Dual Lid Closure mechanism
An enclosure having a first opening and an external pin extending outwards from a pin side of the enclosure and a lid with a opening adapted to seal the first opening to form a cavity at least partially within the enclosure. The enclosure connects to lid using a hinge attaching a hinge side of the enclosure to a hinge side of the lid. The hinge side can be opposite the pin side. The lid has a hingeless latch having a pin indentation that opens towards the cavity. The hingeless latch may extend past the first opening when closed. The hingeless latch is biased to push inward towards the cavity when the pin registers with the pin indentation. The bias allows retraction of the latch from the pin, allowing the latch to disengage from the pin for axial travel from the pin.
The present invention relates to a closure mechanism and method, and more specifically, but not limited to attachment and detachment of a lid to a recreational cooler.
Coolers must perform several basic functions. A cooler must have an opening to add items that can be sealed against the outside environment. Additionally, the material from which a cooler is made, must operate as an insulator to maintain a heat differential between inside and outside the cooler.
The opening, in many cases, is a broad rectangular opening in a box-like enclosure. The opening is sealed by putting a lid on the enclosure. More complex coolers are built to be carried in flatbed trucks and other environments where winds can be a factor. Accordingly, some method to secure a lid, against at least the forces of wind, is required. Nevertheless, a reduced part count for any securing mechanism can help to keep manufacturing costs low. Some or all of these situations can be ameliorated by one or more of the embodiments described below.
SUMMARYDisclosed is a latch for engaging a lid to a corresponding pin having a pin detent on an enclosure. An elongated body having an affixed end and a distal end, allows the affixed end to be affixed to the lid, wherein the elongated body is flat but extends outwards from the lid to a distal end. The elongated body comprises a top surface and a bottom surface substantially parallel thereto, and the bottom surface has a pin indentation for guiding the latch into engagement. A lid may be fastened to a hinge. The top surface and bottom surface are substantially tangent to an arc centered on the hinge axis. The pin indentation is aligned along a center perpendicular to the bottom surface, wherein the pin indentation comprises: a cylinder portion proximal to an opening in the bottom surface and a shoulder distal to the bottom surface. The shoulder provides a cavity with a radius wider than a radius of the cylinder portion, and concentric to an axis with the cylinder portion. The cylinder portion corresponds to a pin detent and is narrower than an outer radius of the pin detent so as to provide continuous friction during insertion of the pin relative to the pin indentation at least until the pin detent reaches the shoulder.
A further embodiment can be a planar latch for engaging a lid to a corresponding pin having a discontinuous cylinder, the pin extending from an outer surface of an enclosure. The latch may be an elongated body comprising a substantially flat top surface and a substantially flat bottom surface parallel therewith. The bottom surface faces towards a space partially enclosed by the lid and the top surface faces away from the space. The bottom surface can have a cylindrical indentation having a cylinder cavity proximal to an opening in the bottom surface and a discontinuity at a recessed end of the cylinder, such that the discontinuity corresponds to a pin detent to form a detent to resist axial movement of the pin placed therein.
Still a further embodiment can be a cooler. The cooler can include an enclosure having a first opening having an external pin extending outwards from a pin side of the enclosure and a lid having a second opening adapted to seal the first opening when closed to form a cavity at least partially within the enclosure. The lid may be connected to the enclosure using at least one hinge attaching a hinge side of the enclosure to a hinge side of the lid. The hinge side can be opposite the pin side. The lid may have at least one hingeless latch having a pin indentation that opens towards the cavity. The hingeless latch may extend past the first opening when closed. The hingeless latch has a bias to push inward towards the cavity when the pin comes in registration with the pin indentation. The bias allows retraction of the latch from the pin in order to allow the latch to become disengaged from the pin for travel at least axially from the pin.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms “a”, “an”, and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “comprises” and/or “comprising,” when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
The description of the various embodiments of the present invention have been presented for purposes of illustration, but are not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein was chosen to best explain the principles of the embodiments, the practical application or technical improvement over technologies found in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.
The various embodiments of the invention secure the hingeless latch to the lid through any one of several processes. For example, the lid and the hingeless latch can be injection molded from a monolithic piece of plastic. Alternatively, the lid can be friction welded to the various embodiments of the hingeless latch, particularly if the hingeless latch and lid are composed of similar plastic formulations. The hingeless latches, in all cases, depend on geometries and materials that allow the hingeless latch to flex with normal human handling. Accordingly, the hingeless latches may be made of plastics, rubbers, and elastomers of all kinds, so long as the latch can return to a largely flattened state when all forces are removed from the body of the latch. In other words, a latch is in the largely flattened state, when some intermediate portion lies in contact with the outer surface 105 and in registration with a corresponding pin. Further modes of attaching various forms of the hingeless latch to a lid are described below.
