This invention is directed generally to a latch for releasably coupling elements, such as container elements, together.
Latches are used in order to secure elements together. For example, U.S. Pat. No. 5,738,390 discloses the use of a hingeable latch for detachably or hingedly connecting a base and a cover. In the '390 Patent, a rod is mounted to a lid, with the rod passing through a cylindrically shaped portion of the latch. Similar, permanently mounted latches are disclosed in U.S. Pat. No. 6,378,918 and U.S. Pat. No. 6,736,265. An alternate latch configuration is disclosed in U.S. Pat. No. 6,929,295. However, there is still room for improvement over these known latch and container configurations.
One of the broader forms of the present disclosure relates to a replaceable latch. The latch can include a latch plate; at least one clip, at least one projection for engaging a rod in the at least one clip; and a locking protrusion extending from the latch plate. Each clip can include a rod seat for rotatably engaging a rod.
Another of the broader forms of the present disclosure relates to a container. The container can include a first portion, comprising a mounting rod; a replaceable latch for rotatably coupling to the mounting rod; and a second portion, comprising a latch catch. The latch can be any latch described herein adapted to releasably engage the latch catch.
These and other embodiments are described in more detail below.
The accompanying drawings, which are incorporated in and form a part of the specification, illustrate embodiments of the presently disclosed invention and, together with the description, disclose the principles of the invention.
A replaceable latch and a container including a replaceable latch are described. The replaceable latch is unique in that it can be easily attached or mounted to a rod of an object by sliding the rod longitudinally into the rod set of the latch. Once attached to the rod, the latch can pivot around the rod anchored at the clips. However, once mounted to the rod, the latch cannot be easily removed from the rod by moving the latch longitudinally, laterally or by twisting. Rather, removing the latch from the rod required sliding the rod out of latch laterally or serious deformation or even destruction of the latch.
As used herein, all relative terms are based on the latch itself regardless of the orientation of the latch. As used herein, “longitudinal” refers to vertical movement from the locking projection to the clip and is designated as the X-axis in the Figures, while “lateral” refers to movement across the width of the latch and is designated as the Y-axis in the Figures. The terms “front” and “back” refer to the direction orthogonal to both the X-axis and the Y-axis, and relate to the direction designated as the Z-axis in the Figures.
As shown in the Figures, a replacement latch 10 is described. The latch 10 can include a latch plate 12; at least one clip 14; at least one projection 16 for engaging a rod 18 in the at least one clip 14; and a locking protrusion 20 extending from the latch plate 12. Each clip 14 can include a rod seat 22 for rotatably engaging a rod 18 to which the clip 14 is coupled. The latch plate 12 can be planar or generally planar (i.e., slightly curved).
The at least one clip 14 can have a generally C-shaped profile, as shown in
The at least one clip 14 and the at least one projection 1 can extend from a top portion 24 of the latch plate 12 or a top edge of the latch plate 12. The locking protrusion 20 can extend from a bottom portion 26 of the latch plate 12 or a top edge of the latch plate 12. In some embodiments, as shown in
The latch 10 can include at least two clips 14 laterally separated from one another and a projection 16 can be located between adjacent clips 14. In some embodiments, the latch 10 can include at least three clips 14 laterally separated from one another and a projection 16 located between each set of adjacent clips 14. For example, as shown in
In some embodiments, a minimum gap 28 between the at least one projections 16 and the at least one clips 14 is smaller than a diameter 30 of the rod seat 22 of the clips 14. The minimum gap 28 can be located at a lower portion of the rod seat 22. As used herein, “minimum gap” is used to refer to the gap or overlap between the innermost portion of the distal portion of the clips 14 and an outermost portion of the projections 16 when viewed from the side, as shown in
In other embodiments, the at least one projection 16 and the at least one clip 14 form a tapered opening leading to a rod seat 22 having a diameter 30 larger than the minimum gap 28 of the tapered opening. In such instances, the at least one clip 14 can have a tapered portion 32, the at least one projection 16 can have a tapered portion 34, or both. The tapered portions 32, 34 can be tapered when viewed from the side, as shown in
In some embodiments, the at least one projections 16, the at least one clips 14, or both, are adapted to deform when a rod 18 slides longitudinally into the rod seat 22, while preventing a rod within the rod seat 22 from sliding out along the same path. For example,
The cups 14 and projections 16 can be formed of a resilient, deformable material, such as a plastic, a metal or an alloy (e.g., steel). In some embodiments, the body of the latch 10, including the clips 14, projections 16 and locking protrusion 20 can be formed of a single, indivisible body. Such latches, formed from a single, indivisible body, can be formed by injection molding and other similar techniques.
