
    
     DETAILED DESCRIPTION 
       [0084]    Referring to  FIG. 1 , a container support assembly according to an illustrative embodiment is shown generally at  100  and includes a panel  102 , a panel  104 , an insert  106 , an insert  108 , a fastener  10 , a fastener  112 , a container support body  114 , and a container support body  116 . Referring to  FIGS. 1 and 2 , the panel  102  defines through-openings shown generally at  118 ,  120 ,  122 , and  124  in respective corners of the panel  102  and extending between a front side shown generally at  126  of the panel  102  and a rear side shown generally at  128  of the panel  102  opposite the front side  126 . As shown in  FIG. 1 , drywall anchors  130 ,  132 ,  134 , and  136  may be fastened in respective openings shown generally at  138 ,  140 ,  142 , and  144  of a drywall panel  146  of a wall. For example, the panel  102  may be positioned against the drywall panel  146  and leveled with a level (not shown), and then locations for the openings  138 ,  140 ,  142 , and  144  may be marked by passing a pencil through each of the through-openings  118 ,  120 ,  122 , and  124 . The openings  138 ,  140 ,  142 , and  144  may then be drilled when the panel  102  is temporarily removed from the drywall panel  146  by drilling where indicated by the markings. Then, the panel  102  may be repositioned against the drywall panel  146  and fasteners  148 ,  150 ,  152 , and  154  may pass through the through-openings  118 ,  120 ,  122 , and  124  respectively and be threadedly coupled to the drywall anchors  130 ,  132 ,  134 , and  136  respectively to mount the panel  102  to the drywall panel  146 . The panel  102  is thus mountable to a wall, which in various embodiments may be a wall of a home, restaurant, or other building for example. Although the embodiment shown includes drywall anchors  130 ,  132 ,  134 , and  136  and the drywall panel  146 , the panel  102  in alternative embodiments may be mounted to other walls in other ways, such as to a concrete wall, a brick wall, or a wood wall, for example. More generally, the panel  102  is a wall-mountable panel. In the embodiment shown, the panel  102  is formed from ¾-inch-thick medium-density fiberboard (“MDF”), but may be formed of one or more of MDF, plywood such as ¾-inch thick low-VOC (volatile organic compound) or no added urea formaldehyde (“NAUF”) plywood, other wood products, and other materials in alternative embodiments. 
         [0085]    Before mounting the panel  102  to the drywall panel  146 , the inserts  106  and  108  may be threadedly inserted from the rear side  128  of the panel  102  into respective through-openings shown generally at  156  and  158  extending between the front side  126  and the rear side  128  of the panel  102 . Referring to  FIGS. 3 and 4 , the insert  106  includes a tool interface  160  on a front end shown generally at  162  of the insert  106 . The tool interface  160  is shaped to receive a hex key (not shown) and to receive a torque from the hex key to rotate the insert  106  about an axis of rotation  164 . However, alternative embodiments may define different tool interfaces or may receive a torque without a tool interface, such as from a drill chuck (not shown) for example. At a rear end shown generally at  166  opposite the front end  162 , the insert  106  defines internal threads of a threaded opening shown generally at  168 . The internal threads of the threaded opening  168  are ¼-20 machine threads, but may be different threads in alternative embodiments. Between the front end  162  and the rear end  166 , the insert  106  defines external threads  170  to engage an inner surface of the through-opening  156  to facilitate threadedly inserting the insert  106  into the through-opening  156  of the panel  102  (shown in  FIGS. 1 and 2 ) to couple the insert  106  to the panel  102 . When the insert  106  is inserted from the rear side  128  of the panel  102  and coupled to the panel  102 , the threaded opening  168  is exposed on the front side  126  of the panel  102 . The insert  108  (shown in  FIG. 1 ) in the embodiment shown is substantially similar to the insert  106  and may be similarly inserted in the through-opening  158  of the panel  102  (shown in  FIGS. 1 and 2 ) to couple the insert  108  to the panel  102 . In Some embodiments, the insert  106  may be an E-Z LOK™ threaded insert identified as catalog number 801420-13 from Tool Components, Inc., doing business as E-Z LOK Corporation, of Gardena Calif., United States of America. 
         [0086]    Referring to  FIGS. 1 and 5 , the panel  104  defines through-openings shown generally at  172  and  174  extending between a front side shown generally at  176  of the panel  104  and a rear side shown generally at  178  of the panel  104  opposite the front side  176 . The through-openings  172  and  174  are aligned with the through-openings  156  and  158  such that when the rear side  178  of the panel  104  is positioned adjacent the front side  126  of the panel  102 , the fastener  110  may pass through the through-openings  172  and  156  and the fastener  112  may pass through the through-openings  174  and  158 . In the embodiment shown, the panel  104  is formed from acrylic with a decorative appearance (such as a wood grain appearance, solid color, or other appearance) on the front side  176 , but may be formed of one or more of thermoplastic materials, metallic materials, wood materials, and other materials in alternative embodiments. In other alternative embodiments, the panel  104  may be omitted. 
         [0087]    Referring to  FIG. 6 , the fastener  110  is a stud bolt having a first end shown generally at  180  and a second end shown generally at  182  opposite the first end  180 . At the second end  182 , the fastener  110  includes a tool interface  184  shaped to receive a hex key (not shown) and to receive a torque from the hex key to rotate the fastener  110  about an axis of rotation  186 . However, alternative embodiments may define different tool interfaces or may receive a torque without a tool interface, such as from a drill chuck (not shown) for example. An external surface of the fastener  110  defines external threads  188  in a first threaded portion shown generally at  190  and proximate the first end  180 , and in a second threaded portion shown generally at  192  and proximate the second end  182 . The external threads  188  in the first threaded portion  190  are complementary to the internal threads of the threaded opening  168  (shown in  FIG. 4 ). The first threaded portion  190  is therefore configured to be threadedly coupled to the insert  106  (shown in  FIGS. 1   3 ,  4 , and  12 ). In the embodiment shown, the fastener  110  is about 1 inch or about 2.54 centimeters (“cm”) long and the external threads  188  are ¼-20 machine threads that are uniform across the first and second threaded portions  190  and  192 , but in alternative embodiments, the external threads  188  may he different threads, and the external threads  188  in the first threaded portion  190  may differ from the external threads  188  in the second threaded portion  192 . The fastener  112  (shown in  FIG. 1 ) in the embodiment shown is substantially similar to the fastener  110 . 
