RU2249794C2 - Device for supplying fluid and measuring fluid flow rate - Google Patents

Abstract

FIELD: measuring engineering.

SUBSTANCE: device comprises housing which receives rotor with blades and three same separating rollers. The rotor and rollers are kinematically interconnected through a gear transmission. The rollers have spaces which receive rotor blades. To return the fluid to the site of supplying, the main and additional separating chambers are provided between the rollers and inner side of the housing. When fluid flows, the separating roller mounted at the outlet copies the movements of the roller at the site of fluid supply. The number of revolution indicates the flow rate.

EFFECT: enhanced accuracy of measuring.

1 dwg

Description

The invention relates to the field of motors that feed the medium to its place of consumption, and can be used to measure the flow rate of the same medium supplied.

A known method of supplying and measuring the flow rate of a medium with a vertical vane rotor (rotor with blades) {see in the book. [1] A.S. Telegin and V.G. Avdeeva. Heat engineering and heating devices. M .: Engineering, 1985, pp. 226-227}.

A disadvantage of the known method of feeding and measuring the flow rate of the medium is the rather low quality of the flow and measuring the medium at the place of its consumption, including low reliability and accuracy of measuring the flow rate of the medium, caused mainly by the fact that the rotor with blades during its movement returns the medium measured by the flow meter to place of filing.

The closest in technical essence to the claimed method is the selected as a prototype method of supplying and measuring the flow rate of the medium, including unidirectional movement of the medium due to the movement of the rotor with blades, the axis of which energy is removed, the number of revolutions is measured and the flow rate of the flowing medium is determined, and the functioning of the main separation chamber created in the volume between the outer surfaces of the two separation rollers, the rotor and the inner surface of the housing of the medium supply device, while the function The main separation chamber is based on the synchronous operation of the gear transmission of the rotor kinematically connected with each other and two separation rollers rolling along the cylindrical surface of the rotor so that each rotor blade enters the cavity of the corresponding separation roller at the right time, preventing the medium from slipping to the place of its supply {cm . in the book. [2] O. Serdnev. Motor of rare properties. Inventor and Rationalizer, 1990, No. 9, pp. 8-9}.

The disadvantage of this method of filing and measuring the flow rate of the medium, selected as a prototype, are the same disadvantages that exist in the above analogue.

The aim of the invention is to improve the quality of the feed and measure the flow rate of the medium at the place of consumption.

This goal is achieved by the fact that in the method of feeding and measuring the flow rate, including unidirectional movement of the medium due to the movement of the rotor with blades, the axis of which energy is removed, the number of revolutions is measured and the flow rate of the flowing medium is determined, and the functioning of the main separation chamber created in the volume between the external the surfaces of the two separation rollers, the rotor and the inner surface of the housing of the medium supply device, while the functioning of the main separation chamber is based on synchronous the gear of the gear transmission of the kinematically connected rotor and two separation rollers rolling along the cylindrical surface of the rotor so that each rotor blade at the right moment enters the cavity of the corresponding separation roller, preventing the medium from slipping to its feed point, create an additional separation chamber, which is formed in as a result of installation in the internal volume of the housing of the medium supply device closer to its output of the third separation roller, which has the same shape as all other dividing rollers, and repeats the movements of the first dividing roller, which is closer to the medium supply point, while ensuring synchronous operation and kinematic connection between all dividing rollers and the rotor due to the rolling surfaces of the dividing rollers on the rotor surface so that the medium captured by the internal cavities of the dividing rollers, falling into the internal volumes of the separation chambers will always strive to equalize the pressure of the medium in these chambers, and the values of the external pressure of the medium in these separation chambers will always be enough to completely block the leakage of the medium to the place of its supply.

In the study of other well-known technical solutions in this technical field that distinguish the claimed invention from the prototype, it has not been identified and therefore the established fact provides the claimed technical solution with the criterion of "significant differences".

A comparative analysis of the proposed technical solution and prototype allowed us to establish the conformity of the proposed solution and prototype to the criterion of "novelty."

This claimed solution allows you to get rid of all the shortcomings that correspond to the prototype, and to improve the quality of the feed and measure the flow rate of the medium in the place of its consumption due to the additional connection to the well-known methods specified in the prototype, new methods that carry out the action, which in a single inventive concept reveal the essence of the claimed inventions and its features "significant differences":

1st sign: create an additional separation chamber, which is formed as a result of installation in the internal volume of the casing of the medium supply device closer to its output of the third separation roller,

2nd (second) symptom: the third separation roller has the same shape as all other separation rollers, and repeats the movements of the first separation roller, which is closer to the medium feed point,

wherein

3rd sign: synchronous operation and kinematic connection between all dividing rollers and the rotor is ensured due to the rolling of the surfaces of the dividing rollers on the rotor surface

so that

4th sign: the medium trapped by the internal cavities of the separation rollers, which enters the internal volumes of the separation chambers, will always strive to equalize the pressure of the medium in these chambers, and the equalized pressure of the medium in these separation chambers will always be sufficient to completely block the slip of the medium to the place her filing.

The invention is illustrated in the drawing, which shows a functional diagram of the implementation of the method.

