The present inventions relate to mounting assemblies that can be used for attaching two or more articles together, for example but without limitation, attaching an accessory to a piece of furniture.
Various different designs exist for removably mounting accessories to pieces of furniture. For example, clamps have commonly been used to attach accessories, such as lights or monitor arms, to the top of a table or desk.
An aspect of at least one of the inventions disclosed herein includes the realization that a mounting assembly can be constructed in such a way as to allow for a convenient, optionally toolless, connection procedure and a sufficiently stable connection so as to retain an article in a predetermined position relative to another article. For example, a mounting assembly can include a receiver member which defines an insertion passage oriented at a predetermined passage angle and an anchor member that is configured for insertion into the receiver along the predetermined passage angle, into a position in which the anchor member is stably seated within the receiver. The receiver and anchor member can be configured such that when the anchor member is seated in the receiver member, the anchor member is constrained against twisting and/or removal from the receiver along a direction is not coincident with the predetermined passage angle. As such, the anchor member can be conveniently and easily seated into the receiver member, provide a stable mounting for an accessory, yet resist removal from the receiver member along directions different than the predetermined passage angle.
Another aspect of at least one of the inventions disclosed herein include the realization that a mounting assembly can include a receiver member and at least two anchor members, in which the anchor members are configured for insertion into the receiver member along two different directions that are non-parallel to each other. The anchor members can be configured for engagement with each other in a manner that constrains the movement of the anchor members relative to one another in at least one direction. Thus, the connection portions are not required to provide constraints against movement in all directions in order to achieve a state in which the anchor members are both locked into the channel member. Such a mounting assembly can optionally be employed as a tool-less design.
Thus, in an embodiment, a mounting assembly can comprise a receiver member, which can be in the form of a channel member defining a channel and comprising a first wall, a bottom wall, and a second wall opposite the first wall. An aperture can be positioned between upper ends of the first and second sidewalls. A ridge can be positioned on the bottom wall and extend along a longitudinal direction of the channel member. An anchor member can include a top wall portion and an anchor leg extended downwardly from the top wall at an anchor leg angle. The anchor member and the receiver member can be configured to constrain the anchor member within the channel member when the anchor leg is received within the receiver member.
Optionally, the mounting assembly can include a connector portion configured to provide a further constraint against movement of the anchor member relative to the receiver member. For example, at least one of the anchor member and the receiver can include a connector portion configured to provide an interference fit between the anchor member and the receiver member. In some embodiments, the connector portion is spaced away from the anchor leg. In some embodiments, the receiver member can be configured to define an insertion passage extending along an angled insertion direction along which the anchor leg can be inserted into the receiver member, and wherein the connector portion is configured to constrain movement of the anchor member along a component direction of the angled insertion direction, and thereby interfere with movement of the anchor leg out of the receiver along the angled insertion direction.
In another embodiment, a mounting assembly can comprise a receiver member, which can be in the form of a channel member defining a channel and comprising a first wall, a bottom wall, and a second wall opposite the first wall. An aperture can be positioned between upper ends of the first and second sidewalls. A protrusion can be positioned on the bottom wall and extend along a longitudinal direction of the channel member. A first anchor member can include a top wall portion a first connection portion, and a first anchor leg extended downwardly from the top wall at a first anchor leg angle. A second anchor member can include a top wall, a second connector portion configured to connect with the first connector portion, and a second anchor leg extending downwardly from the top wall at a second anchor leg angle. The first and second anchor members can be configured to be captured within the channel member between the sidewalls and the protrusion when the first connector portion is connected to the second connector portion and the first anchor leg and the second anchor leg are positioned within the channel.
Another aspect of at least one of the inventions disclosed herein includes the realization that a mounting assembly including a channel member and one or more anchor members, can be configured to allow the anchor members to slide longitudinally along the channel member when the anchor members are inserted into the channel member. Such a configuration provides additional convenience to a user for adjusting a position of the anchor and/or any accessory attached to the anchor, along channel member which, in some environments of use, would result in the mounting of an accessory in a different position and adjustably, along a surface of a piece of furniture such as a table or a desk, or other kinds of furniture.
