A seat trim cover includes a flexible web and a plurality of molded clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips includes a base attached to the web and one or more latch elements extending from the base to a point beyond the distal edge of the web. The latch elements of each clip are configured to clasp a cushion retainer when forced into engagement with the retainer.
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0. 40. A method of making a seat trim cover flange, the method comprising:
molding a series of resin clips along a longitudinal edge of a fabric strip, the clips each molded directly onto the fabric strip and comprising a latch element projecting beyond the longitudinal edge of the web, the clips spaced along a length of the strip, wherein each of the clips comprises an opposing set of latch elements positioned offset from one another along a length of the longitudinal edge of the fabric strip, forming a non-overlapping arrangement on the fabric strip; and
forming a continuous bead of resin extending longitudinally along a face of the strip.
17. A covered foam cushion, comprising:
a foam bun having a foam body and a contoured surface outlining the foam body;
an elongated cushion retainer permanently secured to the foam bun; and
a seat trim cover secured to at least a portion of the foam bun and comprising:
a flexible web; and
a plurality of clips spaced-apart at predetermined intervals along a distal edge of the web, each of the clips comprising:
opposing sets of one or more latch elements directly attached to opposite sides of the web, the opposing sets of latch elements being positioned offset from one another along a length of the distal edge of the web, forming a non-overlapping arrangement on the web,
wherein the latch elements of each clip clasp the cushion retainer at discrete sections along its length.
1. A method of securing a seat trim cover to a foam cushion, the method comprising:
placing a flexible seat trim cover adjacent a foam bun having a foam body outlined by a contoured outer surface, the foam bun carrying an elongated cushion retainer; and
forcing each of a plurality of clips spaced-apart at predetermined intervals along a distal edge of a web of the seat trim cover into engagement with the cushion retainer, thereby simultaneously fastening and aligning the seat trim cover to the foam bun,
wherein each of the plurality of clips comprises:
opposing sets of one or more latch elements directly attached to opposite sides of the web, the opposing sets of latch elements being positioned offset from one another along a length of the distal edge of the web, forming a non-overlapping arrangement on the web.
0. 35. A method of securing a seat trim cover to a foam cushion, the method comprising:
placing a flexible seat trim cover adjacent a foam bun having a foam body outlined by a contoured outer surface, the foam bun carrying an elongated cushion retainer, the seat trim cover having an elongated web with
a longitudinally continuous reinforcement bead of resin extending along a length of the web; and
plurality of resin clips molded onto the web at predetermined intervals along a distal edge of the web, wherein each of the plurality of clips comprises an opposing set of latch elements positioned offset from one another along a length of the web, forming a non-overlapping arrangement on the web; and
forcing each of the plurality of clips into engagement with the cushion retainer, thereby simultaneously fastening and aligning the seat trim cover to the foam bun.
0. 29. A covered foam cushion, comprising:
a foam bun having a foam body and a contoured surface outlining the foam body;
an elongated cushion retainer permanently secured to the foam bun; and
a seat trim cover secured to at least a portion of the foam bun and comprising:
an elongated flexible web;
a plurality of resin clips directly attached to the web at spaced-apart at predetermined intervals along the web, wherein each of the clips comprises an opposing set of one or more latch elements located on either side of the web, the opposing sets of latch elements being positioned offset from one another along a length of the web, forming a non-overlapping arrangement on the web; and
a continuous reinforcement bead comprising solidified resin material formed along a length of the web;
wherein the latch elements of each clip clasp the cushion retainer at discrete sections along its length.
12. A method of securing a seat trim cover to a foam cushion, the method comprising:
placing a flexible seat trim cover adjacent a foam bun having a foam body outlined by a contoured outer surface, the foam bun carrying an elongated cushion retainer; and
forcing each of a plurality of clips spaced-apart at predetermined intervals along a distal edge of a web of the cover into engagement with the with the cushion retainer, thereby simultaneously fastening and aligning the seat trim cover to the foam bun,
wherein each of the plurality of clips comprises:
a first set of one or more latch elements, each latch element of the first set extending contiguously from one or more bases independently attached to a first side of the web; and
a second set of one or more latch elements, each latch element of the second set extending contiguously from one or more bases independently attached to a second side of the web,
wherein the one or more bases of the first set of latch elements attached to the first side of the web are spaced-apart on the web from the one or more bases of the second set of latch elements attached to the second side of the web, forming a non-overlapping arrangement and locating the first set of latch elements in an offset position along a length of the distal edge of the web relative to the second set of latch elements.
