The present invention relates generally to latches, and, more particularly, to latches used in containment structures and appliances such as dryers and the like to hold a containment door in closed position relative to a containment cabinet.
In many containment structures including appliances such as dryers and the like, a door may be held in a closed position by a latching assembly incorporating a retainer in combination with a latch pin or strike. The retainer is typically snapped into a punched out hole in the door and the strike is positioned in opposing relation within the associated cabinet. Once the door is closed, the head of the strike is trapped within the retainer until an opening force is applied to the door by a user.
One potentially desirable feature of a latch assembly for use in a container is the ability to maintain the door in a closed position under enhanced temperature conditions that may melt plastic components within the latch assembly. Thus, in the event of a fire at the interior of the container, the door will remain closed thereby confining the fire at the interior. Such a feature may be particularly useful in a clothes dryer or other container intended to operate under enhanced temperature conditions.
One exemplary prior latch assembly that maintains the door of a clothes dryer in a closed position during an abnormally elevated temperature event is disclosed in U.S. Pat. No. 4,272,111 to Hammer, Jr. et al., the contents of which are hereby incorporated by reference in their entirety as if fully set forth herein. In the latch device of Hammer, Jr., a metal spring of substantially “U” shaped cross-section engages lateral sides of a plastic anchor member on opposing sides of a crevice opening within the anchor member. The spring includes outwardly projecting sheared leg members that are pushed through the access opening within the dryer door and which thereafter block removal. During a high temperature event that melts the plastic anchor member, the metal spring remains substantially intact in secure relation about a cooperating strike element with the outwardly projecting leg members holding the latch assembly in place.
While the device described in U.S. Pat. No. 4,272,111 operates in a satisfactory manner, the inclusion of the blocking legs as part of the spring necessitates a relatively high insertion force when the latch assembly is originally installed. Moreover, during normal operation the legs of the spring are caused to flex inwardly and outwardly as the strike is engaged and disengaged relative to the plastic anchor member. Thus, the blocking legs projecting from the spring may experience corresponding movement and a resultant degree of wear over time.
The present invention provides advantages and alternatives relative to prior known latch assemblies by providing a latch device including a latch strike retention assembly adapted for press-fit insertion into a panel opening and retention within the panel opening upon melting of any plastic components. The latch strike retention assembly includes a generally “U” shaped spring member having spring legs operatively connected to bushings arranged in converging opposing relation to one another and adapted to engage and retain a strike member disposed in opposing relation to the strike retention assembly. The spring member is held within a bracket member of substantially “U” shaped cross section. The bracket member is disposed in transverse orientation to the spring member.
According to one exemplary aspect, the present invention provides a latch strike retention assembly adapted to accept and retain a latch strike. The latch strike retention assembly includes a bracket member of substantially “U” shaped profile adapted for retention within a panel opening. The bracket member includes a bracket base and a pair of substantially opposing bracket legs extending away from the bracket base. An anchor latch is disposed at the interior of the bracket member, the anchor latch includes a substantially “U” shaped spring member. The spring member includes a first spring leg extending away from a spring base and at least a second spring leg extending away from the spring base. The first spring leg operatively engages a first bushing structure and the second spring leg operatively engages a second bushing structure. The first bushing structure and the second bushing structure are disposed in opposing relation to one another and cooperatively define a strike acceptance crevice having a length dimension extending between the first bushing structure and the second bushing structure. The anchor latch is secured at an interior portion of the bracket member with the spring member oriented transverse to the bracket member with the length dimension of the strike acceptance crevice oriented transverse to the bracket legs.
According to another exemplary aspect, the present invention provides a latch strike retention assembly adapted to accept and retain a latch strike. The latch strike retention assembly includes a bracket member of substantially “U” shaped profile adapted for retention within a panel opening. The bracket member includes a bracket base, a first bracket leg extending away from the bracket base and a second bracket leg extending away from the bracket base. An anchor latch is disposed at the interior of the bracket member. The anchor latch includes a substantially “U” shaped spring member, the spring member includes a first spring leg extending away from a spring base and at least a second spring leg extending away from the spring base. The first spring leg operatively engages a first bushing structure and the second spring leg operatively engages a second bushing structure. The first bushing structure and the second bushing structure are disposed in opposing relation to one another and cooperatively define a strike acceptance crevice having a length dimension extending between the first bushing structure and the second bushing structure. At least the first bushing structure includes a first plurality of bushing elements cooperatively surrounding a terminal end of the first spring leg. The anchor latch is secured at an interior portion of the bracket member with the spring member oriented transverse to the bracket member with the spring legs oriented between the bracket legs and with the length dimension of the strike acceptance crevice oriented transverse to the bracket legs.