The portion of hingeless latch 157 that is in direct or indirect contact to lid 151 may remain relatively inflexible, as it is buttressed by the body of lid 151. However, the portion of hingeless latch 157 extending to distal end 177 may have a few degrees of flexibility or spring bias, enough so that it can be raised over and beyond a top end of pin 107 without damage to the body of pin.
The spring bias of hingeless latch maintains engagement until a force sufficient to pry the hingeless latch occurs in a direction outwards from the outer surface. In response to such a force, the spring bias allows retraction of the hingeless latch from the pin 107 in order to allow the hingeless latch, and therefor the lid 151, to become disengaged from the pin for travel at least axially from the pin. Clearly, if two latches are engaged with pins on the lid, then both would require the outward force to simultaneously unseat their respective pins, and release the lid. The width and thickness of the hingeless latch are selected, given biases and elastomeric properties of the material of the hingeless latch, so that movement of the hingeless latch into and out of engagement to pin 107 can be performed by hand, without tools.
The portion of the pin indentation that provides resistance by deforming and returning to its initial shape can be cylindrical. A cylindrical portion is that part of the pin indentation that the may form a main body of the pin indentation. The cylindrical portion or cylinder cavity may cooperate with friction with respect to a pin being engaged or disengaged to the latch. The cylindrical portion may begin at the bottom surface of the latch, and may optionally flare outwards at this location, in order to provide adaptability to a slightly misaligned pin.
Pin indentation may be arranged along an axis that extends perpendicular to the bottom surface of the latch. The pin indentation may have a discontinuity at a recessed end 369. The discontinuity may provide a cavity with a greater radius from a radius of the body of the pin indentation that is proximal to a bottom surface. The discontinuity can provide a shoulder that cooperates to the pin discontinuity, for example, wide portion 308 of the pin to resist retraction of the pin from full insertion to the pin indentation. Wide portion 308 may be an annular shoulder that provides a cavity in which a ridge on the pin may fit. Accordingly, further travel of the pin's widest section, during retraction and disengagement axial to the pin, will be resisted by the pin's widest section contacting all or most of a circumference of the shoulder and narrower portions of the pin indentation. Accordingly, a shoulder can form an internal detent within the pin indentation, at least with respect to a corresponding detent in the pin, namely, for example, wide portion 308. Alternative embodiments may provide a reverse arrangement, where the pin has an annular recess, and the wide portion is replaced by an annular extension from the body into the cylinder cavity.
Accordingly, cooperation of pin 307 with pin indentation 365 resists upwards movement of lid 351 once pin enters, even partially, pin indentation 365. Further, once pin 307 fully seats within pin indentation, wide portion 308 may fit, without compression of surrounding latch material, thereby resisting disengagement of the pin from the pin indentation.
Distal end 477 may, in an unbiased state, be elevated from the plane of hingeless latch 457. The elevation can facilitate closure of the latch generally over pin 407 when the lip of lid 451 travels downward. Force of pin 407 wedging under hingeless latch 457 may force the latch to extend further outwards from lid 451 until pin 407 is aligned to pin indent wall 465. Accordingly, latches may close, at least with partial engagement between hingeless latch 457 and pin, thereby causing the lid to resist upwards movement relative to enclosure 401. As with the latch of
Some illustrative embodiments permit a latch to extend over a pin. In some cases, the pin can frictionally engage walls of a cavity or hole so the pin can resist disengagement to the latch. Some embodiments attach a latch's fixed end to a lid, via adhesives, screws, friction welding or other mechanical means. The lid—through cooperation of a hinge in cooperation with a latch and enclosure that supports the pin—can be brought in rigid closure to the enclosure. Accordingly, for a lid so secured, disengagement of the lid can occur by two operations. First, in embodiments that rely on a detent mechanism, the pin is moved past an initial resistive force created by the detent—generally along an axial direction of the pin. Second, removing the pin, wholly from the corresponding pin indentation, allows the latch to move radially from alignment with the pin, freeing the lid to swing about the hinge. As indicated, embodiments of the latch are immobile with respect to a lid to which the latch is affixed. Any movement, independent of the lid, is limited to flexing of the distal end of the latch, and biased to return to a more flattened position after engagement to the pin. In other words, portions of the respective latch embodiments that are not fastend by adhesive, screws and the like, may bend to allow the distal end to move so that the pin is engaged or disengaged from a corresponding pin indentation.
The description of the present invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. For example, the enclosure embodiments are not solely limited to those that provide a thermo-regulation function such as a recreational cooler. Many other forms of boxes and enclosures may are within the scope of the application of one or more embodiments. The embodiments were chosen and described in order to best explain the principles of the invention, the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.
