RU34642U1 - ROTARY GEAR MACHINE - Google Patents

Description

Rotary gear machine.

The invention relates to mechanical engineering, in particular to rotor gear machines.

A rodless piston internal combustion engine is known that contains cylinders, rods with sliders and pistons, an intermediate link in the form of a crankshaft or eccentric shaft and cranks connected to the aid; it has gears and a shaft (see, for example, the book by S. S. Balandin Rodless internal combustion engines 1972, p. 14)

The closest analogue adopted for the prototype is a Rute-type rotor-gear machine containing a synchronizing gear transmission, inlet and outlet windows transversely located in the housing and two identical two-toothed rotors, uniformly rotate: ayush; they are in the opposite direction (see, description inventions Copyright certificate of the USSR No. 981630, Cl. P01s 1 / 16.1982).

The disadvantage of this machine is its low efficiency, since in the discharge zone the pressure between the rotors can reach 50-80 Mia and lead to rupture of the casing and rapid failure of the machine. The purpose of the proposed technical solution is to increase the efficiency of the machine.

This goal is achieved by the fact that two rotors of circular cross section, according to wrap; ayush; they and located in the cylinders in the center, have central holes and diametrical bores and are connected to the eccentric shaft through a mechanical transmission with a gear ratio of 1: 2, in addition, the axis of the eccentric shaft Oi is offset relative to the axis of the cylinder Oi by E and the axis of the eccentric Oz is offset from the axis of the eccentric shaft O2 by EI, and the eccentricity of the eccentric shaft EI is equal to E.

Eeyore FIG. 1 shows a rotary gear machine - a longitudinal section; in FIG. 2 - cross section along aa; in FIG. 3 - transverse section along BB; in FIG. 4 is a diagram of a machine.

The rotary gear machine contains two cylinders 1 and 2 with partitions 3 and holes 4 into which the bushings are pressed 5. The cylinder parts include suction 6 and discharge 7 nozzles, cylinder covers 8 with bushings 9 and cheeks 10. The rodless mechanism includes two rotors 11 and 12 of circular cross section, an eccentric shaft 13 and a mechanical transmission consisting of gear rims

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F01C 1/16

14, pressed onto the rotors, gear 15,16,17, made in one piece with the eccentric shaft and the shaft 18. According to the rotating rotors are located in the cylinders in the center and have central holes 19 and diametrical bores 20. The eccentric shaft consists of a radical neck-cheek 21, two eccentrics 22 and 23, located at an angle of 180 ° to one another and gears 17. The eccentrics are fitted with bushings 24 that divide the diametrical bores into four separate chambers 25, 26, 27 and 28. The gear ratio of the mechanical transmission is 1: 2, besides ax of the eccentric shaft Oi is offset relative to the axis of the cylinder Oi by an amount E, and the axis of the eccentric Oz is offset relative to the axis of the eccentric shaft Oa by an amount E, and the eccentricity of the eccentric shaft EI is equal to E.

The device operates as follows. The working process in the rotary gear machine is carried out in two cycles, the alternation of which can be seen in FIG. 4, while in one revolution of the eccentric shaft one complete revolution of the rotor takes place. When the eccentric shaft 13 and the rotor 12 rotate in the direction of the arrow of FIG. 4 a, b, c, d, the suction chamber 28 is enlarged and filled through the suction pipe 6 with a working fluid. The suction in the chamber 28 is carried out over an almost entire revolution of the eccentric shaft. After separation of the suction volume by the rotor 12, the working fluid is displaced from the chamber 27 through the discharge pipe 7, and the chamber 28 is filled and pumped in the chamber 27 at the same time. At the next turn of the eccentric shaft in the chamber 28, the injection of the working fluid begins, and in the chamber 27 is filled. After one complete revolution of the rotor in the same sequence all the processes of the cycle are repeated.

Thus, the pressure between the bores, partitions, and bushings mounted on the eccentric should not be greater than in the pressure zone, since the bushings and diametrical bores move parallel to the chalk, so the efficiency of this machine can be significantly improved.

Claims (1)

A rotary gear machine comprising a synchronizing gear transmission, inlet and outlet windows transversely disposed in the housing, and two identical two-toothed rotors uniformly rotating in the opposite direction, characterized in that two rotors of circular cross section are rotationally arranged and arranged centrally in the cylinders, have central holes and diametral bore and connected to the eccentric shaft through a mechanical transmission with a transmission ratio 1: 2, besides the eccentric shaft axis O ₂ is shifted rel respect to the cylinder ₁ axis O by the amount E, and the eccentric axis O ₃ is displaced relative to the eccentric shaft axis O ₂ by the amount of E _1, and wherein the eccentricity E of the eccentric shaft ₁ is equal to the E.