RU185539U1 - SENSOR MOUNTING NODE IN THE FLOWING PART OF THE VORTEX FLOW METER - Google Patents

Abstract

The utility model relates to flow measurement means, in particular, to structural elements of vortex flowmeters. The sensor attachment site in the flow part of the vortex flowmeter contains a boss in the form of a cylinder with an internal threaded part secured by welding in a blind hole of a thick-walled cylindrical body of the flowmeter to secure an electronic unit with an external thread in it and with a central hole in which the piezoelectric vortex sensor is located, fixed in it by means of a hexagonal head provided with an upper part and having an external thread of a cylindrical clamp in its lower part with sealing the junction of the sensor with the housing by means of a metal gasket of rectangular cross section and sealing the internal cavity of the assembly, the rack of the electronic unit is thin-walled and provided with two diametrically opposite flats to provide the necessary tightening torque in the boss, which is thick-walled in its lower part, while the diameter of the central holes in its upper third, where the stand is screwed and the upper part of the clamp is located, about twice the diameter of the hole in its middle part, where the lower part of the clamp is fixed with a thread, the stand and clamp are fixed relative to the boss in the threaded connections and the internal cavity of the assembly is sealed with a weak anaerobic adhesive-sealant, on the one hand, a through longitudinal cylindrical hole is made behind the clamp in the thick wall of the boss and coaxial underneath with it a blind hole in the body of the flowmeter in which the temperature sensor is installed. The technical result consists in expanding the operational capabilities of the vortex flowmeter by providing the possibility of installing a temperature sensor in it. 1 ill.

Description

The utility model relates to flow measurement means, in particular, to the structural elements of vortex flowmeters, and can be used in measurement technology to measure the flow of gases or a liquid medium.

Known sensor mount in the flow part of the vortex flowmeter, developed, manufactured by JSC "Dimet" and selected as a prototype (See Appendix).

The known mounting unit is represented by the welded construction of the housing 1 and two concentric bosses: the inner 2 and the outer 3. The inner boss 2 is used to center and fix the sensor 4 by pressing 5 through two bushings 6 and 7, the outer boss 3 - for fixing the rack 8 and sealing the inner the cavity of the assembly with a sealing rubber ring 9. The seal of the joint of the sensor 4 with the housing 1 occurs by means of a steel strip 10 of rectangular cross section, the outer diameter of which is comparable with the outer diameter of the sensor .

At the same time, the rack of the electronic unit has a considerable thickness with a large internal hole for the internal boss, in which the clip for the sensor is fixed.

The placement of the inner boss in the outer boss, in which the sensor is fixed by means of the clamp, and the execution of the thick-walled electronic block rack, together with the presence of several sealing elements and the difficulty of articulating the clamp surfaces, the inner and outer bosses, do not allow placing a thermometric sensor in the assembly, thereby limiting operational capabilities instrument.

A disadvantage of the known sensor mounting assembly is the very complex assembly design, the presence of two concentric welds, a large number of elements and the inability to install a thermometric sensor due to these circumstances, which narrows the device’s operational capabilities.

The objective is to expand the operational capabilities of the vortex flowmeter by providing the ability to install a temperature sensor in it.

The problem is solved in that in the sensor attachment point in the flow part of the vortex flowmeter, which includes a boss in the form of a cylinder with an internal threaded part secured by welding in a blind hole of a thick-walled cylindrical body of the flowmeter to fix the electronic unit rack equipped with external thread and with the central hole in which the piezoelectric vortex sensor is located, fixed in it by means of a hexagonal head provided in the upper part and having parts of the external thread of the cylindrical clamp with the seal of the joint of the sensor with the housing by means of a metal strip of rectangular cross section and sealing of the internal cavity of the assembly, ACCORDING TO THE USEFUL MODEL, the rack of the electronic unit is thin-walled and equipped with two diametrically opposite flats to provide the necessary tightening torque in the boss, which is made of thick-walled in its lower part, while the diameter of the central hole in its upper third, where the stand is screwed and the upper part is located l of the clamp, approximately twice as large as the diameter of the hole in its middle part, where the lower part of the clamp is fixed with the help of a thread, fixing the stand and clamp relative to the boss in the threaded joints and sealing the internal cavity of the assembly with a weak anaerobic adhesive-sealant, on the one hand, behind the clamp a through longitudinal cylindrical hole is made in the thick wall of the boss, and under it is a blind hole coaxial with it in the flowmeter body, in which the temperature sensor is installed.

The use of only one boss made of thick-walled in the mount, with the above ratios of its dimensions in height and diameter of the hole in it, in conjunction with the thin-walled electronic rack with the above seal and fixing the threaded connection of the rack and clamp and sealing the internal cavity of the node with a weak anaerobic adhesive-sealant allows you to perform a longitudinal through hole in one of the side walls of the boss and install a temperature sensor in it to measure the temperature ur ur.

