Patent Application
20180134493
This invention relates to removable handles that may be used to hold and manipulate an object. It is particularly directed to a collapsible handle that may be used in conjunction with a commercially available beverage container effective to convert the container from a glass to a mug.
It is known in the art to provide removable handles for various containers, such as for containers adapted to dispense fluid. Exemplary such containers include bulk dispensing packages such as milk cartons and oil cans, as well as individual drinking vessels including cups, and other beverage containers such as soda or beer cans. A number of removable handles are disclosed in U.S. utility patent Nos. 2,215,402; 2,305,628; 3,458,164; 4,120,073; 4,741,073; 6,729,665; and 7,080,753. Additional removable handles are disclosed in U.S. published utility patent application Nos. 2015/50274300; and 2016/0038375. A removable handle structured to hold a bulk container is disclosed in International patent application No. WO 2009/110789. The entire disclosures of the above-listed documents are hereby incorporated by reference in this disclosure for their teachings of removable handles and structures operable to interface with various containers having different shapes, form factors, and materials of construction.
This invention may be embodied to provide a mug handle assembly including an anchor, a holder, and an anchor. An operable anchor typically carries a first connector and is structured to removably couple with a drink container at a first location. An operable holder typically carries a second connector and is structured to removably couple with the drink container at a second location that is spaced apart from the first location.
A workable handle has a first end and a second end, with structure carried at the first end being configured and arranged in harmony with the first connector to form a first hinge, structure carried at the second end being configured and arranged in harmony with the second connector to form a second hinge. The first hinge, second hinge, and handle are generally structured to permit a user to collapse the handle assembly from a deployed configuration to a stored configuration such that the holder is disposed on one side of the handle at the deployed configuration and is disposed on the opposite side of the handle at the stored configuration, and the handle assembly then occupies a minimum volume at the stored configuration.
The holder is generally disposed on the same side of the anchor at both the stored configuration and the deployed configuration. Also, the anchor may be disposed on one side of the holder at the stored configuration and on the opposite side of the holder when at the deployed configuration. The deployed configuration typically occupies a larger volume than the stored configuration. In certain embodiments, the holder is approximately parallel to the anchor at both the deployed configuration and the stored configuration.
A workable first hinge includes a tongue-and-groove pinned joint. A workable second hinge also includes a tongue-and-groove pinned joint. One operable anchor includes a stop element defining an uninterrupted first perimeter, the stop element being structured to resist displacement of the container in a direction away from the holder. In some embodiments, the holder includes a gripping element defining an interrupted second perimeter, the gripping element being resilient to deflect and enlarge a size of the gripping element to accommodate containers having different sizes. Sometimes, an opening in the second perimeter is disposed opposite the handle.
The anchor may include a circumferentially continuous first ring element. The holder may include a circumferentially-interrupted second ring element, the second ring element being resilient to deflect and enlarge an inside diameter of the second ring element to accommodate containers having different sizes. A preferred holder has elasticity to permit a user to cause a bias in the holder, and thereby, generate a compression force at a contact interface area between the holder and an installed container. Sometimes, the bias is a bending moment that causes substantially uniform pressure to be distributed over the contact interface area.
An embodiment may also include an angled extension member extending between the holder and the second hinge effective to dispose the second hinge at an enhanced remote location on an opposite side of a plane, defined by structure of the top surface of the holder, from the anchor. The angled member may be configured in harmony with the handle to permit a user to apply thumb pressure, from a hand that is gripping the handle, on a top surface of the angled member effective to cause the anchor and the holder to apply an auxiliary clamping torque on the container.
In certain embodiments, the handle may include a textured surface structured to reduce slipperiness when gripped in a user's hand. One workable textured surface includes a plurality of parallel ribs distributed along a length axis of the handle. An embodiment may include one or more decorative cover adapted to conceal axle structure of the first hinge and/or the second hinge from casual sight of a user.
An anchor may be structured for rotation between deployed and stowed configurations, and with respect to the handle, by an angle including about 100 degrees, or so. A holder can be structured for rotation between deployed and stowed configurations, and with respect to the handle, by an angle including about 280 degrees, or so.