         [0088]    Referring to  FIGS. 7 and 8 , the container support body  114  includes a structural body  194  and a frictional coating  196  (or, more generally, a frictional body) on the structural body  194 . In the embodiment shown, the structural body  194  is formed of brushed aluminum, but the structural body  194  may be formed of other metals, or more generally other structural materials, in alternative embodiments. Also, in the embodiment shown, the frictional coating  196  is a polyurethane coating such as a coating of Velvecron™ available from PPG Industries, Inc. of Pittsburgh, Pa., United States of America, but the frictional coating  196  may be formed of other non-metallic materials, or more generally other frictional materials, in alternative embodiments. At a first end shown generally at  198 , the structural body  194  defines an opening shown generally at  200 . The structural body  194  defines internal threads  202  in the opening  200 , and the external threads  188  in the second threaded portion  192  of the fastener  110  are complementary to the internal threads  202 . In the embodiment shown, the opening  200  has a maximum depth of about 1.125 inches or about 28.6 millimeters (“mm”), and the internal threads  202  extend for a length of at least about 0.875 inches (or at least about 22.2 mm) into the opening  200 . The container support body  114  is thus configured to be coupled to the fastener  110  when an end portion of the fastener  110  including the second end  182  and the second threaded portion  192  is received in the opening  200  defined by the container support body  114 . 
         [0089]    Referring to  FIG. 9 , a container support system is shown generally at  204  and includes the fastener  110  and the container support body  114 . As shown in  FIG. 9 , the end portion (including the second end  182  and the second threaded portion  192 ) of the fastener  110  is threadedly received in the opening  200 , and the container support body  114  is thus configured to be coupled to the fastener  110  when the end portion of the fastener  110  is received in the opening  200 . If the fastener  110  is rotated about the axis of rotation  186 , or if the container support body  114  is rotated about an axis of rotation  206  of the container support body  114 , then the interaction of the external threads  188  in the second threaded portion  192  of the fastener  110  and of the internal threads  202  causes the fastener  110  to move relative to the container support body  114  longitudinally, namely in a direction indicated by the arrow  208  or in a direction indicated by the arrow  210  opposite the direction indicated by the arrow  208 , in the opening  200 . As such, rotation of one or both of the fastener  110  about the axis of rotation  186  and of the container support body  114  about the axis of rotation  206  adjusts a longitudinal position of the fastener  110  in the opening  200  defined by the container support body  114  and thereby adjusts a length  212  of a portion shown generally at  214  of the fastener  110  that extends away from the container support body  114 . In various embodiments, “adjusting” such a distance may refer generally to varying a position in which such an end portion of a fastener is held in an opening. 
         [0090]    At a second end shown generally at  216  opposite the first end  198 , the container support body  114  defines a lateral opening  218  extending radially towards an outer surface  220  of the container support body  114 . An inner surface of the lateral opening  218  may contact a tool, such as a wrench  222  shown in  FIG. 10  according to one illustrative embodiment, which is a standoff wrench for ¾-inch and 1¼-inch standoff cap assemblies identified as catalog number SOW from C.R. Laurence Co., Inc. of Los Angeles, Calif., United States of America. The wrench  222  includes a projection  224  projecting into a space shown generally at  226  for receiving a portion of the container support body  114  when the projection  224  is positioned in the lateral opening  218 , and the wrench  222  may apply a torque to the container support body  114  to rotate the container support body  114  about the axis of rotation  206 . 
         [0091]    Referring back to  FIG. 1 , once the inserts  106  and  108  are threadedly inserted the from the rear side  128  of the panel  102  into the through-openings  156  and  158  and thus coupled to the panel  102 , the panel  102  may be mounted to the drywall panel  146  by passing the fasteners  148 ,  150 ,  152 , and  154  through the through-openings  118 ,  120 ,  122 , and  124  respectively and threadedly coupling the fasteners  148 ,  150 ,  152 , and  154  to the drywall anchors  130 ,  132 ,  134 , and  136  respectively. Then, the rear side  178  of the panel  104  may be positioned adjacent the front side  126  of the panel  102 , the external threads  188  in the first threaded portion  190  of the fastener  110  may be threadedly received in the threaded opening  168  to couple the fastener  110  to the insert  106 , and the external threads  188  in the second threaded portion  192  of the fastener  110  may be threadedly received in the opening  200  (shown in  FIGS. 7 and 8 ) of the container support body  114 . The container support body  114  may be rotated about the axis of rotation  206  (shown in  FIGS. 7 to 9 ) until the external threads  188  in the first threaded portion  190  of the fastener  110  are tightly received in the threaded opening  168  and the external threads  188  in the second threaded portion  192  of the fastener  110  are tightly received in the opening  200  (shown in  FIGS. 7 and 8 ). Accordingly, the container support body  114  may be mounted to the insert  106  and to the panel  104  by threadedly coupling the first threaded portion  190  of the fastener  110  in the threaded opening  168  of the insert  106  and by coupling an end portion of the fastener  110  including the second end  182  and the second threaded portion  192  to the container support body  114  in the opening  200  defined by the container support body  114 , and the panel  104  and the insert  106  coupled to the panel  104  collectively function as a mounting body. The container support body  116  may similarly be mounted to the insert  108  and to the panel  104  using the fastener  112 . 
         [0092]    Referring back to  FIG. 2 , the panel  102  defines through-openings in addition to the through-openings  156  and  158 , and in general, each such additional through opening can also facilitate mounting a respective container support body as described above. In the embodiment shown, the panel  102  defines through-openings in three rows shown generally at  228 ,  230 , and  232 . Further, each of the through-openings of the rows  228 ,  230 , and  232  of the panel  102  may threadedly receive a respective insert substantially similar to the insert  106  (shown in  FIGS. 3 and 4 ) from the rear side  128  (shown in  FIG. 1 ) of the panel  102  to couple the respective insert to the panel  102 . The row  228  includes the through-openings  156  and  158 , and also includes through-openings shown generally at  234 ,  236 ,  238 , and  240 , all of which also extend between the front side  126  and the rear side  128  (shown in  FIG. 1 ) of the panel  102 . Centers of the through-openings  156  and  158  are separated from each other by a horizontal spacing distance  242 , centers of the through-openings  158  and  234  are separated from each other by a horizontal spacing distance  244 , centers of the through-openings  234  and  236  are separated from each other by a horizontal spacing distance  246 , centers of the through-openings  236  and  238  are separated from each other by a horizontal spacing distance  248 , and centers of the through-openings  238  and  240  are separated from each other by a horizontal spacing distance  250 . In the embodiment shown, the horizontal spacing distances  242 ,  246 , and  250  are about 64 mm or about 2.5 inches, and the horizontal spacing distances  244  and  248  are about 32 mm or about 1.25 inches. Each of the rows  230  and  232  in the embodiment shown includes through-openings corresponding to respective through-openings of the row  228 , except that the through-openings of the row  230  are spaced by a consistent distance  252  (such as about 3.75 inches or about 9.5 cm, for example) below the respective through-openings of the row  228  and the through-openings of the row  232  are spaced by the same consistent distance  252  below the respective through-openings of the row  230 . Alternative embodiments may include different numbers of through-openings and different spacings between the through-openings. 
