RU2696678C1 - Liquid measuring device with calibration device - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to a method for determining metrological characteristics of a dummy during verification (primary or periodic) using a water weighing method. Measuring device with verification device includes housing, neck with water indication window and drain pipe with drain valve, at that, measuring unit is installed on vertical supports rigidly connected to platform for arrangement of reference weights, which by means of mechanism screws arrestment are connected with mounting frame containing weight sensors connected with weighing terminal with indicating means.

EFFECT: technical result consists in provision of primary and periodic calibration of high-precision measuring device without need for expensive equipment.

1 cl, 3 dwg

Description

The invention relates to a method for determining the metrological characteristics of a measuring device during calibration (primary or periodic) using the method of weighing water.

Requirements for metal reference measuring devices of the 1st and 2nd category are regulated by GOST 8.400-2013, which, among other things, establishes the methodology for their initial and periodic verification.

According to GOST 8.400-2013, the capacity of the measuring devices of the 1st category is determined using the method of weighing water in the calibrated measuring device on a reference scale with an error of ± 0.005%. To determine the capacity of the measuring unit carry out the following steps:

1. An empty wetted measuring cup is installed on the scales, balanced with an arbitrary load. Remove the measuring device from the balance.

2. Install the measuring device, ensuring the verticality of the neck. Fill the measuring device with water to the mark of the nominal capacity or to overflow at the neck with a spillway. After 10 minutes of exposure, measure the temperature of the water in the meter and record the temperature of the water-meter system, taking the temperature of the meter as the temperature of the water, restore the water level at the mark of nominal capacity.

3. Weigh the filled meter and determine the mass of reference weights that balance the water in the meter. The weighing result is recorded in the protocol.

4. Drain the water. To remove it from the calibrated measuring device after draining with a continuous stream, the extract is drained to drain drops for 1 min and the drain valve is closed.

In the case when the weighing limit of the reference balance does not allow water to be weighed directly in the calibrated meter, the weighing should be carried out in several stages using an auxiliary tank mounted on the scale (a container designed to weigh the drained doses of water from the calibrated meter).

The capacity of the measuring device with a scale on the neck at any point on the scale is determined as the sum (difference) of the nominal capacity of the measuring device and the capacity of its neck from the mark of nominal capacity to the selected mark.

The values of the mass of water obtained during the measurements are converted into the values of volume at 20 ° C. The price of dividing the throat scale is defined as the quotient of the throat capacity divided by the number of divisions.

In the above verification method according to GOST 8.400-2013, either lever scales that are not currently manufactured or electronic scales of a special accuracy class, which are distinguished by their high cost and the need for costly annual verification, are used. In addition, the use of auxiliary tanks adversely affects the measurement accuracy.

The technical task of the invention is the creation of a simpler and cheaper technology for calibration of the measuring device.

The technical result consists in providing primary and periodic verification of a high-precision measuring device without the need for expensive equipment.

The technical result is achieved by the fact that the measuring device with a calibration device comprises a housing, a neck with a water-indicating window and a drain pipe with a drain valve, while the measuring device is mounted on vertical supports rigidly connected to the platform for placing standard weights, which are connected to the installation frame by means of arresting screws, containing weight sensors associated with the weighing terminal with means of indication.

The invention is illustrated by drawings:

Figure 1 shows the design of the measuring device with a calibration device with a lower location of the installation frame;

Figure 2 presents the design of the measuring device with a calibration device with an upper arrangement of the installation frame;

Figure 3 presents a design option ungraded electronic scales.

Mernik, made in accordance with GOST 8.400-2013, GOST 8.633-2013 or in accordance with the manufacturer's technical specifications, approved in the prescribed manner, according to the claimed invention is additionally equipped with a built-in verification device.

The proposed device is used for calibration of the meter and can be used to periodically monitor the actual capacity of the meter in the calibration interval by the forces of the operating organization without involving an accredited calibrator or to determine the actual capacity of the meter at a given temperature immediately before verification using other measuring instruments using this meter.

The measuring device with a verification device (Fig. 1, Fig. 2) is a measuring device including a housing 1, a measuring device neck 2 with a water indicating window 3 and a drain pipe 4 equipped with a drain valve 5. The measuring device is mounted on vertical supports 6, rigidly connected to the platform 7 for placing reference weights, which are connected by means of screws of the locking mechanism 8 to the mounting rigid frame 9.