The invention may be embodied to provide an improved and removable collapsible handle assembly that can be applied to a drinking vessel to make a mug. Part of the improvement may include a top holder defining a first interior space in which to receive the drinking vessel by inserting the drinking vessel in a direction parallel to a length axis of the drinking vessel, the top holder carrying an angled extension member configured to dispose a top hinge above a plane defined by structure of the top surface of the top holder, and a bottom anchor structurally associated with a bottom hinge, the bottom anchor being configured to resist displacement of the drinking vessel beyond an installed position and in a direction way from the top holder, and with a handle connected between the top hinge and the bottom hinge. Desirably, the top hinge, bottom hinge, and handle are structured to permit a user to collapse the handle from a deployed configuration to a stored configuration such that the top holder is disposed on one side of the handle at the deployed configuration and is disposed on the opposite side of the handle at the stored configuration, and the handle assembly occupies a minimum volume at the stored configuration.
In the drawings, which illustrate what are currently considered to be the best modes for carrying out the invention:
Reference will now be made to the drawings in which the various elements of the illustrated embodiments will be given numerical designations and in which the invention will be discussed so as to enable one skilled in the art to make and use the invention. It is to be understood that the following description is only exemplary of certain principles of the present invention, and should not be viewed as narrowing the claims which follow.
An embodiment of a removable handle assembly structured according to certain principles of the invention is indicated generally at 100 in
As illustrated in
Illustrated holder 112 may be characterized as a circumferentially-interrupted ring element. That is, the perimeter or circumference 124 is interrupted by an opening 128. Desirably, opening 128 is disposed opposite the handle 114. In that construction, holder 112 provides a pair of similar arms 132 and 132′. Arms 132, 132′ may be characterized as cantilevered curved beam elements. It is within contemplation that an alternative holder 112 may suggest a different shape than ring-like or circular, such as rectangular for one non-limiting example.
Typically, installation of a cup 104 causes a deflection of arms 132, 132′ and generates a bias in the arms operable to grip the cup 104. Also, deflection of the arms 132, 132′ facilitates coupling the handle assembly 100 to containers having slightly different sizes, and increases dimensional tolerance during manufacturing of a holder 112. Desirably, holder 112 is formed from one or more materials that has/have resiliency and/or elasticity to permit a user to cause a bias in the holder arms 132, 132′, and thereby, generate a compression force at a contact interface area between the holder 112 and an installed container. In a preferred embodiment, the bias includes a bending moment in arms 132, 132′ that causes substantially uniform pressure to be distributed over the contact interface area. Also, a coating or surface treatment may be applied to increase friction and holding force between the holder 112 and a cup 104 or other vessel.
It is within contemplation that an alternative holder 112 may be structured to permit installation of a cup 104 in different ways. For example, a workable alternative holder 112 may be configured to permit a transverse snap-on arrangement effective to couple a holder 112 to a cup 104, or a cylindrical can or other straight-walled vessel (not illustrated). In this alternative case, opening 128 would be sized closer to, but still less than, a diameter of the vessel.
An operable anchor 108 is structured to resist displacement of a cup 104 beyond an installed position and in an installation direction away from the holder 112. The anchor 108 illustrated in e.g.
Desirably, handle 114 is connected to the holder 112 and the anchor 108 in a manner that permits the anchor 108 and holder 112 to rotate or otherwise move with respect to the handle 114 between a stored configuration (e.g.,
With particular reference now to
The construction illustrated in
As illustrated between
In preferred embodiments, the hinge 148, hinge 152, and handle 114 are structured to permit a user to collapse a handle assembly 100 from a deployed configuration to a stored configuration such that the holder 112 is disposed on one side 172 of the handle 114 at the deployed configuration and is disposed on the opposite side 176 of the handle 112 at the stored configuration, and the assembly 100 occupies a minimum volume at the stored configuration. Also, holder 112 is on the same side 180 of the anchor 108 at both the stored configuration and the deployed configuration, but the anchor 108 is on the one side 184 of the holder 112 at the stored configuration and is on the opposite side 188 of the holder 112 when the anchor 108 is at the deployed configuration (see, e.g.,
Construction of a preferred and exemplary hinge 148 is illustrated in
It should be realized that any workable hinge structure may be employed in alternative embodiments, including a simple single-lap joint (not illustrated). A fastener 200 and its cooperating anchor 202 may define rotation axis 160. It is currently preferred to provide decorative covers 204 to conceal axle structure of a hinge from casual sight of a user. Covers 204 may sometimes be made a color contrasting from handle 114 to further augment a decorative appearance of assembly 100.
One currently preferred handle 114 includes a textured surface structured to reduce slipperiness when gripped in a user's hand. As illustrated in
An alternative embodiment 100 featuring a generic and smooth handle 114 is illustrated in
While the invention has been described in particular with reference to certain illustrated embodiments, such is not intended to limit the scope of the invention. The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiments are to be considered as illustrative and not restrictive. 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.
