TRANSMISSION MECHANISM

NOTICE OF ISSUANCE OF PATENT

The United States Patent Office, on September 18, 1985, issued Notice of Allowance for the herein application. The Application No. is 658,295. This invention relates to and is improvements thereon to Patent No. 4,459,868, issued to this inventor on July 17, 1984.

TECHNICAL FIELD

Split power train transmissions utilizing' a cone with smaller drive wheels is not new, however, the inherent prob¬ lems of wear and slippage encountered by friction gear surfaces has limited the use of the art to peripheral functions in infinitely variable transmissions, utilizing sun and multiple planetary gears, such as is contemplated by McCoin(1980-82) Patent Nos. 4,192,200-201 and 4,322,798, as well as Harned(1965) No. 3,222,944. The latest attempt to use the cone as the central component of a power transmission mechanism, prior to this inventor in Sargent(1984) 4,459,868, was by Hayden(1923) No. 1,443,991. Mr. Hayden did not have access to present day technological advancements in computer science, fibers and other developments and his basic concept has laid dormant until resurrected by this inventor.

RELATED ART AND FIELD OF SEARCH

Patent references and related art cited in this application is as follows:

International Cl F16H 15/16; F16H 13/00

U.S. Cl 74/191; 74/208 ^'

Field of Search.., 74/193, 191, 208

CONANTC1889) 414,191 BALLARDC1921) 1.379,511 HAYDENC1923) 1,443,991 HUFNAGLEC1955) 2,715,164 STINGERC1956) 2,749,491 McBRIDE(1957) 2,776,591 HARNED(1965) 3,222,944 LeMIEUX(1966) 3,280,646 McGOIN(1980) 4,192,200-201 McC0IN(1982) 4,322,798 EUROPEAN PATENT OFFICE.1979) 7930227

SUMMARY OF THE INVENTION

The inherent problems of present technology in motor vehicle transmission systems is due almost entirely to the limitations imposed by it's mechanical configuration, as set forth in BACKGROUND OF THE INVENTION below, and, while this inventor's prior patent achieved a breakthrough in enabling the operator of a motor vehicle to utilize varying power ratios without the necessity o.f getting 'in and out of different mechanical 'gear ratios' by use of a cone and drive wheels, the fundamental problems of space limitations and constant integrity of the new concept were not addressed to the degree necessary for reliable performance.

This invention contemplates the use of multiple cones so arranged that the attendant drive wheel shafts converge

_.__ __ centrally located gear box in a unique manner to achieve the maximum power ratios within minimum overall size limitations. The invention provides for the drive wheels to be moved along the splined shaft by means of worm gears parallel to the shafts and synchronized by ring gear means to maintain absolute matching ratios, in perfect sequence, and the movement in tandem of each set of input and output drive wheels. The mechanism is thereby rendered 'slip- proof, thus eliminating slippage between the friction meshed members. The described configuration also allows for a wide spectrum of power ratios within a minimum overall space.

Another aspect of the invention recognizes that the toothed gears of the centrally located gear box will require a lubricant of different density and weight than the friction geared members of the mechanism, therefore, the housing of the entire system is separated into sections that may be lubricated by different means.

BACKGROUND OF THE INVENTION

The need to conserve fuel in motor vehicles and other applications is attenuated by the ever present specter of another world fuel oil crisis. Government decrees have re¬ quired the automobile industry to scale down the size of automobiles as one of the best means of saving fuel and the industry has made every effort to create ever more efficient power plants for their vehicles. One aspect of automobile construction, however, has not heretofore been successfully addressed. That aspect is the inherent inefficiency of the vehicle drive train comprising the transmission and axle assembly.

Transmissions now in use in automobiles provide for gear ratios of from approximately from 4.5:1 to 1:1, with slightly higher ratio for high speed by the addition of an

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'overdrive' gear. Present technology does not allow for the much needed expansion of power ratios within the present configuration of the transmission. It is therefore necessary to use a much more powerful power plant for efficient operation at low speed/high power modes than is necessary to efficiently propel the vehicle at cruising speeds.

The problem is two fold. With power ratios of 8:1 or 10:1 the size of the power plant could be reduced by as much as 501, with even greater efficiency and corresponding fuel conservation. At the other end of the spectrum; a comfortable 'high' gear ratio can be achieved at only 25 to 30 mph, yet, when speeds of 50 or 60 mph are reached, where minimal power is needed to propel the vehicle, it is impossible to slow down the motor without slowing down the vehicle. The transmission, in it's present configuration, locks the drive train to the motor and requires the motor to operate at it's greatest power potential, with corresponding use of fuel, when minimum power is actually needed.

The solution to both cited problems has been success¬ fully addressed by this inventor in his previously cited Patent No. 4,459,868 and this invention enhances and expands that mechanism with novel and unique improvements.

DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates the transmission of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

By reference to the drawings; there are two Cones(6 and 12) with multiple Input Drive Wheels(5 and 11) and multiple Output Drive Wheels(7 and 13) mounted alternately around each cone by means of Jack Shafts(4-8-10-14). The cones are rotatably mounted around Input Drive Shaft(l) and Output Drive Shaft(lό).

Sequential operation of the components is as follows:

Power is introduced to the system by means of prime mover engaged through torque converter to Input Drive Shaft(l). Slidable gear(2) splined on shaft(l) is moved by operator to engage clutch gear(3),(or Idle Gear and Shaft(2- A and 2-B for reverse), which is drivingly connected to Jack Shafts(4). Input Drive Wheels(5) are slidably mounted to turn with said jack shafts while engaged by friction means to turn First Cone(6), which by similar means is drivingly engaged to Output Drive Wheels(7). Output Drive Wheels(7) are drivingly connected to Idle Gear(9) and, in turn, to Input Drive Shafts(lO) and Input Drive Wheels(ll) friction geared to Second Cone(12).

The power train continues through Second Cone(12) by friction gear means to Output Drive Wheels(13), Jack Shafts(14) and Sleeve Gear(15), through Helical Spring(17) and Output Drive Shaft(lό).

Functional operation of the transmission is as follows:

Sleeve Gear(lS) is designed to rotate around Output Drive Shaft(lό) for about 1/3 rotation to engage Output

Shaft directly, and this will occur at initial engagement of transmission to propel vehicle, however, when sufficient speed is reached and maximum power is no longer needed to propel the vehicle the Helical Spring(17), which is of a predetermined strength and mounted in a manner to oppose the rotation of the Sleeve Gear(15), will cause the sleeve gear to 'back off and the output torque used to move the vehicle will actually travel from the sleeve gear, to spring, to drive shaft. Torque actually needed at any stage of operation will determine the position of the sleeve gear relative to the position of the drive shaft.

Sensor devise(22) constantly monitors the relative positions of the sleeve gear and the drive shaft, relaying this information to a computer unit. The computer, in it's programmed function, will analyze the information and acti¬ vate movement of Ring Gear(21), by means of Hydraulic Valve Mechanism(19) and Control Gear(20) drivingly connected to ring gear, to sequentially move,in tandem, all input and output drive wheels to their positions along the plane of the cones, by means of worm gears(22) splined through yokes(23), to achieve the most efficient power ratio commensurate with the needs of the operator.

The operation of the transmission is totally automatic and the computer will position the drive wheels on the cones at optimum ratios for fuel con-servation at all times. The operator may override the automatic controls for passing or other temporary high power needs, however, when the demand for additional power has been satisfied the power ratio will be automatically returned to optimum conditions. The unique advanced technology of the system is thus demonstrated.