Gaskets and gasket-like devices including fasteners for gaskets and a method of making and using the same
A gasket for sealing between a wall and a gasket support surface, such as between an oven housing and an oven door. The gasket includes a clip, the clip typically being made from a single strand of wire. The wire is bent into a head and a base, the base for engaging the gasket and head dimensioned for engagement with a wall for a support surface.
This application is a continuation of, claims priority from, and incorporates by reference, U.S. patent application Ser. No. 11/087,335, filed Mar. 23, 2005; and U.S. patent application Ser. No. 10/736,398, filed Dec. 15, 2003, which claimed priority from provisional patent application Ser. No. 60/434,895, filed Dec. 19, 2002.
FIELD OF THE INVENTIONGasket, gasket-like devices and clips for attaching gaskets to a mounting surface gaskets and a method for using the same and for making a gasket with an insertable clip.
BACKGROUND OF THE INVENTIONThe tubular articles of this invention are typically comprised of a thermally insulating yarn which may be supported by an inner tubular wire core. In a particular application, the articles are gaskets used, for example, as over door seals.
Woven tubular articles have been used for seals for oven doors for many years. These articles are typically made from a combination of an inner tubular support member formed of knitted wire and an outer tubular member made either by braiding, knitting or weaving an insulating material such as fiberglass yarn. Such structures have proven to be durable at the high temperatures used in self cleaning ovens and provide a good seal despite repeated openings and closures of the oven door over many years of use.
Methods of attaching a tubular gasket to an oven or oven door surface have typically comprised providing a retaining member which extends along the gasket and locking the retaining member between sheet metal pieces of the oven or by providing clamps at spaced locations around the periphery of the gasket.
An alternative form of gasket has attachment means comprised of a wire form having space attachment protrusions which fit into corresponding holes in surface to which the gasket is to be attached is shown in the prior art.
The present invention relates to an improvement in the fastening of gaskets to mounting surfaces and also to a novel resilient fastener which is simple to install onto a tubular gasket, easy to manufacture and effective in retaining the gasket to a support surface.
The present invention provides for an improved clip having a head with an apex, a pair of shoulders and a neck and a base attached to the head. The base may comprise of at least one coil course having a variable or constant radius of curvature.
Applicants novel improvement further provides a one piece resilient wire strand a portion defining a head and a second portion defining a base, the head and base perpendicular to one another and the head capable of protruding from the gasket while the base is engaged with an interior thereof.
Applicants novel invention further comprises a sealing apparatus comprising a gasket and a clip engaged with the gasket, the clip having a head and a coiled base, the coiled base being perpendicular to the plane of the head and adapted to be engaged with the metal core of the gasket, as being enclosed in an interior thereof.
The doors of many appliances, such as ovens, refrigerators, microwaves, etc., have flexible tubular gaskets around their perimeter for sealing and a variety of other reasons. See for example U.S. Pat. Nos. 4,986,033 and 4,822,060, the specifications and drawings of which are incorporated herein by reference and attached hereto.
A number of fasteners are provided in the prior art; however, applicants provide a fastener, here clip fastener 10, which includes a helically wound or coiled portion designated base 12 for engagement with an oven seal or gasket 18 to seal the oven seal or gasket 18 to the wall of an oven or oven door or the like.
Turning now to
Turning now to oven wall engagement portion or head 14, it is seen to have a narrow or pointed apex 14a for insertion into a hole in an oven or oven door, for example, or other support base in ways known in the art. From apex 14a, the head expands to shoulders 14b of which there are typically a pair, which are typically diametrically opposed. One of the shoulders typically tapers to a wire end 14c and the other shoulder typically tapers inward to a point adjacent end 14c, then the coils defining coiled base 12.
Oven seal or gasket 18 is typical of oven gaskets set forth in the prior art and typically consists of a wire mesh core 18b which is usually cylindrical and resilient and made of a woven wire material, and which is covered with a woven fiberglass sheath material made up of many individual fiberglass strands woven together, here referenced as sheath 18a.
With applicants novel clip fastener 10 having, typically, one or a multiplicity of courses and a tail, a unique means is provided for fastening the clip fastener to a gasket to provide an oven seal. This method is illustrated in the attached drawings and consists of inserting tail 12d into either the woven sheath (typically between individual strands) or the wire core and rotating the clip fastener on an longitudinal axis Lc extending through the apex and the neck and rotating so as to wind the base into and through the woven sheath and/or the wire core such that the strands of the wire core and/or woven sheath are adjacent the neck portion and captured between the head and the base where the clip fastener 10 is narrow. The effect is to secure the clip to the gasket by, typically, locating the base against an inner surface of the wire core and/or sheath and the head protruding above the woven sheath.
Since the base has a plane substantially perpendicular to the longitudinal axis of the head, it will interfere with the removal of the tension loaded clip from the gasket and, when the head is inserted into an oven door, will secure the gasket adjacent an oven door.
The longitudinal axis of the head will typically run perpendicular straight through an axis defining the coil Lc so as to define the axis upon which the clip is wound when inserting the clip with the gasket. The clip fastener 10 may be made from stainless steel (ex. type 304 ss half hard) or spring steel or any other suitable material diameter typically 0.020″ to 0.030″, typically 0.025″.
The clips may be twisted into the wire core first and then a fiberglass sheath may be woven around the clip. Alternately, the oven seal or gasket material may be provided with a woven sheath already woven around the wire core and the novel clip fastener with a depending tail 12d may be placed adjacent the wove sheath and inserted between strands of the woven sheath until it “catches” and then further urged beneath the woven sheath and rotated until it “catches” a strand or the wire core. Continued rotation will allow the base to slip through the woven sheath and the wire core until it is fully seated beneath the wire core.
Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limited sense. Various modifications of the disclosed embodiments, as well as alternative embodiments of the inventions will become apparent to persons skilled in the art upon the reference to the description of the invention. It is, therefore, contemplated that the appended claims will cover such modifications that fall within the scope of the invention.
Claims
1. A method of making a gasket assembly comprising the steps of:
- providing a multiplicity of clips, each clip having a head and a base, the base having a tail;
- providing a woven gasket defining an interior volume;
- placing each clip, spaced from the adjacent clip, at a location on the gasket that corresponds to hole spacing in the workpiece;
- engaging the tail of each clip with the gasket; and
- turning each clip until the base is substantially within the interior volume of the woven gasket and the head is substantially outside the gasket.
2. The method of claim 1 further comprising the step of weaving a sheath, the sheath comprising a multiplicity of strands, about a wire mesh core of the gasket following the turning step.
3. The method of claim 2 wherein the weaving step places the sheath strands around the head of the clips.
4. The method of claim 1 wherein:
- the head has an apex, a pair of shoulders and a neck and has a longitudinal axis; wherein,
- the base is attached to the head, the base comprises at least one coil course, the coil course having a plane and an interior space defined by a base perimeter, the longitudinal axis of the head extending perpendicular from the interior space of the coil course in a first direction to the plane of the coil course, the first direction above the plane of the coil course; and
- wherein the base includes the tail, the tail depending from the plane of the base in a second direction, the second direction generally below the plane of the coil course, each clip comprising a single resilient wire having a first end and a second end, the second end of the resilient wire comprising the tail.
5. The method of claim 2 wherein:
- the head has an apex, a pair of shoulders and a neck and has a longitudinal axis; wherein,
- the base is attached to the head, the base comprises at least one coil course, the coil course having a plane and an interior space defined by a base perimeter, the longitudinal axis of the head extending perpendicular from the interior space of the coil course in a first direction to the plane of the coil course, the first direction above the plane of the coil course; and
- wherein the base includes the tail, the tail depending from the plane of the base in a second direction, the second direction generally below the plane of the coil course, each clip comprising a single resilient wire having a first end and a second end, the second end of the resilient wire comprising the tail.
6. The method of claim 3 wherein:
- the head has an apex, a pair of shoulders and a neck and has a longitudinal axis; wherein,
- the base is attached to the head, the base comprises at least one coil course, the coil course having a plane and an interior space defined by a base perimeter, the longitudinal axis of the head extending perpendicular from the interior space of the coil course in a first direction to the plane of the coil course, the first direction above the plane of the coil course; and
- wherein the base includes the tail, the tail depending from the plane of the base in a second direction, the second direction generally below the plane of the coil course, each clip comprising a single resilient wire having a first end and a second end, the second end of the resilient wire comprising the tail.
7. The method of making a gasket assembly for attaching to holes in a workpiece comprising the steps of:
- providing a multiplicity of clips, each clip having a head, the head having an apex, a pair of shoulders and a neck and having a longitudinal axis, the clip including a base attached to the head, the base comprising at least one coil course, the coil course having a plane and an interior space defined by a base perimeter, the longitudinal axis of the head extending perpendicular from the interior space of the coil course in a first direction to the plane of the coil course, the first direction above the plane of the coil course, wherein the base includes a tail, the tail depending from the plane of the base in a second direction, the second direction generally below the plane of the coil course, the clip comprising a single resilient wire having a first end and a second end, the second end of the resilient wire comprising the tail;
- providing a gasket having at least a wire mesh core defining an interior volume;
- engaging the tail of each clip with the gasket; and
- turning each clip until the base is substantially within the wire mesh core and the head is outside the wire mesh core.
- weaving a sheath comprising a multiplicity of strands about the wire mesh core after the turning step; and
- wherein the weaving step places wire mesh strands around the head of each clip.
8. The gasket assembly made by the method of claim 1.
9. The gasket assembly made by the method of claim 7.
10. A method of making and using a gasket assembly adapted to attach to holes in a workpiece, the method comprising the steps of:
- providing a gasket defining a gasket interior volume;
- providing a multiplicity of clips, each clip having a head, the head having an apex, a pair of shoulders and a neck and having a longitudinal axis, each clip including a base attached to the head, the base comprising at least one coil course, the coil course having a plane and an interior space defined by a base perimeter, the longitudinal axis of the head extending perpendicular from the interior space of the coil course in a first direction to the plane of the coil course, the first direction above the plane of the coil course, wherein the base includes a tail, the tail depending from the plane of the base in a second direction, the second direction generally below the plane of the coil course, each clip comprising a single resilient wire having a first end and a second end, the second end of the resilient wire comprising the tail;
- placing each clip, spaced from the adjacent clip, at a location on the gasket that corresponds to hole spacing in the workpiece;
- engaging the tail of each clip with the gasket;
- inserting the tails of each of the multiplicity of clips into the interior volume of the gasket;
- turning each clip until the course is substantially within the interior of the gasket and the head is substantially outside the woven sheath of the gasket; and
- attaching the gasket to the workpiece.
11. The method of claim 10 further including, prior to the inserting step, the step of spreading some of the strands of the woven sheath.
12. The gasket assembly made by the method of claim 10.
Type: Application
Filed: Jun 24, 2008
Publication Date: Oct 23, 2008
Inventors: Henry C. Hight (Helotes, TX), Sylvia Hight (Helotes, TX)
Application Number: 12/214,978
International Classification: B21D 53/84 (20060101); F16J 15/06 (20060101);