This invention relates to a panel fastener. More particularly, this invention relates to a panel fastener for securing wall panels together.
As is known, panel fasteners have been incorporated into the sides of panels that are to be connected together to form a wall or walls in various types of structures, for example, a refrigerator wall, as described in U.S. Pat. No. 3,671,006. In such constructions, the panel fasteners are located in the wall panels along the side edges and include a hook which can be rotated into or out of engagement with a cooperative pin in an adjacent panel. Typically, the panel fasteners are used in a foamed-in-place panel, such as described in U.S. Pat. Nos. 3,341,233, 3,472,545, 4,512,122 and 6,299,224 as well as published US Applications 2002/0092626 and 2008/0073913.
Generally, panel fasteners are made of metal with either a hook assembly sandwiched between a pair of plates or a pin secured between a pair of plates. The hook assembly usually has a hub rotatably mounted in the plates via a boss or the like in each plate, an eccentric mounted on the hub for rotation therewith and a hook mounted on the eccentric for rotation therewith. In addition, the hub is provided with a socket at each end to eventually receive a wrench. As the hub rotates under the turning force of a wrench, so also does the hook rotate. Upon engaging a pin in an oppositely mounted panel fastener and continued rotation, the eccentric rotates and the hook pulls back against the pin to provide a firm locking engagement between the hook and pin and, thus, the two oppositely disposed panel fasteners of two wall panels.
It has been known to fabricate a foamed-in-place panel by placing a rail along one edge of a wall panel, for example, made of metal or wood, fastening one or more adapters to the rail and then mounting a panel fastener on each adapter. Thereafter, a second wall panel is placed in opposition to the first panel to sandwich the rail and the panel fasteners therebetween and a foamable material is injected into the space between the wall panels and about the panel fasteners to complete the molding operation. Upon curing of the foamable material, the rail with the adapters is carefully pulled off the panel fasteners that are now firmly embedded within the foam between the wall panels.
The adapters used in the molding process serve to position the panel fasteners in precise locations relative to the panels to insure that the panel fasteners will mate properly with each other and also be in the proper orientation top to bottom to each other for correct orientation of the hook of one to the pin of the other.
Over the years, many manufacturers of panel fasteners have come and gone, and many had made proprietary panel fastener adapters, to assure the continued use of their brand rather than that of a competitor, since changing the adapters already installed on a set of panel molds is time-consuming. Thus, manufacturers of panel fasteners have had to manufacture and stock several varieties of fasteners, to suit the varied types of fastener adapters used by the many purchasers of these fasteners.
Accordingly, it is an object of the invention to provide a panel fastener which can fit multiple styles of panel fastener adapters.
It is another object of the invention to provide a panel fastener which can be stocked and then fitted with locking elements to fit various fastener adapters as orders are received.
It is another object of the invention to provide a multi-fit panel fastener that is relatively easy to make.
Briefly, the invention provides a panel fastener that employs a plastic shroud or housing that has an elongated recess for receiving a hook assembly or a pin assembly and a plurality of pairs of oppositely disposed pockets disposed on opposite sides of the recess for selectively receiving locking elements therein.
The locking elements are deployed in pairs in selected pockets of the panel fastener in order to attach the panel fastener housing to an adapter mounted on a mold panel for the molding of a wall panel.
In order to mount a locking element, each pocket of the panel fastener housing has a rear wall spaced from the plane of the recess and a slot that passes through the rear wall while each locking element has a bifurcated tang that extends through the slot. In addition, the bifurcated tang defines a pair of legs, each of which has a foot engaged against the rear wall of a pocket on a side opposite the recess to hold the locking element in the pocket. The mounting of each locking element in a selected pocket of the panel fastener is in the nature of a snap-fit.
When mounted in a pocket of the panel fastener, each locking element projects into the plane of the recess of the panel fastener housing. In addition, each locking element may have a slot disposed in parallel to the elongated recess of the panel fastener housing to allow flexing of the locking element during engagement and disengagement from an adapter mounted on the mold panel. Further, each locking element may have a rounded surface parallel to and projecting into the elongated recess of the panel fastener housing to facilitate movement over an adapter.
