RU28768U1 - FLUID AND GAS FLOW METER - Google Patents

Abstract

1. The flow meter of liquids and gases, containing a constricting device, a shutter and a deformation sensor associated with the signal conversion unit, characterized in that the constricting device is formed by a housing and a shutter, the shutter is made in the form of a spring plate rigidly fixed at one end in the housing, and Sensitive elements are installed on the plate near the attachment point. 2. The flow meter according to claim 1, characterized in that the plate from which the damper is made has a section of variable length, decreasing toward the free end. The flow meter according to claims 1 and 2, characterized in that the strain gauges are fixed on one or two sides of the damper. 4. The flow meter according to claims 1 to 3, characterized in that stops are installed in the housing of the constricting device, limiting deviations of the free end of the damper in the operating range of movements. 5. The flow meter according to claims 1 to 4, characterized in that the damper is fixed at an angle to the central axis not exceeding 45 °. 6. The flow meter according to claims 1 and 3, characterized in that the strain gauges are coated to protect them from environmental influences. 7. The flow meter according to claims 1 to 6, characterized in that the walls of the constricting device and the shutter are coated with a highly effective anti-corrosion and anti-friction coating.

Description

FLUID AND GAS FLOW METER

The utility model relates to the field of measurement technology, to devices for measuring the amount of flow of liquids and gases and can be used in various industries and in everyday life.

A known flow meter containing a constricting device in the form of a diaphragm with a hole mounted between the inlet and outlet pipes 1. The constricting device is equipped with a safety element with a hole and protrusions. The diaphragm and the safety element form a cavity communicating with the hole. The flowmeter is equipped with an electronic unit and an indicator to show the flow rate of the medium being measured. This flowmeter has a disadvantage - low accuracy in the low-pressure region.

Also known is a microelectrometer counter (flow meter) of Eghiazaryan 2 liquids and gases. The counter contains a constricting device between the inlet and outlet pipelines in the form of a diaphragm with an orifice, a membrane pressure sensor located on the diaphragm and connected to the signal conversion unit with an indicator. The meter is equipped with a shutter mounted on an elastic element in the housing with the possibility of overlapping the outlet section of the nozzle. The output section of the nozzle is made of an arbitrary geometric shape, and the shape of the damper repeats the shape of the output section of the nozzle. The disadvantages of the counter include the complex design of the narrowing device.

The objective of the claimed utility model is to simplify the design of the flow meter and improve the accuracy of measurements.

The essence of the utility model is as follows.

The flow meter of liquids and gases contains a constricting device in the form of a housing with a damper and a deformation sensor associated with the signal conversion unit.

New is that the shutter is made in the form of a spring plate, rigidly fixed at one end in the housing of the constricting device. Near the mounting point on the plate, sensitive elements are installed. The plate, from which the shutter is made, has a variable cross-sectional length, decreasing towards the free end. Deformation sensors can be fixed on one or both sides of the shutter. Stops may be installed in the housing of the constriction device.

limiting deviations of the free end of the valve in the operating range of movements. The damper is fixed at an angle to the central axis, not exceeding 45 °. The strain gauges are coated to protect them from environmental influences. The walls of the constriction device and the shutters are coated with a highly effective anti-corrosion and anti-friction coating.

The drawing shows a General view of the inventive device.

The flow meter contains a constricting device in the form of a housing 1 with a damper 2 made in the form of a spring plate on which the sensing elements 3 are mounted. Elements 3 are connected by a flexible busbar 4 to the electronic unit 5. The damper 2 is made of an elastic corrosion-resistant material. It has a variable cross-sectional length, tapering from pinched to the free end. Such a section of the plate allows to increase the accuracy of measurements. As the sensing elements 3 mounted on the valve 2 are used strain gauges.

The device operates as follows.

The flowmeter is installed by tapping into a pipeline with a medium. In the absence of the flow of the measured medium, the shutter 2 is closed with the inner surface of the housing 1, and the passage area is zero. When the flow moves in the constriction device, a differential pressure acts on the cantilever-mounted shutter 2. Due to the pressure difference, the free end of the shutter is bent, opening the passage section. The higher the pressure PI, the more the damper 2 bends, the larger the flow area becomes. Depending on the deformation value of the shutter 2, the electrical signal from the sensitive elements (strain gauges) changes 3. By processing this signal, the electronic unit 5 reproduces the amount of liquid or gas consumed.

Sources of information:

1. The author's certificate of the USSR No. 1509598, cl. G 01 F 1/36, 1989.

2. RF patent No. 2071036, class O 01, 1996 - prototype.

Claims (7)

1. The flow meter of liquids and gases, containing a constricting device, a shutter and a deformation sensor associated with the signal conversion unit, characterized in that the constricting device is formed by a housing and a shutter, the shutter is made in the form of a spring plate rigidly fixed at one end in the housing, and Sensitive elements are mounted on the plate near the mounting point. 2. The flow meter according to claim 1, characterized in that the plate from which the shutter is made has a section of variable length, decreasing towards the free end. 3. The flow meter according to claims 1 and 2, characterized in that the strain gauges are fixed on one or two sides of the damper. 4. The flow meter according to claims 1 to 3, characterized in that in the housing of the constricting device there are stops which limit deviations of the free end of the damper in the operating range of movements. 5. The flow meter according to claims 1 to 4, characterized in that the damper is fixed at an angle to the central axis, not exceeding 45 °. 6. The flow meter according to claims 1 and 3, characterized in that the strain gauges are coated to protect them from environmental influences. 7. The flow meter according to claims 1 to 6, characterized in that the walls of the constricting device and the shutter are coated with a highly effective anti-corrosion and anti-friction coating.