RU189663U1 - MEASURING ELEMENT OF DENSITY CONVERTER - Google Patents

Abstract

The invention relates to a measuring element of a density converter for liquid media and can be used in the petrochemical industry to measure the density of oil and oil products in a stream. The measuring element of the density converter contains a length between two cylindrical ballasts, made of an alloy with a weak dependence of the elastic modulus on temperature, and having an oval-shaped resonator tube in the working section, the ends of which are welded with series-connected inner sleeve, compensating bellows and outer sleeve, large glasses , put on the resonator tube and fixed on the inner core sleeves, and small glasses, connected to the outer sleeves, the bellows have the number of corrugations and sl s equal to three and the resonator tube is formed from the aged 44NHTYU brand alloy. The technical result of the utility model is to increase the stability of the design of the measuring element of the density converter when the temperature changes from -50 to 70 ° C, when the pressure of oil or oil products changes 6-8 MPa, as well as under the influence of external mechanical influences. 1 ill., 1 tab.

Description

The invention relates to a measuring technique, namely, to a measuring element of a density converter for liquid media and can be used in the petrochemical industry to measure the density of oil and oil products in a stream in a continuous mode.

Known measuring element flow density density converter, disclosed in the technical solution “Liquid Density Sensor” (GB 2062865 B, publ. 07/07/1984), containing a resonator tube, extended between two cylindrical nodal masses, at the ends of which, are attached with a detachable connection the number of corrugations equal to 7, having flanges. The resonator tube of the measuring element is made of Ni-Span-C alloy (constant modulus of elasticity in the temperature range from -45 ° C to 65 ° C), while the pipe has a small degree of ellipticity with a smaller axis of the ellipse parallel to the direction of vibration. A disadvantage of the known device is that the bellows do not compensate for lateral displacements resulting from external mechanical effects from the pipe with the measured liquid medium, since the bellows are rigidly fixed to the support washer using a fixing sleeve and pins. In addition, the bellows is irreversibly deformed at an elevated pressure of the controlled medium from 4 MPa, since it has a low transverse rigidity without special hardening.

The closest in technical essence (prototype) is a measuring element of a density converter, presented in the model of the Solartron 7835 sensor (http: //промкаталог.рф/PublicDocuments/02-0072-02.pdf), containing a resonator tube, extended between two cylindrical ballasts, the ends of which are welded with a series-connected inner sleeve, bellows and outer sleeve, as well as containing large glasses, resonator tubes mounted on the tube and fixed on the inner sleeve and small glasses connected to the outer sleeve. The resonator tube is made of Ni-Span-C alloy (constant modulus of elasticity in the temperature range from -45 ° C to 65 ° C) and has an oval shape. The bellows are made of stainless steel 316L according to the ANSI standard with the number of corrugations equal to five. All connections in the measuring element are welded. A disadvantage of the known device is the design of the bellows, which is subjected to transverse irreversible deformation at a pressure of the controlled medium of more than 4 MPa, which leads to a decrease in the compensating ability of the bellows and a change in the oscillation frequency of the resonator tube, therefore, leads to a systematic measurement error. In turn, at pressures above 6 MPa, the bellows stop compensating for external mechanical effects. The disadvantages also include an insufficiently wide temperature range from -45 ° C to 65 ° C, in which the elastic modulus of the alloy from which the resonator tube is made remains almost unchanged.

The task, which the proposed utility model is intended to solve, is to increase the stability of the structure, under conditions of varying temperature, pressure of the controlled medium (oil and oil products) and external mechanical influences, which affects the accuracy of density measurements.

The technical result of the utility model is to increase the stability of the design of the measuring element of the density converter when the temperature changes from -50 ° C to 70 ° C, when the pressure of oil or oil products changes 6-8 MPa, as well as under the influence of external mechanical influences (vibrations).

The technical result of the utility model is achieved due to the fact that the measuring element of the density converter contains a length between two cylindrical ballasts, made of an alloy with a weak dependence of the elastic modulus on temperature and having an oval shape in the working part, a resonator tube, the ends of which are welded with series-connected sleeves internal, bellows and outer sleeve; the glasses are large, worn on the resonator tube and fixed on the inner sleeves and small glasses connected to the outer sleeves, characterized in that the bellows have a number of corrugations and layers equal to three, and the resonator tube is made of aged alloy 44HHTY.

