The present invention pertains to a latch housing assembly. Particularly, it relates to latches with latch housings for mounting to panels and the like with quick-mount snap-in features.
Some latch assemblies are secured to various members such as cabinet doors, drawer panels, and other closures by way of housings. The members have bores into which housings are disposed. The housings are coupled to the members. The latch assemblies are disposed within the housings.
Particularly, latches can be used to secure panels, covers, doors, drawers, electronic modules, glove boxes, and the like to other generally larger structures, such as compartments, doorframes, panel fronts, frames, racks and other structures. These latches are mounted by various means, including screws, rivets, blade fasteners, spring clips, stake fasteners and other structures. Each latch generally includes a housing portion; and includes another portion, such as a lever, pull, button, stud, catch plate or other such structural member. The housing portion performs the function of the non-moving member, while the other portion performs the function of the moving member. Each latch is mounted so that the housing portion is fixed to the generally larger structure, i.e., the doorframe, panel front, frame, rack, and other structure.
At times, the ability install a latch assembly, i.e., a latch housing without tools or with unsophisticated tools becomes important. Moreover, it becomes desirable that the latch housing has a flush outer appearance or is nearly flush and the latch assembly is nearly flush with the panel face when the latch is closed.
In these circumstances, the latch housing is mounted into a mating opening in the panel or door and can include a snap-in holding structure which holds the housing in place with respect to the panel or door.
There have been various designs for latches and connectors, which either include spring biasing or deformable members for quick mounting. Other latches, such as those for suitcases and the like have had a button activation with spring biasing. Further, others have incorporated a spring and cam operated ejection. On reference, Nardella, et al., U.S. Pat. No. 4,618,118, show a molded latch housing with a flanged surface installed in a rectangular cutout. A spring connected the hook at the forward end of the latch keeps the latch normally in the locked position. Another reference, Kameyama, U.S. Pat. No. 5,279,509, shows a cable connector with deformable side stakes which act as a quick engagement mount. Once in the mounted position, the stakes return to their original position to lock the mounting. A further reference, Kohl et al., U.S. Pat. No. 5,575,163, show a removable attachment structure for a car radio, including a deformable spring lock member. An additional reference, Kuroda et al., U.S. Pat. No. 6,280,206, show a high voltage cable connector with deformable socket contacts which act as a locking mechanism once the two members of the connector are joined. Turner, et al., U.S. Pat. No. 6,082,788, show a push-to-close latch where a cylindrical latch stud is pushed into a cylindrical receptacle having a plurality of longitudinal cuts therein to allow for a friction expansion fit with the stud.
These deformable features in the prior art have functioned as retaining members. In each instance they extend beyond the housing to engage the back face of the panel or door to hold the housing fast thereto. However, their shape and structure often lends them to becoming bent or broken, either through rough handling while in inventory or during installation. This requires that they be made of durable materials, such as spring steel, or reinforced polymer materials.
It is desirable to provide a latch with a flush or nearly flush face, which has a housing with a peripheral flange.
It is further desirable to provide a retainer for the housing which will hold the housing fast to the panel or door.
It is further desirable that the housing and retainer mate in a snap-together fashion, i.e., with a snap-in operation.
It is even further desirable that the snap-together mating structures of the housing and the retainer have a design which renders them durable and not easily bent or broken, but which permits them to be made of less expensive materials.
The latch housing assembly of the present invention includes a latch housing and a mating retainer. The latch housing has a sidewall extending upwardly from a bottom wall. A retainer receiving aperture opens through the bottom wall and between an upwardly protruding ratchet. The ratchet can be two resilient members protruding away from the bottom wall. An open end, at one end of the sidewall, opposite the bottom wall, has an outwardly extending ledge.
The retainer member has a bottom wall and a sidewall extending therefrom. An insert extends from the bottom wall upwardly and between the sidewall. The sidewall provides an abutment surface spaced vertically from the bottom wall.
The latch housing assembly can have a clamped position. In the clamped position, the latch housing is disposed within a bore in a member. The retainer insert is disposed within the receiving aperture. The ratchet is interlocked with the insert. The ledge of the latch housing abuts up against a first surface of the member. The retainer abutment surface presses against a second surface of the member. The first and second member surfaces are oppositely oriented and on opposite sides of the member. The member is clamped between the retainer and the latch housing.
In particular, the retainer can be a U-shaped bracket with reinforcing ribs on its sidewalls. One or more, and preferably two, upstanding rectangular ribs or posts extend from the base wall into the U-shaped area. When two upstanding ribs are used, each extends parallel to one another and has a plurality of ratchet type teeth on one face or side thereof, preferably facing in opposing directions. The teeth are angled to provide one-directional gripping which permits the posts to be inserted into the housing and not removed. The tightness of the engagement is determined by the depth of insertion of the toothed posts.
The housing can be rectangular with an open top and a peripheral flange extending thereabout. A respective receiving opening is positioned in the bottom of the housing for receiving each toothed post. Each opening has associated with it a ratchet member carrying on it a tooth. Each housing ratchet tooth engages the one-way teeth of a respective retainer post.
A receiving wall structure can extend within the housing about where each toothed post extends. This receiving wall structure assures that the operating members of the latch assembly to not contact a toothed retainer post and thereby loosen or dislodge it.
A housing is assembled onto a panel by being inserted into a mating opening in the panel until the flange seats on the panel outside face. The retainer is then pushed onto the bottom of the housing extending through the panel until the toothed retainer posts engage their respective ratchet tooth and then the retainer is tightened into place with the sidewalls of the U-shape abutting the inside face of the panel.