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0. 30. The cushion of claim 29, wherein the opposing sets of latch elements are offset from one another by a distance less than the predetermined intervals between the clips.
0. 31. The cushion of claim 29, wherein each of the clips comprises two bases, each base secured to and extending from a respective side of the web and carrying at least one of the latch elements, and wherein the bases are offset from one another along the length of the web.
0. 32. The cushion of claim 29, wherein the reinforcement bead extends along a distal edge of the web.
0. 33. The cushion of claim 29, wherein the reinforcement bead is of molded resin.
0. 34. The cushion of claim 33, wherein the reinforcement bead connects the spaced-apart clips.
0. 36. The method of claim 35, wherein the opposing set of latch elements comprises latch elements directly attached to opposite sides of the web.
0. 37. The method of claim 35, wherein each of the plurality of clips comprises two bases, each base secured to and extending from a respective side of the web and carrying at least one latch element.
0. 38. The method of claim 37, wherein the bases are offset from one another along the length of the web.
0. 39. The method of claim 37, wherein the bases are positioned in a non-overlapping manner with respect to a plane of the web, such that forcing the clips into engagement with the retainer comprises inducing a twist in the web.
0. 41. The method of claim 40, wherein forming the continuous bead of resin comprises over-molding the bead to the fabric strip.
0. 42. The method of claim 40, wherein the formed bead connects the clips to one another.
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This present application is a reissue application of U.S. Pat. No. 9,315,134, which issued from U.S. patent application Ser. No. 14/525,606, filed Oct. 28, 2014, which claims the benefit of and priority to U.S. Provisional Patent Application No. 61/901,867, filed Nov. 8, 2013.
This specification generally relates to securing seat trim covers to foam cushions.
Seats for cars and light trucks have been formed by molding a foam bun that will serve as the seat cushion, and then attaching a pre-stitched fabric cover to the foam bun. Often, when the fabric cover is to be held securely to the foam bun along a bun contour, discrete fastenings, such as hog rings, are employed to connect a fabric flange, extending from the inner surface of the cover, to a wire retainer embedded at the bottom of a corresponding trench in the foam bun surface. Tension in the cover flange holds the cover against the bun in the contour. Other fastening methods involve fastening a clip, secured in the trench, to a bead along the flange edge.
Some fastening methods can be very labor-intensive, and can require significant manual dexterity. Some also require pneumatic tools for repetitive installations, due to the force required.
Improvements in the methods of attaching covers to contoured foam products are sought, either for contoured foam seat cushions or other applications.
This specification describes technologies related to systems, apparatus, and methods for securing seat trim covers to foam cushions
In several aspects, the products and methods of the invention feature a plurality of clips spaced-apart at intervals along a distal edge of a web, such as for securing a seat trim cover to a retainer held in a foam seat cushion, with each of the clips having a base permanently molded to, or otherwise secured to, the web, and one or more latch elements extending from the base to a point beyond the distal edge of the web.
One aspect of the invention features a method of securing a seat trim cover to a foam cushion, the method including placing a flexible seat trim cover adjacent a foam bun having a foam body outlined by a contoured outer surface, the foam bun carrying an elongated cushion retainer, and forcing each of a plurality of clips spaced-apart at predetermined intervals along a distal edge of a web of the seat trim cover into engagement with the cushion retainer, thereby simultaneously fastening and aligning the seat trim cover to the foam bun. Each of the plurality of clips includes an opposing set of one or more latch elements located on either side of the web, and the opposing sets of latch elements are positioned offset from one another along a length of the distal edge of the web.
In some examples, the opposing sets of latch elements are offset from one another by a distance less than the predetermined intervals between the clips.
In some cases, the cushion retainer is embedded in the foam bun beneath a floor of an elongated trench defined in the foam body, such that forcing the clips into engagement with the retainer comprises pushing the latch elements beyond the floor of the trench. The cushion retainer may be a continuous cord or wire, for example.