         [0093]    Referring to  FIGS. 1 ,  2  and  5 , the panel  104  also defines additional through-openings, and in general, the through-openings defined by the panel  104  extend between the front side  176  and the rear side  178  of the panel  104  and are aligned with respective through-openings in the rows  228 ,  230 , and  232  of the panel  102  such that when the rear side  178  of the panel  104  is positioned adjacent the front side  126  of the panel  102 , fasteners substantially similar to the fastener  110  may pass through respective through-openings of the panel  104  and through respective through-openings of the panel  102 . Such fasteners may then be coupled to respective inserts (substantially similar to the insert  106  shown in  FIGS. 3 and 4 ) threadedly received in the respective through-openings of the panel  102 , and to respective container support bodies (substantially similar to the container support body  114  shown in  FIGS. 7 and 8 ) as described above. As such, as shown in  FIG. 11 , the container support assembly  100  may include a plurality of container support bodies mounted to a mounting body including the panel  102  and respective threaded inserts coupled to the panel  102 , and the panel  104  may be mounted between the plurality of container support bodies and the mounting body. Alternative embodiments may include more or fewer container support bodies. Also, although the panels  102  and  104  are shown in  FIG. 11  covering only a portion of the drywall panel  146 , such panels in alternative embodiments may be sized differently and may cover an entire drywall panel to conceal the drywall panel from sight. In other alternative embodiments, a decorative trim or additional drywall panels (not shown) may surround the panels  102  and  104  to conceal edges of the panels  102  and  104  from sight. 
         [0094]    Referring to  FIGS. 8 ,  9 , and  11  to  13 , the container support body  114  and the other container support bodies have a generally cylindrical shape with a length  254  of about 7 inches (or about 17.8 cm). Further, the structural body  194  may have a diameter of about 0.495 inches (or about 12.5 mm) so that the container support body  114  (including the frictional coating  196 ) has a diameter  256  of about 0.5 inches (or about 12.7 mm). As shown in  FIGS. 12 and 13 , the container support bodies  114  and  116  extend by their length  254  away from the panel  104 . Further, axial center lines  258  and  260  of the container support bodies  114  and  116  are spaced apart by the horizontal spacing distance  242  (also shown in  FIG. 2 ). As such, when the container support bodies  114  and  116  are mounted to the inserts  106  and  108  (shown in  FIG. 1 ) respectively and to the panel  102 , the container support bodies  114  and  116  are sized and positioned to support a container such as a 750 milliliter (“mL”) wine bottle  262  when the wine bottle  262  is positioned longitudinally between the container support bodies  114  and  116  as shown in  FIGS. 11 to 13 . Likewise, container support bodies  264  and  266  (positioned in front of the through-openings  234  and  236  respectively shown in  FIG. 2 ) support another 750 ml wine bottle  268  positioned longitudinally between the container support bodies  264  and  266  as shown in  FIG. 11 . In alternative embodiments, the plurality of container support bodies may be sized and positioned differently to support one or more wine bottles or different containers. 
         [0095]    In the embodiment shown in  FIG. 13 , when the wine bottle  262  is positioned longitudinally between the container support bodies  114  and  116 , a body of the wine bottle  262  contacts the container support body  114  along a longitudinal portion  270  of the frictional coating  196  of the container support body  114 , and the body of the wine bottle  262  also contacts the container support body  116  along a longitudinal portion  272  of the frictional coating of the container support body  116 . Therefore, the frictional coatings in the embodiment shown are sized to extend longitudinally along a body of a wine bottle when the wine bottle is supported longitudinally by the container support bodies  114  and  116 . The frictional coatings of the container support bodies  114  and  116  extend substantially along the entire lengths  254  of the container support bodies  114  and  116 , so the longitudinal portions  270  and  272  of the frictional coatings of the container support bodies  114  and  116  are on frictional support surfaces extending substantially along the entire lengths  254  of the container support bodies  114  and  116 . 
         [0096]    The container support bodies  114  and  116  are generally rotationally symmetric about their respective axes of rotation (such as the axis of rotation  206  shown in  FIGS. 7 to 9 ) and about axes of rotation of fasteners threadedly received in openings defined by the container support bodies (such as the axis of rotation  186  shown in  FIG. 9 ), and accordingly the longitudinal portions  270  and  272  of the frictional coatings of the container support bodies  114  and  116  may be any longitudinal portions of the frictional coatings depending on what portions of the frictional coatings face the wine bottle  262  when the container support bodies  114  and  116  are mounted as described above. Herein, “generally rotationally symmetric” does not require exact rotational symmetry, and may for example include embodiments with rotational asymmetries such as the lateral opening  218  (shown in  FIGS. 7 to 9 ). With reference to a container support body, “generally rotationally symmetric” herein may refer to embodiments in which a container may be supported substantially regardless of an axial rotational position of the container support body. 
         [0097]    As shown in  FIGS. 12 and 13 , an end surface  273  at the first end  198  of the container support body  114 , and a corresponding end surface  274  of the container support body  116 , are positioned against the front side  176  of the panel  104  and hold the panel  104  against the panel  102 . Likewise, each one of the plurality of container support bodies shown in  FIG. 11  can hold the panel  104  against the panel  102 . As such, the panel  104  may be mounted between the plurality of container support bodies and the panel  102  only by mounting the plurality of container support bodies as described above. 
         [0098]    The panels  102  and  104  may be referred to as “3×3” panels because each of those panels is sized and configured to support enough container support bodies to support up to three wine bottles in each of three rows, or up to nine wine bottles. In some embodiments, such “3×3” panels may have widths and heights of about 11.25 inches or about 28.6 cm). However, panels in alternative embodiments may be sized differently and may be configured to support different numbers of container support bodies. For example, “6×2” panels may be configured to support  12  container support bodies in each of two rows to support up to six wine bottles in each of the rows or up to 12 wine bottles overall, and “6×2” panels may be about 22.5 inches (or about 57.2 cm) wide and about 7.5 inches (or about 19.1 cm) high. As another example, “6×1” panels may be configured to support  12  container support bodies in one row to support up to six wine bottles in the row, and “6×1” panels may be about 22.5 inches (or about 57.2 cm) wide and about 3.75 inches (or about 9.5 cm) high. As another example, “2×6” panels may be configured to support four container support bodies in each of six rows to support up to two wine bottles in each of the rows or up to 12 wine bottles overall, and “2×6” panels may be about 7.5 inches (or about 19.1 cm) wide and about 22.5 inches (or about 57.2 cm) high. As another example, “1×6” panels may be configured to support two container support bodies in each of six rows to support one wine bottle in each of the rows or up to six wine bottles overall, and “1×6” panels may be about 3.75 inches (or about 9.5 cm) wide and about 22.5 inches (or about 57.2 cm) high. Still other examples may include differently sized panels configured to support different numbers of container support bodies. 
