RU195766U1 - Vortex Flowmeter Housing - Google Patents

Abstract

This utility model relates to techniques for measuring fluid flow. The technical result consists in expanding the technological capabilities of mounting the rack under the electronic unit, as well as in expanding the arsenal of technical means. To achieve this result, a casing of a vortex-acoustic flowmeter is proposed, made in the form of a pipe 1 with a narrowing 2 of its internal clearance, having two recesses 3 on the opposite external sides of the pipe with a through hole in each for installing the corresponding acoustic path element and containing a flow body 4 fixed perpendicular to the axial line 5 of the pipe so that its projection in the direction of this axial line is orthogonal to the line connecting the centers of both recesses 3, while on the outside of the pipe 1 is installed claimed fastening means 10 intended for fixing the rack 30 under the electronic meter unit. 7 ill.

Description

The technical field to which the utility model relates.

This utility model relates to techniques for measuring the flow rate of fluids such as liquids or gases, and more particularly, to the body of a vortex-acoustic flowmeter.

State of the art

A vortex-acoustic flow meter is known, on the body of which a yoke with holes for wearing acoustic path elements is placed, and inside the body orthogonally to a line connecting the centers of these holes, a flow body is fixed perpendicular to the center line of the body, in addition, the flow meter contains an electronic unit connected wires with elements of the acoustic path and located at a distance from the body of the flow meter (US patent No. 5747701, publ. 05/05/1998).

The disadvantage of this flow meter is the complexity and inconvenience of use due to the remote placement of the electronic unit and the need to manufacture a separate yoke worn on the body.

The closest analogue is the body of the flowing part of the vortex-acoustic flowmeter, made in the form of a pipe with a narrowing of its internal lumen, having two recesses on the opposite external sides of the pipe for installing acoustic path elements and containing a flow body fixed perpendicular to the pipe axial line so that its projection in the direction this axial line is orthogonal to the line connecting the centers of both recesses, while on the outside of the pipe there is a circular recess for fastening the rack along d electronic unit (RF patent for utility model No. 184555, publ. 30.10.2018).

The disadvantage of this technical solution is the very narrowed technological ability to mount the rack under the electronic unit.

Utility Model Disclosure

The objective of this utility model is to overcome the drawback of the closest analogue to achieve a technical result in the form of expanding the technological capabilities of mounting the rack under the electronic unit, as well as expanding the arsenal of hardware.

To solve this problem and achieve the indicated technical result, the present utility model proposes the body of a vortex-acoustic flowmeter, made in the form of a pipe with a narrowing of its internal lumen, having two recesses on the opposite external sides of the pipe with a through hole in each for installing the corresponding element of the acoustic path and containing a body a flow around, fixed perpendicular to the axial line of the pipe so that its projection in the direction of this axial line is orthogonal to the line connecting the three recesses, while on the outside of the pipe there is a mounting tool designed to fix the rack under the electronic flowmeter unit.

A feature of this utility model is that the fastening means can be made in the form of a rod pressed into a through hole made on the outer surface of the pipe, or screwed into a through hole made on the outer surface of the pipe.

In this case, the rod may have a diameter of the protruding end to provide at least a tight fit on it of the recess in the end of the rack, or may have a thread on the protruding end to screw on the threaded recess in the end of the rack. In addition, the rod may have a thickening in the middle part, designed to abut the outer surface of the pipe and weld to it.

Another feature of this utility model is that the fastening means can be made in the form of a tube, either welded to the outer surface of the pipe and designed to insert the end of the rack into it, or having a flange with fixing holes for fixing with screws screwed into the corresponding through holes threaded holes in the outer surface of the pipe.

In this case, the tube may have an internal diameter to ensure at least a tight fit of the end of the rack into it, or have an internal thread for screwing into it the end of the rack equipped with a corresponding external thread.

Another feature of this utility model is that the fastening means can be made in the form of blind threaded holes on the outer surface of the pipe for screwing in them mounting screws inserted into the corresponding holes in the flange of the rack.

Finally, another feature of this utility model is that the narrowing can be performed by passing at the edges of the pipe into flange recesses.