As shown in
The projection 16 can include a tapered first side to allow a rod 18 to slide into the rod seat 22 and a stepped second side to prevent the rod 18 from sliding out of the rod seat 22 when moved longitudinally along the same path. While this describes a solid, ramp-shaped projection, it is equally applicable to the strip-shaped projection 16 shown in
The locking protrusion 20 can extend backward from the latch plate 12. As best shown in
As shown in the Figures, a tab 42 can extend from the latch plate 12 proximate the locking protrusion 20. The tab 42 can be adapted to receive the fingertips of a user when the latch 10 is being coupled to or decoupled from the corresponding latch catch 44.
The locking protrusion 20 can be a single element or, as best shown in
As shown in
The first portion 52 and the second portion 56 can be rotatably coupled at a side opposite the mounting rod 18 and the latch catch 44. For example, as shown in
As shown in
As best shown in
Similarly, as best shown in
In a first embodiment, a replacement latch is disclosed. The replacement latch can include a latch plate; at least one clip, wherein each clip comprises a rod seat for rotatably engaging a rod; at least one projection for engaging a rod in the at least one clip; and a locking protrusion extending from the latch plate.
A second embodiment can be the first embodiment, where the at least one clip and at least one projection extend from a top portion of the latch plate, and the locking protrusion extends from a bottom portion of the latch plate.
A third embodiment can be any of the foregoing embodiments were the at least one clip, the at least one projection and the locking protrusion all extend backward from the latch plate.
A fourth embodiment can be any of the foregoing embodiments where the at least two clips laterally separated from one another, and a projection is disposed between adjacent clips.
A fifth embodiment can be any of the foregoing embodiments where a minimum gap between the at least one projections and the at least one is smaller than a diameter of a rod seat of the clips.
A sixth embodiment can be any of the foregoing embodiments where the at least one projections and the at least one clips form a tapered opening leading to a rod seat having a diameter larger than a minimum gap of the tapered opening.
A seventh embodiment can be any of the foregoing embodiments where the at least one projections, the at least one clips, or both are adapted to deform when a rod slides into the rod seat, while preventing a rod within the at least one clips from sliding out along the same path.
An eighth embodiment can be any of the foregoing embodiments where the at least one projections comprise an angled strip extending backward from the latch plate, wherein each angled strip can collapse substantially parallel to the latch plate when a rod slides into the rod seat.
A ninth embodiment can be any of the foregoing embodiments where the at least one projection comprises a tapered first side to allow a rod to slide into the rod seat and a stepped second side to prevent a rod from sliding out of the clip along the same path.
A tenth embodiment can be any of the foregoing embodiments where the locking protrusion comprises a lip for fitting over and releasably engaging a latch catch.
An eleventh embodiment can be any of the foregoing embodiments further comprising a tab extending proximate the locking protrusion.
A twelfth embodiment is drawn to a container that includes a first portion, comprising a mounting rod; a replaceable latch for rotatably coupling to the mounting rod; and a second portion, comprising a latch catch. The replaceable latch can be any of the replaceable latches disclosed in the first through eleventh embodiments.
A thirteenth embodiment can be the twelfth embodiment where the first portion and the second portion are rotatably coupled at a side opposite the mounting rod and the latch catch.
A fourteenth embodiment can be either of the twelfth or thirteenth embodiments where the looking protrusion can releasably engage the latch catch when the first portion and the second portion are in a closed configuration.
A fifteenth embodiment can be any of the twelfth through fourteenth embodiments where the first portion is a cover and the second portion is a base, or wherein the first portion is a base and the second portion is a cover.
A sixteenth embodiment can be any of the twelfth through fifteenth embodiments, where the at least one clip and at least one projection extend from a top portion of the latch plate, and the locking protrusion extends from a bottom portion of the latch plate.
A seventeenth embodiment can be any of the twelfth through sixteenth embodiments, where the at least one clip, the at least one projection and the locking protrusion all extend backward from the latch plate.
A eighteenth embodiment can be any of the twelfth through seventeenth embodiments, where the at least one projections and the at least one clips form a tapered opening for receiving a rod having a diameter larger than a minimum gap of the opening.
A nineteenth embodiment can be any of the twelfth through eighteenth embodiments, where the at least one projections, the at least one clips, or both are adapted to deform when a rod slides into the rod seat, while preventing a rod within the at least one clips from sliding out along the same path.
A twentieth embodiment can be any of the twelfth through nineteenth embodiments, were the at least one projection comprises a tapered first side to allow a rod to slide into the rod seat and a stepped second side to prevent a rod from sliding out of the rod seat along the same path
The foregoing is provided for purposes of illustrating, explaining, and describing embodiments of this invention. Modifications and adaptations to these embodiments will be apparent to those skilled in the art and may be made without departing from the scope or spirit of this invention.
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Number | Date | Country | |
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20140251998 A1 | Sep 2014 | US |