         [0099]    Further, although the embodiment shown includes only the panels  102  and  104 , alternative embodiments may include different panels and combinations of substantially similar or different panels. For example, “3×3” panels may be mounted adjacent other “3×3” panels to create a container support assembly to support up to 18 wine bottles. As another example, “3×3” panels may be mounted above other “3×3” panels and “2×6” panels may be mounted beside the “3×3” panels to create a container support assembly to support up to 30 wine bottles. Various embodiments may include numerous combinations of such substantially similar or different panels, and therefore container support assemblies including such panels, such as the container support assemblies described herein, may generally be referred to as “modular” container support assemblies that can cover various different sizes of walls. 
         [0100]    Referring to  FIG. 14 , a container support assembly according to another illustrative embodiment is shown generally at  276  and includes a panel  278 , a panel  280 , and a plurality of structural bodies shown generally at  282 . The panel  278  is substantially similar to the panel  102  (shown in  FIGS. 1 and 2 ) and may be mounted to a drywall panel  284  (or to another wall) as described above. Each one of the structural bodies  282  is substantially similar to the structural body  194  (shown in  FIGS. 7 to 9 ) and may be mounted as described above. The panel  280  is substantially similar to the panel  104  and may be mounted between the structural bodies  282  and the panel  278  as described above. Also, although the panels  278  and  280  are shown in  FIG. 14  covering only a portion of the drywall panel  284 , such panels in alternative embodiments may be sized differently and may cover an entire drywall panel to conceal the drywall panel from sight. In other alternative embodiments, a decorative trim or additional drywall panels (not shown) may surround the panels  278  and  280  to conceal edges of the panels  278  and  280  from sight. 
         [0101]    However, the container support assembly  276  includes more structural bodies  282  than the container support assembly  100 , as shown in  FIG. 14 . More particularly, the structural bodies  282  are in three rows shown generally at  286 ,  288 , and  290 , and each of the rows  286 ,  288 , and  290  includes structural bodies separated from each other by horizontal spacing distances (measured from centers of the container support bodies) that alternate between a horizontal spacing distance  292  and a horizontal spacing distance  294 . In the embodiment shown, the horizontal spacing distance  292  is about 32 mm or about 1.25 inches, and the horizontal spacing distance  294  is about 64 mm or about 2.5 inches. Also in the embodiment shown, the structural bodies  282  have a generally cylindrical shape with a length  296  of about 7 inches (or about 17.8 cm) and a diameter  298  of about 0.375 inches (or about 9.5 mm). In alternative embodiments, the plurality of structural bodies may be sized and positioned differently, and alternative embodiments may include more or fewer container support bodies. 
         [0102]    The container support assembly  276  also includes a plurality of covers such as covers  300 ,  302 , and  304 . Referring to  FIGS. 14 and 15 , the cover  300  has a front end shown generally at  306  and a rear end shown generally at  308  and opposite the front end  306 , and the cover  300  includes generally semi-circular walls  310  and  312  extending between the front end  306  and the rear end  308 , generally planar parallel and spaced-apart walls  314  and  316  extending between the generally semi-circular walls  310  and  312  and between the front end  306  and the rear end  308 , and an end wall  318  at the front end  306  and extending between the generally semi-circular walls  310  and  312  and the generally planar parallel and spaced-apart walls  314  and  316 . The generally semi-circular walls  310  and  312 , the generally planar parallel and spaced-apart walls  314  and  316 , and the end wall  318  define an opening shown generally at  320 , and in the opening  320 , inner surfaces  322  and  324  of the generally semi-circular walls  310  and  312  respectively are positioned to contact frictionally outer surfaces of structural bodies  326  and  328  respectively. The cover  300  may thus cover the two structural bodies  326  and  328 , and a frictional fit between the inner surfaces  322  and  324  and the outer surfaces of the structural bodies  326  and  328  releasably holds the cover  300  over the two structural bodies  326  and  328 . The cover  300  in the embodiment shown is molded of a frictional material such as silicone, polytetrafluoroethylene, or polyurethane, but the covers may be formed in other ways and may be formed of other non-metallic materials, or more generally other frictional materials or other materials, in alternative embodiments. The covers  302  and  304  in the in the embodiment shown are substantially similar to the cover  300 . 
         [0103]    The walls of the cover  300  have a thickness of about 0.0625 inches (or about 1.6 mm) so that the combined diameter of one of the structural bodies  282  and one of the generally semi-circular walls  310  and  312  is about 0.5 inches (or about 12.7 mm). Outer surfaces of the generally semi-circular walls  310  and  312  therefore curve with a radius of curvature similar to a radius of curvature of the container support body  114  shown in  FIGS. 1 and 7  to  9 . 
         [0104]    Referring to  FIGS. 14 and 16 , when the cover  300  covers the two structural bodies  326  and  328 , the cover  300  and the structural bodies  326  and  328  form a container support body shown generally at  330  in  FIG. 16 . Likewise, when the cover  302  covers structural bodies  332  and  334 , the cover  302  and the structural bodies  332  and  334  form a container support body shown generally at  336  in  FIG. 16 , and more generally as shown in  FIG. 16 , the container support assembly  276  also includes a plurality of container support bodies each including two adjacent structural bodies and a cover covering the two adjacent structural bodies. Centers of the generally circular shapes of the generally semi-circular walls of such covers (such as the generally semicircular walls  310  and  312  shown in  FIGS. 14 and 15 ) are separated by the horizontal spacing distance  292 , and accordingly adjacent pairs of the container support bodies shown in the embodiment of  FIG. 16  are sized and positioned to support a wine bottle positioned longitudinally between such adjacent pairs, such as a 750 mL wine bottle  338  positioned longitudinally between the container support bodies  330  and  336 . 
         [0105]    Further, when the wine bottle  338  is positioned longitudinally between the container support bodies  330  and  336 , a body of the wine bottle  338  contacts the container support body  330  along a longitudinal portion  340  of the cover  300  of the container support body  330 , and the body of the wine bottle  338  also contacts the container support body  336  along a longitudinal portion  342  of the cover  302  of the container support body  336 . Therefore, the covers in the embodiment shown are sized to extend longitudinally along a body of a wine bottle when the wine bottle is supported longitudinally by the container support bodies  330  and  336 . The frictional materials of the covers  300  and  302  extend substantially along the entire lengths  296  of the container support bodies  330  and  336 , so the longitudinal portions  340  and  342  of the covers  300  and  302  respectively are on frictional support surfaces extending substantially along the entire lengths  296  of the container support bodies  330  and  336 . 