In some aspects, the techniques described herein relate to a desk having an accessory mount for mounting accessories to the desk, the desk including: a first leg assembly; a desktop supported by the leg assembly; a channel member having a longitudinal axis and recessed into the desktop, the channel member having a channel including a first side wall, a bottom wall and a second sidewall opposite the first side wall, the channel member including: an aperture between upper ends of the first and second side walls; a ridge positioned on the bottom wall, extending along a longitudinal axis of the channel member, wherein the ridge protrudes upwardly from the bottom wall, dividing the bottom wall into a first side portion between the ridge and the first sidewall and a second side portion between the ridge and the second sidewall; wherein the first and second sidewalls, the aperture and the ridge form a first insertion passage extending through the aperture toward the first side portion along a first insertion angle and a second insertion passage through the aperture and towards the second side portion along a second insertion angle, the first and second insertion passages being non parallel to each other and non-perpendicular to the bottom wall; a first anchor member including a first top wall and a first anchor leg extending downwardly from the top wall at a first anchor leg angle that is approximately equal to the first insertion angle, and a first connector portion; wherein the first anchor leg is sized so as to be constrained by the aperture, first sidewall, second sidewall, and the ridge, in use, to movement along the first insertion angle when the first anchor leg is inserted into the first side portion of the channel member; a second anchor member including a second top wall and a second anchor leg extending downwardly from the top wall at a second anchor leg angle that is approximately equal to the second insertion angle, and a second connector portion configured to connect with the first connector portion; wherein the second anchor leg is sized so as to be constrained by the aperture, first sidewall, second sidewall, and the ridge, in use, to movement along the second insertion angle when the second anchor leg is inserted into the second side portion of the channel member; wherein when the first connector portion is connected to the second connector portion with the first anchor leg positioned in the first side portion of the channel member and the second anchor leg positioned in the second side portion of the channel member, the connected first and second anchor members are constrained from removal from the channel member along any direction extending from within the channel member outwardly through the aperture.
In some aspects, the techniques described herein relate to a desk additionally including an accessory attached to the first anchor member, the first and second anchor members securing the accessory to the channel member in a position above the desktop.
In some aspects, the techniques described herein relate to a table having an accessory mount, the table including: a first leg assembly; a tabletop supported by the leg assembly; a channel having a longitudinal axis and being recessed into the tabletop, the channel including: a first side wall; a bottom wall; a second sidewall opposite the first wall; an aperture between upper ends of the first and second sidewalls; and a ridge positioned on the bottom wall, extending along the longitudinal axis of the channel; a first anchor member including a first top wall, a first connector portion, and a first anchor leg extending downwardly from the top wall at a first anchor leg angle; a second anchor member including a second top wall, a second connector portion configured to connect with the first connector portion, and a second anchor leg extending downwardly from the top wall at a second anchor leg angle; wherein when the first connector portion is connected to the second connector portion with the first anchor leg positioned in the first side portion of the channel and the second anchor leg positioned in the second side portion of the channel, the connected first and second anchor members are constrained from removal from the tabletop along any direction extending from within the channel outwardly through the aperture.
In some aspects, the techniques described herein relate to a table additionally including an accessory attached to the first anchor member, the first and second anchor members securing the accessory to the channel member in a position above the tabletop.
In some aspects, the techniques described herein relate to a table, wherein the ridge protrudes upwardly from the bottom wall, dividing the bottom wall into the first side portion between the ridge and the first sidewall and the second side portion between the ridge and the second sidewall.
In some aspects, the techniques described herein relate to a table, wherein the first and second sidewalls, the aperture and the ridge form a first insertion passage extending through the aperture toward the first side portion along a first insertion angle and a second insertion passage through the aperture and towards the second side portion along a second insertion angle, the first and second insertion passages being non parallel to each other and non-perpendicular to the bottom wall.
In some aspects, the techniques described herein relate to a table, wherein the first anchor leg angle is approximately equal to the first insertion angle and the second anchor leg angle that is approximately equal to the second insertion angle.
In some aspects, the techniques described herein relate to a table, wherein the first anchor leg is sized so as to be constrained by the aperture, first sidewall, second sidewall, and the ridge, in use, to movement along the first insertion angle when the first anchor leg is inserted into the first side portion of the channel and wherein the second anchor leg is sized so as to be constrained by the aperture, first sidewall, second sidewall, and the ridge, in use, to movement along the second insertion angle when the second anchor leg is inserted into the second side portion of the channel.
