RU198045U1 - Device for measuring fluid flow - Google Patents

Abstract

The utility model is designed to measure the volumetric flow rate of fluids at high pressure. In the housing with the cover, the hydraulic device through the movable ring is clamped narrowing device in the form of a fragment with one of the holes of the diaphragm disk. On both sides of the diaphragm in the annular grooves (one in the movable ring and the other in the protruding part of the housing cover), O-rings are located. The device has high reliability and provides flow measurement when the medium moves in opposite directions using the same diaphragm. 4 ill.

Description

The utility model relates to flowmeter devices that use the principle of measuring the volumetric flow rate of fluids in a continuous flow by the method of variable differential pressure using annular sampling chambers, and is intended for accurate and simple change of flow diaphragms.

A known flowmeter of variable differential pressure, containing a constricting device in the form of a diaphragm with a hole and a membrane on which are mounted strain gages connected to the Converter (AS USSR N 1509598, G01F 1/36, 1986).

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

A known camera for flow diaphragm containing a diaphragm that is inserted into the working space through the window (AS USSR N 1498399, G01F 1/34, 1989).

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

The disadvantages of the chamber include the impossibility of using this design in pipelines with high pressure

Closest to the proposed is a device for measuring the flow of fluids. In the case with a cover screw mechanisms through the movable ring clamped constricting device in the form of a diaphragm. This device allows the measurement of flow when the medium is moving in opposite directions using the same diaphragm, (patent RU N 2110771, G01F 1/42, 1995/01).

The disadvantages of the camera include the inability to change 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 presence of screw mechanisms fixing the narrowing device does not ensure the reliability of the device, its tightness.

The purpose of the utility model is to expand the operational and technological capabilities of the device, increase reliability, reduce losses of the measured medium and the time of replacement of the diaphragm.

The technical result consists in the possibility of using the device for accurate measurement of fluid flow at high (up to 160 kg / cm ² ) without interrupting the working process, ensuring tightness and safety.

To achieve the technical result, a device for measuring gas flow includes a constricting device between the inlet and outlet pipelines in the form of a diaphragm with an aperture clamped in a housing with a cover and provided with a sealing ring located in an annular groove, chambers and openings for selecting a differential pressure, a movable ring installed with the possibility of movement along the axis of the pipeline. The device is equipped with a hydraulic mechanism that allows you to move and tighten the movable ring, which is its piston, and is equipped with seals located on its inner and outer surfaces, and from the end of the movable ring and in the protruding part of the cap of the narrowing device there are annular grooves for the sealing rings. When the movable ring is preloaded, the diaphragm is sealed tightly over the entire plane on both sides. The constricting device is a diaphragm disk with a combination of several measuring apertures with various parameters.

The proposed device is illustrated by drawings where in FIG. 1 shows a narrowing device, a General view; in FIG. 2 view A of FIG. 1; in FIG. 3 view B of FIG. 1; in FIG. 4, section BB of FIG. 1.

The narrowing device (hereinafter referred to as SU) includes a stepped cylindrical body 1 with a slit in which a flat diaphragm disk 9 (hereinafter referred to as DD) is placed, which is a combination of several measuring diaphragms, in this case five, calculated the holes of which are uniformly distributed around the circle at the same distance from the center of rotation. Each hole corresponds to a groove located on the opposite side of the DD, into which the spring 3 sinks, the action of which, in turn, is blocked by a screw 4. The spring 3 can be a compression spring or a leaf bend spring, in this case a plate spring. The screw 4 is sealed with a rubber O-ring. The center of rotation of the DD is a stepped shaft 5, the torque from which is transmitted through the key 6. The shaft 5 is introduced into the housing 1 through the seal 7 (rotor seal type R04-A). The outer part of the stepped shaft is a scale, the numbers on which indicate the location of one or another measuring hole in the working area. Opposite each digit on the protruding part of the shaft 5, radial holes are drilled into which the removable handle 8 is inserted alternately when turning the DD.

A device for measuring the flow of fluid contains a diaphragm - one of the design holes DD, clamped in the housing 1 with a cover 2 through a movable ring 10, which is also a piston of a hydraulic device. The hydraulic device also includes: a small piston 11, a clamping screw 12, a return spring 13, a screw plug 14 with gasket 15, o-rings 16, 17, 18. The cavity G of the hydraulic device is filled with hydraulic fluid of class VG15 or VG22 (according to ISO 3448) . Filling occurs through the channel, closed by a screw plug 14 with gasket 15. On the movable ring 10 from the end and symmetrically from the opposite side on the housing cover 2 there are annular grooves for the sealing rings 19. When the movable ring 10 is pressed, the diaphragm is sealed over the entire contact plane with both sides. To select the differential pressure, annular chambers 20 and 21, openings 22 and 23 are used. A plug 24 closes the drainage channel.

The device operates as follows.

To replace the diaphragm (in this case, changing the hole of the DD) 9, loosen the screw 4, moving it by 4 ... 5 mm and unscrew the clamping screw 12. It will allow the movable ring 10 to be moved 2 ... 3 mm from the DD. Insert the removable handle 8 in the nearest side hole in the protruding part of the stepped shaft 5, turn it to a vertical position. The operation is repeated until the removable handle is in the hole with the number we need. Next, we tighten the screws 4 and then 12 all the way to the end. After completing these operations, the system is ready for operation. The utility model can be used to measure the flow rate of gas transported through gas pipelines, including trunk pipelines, and in gas-dynamic research instruments (such as the Nadym collector).

Claims (1)

A device for measuring gas 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 cover and provided with an o-ring placed in an annular groove, chambers and openings for selecting a differential pressure, a movable ring installed with the possibility of movement along the axis of the pipeline, characterized in that the device is equipped with a hydraulic mechanism that allows you to move and tighten the movable ring, which is its piston, and is equipped with seals located on its inner and outer surfaces, and from the end of the movable ring and in the protruding part of the cap of the constriction device ring grooves for the sealing rings, while the narrowing device is a diaphragm disk with a combination of several measuring diaphragms with different parameters.

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