According to yet another exemplary aspect, the present invention provides a latch strike retention assembly adapted to accept and retain a latch strike. The latch strike retention assembly includes a metallic bracket member of substantially “U” shaped profile adapted for retention within a panel opening. The bracket member includes a bracket base, a first bracket leg extending away from the bracket base and a second bracket leg extending away from the bracket base. The first bracket leg includes a first outwardly flared distal end and the second bracket leg includes a second outwardly flared distal end. The first bracket leg includes a first inwardly extending resilient spring retention tab projecting in upwardly angled relation away from the first bracket leg generally towards the bracket base and a first outwardly extending resilient locking tab projecting in downwardly angled relation away from the first bracket leg generally towards the first outwardly flared distal end. The second bracket leg includes a second inwardly extending resilient spring retention tab projecting in upwardly angled relation away from the second bracket leg generally towards the bracket base and a second outwardly extending resilient locking tab projecting in downwardly angled relation away from the second bracket leg generally towards the second outwardly flared distal end. An anchor latch is disposed at the interior of the bracket member. The anchor latch includes a substantially “U” shaped spring member. The spring member includes a first spring leg extending away from a spring base and at least a second spring leg extending away from the spring base. The first spring leg operatively engages a first bushing structure and the second spring leg operatively engages a second bushing structure. The first bushing structure and the second bushing structure are disposed in opposing relation to one another and cooperatively defining a strike acceptance crevice having a length dimension extending between the first bushing structure and the second bushing structure. The anchor latch is secured adjacent an interior surface of the bracket base with the spring base held between the bracket base and the first and second spring retention tabs. The spring member is oriented transverse to the bracket member with the spring legs oriented between the bracket legs and with the length dimension of the strike acceptance crevice oriented transverse to the bracket legs.
Before the exemplary embodiments of the invention are explained in detail, it is to be understood that the invention is in no way limited in its application or construction to the details and the arrangements of the components set forth in the following description or illustrated in the drawings. Rather, the invention is capable of other embodiments and being practiced or being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein are for purposes of description only and should not be regarded as limiting. The use herein of terms such as “including” and “comprising” and variations thereof is meant to encompass the items listed thereafter and equivalents thereof as well as additional items and equivalents thereof.
Reference will now be made to the drawings, wherein like reference numerals are utilized to designate like elements in the various views.
As best illustrated in
As illustrated, the bushing structures 26 each include an inwardly sloped face converging to form a strike acceptance crevice 29 as best seen in
Once the bushing elements 30 are in place about the terminal ends 32 of the spring legs 24, they may then be joined to one another along adjoining interfaces 36 by suitable techniques such as sonic welding, adhesive bonding, and the like. As will be recognized, once the adjacent bushing elements 30 have been adjoined to one another to form a bushing structure 26, the terminal ends of the spring legs 24 are held in position relative to the overlying bushing elements 30. In the illustrated exemplary construction this secure connection is aided by the curved profile of the terminal ends 32 of the spring legs 24. Specifically, in the exemplary construction, the terminal ends 32 incorporate a reverse bend configuration with a tip projecting generally upwardly towards the spring base 25. As will be appreciated, such a curved profile aids in preventing withdrawal of the spring legs 24 through the slot opening 34.
As best illustrated through joint reference to
In the assembled condition, the outer surface of the spring base 25 resides against the inner surface of the bracket base 42. As best illustrated through joint reference to
In the exemplary construction, the bracket legs 40 include outwardly flared distal ends 46. In practice, the flared distal ends 46 define blocking surfaces which limit insertion of the assembled strike retention assembly into an access opening within a panel 50 as shown in phantom in
In the illustrated exemplary construction, the bracket member 18 also includes downwardly extending locking tabs 52 extending away from the bracket legs 40. The locking tabs 52 are of a resilient character and may be formed from metal or other material making up the bracket member 18. The locking tabs 52 flex inwardly as the strike retention assembly 16 is inserted into an access opening within the panel 50. Upon reaching full insertion, the locking tabs 52 thereafter spring back into position behind the panel 50. In this position, the locking tabs 52 block withdrawal of the strike retention assembly 16 through the access opening. As shown, the spacing between the locking tabs 52 and the flared distal ends 46 may be set to be substantially equivalent to the thickness of the panel 50. Such an arrangement may promote stability. As illustrated, the locking tabs 52 may be formed as cut-outs from the material of the bracket member 18. However, it is likewise contemplated that non-integral resilient structures may likewise be utilized if desired.
In operation, the bushing structures 26 formed from the bushing elements 30 act to slidably engage the bulbous head portion 14 of the strike 12 during a latching procedure. As will be appreciated, the spring legs 24 are able to flex outwardly in substantially independent relation to one another. Thus, the anchor latch 20 is able to accommodate the strike 12 even if the strike impacts only one of the bushing structures 26 at a position substantially distant from the strike acceptance crevice 29. Moreover, in the event of a fire, or other high temperature event, the substantially locked relationship will be maintained. In particular, in the event of a high temperature event which melts one or more of the bushing elements 30, the spring legs 24 will nonetheless act to hold the bulbous head portion 14 of the strike in place. In this regard, as best seen in
Variations and modifications of the foregoing are within the scope of the present invention. It is understood that the invention disclosed and defined herein extends to all alternative combinations of two or more of the individual features mentioned or evident from the text and/or drawings. All of these different combinations constitute various alternative aspects of the present invention. The embodiments described herein explain the best modes known for practicing the invention and will enable others skilled in the art to utilize the invention. The claims are to be construed to include alternative embodiments to the extent permitted by the prior art.
Various features of the invention are set forth in the following claims.
This application claims the benefit of, and priority from, U.S. Provisional Application 61/045,681 filed Apr. 17, 2008, the contents of which are incorporated herein by reference in their entirety.
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1089193 | Ervien | Mar 1914 | A |
1098393 | O'Brien | Jun 1914 | A |
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7380846 | Moreno | Jun 2008 | B1 |
Number | Date | Country |
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875719 | Aug 1961 | GB |
971786 | Oct 1964 | GB |
Number | Date | Country | |
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20090260198 A1 | Oct 2009 | US |
Number | Date | Country | |
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61045681 | Apr 2008 | US |