The present disclosure generally relates to handles. More particularly, the present disclosure relates to a handle for attachment to a beverage can.
Beverage can handles facilitate holding of a beverage can by a user so that a hand of a user does not come into contact with the beverage can, which can cause unnecessarily warming or cooling of a beverage stored inside the can.
Known beverage can handles, such as those described in U.S. Pat. No. 3,261,635, U.S. Pat. No. 4,602,723, U.S. Pat. No. 5,054,638, and U.S. Pat. No. 5,505,330, have a āDā shape to provide a space between a hand of a user and a body of the beverage can when the handle is attached to the beverage can. These known D-shaped handles are generally one-piece and are sized such that a height of the handle is at least the same height as the beverage can. The storage and transport of known D-shaped beverage can handles is relatively cumbersome due to the size of these handles.
Improvements to beverage can handles are therefore desirable.
According to one aspect there is provided, a beverage can handle comprising a first arm having a first end and a second end, the first end including a protrusion for supporting a first lip of a beverage can and shaped for inhibiting slippage of the first lip of the beverage can off of the protrusion; and a second arm slideably coupled to the first arm and extendable from a retracted position to an extended position relative to the first end of the first arm, the second arm having a first end and a second end, the first end comprising a groove for releasably mating with a second lip of the beverage can when in the extended position and shaped for inhibiting slippage of the second lip of the beverage can out of the groove when in the extended position.
According to another aspect there is provided, a beverage can handle comprising a body, a first retractable arm, connected to the body by articulating segments arranged in a telescopic configuration, and slideable from a retracted position, away from the body into an extended position upon acutation of a trigger mechanism, having a groove for releasably mating with the first lip of the beverage can, a second retractable arm connected to the body by articulating segments arranged in a telescopic configuration, and slideable from a retracted position, away from the body into an extended position upon actuation of a trigger mechanism. The second retractable arm has a groove for releasably mating with the second lip of the beverage can, the body and the retractable arms having a compressible biasing means for forcing the retractable arms away from the body into the extended position after actuation of the trigger mechanism.
Embodiments of the present disclosure will be described, by way of example, with reference to the drawings and to the following description, in which:
For simplicity and clarity of illustration, reference numerals may be repeated among the figures to indicate corresponding or analogous elements. Numerous details are set forth to provide an understanding of the embodiments described herein. The embodiments may be practiced without these details. In other instances, well-known methods, procedures and components have not been described in detail to avoid obscuring the embodiments described. The description is not to be considered as limited to the scope of the embodiments described herein.
A beverage can handle includes a first arm having a first end and a second end. The first end includes a protrusion for supporting a first lip of a beverage can. The protrusion is shaped for inhibiting slippage of the first lip of the beverage can off of the protrusion. The beverage can handle also includes a second arm that is slideably coupled to the first arm and extendable from a storage position to an extended position relative to the first end of the first arm. The second arm has a first end and a second end. The first end includes a groove for releasably mating with a second lip of the beverage can when in the extended position. The groove is shaped for inhibiting slippage of the second lip of the beverage can out of the groove when the second arm is in the extended position.
The disclosure generally relates to a beverage can handle for attachment to a single beverage can, for example a soda can, a beer can, or a juice can.
The beverage can handle 10 also has a upper retractable arm 24 that extends from the top 20 of the body 14 and a lower retractable arm 26 that extends from the bottom 22 of the body 12. The upper and lower retractable arms 24, 26 may be made of any suitable resilient material, for example, plastic. The upper retractable arm 24 is connected to the body 14 of the grip 12 by an upper compressible biasing means (not shown). The upper compressible biasing means pushes or forces the upper retractable arm 24 to slide in a direction away from the top 20 of the body 14 to slide the upper retractable arm 24 from a storage position (
The upper retractable arm 24 includes nested segments 28, 30. The segment 30 is housed or nested within the segment 28. The segment 28 is housed or nested within an open upper portion 32 of the body 14 of the grip 12. The segment 30 slides within the segment 28, and the segment 28 slides within the open upper portion 32 in a telescoping manner. The nested segments 28, 30 together form articulating segments.