In some aspects, the techniques described herein relate to a mounting assembly including: a channel member defining a channel and including a first side wall, a bottom wall a second sidewall opposite the first wall, an aperture between upper ends of the first and second sidewalls, and a ridge positioned on the bottom wall and extending along a longitudinal axis of the channel member; a first anchor member including a first top wall, a first connector portion, and a first anchor leg extending downwardly from the top wall at a first anchor leg angle; a second anchor member including a second top wall, a second connector portion configured to connect with the first connector portion, and a second anchor leg extending downwardly from the top wall at a second anchor leg angle; wherein the first and second anchor members are configured to be captured within the channel member when the first connector portion is connected to the second connector portion and the first anchor leg and the second anchor leg are positioned within the channel.
In some aspects, the techniques described herein relate to a mounting assembly additionally including an accessory attached to the first anchor member, the first and second anchor members securing the accessory to the channel member.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the ridge protrudes upwardly from the bottom wall, dividing the bottom wall into the first side portion between the ridge and the first sidewall and the second side portion between the ridge and the second sidewall.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the first and second sidewalls, the aperture and the ridge form a first insertion passage extending through the aperture toward the first side portion along a first insertion angle and a second insertion passage through the aperture and towards the second side portion along a second insertion angle, the first and second insertion passages being non parallel to each other and non-perpendicular to the bottom wall.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the first anchor leg angle is approximately equal to the first insertion angle and the second anchor leg angle that is approximately equal to the second insertion angle.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the first anchor leg is sized so as to be constrained by the aperture, first sidewall, second sidewall, and the ridge to movement along a first insertion angle when the first anchor leg is inserted into the first side portion of the channel member and wherein the second anchor leg is sized so as to be constrained by the aperture, first sidewall, second sidewall, and the ridge to movement along a second insertion angle when the second anchor leg is inserted into the second side portion of the channel member.
In some aspects, the techniques described herein relate to a mounting assembly, in combination with a desk having a desktop, the channel member being recessed into the desktop.
In some aspects, the techniques described herein relate to a mounting assembly, wherein when the first connector portion is connected to the second connector portion with the first anchor leg positioned in the first side portion of the channel member and the second anchor leg positioned in the second side portion of the channel member, the connected first and second anchor members are constrained from removal from the channel member along any direction extending from within the channel member outwardly through the aperture.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the channel member further includes a second insertion passage oriented at a second angle that is oblique relative to the bottom wall and different than the first angle, the second insertion passage being configured to receive insertion of the anchor leg when moved in a direction along the second angle with the anchor member oriented in a second orientation that is different from the first orientation, in use.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the anchor member additionally includes a snap connector configured to provide a snap fit with the channel member.
In some aspects, the techniques described herein relate to a mounting assembly, wherein the anchor member additionally includes a connector portion configured to engage with a body adjacent to the anchor member so as to prevent the anchor member from moving along the first direction. mounting assembly
An improved mounting assembly is disclosed herein. The mounting assembly is described in the context of a mounting assembly for attaching an article to a piece of furniture, such as a table or a desk, because the mounting assemblies disclosed herein have particular utilities in that context. However, the embodiments disclosed herein can be used in other contexts as well, for example, but without limitation, any environment for connecting articles to one another, lighting systems, racks, or other contexts.
In the following detailed description, terms of orientation such as “top,” “bottom,” “front,” “upper,” “lower,” “longitudinal,” “horizontal,” “vertical,” “lateral,” “midpoint,” and “end” may be used here to simplify the description in the context of the illustrated embodiments. Because other orientations are possible, however, the present inventions should not be limited to the illustrated orientations. Those skilled in the art will appreciate that other orientations of various components described herein are possible.
In the illustrated embodiment, the furniture assembly 100 is in the form of a table which can also be considered as a desk. As such, the furniture assembly 100 includes a leg assembly 102 which includes a leg support frame 104 for supporting legs 106A, 106B, 106C and, 106D. The configuration of the leg assembly 102 is merely an example typed for illustrative purposes only. Any type of leg assembly can be used. Further, the furniture assembly 100 can be any other type of furniture. In some embodiments, the furniture assembly 100 can be in the form of, but not limited to, a nightstand, coffee table, bookshelf, conference table, side table, buffet table, medial console, etc. which may or may not have legs.