In some embodiments, the clip comprises two bases, each base secured to and extending from a respective side of the web and carrying at least one of the latch elements. In some arrangements, the bases are offset from one another along the length of the web. In some cases the bases are offset from one another by a distance in a direction perpendicular to the distal edge of the web. The bases may be positioned in a non-overlapping manner with respect to a plane of the web, such as with respect to position along the length of the web, such that forcing the clips into engagement with the retainer comprises inducing a twist in the web.
The retainer may be secured within an elongated trench defined in the foam body and have a longitudinally continuous rail with a bulbous distal edge, such that forcing the clips into engagement with the retainer involves forcing the latch elements over the bulbous distal edge of the rail.
A first of the latch elements, in some examples, has a base attached to a first side of the web, a neck extending from the base to beyond the distal edge of the web, and a head protruding from the neck toward a second side of the web. In some cases, the head terminates in a non-reentrant tip. In some other cases, the head terminates in a reentrant tip. The base may be over-molded onto the web. The head may have a tapered cam surface at its distal edge, such as to help align the latch element and laterally deflect the latch element under pressure against the retainer.
A second of the latch elements, in some examples, has a second base attached the second side of the web, a second neck extending from the second base to beyond the distal edge of the web, and a second head protruding from the second neck toward the first side of the web. A portion of the head of the first latch element may overlap a portion of the second head to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer. In some cases, the base of the first latch element and the second base together form a unitary mass of resin, such as by being molded contiguously.
In some other cases, a second of the latch elements has a second base attached the second side of the web, and a second neck with a flat inner surface extending from the second base to beyond the distal edge of the web to oppose the head of the first of the latch elements.
The opposing sets of latch elements preferably cooperate to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer.
In some cases, the latch elements of the opposing set overlap across a plane of the web, such that forcing the clips into engagement separates the latch elements to receive the retainer.
The opposing sets of latch elements may include substantially mirror-image latch elements on either side of the web, for example.
In some examples, the web also has a listing bead reinforcing its distal edge, the listing bead including solidified resin material over-molded along the distal edge of the web between spaced apart clips.
In some examples, at least one of the latch elements defines a hole having an edge from which an angled flap of the latch element extends across a plane of the web, such that forcing the clips into engagement with the retainer involves forcing the angled flap against the retainer.
A related aspect of the invention features a covered foam cushion including a foam bun having a foam body and a contoured surface outlining the foam body, an elongated cushion retainer permanently secured to the foam bun, and a seat trim cover secured to at least a portion of the foam bun. The seat trim cover has a flexible web and a plurality of clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips includes an opposing set of one or more latch elements located on either side of the web, the opposing sets of latch elements being positioned offset from one another along a length of the distal edge of the web. The latch elements of each clip clasp the cushion retainer at discrete sections along its length.
In some cases, the opposing sets of latch elements are offset from one another by a distance less than the predetermined intervals between the clips.
The cushion retainer may be embedded in the foam bun beneath a floor of an elongated trench defined by the foam body, and may be in the form of a continuous cord or wire, for example.
In some examples, each of the clips has two bases, each base secured to and extending from a respective side of the web and carrying at least one of the latch elements. The bases may be offset from one another along the length of the web, and/or by a distance in a direction perpendicular to the distal edge of the web. The bases define an overall length of each clip along the distal edge of the web, and the ratio of clip spacing interval to clip length is preferably between about 2:1 and 8:1. In some examples the bases are positioned in a non-overlapping manner with respect to a plane of the web, such as with respect to position along the length of the web.
In some embodiments the retainer is secured within an elongated trench defined in the foam body and includes a longitudinally continuous rail with a bulbous distal edge.
A first of the latch elements, in some examples, has a base attached to a first side of the web, a neck extending from the base to beyond the distal edge of the web, and a head protruding from the neck toward a second side of the web. In some cases, the head terminates in a non-reentrant tip. In some other cases, the head terminates in a reentrant tip. The base may be over-molded onto the web. The head may have a tapered cam surface at its distal edge, such as to help align the latch element and laterally deflect the latch element under pressure against the retainer.
