RU83290U1 - VOLUMETRIC PISTON ROTARY PISTON MACHINE - Google Patents

Abstract

1. A rotary-piston volumetric action machine, comprising a composite housing, external and internal rotors with profiled surfaces installed in it with eccentricity, the ratio of the number of vertices of the inner rotor to the number of vertices of the outer rotor n is (n-1) / n, characterized in that the contour of the profiled surface of the outer rotor consists of alternating sections, one of which is the arc of circles with equal radii, the centers of which are located at equal distances from the axis of rotation of the outer rotor through equal angles between them, and the other sections are envelope curves producing for which the corresponding curved sections of the inner rotor are produced, and each circular arc is profiling for the inner rotor and the coordinates of each point of the contour of the profiled surface of the inner rotor are determined by the formulas:! ! ! where y is the angular parameter for which the coordinate is determined,! e is the distance between the axes of rotation of the rotors,! n is the number of vertices of the outer rotor,! r is the radius of the profiling circle, and r = k · e, where,! R is the distance from the axis of rotation of the outer rotor to the axis of the profiling circle, and R = (n-1) · e + K, where r≤K≤2 · r! 2. The rotary piston machine according to claim 1, characterized in that the inserts are made in the form of circular segments having the shape of straight circular cylinders. ! 3. The rotary piston machine according to claim 1, characterized in that the inserts are placed in the external rotor with the possibility of rotation around its axes. ! 4. The rotary piston machine according to claim 1, characterized in that the outer layer of the inserts is made of elastomeric material.

Description

The utility model relates to rotary machines and can be used as a pump in the oil, gas or chemical industry, as well as as a compressor, internal combustion engine or expansion machine.

Known rotor machine with internal engagement of the rotors, having in a cylindrical round casing a rotating external rotor sitting on the disk of the Central shaft, which continues on one or both sides of the disk with evenly distributed around the chambers, the inner surface of which is curved exactly along the cylinder, the radius of which is equal to double eccentricity between the inner rotor and the outer rotor. (DE patent No. 556181, 1932)

The disadvantages of the known machines are:

- excessive design complexity making it difficult to disassemble and assemble the machine;

- the engagement between the rotors is not optimal - a significant part of the torque will be spent on overcoming friction due to the fact that the radius of the inserts of the external rotor is parameterized and equal to double eccentricity;

- a small, compared with the overall volume, working volume due to the parameterization of the radius of the inserts of the external rotor equal to double eccentricity, since for different values of the number of vertices the best compactness is achieved with different ratios between the radius of the inserts of the external rotor and eccentricity.

The closest in technical essence to the proposed technical solution is a rotary-piston machine of volumetric action, with an external rotor enclosed in a housing with profiled recesses and a rotor with profiled vertices, which

contact the inner faces of the outer rotor and the faces of the inner rotor (Patent DE No. 3432915, according to CL F01C 1/10, 1987)

In a known construction, the outer and inner rotors perform a simple rotational movement each around its fixed axis.

The disadvantages of the known design are:

- the complexity of the assembly and repair of the structure, because replacement of the entire external rotor is necessary in case of wear of its internal faces;

- the presence of parasitic volume in the working chambers (the difference between the convex curve of the rotor and the outer radius of the outer rotor) reduces the working volume, because in existing parasitic volumes (for example, in a rotary machine as a compressor), already compressed air is transported back to the suction side of the machine;

- the presence of an extended cylindrical gap communicating with the working chambers causes significant leaks.

high requirements for the accuracy of manufacturing profiled surfaces of the internal and external rotors and the requirements of the corresponding minimization of the clearance in the bearings;

- the point-like nature of the contact between the rotors makes it difficult to solve the problem of sealing the radial gaps between the rotors and reduce losses due to leaks

- high requirements for a clean working environment - the presence of small solid particles leads to rapid wear of profiled surfaces, reduced machine efficiency and can lead to jamming and failure.

The tasks solved by the proposed utility model are:

creation of a design allowing, to reduce requirements for the technology of manufacturing rotors and to a clean working environment,

increase the degree of sealing of the working chambers,

to simplify its assembly and repair due to the manufacture of an external rotor by an assembly consisting of interchangeable parts;

to increase the efficiency of its work by increasing the relative working volume of the rotor chambers and changing the nature of the friction at the contact points of the rotors (transition from sliding friction to rolling friction) and increasing the area of the contact spot.