In the embodiment shown in
The open upper portion 32 of the body 14 has an upper internal flange (not shown) and the segment 28 has a lower internal flange (not shown) for abutting against the upper internal flange (not shown) of the open upper portion 32 to stop the travel of the segment 28 when the upper retractable arm 24 slides in a direction away from the top 20 of the body 14. The segment 28 also has an upper internal flange (not shown) and the segment 30 also has lower internal flange (not shown) for abutting against the upper internal flange (not shown) of the segment 28 to stop the travel of the segment 30 when the upper retractable arm 24 slides in a direction away from the top 20 of the body 14.
The lower retractable arm 26 includes nested segments 38, 40. The segment 40 is housed or nested within the segment 38. The segment 38 is housed or nested within an open lower portion 44 of the body 14 of the grip 12. The segment 40 slides within the segment 38, and the segment 38 slides within the open lower portion 44 in a telescoping manner. The nested segments 38, 40 together form articulating segments.
In the embodiment shown in
The open lower portion 44 of the body 14 has an upper internal flange (not shown) and the segment 38 has an upper internal flange (not shown) for abutting against the upper internal flange (not shown) of the open lower portion 44 to stop the travel of the segment 38 when the lower retractable arm 26 slides in a direction away from the bottom 22 of the body 14. The segment 38 also has an lower internal flange (not shown) and the segment 40 also has an upper internal flange (not shown) for abutting against the lower internal flange (not shown) of the segment 38 to stop the travel of the lower segment 40 of the lower retractable arm 26 when the lower retractable arm 26 slides in a direction away from the bottom 22 of the body 14.
Although the upper and lower retractable arms 24, 26 shown in
Referring again to
Referring again to
The operation of the beverage can handle 10 will now be described with reference to
As the upper retractable arm 24 slides in a direction away from the top 20 of the body 14, the segment 28 of the upper retractable arm 24 slides out of the open upper portion 32 of the body 14, and the segment 30 of the upper retractable arm 24 slides out of the segment 28 until the upper retractable arm 24 is in the extended position (
Similarly, as the lower retractable arm 26 slides in a direction away from the bottom 22 of the body 14, the segment 38 slides out of the open bottom portion 44 of the body 14, and the segment 40 slides out of the segment 38 until the lower retractable arm 26 is in the extended position (
The upper retractable arm 24 may be returned from the extended position (
Similarly, the lower retractable arm 26 may be returned to the storage position by pressing on the lower retractable arm 26 to compress the lower compressible biasing means. Compressing the lower compressible biasing means causes the lower retractable arm 26 to slide in a direction toward the body 14. As the lower retractable arm 26 slides in a direction towards the bottom 22 of the body, the segment 40 slides into the segment 38, and the segment 38 slides into the open lower portion 44 in the body 14 until the trigger mechanism locks the lower retractable arm 26 in the storage position.
The upper and lower retractable arms 24, 26 may be returned to the storage position by alternately pressing on the upper and lower retractable arms 24, 26, or by concurrently pressing on the upper and lower retractable arms 24, 26.
The terms top, bottom, upper, lower, horizontal, and vertical are utilized generally to refer to the orientation of the beverage can handle 10 when assembled for use, as shown in
Referring to
Referring again to
The upper compression spring 306 is coiled around the upper projection or channel guide 304 so that a path of travel of the upper compression spring 306 follows a path of travel of the upper retractable arm 24a. A lower end 310 of the upper compression spring 306 is seated on the upper base 302. An upper end 312 of the upper compression spring 306 is seated against a surface 314 of the segment 30a of the upper retractable arm 24a.
