PORTABLE OBJECT SUPPORT
According to one representative embodiment, an adjustable support apparatus for supporting an object includes a coupling mechanism that has a first portion and a second portion. The apparatus also includes a support base that is movably coupled to the first portion of the coupling mechanism in a ball and socket arrangement to form a first joint. The support base includes an object support surface. The apparatus further includes a clamping mechanism that is movably coupled to the second portion of the coupling mechanism in a ball and socket arrangement to form a second joint. The clamping mechanism includes a clamping portion and an adjustment portion. The adjustment portion is adjustable to secure the clamping portion to a fixed structure. The support base is movable relative to the clamping mechanism via the first and second joints.
This application claims the benefit of U.S. Provisional Patent Application No. 61/089,808, filed Aug. 18, 2008, which is incorporated herein by reference.
FIELDThis invention relates to object supports and, more particularly, to supports for portable objects, such as laptop computers.
BACKGROUNDPortable computers, often referred to as laptop computers or notebook computers, are often carried to and used at remote user locations for user convenience and accessibility. Often times, the user location does not include a readily available protected flat space for facilitating comfortable and accessible placement of a portable computer. In some cases, such as in automobiles for law enforcement officers and in automobiles used as portable business offices, a need exists for a portable computer that can be regularly accessed and secured without the need for fixed supports that may permanently block or eliminate usable space.
Further, a need exists for an object support that is easily transportable and attachable to existing structures in various configurations to provide a portable and adjustable mounting platform for the secure placement of various portable objects, such as portable computers and the like. Additionally, a need exists for an object support that is easily removable or adjustable when not in use for convenient and space-saving relocation and/or storage of the object support.
SUMMARYIn view of the foregoing, a portable object support that overcomes at least one of the above-mentioned shortcomings of conventional supports and problems associated with use of portable objects at remote locations is disclosed herein. According to one embodiment, the object support includes an adjustable clamping mechanism that is coupleable to a variety of existing fixtures, such as table edges, posts, rails and the like. In some embodiments, the object support may also include a multi-axis mechanism for independently pivoting the support base in any of an infinite number of positions relative to the clamping mechanism.
According to another representative embodiment, an adjustable support apparatus for supporting an object includes a coupling mechanism that has a first portion and a second portion. The apparatus also includes a support base that is movably coupled to the first portion of the coupling mechanism in a ball and socket arrangement to form a first joint. The support base includes an object support surface. The apparatus further includes a clamping mechanism that is movably coupled to the second portion of the coupling mechanism in a ball and socket arrangement to form a second joint. The clamping mechanism includes a clamping portion and an adjustment portion. The adjustment portion is adjustable to secure the clamping portion to a fixed structure. The support base is movable relative to the clamping mechanism via the first and second joints.
In some implementations, the support base is coupled to the first portion of the coupling mechanism via a quick release mechanism. The support base can include a plurality of apertures extending through the object support surface. In certain implementations, the total area of the plurality of apertures is at least equal to the total area of the object support surface. Moreover, in some implementations, the clamping portion includes first and second opposing gripping surfaces between which the fixed structure is securable.
According to some implementations, the apparatus includes at least one object retention mechanism coupled to the support base. The object retention mechanism is configured to at least partially retain an object on the object support surface. The object support surface can define a height and a width. The at least one object retention mechanism can include an elongate retention element traversing the width of the object support surface. In such instances, the elongate retention element can be positionable in a plurality of positions along the height of the object support surface. In some implementations, the at least one object retention mechanism includes an adjustable clamp.
In some implementations of the apparatus, the first portion of the coupling mechanism is tightenable to the support base and the second portion of the coupling mechanism is tightenable to the clamping mechanism via a single adjustment mechanism. The clamping mechanism can include a first arm coupled to a second arm where each of the first and second arms includes an adjustment end and a clamping end. Movement of the adjustment ends of the first and second arms away from each other causes the clamping ends of the first and second arms to move toward each other. The apparatus can include an adjustment mechanism coupled to the adjustment ends of the first and second arms where the adjustment mechanism is adjustable to move the adjustment ends of the first and second arms toward and away from each other. The adjustment mechanism can include an adjustment wheel that is rotatable in a first direction to move the adjustment ends of the first and second arms toward each other and in a second direction opposite the first direction to move the adjustment ends of the first and second arms away from each other.
According to another embodiment, a portable object support includes a first portion for removably supporting an object and a second portion movably coupled to the first portion. The second portion includes first and second opposing gripping surfaces between which an anchored structure is securable. The first and second opposing gripping surfaces each includes at least one concave contact surface and at least one planar contact surface. In certain implementations, each of the first and second opposing gripping surfaces comprises a concave contact surface intermediate two planar contact surfaces. The first and second opposing gripping surface can be rotatable relative to each other and the second portion. Also, in certain implementations, the second portion includes a grip-enhancing material disposed on each of the first and second opposing gripping surfaces.
