RU2090768C1 - Axial mechanism of internal combustion engines for converting reciprocating motion into rotation - Google Patents

Abstract

FIELD: mechanical engineering; internal combustion piston engines. SUBSTANCE: in proposed engine pistons are interconnected by closed rack made in form of shuttle with through hole and inner gear rim installed on eccentric portion of shaft, gear ratio between shuttle and driving gear being 2: 1. EFFECT: increased torque, elimination of side forces, increased efficiency. 1 dwg

Description

 The invention relates to mechanical engineering and can be used in reciprocating internal combustion engines.

 A powerful piston engine with energy transfer by means of a gear elliptical ring is known, comprising a cylinder with an inner jacket in which the piston moves.

 A crank or crankshaft with a gear elliptical ring with a double gear rack mounted on the piston passes through the piston.

However, it has a number of disadvantages, for example, a low efficiency due to the small number of teeth, which indicates a small piston stroke between the top and bottom dead centers, shock loads between the gear elliptical ring and the rail [1]
The closest analogue is the mechanism for converting rotational motion into reciprocating [2] in which the oval frame is made with a gear rack on the inner surface. The drive gear is mounted on the shaft.

 The disadvantages of this invention include a low efficiency coefficient of impact shock between the gear ring and the rack.

 An object of the invention is to increase torque, eliminate lateral forces and increase efficiency.

 This problem is solved due to the fact that the rodless mechanism of reciprocating internal combustion engines for converting reciprocating motion into rotary, containing a closed frame with a gear rack made on the inner surface, a shaft with a pinion gear, a cylinder and a piston, is equipped with two cylinders and a piston, interconnected by a closed frame made in the form of a shuttle with a through hole and an internal gear rim interacting with the eccentric part made on the shaft and installed in the shuttle, while the gear ratio of the shuttle and pinion gear is 2: 1.

 The drawing shows the invention.

 The rod-free mechanism contains two pistons 1 located in the cylinders 2, while the pistons 1 are interconnected by a shuttle 3 having a through elliptical hole with an internal gear rim 4 interacting with a cylindrical pinion gear 5 mounted on the eccentric part of the shaft 6, in turn the shaft 6 is installed in the through elliptical hole of the shuttle 3, while the crowns of the shuttle 4 and the pinion gear 5 are meshed with a gear ratio of 2: 1.

 In the process, the working stroke of the piston 1 is transmitted through the shuttle 3 to the drive gear 5 mounted on the eccentric part of the shaft 6, rolling around and turning the toothed ring of the drive gear 5 rotates the shaft 6 around its axis. Thus, when converting the reciprocating motion of the piston 1 to the rotational movement of the shaft 6, the piston 1 and the shuttle 3 move in a straight line.

Claims (1)

 The rodless mechanism of reciprocating internal combustion engines for converting reciprocating motion into rotational, containing a closed frame with a gear rack made on the inner surface, a shaft with a pinion gear, a cylinder and a piston, characterized in that it is equipped with two cylinders with pistons interconnected a closed frame made in the form of a shuttle with a through hole and an internal gear rim interacting with the eccentric part made on the shaft and installed in the shuttle, When this ratio of the shuttle and the pinion is equal to 1 February.