UNIVERSAL HOLDER

Embodiments of the present disclosure are directed to a universal holder that comprises at least one receptacle. The receptacle may be configured to receive a variety of items, including a fishing rod, an umbrella, a flashlight, and a beverage canister, among other items. The at least one receptacle is connected to at least one articulating rod via a ball and socket joint to allow the at least one receptacle to rotate. The at least one articulating rod is also connected to at least one clamp. The clamp may be connected to any structure, such as a chair or railing, and the clamp tension can be adjusted by a threaded rod with a handle. Other attachments may be affixed to the universal holder, such as a cell phone holder or magnetic tackle box via various fastener mechanisms, such as a screw, bolt, magnet, quick-detach clips, snaps, and clips.

TECHNICAL FIELD

The present application is directed to the fields of holding apparatuses, including a cylindrical receptacle to receive a distal end of an object, such as a fishing rod or an umbrella.

BACKGROUND

A wide variety of holding apparatuses exist today, but each of these holding apparatuses are inflexible and cumbersome. For example, many fishermen use a rod holder that is comprised of a receptacle with a spike on one end of the receptacle, and the spike is used to dig into the ground, so the fishing rod can be help in the receptacle, while the receptacle is mounted to the ground. This type of holder does not pivot and cannot be attached to other support structures.

In other examples, holding apparatuses may be permanently attached to other objects, such as chairs, tables, and tent frames. These holding apparatuses are inflexible because they cannot be removed from these structures, but instead must remain affixed to a larger object. If a user desired to remove this holder from the structure, the user would risk damaging the structure to which the holder is permanently affixed.

Another drawback of current holding apparatuses is that they fail to position the receptacle at a desired angle. For instance, many holders have a fixed position, so they cannot rotate or be turned to a certain angle relative to, for example, a body of water where a fishing line will be cast out of a fishing rod or relative to the wind or rain where an umbrella will be placed to protect a user from the elements.

As such, a current need exists for a more flexible and versatile holding apparatus that can receive various items in a receptacle. A need exists to be able to rotate the receptacle in certain positions but also maintain sturdiness or rigidness of the apparatus.

DETAILED DESCRIPTION

Embodiments of the present application are directed to a universal holder, specifically to a holding apparatus that comprises a cylindrical receptacle attached to at least one articulating rod (or arm) via a rotating join, such as a ball and socket joint and a threaded screw (or connector). The articulating rod may be connected to a clamp that may be secured to a structure to hold the holder apparatus in place.

The clamp may be connected to the articulating rod with a ball and socket joint and be able to rotate around the axis of the ball and socket joint. The clamp may also comprise at least two notched padded jaws that may be actuated by at least one threaded rod with a handle. The handle may be turned to tighten the clamp jaws together. The jaw components of the clamp may be comprised of a molded synthetic rubber material or a steel material, in some examples. The clamp jaws may comprise receiving points (holes) that provide for a replaceable, non-slip, non-marring surface.

The threaded rod that is affixed to the clamp may be attached to at least one barrel nut that is positioned through receiving points on each padded jaw. The clamp may be configured to attach to certain structures, such as a folding chair frame, a table side, a tent frame, a bucket, a tree branch, a wheelchair, or a tent spike, among other structures.

The clamp may be affixed to at least one articulating rod. In some example aspects, the universal holder may comprise at least two articulating rods, with one rod attached to the clamp portion and the other articulating rod attached to a receptacle. Both rods may be attached a shared joint that is held together via a single threaded connector (bolt or screw) and at least one rosette gear on each articulating arm. The gears may be turned to tighten and loosen the articulating rods so that the receptacle and clamp may be positioned at the desired angles.

The opposing (or distal) ends of each articulating rod may comprise a ball and socket joint. One articulating rod may be connected to a receptacle (such as a cylinder receptacle) via at least one ball and socket joint. The other articulating rod may be connected to the clamp via at least one ball and socket joint. As such, both the receptacle and the clamp may rotate around these axes. Each ball and socket joint may comprise a tightening mechanism, so that the joint may be secured at a certain position in order to prevent the receptacle and/or clamp from moving or rotating.

The receptacle may be comprised of a rigid material, such as stainless steel, aluminum, carbon fiber, PVC pipe, or plastic. The receptacle may be in the shape of a cylinder or tube to receive the distal ends of various cylindrical objects, such as a fishing pole, umbrella, or flashlight.