In some implementations, the second portion includes first and second tightening mechanisms each operable to secure the anchored structure between the first and second opposing gripping surfaces. The second portion can also include first and second clamping arms that are pivotally coupled to each other. Each of the first and second clamping arms can include a clamping end and tightening end. Moreover, the first and second opposing griping surfaces can be coupled to the tightening ends of the first and second clamping arms. In such instances, the first tightening mechanism is operable to move the clamping ends of the first and second clamping arms relative to each other and the second tightening mechanism comprises at least one fastener fastening the first gripping surface to the second gripping surface.
According to yet another embodiment, a support apparatus for removably securing an object to a fixed structure includes a clamp that includes a first clamping arm pivotally coupled to a second clamping arm. The clamp further includes an adjustment mechanism coupled to first ends of the first and second clamping arms and structure gripping surfaces coupled to second ends of the first and second clamping arms. The first ends are opposite the second ends. The adjustment mechanism is adjustable to secure the structure gripping surfaces to a fixed structure. Additionally, the clamp includes a first ball and the structure gripping surfaces each comprise a concave surface between two flat surfaces. The support apparatus further includes an object support that includes a substantially planar support surface and at least one object retaining mechanism configured to removably retain an object on the support surface. The object support also includes a second ball. The support apparatus additionally includes an adjustment linkage that includes a first socket within which the first ball is positionable and a second socket within which the second ball is positionable. The first ball is movable within the first socket to move the adjustment linkage relative to the clamp and the second ball is movable within the second socket to move the object support relative to the adjustment linkage.
Reference throughout this specification to features, advantages, or similar language does not imply that all of the features and advantages that may be realized with the subject matter of the present disclosure should be or are in any single embodiment. Rather, language referring to the features and advantages is understood to mean that a specific feature, advantage, or characteristic described in connection with an embodiment is included in at least one embodiment of the present disclosure. Thus, discussion of the features and advantages, and similar language, throughout this specification may, but do not necessarily, refer to the same embodiment.
Furthermore, the described features, advantages, and characteristics of the subject matter of the present disclosure may be combined in any suitable manner in one or more embodiments. One skilled in the relevant art will recognize that the subject matter may be practiced without one or more of the specific features or advantages of a particular embodiment. In other instances, additional features and advantages may be recognized in certain embodiments that may not be present in all embodiments. These features and advantages will become more fully apparent from the following description, and appended claims, or may be learned by the practice of the subject matter as set forth hereinafter.
In order that the advantages of the subject matter may be more readily understood, a more particular description of the subject matter briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings. Understanding that these drawings depict only typical embodiments of the subject matter and are not therefore to be considered to be limiting of its scope, the subject matter will be described and explained with additional specificity and detail through the use of the drawings, in which:
Reference throughout this specification to “one embodiment,” “an embodiment,” or similar language means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.
Furthermore, the described features, structures, or characteristics described herein may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to give a thorough understanding of at least some embodiments of disclosed subject matter. One skilled in the relevant art will recognize, however, that the disclosed subject matter may be practiced without one or more of the specific details, or with other methods, components, materials, and so forth. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the disclosed subject matter.
Referring to
Referring to
The first and second clamping arms 22, 24 are pivotally attached to each other such that as the tightening end portions 50, 52 separate from each other, the clamping end portions 54, 56 move toward each other. Accordingly, the clamping portion 20 can be secured to a desired relatively fixed structure (e.g., cylindrical structure 14A, 14B) by positioning the structure between the clamping end portions 54, 56, and moving the tightening end portions 50, 52 apart until the clamping end portions sufficiently clamp down on or are sufficiently secured to the fixed structure.