Brief Description of the Drawings

The present utility model is illustrated by drawings in which the same or similar elements are denoted by the same reference numerals.

In FIG. 1 shows the body of a vortex-acoustic flowmeter with a fixing means in the form of a rod.

In FIG. 2-4 show possible embodiments of the rod.

In FIG. 5 and 6 show possible tube designs.

In FIG. 7 shows the body of a vortex-acoustic flowmeter with fastening means in the form of threaded holes.

Detailed description of utility model

In FIG. 1 shows a General view of the body of the vortex-acoustic flowmeter according to the present utility model, made in the form of a pipe 1 with a restriction 2. This restriction 2, which plays the role of a confuser, is preferably made integrally with the pipe 1 and represents a decrease in the inner diameter of the pipe 1 in comparison with the inner diameter of the pipeline ( not shown), for insertion into the gap of which the body of the vortex-acoustic flowmeter is designed according to the present utility model.

In FIG. 1, reference numeral 3 denotes a recess on the outside of the pipe 1 for mounting an acoustic path element. Another recess not visible in FIG. 1, is made on the opposite outer side of the pipe 1 opposite the recess 3. These recesses are shaped so that the emitter and the receiver of the acoustic path enclosed in the respective glasses, which make up the elements of this acoustic path, can be installed in them. In FIG. 1 shows a sectional view of one of such glasses, the bottom wall of which is indicated by reference numeral 9.

A wrap body 4 is placed inside the constriction 2 (the narrowed part of the pipe 1), fixed perpendicularly to the axial line 5 of the pipe 1 so that the projection of this flow body 4 is orthogonal to the line 6 connecting the centers of the recess 3 and the other recess opposite it. It should be noted that the line 6 connecting the centers of the recesses is located behind the flow body 4 in the direction of the measured flow, conventionally shown by arrow 7. The installation of the body 4 around the flow inside the restriction 2 can be performed, for example, through a technological hole in the bottom (Fig. 1 ) parts of the pipe 1, and the fastening of the body 4 flow can be performed by any method known to specialists, for example, by flaring the edges of the technological holes, welding or tight fit. The body 4 flow around may have a given configuration of the cross section, for example, the same as in the above counterparts.

The narrowing 2 can be performed so that at the edges of the pipe 1 it passes into the flange recesses 8, which serve to ensure a tight connection of the pipe 1 with the reciprocal parts of the pipeline.

Note that the bottom wall 9 of each of the above glasses has a thickness selected from the condition of transmission of acoustic vibrations used by the emitter and perceived by the receiver through the bottom walls 9 of both glasses and the substance flowing through the pipe.

The difference between the body of the vortex-acoustic flowmeter according to this utility model is the presence of fastening means 10 designed to fix the rack 30 under the electronic block of the flowmeter.

In FIG. 1 shows an example of the implementation of this fastening means 10 in the form of a rod 11 installed in a through hole 12 made on the outer surface of the pipe 1. This embodiment of the fastening means 10 is shown in more detail in FIG. 2-4.

In FIG. 2 and 3, the rod 11 is shown to have an internal through hole, but this is not necessary, and the rod 11 can be solid. The hole in the rod 11 is designed to pass wires passing inside the rack 30 from the electronic unit to the elements of the acoustic path. In this case, at least one hole (not shown) between the edge of the strut 30 and the outer surface of the pipe 1 must be provided in the rod 11 for the output of these wires to the outside. If such a hole is already provided in the rack 30, or if the wires from the electronic unit do not pass inside the rack 30, the rod 11 can be solid.

In the embodiment of FIG. 2, the rod 11 is pressed into the through hole 12, and in the embodiment of FIG. 3, the rod 11 has an external thread 13 for screwing into a through hole 12 made with a corresponding internal thread. In FIG. 4, the rod 11 has in the middle part a bulge 14, which abuts against the outer surface of the pipe 1 when the rod 11 is inserted into the hole 12 (not necessarily by tight fit, as in the embodiment of Fig. 2). After such installation of the rod 11, its thickening 14 is attached to the adjacent part of the outer surface of the pipe 1 by welding (or soldering) 15. It will be appreciated by those skilled in the art that welding or soldering can also be additionally used when performing the rod 11 according to any of the options shown in FIG. 2 and 3.