Claims
1. A latch for engaging a lid to a corresponding pin having a pin detent on an enclosure, the latch comprising:
- an elongated body having an affixed end and a distal end, wherein the affixed end is affixed to the lid, wherein the elongated body is flat but extending outwards from the lid to a distal end, wherein the elongated body comprises a top surface and a bottom surface substantially parallel thereto, and the bottom surface has a pin indentation, wherein the top surface and bottom surface are substantially tangent to an arc about a hinge that the lid swings on, wherein the pin indentation is aligned along a center perpendicular to the bottom surface, wherein the pin indentation comprises: a cylinder portion proximal to an opening in the bottom surface and a shoulder distal to the bottom surface, wherein the shoulder provides a cavity with a radius wider than a radius of the cylinder portion, and concentric to an axis with the cylinder portion, wherein the cylinder portion corresponds to a pin detent and is narrower than an outer radius of the pin detent so as to provide continuous friction during insertion of the pin relative to the pin indentation at least until the pin detent reaches the shoulder.
2. The latch of claim 1, wherein the pin indentation comprises a cylindrical hole that has an opening at the top surface.
3. The latch of claim 2, wherein the opening at the top surface is capped with a cap in order to leave one opening for the pin at the bottom surface, wherein the cap is friction welded to the top surface.
4. The latch of claim 1, wherein the elongated body is flat except for at least a tenth of a length of the elongated body from the lid near the distal end, wherein the elongated body extends away from the enclosure.
5. A planar latch for engaging a lid to a corresponding pin having a discontinuous cylinder, the pin extending from an outer surface of an enclosure, the latch comprising:
- an elongated body comprising a substantially flat top surface and a substantially flat bottom surface parallel therewith, wherein the bottom surface faces towards a space partially enclosed by the lid and the top surface faces away from the space, wherein the bottom surface has a cylindrical indentation having a cylinder cavity proximal to an opening in the bottom surface and a discontinuity at a recessed end of the cylinder, such that the discontinuity corresponds to a pin detent on the outer surface of the enclosure to form a detent to resist axial movement of the pin placed therein.
6. The planar latch of claim 5, wherein the elongated body further comprises:
- an affixed end attached to the lid; and
- a distal end longitudinally placed opposite the affixed end.
7. The planar latch of claim 6, wherein the distal end bends to at least a distance that the pin raises it from the outer surface of the enclosure, and the distal end is capable of flexing away from the space, in response to the lid closing on a corresponding enclosure opening, and the distal end is biased towards the space such that, in response to alignment of the lid to the enclosure opening and alignment of the pin to the cylindrical indentation, the pin detent seats within the cylindrical indentation.
8. The planar latch of claim 7, wherein the distal end is further capable of being pressed into registration of the discontinuity at the recessed end of the cylinder with the pin detent, thereby arresting travel longitudinal to the axis of the distal end relative to the pin.
9. The planar latch of claim 5, wherein the discontinuity at the recessed end is an annular shoulder that expands the cylinder cavity radially to be wider than the opening in the bottom surface to a distal end of the cavity.
10. The planar latch of claim 5, wherein the discontinuity at the recessed end is an annular shoulder that contracts the cylinder cavity radially to be narrower than the opening in the bottom surface to a distal end of the cavity.
11. The planar latch of claim 5, wherein the lid has a planar lip for engaging with an edge of the outer surface of the enclosure, and wherein the latch extends a direction substantially planar to the lip but bending away from the space at a distal end opposite the affixed end.
12. The planar latch of claim 11, wherein the latch further comprises an adhesive layer, and the adhesive layer attaches the latch to the lid.
13. The planar latch of claim 11, wherein the latch further comprises at least one screw, and the at least one screw attaches the latch to the lid.
14. The planar latch of claim 11, wherein the latch further comprises at least one rivet, and the at least one rivet attaches the latch to the lid.
15. A cooler comprising:
- an enclosure having a first opening having an external pin extending outwards from a pin side of the enclosure;
- a lid having a second opening adapted to seal the first opening when closed to form a cavity at least partially within the enclosure; and
- at least one hinge attaching a hinge side of the enclosure to a hinge side of the lid, wherein the hinge side is opposite the pin side, wherein the lid has at least one hingeless latch having a pin indentation that opens towards the cavity, wherein the hingeless latch extends past the first opening when closed, wherein the hingeless latch has a bias to push inward towards the cavity when the pin comes in registration with the pin indentation, and wherein the bias allows retraction of the latch from the pin in order to allow the latch to become disengaged from the pin for travel at least axially from the pin.
16. The cooler of claim 15, wherein the pin indentation has an internal detent; and, wherein the pin has a corresponding detent used to resist axial travel past the internal detent.
17. The cooler of claim 15, wherein the hingeless latch has a bottom surface, facing the enclosure, and an top surface, facing away from the enclosure, wherein the pin indentation extends from the bottom surface to the top surface such that a shoulder is formed at the top surface to form an external detent; and, wherein the external pin has a corresponding detent used to resist axial travel in relation to the pin indentation.
18. The cooler of claim 15, wherein the first opening is a first rectangular opening, and the second opening is a second rectangular opening.
Type: Application
Filed: Feb 9, 2017
Publication Date: Aug 9, 2018
Inventor: Kelly F. Jameson (Huffman, TX)
Application Number: 15/428,783