RU2283441C1 - Trochold rotary machine (versions) - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to positive displacement hydraulic machines, namely, hydraulic motors and pumps with internal engagement of rotors, particularly, to multiphase use of such machines. Proposed machine contains outer rotor with internal teeth and inner rotor with external teeth installed with eccentricity inside outer rotor and rigidly coupled with shaft to form working suction and delivery spaces between teeth and spaces of both rotors, and ring end face disks coaxial to outer rotor and adjoining by flat ring surface to both end faces of outer and inner rotors over entire thickness of said ring surface. Machine is provided with elastic resilient polymeric coating. Ring end face disks are rigidly coupled with end faces of outer rotor with formation of common rotating part by means of threaded members arranged on symmetry axes of each toroth of outer rotor at level of middle of depth of tooth or by means of mounting threaded rings coaxial to outer rotor. Thickness of flat ring surface of each end face disk complies with definite relation.

EFFECT: improved reliability and increased service life of rotary machine.

14 cl, 5 dwg

Description

The invention relates to the field of mechanical engineering, in particular to volume displacement hydraulic machines, in particular to hydraulic motors and pumps with internal gearing of rotors, and in particular to their multiphase use.

A trochoidal rotor machine is known from the patent literature, comprising an external rotor with internal teeth and an internal rotor with external teeth mounted inside it with an eccentricity, rigidly connected to the shaft, with the formation of working suction and discharge cavities between the teeth and depressions of both rotors (see JP 2003322088, 11/14/2003, F 04 C 2/10).

This machine is not reliable and durable when used with a working medium containing abrasive inclusions.

From the patent literature, a trochoid rotor machine is known, adopted as a prototype, containing an external rotor with internal teeth and an internal rotor with external teeth mounted inside it with an eccentricity, rigidly connected to the shaft, with the formation of working suction and discharge cavities between the teeth and cavities of both rotors , also annular end disks coaxial with the external rotor adjacent a flat annular surface to both ends of the external and internal rotors throughout the entire thickness of this annular surface (SU 1714164 A2, 09/22/1987, F 01 C 1/14).

In the known technical solution, the surfaces of the internal engagement of both rotors are optimized, which leads to an increase in the efficiency of the machine. However, the relative sliding speeds of the end surfaces of these rotors are not optimized, which significantly reduces the reliability and durability of the machine, especially when it is multiphase and when used with a working medium containing abrasive inclusions.

The objective of the invention is to increase the reliability and durability of a rotary machine by reducing the relative sliding speed of the end surfaces of the internal and external rotors when operating on liquid, gas-liquid and gas fluids, including on a fluid with abrasive inclusions.

To solve the problem with the achievement of the claimed technical result, the trochoidal rotor machine according to the first embodiment, comprising an external rotor with internal teeth and an internal rotor with external teeth mounted inside it with eccentricity, is rigidly connected to the shaft with the formation of working cavities of suction and discharge between the teeth and cavities of both rotors, as well as ring end disks, coaxial with the external rotor, adjacent a flat annular surface to both ends of the external and internal rotors along the thickness of this annular surface, according to the invention is provided with an elastic elastic polymer coating, the annular end disks are rigidly connected to the ends of the external rotor with the formation of a single rotation part by means of threaded elements placed on the symmetry axes of each tooth of the external rotor at the mid-height of this tooth, thickness (s ) the flat annular surface of each end disk is made in accordance with the ratio:

where D is the outer diameter of the outer rotor, mm,

d is the diameter of the hollows of the inner rotor, mm,

e - the eccentricity between the axes of rotation of the external and internal rotors, mm

The external rotor may be provided with through windows located in the cavities of its teeth.

With an elastic elastic polymer coating, a working contact surface of both rotors can be made.

With an elastic elastic polymer coating, a working contact surface of the outer rotor can be made.

With an elastic elastic polymer coating, a working contact surface of the inner rotor can be made.

With an elastic elastic polymer coating, an external rotor can be made along the perimeter of its cross section.

Both rotors can be made of polymeric materials.