Similarly, the lower compressible biasing means includes a lower base 402, a lower projection or channel guide 404, and a lower compression spring 406. The lower projection or channel guide 404 extends from the lower base 402 through the open lower portion 44 of the body 14, through the segment 38a, and into an lower channel 408 formed in the lower segment 40a of the lower retractable arm 26a. The lower projection or channel guide 404 has a cross-sectional shape that is sized to closely fit within the correspondingly shaped lower channel 408 to minimize the lateral (i.e., horizontal) deflection of the lower retractable arm 26a when the lower retractable arm 26a slides from the storage position (
The lower compression spring 406 is coiled around the lower projection 404 so that a path of travel of the lower compression spring 406 follows a path of travel of the lower retractable arm 26a. An upper end 410 of the lower compression spring 406 is seated on the lower base 402. A lower end 412 of the lower compression spring 306 is seated against a surface 412 of the segment 40a of the lower retractable arm 26a.
In the embodiment shown in
The T-shaped member 414 has a horizontal portion 418 and a vertical portion 420. The depressible button 50 extends from the horizontal portion 418. The vertical portion 420 has an upper hook 422 that is shaped and dimensioned to releasably engage with an upper hook 424 that extends from the segment 30a of the upper retractable arm 24a in a direction towards the top 20 of the body 14. The vertical portion 420 also has a lower hook 426 that is shaped and dimensioned to releasably engage with a lower catch 428 that extends from the segment 40a of the 14 of the lower retractable arm 26a in a direction towards the bottom 22 of the body 14.
When the depressible button 50 is pressed, for example, by an index finger of a user, the biasing means 416 compresses and the T-shaped member 414 moves in a horizontal direction towards the back 18 of the body 14 until the trigger mechanism actuates. When the trigger mechanism actuates, the upper and lower hooks 422, 426 disengage from the upper and lower catches 424, 428, respectively, which causes the upper and lower compressible biasing means to decompress. The decompression of the upper and lower compressible biasing means causes both the upper and lower retractable arms 24a, 26a to slide into the extended position, as shown in
Referring to
In the embodiment shown in
The lower compressible biasing means includes a lower compression spring 602 that is disposed in the body 14 of the grip 12. The lower compression spring 602 extends in a direction towards the bottom 22 of body 14 and into a second set of nested channels 604 formed in the open lower portion 44 of the body, and in the nested segments 38, 40 of the lower retractable arm 26. A lower end 606 of the lower compression spring 604 abuts or is seated against a surface 608 at the end of the second set of nested channel 604.
The trigger mechanism in the embodiment shown in
The attachment of the beverage can handle 10, or any previous embodiment, to a beverage can 200 will now be described with reference to
In an embodiment, when the beverage can handle 10 is in the extended position, the height of the beverage can handle 10 may be less than a height of the beverage can 200. Thus, the upper and lower retractable arms 24, 26 may be flexed to stretch the beverage can handle 10 (
The upper arm 1602 has two parts 1614, 1616 that are fixed together and do not move relative to each other Similarly, the lower retractable arm 1604 has two parts 1618, 1620 that are fixed together and do not move relative to each other. The part 1618 of the lower retractable arm 1604 is nested or housed within the part 1616 of the upper arm 1604.
The part 1618 of the lower retractable arm 1604 slides relative to the part 1616 of the upper arm 1604 from a storage position to an extended position.
The part 1616 of the upper arm 1602 may have an internal flange (not shown) and the part 1618 may also have an internal flange (not shown) for abutting against the internal flange (not shown) of the part 1616 to stop the travel of the part 1618 of the lower retractable arm 1604 when the lower retractable arm 1604 slides in a direction away from the upper arm 1602.
The upper and lower arms 1602, 1604 collectively may have a generally arcuate shape to form a substantially D-shaped beverage can handle 1600. The generally arcuate shape of the upper arm 1602 and the lower retractable arm 1604 provides a space between a body 208 of a beverage can 200 and a back surface 1622 of the parts 1616, 1618 of the upper and lower arms 1602, 1604 when the lower retractable arm 1604 is in the extended position, for clearance of a user's fingers when grasping the parts 1616, 1618.