The implementation of the proposed method is illustrated by a device that contains a hollow body 1, the inlet pipe 2 and the outlet pipe 3 mounted on its outer part, a rotor 4 with blades and spacer rollers 5, 6 and 7, while the rotor 4 with blades and spacer rollers 5, 6 and 7 are installed inside the housing 1 coaxially with each other, so that the surface of the rotor 4 with blades rolls along the surface of the separation rollers 5, 6 and 7, it should be noted that the hollow housing 1 of the medium supply device is a prefabricated structure, in which prefabricated the elements and parts are fixed to each other on the mounting pins 8 using connecting bolts 9.

The invention is illustrated as follows.

At the input of the device for supplying and measuring the flow rate, a medium is supplied through the supply inlet pipe 2, which inside the housing 1 has unidirectional motion due to the rotational movement of the rotor 4 with blades, the axis of which energy is removed, the number of revolutions is measured and the flow rate of the flowing medium is determined, with the camera, created in the volume between the outer surfaces of the two separation rollers 5 and 6, the rotor 4 and the inner surface of the housing 1 of the device for feeding and measuring the flow rate of the medium, blocks the return of medium to the place of its supply due to the fact that the operation of the main separation chamber is based on the synchronous operation of the gear drive of the kinematically connected rotor 4 and two separation rollers 5 and 6, rolling along the cylindrical surface of the rotor 4 so that each rotor blade 4 at the right time enters the cavity of the corresponding dividing roller 5 and 6, preventing the medium from slipping to the place of its supply.

In order to improve the quality of the supply and consumption of the medium at the place of its consumption, new signs of "significant differences" are added to the known features of the prototype:

1st sign: create an additional separation chamber, which is formed as a result of installation in the internal volume of the housing 1 of the medium supply device closer to its output of the third separation roller 7,

2nd characteristic: the third separation roller 7 has the same shape as all other separation rollers 5 and 6, and repeats the movements of the first separation roller 5, which is closer to the place of medium supply,

wherein

3rd sign: synchronous operation and kinematic connection between all dividing rollers 5, 6 and 7 and rotor 4 are provided due to the rolling of the surfaces of the dividing rollers on the rotor surface

so that

4th sign: the medium captured by the internal cavities of the separation rollers 5, 6 and 7, which enters the internal volumes of the separation chambers, will always strive to equalize the pressure of the medium in these chambers, and the values of the equalized pressure of the medium in these separation chambers will always be enough to completely block slipping of the medium to the place of its supply.

EXAMPLE OF IMPLEMENTATION OF THE METHOD

As a device that implements a method of feeding and measuring the flow rate of the medium, we used the device for feeding and measuring the flow rate of the medium, shown in the drawing, in which the rotor 4 had a diameter of its cylindrical part of 60 mm, four blades 10.5 mm high and the length of the working part of each rotor blades 4 in a size of 30 mm, each dividing roller 5, 6 and 7 had a diameter of 30 mm and two cylindrical recesses symmetrical to each other, each of which in turn had a corresponding diameter of 22.4 mm and a lengthStatic preparation portion of 30 mm.

When the device for supplying and measuring the flow rate of the medium specified in this example reaches 1000 rpm, this device, respectively, ensured that the medium passed through it at a rate of 69.371 l / s with a flow measurement error of 0.01%, and it turned out that By accurately measuring the number of revolutions of the rotor 4 of the feed and flow measuring device, it is possible to judge with accuracy less than 0.01% the amount (flow) of the medium flowing through the internal cavities of the same device.

The inventive method allows you to get rid of all the disadvantages inherent in the prototype, and also allows you to effectively combine the optimal conditions for supplying the medium to the place of its consumption and the conditions for accurately measuring the amount (flow) of the flowing medium at the place of its consumption, which will significantly increase the efficiency of automation of technological processes, the work of which will use technical devices selected by the claimed method.

Claims (1)

A method of supplying and measuring the flow rate, including unidirectional movement of the medium due to the movement of the rotor with blades, the axis of which energy is removed, the number of revolutions is measured and the flow rate of the flowing medium is determined, and the functioning of the main separation chamber created in the volume between the outer surfaces of the two separation rollers, the rotor and the inner surface of the housing of the medium supply device, while the functioning of the main separation chamber is based on the synchronous operation of the gear transmission kinematically connected interconnected rotor and two separation rollers rolling along the cylindrical surface of the rotor so that each rotor blade at the right time enters the cavity of the corresponding separation roller, preventing the medium from slipping to its place of delivery, characterized in that they create an additional separation chamber, which is formed in as a result of installation in the internal volume of the housing of the medium supply device closer to its output of the third separation roller, which has the same shape as all other separation rollers iki, and repeats the movements of the first dividing roller, which is closer to the medium supply point, while ensuring synchronous operation and kinematic connection between all dividing rollers and the rotor due to the rolling of the surfaces of the dividing rollers on the rotor surface so that the medium trapped by the internal cavities of the dividing rollers into the internal volumes of the separation chambers, it will always strive to equalize the pressure of the medium in these chambers, and the values of the equalized pressure with Food in these dividing cells will always be enough to completely block the overshoot protection to the place of its filing.