The technical result in the proposed utility model is achieved by creating a rotary-piston volumetric action machine including a composite housing, external and internal rotors with profiled surfaces installed in it with eccentricity, and the ratio of the number of vertices of the inner rotor to the number of vertices of the outer rotor is (n-1) / n, in which, according to a utility model, the contour of the profiled surface of the outer rotor consists of alternating sections, one of which are arcs of circles with equal radii, the centers of which are located at equal distances from the axis of rotation of the outer rotor through equal angles between them, and the other sections are envelope curves that produce the corresponding curved sections of the inner rotor, and the circular arcs are profiling for the inner rotor, and the coordinates of each point on the profiled surface the internal rotor is determined by the formulas:

Where:

ψ is the angular parameter for which the coordinate is determined,

e is the distance between the axes of rotation of the rotors,

n is the number of vertices of the outer rotor,

r is the radius of the profiling circle, and r = k × e, where

R is the distance from the axis of rotation of the outer rotor to the axis of the profiling circle, and R = (n-1) × e + K, where r≤K≤2 × r

The implementation of the insert in the form of circular segments in the form of straight circular cylinders allows the manufacture of inserts from expensive and / or difficult to process materials, for example, from elastomers, ceramics, composite materials - therefore, to simplify the manufacture and increase the degree of sealing of the chambers.

Placing the inserts in the external rotor with the possibility of rotation around their axes allows to reduce friction losses between the rotors and, accordingly, the wear of the contacting surfaces, therefore, increases the life of the machine and its efficiency.

The manufacture of the surface layer of a cylindrical insert from elastomeric materials allows you to:

- lower technological requirements for the design to compensate for manufacturing errors;

- the fundamental possibility of the rotor-piston machine working on working fluids with small mechanical impurities. For example, when using RPM as a water pump, it is possible to allow the presence of small particles of sand in the pumped water, which in the contact zone will be pressed into the elastic surface layer of the cylindrical insert and emitted at the exit of the contact zone;

- to increase the degree of sealing of the working chambers, due to a significant increase in the area of the contact spot.

The proposed design allows to increase the efficiency and service life of the rotary piston volumetric machine, to improve consumer qualities.

Patent studies have shown that there are no known technical solutions with the indicated set of essential features,

in similar designs of rotary machines, i.e. the proposed solution meets the criterion of "novelty."

We believe that the information set forth in the application materials is sufficient for the practical implementation of the invention.

The proposed rotary piston volumetric type machine is illustrated by the following design description and drawings, where

Figure 1 - shows a longitudinal section of a rotary piston volumetric machine with an external rotor, the profiled surface of which is made of alternating sections (n = 4);

In Fig.2 - shows a section aa of Fig.1.

Figure 3 - shows a cross section of a rotary piston volumetric action machine, in which each segment of the circumference of the profiled surface of the outer rotor is formed by a part of the cylindrical surface of the insert installed in the outer rotor;

Figure 4 - shows a cross section of a rotary piston machine, in which the inserts in the outer rotor are made in the form of straight circular cylinders;

Figure 5 - shows a cross section of a rotary piston machine, in which the inserts in the outer rotor are rotatably arranged around their axes, and the outer layer of the inserts is made of elastomeric material.

A rotary-piston volumetric machine, including a composite housing 1, a shaft 2 installed therein with an external rotor 3 and with an eccentricity, an internal rotor 4 with profiled surfaces, systems for supplying and discharging the pumped medium 5, made in the front cover 5 (Fig. 1 and Fig. .2).

The casing has covers 6. in which the inner 4 and outer 3 rotors are installed.

External 3 and internal 4 rotors perform with profiled surfaces.

The external rotor 3 is prefabricated: one part of it is the base of the rotor, which is rigidly fixed to the drive shaft, and the second part is n identical inserts.

The contour of the profiled surface is made of alternating sections, one of which are arcs of circles 7 having the same radii, the centers of which are evenly spaced at the same distance from the axis of rotation of the outer rotor, and the other sections 12 are envelope curves producing for which the corresponding curved sections of the inner the rotor, and the segments of the circles 7 are profiling for the contour of the inner rotor.

