RU2011137395A

RU2011137395A - METHOD FOR CONVERTING STOCK RETURN-TO-SHIP MOTION TO SHAFT ROTARY MOTION, CONVERTER FOR ITS IMPLEMENTATION (OPTIONS) AND ENGINE USING SUCH CONVERTER

Info

Publication number: RU2011137395A
Application number: RU2011137395/06A
Authority: RU
Inventors: Григорий Никитович Авраменко; Александр Григорьевич Авраменко
Original assignee: Григорий Никитович Авраменко; Александр Григорьевич Авраменко
Priority date: 2011-09-09
Filing date: 2011-09-09
Publication date: 2013-03-20
Also published as: RU2480648C1

Abstract

1. Способ преобразования возвратно-поступательного движения штока во вращательное движение вала, заключающийся в том, что воздействуют штоком во время рабочего хода на две кривые поверхности, образованные в одном цилиндре, в результате чего цилиндр получает вращение, а возврат штока в исходное положение обеспечивается за счет кинетической энергии, накопленной в накопителе кинетической энергии, отличающийся тем, что две кривые поверхности выполняют в одном цилиндре в виде замкнутых параллельных друг другу равновеликих овальных поверхностей А и В, расположенных под одинаковым углом к оси штока и образующих сквозной паз, делящий цилиндр на две равные части, цилиндр помещают в коаксиальный с ним цилиндрический корпус большего диаметра таким образом, что наружная поверхность внутреннего цилиндра примыкает к внутренней поверхности наружного цилиндрического корпуса, который устанавливают в подшипниках с возможностью вращения и жестко соединяют с внутренним цилиндром с помощью шпилек, а в качестве накопителя кинетической энергии используют жестко закрепленный на цилиндрическом корпусе маховик, шток воздействует на кривые поверхности через жестко закрепленный на нем палец, который во время рабочего хода скользит по овальной поверхности паза А цилиндра и поворачивает цилиндр относительно штока таким образом, что при достижении пальцем нижней точки С в овале А заставляет цилиндр поворачиваться относительно штока на 180°, после чего палец переходит на овальную поверхность паза В цилиндра и при движении штока в обратную сторону скользит по поверхности В до достижении верхней точки D на овале В, заставляя в ит1. The method of converting the reciprocating movement of the rod into rotational movement of the shaft, which consists in the fact that the rod during the stroke moves on two curved surfaces formed in one cylinder, as a result of which the cylinder receives rotation, and the rod is returned to its original position in account of the kinetic energy stored in the kinetic energy storage device, characterized in that the two curved surfaces are made in one cylinder in the form of closed, parallel, equal oval surfaces A and B, located at the same angle to the axis of the rod and forming a through groove dividing the cylinder into two equal parts, the cylinder is placed in a coaxial cylindrical body of a larger diameter so that the outer surface of the inner cylinder is adjacent to the inner surface of the outer cylindrical body, which is mounted in bearings with the possibility of rotation and rigidly connected to the inner cylinder with the help of studs, and rigidly fixed to the cylinder is used as a storage of kinetic energy In the case of the flywheel, the stem acts on the curved surfaces through a finger rigidly fixed on it, which during the working stroke slides along the oval surface of the groove A of the cylinder and rotates the cylinder relative to the rod in such a way that when the finger reaches the lower point C in oval A, it causes the cylinder to rotate relatively 180 ° of the rod, after which the finger passes to the oval surface of the groove B of the cylinder and, when the rod moves in the opposite direction, slides along the surface B to reach the top point D on oval B, forcing it

Claims

1. The method of converting the reciprocating movement of the rod into rotational movement of the shaft, which consists in the fact that the rod during the stroke moves on two curved surfaces formed in one cylinder, as a result of which the cylinder receives rotation, and the rod is returned to its original position in account of the kinetic energy stored in the kinetic energy storage device, characterized in that the two curved surfaces are made in one cylinder in the form of closed, parallel, equal oval surfaces A and B, located at the same angle to the axis of the rod and forming a through groove dividing the cylinder into two equal parts, the cylinder is placed in a coaxial cylindrical body of a larger diameter so that the outer surface of the inner cylinder is adjacent to the inner surface of the outer cylindrical body, which is mounted in bearings with the possibility of rotation and rigidly connected to the inner cylinder with the help of studs, and rigidly fixed to the cylinder is used as a storage of kinetic energy In the case of the flywheel, the stem acts on the curved surfaces through a finger rigidly fixed on it, which during the working stroke slides along the oval surface of the groove A of the cylinder and rotates the cylinder relative to the rod in such a way that when the finger reaches the lower point C in oval A, it causes the cylinder to rotate relatively 180 ° of the rod, after which the finger passes to the oval surface of the groove B of the cylinder and, when the rod moves in the opposite direction, slides along the surface B to reach the top point D on oval B, forcing it After that, the cylinder rotates 360 ° relative to the rod, after which it passes to oval surface A and the cycle repeats.

2. The Converter reciprocating movement of the rod into rotational motion of the shaft, including a cylinder with a rod, making a reciprocating movement of the rod with the action of the element fixed on it on two closed curved surfaces formed in the cylinder, characterized in that for the action of the rod on curved surfaces on it are firmly fixed to the finger installed in the ball bearing, curved surfaces are made inside the cylinder in the form of two oval slots, the planes of which are parallel, located At an angle to the axis of the rod, they divide into two parts the body of the cylinder, which is coaxially placed in a cylindrical body of a larger diameter so that the outer surface of the inner cylinder is adjacent to the inner surface of the outer cylindrical body, while they are rigidly interconnected with studs and installed in bearings with the possibility of their simultaneous rotation, and on the outer cylindrical housing on one side the flywheel is rigidly fixed.

3. The Converter reciprocating motion of the rod into a rotational movement of the shaft, including a cylinder with a rod, making a reciprocating movement of the rod with its impact on the curved surface formed on the cylinder, characterized in that for the impact of the rod on the curved surface on it is rigid four fingers are fixed, the curved surfaces are formed inside the cylinder and are made in the form of four oval cuts, the planes of each two of which are parallel to each other, while two cuts are located under angle to the axis of the rod closer to one end of the cylinder, and the other two mirror them at an angle to the axis of the rod closer to the opposite end of the cylinder and divide the cylinder body into several parts, while the cylinder is placed coaxially in a cylindrical body of a larger diameter so that the outer surface the inner cylinder is adjacent to the inner surface of the outer cylinder, while they are rigidly interconnected with studs and mounted in bearings with the possibility of their simultaneous rotation, and on the outer cylindrical to rpuse on the one hand is rigidly fixed flywheel.

4. An internal combustion engine having a housing with at least one cylinder, in which there is a reciprocating-to-rotational transducer in the form of a piston with a rod, reciprocating, converted into rotational action of the rod on curved surfaces, formed in the cylinder, while the engine is equipped with a means for damping the torque of the rod, characterized in that on the engine casing on each of two opposite sides a cylinder block is installed with pistons, which through intermediate rods rigidly connected to the drive rod.

5. The engine according to claim 4, characterized in that as a converter for reciprocating motion into a rotational converter in it, made according to claim 2.

6. The engine according to claim 4, characterized in that as a converter for reciprocating motion into a rotational converter in it, made according to claim 3.