RU2002124079A - PISTON MACHINE FOR TRANSFORMING THE ENERGY OF THE WORKING BODY INTO MECHANICAL WORK (ITS OPTIONS) - Google Patents

Claims (6)

1. A piston machine for converting the energy of the working fluid into mechanical work, containing pistons, a cylinder with grooves on its cylindrical surface, a transmission mechanism with rollers, a compression and combustion chamber, a gas distribution mechanism, an output shaft, characterized in that each piston is equipped with a movable connection, including a shaft with platforms, running rollers equipped with teeth, resting on both sides of said areas with teeth and on the internal surfaces of the piston, also equipped with teeth, on opposite sides of which The rollers of the conversion mechanism are located at the same time, while the configuration of the longitudinal profile of the cylinder groove is a closed, multi-period, asymmetric in the direction of scanning (relative to the lateral surface of the cylinder), with several extrema, a volume groove, while the length of the groove section corresponding to the phase of expansion of the working fluid in the cylinder, more than the length of the section of this groove corresponding to the compression phase of the working fluid, and the angle of inclination of this groove to a plane perpendicular to the longitudinal axis of the piston, n the sections corresponding to the expansion phase of the working fluid in the cylinder are made smaller than the similar angle of inclination in the sections corresponding to the compression phase of the working fluid, and the sections of this groove corresponding to the internal extreme positions of the piston are made rectilinear in a plane perpendicular to the longitudinal axis of the cylinder, and the working the cylinders are combined in sections, two on a common axis, coinciding with the axis of the output shaft of this section, and the cylinder sections are arranged by the "honeycomb" method - in parallel rows. 2. The piston machine according to claim 1, characterized in that the running rollers of the movable joint have external teeth, and the shaft pads and the internal surfaces of the piston have internal teeth. 3. The piston machine according to claim 1, characterized in that the running rollers of the movable joint have internal teeth, and the shaft pads and the internal surfaces of the piston have external teeth. 4. A piston machine for converting the energy of the working fluid into mechanical work, containing pistons, a cylinder, a transmission mechanism with rollers, a compression and combustion chamber, an output shaft, characterized in that the rollers of the transmission mechanism are installed in the machine body and placed in grooves made on the side the surface of the piston, each piston having a movable connection including a shaft with pads, running rollers equipped with teeth, resting on both sides of said pads with teeth and on the inner surfaces of the piston, also equipped with teeth, on the opposite sides of which the rollers of the transforming mechanism are located, while the configuration of the longitudinal profile of the cylinder groove is a closed, multi-period, asymmetric in the direction of the scan (relative to the side surface of the cylinder), with several extrema a volume groove, while the length of the groove section corresponding to the expansion phase of the working fluid in the cylinder is greater than the length of the portion of this groove corresponding to the compression phase of the working fluid and the angle of inclination of this canal Avk to the plane perpendicular to the longitudinal axis of the piston, in areas corresponding to the phase of expansion of the working fluid in the cylinder, made smaller than the same angle of inclination in areas corresponding to the compression phase of the working fluid, and sections of this groove corresponding to the internal extreme positions of the piston are made rectilinear in the plane perpendicular to the longitudinal axis of the piston, and the working cylinders are combined in sections of two on a common axis that coincides with the axis of the output shaft of this section, and the cylinder sections are located “honeycomb” method - in parallel rows. 5. The piston machine according to claim 4, characterized in that the running rollers of the movable joint have external teeth, and the shaft pads and the internal surfaces of the piston have internal teeth. 6. The piston machine according to claim 4, characterized in that the running rollers of the movable joint have internal teeth, and the shaft pads and the internal surfaces of the piston have external teeth.