SU1012033A2 - Flowmeter checking and graduating plant - Google Patents

Description

The invention relates to a measurement technique and can be used for the calibration and calibration of liquid flow meters.

According to the main author. St. No. 8383VZ is a well-known installation for calibrating and calibrating flow meters, which contains a fluke system, a drain line with a tunable flow meter and an exemplary measuring instrument with a choke in series located along it. An exemplary measuring instrument consists of a flow meter and a collector made in the form of a series of identical parallel pipelines, each of which is equipped with a throttle and a two-channel distributor, one channel of which is connected to the part of the flow meter, and the other to the drain line the presence of measurement error caused by pressure fluctuations at the inlet to the flow meter, therefore; and flow fluctuations through it in the process of pouring. To eliminate this error on this device, it is necessary either to maintain a constant flow rate at the entrance to the metering flowmeter, or to equal the hydraulic resistances of all the branches of the exemplary measuring instrument. However, this is practically utterly troubled only within certain limits, determined by the accuracy of manufacture and control. Thus, it is impossible to completely avoid the specified error on this device.

The purpose of the invention is to improve the accuracy of calibration and calibration of flow meters.

This goal is achieved by the fact that under each two-channel distributor a storage tank is installed, equipped with a drain valve installed with the possibility of connecting it to the flow meter. The number of wedges is equal to the number of branches of the collector. Drives allow you to collect fluid passing through the E branches of the collector, in which the flow rate is not measured at this time. In the prototype, the method of sequential measurement of the costs through the collector branches of the gauge measuring means and, sadly, when the flow rate changes at the entrance to the flow meter, is realized.

the conditions under which each subsequent measurement is made vary. The installation of accumulators in the proposed device allows 5 to measure the flow that passed through the branches of the collector during the pouring period under the same conditions, thereby obtaining an increase in accuracy.

The drawing shows the proposed device.

The installation comprises a pressure system 1 connected in series, a collector 2 with a shut-off device 3 and a calibrated flow meter 4, an exemplary measurement tool consisting of a collector 5 which contains several parallel pipelines, each of which includes a shut-off device 6, a drain

 pipe 7, two-channel distributor -8, the channels of which are separated by a partition 9 and autonomous drive 10 of any type (electromagnetic, spring, pneumatic, etc.).

 Depending on the position of the dividing partition 9 of the two-channel distributor 8 relative to the drain pipe 7 having a rectangular cross section, a liquid stream is directed either to the accumulator 11 divided by the partition 12 into separate tanks according to the number of collector channels 5 or to the drain line 13 V of each tank accumulator ustanov5 flax drain valve H of any type (electromagnetic, pneumatic, spring, etc.). Through open drain valves, the fluid can flow into the flow meter 150 The number of collector branches used is selected depending on the required measurement accuracy. The operation of all or several multiple-channel distributors occurs either

5 at the operator’s signal, or automatically at the signals of the reconfigurable software device 16 of any type. The operation of any drain valve 14 occurs either at the signal of the operator, or automatically at the signal of a reconfigurable software device 17 of any type.

When calibrating a flow meter with a high flow rate, the installation operates as follows.

Based on the required accuracy, the number of used collector branches 5 of the reference measurement means is selected. At a signal from software 3 of device 16, a selected number of two-channel distributors 8 are set to the drain position and their shut-off valves 6 open, while the liquid entering the collector is sent to the drain line 13. At a signal from the program device 17, one of the difference valves I opens and provides a drain from a single storage tank into the flow meter 15. On a signal from device 16, two-channel distributors switch to the initial position, at which liquid from them begins to collect a storage except that section in which was previously from indoor drain valve. After a predetermined pouring time has elapsed, the two-channel distributors return to the discharge position at the signal of device 16. After draining the fluid from the flow meter and preparing it for measurement, the program device 17 sends a signal to the next drain valve. No liquid enters the flow meter. Thus, a sequential measurement of the amount of liquid in all sections of the accumulator takes place and then the flow rate through the flowmeter to be measured is determined. The application of the proposed invention allows to increase the accuracy of the calibration and calibration of flow meters without introducing high-precision devices into the stand design to maintain a given flow rate at the entrance to the flow meter. At the same time, by combining the spilling operations through the collector branches of the exemplary measuring instrument, the installation performance is improved (during the measurement of the amount of liquid in the accumulators, it is possible to change, turn the flowmeter or reconfigure it to another mode). Reducing the pouring time saves the resource of the flowmeter being calibrated. The expected economic effect obtained from the use of the proposed invention depends on the application of the flow meter being calibrated, its resource, etc. . Let us determine the economic effect obtained when using a rotatable flow meter to control the flow capacity of hydroresistance, scientific research institutes, for example, nozzles. Improving the accuracy of the calibration or calibration of the flow meter reduces the amount of potential that occurs during testing. The errors are divided into two groups: errors of the first kind — recognition of suitable nozzles as unfit and errors of the second kind — recognition of worthless; nozzles fit. Errors of the first kind entail unreasonable alteration or rejection of suitable nozzles, i.e. losses in production. Errors of the second kind are associated with the installation of substandard. force5 on operated products, which causes deviations from the normal operation of the engine, including increased fuel consumption. The economic effect of increasing the accuracy of measuring the throughput of hydroresistances is defined as the om of the economic effects of decreasing the production costs of an unreasonable conversion and. rejection of suitable injectors and from reducing fuel consumption during engine operation.

Claims (1)

INSTALLATION FOR GRADING AND VERIFICATION OF FLOW METERS by ed. St. No. 838383, starting with the fact that, in order to improve accuracy and performance, a storage tank is installed under each two-channel distributor, equipped with a drain valve installed with the ability to connect it to the flow part meter. 1C