This disclosure relates to flexible strap fasteners and more particularly to such fasteners with enhanced fixation of one or more secured articles.
Flexible strap fasteners, commonly referred to as cable ties, are widely used to secure articles, such as electrical cables, and hydraulic hoses that extend between machine components. Such ties may also be used to secure bundled elements or an individual component to associated equipment or a frame.
Flexible strap fasteners are usually formed from a moldable plastic or stamped metal. They commonly include an elongate strap provided with locking serrations or ridges on one surface and an integral locking head disposed at one end. The integral locking head defines a passage that permits insertion of the strap through the passage. The locking head also includes a locking pawl disposed to engage the locking serrations or ridges of the strap to prevent withdrawal of the strap from the passage of the locking head. For example, a cable tie is disclosed in U.S. Patent Application Publication No. 2006/0162130. The '130 cable tie includes a plurality of engaging members on a first surface, a cushioning layer on an opposite second surface, and a fastener head.
In one example of the present invention, a flexible strap fastener is provided. The flexible strap fastener includes a head portion having a passage and a locking pawl disposed within the passage. The flexible strap fastener further includes a strap portion connected to the head portion. The strap portion includes a first surface and a plurality of locking ridges disposed on the first surface. Additionally, cushioning material is disposed adjacent the plurality of locking ridges on the first surface.
As illustrated in
Head portion 106 defines a passage 108 having protrusions 110. The passage 108 is sized to receive and permit passage of the strap portion 102. A locking pawl 112 is located within the passage 108 of head portion 106. As illustrated, locking pawl 112 may be a compliant mechanism with a resilient live hinge portion 114 integrally molded with strap portion 102. Optionally, locking pawl 112 may be separately formed and attached to the head portion 106. In one configuration, retention portions 116 of the locking pawl 112 may be spaced from the protrusions 110 of the passage 108 a distance less than the thickness 117 of strap portion 102 when the live hinge portion 114 is in a free or unflexed state.
The strap portion 102 may include a first surface 118 and a second surface 120 that extend between side surfaces 121 and 122. Longitudinal rows of locking ridges 123 extend transversely of the first surface 118 and outward above the first surface 118. The rows of locking ridges 123 are positioned to define a gap 125 extending between inner edges 124. Locking ridges 123 are sized and configured to engage with the retention portions 116 of the locking pawl 112 when the strap portion 102 is disposed within the passage 108.
The flexible strap fastener 100 includes cushioning material 130 disposed upon first surface 118 within gap 125 and disposed adjacent the rows of locking ridges 123 from inner edge 124 to inner edge 124 of the rows of locking ridges 123. The cushioning material 130 may extend longer than and parallel to the plurality of locking ridges 123. Further, the cushioning material 130 may project to a height above the rows of locking ridges 123 of strap portion 102 to ensure engagement between the cushioning material 130 and a secured article (not shown).
Like the cushioning material 130 disposed on the first surface 118, cushioning material 132 may optionally be disposed on the second surface 120. In the configuration shown in
The cushioning materials 130 and 132 may be made of an elastomer such as, but not limited to, silicone ethylene, natural rubber, nitrile butadiene rubber, thermoplastic olefin elastomers, polyurethane elastomers, fluoroelastomers, and other elastomers known in the art. For example, in one configuration, the cushioning materials 130 and 132 may be made of the material sold under the brand Versaflex1 available from GLS Corporation, of McHenry, Ill. Additionally, the cushioning material 130 is softer than the material of the strap portion 102 and head portion 106. Optionally in some configurations, may have a higher coefficient of friction than the material of the strap portion 102 and head portion 106. Consequently, the cushioning material 130 has a durometer lower than the material of strap portion 102 and head portion 106. 1 Versaflex is a trademark of GLS corporation.
In one configuration, the cushioning material 130 may be molded onto the strap portion 102. Alternatively, the cushioning material 130 may be chemically bonded, or otherwise affixed to the strap portion 102.
The protrusions 110 of the head portion 106 are disposed within the passage 108 to directly engage and support the strap portion 102, which permits the locking ridges 123 to engage the locking pawl 112 to retain the strap portion 102 in the passage 108. Further, the protrusions 110 are disposed to provide a channel 134 that permits the passage of cushioning material 132 between the protrusions 110. Additionally, the locking pawl 112 may include a plurality of retention portions 116 that provide a second channel 136 that permits the passage of cushioning material 130 between the protrusions 110.
Because of channels 134 and 136, the cushioning materials 130 and 132 do not impede insertion of the strap portion 102 into the passage 108 of the head portion 106. Further, the harder material of the locking ridges 123 and the second surface 120 of the strap portion 102 are disposed to directly engage the protrusions 110 and locking pawl 112 of the head portion 106 to provide secure retention of the strap portion 102 within the head portion 106.
Referring to
Cushioning materials 214 and 216 are disposed adjacent to and extend to a height greater than the locking ridges 210 on the first surface 212. The cushioning materials 214 and 216 are also disposed on respective side surfaces 220 and 222 and portions of the second surface 224. More specifically, the cushioning materials 214 and 216 are disposed to respectively cover a portion of all surfaces 212, 220, 222, and 224 of the strap portion 204.