A second of the latch elements, in some examples, has a second base attached the second side of the web, a second neck extending from the second base to beyond the distal edge of the web, and a second head protruding from the second neck toward the first side of the web. A portion of the head of the first latch element may overlap a portion of the second head to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer. In some cases, the base of the first latch element and the second base together form a unitary mass of resin, such as by being molded contiguously.
In some other cases, a second of the latch elements has a second base attached the second side of the web, and a second neck with a flat inner surface extending from the second base to beyond the distal edge of the web to oppose the head of the first of the latch elements.
As noted above, the opposing sets of latch elements may include substantially mirror-image latch elements on either side of the web, the web may also have a listing bead reinforcing its distal edge (such as a listing bead including solidified resin material over-molded along the distal edge of the web between spaced apart clips), and at least one of the latch elements may define a hole having an edge from which an angled flap of the latch element extends across a plane of the web.
Another aspect of the invention features a seat trim cover having a flexible web and a plurality of clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips includes an opposing set of one or more latch elements located on either side of the web, the opposing sets of latch elements being positioned offset from one another along a length of the distal edge of the web. The latch elements of each clip are configured to clasp a cushion retainer, such as a retainer in the form of an elongated cord or wire, or elongated bulbous head, when forced into engagement with the retainer.
In some cases, the opposing sets of latch elements are offset from one another by a distance less than the predetermined intervals between the clips.
In some examples, each of the clips has two bases, each base secured to and extending from a respective side of the web and carrying at least one of the latch elements. The bases may be offset from one another along the length of the web, and/or by a distance in a direction perpendicular to the distal edge of the web. The bases define an overall length of each clip along the distal edge of the web, and the ratio of clip spacing interval to clip length is preferably between about 2:1 and 8:1. In some examples the bases are positioned in a non-overlapping manner with respect to a plane of the web, such as with respect to position along the length of the web.
As noted above, in some examples a first of the latch elements, in some examples, has a base attached to a first side of the web, a neck extending from the base to beyond the distal edge of the web, and a head protruding from the neck toward a second side of the web. In some cases, the head terminates in a non-reentrant tip. In some other cases, the head terminates in a reentrant tip. The base may be over-molded onto the web. The head may have a tapered cam surface at its distal edge, such as to help align the latch element and laterally deflect the latch element under pressure against the retainer.
A second of the latch elements, in some examples, has a second base attached the second side of the web, a second neck extending from the second base to beyond the distal edge of the web, and a second head protruding from the second neck toward the first side of the web. A portion of the head of the first latch element may overlap a portion of the second head to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer. In some cases, the base of the first latch element and the second base together form a unitary mass of resin, such as by being molded contiguously.
In some other cases, a second of the latch elements has a second base attached the second side of the web, and a second neck with a flat inner surface extending from the second base to beyond the distal edge of the web to oppose the head of the first of the latch elements.
As noted above, the opposing sets of latch elements may include substantially mirror-image latch elements on either side of the web, the web may also have a listing bead reinforcing its distal edge (such as a listing bead including solidified resin material over-molded along the distal edge of the web between spaced apart clips), and at least one of the latch elements may define a hole having an edge from which an angled flap of the latch element extends across a plane of the web.
Another aspect of the invention features a method of securing a seat trim cover to a foam cushion, with the method including placing a flexible seat trim cover adjacent a foam bun having a foam body outlined by a contoured outer surface, the foam bun carrying an elongated cushion retainer, and forcing each of a plurality of clips spaced-apart at predetermined intervals along a distal edge of a web of the cover into engagement with the with the cushion retainer, thereby simultaneously fastening and aligning the seat trim cover to the foam bun. Each of the plurality of clips has a base permanently molded to the web, and one or more latch elements extending contiguously from the base to a point beyond the distal edge of the web.
In some examples, the cushion retainer is embedded in the foam bun beneath a floor of an elongated trench defined in the foam body, such that forcing the clips into engagement with the retainer involves pushing the latch elements beyond the floor of the trench. The cushion retainer may be a continuous cord or wire, for example.
In some arrangements, the base includes a first base molded to a first side of the web, and each of the clips includes a second base molded to a second side of the web, with one or more latch elements extending contiguously from the second base to a point beyond the distal edge of the web.
