IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0654572
(1976-02-02)
|
발명자
/ 주소 |
- Firey Joseph Carl (1554 N.E. 95th St. Seattle WA 98115)
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
1 |
초록
▼
The gasoline engine torque regulator described herein provides means of reducing the quantities of harmful oxides of nitrogen emitted via the exhaust of a four stroke cycle gasoline engine and also of increasing the efficiency of the engine at part load, with an engine torque characteristic either a
The gasoline engine torque regulator described herein provides means of reducing the quantities of harmful oxides of nitrogen emitted via the exhaust of a four stroke cycle gasoline engine and also of increasing the efficiency of the engine at part load, with an engine torque characteristic either approximately constant with engine speed or alternatively controllably decreasing with increasing engine speed. These beneficial objects are achieved by adjustably delaying the closing of the engine intake valve as a means of controlling the engine torque, the opening of the intake valve remaining fixed. This manner of intake valve opening and closing can be achieved by adding to the conventional intake valve operating mechanism a dashpot device with a check valve and a positive displacement flow regulator. The check valve allows ready flow of the dashpot fluid between dashpot chambers when the intake valve is being opened but closes and forces fluid to flow oppositely, during intake valve closing, at least partially via the positive displacement flow regulator which proportions the flow and hence the rate of valve closure to the speed of the engine. With intake valve closing thereby delayed, a portion of the air-fuel mixture, drawn into the engine cylinder during the intake stroke, is pushed back into the intake manifold during the compression stroke. As a result less air-fuel mixture remains in the engine cylinder and the engine torque is reduced, the extent of such torque reduction increasing as the intake valve closing is longer delayed The engine compression ratio is reduced at reduced torque and, in consequence, gas temperatures during compression, combustion and expansion are reduced, producing a beneficial decrease in the quantities of oxides of nitrogen formed and subsequently emitted. Part load efficiency of the engine is increased because pumping work is essentially estimated.
대표청구항
▼
The combination of a four stroke cycle gasoline engine, complete with engine intake valves, intake valve closing springs, intake valve operating cams and linkage, and additionally fitted with a dashpot connecting between each such engine intake valve and the frame of the engine, wherein the improvem
The combination of a four stroke cycle gasoline engine, complete with engine intake valves, intake valve closing springs, intake valve operating cams and linkage, and additionally fitted with a dashpot connecting between each such engine intake valve and the frame of the engine, wherein the improvement comprises connecting the two chambers of each such dashpot together via a variable stroke, positive displacement flow regulator; said variable stroke, positive displacement, flow regulator comprising a fixed port element, a rotating port element and drive, a free piston element, a piston stop bar and torque control linkage; said fixed port element being secured to the engine frame and containing a cavity, within which the rotating port element rotates, and having two groups of fixed ports; one group of fixed ports, the pressure fixed ports, being connected together and jointly connecting via a portion of the control passage to one chamber of the dashpot, these pressure fixed ports connecting into the cavity in two sets of pressure fixed ports, each such set being coplanar in a plane at right angles to the axis of rotation of the rotating port element, the plane containing the one set of pressure fixed ports being displaced axially along said axis of rotation from the plane containing the other set of pressure fixed ports by a distance sufficient for sealing therebetween, the pressure fixed ports of each such set being angularly displaced relative to each other about said axis of rotation, the number of such pressure fixed ports in each set of the two sets being an integral odd number; the other group of fixed ports, the discharge fixed ports, being connected together and jointly connecting via the other portion of the control passage to the opposite chamber of the dashpot, these discharge fixed ports connecting into the cavity in two sets of discharge fixed ports, each such set being coplanar in a plane at right angles to the axis of rotation of the rotating port element, these two planes containing these two sets of discharge fixed ports being coincident with the two planes containing the two sets of pressure fixed ports, the discharge fixed ports of each such set being angularly displaced relative to each other and each such discharge fixed port being displaced 180°from one of the coplanar pressure fixed ports about said axis of rotation, the number of such discharge fixed ports in each set of the two sets being equal to the number of pressure fixed ports with which they are