The clamping portion 20 further includes a gripping portion 60 and tightening portion 80 coupled to the clamping arms 22, 24. The gripping portion 60 includes opposing upper and lower gripping elements 62, 64 each pivotally coupled to a respective clamping end portion 54, 56 via a respective hinge pivot or pin 66, 68. The upper and lower gripping elements 62, 64 are configured to securely grip any of variously sized and shaped fixed structures. Referring to the embodiment illustrated in
For example, as shown in
To further facilitate secure attachment of the clamping portion 20 to fixed structures, the gripping elements 62, 64 are pivotally coupled to the clamping end portions 62, 64 by the hinge pin 66. Referring to
As can be recognized with the above-described embodiments, gripping elements 62, 64 with both concave and flat contact surfaces provide flexibility for removably securing the clamping portion 20 to any of variously sized and shaped structures. However, in some embodiments, flexibility can be provided in other ways. For example, in certain embodiments, the hinge pins 66, 68 are easily removable such that the gripping elements 62, 64 can be easily removed from the clamping end portions 62, 64. In these embodiments, the gripping elements 62, 64 can be easily removed and replaced by differently sized or shaped gripping elements depending on the size and shape of the fixed structure. For example, in certain implementations, the gripping elements 62, 64 may only have concave contact surfaces conducive to clamping fixed structures with curved surfaces. If a user desires to clamp a flat surface, the gripping elements 62, 64 with only concave contact surfaces can be removed and replaced with gripping elements having only flat contact surfaces. In an alternative example, a user can switch from gripping elements with smaller concave contact surfaces (i.e., smaller radius) to gripping elements with larger concave contact surfaces (i.e., larger radius) if a user desires to move the clamping portion 20 from a small cylindrical structure to a larger cylindrical structure.
Referring to
Referring again to
More specifically, as the rotatable adjuster 86 is rotated in a first direction (e.g., tightening direction) relative to the threaded rod 84, the distance between the two opposing tightening end portions 50, 52 is increased. Rotating the rotatable adjuster 86 in the tightening direction results in the application of opposing outwardly directed forces to the tightening end portions to bias the tightening end portions away from each other. Biasing the tightening end portions 50, 52 away from each other correspondingly biases the clamping end portions 54, 56 toward each other. Moreover, the outwardly directed forces on the tightening end portions 50, 52 are transferred via the clamping arms 22, 24 to the gripping elements 62, 64, which results in the gripping elements applying opposing inwardly directed forces to a fixed structure to secure the fixed structure between the gripping elements. Further tightening of the rotatable adjuster 86 increases the inwardly directed forces to increase the clamping force on the fixed structure. Once secured, the clamping portion 20 remains secured until the rotatable adjuster 86 is rotated in a second direction opposite the first direction (e.g., loosening direction) to relieve or decrease the outwardly directed forces against the tightening end portions 50, 52 and the inwardly directed forces against the fixed structure.
In certain embodiments, the adjustment mechanism 82 can include two or more interchangeable threaded rod and rotatable adjuster assemblies based on the size of the fixed object to which the clamping portion 20 is to be clamped. For example, the tightening end portions 50, 52 must be separated more for clamping to a small fixed object compared to a large fixed object. Accordingly, the adjustment mechanism 82 can include a rotatable adjuster 86 with a long threaded rod 84 for clamping the clamping portion 20 to a small object (see
Although the illustrated embodiment includes a spreading and tightening mechanism 82 with a threaded rod 84 and rotatable adjuster 86, in other embodiments, the spreading and tightening mechanism can include a ratcheting mechanism that spreads and tightens the clamp portion 20 in a ratcheting fashion. For example, the threaded rod 84 can be replaced by a linear rack with teeth and the adjuster 86 can be replaced by a pawl and lever assembly that engages the linear rack to separate the tightening end portions 50, 52.
The clamping portion 20 further includes a coupling ball 90 extending substantially upwardly from the upper clamping arm 22 as shown in
The various elements of the clamping portion 20 can be constructed of any of a variety of materials that are sufficiently rigid to allow the transfer of force from the tightening end portions 50, 52 to the clamping end portions 54, 56, respectively, and from the gripping elements 62, 64 to the fixed structure. Exemplary materials can include, but are not limited to, plastics, metal, metal alloys, and/or composites.
Referring to
The support base 30 further includes a hold down strap 106 for securing a portable object to the support base. The hold down strap 106 is configured to extend over the supported object to retain the object on the support surface 100. The hold down strap 28 can be any of various object retaining mechanisms, such as, but not limited to, a rigid bar made of, for example, metal, composite, and/or plastic, or a flexible member, such as a strip of elastic or rubber stretched over the object with sufficient tension to retain the object on the support surface 100. In some embodiments, the position of the hold down strap 106 relative to the support surface 100 is adjustable to accommodate portable objects of different sizes and shapes. For example, as shown in
In some embodiments, the support base 30 may include additional object securing mechanisms to retain an object on the base. For example, as shown in
Although two clamp mechanisms 110 are shown in the illustrated embodiment, in other embodiments, one clamp mechanism or more than two clamp mechanisms can be used as desired. Moreover, the clamp mechanisms 110 can be located at any of various positions along the bottom edge as desired. Alternatively, or additionally, in some embodiments, clamp mechanisms can be positioned along the side edges of the support base 30.