The furniture assembly 100 includes a tabletop 108, which in some embodiments can be a desktop, to which the mounting assembly 110 is attached. However, the furniture assembly 100 can include other non-flat and/or other non-horizontal surfaces to which the mounting assembly 110 can be attached.
In the illustrated embodiment, the tabletop 108 includes an upper working surface 109 with an aperture 109A. Aperture 109A can open into a recess formed in the tabletop 108 or it can be a through hole extending fully through the thickness of the tabletop 108. In some embodiments, portions of the mounting assembly 110 can be integrated with the tabletop 108 for example, formed as a monolithic part or the mounting assembly 110 can be in the form of separate members attached to the tabletop 108. In the illustrated embodiment, the aperture 109A is through hole extending through the tabletop 108 and the mounting assembly 110 is supported by support flanges 114 extending into a portion of the aperture 109A. Other configurations can also be used.
With reference to
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With continued reference to
In some embodiments, the sidewalls 130, 132, the ridge 136, and the aperture 122 can serve as to define one or more insertion passages. For example, the aperture 122, the sidewall 130, and the ridge 136 can be considered as forming an insertion passage 142 extending through the aperture 122 and into the first side portion 139 between the sidewall 130 and the ridge 136. For example, in some embodiments, the boundaries of the insertion passage can be considered as including first and second edges 123, 125 of the aperture 122, an inner sidewall surface 131 of the first sidewall 130 and a first side surface 135 of the ridge 136. As shown in
Optionally, the channel member 120 can define a second insertion passage 144 extending through the aperture 122 into the second side portion 140. For example, the second insertion passage 144 can be considered as being defined by the aperture 122, the ridge 136, and the sidewall 132. In some embodiments, the insertion passage 144 is defined by the edges 123, 125 of the aperture 122, an inner facing surface 133 of the sidewall 132 and a side surface 137 of the ridge 136. Similarly to the insertion passage 142, the insertion passage 144 extends at an oblique angle relative to vertical, identified as angle 145 in
In use, a combination of a plurality of the aperture 122, aperture edges 123, 125, sidewall 130, sidewall surface 131, sidewall 132, sidewall surface 133, ridge 136, ridge surface 135, ridge surface 137 and/or other portions of the channel member 120 can be considered as serving as constraints on the movement of anchor members into and out of channel member 120. Additionally, the bottom wall 134 can be considered as including inner bottom surface portion 147 which serves as a bottom surface of the first side portion 139 and bottom surface 148 which can serve as a bottom surface of the second side portion 140. Additionally, the bottom surfaces 147, 148 can also serve as constraints against movement of other members within the channel member 120, such as the anchor members 150 described below with reference to
In some embodiments, the insertion passage 142 can include an inner sidewall surface 135 having different configurations. For example, as shown in
With reference to
With continued reference to
The top portion 152 can include an upper surface 157. Optionally, in some embodiments, the upper surface 157 is configured for supporting or being connected to an article such as the article 112 (
In some embodiments, the top portion 152 of the anchor member 150 includes a lower facing surface 160 which can include a first surface portion 160A and a second surface portion 160B. In some embodiments, the first and second surface portions 160A, 160B are sized and oriented to be juxtaposed to and/or make contact with upper surface portions 121A, 121B, respectively (
In some embodiments, the overall width of the top portion 152 of the anchor member 150 has approximately the same overall width as the channel member 120.
With continued reference to
The anchor leg 154 can be considered as extending along anchor leg direction 161 at the anchor leg angle 162. In some embodiments, the anchor leg 154 can be configured such that the anchor leg 154 is insertable into the first side portion 139 of the channel member 120 through the aperture 122 into the first insertion passage, for example, with the anchor leg direction 161 oriented coincident or parallel with the insertion passage 142. In some embodiments, the anchor leg 154 is configured, for example, sized, such that once the anchor member 150 is inserted into the insertion passage 142, movement of the anchor member 150 is constrained such that it can only move in or out of the channel member 120 by being translated in a direction along the insertion passage 142, which is oriented at an angle 143 relative to perpendicular.