Profile surfaces of the external and internal rotors form the working chambers of variable volume 8.

In the proposed rotary-piston volumetric action machine, the execution of the sections of the external rotor along the arcs of circles 7 can be different and depends on specific technological conditions.

Each element of the profiled surface of the outer rotor 3, the contour of which is an arc of a circle 7, can be formed by a part of the cylindrical surface of the insert 9 installed in the outer rotor 3 (Fig. 2 and Fig. 3).

Insert 9 can be made in the form of straight circular cylinders (figure 2 and figure 4).

The insert 9 can be placed in the outer rotor with the possibility of rotation around its axes 10 (figure 2, figure 5).

Depending on the technological requirements, the inserts can be made with an outer layer 11 of elastomeric material.

The system for supplying and discharging the pumped medium 5 can be performed in the covers 6 and / or in the housing 1.

At relatively low flow rates of the pumped medium, in order to minimize losses in the form of leaks from the discharge path to the suction path, the system is located in the covers.

At flow rates at which hydraulic losses during bends significantly affect the efficiency of the machine, the radial distribution through the housing 1 is more optimal.

The operation of a rotary piston volumetric machine is as follows:

By turning on the engine (not shown), the shaft 2 is rotated with the external rotor 3. When the external rotor 3 is rotated, the profiled surface, which is rigidly connected to the external rotor 3, is in contact with the profiled surface of the internal rotor 4, the latter due to this rotates in the same direction as the outer rotor 3, respectively, with an angular velocity of (n-1) / n greater than the discharge. In this case, the volumes of the working chambers 8 are sequentially changed.

In the process, each camera 8 cyclically changes its volume from the minimum value to the maximum and vice versa.

The system for supplying and discharging the pumped medium is organized in such a way that provides communication of the chambers 8 with a decrease in volume with a discharge path, and with an increase in volume with a suction path.

Thus, the pumping of fluid from the suction path to the discharge path is ensured.

A prototype of the proposed rotary-piston volumetric action machine was manufactured and tested.

The design has the following parameters: rotor profiles with the number of vertices of the outer rotor 3 equal to 4 (n = 4), and the number of vertices of the inner rotor 4 equal to 3, the outer rotor has cylindrical inserts 11 with a surface layer 15 of elastomer (figure 3); pumped liquid - industrial water, capacity - 45 m ³ / h, head - 50 meters of water column, installed pump drive power - 3 kW.

By its characteristics, the machine surpasses the prototype:

- allows you to adjust the water flow without pressure drop by changing the speed;

- has a large overhaul resource;

- allows the presence of small mechanical impurities in the pumped medium;

- it is technologically simple and has smaller dimensions than the machines currently in operation (for example, multistage centrifugal pumping units).

Claims (4)

1. A rotary-piston volumetric action machine, comprising a composite housing, external and internal rotors with profiled surfaces installed in it with eccentricity, the ratio of the number of vertices of the inner rotor to the number of vertices of the outer rotor n is (n-1) / n, characterized in that the contour of the profiled surface of the outer rotor consists of alternating sections, one of which is the arc of circles with equal radii, the centers of which are located at equal distances from the axis of rotation of the outer rotor through equal angles between them, and the other sections are envelope curves producing for which the corresponding curved sections of the inner rotor are produced, and each circular arc is profiling for the inner rotor and the coordinates of each contour point of the profiled surface of the inner rotor are determined by the formulas:

where y is the angular parameter for which the coordinate is determined, e is the distance between the axes of rotation of the rotors, n is the number of vertices of the outer rotor, r is the radius of the profiling circle, and r = k · e, where

, R is the distance from the axis of rotation of the outer rotor to the axis of the profiling circle, and R = (n-1) · e + K, where r≤K≤2 · r 2. The rotary piston machine according to claim 1, characterized in that the inserts are made in the form of circular segments having the shape of straight circular cylinders. 3. The rotary piston machine according to claim 1, characterized in that the inserts are placed in the external rotor with the possibility of rotation around its axes. 4. The rotary piston machine according to claim 1, characterized in that the outer layer of the inserts is made of elastomeric material.