The present invention is directed to suppression of fluid-borne noise in an automotive power steering system, and more particularly to a power steering pressure hose and method of manufacture having improved fluid-borne noise dampening characteristics.
Present day automobile power steering systems use power steering hoses that are constructed and/or provided with acoustic chambers and the like so as to, in varying degrees, dampen noise generated by the power steering pump and/or steering gear. The prior art is replete with a relatively long history of disclosures that describe devices incorporated inside the power steering hose or connected in line with the power steering hoses to dampen this noise. See for example U.S. Pat. Nos. 5,521,340 and 5,172,729 and earlier patents cited as references therein. However, as to improvements in the construction of the power steering hose itself, the emphasis has been in the direction of developing improved heat resistance, which in turn should result in longer service life in the adverse automotive engine compartment environment. To achieve this, higher temperature materials such as chlorosulfonated polyethylene and hydrogenated nitrile have been used.
The power steering hose constructions usually consist of an annular laminate made up of a multiplicity of concentric tubular members, such as an innermost tube, a tubular reinforcement layer, a tubular friction layer, a second tubular reinforcement layer and a tubular outside cover layer. In some instances, the innermost tube of the hose itself is made up of two separate layers. These layers may be coextruded to provide a high temperature innermost material that would come in contact with the power steering fluid, backed up by a lower cost surrounding material to provide the necessary tube strength. See in this regard the U.S. Pat. No. 5,316,046, issued May 31, 1994. See also U.S. Pat. No. 4,998,565 and the prior art cited in the aforementioned '046 patent.
In general, and by way of summary description and not by way of limitation, the present invention achieves the aforestated, as well as one or more additional objects set forth hereinafter, by providing a power steering hose construction that has improved noise dampening properties achieved by using a material for the innermost tube of the multilayer inner tube of the hose construction that has improved noise dampening properties, such as an ethylene/acrylic elastomer, without scarificing the resistance of the hose construction to high temperature fluid. This innermost tube preferably is bonded through vulcanization to a surrounding tube of material that possesses lesser noise dampening characteristics but provides other desirable physical characteristics in the composite hose construction. The dampening characteristics of the hose can be varied by varying the relationship of the radial wall thicknesses, relative to one another, of the inner and outer tubes of the multilayer innermost tube of the hose.
A method of dampening fluid-borne noise in an automotive power steering system in accordance with a presently preferred embodiment of the invention contemplates provision of a power steering fluid hose having a laminated inner tube surrounded by a reinforcing outer tube. The inner tube has a resilient inner layer with a radial thickness T1 and a resilient outer layer with a radial thickness T2. The inner layer is softer than the outer layer and is bonded by vulcanization to the outer layer. The radial thicknesses T1 and T2 have a ratio selected to dampen fluid-borne noise within a preselected frequency range by elastic expansion of the inner and outer layers.
The foregoing as well as additional objects, features and advantages of the present invention will become apparent from the following detailed description of the present invention taken in conjunction with the accompanying drawing wherein:
Referring now to
Instead of (or in addition to) attempting to provide sound deadening devices incorporated inside the hose or connected in line with the power steering hoses to dampen system noise generated by the power steering pump and/or steering gear, the present invention achieves noise dampening in the power steering hose by using a material for inner layer 14 of the multilayer tube 12 that has good noise dampening properties, such as an ethylene/acrylic elastomer, but without sacrificing the resistance of the hose construction to high temperature power steering fluid. Thus inner tube layer 14 is bonded through vulcanization to a surrounding material (described in more detail hereafter) used in the construction of the outer layer 16 of tube 12, which possesses lessor noise dampening characteristics but that can withstand high temperatures and thereby provides hoop strength reinforcement under such adverse temperature conditions.
In addition, the invention contemplates varying the noise dampening ability of hose 10 by adjusting the thickness T1 of the inner layer 14 of tube 12 in relation to the thickness T2 of the outer layer 16 of tube 12. The multilayer tube 12 may be made by a coextrusion process and apparatus such as that disclosed in U.S. Pat. No. 4,322,260 incorporated herein by reference. This multilayer inner core 12 may then be covered with the tubular reinforcement layers 18 and 20 in the form of a braid or spiral or woven material to provide reinforcement. The hose noise dampening ability can be enhanced further by using a reinforcement yarn in layers 18 and 20 such as nylon applied in such a manner as to allow for expansion of the hose under pressure. The expansion of the hose can be controlled through the amount of elongation of the yarn and the angle at which it is applied. See, for example, U.S. Pat. No. 4,633,912 also incorporated herein by reference.