In an embodiment, when the lower retractable arm 1604 is in the extended position, the height of the beverage can handle 1600 may be less than a height of the beverage can 200. Thus, the lower retractable arm 1604 may be flexed to stretch the beverage can handle 1600 to facilitate attachment of the lower end 1610 of the lower retractable arm 1604 onto the beverage can 200. The lower retractable arm 1604 may also be flexed to provide a tight fit between the groove 1612 and a protrusion 204 extending in a vertical direction away from a base 206 of the beverage can 200.
The operation of the beverage can handle 1600 will now be described with reference to
To attach the beverage can handle 1600 to a beverage can 200, a user first attaches the upper arm 1602 to the top lip or rim 202 of the beverage can 200 by pressing on the upper end 1606 of the upper arm 1602 to snap the groove 1606 onto the top lip or rim 202 of the beverage can 200 to mate the groove 1606 with the top lip or rim 202 of the beverage can 200. A user may then grasp on the lower end 1610 of lower retractable arm 1604 and pull on the lower end 1610 of the lower retractable arm 1604 in a direction away from the upper arm 1602. This causes the lower retractable arm 1604 to slide, in a direction away from the upper arm 1602, from the storage position to the extended position.
When the lower arm 1604 is in the extended position, as shown in
When the beverage can handle 1600 is attached to the beverage can 200, pressure on the lip 202 and the protrusion 204 due to flexing of the lower arm 1604 enables the beverage can handle 1600 to maintain a stable, tight grip on the beverage can 200 to inhibit or minimize slippage or rolling of the beverage can 200. Also, when the beverage can handle 1600 is attached to the beverage can 200, a user may grasp the parts 1616, 1618 of the upper and lower arms 1602, 1604 and tilt the beverage can handle 1600 to drink a beverage from the beverage can 200.
A user may detach the beverage can handle 1600 from the beverage can 200 by pulling on the lower end 1610 of the lower retractable arm 1604 in a direction away from the base 206 of the beverage can 200 to detach the groove 1612 from the protrusion 204. Once the groove 1612 is detached from the protrusion 204, the user may then push on the lower end 1610 of the lower retractable arm 1604 in a direction towards the upper arm 1602 to slide the lower arm 1604 back into the storage position. After the lower retractable arm 1604 is in the storage position, the upper arm 1602 may then be detached from the beverage can 200 by pulling on the upper end 1606 of the upper arm 1602 until the groove 1608 detaches from the top rim or lip 202 of the beverage can 200.
In an alternative embodiment, the part 1618 of the lower retractable arm 1602 may be connected to the part 1616 of the upper arm 1604 by a tension biasing means (not shown), such as, for example, a tension spring. The tension biasing means holds the lower a retractable arm 1604 in the storage position. Also, when the lower retractable arm 1604 is in the extended position, the tension biasing means pushes or forces the lower arm 1604 to slide in a direction towards the upper arm 1602 to return the lower retractable arm 1604 to the storage position. In this alternative embodiment, when the beverage can handle 1600 is in the extended position and attached to a beverage can 200, as described above, and the groove 1612 is detached from the protrusion 204 of the beverage can 200, the tension biasing means pushes or forces the lower retractable arm 1604 to slide into the storage position.
Advantageously, the upper and lower arms of the beverage can handle described herein are retractable or collapsible to provide a much more desirable, compact sized beverage can handle which may fit into a user's pocket, or hang from a user's your key chain. The compact size of the beverage can handle when the upper and lower arms are retracted facilitates the placement of the handle in known beverage packaging.
The described embodiments are to be considered in all respects only as illustrative and not restrictive. The scope of the claims should not be limited by the preferred embodiments set out, but should be given the broadest interpretation consistent with the description as a whole. All changes that come with meaning and range of equivalency of the claims are to be embraced within their scope.
This application claims the benefit of priority of U.S. Provisional Patent Application No. 61/730,315 filed Nov. 27, 2012, which is incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/CA2013/050905 | 11/26/2013 | WO | 00 |
Number | Date | Country | |
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61730315 | Nov 2012 | US |