         [0106]    Referring generally to  FIGS. 14 to 16 , in an alternative embodiment (not shown), the structural bodies  326  and  328  may be replaced with a single structural body sized to fill some, substantially all, or all of the opening  320  of the cover  300 . Such a structural body may define two (or more generally, at least two) threaded openings to receive respective fasteners in locations of fasteners that mount the structural bodies  326  and  328  to the panel  278 , although such fasteners may be inserted from a rear side of the panel  278 . In another alternative embodiment (not shown), the structural bodies  326  and  328  may be replaced with a single structural body sized similarly to the cover  300  and having a frictional coating similar to the frictional coating  196  shown in  FIGS. 7 to 9 ). In such embodiments, and in the embodiment shown in  FIGS. 14 to 16 , a container support body may be supported by two or more fasteners, which may provide greater strength or stability than some container support bodies supported by only one fastener. 
         [0107]    Referring to  FIGS. 17 to 19 , a container support assembly according to another illustrative embodiment is shown generally at  344  and includes a panel  346 , a panel  348 , an insert  350 , an insert  352 , a fastener  354 , a fastener  356 , a container support body  358 , and a container support body  360 . The panel  348  is substantially similar to the panel  104  (shown in  FIGS. 1 and 5 ), the inserts  350  and  352  are substantially similar to the inserts  106  and  108  (shown in  FIGS. 1 ,  3 , and  4 ), the fasteners  354  and  356  are substantially similar to the fasteners  110  and  112  (shown in  FIGS. 1 and 6 ), and the container support bodies  358  and  360  are substantially similar to the container support bodies  114  and  116  (shown in  FIGS. 1 and 7  to  9 ) and may be mounted as described above. 
         [0108]    The panel  346  is substantially similar to the panel  102  shown in  FIGS. 1 and 2 , although the panel  346  does not include through-openings in respective corners of the panel such as the through-openings  118 ,  120 ,  122 , and  124  shown in  FIGS. 1 and 2 . Instead, the panel  346  may be mounted to a wall  362  using a mounting assembly shown generally at  364  and including a wall-mountable body  366  and panel-mountable bodies  368  and  370 . In some embodiments, the mounting assembly  364  may include MONARCH™ “Z Clips” available from Monarch Metal Fabrication of Bohemia, N.Y., United States of America. In the embodiment shown in  FIG. 17 , the panel-mountable bodies  368  and  370  may be mounted to the panel  346  on a rear side shown generally at  372  of the panel  346  using fasteners  374 ,  376 ,  378 , and  380 , and the wall-mountable body  366  may be mounted to the wall  362  using fasteners  382  and  384 . 
         [0109]    As shown in  FIGS. 17 and 19 , the wall-mountable body  366  includes a projection  386  that is spaced apart from the wall  362  when the wall-mountable body  366  is mounted to the wall  362 , thereby defining an opening between the projection  386  and the wall  362  when the wall-mountable body  366  is mounted to the wall  362 . Also, the panel-mountable bodies  368  and  370  include respective projections  388  and  390  that are spaced apart from the panel  346  when the panel-mountable bodies  368  and  370  are mounted to the panel  346 , thereby defining openings between the projections  388  and  390  and the panel  346  when the panel-mountable bodies  368  and  370  are mounted to the panel  346 . The projections  388  and  390  may be received in the opening between the projection  386  and the wall  362  and the projection  386  may be received in the openings between the projections  388  and  390  and the panel  346 , and the panel  346  may thus be mounted to the wall  362 . Otherwise, the container support assembly  344  in the embodiment shown is substantially similar to the container support assembly  100 . 
         [0110]    Although  FIGS. 17 to 19  illustrate the container support assembly  344  mounted to the wall  362  using the mounting assembly  364 , alternative container support assemblies such as those described herein may be mounted to various different walls using mounting assemblies similar to the mounting assembly  364 . For example, although the wall  362  is shown as a drywall panel, the wall  362  in alternative embodiments may be one or more of various different walls such as a concrete wall, a brick wall, or a wood wall, and fasteners such as the fasteners  382  and  384  may be fastened into drywall anchors (not shown), concrete anchors (not shown), or wood wall studs (not shown). In general, the wall-mountable body  366  may be mounted to various different walls in various different ways in alternative embodiments. 
         [0111]    Referring to  FIG. 20 , a container support assembly according to another illustrative embodiment is shown generally at  392  and includes a panel  394 , a panel  396 , fasteners  398 ,  400 ,  402 ,  404 ,  406 ,  408 , and  410 , and container support bodies  412 ,  414 ,  416 ,  418 ,  420 ,  422 , and  424 . The panel  396  is substantially similar to the panel  104  but is formed from 10-gauge or ⅛-inch-thick sheet steel or aluminum in the embodiment shown, and each of the container support bodies  412 ,  414 ,  416 ,  418 ,  420 ,  422 , and  424  is substantially similar to the container support body  114 . 
         [0112]    Referring to  FIG. 21 , the fastener  398  is a hanger bolt having a firs end shown generally at  426  and a second end shown generally at  428  and opposite the first end  426 . An external surface of the fastener  398  defines external threads  430  in a first threaded portion shown generally at  432  and proximate the first end  426 , and the external surface of the fastener  398  also defines external threads  434  in a second threaded portion shown generally at  436  and proximate the second end  428 . The external threads  430  in the first threaded portion  432  are wood screw threads, and the external threads  434  in the second threaded portion  436  are ¼-20 machine threads complementary to the internal threads of the threaded opening of the container support body  412  (substantially similar to the internal threads of the threaded opening  168  shown in  FIG. 4 ), but may be different threads in alternative embodiments. The first threaded portion  432  is therefore configured to be threadedly coupled to a wood body (such as the wood body  450  described below), and the container support body  412  is thus configured to be coupled to the fastener  398  when an end portion of the fastener  398  including the second end  428  and the second threaded portion  436  is received in the threaded opening of the container support body  412 . 
         [0113]    Referring back to  FIG. 20 , the container support assembly  392  may be mounted to a wall shown generally at  438 . The wall  438  includes generally vertical wall studs  440 ,  442 ,  444 , and  446  and one or more drywall panels  448  mounted to the wall studs  440 ,  442 ,  444 , and  446 . In the embodiment shown, the wall studs  440 ,  442 ,  444 , and  446  are cut from “2×6” dimensional lumber timber products, but the wall studs in alternative embodiments may differ. The wall  438  also includes wood bodies  450 ,  452 , and  454  extending generally horizontally between the wall studs  440  and  442 , wood bodies  456 ,  458 , and  460  extending generally horizontally between the wall studs  442  and  444 , and wood bodies  462 ,  464 , and  466  extending generally horizontally between the wall studs  444  and  446 . In the embodiment shown, the wood bodies  450 ,  452 ,  454 ,  456 ,  458 ,  460 ,  462 ,  464 , and  466  are cut from “2×6” dimensional lumber timber products, but the wood bodies in alternative embodiments may differ. In general, such wood bodies may be positioned in walls to receive fasteners (such as the fasteners  398 ,  400 ,  402 ,  404 ,  406 ,  408 , and  410  in the embodiment shown) to mount various different container support assemblies such as those described herein. 