To solve the problem with the achievement of the claimed technical result, the trochoidal rotor machine according to the second embodiment, comprising an external rotor with internal teeth and an internal rotor with external teeth mounted inside it with an eccentricity, is rigidly connected to the shaft to form working suction and discharge cavities between the teeth and cavities of both rotors, as well as ring end disks, coaxial with the external rotor, adjacent a flat annular surface to both ends of the external and internal rotors along the thickness of this annular surface, according to the invention is provided with an elastic elastic polymer coating, the annular end disks are rigidly connected to the ends of the external rotor with the formation of a single rotation part by means of threaded mounting rings coaxial with the external rotor, the thickness (c) of the flat annular surface of each end disk is made in according to the ratio:

where D is the outer diameter of the outer rotor, mm,

d is the diameter of the hollows of the inner rotor, mm,

e - the eccentricity between the axes of rotation of the external and internal rotors, mm

The external rotor may be provided with through windows located in the cavities of its teeth.

With an elastic elastic polymer coating, a working contact surface of both rotors can be made.

With an elastic elastic polymer coating, a working contact surface of the outer rotor can be made.

With an elastic elastic polymer coating, a working contact surface of the inner rotor can be made.

With an elastic elastic polymer coating, an external rotor can be made along the perimeter of its cross section.

Both rotors can be made of polymeric materials.

полученоRatio

received

experimentally.

The invention is illustrated by drawings.

Figure 1 schematically shows a longitudinal section of a trochoid rotary machine.

Figure 2 is a cross-sectional view of a trochoid rotary machine with through-holes located in the troughs of the teeth of the outer rotor.

Figure 3 is a transverse section of a trochoid rotary machine without through windows in the cavities of the teeth of the outer rotor.

Figure 4 is a longitudinal section of a trochoid rotary machine (first option).

Figure 5 is a longitudinal section of a trochoid rotary machine (second option).

A trochoidal rotor machine is placed inside the housing 1 with a cylindrical cavity 2 and suction and discharge channels 3 4 of the working medium closed laterally by end caps 5. The machine consists of an external rotor 6 with internal teeth 7, coaxially placed inside the cavity 2, and from the internal rotor 8 with external teeth 9 mounted inside the external rotor 6 with an eccentricity "e" between the axes 10 and 11 of rotation of the external rotor 6 and the internal rotor 8, respectively. The inner rotor 8 is rigidly connected to the shaft 12 by means of a dowel 13. The outer rotor 6 can be made with through windows 14 located in the cavities of its teeth 7. The teeth 9 of the inner rotor 8 are made entering the cavities of the teeth 7 of the outer rotor 6 on one side and are tightly in contact with the heads of the teeth 7 of the outer rotor 6 in a place diametrically opposite to the place of engagement with the cavities of the teeth 7 on the other hand, with the formation of the cavity 15 of the suction and cavity 16 of the discharge. The number of teeth 7 of the outer rotor 6 exceeds the number of teeth 9 of the inner rotor 8 per unit. The ring end disks 21 and 22 are adjacent to both ends 17 and 18 of the outer rotor 6 and to both ends 19 and 20 of the inner rotor 8 (each gap is about 0.05 mm), each of which is rigidly connected to the corresponding end of the outer rotor 6 to form a single part rotation. In the mating zone of each end disk 21 or 22 with the end surfaces 17, 19 or 18, 20, respectively, of the outer rotor 6 and the inner rotor 8, i.e. two O-rings 23, 24 and 25, 26 are installed on both sides of these rotors, the first of which is located in the groove of the end surface of the inner rotor 8, and the second in the groove of the disk 21 or 22 between its outer annular surface and the surface of the cylindrical cavity 2 of the housing 1. A rigid connection of the disk with the external rotor 6 can be performed both by means of separate threaded elements, for example, hairpins 27 located on the symmetry axes 28 of each tooth 7 of the external rotor 6 at the mid-height of this tooth (option 1, Fig. 4), and in between twome installation threaded ring 29, coaxial with the outer rotor 6 (option 2, figure 5). The working contact surface of both rotors of the rotational assembly or each of them can be made with an elastic elastic polymer coating. Both rotors 6 and 8 can be made entirely of polymeric materials.

A trochoid rotary machine can operate both in pump mode and in engine mode.

When operating in the hydraulic motor mode, the working fluid is supplied under pressure into the expanding working cavities 15 and drives the rotary assembly with its rotors, first driving the outer rotor 6 around its axis, and then through the internal engagement of the rotor teeth, rotating the shaft 12 . The volume of the working cavities 16 is reduced and the working fluid is displaced through them.

