Not Applicable
The present disclosure relates generally to an apparatus for securing articles, and more particularly, to a structure mounting device.
While operating a motor vehicle, ready access to a variety of accessories beyond standard installed components and controls therefor may be needed or desired. For example, navigation, audio playback, and/or telephone communication functions of a smartphone may need to be utilized while driving an automobile, and a hands-free operation may be best facilitated by mounting the smartphone to the dashboard, an air conditioning vent, or other surface proximal to the driver. There are numerous smartphone mount devices known in the art, including those that clamp the smartphone in a cradle, with the cradle, in turn, being attached to the dashboard or the windshield via a suction cup mount, an adhesive mount, or the like. Instead of a cradle, there may be a magnetic head that magnetically couples to smartphone to the head, while using the same base mounts.
Within the enclosed space of an interior of an automobile or the like that is travelling on smooth, established roadways, the durability and extent of securement of the accessory mounts are not as critical compared to vehicles that are operated under harsher conditions. There are greater demands on accessory mounts for vehicles in which the operator, and hence accessories that are immediately accessible to the operator, that are exposed to greater wind, shock, and vibration forces such as all-terrain vehicles, motorcycles, and the like. Furthermore, such vehicles may have fewer locations in its interior to which an accessory mount can be attached. For example, one of the few locations on a motorcycle in which additional components can be mounted for view/access/use during operation is the handlebar. All-terrain vehicles (ATVs) and utility vehicles (UTVs), and various off-highway vehicles are likewise limited with respect to the locations on which an accessory mount can be attached, though such vehicles may have roll cages, sway bar and other tubular structures that surround the driver and passengers.
The base mounts that secure smartphones and other electronic devices to such tubular structures of vehicles are known in the art and are typically of the clamp type comprised of a pair of jaws that are compressed against the structure. The base mount, in turn, may incorporate or otherwise attach to a device mount such as the aforementioned cradle or magnetic head.
The outer diameter as well as the profile of such tubular structures may vary in accordance with the application and specific role in which it is utilized relative to the overall vehicle configuration. For instance, a roll cage is understood to be an integral part of the vehicle frame, and so the tubular structure thereof will have a larger outer diameter, while a grab handle or other decorative tubular structure may have a smaller outer diameter. Some tubular structures may have a circular profile, while others, such as roof racks, may have a more oval or flat profile.
Because of the varying sizes and profiles of the tubular structures to which there is a desire to mount different devices, there is a need in the art for a base mount that can be adjusted to such sizes and profiles. Additionally, there is a need in the art for a structure mounting device with adjustability along multiple parameters to accommodate varying structure configurations.
The embodiments of the present disclosure are directed to a mounting device. In one embodiment, there may be a clamp base with a jaw coupling platform defining a first pivot bearing and a second pivot bearing. The clamp base may also define a clevis with a pair of clevis prongs each defining a bushing hole, as well as a mounting platform, and an arcuate jaw. There may also be a clamp brace that includes an extension arm with a pivot pin engageable with either one of the first pivot bearing and the second pivot bearing of the clamp base. The clamp brace may define a clevis tang engagement slot and an arcuate jaw. The mounting device may further include a clevis pin that defines a central cross bore. The clevis pin may be received within the bushing holes of the pair of clevis prongs. There may also be a clevis tang bolt that is engageable with the clevis pin. The clevis tang bolt may also be received within the clevis pin engagement slot of the clamp brace. The mounting device may also include a pair of arcuate inserts, each of which may be engaged to a respective one of the arcuate jaws of the clamp base and the clamp brace.
Another embodiment of the present disclosure is a clamp mount. The clamp mount may include a first jaw defined by a first side with a first pivot hole and a second pivot hole offset from the first pivot hole. The first jaw may also define an opposed second side that defines a link hole. There may also be a second jaw that is defined by a first side with an arm including a pivot pin rotatably engageable with a selected one of the first hole and the second pivot hole of the first jaw. The second jaw may also be defined by an opposed second side with a link slot. The clamp mount may include a link pin that is engaged to the link hole, along with a connecting bolt that extends through the link slot of the second side of the second jaw. The connecting bolt may also be engaged to the second jaw, and connected to the link pin. There may also be elastomeric jaw inserts that are fixed to the first jaw and the second jaw.
The presently contemplated embodiments will be best understood by reference to the following detailed description when read in conjunction with the accompanying drawings.
These and other features and advantages of the various embodiments disclosed herein will be better understood with respect to the following description and drawings, in which like numbers refer to like parts throughout, and in which:
The detailed description set forth below in connection with the appended drawings is intended as a description of the presently preferred embodiment of a structure mounting device, and is not intended to represent the only form in which it can be developed or utilized. The description sets forth the structure and functions of the mounting device in connection with the illustrated embodiments. It is to be understood, however, that the same or equivalent functions may be accomplished by different embodiments that are also intended to be encompassed within the scope of the present disclosure. It is further understood that the use of relational terms such as first, second, left, right, top, bottom, distal, proximal, and the like are used solely to distinguish one from another entity without necessarily requiring or implying any actual such relationship or order between such entities.
