SU1065692A1 - Method and device for graduating induction flowmeters - Google Patents

Abstract

1. The method of calibration of induction flow meters without full-blown pouring by producing an electric AC signal equal to the valid signal of the primary flow meter corresponding to a given flow rate using an electric circuit, which is designed to improve the accuracy of calibration. t simulation of induced in a controlled electrically conductive medium, then k6b, by forming in the channel of the graduation channel of the flow rate of two .orthogonal magnetic fields, one In parallel to the field of excitation of the calibrated flowmeter, with (L) this, the excitation current of the calibrated flowmeter is used as a reference signal to form orthogonal magnetic.

Description

2. A device for calibrating induction flow meters, containing an induction system and a simulator of simulated signals, which have the effect that, in order to improve the accuracy of calibration, the induction system is made in the form of two orthogonal windings, one of which is parallel to the inductor plane of the graduated flow meter and has a length , a multiple of the spatial period of the field of the calibrated flowmeter, and the shaper of simulation signals includes a reference signal selection element, the matching will increase Spruce and two current drivers, made in the form of series-connected phase shifters and current amplifiers: The output of the selection element of the reference signal included in the target power supply of the inductor of the calibrated flow meter is connected to the inputs of the current drivers, the outputs of which are connected to the windings of the induction system, through a matching amplifier,

3. The device according to claim 2, characterized in that, in order to improve the accuracy of the adjustment of the induction system in the channel of the calibrated flow meter, an additional winding is introduced into the induction system orthogonal to the windings of the induction system.

The invention relates to a graduation of induction flow meters and calibration of primary flow transducers. Methods are known for calibrating electro-magnetic flowmeters without natural pouring by measuring the distribution of the magnetic field of a flow transducer, for example, along the lines of the surface weight function of the flow transducer Cl. A disadvantage of the known methods is the low graduation accuracy resulting from , the errors allowed in the manufacture of the device. There is also known a method for calibrating induction flow meters without overflow, in which the induction of a magnetic field of a calibrated sensor is converted into an electric signal of alternating current by an electric circuit equal to the actual sensor signal corresponding to a given flow rate, and the transmission coefficient of the circuit is determined by the design parameters of the sensor and the parameters of the schema l SZ, The disadvantage of this method is the lack of consideration of the errors made in the manufacture of the receiving part and calibrated flow transducers, the effect of which increases with decreasing nominal diameter of the flow meter channel, which leads to a decrease in calibration accuracy. It is also known a device for gauging induction flow meters without full-blown spillage, which contains an induction system and a simulator of a simulation signal Gz. However, this device does not allow the calibration of induction flow meters, since the induction system is a passive element of the device, and the input of the secondary converter of a graduated flow meter connected to the output of the simulator imitation signal. The aim of the invention is to improve the accuracy of the calibration of flow meters by taking into account the number of errors added to the manufacture of calibrated flow primary sensors (sensors). The goal is achieved by the method of calibrating induction flow meters without spilling by producing an electric signal of alternating current equal to the flow sensor signal corresponding to the specified flow rate is simulated using an electric circuit currents induced in a controlled electrically conductive medium by forming two orthogonal magnetic fields in the channel of a calibrated flow meter, one of which is parallel to the field of the calibrated flow meter, and the excitation current of the calibrated flow meter is used as a reference signal to form orthogonal magnetic fields, In the device for calibration of induction flow meters containing an induction system and a simulator of a simulation signal, the induction system is made as two

Claims (3)

METHOD FOR GRADING INDUCTION FLOW METERS AND DEVICE FOR ITS IMPLEMENTATION. (57) 1. The method of calibrating induction flow meters without full-scale spilling by obtaining an electrical signal of alternating current equal to the actual signal of the primary flow transducer corresponding to a given flow rate using an electric circuit, characterized in that, in order to improve the accuracy of calibration, simulation of induced in a controlled electrically conductive medium also by forming two orthogonal magnetic fields in the channel of a calibrated flowmeter, one of which is a pair allel field excitation calibrated flowmeter, the flowmeter calibrated excitation current is used as a · reference signal for generating orthogonal magnetic fields. About ς © é> 2. A device for calibrating induction flow meters, comprising an induction system and a driver of simulation signals, about τη and characterized in that, in order to increase the accuracy of calibration, the induction system is made in the form of two orthogonal windings, one of which is parallel to the plane of the inductor of the calibrated flow meter and has a length that is a multiple of the spatial period of the field of the graduated flowmeter, and the simulator of the simulation signals includes an element for selecting a reference signal that matches the amplification there are two current shapers made in the form of a phase shifter and a current amplifier connected in series, • the output of the reference signal selection element included in the power supply of the calibrated flowmeter inductor being connected through the matching amplifier to the current shaper inputs, the outputs of which are connected to the windings of the induction system. 3. The device according to claim 2, characterized in that, in order to improve the accuracy of alignment of the induction system in the channel of the calibrated flowmeter, an additional winding orthogonal to the windings of the induction system is introduced into the induction system.