RU98579U1 - MOBILE INSTALLATION FOR VERIFICATION OF MEASURES FOR WEIGHT OR VOLUME FLOW - Google Patents

Abstract

 A mobile installation for checking mass or volume measuring instruments, containing a volumetric device that measures the amount of liquid leaking through the installation, suspended on a tripod through a strain gauge weight sensor of a secondary device that performs the accumulation and mathematical processing of information, characterized in that it is equipped with an additional support frame mounted on chassis, windproof casing, which is a metal structure with 4 doors, where the upper is sliding, and the side and rear in the form of roller shutters and hollow front wall, inside which the volume taken by the device suspended on a tripod, tilt and temperature sensors, communicating with the secondary device, setting the level, the pump device.

Description

The utility model relates to precision instrumentation and can be used as an initial measuring tool for checking and calibrating means for measuring the mass or volume of fluid flow in place in real operating conditions.

Currently, to measure the amount of oil and oil products at oil depots and gas stations, there is a wide range of technical means for measuring the mass or volume of fluid flow, the work of which is based on various physical principles and effects.

In order to ensure the uniformity of measurements and to comply with the requirements of the legislation of the Russian Federation, measuring instruments used in acceptance operations between the supplier and the consumer are subject to verification (or calibration).

The verification process usually entails the removal of a means of measuring the mass or volume of fluid flow from operation, for sending them to a testing laboratory for the purpose of verification (calibration). This procedure leads to a stop of production for the period of verification or the need for the company to have an exchange fund of (reserve) measuring instruments, which leads to a loss of time and money. These losses can be reduced due to verification (calibration) of measuring instruments in the conditions of their operation.

To verify the means of measuring the mass and volume of fluid flow in operating conditions, reference equipment that meets the following requirements is necessary, firstly, it must constructively provide the necessary accuracy of measurement outside the laboratory (the value of the additional errors arising during calibration under operating conditions should be minimal), Secondly, be compact and mobile.

Known static flowmeter installations used in the verification of means of measuring fluid flow (Khansuvarov KI, Tseytlin VG Technique for measuring pressure, flow, quantity and level of liquid, gas and steam. - M .: Publishing house of standards, 1990., pg. 199-203).

The disadvantages of these installations are the design complexity, the ability to simultaneously use only one of the measurement methods (volumetric or mass), the inability to verify the measuring instruments on working fluids in the conditions of their operation, because structurally stationary installation.

Closest to the claimed technical solution (prototype) is the installation for verification of measuring instruments for mass or volume (see the description of the patent for utility model RU No. 45183, class G01F 25/00), designed for calibration of gas stations at gas stations, consisting of a volume a device that measures the amount of fluid leaking through the installation, suspended on a tripod through a strain gauge weight sensor; a secondary device that collects and mathematically processes information received from weight sensors, characterized in that an exemplary measuring device of the 2nd category is used as a volumetric device, having an inlet and a purge nipple, the inlet nipple is equipped with a dry connector device for connection of supply pipelines and supply of the product being verified.

The disadvantages of the known prototype should include the fact that its design does not allow calibration of means for measuring the mass and volume of liquid in the conditions of their operation. Since the design does not provide for the possibility of eliminating, firstly, deformation of the supporting frame when using strain gauges in the suspension of the measured capacity, and secondly, the influence of dynamic effects on the measured capacity (air and heat flows and vibrations, unilateral heating or cooling of the installation), thirdly, the influence of the subjective factor on the final measurement result. The above design flaws of the prototype lead to the occurrence of additional measurement errors exceeding several times its basic error.

The objective of the utility model is to increase the accuracy and the ability to verify the means of measuring the mass or volume of fluid flow at the place of their operation (in operating conditions).

The problem is solved in that the installation for verification of measuring instruments for mass or volume containing, a volumetric device (measuring device of the 2nd category with a volume of 2000 l) measuring the amount of fluid leaking through the installation, suspended on a tripod through strain gauge weight sensors; the secondary device that performs the accumulation and mathematical processing of information, according to the utility model, is additionally equipped with a support frame, Fig. 1 mounted on the chassis, a windproof casing, which is a metal structure with 4 doors, where the top is sliding, and the side and back are in the form of shutters and blind front wall; inside of which there will be a volumetric device (measuring device of the 2nd category with a volume of 2000 l), suspended on a tripod, with tilt and temperature sensors communicated with a secondary device, a level setting device, and a pump.