In many examples, the bases are advantageously offset from one another by a distance along the length of the web, such as a distance less than the predetermined intervals between the clips. The bases may be offset from one another by a distance in a direction perpendicular to the distal edge of the web, and/or may be positioned in a non-overlapping manner with respect to a plane of the web, such that forcing the clips into engagement with the retainer comprises inducing a twist in the web. For example, the bases may be positioned in a non-overlapping manner with respect to position along the length of the web.
In some examples, the latch elements extending from the first base cooperate with the latch elements extending from the second base to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer.
In some examples, the retainer is secured within an elongated trench defined in the foam body and includes a longitudinally continuous rail with a bulbous distal edge, such that forcing the clips into engagement with the retainer involves forcing the latch elements against the bulbous distal edge of the rail.
Each of the clips may include an opposing set of one or more latch elements located on either side of the web, and the base may be a unitary mass of resin over-molded on both sides of the web, such that forcing the clips into engagement with the retainer causes the latch elements to bend outwardly away from a plane of the web to receive the retainer. The latch elements may feature a flex point to facilitate outward bending away from the plane of the web.
As noted above, in some examples a first of the latch elements, in some examples, has a base attached to a first side of the web, a neck extending from the base to beyond the distal edge of the web, and a head protruding from the neck toward a second side of the web. In some cases, the head terminates in a non-reentrant tip. In some other cases, the head terminates in a reentrant tip. The base may be over-molded onto the web. The head may have a tapered cam surface at its distal edge, such as to help align the latch element and laterally deflect the latch element under pressure against the retainer.
A second of the latch elements, in some examples, has a second base attached the second side of the web, a second neck extending from the second base to beyond the distal edge of the web, and a second head protruding from the second neck toward the first side of the web. A portion of the head of the first latch element may overlap a portion of the second head to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer. In some cases, the base of the first latch element and the second base together form a unitary mass of resin, such as by being molded contiguously.
In some other cases, a second of the latch elements has a second base attached the second side of the web, and a second neck with a flat inner surface extending from the second base to beyond the distal edge of the web to oppose the head of the first of the latch elements.
As noted above, the opposing sets of latch elements may include substantially mirror-image latch elements on either side of the web, the web may also have a listing bead reinforcing its distal edge (such as a listing bead including solidified resin material over-molded along the distal edge of the web between spaced apart clips), and at least one of the latch elements may define a hole having an edge from which an angled flap of the latch element extends across a plane of the web.
In many cases, the first and second latch elements overlap across a plane of the web, even if offset from one another along a length of the distal edge of the web, such that forcing the clips into engagement separates the latch elements to receive the retainer.
Another aspect of the invention features a covered foam cushion with a foam bun having a foam body and a contoured surface outlining the foam body, an elongated cushion retainer permanently secured to the foam bun and a seat trim cover secured to at least a portion of the foam bun. The seat trim cover includes a flexible web and a plurality of discrete molded clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips has a base permanently molded to the web, and one or more latch elements extending contiguously from the base to a point beyond the distal edge of the web. One or more latch elements of each clip clasp the cushion retainer at discrete sections along its length, so as to hold the cover on the cushion.
In some cases, the opposing sets of latch elements are offset from one another along the length of the web by a distance less than the predetermined intervals between the clips.
The cushion retainer may be embedded in the foam bun beneath a floor of an elongated trench defined by the foam body, and may be in the form of a continuous cord or wire, for example.
In some examples, each of the clips has two bases, each base secured to and extending from a respective side of the web and carrying at least one of the latch elements. The bases may be offset from one another along the length of the web, and/or by a distance in a direction perpendicular to the distal edge of the web. The bases define an overall length of each clip along the distal edge of the web, and the ratio of clip spacing interval to clip length is preferably between about 2:1 and 8:1. In some examples the bases are positioned in a non-overlapping manner with respect to a plane of the web, such as with respect to position along the length of the web.
In some embodiments the retainer is secured within an elongated trench defined in the foam body and includes a longitudinally continuous rail with a bulbous distal edge.
A first of the latch elements, in some examples, has a base attached to a first side of the web, a neck extending from the base to beyond the distal edge of the web, and a head protruding from the neck toward a second side of the web. In some cases, the head terminates in a non-reentrant tip. In some other cases, the head terminates in a reentrant tip. The base may be over-molded onto the web. The head may have a tapered cam surface at its distal edge, such as to help align the latch element and laterally deflect the latch element under pressure against the retainer.