When performing the rod 11 according to any one of the options shown in FIG. 2-4, its upper (protruding from the hole 12) end may have an external thread 16 (as shown in Fig. 4) for screwing a threaded recess on it at the end of the strut 30. Either this protruding end may have a diameter to provide at least a tight landing on it the corresponding recess in the end of the rack 30.

FIG. 5 and 6 illustrate an embodiment of the fastening means 10 in the form of a tube 17. FIG. 5, pipe 17 is attached to the outer surface of pipe 1 by welding (or soldering) 15. FIG. 6, the tube 17 has a flange 18 at its lower end (according to the drawing) with fixing holes for fixing with screws 19, screwed into the corresponding threaded holes in the outer surface of the pipe 1. The flange 18 may have two or more holes, and its contact surface may be bent in accordance with the curvature of the outer surface of the pipe 1.

When making the tube 17 according to any one of the embodiments shown in FIG. 5 and 6, its upper, i.e. protruding upward in FIG. 5 and 6, the end may have an internal thread 20 for screwing into it the end of the strut 30 provided with a corresponding external thread, as shown in FIG. 6. But the tube 17 may also have an inner diameter at its threaded upper end to provide at least a tight fit into the end of the strut 30, as shown in FIG. 5.

Of course, if the tube 17 is of sufficient thickness, it may have the same upper end as the rod 11 in the embodiments shown in FIG. 2-4.

In FIG. 7 shows an example of yet another embodiment of the fastening means 10. This embodiment is intended for the case when the rack 30 for the electronic unit has a flange 23 at its end with holes for the mounting screws (in FIG. 7, the rack 30 with the flange 23 is shown with a dashed line). In this case, the fixing means 10 is made in the form of corresponding non-through threaded holes 21 on the outer surface of the pipe for screwing in them the fixing screws 22 inserted into the corresponding holes in the flange 23 of the rack 30.

Thus, this real utility model, offering a new vortex-acoustic flowmeter housing, significantly expands the arsenal of technical means and at the same time expands the technological capabilities of mounting rack 30 under the electronic unit.

Claims (12)

1. The body of the vortex-acoustic flowmeter, made in the form of a pipe with a narrowing of its internal lumen, having two recesses on the opposite external sides of the pipe with a through hole in each for installing the corresponding element of the acoustic path and containing a flow body fixed perpendicular to the pipe axial line so that its projection in the direction of this axial line, it is orthogonal to the line connecting the centers of both recesses, while fastening means for ksatsii stands for electronic meter unit. 2. The housing according to claim 1, in which the fastening means is made in the form of a rod pressed into a through hole made on the outer surface of the pipe. 3. The housing according to claim 1, in which the fastening means is made in the form of a rod screwed into a non-through threaded hole made on the outer surface of the pipe. 4. The housing according to claim 2 or 3, in which the rod has a diameter of the protruding end to provide at least a tight fit on the recess in the end of the said rack. 5. The housing according to claim 2 or 3, in which the rod has a thread on the protruding end for screwing a threaded recess on it at the end of said rack. 6. The housing according to claim 2 or 3, in which the rod has a thickening in the middle part, designed to abut the outer surface of the pipe and weld to it. 7. The housing according to claim 1, in which the fastening means is made in the form of a tube welded to the outer surface of the pipe and designed to insert the end of the said rack into it. 8. The housing according to claim 1, in which the fastening means is made in the form of a tube having a flange with mounting holes for fixing with screws screwed into the corresponding through holes in the outer surface of the pipe. 9. The housing according to claim 7 or 8, wherein said tube has an inner diameter to provide at least a tight fit into it of the end of said rack. 10. The housing according to claim 7 or 8, wherein said tube has an internal thread for screwing into it an end of said rack provided with a corresponding external thread. 11. The housing according to claim 1, in which the fastening means is made in the form of through-hole threaded holes on the outer surface of the pipe for screwing in them mounting screws inserted into the corresponding holes in the flange of the said rack. 12. The housing according to claim 1, wherein said narrowing is made by passing at the edges of said pipe into flange recesses.

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