Fluid handling – Systems – With pump
Reexamination Certificate
2001-12-28
2004-10-05
Chambers, A. Michael (Department: 3753)
Fluid handling
Systems
With pump
C060S468000, C060S494000, C138S040000, C138S044000
Reexamination Certificate
active
06799602
ABSTRACT:
The present invention relates to flow control devices for hydraulic systems, and more particularly combination fittings for regulating the flow of pressurized fluid in an automobile power steering system.
BACKGROUND
The present invention relates to flow control devices for hydraulic systems, and more particularly combination fittings for regulating the flow of pressurized fluid in an automobile power steering system.
In automotive power steering systems, the flow of fluid delivered to the power steering equipment must be controlled in accordance with the requirements of the steering gear. In these systems, a pump, which is the source of the delivered fluid is provided with a flow control apparatus, typically a flow control valve. Typically, hydraulic flow is controlled by a piston that moves reciprocally in a flow control cylinder to open and close a bypass hole. Hydraulic flow is delivered from the pump to an output chamber formed between a high-pressure end of the piston in the flow control cylinder and an output or combination fitting. Fluid from the output chamber passes through a bore in the fitting and on to the power steering system.
A pressure-sensing orifice in the fitting transfers the pressure of the fluid flowing to the steering system and delivers the pressure through a passage in the housing of the flow control assembly to a low-pressure chamber at the end of the piston. A compression spring in the low-pressure chamber forces the piston towards the fitting. A pressure force develops on the end of the piston due to the feedback pressure and combines with the spring force to keep the bypass port closed.
If the flow issuing from the pump outlet is too great and exceeds the force provided by the compression spring, the flow control piston will move away from the end of the fitting. As the piston moves away from the fitting, the piston partially or fully uncovers the bypass port to allow excess fluid to recirculate to the pump. When pressure demand increases, the spring forces the piston back toward the fitting to a new flow regulating position. Thus, the piston moves toward and away from the fitting in response to changes in the pressure system demand.
A problem often encountered with conventional flow control outlet fittings is undesirable fluctuations in fluid flow at high engine speeds. With the two-piece conventional fitting shown in
FIG. 3
, as the engine and pump speed increase, and the flow control piston moves to open the bypass valve, the forces acting on the front of the piston are unevenly applied and more fluid enters the bypass port than is desirable. Consequently, the fluid flow to the steering gear drops as shown at FIG.
8
. As a result, there is an undesirable decrease in steering assist.
Another type of conventional flow control apparatus includes a fitting, shown in FIG.
4
. This fitting
60
includes one end
62
that is in fluid communication with the pump outlet and faces the high-pressure end of the fluid control piston and a second end
64
through which fluid flows to the steering gear. The fitting
60
defines a bore
66
that runs the length of the fitting
60
that tapers with the direction of the fluid flow. With this type of fitting, as engine speed, and correspondingly pump speed increases, the flow of fluid to the steering gear rises and continues to rise. As a result, too much fluid flows to the steering gear and steering assist is undesirably increased.
SUMMARY
The scope of the invention is determined solely by the appended claims and their equivalents and is not affected to any degree by the statements within this summary. The invention provides a combination fitting for the regulation of fluid in a fluid control apparatus, preferably in an automotive power steering mechanism. Specifically, the combination fitting of the present invention addresses the disadvantages of conventional fittings by providing a combination fitting having channels in one end of the fitting that facilitates uniform or “flatter” fluid flow and reduces undesirable fluid fluctuations in the fluid control apparatus.
In accordance with one aspect of the present invention, a combination fitting is provided that includes a generally cylindrical member with a bore therethrough. The bore forms a fluid path through the fitting for the flow of fluid, and helps control the amount of fluid out from the pump to the power steering gear. At the fluid receiving end of the fitting, the bore is adjacent the high-pressure end of a fluid control piston and is in fluid communication with the hydraulic pump to receive fluid from the pump. The fluid-receiving end of the fitting has at least two and preferably four channels formed in the end of the fitting. The channels extend radially from the bore of the fitting.
In one embodiment, there are at least three, and preferably four channels extending radially from the bore of the fitting. In another embodiment, the channels having a rectangular cross-section. In yet another embodiment, the ratio of the length of the channels to the width of the channels is from about 14:1 to about to 5:3, preferably from about 10:1.5 to about 6:2.5, and more preferably about 7:2.33.
In a preferred embodiment, the four channels are regularly spaced at about 90° about the bore. In another preferred embodiment, the area of each of the channels defined by the width and the length of the channels is the same and ranges from about 15 mm
2
to about 17 mm
2
, preferably about 16 mm
2
to 16.5 mm
2
and more preferably is about 16.3 mm
2
.
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Bockstanz Kevin S.
Capser Shawn P.
Staton Timothy
Brinks Hofer Gilson & Lione
Chambers A. Michael
Visteon Global Technologies Inc.
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