The receptacle may also be configured to accommodate additional attachments. For example, in some example aspects, the universal holder may comprise a magnetic portion, so that an attachment (such as a magnetic bait and tackle box) may be magnetically attached to the universal holder. Other attachments to the universal holder may include a lantern or drink holder. For instance, a lantern with a rotating handle may be affixed to the universal holder via a hook attachment that is connected to the universal holder. The hook attachment may be connected to the body of the cylindrical receptacle or the clamp in some examples. A drink holder attachment may also be connected to the universal holder. For example, a drink holder may comprise at least one attachment point, where the drink holder can be attached to the clamp or the receptacle via a bolt, screw, quick-detach mounts, snaps, buckles, nuts, rivets, buttons, and flush cup mounts, among other fasteners. Each of these fasteners may be utilized by the universal holder to allow other various attachments to connect to the universal holder.

Other attachments may include a cell phone holder or a camera holder. Each of these attachments may be connected to the universal holder via a fastener mechanism as described above. For example, a cell phone holder may be attached to a portion of one of the articulating rods via a ball and socket joint and a threaded connector and handle to tighten and loosen the cell phone holder attachment.

FIG.1is a side perspective view which illustrates a particular embodiment of the universal holder. The universal holder100comprises a cylindrical receptacle102. The cylindrical receptacle may be comprised of stainless steel in some examples. The cylindrical receptacle may also be comprised of other materials, such as aluminum, carbon fiber, polyvinyl chloride, or plastic. The cylindrical receptacle102is connected to a first articulating rod106via at least one rotating ball and socket joint104with a threaded end. The ball and socket joint104connecting the cylindrical receptacle102to the articulating rod106allows the cylindrical receptacle102to be moved in various positions, up and down and side to side. The ball and socket joint104may comprise a tightening mechanism that may be twisted to tighten and loosen the ball and socket joint, so that the cylindrical receptacle102can be held in place.

The articulating rod106is connected to a second articulating rod110via a shared end, with a single threaded handle108and two rosette gears on each articulating rod. The single threaded handle108allows each articulating rod to move up and down to position the cylindrical receptacle102in the proper position. A tightening mechanism may be connected to the single threaded handled that may be tightened or loosened to position the articulating rods106and110in the proper positions.

At a distal end of the second articulating rod110is another ball and socket joint112with a tightening mechanism. Similar to the first articulating rod, this tightening mechanism allows the second articulating rod110to be held in position. The ball and socket joint112may be connected to a clamp122. The clamp122may have two opposing ends118and120that can be clamped together and separated apart.

The opposing ends of the clamp122may be notched padded jaws actuated by a threaded rod116and handle114. The threaded rod116may be connected to at least one barrel nut through each jaw118and120. The clamp may be non-marring and can be attached to any firm structure, such as a chair, table, tent frame, bucket, tree branch, wheelchair, tent spike, and more. The handle114may be turned to tighten and loosen the ends118and120of the clamp122.

FIG.2is a zoomed-in perspective view which illustrates the connection point between one of the articulating rods and the clamp. The perspective of the clamp200inFIG.2shows the threaded rod202connected to the handle, which may control the distance between each opposing end208of the clamp. The clamp itself is attached to the articulating rod206via the ball and socket joint204. The ball and socket joint204allows the clamp to move freely. The ball and socket joint also contains a tightening mechanism that may be hold the clamp in place.

FIG.3is a side perspective view which illustrates a clamp connected to the universal holder. The clamp300has two opposed ends302and304. Each opposed end may be a padded jaw, where the clamp tightness may be controlled by a single threaded rod306that crosses through a portion of each of the clamp ends302and304. The threaded rod306may connect to a handle that can be used to tighten or loosen the clamp300, i.e., control the distance of the clamp ends302and304. Clamp attachments308may be comprised of molded synthetic rubber in some examples or stainless steel in other examples. Each receiving point on the clamp attachments308may comprise threaded holes to receive a screw or other fastener. The surface of the clamp attachments308may be comprised of non-slip and non-marring materials.

FIG.4is a zoomed-in perspective view which illustrates the connection point between one of the articulating rods and the universal holder400. The articulating rod404connects to a holder, which may be a cylindrical receptacle or some other shaped receptacle, via the ball and socket joint402with a tightening gear. The ball and socket joint402may allow the receptacle to rotate in various directions around the distal end of the articulating rod404. The tightening mechanism may be used to hold the receptacle in place at the junction between the articulating rod404and the receptacle via the ball and socket joint402.

The universal holder apparatus may have flexibility to rotate the receptacle to a desired angle, as well as rotate the clamp at a desired angle. Variable tension locking mechanisms may be connected to the connection points of the receptacle and the clamp, whereby the locking mechanisms may be tightened and loosened via at least one threaded connector (e.g., screw) and a turning handle.

The articulating rods may be comprised of variable lengths or the same length to accommodate various size and space constraints. For example, if the universal holder was to be attached to a railing, certain railing bars may interfere with the positioning of the clamp and the receptacle. In such an example, one of the articulating rods may need to be shorter than the other articulating rod. Specifically, the articulating rod attached to the clamp may be half the length of the articulating rod that is attached to the cylindrical receptacle.