The hardness of the inner layer 14 of the multilayer inner tube 12 is preferably in approximately the range of 70–80 durometer. A durometer value below 70 may be too soft to obtain an adequate seal, whereas a durometer value above 80 renders it more difficult to manufacture the extruded layer and provides less noise dampening properties.
Outer layer 16 of inner tube 12 is preferably made of a peroxide-vulcanized acrylonitrile-butadiene copolymer rubber (NBR) that provides strength and high temperature resistance to the multilayer tube 12. Layers 14 and 16 of the multilayer tube 12 preferably are coextruded and bonded together through vulcanization after coextrusion. The two layers of braided material 18 and 20 provide hoop strength to the overall hose construction to achieve a burst pressure on the order of 8,000 to 10,000 psi and are preferably made of suitable synthetic fibers such as high elongation nylon. Outer cover 22 is preferably made of chlorinated polyethylene (CPE).
The ratio of the thickness T1 of the inner layer 14 to the thickness T2 of the outer layer 16 of the multilayer tube 12 preferably is selected at an empirically determined value in view of the desired noise dampening characteristics of hose 10 and the inside diameter of the multilayer inner tube 12. This empirical determination may be made by physical experimentation and/or analytical computer modeling. Hence, it is necessary that the minimum thickness for inner layer 14 be empirically determined to provide sufficient heat resistance and oil resistance, and more importantly the desired noise dampening characteristics. On the other hand, the outer layer 16 would have an empirically determined minimum thickness that would ensure sufficient adhesion to the inner layer 14 and to the reinforcement layer 18.
The ratio of T1:T2 is preferably approximately in the range of 30:70 to 70:30, with a preferred example being a mid-range ratio of 50:50. In any event the ratio can be further optimized and tuned to the particular vehicle power system to maximize noise dampening under the parameters of operation of a particular vehicle system.
From the foregoing description it will be seen that high temperature and pressure power steering hose constructions have been in production for a number of years, and likewise that it is well known in the art to provide the capability to coextrude two different materials at the same time. The invention takes advantage of this prior knowledge in the art but improves upon it by employing two different materials and a selected ratio of respective laminate wall thicknesses in the innermost multilayer tube 12 of a multilaminate hose. Those two materials possess different degrees of noise dampening properties to help create the amount of noise dampening desired from the power steering hose and still maintain the high temperature fluid aging and fluid sealing properties required for prolonged service life of the hose in power steering automotive environments.
This application claims priority from Provisional Application Ser. No. 60/200,122 filed Apr. 27, 2000
Number | Name | Date | Kind |
---|---|---|---|
3599677 | O'Brien | Aug 1971 | A |
3605818 | Balchan | Sep 1971 | A |
3948293 | Bixby | Apr 1976 | A |
4035534 | Nyberg | Jul 1977 | A |
4089360 | Böhm | May 1978 | A |
4196754 | Payne | Apr 1980 | A |
4287217 | Hammer et al. | Sep 1981 | A |
4322260 | Conlon | Mar 1982 | A |
4457799 | Dunn | Jul 1984 | A |
4559095 | Babbin | Dec 1985 | A |
4603712 | Krause | Aug 1986 | A |
4633912 | Pilkington et al. | Jan 1987 | A |
4657285 | Akiyama et al. | Apr 1987 | A |
4688605 | Eisenzimmer et al. | Aug 1987 | A |
4734305 | Sugimoto et al. | Mar 1988 | A |
4802938 | Kitami et al. | Feb 1989 | A |
4870995 | Igarashi et al. | Oct 1989 | A |
4881576 | Kitami et al. | Nov 1989 | A |
4984604 | Nishimura | Jan 1991 | A |
4992314 | Saitoh | Feb 1991 | A |
4998565 | Kokuryu et al. | Mar 1991 | A |
5093426 | Sakabe et al. | Mar 1992 | A |
5156699 | Nakano et al. | Oct 1992 | A |
5158113 | Ozawa et al. | Oct 1992 | A |
5171787 | Zama et al. | Dec 1992 | A |
5172729 | Vantellini | Dec 1992 | A |
5201343 | Zimmermann et al. | Apr 1993 | A |
5316046 | Igarashi et al. | May 1994 | A |
5376730 | Niwano et al. | Dec 1994 | A |
5462091 | Saupe | Oct 1995 | A |
5488974 | Shiota et al. | Feb 1996 | A |
5521340 | Thawani et al. | May 1996 | A |
5679425 | Plumley | Oct 1997 | A |
5937911 | Kodama et al. | Aug 1999 | A |
5957164 | Campbell | Sep 1999 | A |
6071579 | Green et al. | Jun 2000 | A |
6155378 | Qatu et al. | Dec 2000 | A |
Number | Date | Country | |
---|---|---|---|
60200122 | Apr 2000 | US |