coplanar, each pressure fixed port of one coplanar set of pressure and discharge fixed ports being angularly displaced from one discharge fixed port of the other coplanar set of pressure and discharge fixed ports by the displacement angle between the rotating ports as described hereinafter; said rotating port element being positively rotated, within the cavity in the fixed port element, as by gears or chains, from an engine shaft such as the crankshaft or camshaft, said rotating port element being closely and sealably fitted to The cavity in the fixed port element; said rotating port element being fitted with two passages, each such passage being fitted with two ports at its ends, one such port of one such passage indexing with and being always coplanar with one set of coplanar pressure and discharge fixed ports in the fixed port element the other port of this same passage connecting always to one end of the free piston element as described hereinafter, one such port of the other passage indexing with and being always coplanar with the other set of coplanar pressure and discharge fixed ports in the fixed port element the other port of this latter passage connecting always to the other end of the free piston element, said two rotating ports which index with and are coplanar with the pressure and discharge fixed ports being angularly displaced from one another about the axis of rotation of the rotating port element by the displacement angle which can have any value between zero and 180°; said rotating port element being axially held in alignment within the cavity in the fixed port element so that the rotating ports index with and remain coplanar with the sets of pressure fixed ports and discharge fixed ports; said free piston element being a free piston and closed ended cylinder with the free piston fitted closely and moveably within the cylinder and being free to move within said cylinder except as limited by the piston stop bar, one end of said cylinder connecting always into one passage in the rotating port element and the other end of said cylinder connecting always into the other passage in the rotating port element, the closed ends of said cylinder being fitted with holes for the piston stop bar and these two stop bar holes are straight and parallel to the axis of the cylinder; said piston stop bar comprising two portions fitted closely, sealably and moveably into the two holes in the closed ends of the cylinder of the free piston element and both portions being of equal cross sectional area less than the cross sectional area of the cylinder, these two portions of the piston stop bar being connected positively together so as to move together, at least one such portion being moveable into the cylinder of the free piston element and to thus limit the motion of the free piston within this cylinder, said piston stop bar being fitted with two control stops which limit the range of motion of the piston stop bar, one of these control stops the full control stop is placed on the piston stop bar so that when the piston stop bar is against this full control stop the free piston is free to move through its full displacement volume in each direction before being stopped by the cylinder end or the piston stop bar, the other control stop the idle control stop is placed on the piston stop bar so that when the piston stop bar is against this idle control stop one portion of the piston stop bar extends into the cylinder a distance which will produce a free piston active displacement volume equal to the idle displacement volume as defined hereinafter, said piston stop bar being moveable to any position between the two positions set by the two control stops via a torque control linkage connected to said piston stop bar; the displacement volume of one full stroke of the dashpot, VD, the displacement volume of one full stroke of the free piston, VP, the total number of pressure fixed ports in the fixed port element, n, the revolutions per minute of the rotating port element, NR, the revolutions per minute of the engine, NE, are necessarily related to one another and to the minimum intake valve closing angle, AM, in crankshaft radians, according to the following equations: (VP)(n)(NR/NE)(AM) =(6.283)(VD) wherein the speed ratio, NR/NE, is determined by the positive drive mechanism driving the rotating port element from the engine shaft, the minimum intake valve closing angle, AM, is at least as small aS the intake valve closing angle in crankshaft radians of the intake cams on the engine camshaft, AC, and is preferably less than AC up to as small as one half of AC; the idle displacement volume of one active stroke of the free piston, VI, is determined by the following equation: [Figure] wherein the maximum intake valve closing angle, AX, is equal to the minimum intake valve closing angle, AM, plus 3 radians minus the maximum engine ignition spark advance in crankshaft radians before piston top dead center; on multicylinder gasoline engines the several piston stop bars of the several variable stroke, positive displacement, flow regulators being connected to the torque control linkage with equal free piston stroke length.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.