The panel fastener housing also has a plurality of raised ribs on an exterior thereof to provide an irregular surface for the foamed material that is to be foamed about the housing during fabrication of a wall panel. In addition, the panel fastener housing has a pair of sockets disposed at opposite ends of the recess to allow for alignment of oppositely facing panel fasteners of a pair of wall panels during assembly in the construction, for example, of an enclosed walk-in refrigerator or freezer.
The plastic panel fastener housing is particularly adapted to receive a plastic hook assembly or may be constructed to receive a pin assembly.
These and other objects and advantages of the invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings wherein:
Referring to
Referring to
As illustrated in
The cover plate 21 also has an aperture 26 to receive the remaining and larger end of the hollow axle 18 of the hook assembly 16 in rotatable relation.
Referring to
The hook assembly 16 also includes a hook 28 of conventional shape made of a suitably elastic plastic, such as acetal, and having a circular aperture 29 for mounting on the raised cam surface 27 of the axle 18 in rotatable relation such that the hook 28 rotates with the axle 18 when the axle 18 is rotated from an unlocked position towards a locked position when in use. In this regard, the inside wall of the hook 28 about the aperture 29 is provided with a raised surface 30 that is interrupted by a gap 31 extending over an angle, e.g. of about 60°, while the axle 18 is provided with a raised area 30′ on the cam surface 27 that mates in the gap 31 when the hook 28 is mounted on the axle 18 at installation. Thus, the hook 28 is able to rotate with the axle 18 to move from a fully open position to a locking position where the hook 28 abuts a pin (not shown) of an opposed panel fastener. When the axle 18 is rotated further, the raised area 30′ of the axle 18 climbs out of the gap 31 to slide along the raised surface 30 of the hook 28 thereby elastically deforming the hook 28 and creating a tight engagement between the hook 28 and the pin.
The axle 18 of the hook assembly 16 also has a block 32 extending radially outwardly of the axle 18 and laterally of the cam surface 27. This block 32 moves within an arcuate slot in the rear face of the cover plate 21 (see
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The housing 10 also has a pair of sockets 36 disposed at opposite ends of the recess 12 to allow for alignment of oppositely facing panel fasteners as is known.
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Each locking element 37 is made of a plastic, such as polystyrene or Nylon, so as to be snap-fitted into a pocket 33.
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As shown in
In accordance with the invention, as shown in
As indicated in
After a second wall panel is placed in opposition to the first panel 46 to sandwich the rails 43 and the panel fasteners 48 therebetween, a foamable material is injected into the space between the wall panels and about the panel fasteners 48 to complete the molding operation of a wall panel in a conventional manner. Upon curing of the foamable material, each rail 43 with the adapters 44 is carefully pulled off the panel fasteners 48 that are now firmly embedded within the foam between the wall panels.
In the event the adapters mounted on the rail 43 are of a shorter length than previously used adapters, the two pairs of locking elements 37 are placed in the pockets 33 of the housing 10 that are closer together. In the case of an even shorter length of adapter, only one pair of holding elements 37 need be used and this pair may be placed in the central-most pair of pockets 33.
The housing 10 may also be made to accommodate a pin assembly. In this embodiment, the walls of the housing 10 are not apertured to receive the cover plate 21 or axle 18 of a hook assembly 16 but instead are adapted to receive a pin for engagement by a hook 28.
The invention thus provides a panel fastener which can fit multiple styles of panel fastener adapters. The invention further provides a panel fastener which can be stocked and then fitted with locking elements to fit various fastener adapters as orders are received.
The invention also provides a multi-fit panel fastener that is relatively easy to make and that is made entirely of plastic.
Number | Name | Date | Kind |
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2714751 | Stuart et al. | Aug 1955 | A |
2746098 | Cooper et al. | May 1956 | A |
3365851 | Cushman | Jan 1968 | A |
3400958 | Haimes et al. | Sep 1968 | A |
3671006 | Berkowitz | Jun 1972 | A |
4044511 | Lingle | Aug 1977 | A |
4417430 | Loikitz | Nov 1983 | A |
4512122 | Berkowitz | Apr 1985 | A |
5212924 | Finkelstein | May 1993 | A |
Number | Date | Country | |
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20120181799 A1 | Jul 2012 | US |