As an alternative, the toothed retainer posts can be positioned further apart to extend outside the housing adjacent to two opposing walls of the housing. Those respective walls would then each have an outboard ratchet tooth, which would interact with a respective toothed retainer post. This alternative would require the reinforced sidewalls of the U-shaped retainer to considerably longer than the toothed retainer posts. Moreover, the “footprint” of the retainer as it abuts the inside face of the panel would be wider than where the retainer posts extended through the bottom of the housing. However, the internal up-standing wills which protect the retainer posts could be eliminated. Moreover, the choices for the latch mechanism would be greater, as there would be no obstructions inside of the housing.
Further alternatives are equally within the present invention. These include placing the ratchet teeth, i.e., the ratchet “track” on the inside side, opposed sidewalls of the U-shaped retainer bracket and the ratchet tooth on each housing wall adjacent to the ratchet “track”. This would require a close fit of the retainer to the housing.
It is to be remembered that the ratchet “track” teeth are angled to permit only one-way interaction with the engaging-ratchet tooth. Moreover, the arrangement where the one-way ratcheting occurs exterior to the latch housing could be reversed. That is, the ratchet track could be placed on the outside face of the housing sidewalls and the ratchet tooth could be mounted to each respective adjoining inside face of the U-shaped retainer bracket. The ratchet “track” teeth need only be in a straight, flat track arrangement.
Further alternatively, the two toothed retainer posts (carrying the ratchet toothed track) could extend outwardly from the outside bottom wall of the housing, making the housing the male member, instead of the female member of the first embodiment. In this further alternative embodiment, the U-shaped retainer bracket would have mating openings in the back wall thereof, with a ratchet tooth extending into each one.
When utilizing toothed retainer posts, regardless of position/embodiment, a certain amount of flex could be allowed in the reinforced sidewalls of the U-shaped retainer. This flex could allow an extra “notch” or tooth engagement on the ratchet track teeth extending longitudinally along the posts. This would result in a tighter positioning of the U-shaped bracket to the housing and against the panel or door to which they are mounted.
Lastly, in the alternative, while the above-recited embodiments have a single ratchet tooth for engaging ratchet track teeth, more than one ratchet tooth can be used in series. In this instance plural ratchet teeth would provide more holding force which would permit both the ratchet teeth and the ratchet track teeth to be made of weaker materials, which usually equates to less expensive materials.
a is a top perspective view of the latch housing as shown in
a is a top perspective view of the retainer shown in
The latch housing assembly includes a latch housing 20 and a retainer 22. In the clamped position, the latch housing is coupled to the retainer. The latch housing is disposed in the bore of a member 23. The member could be a door such as a cabinet door or a compartment door. A portion of the member is disposed and clamped between the retainer 22 and latch housing 20.
Now referring to
The retainer bottom wall has a rectangular cut-out section 31 forming a rectangular indentation 31 in the bottom wall. The indentation helps the latch housing assembly accommodate a latch assembly disposed therein.
The retainer posts 25a, 25b each have four sides which expand outwards towards where the base of each post joins the bottom wall. Otherwise, each post generally has a rectangular cross section. Each post, starting at an end opposite its base, on three of its sides, excluding the side having teeth, has protruding outwardly therefrom, longitudinally extending sections 33. These sections extend about halfway down each post to the point where each post expands outwardly.
Each tooth has a surface 277a which forms an angle with its respective post side surface of 140 degrees. Each tooth also has a surface 277b which forms an angle with its respective post side surface of 80 degrees.
Referring to
A retainer receiving aperture 47a, 47b opens through the latch housing bottom wall. The aperture has a first opening 47a separated from a second opening 47b by a portion 355b of the bottom wall. The receiving aperture, at each aperture's longitudinal end, has a ratchet member 49a, 49b extending away from the bottom wall. Each ratchet, at its end, opposite the bottom wall, has an inwardly facing tooth 499a, 499b.
An internal wall 51a, 51b, 51c extending away from the bottom wall and partially around the periphery of the aperture, partially borders the aperture. The internal wall has a first C-shaped section 51a which partially borders the first opening 47a and a second C-shaped section Sib which partially borders the second opening 47b. Adjoining each C-shaped section is an upward projecting beam section 51c.
A traverse internal end wall 53 extends upwardly from a first end 355a of the bottom wall. The traverse end wall bounds a first end of the first opening 47a. One of the ratchets 49a extends upwardly from the transverse end wall 53. The end wall has notched sections 55.
The bottom wall can further have extending upwards therefrom a platform 57 to facilitate pivoting of a push-button 100a of the latch assembly 100a, 100b. Further, the bottom wall can have supported above it an eyelet 59 to receive a portion of the latch assembly through a bore 61 aligned with eyelet 59. The bore 61 can pass through each sidewall section 51a, 51b.
It can be seen from
It is important to note that the present invention has been described with reference to an example of an embodiment of the invention. It would be apparent to those skilled in the art that a person understanding this invention may conceive of changes or other embodiments or variations which utilize the invention as set forth in the appended claims. The specifications and drawings are therefore to be regarded in an illustrative rather than in a restrictive sense. Accordingly, many changes can be made in the above-described invention without departing from the intent and scope thereof. Substitutions and changes can be made while still being within the scope and intent of the invention and of the appended claims. Accordingly, it is not intended that the invention be limited except as may be necessary in view of the appended claims.
This application claims priority of U.S. Provisional Application 60/547,108, filed Feb. 24, 2004, for a Snap-In Latch Housing Assembly, the disclosure of which is incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
60547108 | Feb 2004 | US |