SU1476196A1 - Single-screw hydraulic machine - Google Patents

Abstract

The invention can be used in the mechanized production of oil and other reservoir fluids from wells. The purpose of the invention is to increase the durability of a single-screw hydraulic machine by constant orientation of the rotor (P) in the stator. P 1 of the screw pair P — the stator 2 of the internal gearing with a difference in the number of teeth equal to one, is provided on one side with a radial bearing (П) 3. П 3 is mounted coaxially with the screw surface Р 1 with the possibility of interaction with the neck 4 of the output crankshaft 5, the neck 6 of which is installed in P 7 coaxially with the stator 2. P 1 is equipped with a radial-stop P 11 and a crankshaft 12 located on the other side of P 1. P 11 is installed coaxially with the screw surface P 1 with the possibility of interaction with the neck 13 of the shaft 12, neck 14 which is installed coaxially with st 2 and provided with a torus angular contact 15. P 1 yl.

Description

The invention relates to hydraulic engineering, in particular to single-screw hydraulic machines, including single-screw pumps with multi-helical screw surfaces of a rotor-stator pair of internal gearing with a difference in the number of teeth equal to unity, and can be used in various fields of technology , for example, with the mechanized production of oil and other formation fluids from a well.

The purpose of the invention is to increase durability by constantly orienting the rotor in the stator.

The drawing schematically shows a single-screw hydraulic machine, General view.

A single-screw hydraulic machine contains a screw pair rotor 1 - stator 2 of internal gearing with a difference in the number of teeth equal to unity, the rotor 1 on one side is equipped with a radial bearing 3 mounted coaxially with the screw surface of the rotor with the possibility of interaction with one of the necks 4 of the output crankshaft 5, another neck 6 of which is installed in the radial bearing 7 coaxially with the stator 2, while the radial bearings 3 and 7 are installed in the bores 8 and 9, respectively, of the rotor 1 and the housing 10 of the hydraulic machine. The rotor 1 is equipped with additional angular contact bearing 11 and a crankshaft 12 placed on its other side. The additional angular contact bearing 11 is mounted coaxially with the screw surface of the rotor 1 with the possibility of interaction with one of the necks 13 of the additional crankshaft 12, the other neck 14 of which is mounted coaxially with the stator 2 and provided with an angular contact bearing 15. Moreover, the angular contact bearings 11 and 15 are installed in the bores 16 and 17, respectively, of the rotor 1 and the housing 10. In the housing 10 of the hydraulic machine inlet 18 and outlet 19 of the pipe are made.

Single-screw hydraulic machine operates as follows.

The torque from the shaft of the drive motor (not shown) is transmitted to the crankshaft 5, which, in turn, moves the axis of the rotor 1 in a portable motion in a circular orbit with a radius equal to the eccentricity of the internal engagement of the pair of rotor 1 - stator 2. The screw surface the rotor, which is meshed with the helical surface of the stator 2 with a difference in the number of their teeth equal to unity, simultaneously rotates in relative motion around its axis. The additional crankshaft 12 carries out a movement similar to the movement of the main crankshaft 5. When the rotor 1 rotates, its helical surface and the stator helical surface interacting with it are closed, moving the fluid from the low pressure region of the inlet 18 pipe to the high pressure area of the output 19 pipe. During operation of a single-rotor hydraulic machine, radial forces are perceived by radial bearings 3 and 7, and axial angular contact bearings 11 and 15, while the parameters of the screw pair rotor 1 - stator 2 are selected so that the resultant hydraulic and inertial forces acting in the rotor pair are the stator and the circumferential force on the main 5 and additional 12 crankshafts maximally compensated one another.

Claims (1)

Claim A single-screw hydraulic machine containing a helical pair, an internal gear rotor-stator with a difference in the number of teeth equal to one, the rotor of which is equipped on one side with a radial bearing mounted coaxially with the screw surface of the rotor with the possibility of interaction with one of the necks of the output crankshaft, the other neck of which installed in a radial bearing coaxially with the stator, characterized in that, in order to increase durability by constant orientation of the rotor in the stator, the rotor is equipped with additional radially PORN bearing and a crankshaft disposed on the other side of it, a further radial thrust bearing mounted coaxially with the screw rotor surface to engage with the necks of one of the additional crankshaft, the other pin of which is coaxial with the stator and is provided with angular contact bearing.