         [0114]    As shown in  FIGS. 20 and 23 , the external wood screw threads  430  in the first threaded portion  432  of the fastener  398  may be threadedly coupled to the wood body  450 , the fastener  398  may be received in a through-opening shown generally at  468  of the panel  394  and in a through-opening shown generally at  470  of the panel  396 , and the external threads  434  in the second threaded portion  436  of the fastener  398  may be threadedly coupled to the internal threads of the threaded opening of the container support body  412 . In the embodiment shown, a drill chuck (not shown) may be coupled to the second threaded portion  436  of the fastener  398  to apply a torque to the fastener  398  to couple the fastener  398  to the wood body  450 , or in alternative embodiments, the fastener  398  may define a tool interface (not shown) to facilitate receiving torque from tool (not shown). In general, the panel  394  is substantially similar to the panel  102  but includes respective through-openings as shown in  FIG. 20  to receive the fasteners  398 ,  400 ,  402 ,  404 ,  406 ,  408 , and  410 . 
         [0115]    As such, the wood body  450  functions as a mounting body to which the container support body  412  and the fastener  398  may be mounted by threadedly coupling the first threaded portion  432  of the fastener  398  in the wood body  450  and by coupling an end portion of the fastener  398  including the second end  428  and the second threaded portion  436  to the container support body  412  in the threaded opening of the container support body  412 , and the panels  394  and  396  may be mounted between the container support body  412  and the wood body  450 . 
         [0116]    The fasteners  400 ,  402 ,  404 ,  406 , and  408  in the embodiment shown are substantially similar to the fastener  398 . Therefore, as with the fastener  398 , the fastener  400  may pass through a through-opening in the panel  396  and through a through-opening in the panel  394  and wood screw threads in a first threaded portion of the fastener  400  may be threadedly coupled to the wood body  452  to mount the container support body  414  to the wood body  452 , the fastener  402  may pass through a through-opening in the panel  396  and through a through-opening in the panel  394  and wood screw threads in a first threaded portion of the fastener  402  may be threadedly coupled to the wood body  454  to mount the container support body  416  to the wood body  454 , the fastener  404  may pass through a through-opening in the panel  396  and through a through-opening in the panel  394  and wood screw threads in a first threaded portion of the fastener  404  may be threadedly coupled to the wood body  462  to mount the container support body  418  to the wood body  462 , the fastener  406  may pass through a through-opening in the panel  396  and through a through-opening in the panel  394  and wood screw threads in a first threaded portion of the fastener  406  may be threadedly coupled to the wood body  464  to mount the container support body  420  to the wood body  464 , and the fastener  408  may pass through a through-opening in the panel  396  and through a through-opening in the panel  394  and wood screw threads in a first threaded portion of the fastener  408  may be threadedly coupled to the wood body  466  to mount the container support body  422  to the wood body  466 . The panels  394  and  396  are therefore also wall-mountable panels. In alternative embodiments, the panel  394  may be omitted and the panel  396  may be mounted directly to the wall. Also, in other embodiments, the panel  396  (with or without the panel  394 ) may be mounted to a drywall panel (not shown) using drywall anchors (not shown), or may be mounted to various other walls (not shown) such as concrete walls, brick walls, wood wall studs, or steel or other wall studs, for example. 
         [0117]    However, the fastener  410  in the embodiment shown is substantially similar to the fastener  110  (shown in  FIG. 6 ) and the panel  396  defines a threaded opening shown generally at  472  that defines internal threads complementary to the external threads of the fastener  410 . Therefore, as shown in  FIGS. 20 and 23 , a first portion of the external threads of the fastener  410  is configured to be threadedly coupled to the panel  396  in the threaded opening  472  while a second portion of the external threads of the fastener  410  may be threadedly coupled to the container support body  424  in the threaded opening of the container support body  424 . The container support body  424  is thus configured to be coupled to the fastener  410  when an end portion of the fastener  410  is received in the threaded opening defined by the container support body  424  as shown in  FIG. 23 . Accordingly, in the embodiment shown, the panel  396  also functions as a mounting body to which the container support body  424  and the fastener  410  may be mounted by threadedly coupling a first threaded portion of the fastener  410  in the panel  396  and by coupling an end portion of the fastener  410  to the container support body  424  in an opening of the container support body  424 . 
         [0118]    Although the panels  394  and  396  in the embodiment shown extend over only a portion of the wall  438 , such panels in alternative embodiments may be sized differently and may cover an entire wall. In such embodiments, drywall such as the one or more drywall panels  448  may be omitted from the wall. In other alternative embodiments, a decorative trim or additional drywall panels (not shown) may surround the panel  396  to conceal edges of the panel  396  from sight. In still other alternative embodiments, the panels  394  and  396  may be received in and surrounded by the one or more drywall panels  448  to conceal edges of both of the panels  394  and  396  from sight. The one or more drywall panels  448  may be installed after the container support assembly  392  is mounted to the wall  438  to facilitate a smooth transition between the one or more drywall panels  448  and the edges of the panels  394  and  396 . 
         [0119]    Referring back to  FIG. 9 , as indicated above, rotation of one or both of the fastener  110  about the axis of rotation  186  and of the container support body  114  about the axis of rotation  206  adjusts a longitudinal position of the fastener  110  in the opening  200  defined by the container support body  114  and thereby adjusts the length  212  of the portion  214  of the fastener  110  that extends away from the container support body  114 . Further, referring back to  FIG. 19 , a length of a portion of the fastener  354  that extends away from the container support body  358  may be similarly adjusted, and referring back to  FIG. 23 , a length of a portion of the fastener  398  that extends away from the container support body  412  may be similarly adjusted and a length of a portion of the fastener  410  that extends away from the container support body  424  may be similarly adjusted. In general, in various embodiments, such lengths may be adjusted for various reasons, such as to accommodate for variations in thicknesses of the various panels such as those described above and to position container support bodies tightly against an outer surface of a panel such as the panel  104 ,  280 ,  348 , or  396 , to accommodate for omitting one or more of the various panels such as the panel  104 ,  280 ,  348 , or  396  and position container support bodies tightly against another outer surface, to accommodate for variations in positions of various inserts such as the inserts  106 ,  108 ,  350 , and  352  and position container support bodies tightly against an outer surface of a panel such as the panel  104 ,  280 ,  348 , or  396 , or to accommodate for variations in a depth by which some fasteners, such as the fastener  398 , may be threadedly coupled into a body such as the wood body  450  and position container support bodies tightly against an outer surface of a panel such as the panel  104 ,  280 ,  348 , or  396 . 