A second of the latch elements, in some examples, has a second base attached the second side of the web, a second neck extending from the second base to beyond the distal edge of the web, and a second head protruding from the second neck toward the first side of the web. A portion of the head of the first latch element may overlap a portion of the second head to define a closed groove for clasping the retainer, such that forcing the clips into engagement separates the latch elements to receive the retainer. In some cases, the base of the first latch element and the second base together form a unitary mass of resin, such as by being molded contiguously.
In some other cases, a second of the latch elements has a second base attached the second side of the web, and a second neck with a flat inner surface extending from the second base to beyond the distal edge of the web to oppose the head of the first of the latch elements.
As noted above, the opposing sets of latch elements may include substantially mirror-image latch elements on either side of the web, the web may also have a listing bead reinforcing its distal edge (such as a listing bead including solidified resin material over-molded along the distal edge of the web between spaced apart clips), and at least one of the latch elements may define a hole having an edge from which an angled flap of the latch element extends across a plane of the web.
Yet another aspect of the invention features a seat trim cover with a flexible web and a plurality of molded clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips includes a base permanently molded to the web, and one or more latch elements extending contiguously from the base to a point beyond the distal edge of the web. The latch element(s) of each clip are configured to clasp a cushion retainer, such as a continuous cord or wire or an elongated bulbous head, when forced into engagement with the retainer.
The optional features noted above with respect to other seat trim covers of the invention are also applicable to various examples of this seat trim cover.
Yet another aspect of the invention features another method of securing a seat trim cover to a foam cushion, this method also including placing a flexible seat trim cover adjacent a foam bun having a foam body outlined by a contoured outer surface, the foam bun carrying an elongated cushion retainer, and forcing each of a plurality of clips spaced-apart at predetermined intervals along a distal edge of a web of the cover into engagement with the with the cushion retainer, thereby simultaneously fastening and aligning the seat trim cover to the foam bun. Each of the plurality of clips has a first set of one or more latch elements extending contiguously from one or more bases attached to a first side of the web, and a second set of one or more latch elements extending contiguously from one or more bases attached to a second side of the web. The one or more bases attached to the first side of the web are spaced-apart on the web from the one or more bases attached to the second side of the web, forming a non-overlapping arrangement.
In some cases, the bases attached the first side of the web are spaced-apart on the web from the bases attached to the second side of the web by a distance along the length of the web.
In some examples the cushion retainer is embedded in the foam bun beneath a floor of an elongated trench defined in the foam body, such that forcing the clips into engagement with the retainer involves pushing the latch elements beyond the floor of the trench. The cushion retainer may be a continuous cord or wire, for example.
In some cases the retainer is secured within an elongated trench defined in the foam body and has a longitudinally continuous rail with a bulbous distal edge, such that forcing the clips into engagement with the retainer involves forcing the latch elements over the bulbous distal edge of the rail.
The optional features noted above with respect to other seat trim cover securing methods of the invention are also applicable to various examples of this method.
Yet another aspect of the invention features a covered foam cushion with a foam bun having a foam body and a contoured surface outlining the foam body, an elongated cushion retainer permanently secured to the foam bun, and a seat trim cover secured to at least a portion of the foam bun. The cover includes a flexible web and a plurality of clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips includes a first set of one or more latch elements extending contiguously from one or more bases attached to a first side of the web, and a second set of one or more latch elements extending contiguously from one or more bases attached to a second side of the web. The one or more bases attached to the first side of the web are spaced-apart on the web from the one or more bases attached to a second side of the web, forming a non-overlapping arrangement, and wherein the latch elements of each clip clasp the cushion retainer at discrete sections along its length.
The optional features noted above with respect to other covered foam cushions of the invention are also applicable to various examples of this cushion.