The proposed mobile installation for checking the means of mass or volume of fluid flow differs from the prototype in that it is additionally equipped with a support frame Fig. 1 mounted on the chassis, a windproof housing inside which will accommodate a volumetric device suspended on a tripod, tilt and temperature sensors communicated with the secondary device, level installation device, pump.

The presence of these new parts, their relationship and relationship with other (known) parts of the installation allowed him to show new properties, namely increasing the accuracy of measurements by reducing the influence of external influences on the calibration installation and the influence of the subjective (human) factor on the measurement result, the possibility of verification (calibration) of working tools for measuring the volume or mass of liquid under operating conditions and reduce the complexity (simplifying the process) of verification.

Figure 2 shows a schematic diagram of the proposed device.

A mobile installation for checking (calibrating) measuring instruments for mass or volume of fluid flow, contains a windproof cover - 1, with a volumetric device placed in it (measuring device of the 2nd category with a volume of 2000 liters) - 2, suspended on a tripod - 3 through strain gauge weight sensors - 4, rigidly connected to the support frame - 5, the drain pipe of the volumetric device is connected to the pump - 6, the input of the secondary device - 7 receives signals from strain gauge weight sensors - 4, the tilt sensor - 8 and temperature sensors - 9, 10, 11. Support frame - 5 is rigidly connected with w Assi - 12 installed on jacks - 13 in level - 14. The protective casing is equipped with sliding shutters - 16 and a sliding hatch door on the roof of the casing to provide access to the neck of the volumetric device (measuring device of the 2nd category with a volume of 2000 liters).

Mobile installation works as follows.

Before starting work, the installation must be installed on jacks - 13 and set at level - 14, so that the inclination sensor - 8 turns off the indication on the secondary device display - 7 about the installation error.

Mernik - 2 is moistened with verifiable fluid, not lower than the mark of nominal capacity and allowed to stand for 5 minutes. The contents of the measuring device using a pump - 6 is removed through the drain pipe. At the same time, it is necessary to make sure that the test fluid is completely removed, for this, after draining, an exposure is made for 30 seconds to drain the drops and restart the pump - 6 in order to empty the drain pipe. The control is carried out through the inspection window mounted on the lower drain pipe. This is where the preparatory work ends.

Verification (calibration) of means for measuring mass or volume using the installation is as follows. Before each measurement, it is necessary to reset the readings of the secondary device - 7, the window with the readings of the mass should be 0,000. Verifiable measuring instrument is prepared in accordance with the method of verification.

A volume equal to the nominal volume of the measuring device is dispensed into the volumetric device (measuring device of the 2nd category with a volume of 2000 l) through a verified (working) means of measuring the mass or volume of the liquid flow rate. From the measuring scale, readings of the volume of the test fluid are read and entered into the secondary device - 7. Then the doors (shutters) of the protective casing are closed, and readings are automatically taken from the strain gauge weight sensors 4, temperature sensors 9, 10, 11 and the tilt sensor - 8 incoming to the secondary device - 7, where the information is processed (with amendments to the volume and mass of the test fluid located in the measuring device). The display of the secondary device - 7 displays the actual volume, actual weight, dosing errors (mass and volume) and the observed (actual) density of the product received in the measuring device. On the basis of the measurement results, the secondary device - 7 forms a protocol that can be saved to flash media with subsequent printing on a computer.

The proposed design of the device provides improved accuracy and reliability of verification (calibration) of the working means of measuring the mass and volume of liquid in real operating conditions, by reducing the impact of external influences on the calibration installation and eliminating the subjective (human) factor on the measurement result, increasing the operational characteristics of the installation (mobility , reduced labor intensity) and as a result will reduce the loss of time and money spent on verification of measuring instruments.

Claims (1)

A mobile installation for checking mass or volume measuring instruments, containing a volumetric device that measures the amount of liquid leaking through the installation, suspended on a tripod through a strain gauge weight sensor of a secondary device that performs the accumulation and mathematical processing of information, characterized in that it is equipped with an additional support frame mounted on chassis, windproof casing, which is a metal structure with 4 doors, where the upper is sliding, and the side and rear in the form of roller shutters and hollow front wall, inside which the volume taken by the device suspended on a tripod, tilt and temperature sensors, communicating with the secondary device, setting the level, the pump device.