         [0120]    In general, embodiments such as those described above may support containers such as wine bottles relatively more effectively when compared to alternatives. For example, referring to  FIGS. 13 and 16 , the contact between the body of the wine bottle &lt;′&gt;  5262  along the longitudinal portions  270  and  272  of the frictional coatings of the container support bodies  114  and  116 , and the contact between the body of the wine bottle  338  along the longitudinal portions  340  and  342  of the covers  300  and  302  of the container support bodies  330  and  336 , may facilitate frictional contact to retain the wine bottles on the container support bodies more effectively than alternatives that may only contact wine bottles along shorter portions. 
         [0121]    Embodiments such as those described above may be used for wine racks in wine cellars, which may be constructed according to particular needs of a customer. For example, a wine cellar may include walls such as the wall  438  shown in  FIGS. 20 to 23  and engineered to hold weights of particular wine racks. Such wine cellars may further include supply and return air vents such as one or more 6-inch- or 8-inch-diameter pipes (not shown) for temperature control. Such wine cellars may also include insulation (not shown) to facilitate temperature control. In some embodiments, the insulation may be insulation available from Roxul Inc. of Milton, Ontario, Canada, rigid insulation, low-VOC (volatile organic compound) spray foam insulation, or blown-in insulation. PINK™ insulation may be inappropriate in some embodiments. In some embodiments, walls may he insulated to a minimum R-value of 20 and ceilings may be insulated to a minimum R-value of 28. Such wine cellars may also include electrical wires, lighting fixtures, and lighting controls (not shown) such as low-voltage dimmable components to control lighting in the wine cellar. Ceilings in some embodiments may include removable panels to facilitate accessing ducts, electrical components, or other objects in the ceiling. Further, vapor barriers such as 6-mm-thick “poly” plastic sheets (not shown) may be positioned on a warm side of the insulation with acoustic sealant (not shown) and TUCK TAPE™ (not shown) to seal the wine cellar completely. In some wine cellars, walls may be painted with low-VOC kitchen and bathroom paint. 
         [0122]    Referring to  FIGS. 24 and 25 , a container support assembly according to another illustrative embodiment is shown generally at  474  and includes container support bodies  476 ,  478 ,  480 ,  482 ,  484 ,  486 ,  488 , and  490  mounted to a panel  492  that may be mounted to a wall (not shown) as described above. In the embodiment shown, each of the container support bodies  476 ,  478 ,  480 ,  482 ,  484 ,  486 ,  488 , and  490  has a maximum diameter of about 0.745 inches (or about 18.9 mm) and a length of about 3.5 inches (or about 8.9 cm). The container support bodies  476 ,  478 ,  480 ,  482 ,  484 ,  486 ,  488 , and  490  are otherwise substantially similar to the structural bodies described above, although the container support body  476  defines a recess shown generally at  494  and extending transversely across the container support body  476 , the container support body  478  defines a recess shown generally at  496  and extending transversely across the container support body  478 , the container support body  480  defines a recess shown generally at  498  and extending transversely across the container support body  480 , the container support body  482  defines a recess shown generally at  500  and extending transversely across the container support body  482 , the container support body  484  defines a recess shown generally at  502  and extending transversely across the container support body  484 , the container support body  486  defines a recess shown generally at  504  and extending transversely across the container support body  486 , the container support body  488  defines a recess shown generally at  506  and extending transversely across the container support body  488 , and the container support body  490  defines a recess shown generally at  508  and extending transversely across the container support body  490 . At their narrowest points, the recesses  494 ,  496 ,  498 ,  500 ,  502 ,  504 ,  506 , and  508  in the embodiment shown have diameters of about 0.5 inches (or about 12.7 mm). Longitudinal centers of the recesses  494 ,  496 ,  498 ,  500 ,  502 ,  504 ,  506 , and  508  (or narrowest diameters of the container support bodies  476 ,  478 ,  480 ,  482 ,  484 ,  486 ,  488 , and  490 ) in the embodiment shown are about 2.125 inches (or about 5.4 cm) from an outer surface of the panel  492 . 
         [0123]    In the embodiment shown, the container support bodies  478 ,  482 ,  486 , and  490  are positioned above the container support bodies  476 ,  480 ,  484 , and  488  respectively by vertical spacing distances of about 1.125 inches (or about 28.6 mm), and the container support bodies  478 ,  482 ,  486 , and  490  are horizontally spaced from the container support bodies  476 ,  480 ,  484 , and  488  respectively by horizontal spacing distances of about 1.125 inches (or about 28.6 mm). Also in the embodiment shown, the container support bodies  476 ,  478 ,  480 , and  482  are positioned above the container support bodies  484 ,  486 ,  488 , and  490  respectively by vertical spacing distances of about 6 inches (or about 15.2 cm), and the container support bodies  480 ,  482 ,  488 , and  490  are horizontally spaced from the container support bodies  476 ,  478 ,  484 , and  486  respectively by horizontal spacing distances of about 14 inches (or about 35.6 cm). 
         [0124]    Further, in the embodiment shown, external surfaces of the recesses  494 ,  498 ,  502 , and  506  have radii of curvature of about 0.625 inches (or about 15.9 mm) and external surfaces of the recesses  496 ,  500 ,  504 , and  508  have radii of curvature of about 0.5 inches (or about 12.7 mm). As such, as shown in  FIG. 24 , the recesses  494 ,  498 ,  502 , and  506  are sized to receive a portion of a body of a respective 750 ml wine bottle  510 ,  512 ,  514 , and  516  positioned transversely to the container support bodies  476 ,  480 ,  484 , and  488  respectively, and the recesses  496 ,  500 ,  504 , and  508  are sized to receive a portion of a neck of the respective wine bottle  510 ,  512 ,  514 , and  516  positioned transversely to the container support bodies  478 ,  482 ,  486 , and  490  respectively. 
         [0125]    In the embodiment shown, the container support bodies  476 ,  478 ,  480 ,  482 ,  484 ,  486 ,  488 , and  490  define grooves (not shown) sized to receive O-rings on each side of their respective recesses, and  FIGS. 24 and 25  show O-rings positioned on each side of each of the recesses  494 ,  496 ,  498 ,  500 ,  502 ,  504 ,  506 , and  508 . The O-rings in the embodiment shown actually contact the wine bottles to support the wine bottles with frictional contact to prevent movement of the wine bottles. 