The measuring element uses three-layer bellows with the number of corrugations equal to three, made of heat-resistant stainless steel 08Х18Н10Т, which have transverse stability under conditions of varying pressure of the controlled medium up to 8 MPa, without special strengthening, which allows to ensure the deviation of the oscillation frequency of the resonator pipe not more than 1.7 Hz from natural frequency. The number of corrugations and layers equal to three provides the elasticity of the bellows, necessary to avoid irreversible (inelastic) deformation, which leads to a change in the natural frequency of the resonator tube, and, therefore, introduces a systematic error in the density measurement. Also, the used bellows provide optimal heat and vibration insulation of the resonator tube (insulation from external influences). A smaller number of corrugations in the bellows increases lateral stiffness, which reduces vibration insulation.

In the proposed measuring element, the resonator tube has the shape of an oval, which helps compensate for the influence of the pressure of oil or oil products on the natural frequency of the tube, which has a functional relationship with the density of the controlled medium.

The resonator tube is made of an aged alloy of 44НХТЮ brand, which has a weak dependence of the elastic modulus in the temperature range from -50 ° C to 150 ° C and a high elastic limit (not less than 650 MPa), which provides a resonator tube oscillation with a deviation of not more than 0.2 Hz from natural frequency.

The essence of the utility model is illustrated graphics.

FIG. 1 shows a general view of the measuring element of the proposed utility model in a longitudinal section, in which positions have the following designations: 1 - resonator tube, 2 - cylindrical ballast, 3 - inner sleeve, 4 - bellows, 5 - outer sleeve, 6 - small glass, 7 - a large glass.

The declared measuring element of a density converter contains one resonator tube (1), which has an oval shape in the working section, with a ratio of minor and major oval axes equal to 5/6 ± 0.1, extended between two cylindrical ballasts (2), the ends of which are connected by argon-arc welding by means of a T-seam circumferentially with series-interconnected electron beam welding with an inner sleeve (3), bellows (4) made of heat-resistant stainless steel 08X18H10T and an outer sleeve (5); and also contains small glasses (6) connected to external sleeves (5) by means of argon-arc welding and large glasses (7), previously placed on the resonator tube (1) and fixed on internal sleeves (3) by means of argon-arc welding.

Resonator tube (1) is made of aged alloy 44HHTY alloy. The inner sleeve (3) has a groove on the installation side of the resonator tube (1), which ensures the fit of the tube into the sleeve to a depth of 4-6 mm in order to secure coaxial fixation during the assembly of the measuring element.

The measuring element is used in a flow density converter of oil and petroleum products.

The measuring element of the density converter works as follows: Oil or petroleum products flows through an external (5) sleeve, a bellows (4) and an internal sleeve (3), a resonator tube (1) extended between two cylindrical ballasts (2) connected in series. The device excites and maintains continuous transverse oscillations of the resonator tube (1) at the second natural frequency. Then, the values of the resonance frequency, temperature and pressure are fixed by the electronic module of the flow density converter, and transmitted to the computing complex, where the density value is calculated, which has a functional dependence on the value of the second natural vibration frequency of the resonator tube.

When the temperature changes from -50 ° C to 70 ° C, when the pressure of oil or oil products changes 6-8 MPa, as well as under the influence of external mechanical influences (vibrations), the deviation of the natural frequency of the resonator tube oscillations is 1.5-1.9 Hz, and the irreversible lateral displacement of the bellows, relative to its longitudinal axis, of the declared measuring element of the density converter, is zero in accordance with the test results presented in the table, where 1 is the bellows used in the prototype, and 2 is the bellows of the claimed meter th density transducer element.

Thus, on the basis of the above data, it can be seen that the resonator tube and the bellows are elastically deformed, ensuring the stability of the whole structure of the measuring element of the density converter under the specified conditions.

The error in measuring the density of oil or oil products using a flow density converter using the declared measuring element is 0.25 kg / m ³ . To further increase the accuracy of the density measurement, correction factors can be introduced.

The use of technical solutions proposed in the claimed measuring element of the density converter, namely the bellows with the number of corrugations and layers equal to three without special hardening and the resonator tube made of aged alloy 44HHTY allows to achieve stability of the structure with varying temperature, pressure controlled environment and external mechanical effects.

Claims (1)

A measuring element of a density converter, containing a length between two cylindrical ballasts, made of an alloy with a weak dependence of the elastic modulus on temperature, and having an oval tube in the working section, a resonator tube, the ends of which are welded with a series-connected inner sleeve, compensating bellow and outer sleeve; the glasses are large, worn on the resonator tube and fixed on the inner sleeves, and the small glasses are connected to the outer sleeves, characterized in that the bellows have a number of corrugations and layers equal to three, and the resonator tube is made of an aged alloy of 44НХТЮ.