Yet another aspect of the invention features a seat trim cover with a flexible web and a plurality of clips spaced-apart at predetermined intervals along a distal edge of the web. Each of the clips includes a first set of one or more latch elements extending contiguously from one or more bases attached to a first side of the web, and a second set of one or more latch elements extending contiguously from one or more bases attached to a second side of the web. The one or more bases attached to the first side of the web are spaced-apart on the web from the one or more bases attached to a second side of the web, forming a non-overlapping arrangement, and the latch elements of each clip are configured to clasp a cushion retainer, such as a continuous cord or wire or an elongated bulbous head, when forced into engagement with the retainer.
The optional features noted above with respect to other seat trim covers of the invention are also applicable to various examples of this seat trim cover.
Various implementations of the invention can provide a means for quickly and effectively securing a cover to a foam cushion, in many instances by rapid manual pressure applied to discrete, spaced-apart clips without the need of tools. The clips can be designed to be engaged blindly (that is, without a line of sight to the clip) and without significant dexterity. The clips can be formed inexpensively along an edge of a web of the cover, such as by over-molding processes, and can be configured in an advantageous offset arrangement to ease installation while promoting retention of a cushion retainer once engaged.
The details of one or more implementations of the subject matter described in this specification are set forth in the accompanying drawings and the description below. Other features, aspects, and advantages of the subject matter will become apparent from the description, the drawings, and the claims.
Many of the features are exaggerated to better show the features, process steps, and results. Like reference numbers and designations in the various drawings indicate like elements.
Referring first to
Retainer 18a is exposed to the open area of trench 16 along a series of spaced-apart openings 24 along the trench floor 22. A series of discrete clips 26 cooperate with retainer 18a to secure cover 14 to foam bun 12a. Clips 26 are secured to a flexible web (or “flange”) 28 of cover 14 extending down into trench 16. Clips 26 extend beyond a distal edge of the flange and are aligned with openings 24, through which the clips extend to clip onto retainer 18a. As described below, the clips feature an opposing set of one or more latch elements located on either side of the cover flange. The opposing sets of latch elements are positioned offset from one another along a length of the distal edge of the flange.
As noted above and shown in the figures, the clips described herein are provided as a series of discrete clips spaced-apart along the length of the cover flange. In many examples, each clip in the series is substantially identical in size and shape to the other clips in the series. However, it is appreciated that some applications may feature different types of clips. The spacing of the clips helps to maintain the flexibility of the flange, such as for following a curved trench in the foam bun. The clips are of an appropriate size and shape to be easily manipulated manually by a human installer. For example, the clips may be spaced along the flange with a spacing of about 50 to 200 mm between neighboring clips, with each clip having an overall length of about 10 to 30 mm in the same direction. The ratio of clip spacing to clip length is determined so as to provide a reasonably continuous connection between the cover and the foam bun, resulting in a smooth seam line, while maintaining flexibility in the flange. In some examples, the ratio of clip spacing to clip length is between 2:1 and 8:1. The number of clips and the length interval gap between clips can vary between different applications. As a practical consideration, when the retainer is embedded in the foam bun below the trench, the placement of the clips should match the spacing of the openings that expose the retainer. In some cases the clips are sufficiently stiff to be pushed into the foam to clip about the retainer, in the absence of any opening.
While retainer 18b may be secured within trench 16 by any number of suitable methods, one method understood in the art is to secure the retainer to the foam as the foam is formed, such as by insert-molding the retainer in place. Such methods are described, for example, U.S. Pat. No. 7,971,325. The secured retainer may be, for example, partially embedded in foam of the seat bun, and may include projections (not shown) extending below the surface of the foam. To aid in holding the retainer in place during foaming, the retainer may include a magnetically attractable element, such as a magnetically attractable wire (not shown) extending along its length, to hold the retainer in place by a magnet embedded in a mold in which the foam bun is formed.