         [0126]    Referring to  FIG. 26 , a container support assembly according to another illustrative embodiment is shown generally at  518  and includes container support bodies  520  and  522  mounted to a panel  524  that may be mounted to a wall (not shown) as described above. The container support bodies  520  and  522  are substantially similar to the container support bodies  476  and  478  (shown in  FIGS. 24 and 25 ) respectively and define recesses shown generally at  526  and  528  respectively. However, the container support bodies  520  and  522  do not include O-rings and do not define grooves to receive O-rings. Instead, an outer surface  530  defining the recess  526  is formed from a frictional coating  532  on a structural body  534  of the container support body  520 , and an outer surface  536  defining the recess  528  is formed from a frictional coating  538  on a structural body  540  of the container support body  522 . In the embodiment shown, the structural bodies  534  and  540  are formed of brushed aluminum, but may be formed of other metals, or more generally other structural materials, in alternative embodiments. Also, in the embodiment shown, the frictional coatings  532  and  538  are a polyurethane coating such as a coating of Velvecron™ available from PPG Industries, Inc. of Pittsburgh, Pa., United States of America, but the frictional coatings may be formed of other frictional materials in alternative embodiments. The frictional coatings  532  and  538  contact a wine bottle (not shown) to support the wine bottle with frictional contact to prevent movement of the wine bottle in the absence of O-rings as shown in  FIGS. 24 and 25 . 
         [0127]    Referring to  FIG. 27 , a container support assembly according to another illustrative embodiment is shown generally at  542  and includes container support bodies  544  and  546  mounted to a panel  548  that may be mounted to a wall (not shown) as described above. The container support bodies  544  and  546  are substantially similar to the container support bodies  476  and  478  (shown in  FIGS. 24 and 25 ) respectively, although the container support body  544  defines two recesses  550  and  552 , each sized and shaped substantially similar to the recess  494  shown in  FIGS. 24 and 25  and longitudinally spaced apart from each other, and the container support body  546  defines two recesses  554  and  556 , each sized and shaped substantially similar to the recess  496  shown in  FIGS. 24 and 25  and longitudinally spaced apart from each other. Therefore, the container support assembly  542  can support two wine bottles (not shown) transversely to the container support bodies  544  and  546  with a portion of the body of a first one of the wine bottles received in the recess  550 , a portion of the neck of the first one of the wine bottles received in the recess  554 , a portion of the body of a second one of the wine bottles received in the recess  552 , and a portion of the neck of the second one of the wine bottles received in the recess  556 . In the embodiment shown, the container support bodies  544  and  546  extend by lengths of about 7.5 inches (or about 19.1 cm) from the panel  548 , and longitudinal centers of the recesses  550  and  554  are about 2.125 inches (or about 5.4 cm) from an outer surface of the panel  548 , and longitudinal centers of the recesses  552  and  556  are about 6.125 inches (or about 15.6 cm) from an outer surface of the panel  548 . 
         [0128]    Referring to  FIG. 28 , a container support assembly according to another illustrative embodiment is shown generally at  558  and includes container support bodies  560  and  562  mounted to a panel  564  that may be mounted to a wall (not shown) as described above. The container support bodies  560  and  562  are substantially similar to the container support bodies  544  and  546  (shown in  FIG. 27 ) respectively, although as in the container support assembly  518  (shown in  FIG. 26 ), the container support bodies  560  and  562  do not include O-rings and do not define grooves to receive O-rings, and instead outer surfaces defining the recesses are formed from frictional coatings on structural bodies of the container support bodies  560  and  562 . Referring to  FIG. 29 , a container support assembly according to another illustrative embodiment is shown generally at  566  and includes container support bodies  568  and  570  mounted to a panel  572  that may be mounted to a wall (not shown) as described above. The container support bodies  568  and  570  are substantially similar to the container support bodies  544  and  546  (shown in  FIG. 27 ), except that each of the container support bodies  568  and  570  defines three recesses, so the container support assembly  566  can support three wine bottles (not shown) transversely to the container support bodies  568  and  570 . In the embodiment shown, the container support bodies  568  and  570  extend by lengths of about 11.5 inches (or about 29.2 cm) from the panel  572 , and longitudinal centers of the recesses are about 2.125 inches (or about 5.4 cm), about 6.125 inches (or about 15.8 cm), or about 10.125 inches (or about 25.7 cm) from an outer surface of the panel  572 . 
         [0129]    Referring to  FIG. 30 , a container support assembly according to another illustrative embodiment is shown generally at  574  and includes container support bodies  576  and  578  mounted to a panel  580  that may be mounted to a wall (not shown) as described above. The container support bodies  576  and  578  are substantially similar to the container support bodies  560  and  562  (shown in  FIG. 28 ), except that each of the container support bodies  576  and  578  defines three recesses, so the container support assembly  574  can support three wine bottles (not shown) transversely to the container support bodies  576  and  578 . 
         [0130]    In general, the embodiments described above may be used for wine racks in wine cellars or in other locations in homes or in other buildings. Commercial embodiments may include kits including one or more container support systems, mounting bodies, and panels such as those described above, and may further include instructions to assemble and install container support assemblies such as those described above. Container support systems, container support assemblies, and kits such as those described above may be offered commercially for use in assembly and installation of wine racks, or for use in wine racks. 
         [0131]    In some embodiments such as some kits, inserts (such as the inserts  106  and  108  shown in  FIGS. 1 ,  3 ,  4 , and  12 ) may be pre-coupled to panels (such as the panel  102  shown in  FIGS. 1 ,  2 , and  12 ), and such kits may allow assembling container support assemblies (such as the container support assembly  100  shown in  FIGS. 1 and 11  to  13 ) without having to access rear sides of such panels (such as the rear side  128  of the panel  102  shown in  FIG. 1 ). In other embodiments, container support systems (such as a container support system including the container support body  424  and the fastener  410  shown in  FIGS. 20 ,  22 , and  23 ) may be mounted to a mounting body (such as the panel  396 ) also without having to access rear sides of such panels. Assembly of such container support assemblies may be more efficient when compared to alternatives because less time may be required to assemble such container support assemblies from front sides of such panels. Also, container support systems such as those described above permit adjusting lengths of portions of fasteners that extend away from container support bodies (such as adjusting the length  212  of the portion  214  of the fastener  110  that extends away from the container support body  114  as explained above with reference to  FIG. 9 ), and such adjustability permits a particular container support system to be used in various applications notwithstanding variations in thicknesses of panels, of positions of inserts in panels, or other variations that may be accommodated by adjusting lengths of portions of such fasteners. 
         [0132]    Although specific embodiments have been described and illustrated, such embodiments should be considered illustrative only and not as limiting the invention as construed according to the accompanying claims. For example, dimensions described above and shown in the drawings, and materials described above, are illustrative only, and alternative embodiments may include various different dimensions, materials, and combinations of materials. Further, aspects of the embodiments described above are interchangeable in various ways. For example, container support systems such as those described above may be mounted to various mounting bodies such as those described above, and mounting bodies such as those described above may be mounted to various walls such as the walls described above in various different ways.