Referring now to
With additional reference to
In further detail, the body of the clamp base 16 may be defined by a right side 20a and an opposed left side 22a, while the body of the clamp brace 18 may likewise be defined by a right side 20b and an opposed left side 22b. Again,
The right side 22a of the clamp base 16 includes a jaw coupling platform 24 that defines a first pivot bearing 26a and a second pivot bearing 26b. These features may be alternatively referred to as first and second pivot holes. As mentioned above, the clamp base 16 is coupled to the clamp brace 18 at the right sides 20 thereof. The clamp brace 18 includes an extension arm 28 extending from the body of the clamp brace 18, and the extension arm 28 is defined by a linking end 30 that is connected to or otherwise integral with the body of the clamp brace 18. Opposite the linking end 30 is a distal end 32 that includes a pivot pin 34 that is engageable with either one of the first pivot bearing 26a or the second pivot bearing 26b.
The pivot pin 34 is sized and configured to match and fit within the first pivot bearing 26a and the second pivot bearing 26b. Furthermore, the pivot pin 34 is keyed, that is, there is a key tab 36 that radially extends from the pivot pin 34. The pivot bearings 26 define a corresponding keyway slot 38 with which the key tab 36 is aligned in order for the pivot pin 34 to be inserted into or withdrawn from the pivot bearings 26. Like the pivot pin 34, the key tab 36 thereof is also sized and configured to fit within the keyway slots 38 of the pivot bearings 26.
Referring additionally to
In accordance with the reference orientations discussed above, the first pivot bearing 26a is vertically offset from the second pivot bearing 26b. Inserting the pivot pin 34 to the first pivot bearing 26a as shown in
The illustrated embodiment of the mounting device 10 contemplates a length dimension of the extension arm 28 being substantially the same as the length dimension of the jaw coupling platform 24. When in a coupled position as shown in
The extension arm 28 of the clamp brace 18 and the jaw coupling platform 24 of the clamp base 16 define thicknesses that are approximately half that of the respective bodies of the clamp brace 18 and the clamp base 16. As best illustrated in
The pivot pin 34 extends perpendicularly relative to the axis of the extension arm 28 and is understood to have a length that is slightly longer than the thickness of the jaw coupling platform 24. In order for the pivot pin 34, and hence the extension arm 28 to which it is attached to be rotatable, the key tab 36 clears the front face 44 of the jaw coupling platform 24. Once the pivot pin 34 is rotated within the selected pivot bearing 26 and the key tab 36 is in a position offset from the keyway slot 38 as best illustrated in
The selective adjustability modality that couples the left sides 22 of the clamp base 16 and the clamp brace 18 together will now be considered. As shown in
As will be described below, clevis pin 52 may serve as modality of linking the clamp base 16 and the clamp brace 18, the bushing hole 50 within which the clevis pin 52 is received may also be referred to as a link hole. Along these lines, the clevis pin 52 may be referred to as a link pin. The clevis pin 52 defines a central cross bore 54 that is receptive to a clevis tang bolt 56, also referred to as a connecting bolt. In the illustrated embodiment, the central cross bore 54 is threaded Likewise, the clevis tang bolt 56 is threaded for engagement with the threading of the central cross bore 54 of the clevis pin 52. The clevis tang bolt 56 at least partially passes through the space between the first clevis prong 48a and the second clevis prong 48b when coupled to the clevis pin 52. Accordingly, the separation between the clevis prongs 48a, 48b are to such an extent as to allow the clevis tang bolt 56 to freely pass therebetween without any resistance from the inner walls thereof. The combined defined thickness of the clevis prongs 48 and the separation of the first clevis prong 48a and the second clevis prong 48b may correspond to that of the body of the clamp base 16. An exemplary embodiment of the clevis tang bolt 56 is defined by a threaded body section 58, an unthreaded body section 60, and a bolt head 62. In addition to being threaded into the clevis pin 52, the clevis tang bolt 56 is in compressive engagement with the clamp brace 18.
More particularly, the left side 22b of the clamp brace 18 defines a clevis tang engagement slot 64 through which the clevis tang bolt 56 extends. In this regard, like the space between the clevis prongs 48a, 48b of the clamp base 16, the clevis tang engagement slot is sufficiently wide to allow the clevis tang bolt 56 to pass therebetween without any resistance from the inner walls thereof. Because the clevis tang engagement slot 64 has a role in linking the clamp brace 18 to the clamp base 16, it may also be referred to as a link slot. The clevis tang engagement slot 64 further defines a shoulder 66 that contacts and is engaged with the bolt head 62. As illustrated in the exemplary embodiments, the bolt head 62 may have a larger outer diameter than the bolt body. Rather than the bolt head 62 engaging the shoulder 66 directly, a washer 68 may be disposed against the shoulder 66, and the clevis tang bolt 56 being inserted through the washer. By threading the clevis tang bolt 56 through the clevis pin 52, the bolt head 62 is brought closer thereto. That is, the distance between the clamp base 16 and the clamp brace 18 is adjustable based upon the extent of the clevis tang bolt 56 is threaded into the clevis pin 52. This is also understood to exert a compressive force against the washer 68 and the shoulder 66, which in turn compresses the clamp brace 18 against the clamp base 16.