With continued reference to
The connection portion 156 can have any type of configuration. In some embodiments, as noted above, the connection portion 156 includes portions that can provide an additional constraint on the movement of the anchor 150.
Thus, for example, the connection portion 156 can be configured to engage with another body, surface, or member in a way so as to interfere with movement of the anchor member 150 along the anchor leg direction 161. Thus, many different types of connection devices or mechanisms could be used as the connection portion 156.
In the illustrated embodiment, the connection portion 156 includes at least one of a projection 170 and a recess 172. In the illustrated embodiment, the connection portion 156 includes both a projection 170 and a recess 172. The projection 170 can have any shape, for example but without limitation, square, rectangular, triangular, polygonal, dome, rounded, etc. In the illustrated embodiment, the projection 170 is cylindrical. Other configurations can also be used.
The recess 172 can also have any shape, including but without limitation, square, rectangular, triangular, polygonal, dome, rounded, etc. In the illustrated embodiment, the recess 172 is cylindrical. In some embodiments, the projection 170 and the recess 172 can be sized to have approximately the same dimensions, for example, the projection 170 can have an outer surface the diameter that is slightly smaller than an inner diameter of the recess 172. As such, the projection 170 can be considered as being configured to fit within the recess 172.
The projection 170 can be configured to engage with another body that would constrain its movement along the direction 161. Similarly, the recess 172 can be configured to engage with another surface or body that would provide a constraint against movement of the anchor member 150 in the direction of the anchor leg 161.
In some embodiments, the anchor member 150 can be connected to another anchor member (described below with reference to
With continued reference to
In the illustrated embodiment, the retainer portion 180 includes a projection 182 that extends downward from the surface 160A. In some embodiments, the projection 182 can extend downwardly from the surface 160A along the direction that is transverse to the anchor leg direction 161. Additionally, optionally, in some embodiments, the projection 182 can include an inner curved portion 184 that has a shape that is complimentary to a curved outer shoulder portion 184A of the channel member 120 (
In some embodiments, the projection 182 is configured to be resilient. For example, the projection 182 can be configured to deflectable, in use, to provide interference during a portion of the movement of the anchor member 150 into the channel member 120, deflect elastically, then snap into position for retaining the anchor member 150 to the channel member 120. In some configurations, the retainer portion 180 can be configured to provide an additional constraint on the movement of the anchor member 150 in a direction out of the channel member 120.
With reference to
With continued reference to
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In the position illustrated in
With reference to
In some embodiments, an additional anchor member 250 has the same shape and configuration as the anchor member 150, but is used in a different orientation. For example, in the illustrated embodiment, the additional member 250 has been rotated 180 degrees about the vertical axis relative to the anchor member 150. As such, the connector portion 156 of the anchor member 150 faces toward the connection portion 256 of the anchor member 250.
In some embodiments, the projection 170 and the recess 172 are positioned symmetrically about a central vertical axis of the anchor member 150. Thus, if an identical anchor member 150 is used as the anchor member 250, the projection 170 would align with the corresponding recess 172, when the second anchor member is rotated 180 degrees about the vertical axis. The illustrated embodiment has this configuration.
With reference to
As shown in
With the anchor members 150, 250 initially in the position illustrated in
With the anchor members 150, 250 engaged with each other, in the orientation illustrated in
With reference to
Additionally, in some embodiments, the accessory 112 can include an attachment portion that is configured to connect with a multi-part attachment mechanism. For example, in some embodiments, the accessory 112 can include an attachment portion (not shown) configured to connect with both of the attachment mechanisms 158A, 258A, when the anchor members 150, 250 oriented in the orientation illustrated in
While several embodiments are presented in the foregoing detailed description, a vast number of variations exist. The embodiments described herein are not intended to limit the scope, applicability, or configuration of the claimed subject matter in any way. Rather, the foregoing detailed description provides those skilled in the art with a convenient road map for implementing the described embodiments. Various changes can be made in the function and arrangement of elements without departing from the scope defined by the claims, which includes known equivalents and foreseeable equivalents at the time of filing this patent application.
Number | Date | Country | |
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63355529 | Jun 2022 | US |