EFFECT: provision of the possibility of installing a temperature sensor in the sensor attachment node.

The inventive sensor mount in the flow part of the vortex flowmeter has a novelty in comparison with the prototype, differing from it in such essential features as the execution of the electronic block rack thin-walled, supplying it with two diametrically opposite flats to ensure the necessary tightening torque in the boss, making the boss thick-walled in its lower parts with the diameter of the central hole in its upper third, where the stand is screwed and the upper part of the clamp is located, approximately twice the diameter of the hole rstia in its middle part, where the lower part of the clamp is fixed using thread, fixing the stand and clamp relative to the boss in the threaded joints and sealing the internal cavity of the assembly with a weak anaerobic adhesive-sealant, performing a through longitudinal cylindrical clamp on the thick side of the boss holes, and under it - a blind hole coaxial with it in the body of the flowmeter, in which a temperature sensor is installed, which together ensure the achievement of a given result.

The inventive mounting unit can be used in measuring equipment, in particular, in flow measurement, and therefore meets the criterion of "industrial applicability".

The utility model is illustrated in the drawing, which shows a General view of the structure in section.

The sensor mount in the flow part of the vortex flowmeter is a partially collapsible design consisting of a boss 1 inserted into the housing 2, clamp 3, rack 4 of the electronic unit, a piezoelectric sensor 5 of the vortices, a temperature sensor 6 and a copper strip 7. The boss 1 is made of thick-walled its lower part and is a cylinder having a central hole 8 for positioning the vortex sensor 5, an internal threaded part 9 for securing the strut 4, and an internal threaded part 10 for screwing the clamp 3. The boss 1 is rigidly fixed by welding in a blind hole in the housing 2 having the form of a thick-walled pipe. In this case, the outer diameter of the boss 1 is commensurate with the corresponding diameter of the hole in the housing 2. The diameter of the central hole of the boss 1 in its upper part, where the stand is screwed and the upper part of the clamp 3 is located, is approximately twice as large as the diameter of the hole in its middle part, where the lower part of the clamp 3. The sensor 5 is fixed by screwing the clamp 3 into the corresponding internal threaded part 10 of the boss 1. The clamp 3 is a cylinder with an external thread 11 and a hexagonal head 12. Seal The junction of the sensor 5 with the housing 2 occurs by means of a metal strip 7 of rectangular cross section, the outer diameter of which is comparable with the outer diameter of the sensor 5. The wing of the sensor 5 is oriented in the direction of the measured medium flow in the housing 2 using specialized equipment during assembly of the assembly (not shown in the drawing ) To enter the sensor 6, which measures the temperature of the internal environment in the flow part, two coaxial holes are provided in the boss 1 and in the housing 2: through 13 and blind 14, respectively. To improve the heat transfer of the sensor 6, thermal grease is used. The rack 4 of the electronic unit is a thin-walled pipe of small diameter with an external thread 15 on the side of the flow part and two diametrically opposite flanges 16 to provide the necessary torque for the rack 4 in the inner threaded part 10 of the boss 1. To seal the internal cavity of the assembly structure, as well as fix the rack 4 and clip 3 relative to the boss 1 in threaded joints, a weak anaerobic adhesive sealant is used, which ensures the dismountability and maintainability of the structure.

In comparison with the prototype of the inventive site provides the ability to install in addition to the sensor vortices of the temperature sensor, thereby expanding the operational capabilities of the device.

Claims (1)

A sensor attachment site in the flow part of the vortex flowmeter, including a boss in the form of a cylinder with an internal threaded part secured by welding in a blind hole in a thick-walled cylindrical body of the flowmeter to fasten an electronic unit with an external thread in it and with a central hole in which the piezoelectric vortex sensor, fixed in it by means of a cylindrical head provided with a hexagonal head in the upper part and having an external thread in its lower part of the clamp with sealing the junction of the sensor with the housing by means of a metal gasket of rectangular cross section and sealing the internal cavity of the assembly, characterized in that the rack of the electronic unit is thin-walled and provided with two diametrically opposite flanges to provide the necessary tightening torque in the boss, which is made thick-walled in its lower part while the diameter of the Central hole in its upper third, where the stand is screwed and the upper part of the clamp is located, is approximately twice the diameter from a verst in its middle part, where the lower part of the clamp is fixed with thread, fixing the stand and clamp relative to the boss in the threaded joints and sealing the internal cavity of the assembly is performed using a weak anaerobic adhesive-sealant, on the one hand, a through longitudinal clamp is made behind the clamp in the thick wall of the boss a cylindrical hole, and under it - a blind hole coaxial with it in the flowmeter housing, in which the temperature sensor is installed.

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