Patent ID: 8347847
Filing Date: 2013-01-08
Classification: F01C,F02B

Abstract:
1. An oscillating internal combustion engine comprising: a mechanism converting thermal energy of combustion gases to rotational motion; wherein said mechanism converting thermal energy of combustion gases to rotational motion comprises precisely one stationary link, and precisely three moving links; wherein said stationary link is an engine body; wherein said three moving links are: an oscillator; an eccentric shaft; an intermediate eccentric; wherein said engine body includes a first cylindrical cavity, a second cylindrical cavity, and a third cylindrical cavity placed therein; wherein the longitudinal axis of symmetry of the first cylindrical cavity included in the engine body coincides with the longitudinal axis of symmetry of the third cylindrical cavity included in the engine body; wherein the longitudinal axis of symmetry of the second cylindrical cavity included in the engine body is parallel to the longitudinal axis of symmetry of said first cylindrical cavity and said third cylindrical cavity included in the engine body; wherein the longitudinal axis of symmetry of the second cylindrical cavity included in the engine body is displaced relative the longitudinal axis of symmetry of the first cylindrical cavity and the second cylindrical cavity included in the engine body by a distance l>0; wherein a number n>0 of projections are placed on the inner circular wall of said second cylindrical cavity included in said engine body; wherein said oscillator assumes the shape of a first circular solid cylinder with a fourth circular cavity placed therein, and the number n>0 of arcuate cavities placed on the external circumference of said oscillator, defining n>0 pairs of mutually opposed oscillator pistons; wherein the longitudinal axis of symmetry of said oscillator is parallel to the longitudinal axis of symmetry of said fourth circular cavity placed therein; wherein the longitudinal axis of symmetry of said oscillator is displaced relative the longitudinal axis of symmetry of said fourth circular cavity placed in said oscillator by a distance d>0; wherein said oscillator is mounted rotatably in the second cylindrical cavity included in the engine body to form with the engine body a first rotary or oscillating kinetic couple of said mechanism converting thermal energy of combustion gases to rotational motion; wherein each projection of said n projections placed on the inner circular wall of the second cylindrical cavity of said engine body is placed in one arcuate cavity of said n arcuate cavities placed on the external circumference of said oscillator, so that said n projections placed on the inner circular wail of the second cylindrical cavity of said engine body form with said n arcuate cavities placed on the external circumference of said oscillator wherein the axis of rotation of the oscillator relative the engine body coincides with the longitudinal axis of symmetry of the second cylindrical cavity included in the engine body; wherein the longitudinal axis of symmetry of said fourth circular cavity included in said oscillator is parallel to the axis of rotation of the oscillator relative the engine body; wherein said eccentric shaft has a first pin, a second pin, and an eccentric placed between said first pin and said second pin; wherein the longitudinal axis of symmetry of said first pin of said eccentric shaft coincides with the longitudinal axis of symmetry of said second pin of said eccentric shaft; wherein the longitudinal axis of symmetry of said eccentric of said eccentric shaft is parallel to the longitudinal axis of symmetry of said first pin of said eccentric shaft and the longitudinal axis of symmetry of said second pin of said eccentric shaft; wherein the longitudinal axis of symmetry of said eccentric of said eccentric shaft is displaced relative the longitudinal axis of symmetry of said first pin of said eccentric shaft and the longitudinal axis of symmetry of said second pin of said eccentric shaft by a distance w>0; wherein said eccentric shaft is mounted rotatably in the engine body to form with the engine body a second rotary kinetic couple of said mechanism converting thermal energy of combustion gases to rotational motion; wherein said first pin of said eccentric shaft pivots in said first circular cavity included in said engine body, and said second pin of said eccentric shaft pivots in said third circular cavity included in said engine body; wherein the axis of rotation of the eccentric shaft relative the engine body coincides with the longitudinal axis of symmetry of said first cylindrical cavity included in said engine body and the longitudinal axis of symmetry of said third cylindrical cavity included in said engine body, so that said axis of rotation of the eccentric shaft relative the engine body is parallel to said axis of rotation of said oscillator relative said engine body; wherein said intermediate eccentric assumes the shape of a second circular solid cylinder with a fifth circular cavity placed therein; wherein the longitudinal axis of symmetry of said intermediate eccentric is parallel to the longitudinal axis of symmetry of said fifth circular cavity placed therein; wherein the longitudinal axis of symmetry of said intermediate eccentric is displaced relative the longitudinal axis of symmetry of said fifth circular cavity placed in said intermediate eccentric by a distance m>0; wherein said intermediate eccentric is mounted rotatably in said fourth circular cavity included in said oscillator so that the intermediate eccentric forms with the oscillator a third rotary kinetic couple of said mechanism converting thermal energy of combustion gases to rotational motion; wherein the axis of rotation of said intermediate eccentric relative the oscillator coincides with the longitudinal axis of symmetry of said fourth circular cavity included in said oscillator so that said axis of rotation of said intermediate eccentric relative the oscillator is parallel to said axis of rotation of said oscillator relative said engine body and said axis of rotation of said eccentric shaft relative said engine body; wherein said eccentric of said eccentric shaft is mounted rotatably in said fifth circular cavity included in said intermediate eccentric so that the intermediate eccentric forms with the eccentric shaft a fourth rotary kinetic couple of said mechanism converting thermal energy of combustion gases to rotational motion; wherein the axis of rotation of said intermediate eccentric relative the eccentric shaft coincides with the longitudinal axis of symmetry of the eccentric of said eccentric shaft, so that said axis of rotation of said intermediate eccentric relative the eccentric shaft is parallel to the axis of rotation of said intermediate eccentric relative the oscillator, said axis of rotation of said oscillator relative said engine body, and said axis of rotation of said eccentric shaft relative said engine body; wherein the distance w>0 between the longitudinal axis of symmetry of said eccentric of said eccentric shaft and the longitudinal axis of symmetry of said first pin of said eccentric shaft and the longitudinal axis of symmetry of said second pin of said eccentric shaft is smaller than the distance d>0 between the longitudinal axis of symmetry of said oscillator and the longitudinal axis of symmetry of said fourth circular cavity placed in said oscillator; wherein said engine body includes at least n outlet ports, at least n inlet ports, and at least n fuel injectors.