RU231795U1 - Fluid flow control unit - Google Patents

Abstract

The utility model relates to control devices, namely to throttle diaphragms, intended for reducing the flow of a working medium in pipelines. A fluid flow control unit comprises a pipeline in which a slot with a depth of up to half the length of the pipeline circumference is made perpendicular to its axis. A nipple with an external thread is welded to the pipeline, onto which a plug is screwed. The throttling element is made in the form of an adjustment plate having a retainer in the upper part. The width of the adjustment plate and the width of the retainer correspond to the internal diameter of the nipple. The lower part of the adjustment plate is made rounded in accordance with the profile of half the internal diameter of the pipeline. The technical result consists in simplifying the design and reducing the material intensity of the throttling devices. 5 fig.

Description

The utility model relates to control devices, namely to throttle diaphragms, designed to reduce the flow of the working medium in pipelines.

An adjustable throttle washer is known (RU 127140 U1, IPC F16B 43/00, published 20.04.2013), containing a housing with a through oval opening, inside the housing along the through oval opening an adjusting bolt is secured with a threaded connection, which serves to regulate the cross-section of the through oval opening.

The disadvantage of this device is the need to organize the installation site (flange connection), which for pipelines with a diameter less than DN50 is material-intensive and requires sufficient free space for installation and maintenance.

The closest analogue in relation to the claimed utility model is a throttle washer (RU 209757 U1, IPC F16K 47/08, published on 22.03.2022) - a diaphragm with a throttling hole, equipped with a control element made in the form of a movable rod, part of which is located in the throttling hole with the ability to change the amount of overlap of the hole when it moves, and its other part, located outside the diaphragm, is equipped with a unit for fixing its position and a means for rotating it. A group of buffer threaded holes of various diameters is formed in the diaphragm with the ability to install threaded plugs in them for discretely changing the flow section of the diaphragm.

The disadvantage of this device is the rather large thickness of the diaphragm, the technically complex implementation of its use on pipelines with a diameter less than Du50, as well as the complexity of manufacturing and installation.

The task, which the proposed utility model is aimed at solving, is to simplify the design and reduce the material consumption of throttle devices by eliminating the above-mentioned shortcomings.

The specified problem is solved by the fact that the flow control unit of the fluid medium, including a throttling element with an opening, contains a section of a pipeline in which a slot with a depth of up to half the length of the pipeline circumference is made perpendicular to its axis, a fitting with an external thread is welded to the pipeline, onto which a plug is screwed, while the throttling element is made in the form of an adjustment plate having a lock in the upper part, the width of the adjustment plate and the width of the lock correspond to the internal diameter of the fitting, and the lower part of the adjustment plate is made rounded similar to the profile of half the internal diameter of the pipeline.

The technical result is achieved by the simplicity of the design, which makes it possible to implement the procedure for regulating the flow rate of the fluid in cases where it was economically impractical due to the need to purchase and install factory-made adjustment devices:

the design of the adjustment unit allows for the quick removal of the adjustment plate, thereby completely eliminating, if necessary, local resistance;

the design of the control unit does not reduce the cross-section of the pipeline in the event of failure to regulate the flow rate, and does not reduce the strength characteristics of the pipeline.

Experience in operating extended internal heating systems has revealed an urgent need for uniform distribution of coolant flows across heating devices. Often, performing these works is associated with both technical difficulties (lack of any detachable connections in heating devices) and high material costs for purchasing standard control devices, as well as for their installation. The use of the proposed unit does not involve a complete cut of the pipeline at the installation site of the unit, thereby ensuring the preservation of the structural mutual position of all elements of the system.

The design of the unit is explained by drawings, where Fig. 1 shows a top view, Fig. 2 shows a section A-A in Fig. 1, Fig. 3 shows a side view, Fig. 4, 5 show photos of part of the device and the removed adjustment plate.

The fluid flow control unit comprises a section of pipeline 1, in which a slot 2 is made perpendicular to its axis, with a depth of up to half the length of the circumference of pipeline 1. A fitting 3 with an external thread 4 is welded to pipeline 1, onto which a plug 5 is screwed. The throttling element is made in the form of an adjustment plate 6, having a retainer 7 in the upper part. The width of the adjustment plate 6 and the width of the retainer 7 correspond to the internal diameter of the fitting 3. The lower part of the adjustment plate 6 is made rounded with an opening 8, in accordance with the profile of half the internal diameter of pipeline 1.

The control unit operates as follows.

The flow of the medium passing through the pipeline 1 experiences the resistance of the adjustment plate 6 with the hole 8, thereby reducing the intensity of the flow of the medium to the required level. In this case, the leaks between the adjustment plate 6 and the elements of the pipeline 1 and the adjustment unit are compensated by selecting the diameter of the hole 8 in the plate 6.

To install/remove the adjusting plate 6, it is necessary to reduce the pressure of the medium in the pipeline to atmospheric, unscrew the plug 5 and install/remove the adjusting plate 6 with the position lock 7. Tighten the plug 5 using a material that seals the threaded connection between the fitting 3 and the plug 5.

A prototype of the proposed design was made in kind from two sections of steel pipes Du15 and Du20 (Fig. 4, 5). The prototype was tested on a stand by passing a water flow through it. During the manufacture and testing of the control unit, the simplicity of manufacture and installation was confirmed due to the use of a minimum set of tools and the number of technological operations, and the process of flow rate regulation was confirmed.

Claims (1)

A fluid flow control unit comprising a throttling element with an opening, distinguished in that it contains a section of a pipeline in which a slot with a depth of up to half the length of the pipeline circumference is made perpendicular to its axis, a fitting with an external thread is welded to the pipeline, onto which a plug is screwed, while the throttling element is made in the form of an adjustment plate inserted into the pipeline through the slot, having a retainer in the upper part, the width of the adjustment plate and the width of the retainer correspond to the internal diameter of the fitting, and the lower part of the adjustment plate is made rounded similar to the profile of half the internal diameter of the pipeline.