As shown, the head portion 202 includes a passage 230 having a protrusion 232 and a locking pawl 233 disposed for engagement with the locking ridges 210 of the strap portion 204. The locking pawl 233 may be disposed within the passage 230 of the head portion 202 to provide a first channel 234 and a second channel 236 that respectively permit the cushioning materials 214 and 216 to pass on either side of the locking pawl 233 when the strap portion 204 is inserted into the passage of the head portion 202.
The protrusion 232 is disposed opposite of the locking pawl 233 to support engagement of the locking pawl 233 with the locking ridges 210. Similarly, the protrusion 232 may be disposed to provide a third channel 238 and a fourth channel 240 that respectively permit the cushioning materials 214 and 216 to pass on either side of the protrusion 232.
In this configuration, the cushioning materials 214 and 216 may dampen mechanical vibration and other external forces that affect the relationship between the flexible strap, a secured article, and adjacent equipment. Additionally, the cushioning materials 214 and 216 may prevent unwanted repositioning and wear due to rubbing contact between the one or more secured articles, the flexible strap, and securements. Further, even if the flexible strap fastener 200 rolls over on itself, a secured article may still be directly cushioned and supported by the cushioning materials 214 and 216 of the flexible strap fastener 200.
Referring to
As shown, the head portion 302 includes a passage 330 having a locking pawl 332 disposed for engagement with the locking ridges 310 of the strap portion 304. The locking pawl 332 may be disposed within the head portion 302 to provide a first channel 334 and a second channel 336 that respectively permit the cushioning material 314 to pass around the locking pawl 332 when the strap portion 304 is inserted into the passage of the head portion 302.
Referring to
Industrial Applicability
In use, the flexible strap fastener is formed into a loop surrounding an article to be secured. The article could compose a single component such as a hydraulic hose, to be attached to an associated securement, or a plurality of individual elements such as electrical cables to be retained together in a compact bundle and secured to the frame of a machine.
To secure the one or more articles, the strap portion is inserted into the passage of the head portion. The strap portion is pulled through the passage until the cushioning material of the first surface is held against an outer perimeter of the one or more articles and the locking pawl engages the locking ridges to secure the flexible strap fastener in place.
When the strap portion is inserted between locking pawl and protrusions or wall, the locking pawl is deformed creating a restoring force at the live hinge, which urges the locking pawl toward protrusions or wall. The resilience of the living hinge urges the locking pawl into engagement with the locking ridges to prevent withdrawal of the strap portion from the passage of the head portion.
The cushioning material of the strap portion deforms upon contact with the one or more articles and/or securement and fills the interstices between the one or more articles and/or securement. The cushioning material may provide cushioned contact and dampening with the one or more articles and/or securement, and the deformed pattern may also provide a positive engagement of the strap portion with the perimeter of the one or more articles and/or securement to resist movement of the flexible strap fastener relative to the one or more articles and/or securement.
In one configuration, the flexible strap fasteners of this disclosure may be made of a high durometer rubber and the cushioning material may be made of a low durometer rubber. More specifically, the main body of the flexible strap fasteners may be made of the same base polymer as the cushioning material except that the main body is compounded for higher strength and lower ductility. Consequently, when the main body and the cushioning material are formed, the two layers may be cross-linked to provide a flexible strap fastener that resists delamination between the main body and the cushioning material. Additionally, the main body and the cushioning material may be cured together to speed manufacturing time. Alternatively, the main body may be formed and the cushioning material overmolded onto the main body in a two-shot or insert injection molding process.
This application claims benefit of U.S. Provisional Application No. 61/138,234 filed Dec. 17, 2008.
Number | Name | Date | Kind |
---|---|---|---|
3102311 | Martin et al. | Sep 1963 | A |
3731348 | Luehne | May 1973 | A |
3991444 | Bailey | Nov 1976 | A |
4001898 | Caveney | Jan 1977 | A |
4730615 | Sutherland et al. | Mar 1988 | A |
4875647 | Takagi et al. | Oct 1989 | A |
5031943 | Scott et al. | Jul 1991 | A |
5103534 | Caveney | Apr 1992 | A |
5146654 | Caveney et al. | Sep 1992 | A |
5193254 | Geisinger | Mar 1993 | A |
5389330 | Sorensen et al. | Feb 1995 | A |
5398383 | Bingold | Mar 1995 | A |
5414904 | Sampson | May 1995 | A |
5630252 | Wells | May 1997 | A |
5675870 | Cooper | Oct 1997 | A |
5803413 | Benoit et al. | Sep 1998 | A |
5911368 | Davignon | Jun 1999 | A |
5924171 | Sorensen et al. | Jul 1999 | A |
6138327 | Powell et al. | Oct 2000 | A |
6256847 | Manley et al. | Jul 2001 | B1 |
6863855 | Shilale | Mar 2005 | B2 |
7201352 | Kawai | Apr 2007 | B2 |
20050050691 | Schroder et al. | Mar 2005 | A1 |
20060162130 | Cook | Jul 2006 | A1 |
20100236030 | Dyer | Sep 2010 | A1 |
Number | Date | Country |
---|---|---|
1479605 | Jul 1977 | GB |
Entry |
---|
U.S. Appl. No. 11/041,234 to Cook filed Jan. 25, 2005, Office Action mailed Nov. 4, 2005, Response mailed Feb. 3, 2006, Final Rejection mailed Feb. 27, 2006. |
Number | Date | Country | |
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20100146742 A1 | Jun 2010 | US |
Number | Date | Country | |
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61138234 | Dec 2008 | US |