Gaseous fuel carburetion system

US 4,541,397 A
Filed: 04/30/1984
Issued: 09/17/1985
Est. Priority Date: 04/23/1982
Status: Expired due to Fees

First Claim

Patent Images

1. In a gaseous fuel carburetion system in which air and gaseous fuel are mixed prior to induction into an internal combustion engine, and in which the rate of flow of the induction air is controlled by throttling the intake of the air/fuel mixture, and in which gaseous fuel is supplied to the system from a pressurized source, an improved system for regulating the supply of gaseous fuel to the engine comprising;

(a) sensing means for sensing the speed of rotation of said engine and generating a first control signal which is a measure of the displaced volume rate of the engine in use,(b) sensing means for sensing the pressure in the induction manifold and generating a second control signal which is a measure of the density of the air induced by the engine which varies according to the load applied to the engine,(c) means for combining said first and second control signals to generate a third control signal which is measure of the amount of fuel required for optimum combustion of the measured displaced volume rate adjusted to reflect the measured air density such that said third signal varies in response to changes in the induction air flow rate,(d) means for controlling the rate of flow of the gaseous fuel from the source to the engine by means of said third control signal whereby the rate of flow of the gaseous fuel varies in response to the sensed changes in the parameters related to the air flow rate.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

In a gaseous fuel carburetion system in which air and gaseous fuel are mixed in a mixer prior to induction into an internal combustion engine, and in which the rate of flow of the induction air is controlled by throttling the intake of the air/fuel mixture, and in which gaseous fuel is supplied to the system from a pressurized source, an improved method and apparatus for regulating the supply of gaseous fuel to the air/fuel mixer is provided. The method comprises the steps of; sensing at least one operating parameter of the engine which is a function of the induction air flow rate and generating a control signal which varies in response to changes in the induction air flow rate, controlling the rate of flow of the gaseous fuel from the source to the mixer by means of said control signal whereby the rate of flow of the gaseous fuel varies in response to the sensed changes in the parameters related to the air flow rate. The apparatus comprises; mixer means arranged to receive and mix the induction air and the gaseous fuel supply and to deliver the mixture to the engine, sensing means for monitoring at least one operating parameter of the engine which is a function of the induction air flow rate and generating a control signal which varies in response to changes in the induction air flow rate, flow control means adapted to control the rate of flow of the gaseous fuel from the source to the mixer whereby the rate of flow of the gaseous fuel varies in response to the sensed changes in the parameters related to the air flow rate.

38 Citations

View as Search Results

6 Claims

1. In a gaseous fuel carburetion system in which air and gaseous fuel are mixed prior to induction into an internal combustion engine, and in which the rate of flow of the induction air is controlled by throttling the intake of the air/fuel mixture, and in which gaseous fuel is supplied to the system from a pressurized source, an improved system for regulating the supply of gaseous fuel to the engine comprising;
- (a) sensing means for sensing the speed of rotation of said engine and generating a first control signal which is a measure of the displaced volume rate of the engine in use,(b) sensing means for sensing the pressure in the induction manifold and generating a second control signal which is a measure of the density of the air induced by the engine which varies according to the load applied to the engine,(c) means for combining said first and second control signals to generate a third control signal which is measure of the amount of fuel required for optimum combustion of the measured displaced volume rate adjusted to reflect the measured air density such that said third signal varies in response to changes in the induction air flow rate,(d) means for controlling the rate of flow of the gaseous fuel from the source to the engine by means of said third control signal whereby the rate of flow of the gaseous fuel varies in response to the sensed changes in the parameters related to the air flow rate.
- View Dependent Claims (2, 3, 4)
- - 2. The improvement of claim 1 including means for regulating the pressure of the gaseous fuel supply to a predetermined pressure above the induction air pressure thereby to provide a positive pressure gaseous fuel supply.
  - 3. The improvement of claim 1 further comprising means for selectively varying the cross-sectional area of the fuel supply passage to control the rate of flow of the gaseous fuel.
  - 4. The improvement of claim 1 further comprising means for changing the pressure of the gaseous fuel supplied to a flow control valve in the gaseous fuel supply line to control the rate of flow of the gaseous fuel.

5. In a gaseous fuel carburetion system of an internal combustion engine having, an induction manifold, a pressure regulator, and a flow control valve and in which air and gaseous fuel are mixed prior to induction, and in which the rate of flow of the induction air is controlled by throttling the intake of the air/fuel mixture, and in which gaseous fuel is supplied to the system from a pressurized source through a pressure regulator, an improved system for regulating the supply of gaseous fuel to the engine comprising the steps of;
- (a) sensing means for sensing the speed of rotation of said engine and generating a first control signal which is a measure of the instantaneous displaced volume rate of the engine in use,(b) sensing means for sensing the pressure in the induction manifold and generating a second control signal which is a measure of the instantaneous density of the air induced by the engine which varies according to the load applied to the engine,(c) control means for controlling the pressure of the gaseous fuel discharged by the pressure regulator by means of said first signal such that it is a function of the instantaneous displaced volume rate of the engine in use,(d) control means controlling the the extent to which the flow control valve is opened or closed by means of said second control signal such that the opening of the flow control valve is a function of the load applied to the engine, whereby the rate of flow of the gaseous fuel varies in response to the variations in the instantaneous displaced volume rate of the engine in use according to the load applied to the engine.

6. In a gaseous fuel carburetion system of an internal combustion engine having, an induction manifold, a pressure regulator, and a flow control valve and in which air and gaseous fuel are mixed prior to induction, and in which the rate of flow of the induction air is controlled by throttling the intake of the air/fuel mixture, and in which gaseous fuel is supplied to the system from a pressurized source through a pressure regulator, an improved system for regulating the supply of gaseous fuel to the engine comprising the steps of;
- (a) sensing means for sensing the speed of rotation of said engine and generating a first control signal which is a measure of the instantaneous displaced volume rate of the engine in use,(b) sensing means for sensing the pressure in the induction manifold and generating a second control signal which is a measure of the instantaneous density of the air induced by the engine which varies according to the load applied to the engine,(c) control means controlling the pressure of the gaseous fuel discharged by the pressure regulator by means of said second control signal such that the pressure of the gaseous fuel supplied it is a function of the instantaneous displaced volume rate of the engine in use,(d) control means controlling the the extent to which the flow control valve is opened or closed by means of said first signal such that it is a function of the instantaneous displaced volume rate of the engine in use, whereby the rate of flow of the gaseous fuel varies in response to the variations in the instantaneous displaced volume rate of the engine in use according to the load applied to the engine.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
EMCO Wheaton Limited 136 The East Mall Toronto Ontario M8Z 5M2
Original Assignee
Emco Wheaton Corp.
Inventors
Young, Colin G.
Primary Examiner(s)
Cross, E. Rollins

Application Number

US06/605,278
Time in Patent Office

505 Days
Field of Search

123/527, 123/525, 123/27 GE, 123/577, 48/180.1, 48/189.1
US Class Current

123/527
CPC Class Codes

F02B 1/04   with fuel-air mixture admis...

F02D 19/023   to adjust the fuel mass or ...

F02D 41/18   by measuring intake air flow

F02M 21/0239   Pressure or flow regulators...

F02M 21/04   Gas-air mixing apparatus

Y02T 10/30   Use of alternative fuels, e...

Gaseous fuel carburetion system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

38 Citations

6 Claims

Specification

Solutions

Use Cases

Quick Links

Gaseous fuel carburetion system

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

38 Citations

6 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links