RU2110771C1 - Device measuring flow rate of fluid media - Google Patents

Abstract

FIELD: measurement technology, measurement of volumetric flow rate of fluid media under high pressure. SUBSTANCE: narrowing device in the form of diaphragm is jammed in body with cover by screw mechanisms via mobile ring. Sealing rings are positioned in ring grooves on opposite sides of diaphragm. EFFECT: high reliability and accuracy of measurement of flow rate while medium moves in opposite directions with the use one and same diaphragm. 2 cl, 1 dwg

Description

 The invention relates to a device for measuring the volumetric flow rate of fluids in a continuous stream by the method of variable differential pressure using annular selection chambers and can be used in the power industry, chemical, gas and petrochemical industries.

 Known flowmeter variable pressure differential, containing a constricting device in the form of a diaphragm with a hole and a membrane on which are mounted strain gauges connected to the Converter (ed. St. USSR N 1509598, CL J 01 F 1/36, 1986).

 This flow meter provides a sufficiently high measurement sensitivity, but its reliability is low due to the fragility of the membrane.

 A known chamber for a flow diaphragm containing a diaphragm that is inserted into the working space through a window (USSR patent N 1498399, CL J 01 F 1/34, 1989).

 This camera allows changing the flow diaphragm without overlapping the measuring section of the pipeline, as a result of which the loss of the medium being measured is significantly reduced.

 The disadvantages of the camera include the difficulty in manufacturing, the inability to use this design in pipelines with high pressure and when measuring a medium with solid inclusions, as well as the inability to measure when the medium moves in opposite directions without changing the diaphragm, i.e. The camera does not meet the requirements of versatility.

 Closest to the proposed device is a narrowing quick-change device. The device contains a constricting device in the form of a diaphragm with a hole, a housing, a cover, an o-ring around the circumference of the diaphragm, a screw mechanism for compressing the diaphragm, a chamber and a hole for selecting a differential pressure (TU 51-72-87. Quick-change narrowing devices. UDC 681.12, Tyumen Center standardization and metrology N 069/01131 from 04.24.87).

 This device has several disadvantages. It does not have universality due to the impossibility of measuring the flow rate when the medium moves in opposite directions without changing the diaphragm.

 The reliability of measuring the device is low due to the fact that when measuring the flow rate of the medium at high pressure, the tensile force acting on the structure as a whole increases significantly, in addition, the leakproofness due to deformation of the diaphragm is broken when using the method of pressing the diaphragm with local screw mechanisms.

 The purpose of the invention is the expansion of the operational capabilities of the device and increase its reliability.

As a result of solving these problems, it is carried out:
the ability to use the device and the diaphragm installed in it to measure the flow of fluids, including those with solid inclusions at high (up to 160 kg / cm ² ) pressure in any direction without changing the diaphragm to another;
high tightness;
reduction of bursting forces on the device as a whole.

 The technical result consists in the implementation of these factors.

 To achieve this technical result, in a device for measuring fluid flow, including a constriction device installed between the inlet and outlet pipelines in the form of a diaphragm with an aperture clamped in a housing with a screw cap and equipped with a sealing ring placed in an annular groove, chambers and sampling openings differential pressure, in the case between the screw mechanism and the diaphragm, a movable ring is placed coaxially with the pipeline, mounted with the possibility of movement along the axis of the pipe gadfly, and the sealing ring is facing protruding from the annular grooves to the end face of the movable ring. In the gap between the housing and the movable ring, a ring is mounted coaxially with the pipe in the groove, forming a seal along the entire plane of contact with the inner surface of the movable ring. The diaphragm is equipped with an additional sealing ring located on the opposite plane symmetrically to the sealing ring.

 Distinctive features of the proposed device from the above prototype are the presence of a movable ring resting on one of the o-rings located symmetrically around the circumference of the diaphragm on its opposite sides, and the presence of another o-ring between the housing and the movable ring.

 Thanks to these distinguishing features, high reliability of the device is ensured due to the tight, excluding deformation, clamping of the diaphragm between the cover and the movable ring. The combination of elements, namely, the indicated arrangement of annular grooves with sealing rings and a movable ring, provides enhanced operational capabilities, namely: the possibility of using the same diaphragm to measure fluid flows in opposite directions, limits the impact of high-pressure fluid within the annular sampling chambers differential pressure, thereby significantly reducing the burst force acting on the entire device.

 The drawing shows a diagram of the proposed device, a longitudinal section.

 A device for measuring the flow rate of a fluid contains a diaphragm 1 with an opening 2, clamped in a housing 3 with a cover 4 through a movable ring 5 with screw mechanisms 6 and 7. The diaphragm 1 is equipped with sealing rings 8 and 9 located symmetrically on opposite sides in the annular grooves. The movable ring 5 facing the end portion to the ring 8 or 9 protruding from the annular groove and sealed with a sealing ring 10 along the entire plane of contact of the ring 10 with the inner surface of the movable ring 5. On top of the device is located clutch 11 forming the cavity 12. For the selection of the differential pressure are annular chambers 13 and 14, the holes 15.

 In accordance with the rules for measuring the flow of gases and liquids with standard constricting devices (RD 50-213-80M, publishing house of standards, 1982), it is necessary to periodically mount and dismantle the diaphragm. Using the proposed device, this is as follows. Remove the pad 11, screw mechanisms 6 and 7 move the movable ring 5 to the extreme left position, and then remove the diaphragm 1. After controlling the diaphragm 1 and, if necessary, replace it, install the diaphragm 1 in the device, screw mechanisms 6 and 7 move the movable ring 5 to the extreme the right position, while the movable ring 5 tightly and without deformation of the diaphragm clamps it between the housing 3 and the cover 4, forming an annular chamber 13 and 14 to select the differential pressure in the holes 15 in the established manner. This ensures high tightness of the gaps between the cover 4 and the diaphragm 1 and the movable ring 5 and the diaphragm 1, as well as the housing 3.

If necessary, measure the flow rate of the fluid in the opposite direction, the diaphragm 1 is rotated 180 ^o , and the selection of the differential pressure is carried out through oppositely located holes 15.

In the case of measuring a fluid having solid inclusions, the proposed design eliminates overflow from the cavity of the housing 3 into the cavity of the annular groove of the movable ring 5 and cover 4. The device allows flow measurement at high (up to 160 kg / cm ² ) pressure, special control over the state O-rings 8, 9, 10 are not required. When assembling and disassembling the diaphragm and selecting a differential pressure, special devices and platforms are not required.

 A prototype device is manufactured and tested.

Claims (3)

 1. A device for measuring fluid flow, including a narrowing device between the inlet and outlet pipelines in the form of a diaphragm with an aperture clamped in a housing with a cover by a screw mechanism and provided with an o-ring placed in an annular groove, chambers and openings for selecting a differential pressure, characterized the fact that the device is equipped with a movable ring mounted in the housing between the screw mechanism and the diaphragm coaxially to the pipeline, mounted to move along the pipe axis rovoda, wherein the sealing ring facing the projecting portion of the annular groove to the end face of the movable ring.  2. The device according to claim 1, characterized in that in the gap between the housing and the movable ring a ring is installed coaxially in the groove, forming a seal along the entire plane of contact with the inner surface of the movable ring.  3. The device according to claim 1, characterized in that the diaphragm is equipped with an additional sealing ring located on its opposite plane symmetrically to the sealing ring according to claim 1.