The implementation of the annular end disks 21 and 22, with their entire flat annular surface 26 adjacent to both ends 17 and 18 of the outer rotor 6 and the inner rotor 8 throughout the thickness (c) of this annular surface, reduces leakage by eliminating gaps and sealing the working cavities 15 and 16, increasing the efficiency of the machine.

When the machine is in pump mode, the shaft 12, which in this case is a drive shaft, drives the inner rotor 6, which, by internal engagement of its teeth 9 with the teeth 7 of the outer rotor 6, rotates the latter. When the rotors of the rotational assembly rotate, the working fluid enters the suction cavity 15, the working volume of which expands, and then from the injection cavity 16, the volume of which decreases, is displaced to the consumer. By optimizing the thickness size (s) of the flat annular surface of the end disk and by coupling the abutment surfaces of the disks with the ends of both rotors of the rotational assembly, as well as by the elastic elastic coating of the working contact surfaces of the engagement of the teeth of the rotors, sealing of the working surfaces and sealing of the chambers - working suction and discharge cavities and, consequently, the efficiency of the machine increases. Achieving increased reliability and durability of the machine is achieved by reducing the relative speeds of the working surfaces of the rotors and the end surfaces of both rotors relative to the flat annular surfaces of the disks.

Claims (14)

1. A trochoidal rotor machine containing an external rotor with internal teeth and an internal rotor with external teeth mounted inside it with an eccentricity, rigidly connected to the shaft to form working suction and discharge cavities between the teeth and depressions of both rotors, as well as ring end disks coaxial with external rotor adjacent a flat annular surface to both ends of the external and internal rotors throughout the thickness of this annular surface, characterized in that the machine is equipped with an elastic elastic poly With a black coating, the annular end disks are rigidly connected with the ends of the outer rotor with the formation of a single rotation part by means of threaded elements placed on the symmetry axes of each tooth of the outer rotor at the mid-height of this tooth, the thickness (c) of the flat annular surface of each end disc is made in accordance with ratio:

where D is the outer diameter of the outer rotor, mm, d is the diameter of the hollows of the inner rotor, mm, e - the eccentricity between the axes of rotation of the external and internal rotors, mm 2. The machine according to claim 1, characterized in that the outer rotor is equipped with through windows located in the cavities of its teeth. 3. The machine according to claim 1, characterized in that with an elastic elastic polymer coating is made working contact surface of both rotors. 4. Machine according to claim 1, characterized in that the working contact surface of the outer rotor is made with an elastic elastic polymer coating. 5. Machine according to claim 1, characterized in that the working contact surface of the inner rotor is made with an elastic elastic polymer coating. 6. Machine according to claim 1, characterized in that an external rotor is made along the perimeter of its cross section with an elastic elastic polymer coating. 7. Machine according to 1, characterized in that both rotors are made of polymeric materials. 8. A trochoidal rotor machine comprising an external rotor with internal teeth and an internal rotor with external teeth mounted inside it with an eccentricity, rigidly connected to the shaft to form working suction and discharge cavities between the teeth and depressions of both rotors, as well as ring end disks, coaxial with external rotor adjacent a flat annular surface to both ends of the external and internal rotors throughout the thickness of this annular surface, characterized in that the machine is equipped with an elastic elastic poly With a black coating, the annular end disks are rigidly connected with the ends of the external rotor with the formation of a single rotation part by means of mounting threaded rings coaxial with the external rotor, the thickness (c) of the flat annular surface of each end disk is made in accordance with the ratio:

where D is the outer diameter of the outer rotor, mm, d is the diameter of the hollows of the inner rotor, mm, e - the eccentricity between the axes of rotation of the external and internal rotors, mm 9. The machine of claim 8, characterized in that the outer rotor is equipped with through windows located in the cavities of its teeth. 10. The machine of claim 8, wherein the working contact surface of both rotors is made with an elastic elastic polymer coating. 11. Machine according to claim 8, characterized in that a working contact surface of the outer rotor is made with an elastic elastic polymer coating. 12. Machine according to claim 8, characterized in that the working contact surface of the inner rotor is made with an elastic elastic polymer coating. 13. The machine according to 8, characterized in that with an elastic elastic polymer coating made of an external rotor around the perimeter of its cross section. 14. Machine according to 8, characterized in that both rotors are made of polymeric materials.

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