With the use of the above-described selective adjustment modality, a much finer adjustment than selecting one pivot bearing 26 or another is possible. Although
Between the right sides 20 and the left sides 22, both the clamp base 16 and the clamp brace 18 define a respective arcuate jaw 70. Specifically, the clamp base 16 defines an arcuate jaw 70a, while the clamp brace 18 defines an arcuate jaw 70b. Various embodiments of the present disclosure further contemplate a pair of inserts 72a, 72b each engaged to a respective one of the arcuate jaws 70a, 70b of the clamp base 16 and the clamp brace 18.
The outer profile 74 and the inner profile 76 are understood to be differently shaped, as the specific size and shape of the concave inner profile 76 may be varied in accordance with the structure 12 to which it is intended to be engaged. Multiple inserts 72 may be provided so that the user can select one that most closely matches the size and shape of the structure 12. The selection of a particularly sized insert 72 is understood to be another adjustment selective adjustment modality of the mounting device 10. Across such multiple arcuate inserts 72, the profile of the arcuate jaws 70 is unchanged, so the outer profile 74 of the inserts 72 likewise remains consistent for interchangeability. As shown in the example embodiment of
As noted above, user-interchangeability of the inserts 72 is contemplated. However, a secure retention of the inserts 72 to the arcuate jaws 70 beyond a frictional engagement along the outer profile 74 is also envisioned. In this regard, the inserts 72 define a series of spaced ribs 78 along the outer profile 74. The ribs 78 are understood to extend the entire thickness of the insert 72, and have a roundly tapered profile. The arcuate jaws also define a corresponding set of spaced grooves 80 that extend the entire thickness of the body of the clamp base 16/clamp brace 18. The grooves 80 have a u-shaped profile receptive to the roundly tapered ribs 78 of the insert 72. The co-engagement of the grooves 80 and the ribs 78 is contemplated to limit the rotational shifting of the insert 72 relative to the arcuate jaw 70. Furthermore, with the increased surface area contact between the insert 72 and the respective arcuate jaw 70, the tendency for the insert 72 to slide off perpendicularly is also reduced.
The aforementioned clamp configuration may be utilized as a base mount for securing a variety of apparatuses to the structure 12. Briefly discussed above was a first variation 14a of the secondary mount that is a part of the clamp base 16. In further detail, the clamp base 16 defines a mounting platform 82 that can incorporate a variety of secondary mounts 14. The embodiment as further detailed in
Extending from the ball joint 94 is a stalk 97 that is attached to a magnetic head 98. Within the body of the magnetic head 98 are a series of spaced magnets that are covered by an elastomeric material. The magnets are understood to engage with a ferromagnetic plate that is fixed to a mobile device. The device cradle implemented with the magnetic head 98 is presented by way of example only and not of limitation. Any other suitable device cradle may also be utilized, such as conventional frictional retention mobile device cradles and the like.
Beyond device cradles, other apparatuses may be mounted to the structure utilizing the mounting device 10 disclosed herein as the base mount.
In further detail, the bracket 100 is defined by a right side end 104a and an opposed left side end 104b, and the second variation of the secondary mount 14b further includes a retention strap 106 that extends from the right side end 104a to the left side end 104b. At each of the right side end 104a and the left side end 104b there is a respective strap coupling 108, which in the illustrated embodiment, is a flat projection extending outwardly from the side end 104. The retention strap 106 defines one or more mounting slots 110 that may be coupled to the strap coupling 108.
It is contemplated that the retention strap 106 is constructed of an elastomeric material that stretches over and contacts the cylindrical article, exerting a compression force against the same. The opening of the mounting slots 110 may thus be manually expanded to fit the same over the platform of the strap coupling 106. Furthermore, mounting slots 110 may each include a collar 112 that provides increased rigidity and structural integrity to the mounting slots 110 for better retention characteristics when fitted over the strap coupling 108. As shown in the exemplary embodiment, there are multiple mounting slots 110 at successive length increments of the retention strap 106, which allow for the selective coupling thereof to either one of the strap couplings 108 with varying lengths of the retention strap 106 extending between the right side end 104a and the left side end 104b. The foregoing illustration of the secondary mount 14b is presented for exemplary purposes only, and those having ordinary skill in the art will recognize a multitude of different implementations for a bracket and strap structure to retain cylindrical articles.
The particulars shown herein are by way of example and for purposes of illustrative discussion of the embodiments of the accessory mounting device only and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects thereof. In this regard, no attempt is made to show more details than is necessary for a fundamental understanding of the disclosure, the description taken with the drawings making apparent to those skilled in the art how the several forms of the presently disclosed accessory mounting bracket may be embodied in practice.
The application relates to and claims the benefit under 35 U.S.C. § 119(e) to U.S. Provisional Patent Application No. 62/786,237 filed Dec. 28, 2018 and entitled “STRUCTURE MOUNTING DEVICE,” the entire contents of which is wholly incorporated by reference herein.
Number | Date | Country | |
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62786237 | Dec 2018 | US |