SU444061A1 - Electromagnetic flow ratio sensor - Google Patents

Description

(54) ELECTROMAGNETIC DA1 CHECK RELATIONSHIP EXPENDITURE

one

The invention relates to the measurement of costs in various technological processes, for example, with the mixing of components for chemical sites, the addition of reagents. d .; where continuous monitoring and adjustment of component cost ratios is required. For this purpose, the pipelines transporting these components install flowmeters, according to the indications of which they regulate the flow rate in each pipeline.

In a number of cases - with a large number of components - the installation of a significant number of flowmeter sensors is difficult due to constrained operating conditions. In addition, taking into account that the measurement errors of the flowmeters vary over time in different ways, the error setting of the system as a whole increases.

The aim of the invention is to create an electromagnetic sensor, which will improve the accuracy of measuring the costs of components while at the same time simplifying the design and the measuring circuit as a whole.

This goal is achieved by locating around the measuring section of the pipeline from the external magnetic system of the magnetic system additional measuring sections of pipelines with electrodes for picking up the signal connected to the input of the comparator. D; w establish the necessary cost ratio of the components; additional measuring sections are made with the possibility of turning each of them around its longitudinal axis.

The drawing shows the proposed design of a flow ratio sensor.

Electromagnetic flow sensor contains a magnetic system 1 and measured sections in the form of tubular elements made of electrically insulating or non-durable material, covered from the inside by a fugric layer. The main measuring section 2 is installed on the Sutri of the magnetic system, and the additional measuring sections 3, the number of which is determined by the number of components, are outside it. Inside each of the measuring parts, measuring electrodes 4 are installed, the terminals of which are alternately connected to the input of the comparison device via a casing device.

Structurally, all dimensional areas are combined into one device. with the possibility of rotation of each of them around its longitudinal axis. During operation, pipelines are connected to the measured sections, through which the controlled liquid flows.

The sensor works as follows. The magnetic field, excited by the magnetic system, penetrates all the measured areas on the electrodes of each of which the potential difference arises, is equal to the product of the velocity of the fluid flowing through this area, by the sensitivity of the conversion of this dimensional area. The latter is proportional to the induction of the magnetic field in the channel of the measuring section, the distance between the electrodes, and the sine of the angle of inclination of the axis of the electrodes to the direction of the magnetic field in the measuring section.

If the flow rates of the fluid in all the pipelines are the same, then the electrodes in the measuring areas set at one angle to the direction of the magnetic field. However, as a rule, the costs of the components are different. In this case, the sections are rotated around the axis so that the sensitive (, h-1. Transformation of each of them is inversely proportional to the required flow rates. In the case, if the speed of the components is equal to the specified values, the voltage on the electrodes of all the measured sections will be the same and at the output of the comparison device the voltage will be equal to 0. If the speed of one of the components changes, then at a certain position IIII at the output of the comparison device, the speed of the fluid in all channels from orostyu fluid in the main channel, at Vits voltage regulator acting on the fluid velocity in the direction of reduction r |) ebuemoy speed.

In a number of technological processes, the dosage of one of the components, for example, water, is far superior to the rest. To measure it, use the central measuring section, choosing a proper diameter for it. If the diameters of the other channels are relatively small, then the entire device is placed in a circular cylindrical magnesium conductor.

The application of the proposed sensor allows to simplify the design, since

eliminates the need to install Neli flowmeter sensors, and improve the measurement accuracy, due to the constant pressure of the voltages taken from the electrodes of the main and additional measuring sections.

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Subject invention

Electromagnetic sensor co-costing, containing a measuring section of a coarse pipe, a magnetic system and electrodes for picking up a signal, characterized in that, in order to improve the accuracy of measurement and simplification of the device, on the side of the magnetic system around the measuring section there are additional measuring sections of pipelines with electrodes for picking up a signal, connected to the input of the comparison device, with additional measured sections of pipelines

installed with the possibility of rotation relative to its longitudinal axis.