Referring now to
When the compression halves 120, 122 are coupled together, the opposing lower portions 124, 126 of the compression halves 120, 122 are operatively juxtaposed about the coupling ball 90 to form an infinitely adjustable ball-and-socket assembly. More specifically, the coupling ball 90 is positionable in any of an infinite number of positions relative to the lower portions 124, 126 of the adjustment linkage 40.
The adjustment linkage 40 further comprises a quick release mechanism 140 configured to removably secure the support base 30 to the compression halves 120, 122 and facilitate a quick removal of the support base 30 from the adjustment linkage. The quick release mechanism 140 includes a mounting disk 142, capture disk 144, and release lever 146. The mounting disk 142 includes a circular platform with lips or flanges extending about a portion of a periphery of the circular platform. The lips include inwardly facing slots 160. The mounting disk 142 further includes a second coupling ball (not shown) extending downwardly away from the circular platform. In a manner similar to the first coupling ball 90, the upper portions 128, 130 of the compression halves 120, 122 are operatively juxtaposed about the second coupling ball to provide a second universally or infinitely positionable ball-and-socket assembly. More specifically, the coupling ball of the mounting disk 142 is positionable in any of an infinite number of positions relative to the upper portions 128, 130 of the adjustment linkage 40.
The capture disk 144 includes tabs 162 extending along a portion of the periphery of the capture disk. The tabs 162 are sized to slideably engage the slots 160 of the mounting disk 142 and fit between gaps 164 between the slots. Accordingly, the capture disk 144 is positionable on the circular platform of the mounting disk 142 with the tabs 162 in the gaps 164 between the slots 160. The capture disk 144 is removably securable to the mounting disk 144 by rotating the capture disk relative to the mounting disk such that the tabs 162 slide within the slots 160. Similarly, the capture disk 144 is removable from the mounting disk 144 by rotating the capture disk relative to the mounting disk until the tabs 162 slide out of engagement with the slots 160 and align with the gaps 164 between the slots.
The capture disk 144 is secured to the release lever 146 such that rotation of the release level correspondingly rotates the capture disk. Additionally, the release lever 146 is pivotally secured to the support base 30 such that the release lever 146 and capture disk 144 are rotatable relative to the support base 30. The support base 30 is removably coupled to the clamping portion 20 by positioning the support base 30 such that the capture disk 144 is positioned on the mounting disk 142 and rotating the release lever 146 a quarter turn to slide the tabs 162 of the capture disk into the slots 160 of the mounting disk. The quick release linkage 50 is configured to allow the support base 20 to be easily detached from the clamping jaw 30. More specifically, the support base 20 can be detached (e.g., lifted) from the clamp portion 20 by rotation of the release lever 52 (such as a quarter turn) to position the tabs 162 of the capture disk 144 in line with the gaps 164 between the slots 160 on the mounting disk 142.
When the support base 30 is coupled to the clamping portion 20 via the attachment linkage 40, the attachment linkage 40 facilitates infinite adjustment of the position of the support base (an an object supported thereon) relative to the fixed structure. When the adjustment knob 123 is released or loosened, the adjustment linkage 40 is able to pivot about the first coupling ball 90 in any of an infinite number of orientations. Likewise, when the adjustment knob 123 is released or loosened, the support base 30 is able to pivot about the second coupling ball in any of an infinite number of orientations. In other words, as the compression halves 120, 122 of the adjustment linkage 40 are loosened around respective coupling balls, the adjustment linkage effectively becomes flexible, which allows the support base 30 to swivel about both coupling balls and be adjustable in a multi-axis fashion relative to the clamping portion 20. Once a desired base orientation of the support base 30 is achieved, the base can be secured in place by tightening or re-tightening the adjustment knob 123.
The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. For example, various embodiments of the disclosed portable object support are described in the several numbered paragraphs below. The described embodiments are to be considered in all respects only as illustrative and not restrictive. More specifically, with respect to the above description, it is to be realized that the optimum dimensional relationships for the parts of the subject matter described herein may include variations in size, materials, shape, form, function, and manner of operation. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.
Claims
1. An adjustable support apparatus for supporting an object, comprising:
- a coupling mechanism comprising a first portion and a second portion;
- a support base movably coupled to the first portion of the coupling mechanism in a ball and socket arrangement to form a first joint, the support base comprising an object support surface; and
- a clamping mechanism movably coupled to the second portion of the coupling mechanism in a ball and socket arrangement to form a second joint, the clamping mechanism comprising a clamping portion and an adjustment portion, wherein the adjustment portion is adjustable to secure the clamping portion to a fixed structure;
- wherein the support base is movable relative to the clamping mechanism via the first and second joints.
