Internal-combustion engines – Engine speed regulator – Specific throttle valve structure
Reexamination Certificate
2000-07-05
2002-05-14
Solis, Erick (Department: 3747)
Internal-combustion engines
Engine speed regulator
Specific throttle valve structure
C123S399000
Reexamination Certificate
active
06386178
ABSTRACT:
TECHNICAL FIELD
This invention relates to electronic valve control systems and more particularly to electronic throttle control systems for internal combustion engines with composite material bodies and improved gear meshing maintenance and alignment systems.
BACKGROUND
Valve assemblies for engines and related systems typically utilize rotatable valve members in fluid flow passageways to assist in regulating fluid flow through them. For example, throttle valve members are positioned in the air induction passageways in internal combustion engines. The valve assemblies are controlled either mechanically or electronically and utilize a mechanism which directly operates the valve member.
For electronic throttle control systems, it is desirable to have a failsafe mechanism or system which activates the throttle valve in the event that the electronic control or electronic system of the vehicle fails. There are several known electronic throttle control systems which utilize failsafe mechanisms for closing the throttle valve or moving it to a slightly open position in the event of an electronic failure in the vehicle. One of these systems is shown, for example, in the Applicant's co-pending patent application Ser. No. 09/438,122, filed Nov. 10, 1999, (FGT 199-0418), the disclosure which is hereby incorporated by reference herein.
It is desirable to manufacture the cover housing, and other components of the electronic valve control mechanisms from plastic composite materials in order to reduce their weight and cost, as well as to improve the manufacturing processes and assembly of the components and mechanism. This often produces difficulties in maintaining dimensional relationships between the components during usage. It is often difficult to keep the components in proper position and the gears meshing properly, particularly when the electronic control mechanism is subjected to expansion and contraction during use caused by high temperatures and broad temperature changes.
It would be desirable to have an electronic valve control mechanism with an improved failsafe or limp-home mechanism and which secures the locations, positions, and operations of the gears and other components during all phases of use and temperature ranges.
SUMMARY OF THE INVENTION
The present invention provides an electronic throttle control assembly having a housing with a gear train and throttle valve mechanism. A throttle plate is positioned on a throttle shaft and the plate and shaft are positioned in the engine or air induction passageway, such that the throttle plate regulates airflow into the engine. A cover member enclosing the gear train contains a motor with a spur gear.
The operation of the throttle valve is accomplished through the gear train assembly which is driven by the motor. The motor is regulated by the electronic control unit of the vehicle which in turn is responsive to the input of the vehicle operator or driver. A throttle position sensor responsive to the rotation of the throttle shaft feeds back the position of the throttle plate to the electronic control unit.
In the operation of the throttle valve, a gear connected to the motor operates an intermediate gear (or idler gear), which in turn operates a sector gear which is connected to the throttle body shaft. The sector gear is biased by a spring member toward the closed position of the throttle valve. As a failsafe mechanism, a spring-biased plunger member is attached to the housing and positioned to interrupt operation of the sector gear in the event of an electronic failure and prevent the throttle valve from closing completely. At the failsafe position, the vehicle can still be operated, although at a reduced capacity. This allows the driver to “limp-home.”
If the throttle valve is in its closed position when an electronic failure occurs, the spring-biased plunger member acts on the sector gear to open the throttle valve slightly to the failsafe position.
A metal reinforcing and mounting plate is positioned in the cover member which is made of a plastic composite material. The plate maintains the relative positions of gear members during high temperature conditions and extreme temperature changes allowing them to properly and accurately mesh together and operate the throttle valve satisfactorily.
Other features and advantages of the present invention will become apparent from the following description of the invention, particularly when viewed in accordance with the accompanying drawings and appended claims.
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Kajander John E.
Solis Erick
Visteon Global Technologies Inc.
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