Referring next to
In this example, each of latch elements 30 includes a stem 36 extending integrally outward (away from the side of the flange) and downward from the supporting base 32a beyond the flange edge, a neck 38 extending integrally downward from the stem, and a crescent-shaped head 40 extending integrally from the neck to define an inward cam surface 46. The heads of the opposing latch elements face one another across the flange. As shown, head 40 extends inward (toward the flange) and tapers to a distal tip 44 on the side of the flange opposite from the base, crossing the head of the opposing latch element (see
As dimensioned in
The latch elements described herein may be formed of a durable thermoplastic resin, and may be formed by molding them directly onto the opposite sides of a fabric flange. As one example, an injection molding process can be used to mold the latch elements to the flange. The injection molding process and apparatus may resemble those used to manufacture plastic zipper tape. In this case, the distal edge of the flange is inserted into a mold cavity defining the negative shape of one or more latch elements, the mold cavity is sealed, and molten thermoplastic resin is injected through an injection pipe into the sealed mold cavity. The flange is released from the mold cavity once the resin has at least partially solidified and is able to hold the molded shape of the latch elements. The resin may be relatively stiff so as to securely clasp the retainer to hold the seat trim cover in place. Examples of resins from which the latch elements can be formed include polypropylene (PP), polyamide (PA), polybutylene teraphthalate (PBT), polycarbonate/acrylonitrile butadiene styrene (PC/ABS), polyoxymethylene (POM) or filled versions of these thermoplastics (e.g., talc-filled, glass-filled, etc.).
Turning now to
In the example of
Similar to previous examples, clips 26c can be installed on a retainer by simultaneously pressing the cam surfaces of the latch heads down against the retainer 18a. The retainer bears against the cam surfaces to force the opposing latch elements apart, allowing the retainer to enter the groove between them. However, as the individual bases 32c are connected to each other only via the flexible flange web, flexure of the flange material between the latch elements allows them to separate without significant flexure of the latch elements themselves. Rather, the portions of the web underlying the discrete bases 32c are moved out of the general plane of the flange during engagement, as shown in
Turning next to
The latch elements themselves are similar to those previously described. However, in this example, the latch elements of the respective sets have different lengths to account for the difference in spacing of their bases from the flange edge 34 The first set of latch elements 30a have a longer stem 36a extending from the corresponding base 32d than the stem 36b of the second set of latch elements 30b. The heads of the respective sets of latch elements are in alignment below the flange so as to clasp the retainer as described above. Because of the spacing of the bases 32d in a direction perpendicular to flange edge 34, the flange may be flexed out of its plane as shown in
For example, because of the stem supporting the head of the retainer, the heads of the latch elements may not extend as far, or the latch element stems may retain some bending strain when snapped in place, holding the heads against the retainer stem, or the cam surfaces of the latch heads may not be as deep, etc.
Some previous examples have addressed clips with opposing latch elements that are substantially identical or very similar to one another. However, in some other examples the clips feature opposing latch elements that are of an entirely different design. Consider, for example, the clip of
Some previous examples have addressed clips with latch elements having crescent-shaped heads with non-reentrant tips.
Clips with reentrant distal tips can more securely hold the retainer, as compared to clips with non-reentrant tips. Yet clips with non-reentrant tips may be easier to form by conventional molding techniques. In some examples, the geometry of the heads with reentrant tips may require the clip to have more flexibility to facilitate installation. Thus, in this example of
Turning now to
In the arrangement of 11D, only the head or heads 64 extending beyond the edge of the web on one side of the web feature clasps 60, while the head or heads 64a extending on the other side of the web have flat, featureless inner surfaces that serve to guide the retainer into engagement by the clasps, and can help to retain the retainer.
To install the seat trim cover, the clips are positioned above the retainer, with the retainer located between opposing latch elements. The clips are then pressed down against the retainer. The retainer bears against the resilient clasps of the latch elements, forcing them to deflect upwards until there is enough room for the retainer to slide therebetween. The deflected clasps then recover to their original position, trapping the retainer in place.
The use of terminology such as “front,” “back,” “upper,” “lower,” “over,” “above,” and “below” throughout the specification and claims is for describing the relative positions of various components of the system and other elements described herein. Similarly, the use of any horizontal or vertical terms to describe elements is for describing relative orientations of the various components of the system and other elements described herein. Unless otherwise stated explicitly, the use of such terminology does not imply a particular position or orientation of the system or any other components relative to the direction of the Earth gravitational force, or the Earth ground surface, or other particular position or orientation that the system other elements may be placed in during operation, manufacturing, and transportation.
A number of embodiments of the invention have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the inventions.
Kheil, Victor Horst, Cowley, Earl Lorne
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Nov 05 2014 | KHEIL, VICTOR HORST | VELCRO INDUSTRIES B V | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 053486 | /0186 | |
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