2. The adjustable support apparatus of claim 1, wherein the support base is coupled to the first portion of the coupling mechanism via a quick release mechanism.
3. The adjustable support apparatus of claim 1, wherein the support base comprises a plurality of apertures extending through the object support surface.
4. The adjustable support apparatus of claim 3, wherein a total area of the plurality of apertures is at least equal to a total area of the object support surface.
5. The adjustable support apparatus of claim 1, wherein the clamping portion comprises first and second opposing gripping surfaces between which the fixed structure is securable.
6. The adjustable support apparatus of claim 1, further comprising at least one object retention mechanism coupled to the support base, the object retention mechanism being configured to at least partially retain an object on the object support surface.
7. The adjustable support apparatus of claim 6, wherein the object support surface defines a height and a width, and wherein the at least one object retention mechanism comprises an elongate retention element traversing the width of the object support surface.
8. The adjustable support apparatus of claim 7, wherein the elongate retention element is positionable in a plurality of positions along the height of the object support surface.
9. The adjustable support apparatus of claim 6, wherein the at least one object retention mechanism comprises an adjustable clamp.
10. The adjustable support apparatus of claim 1, wherein the first portion of the coupling mechanism is tightenable to the support base and the second portion of the coupling mechanism is tightenable to the clamping mechanism via a single adjustment mechanism.
11. The adjustable support apparatus of claim 1, wherein the clamping mechanism comprises a first arm coupled to a second arm, each of the first and second arms comprising an adjustment end and a clamping end, wherein movement of the adjustment ends of the first and second arms away from each other causes the clamping ends of the first and second arms to move toward each other.
12. The adjustable support apparatus of claim 11, further comprising an adjustment mechanism coupled to the adjustment ends of the first and second arms, wherein the adjustment mechanism is adjustable to move the adjustment ends of the first and second arms toward and away from each other.
13. The adjustable support apparatus of claim 11, wherein the adjustment mechanism comprises an adjustment wheel rotatable in a first direction to move the adjustment ends of the first and second arms toward each other and in a second direction opposite the first direction to move the adjustment ends of the first and second arms away from each other.
14. A portable object support, comprising:
- a first portion for removably supporting an object; and
- a second portion movably coupled to the first portion, the second portion comprising first and second opposing gripping surfaces between which an anchored structure is securable, wherein the first and second opposing gripping surfaces each comprises at least one concave contact surface and at least one planar contact surface.
15. The portable object support of claim 14, wherein each of the first and second opposing gripping surfaces comprises a concave contact surface intermediate two planar contact surfaces.
16. The portable object support of claim 14, wherein the first and second opposing gripping surface are rotatable relative to each other and the second portion.
17. The portable object support of claim 14, wherein the second portion comprises a grip-enhancing material disposed on each of the first and second opposing gripping surfaces.
18. The portable object support of claim 14, wherein the second portion comprises first and second tightening mechanisms each operable to secure the anchored structure between the first and second opposing gripping surfaces.
19. The portable object support of claim 18, wherein the second portion comprises first and second clamping arms pivotally coupled to each other, each of the first and second clamping arms comprising a clamping end and tightening end, the first and second opposing griping surfaces being coupled to the tightening ends of the first and second clamping arms, wherein the first tightening mechanism is operable to move the clamping ends of the first and second clamping arms relative to each other and the second tightening mechanism comprises at least one fastener fastening the first gripping surface to the second gripping surface.
20. A support apparatus for removably securing an object to a fixed structure, comprising:
- a clamp comprising a first clamping arm pivotally coupled to a second clamping arm, the clamp further comprising an adjustment mechanism coupled to first ends of the first and second clamping arms and structure gripping surfaces coupled to second ends of the first and second clamping arms opposite the first ends, the adjustment mechanism being adjustable to secure the structure gripping surfaces to a fixed structure, wherein the clamp comprises a first ball and the structure gripping surfaces each comprise a concave surface between two flat surfaces;
- an object support comprising a substantially planar support surface and at least one object retaining mechanism configured to removably retain an object on the support surface, wherein the object support comprises a second ball; and
- an adjustment linkage comprising a first socket within which the first ball is positionable and a second socket within which the second ball is positionable, wherein the first ball is movable within the first socket to move the adjustment linkage relative to the clamp and the second ball is movable within the second socket to move the object support relative to the adjustment linkage.
Type: Application
Filed: Aug 13, 2009
Publication Date: Feb 18, 2010
Inventor: Juliet Sonnenberg (Atlanta, GA)
Application Number: 12/541,046
International Classification: A47B 96/06 (20060101);