Weighing sensors 10 are installed on the installation frame, which are connected with the weighing terminal 11, which has a means of indicating readings 12. Depending on the design of the installation frame, various placement of the weight sensors 10 is provided. Figure 1 shows the construction of the measuring device with the installation frame 9 in the form of a horizontal platform. Figure 2 shows the design of the measuring device with the installation frame in the form of two horizontal platforms connected by vertical rods, while the weight sensors 10 can be installed on the upper platform of the installation frame 9.

The weighing terminal 11 has two main functions: converting the sensor signal into a digital code or receiving a digital code from the sensors in the case of using digital sensors without any mathematical code transformations and displaying this code on the display device 12.

For accurate positioning of the meter on the installation frame 9 installed leveling jacks 13. Level control is carried out using ampoules of level 14 installed in the upper part of the housing 1 measuring device.

Inoperative (transport) position of the measuring device: the water from the measuring device is drained, the drain valve 5 is closed, the screws 8 of the locking mechanism are screwed until a clearance of 10 ÷ 15 mm is formed between the measuring device supports 6 and the load cells 10 and are locked.

The claimed invention can also be used for the modernization of previously issued measuring devices, as well as verification of ordinary measuring devices. In FIG. 3 shows the design of a non-calibrated electronic scale, containing a platform 15 for placing the calibrated measuring device, mounted on supports 6 and a platform 7 for placing reference weights under it. The platform 7 in the working position is in contact with the load cells 10 mounted on the mounting frame 9. To position the device, jacks 13 are used, and to control the level, the level ampoule 14 mounted on the mounting frame 9 is used.

The implementation of the invention:

Weighing during calibration is carried out using a set of technical means consisting of load cells, a weighing terminal with an indicating device and connecting cables, which is an ungraded electronic balance (GOST R 53228-2008), and a set of reference weights.

The total permissible load of the load cells is at least 150% of the mass of the measuring device, filled with water to the nominal value. Accuracy class not lower than C3.

Description of the measuring device operation with the built-in calibration device in the case of the presence of a sufficient number of reference weights - their mass exceeds the mass of water in the measuring device filled to the maximum mark:

1. The product is placed on a flat horizontal platform.

2. The screws 8 of the locking mechanism are unlocked and turned out until the bearings of the measuring unit 6 touch the load cells 10.

3. The jacks 13 on the ampoule level 14, the product is installed in the working position.

4. The mernik is filled to the nominal mark with water and a 10-minute exposure is performed to remove air bubbles and establish temperature equilibrium between the measuring apparatus and the flooded water, after exposure the water level is monitored and, if necessary, the level is brought to the nominal.

5. The readings of indicator 12 of the weighing terminal 11 are recorded.

6. The drain valve 5 opens, after the expiration with a solid stream, an exposure is given to the drip drain and the drain valve 5 is closed.

7. Reference weights are sequentially placed on the platform 7 to place reference weights until indicator 12 is reached equal to the readings recorded when the meter is filled to the nominal mark.

8. The mass of reference weights located on site 7 is summed to accommodate reference weights. The mass of reference weights located on site 7 is considered equal to the mass of water in the measuring tank filled to the nominal mark.

9. Subsequently, based on the recorded mass of water, taking into account its density and temperature, the actual volume of the measuring device is calculated. In this case, the water temperature is measured by means of a thermometer installed in the thermowell 16.

10. The product is put into transport position.

Description of the measuring device with the built-in calibration device in the absence of a sufficient number of reference weights:

1. The product is placed on a flat horizontal platform.

2. The screws of the locking mechanism are unlocked and turned out until the bearings of the measuring unit 6 touch the load cells 10.

3. The jacks 13 on the ampoule level 14, the product is installed in the working position.

4. The mernik is filled to the nominal mark with water and a 10-minute exposure is performed to remove air bubbles and establish temperature equilibrium between the measuring apparatus and the flooded water, after exposure the water level is monitored and, if necessary, the level is brought to the nominal.

5. The readings of indicator 12 of the weighing terminal 11 are recorded.

6. A volume of water approximately equal in mass to the available reference weights is drained from the measuring device.

7. Install available reference weights on platform 7 for placing standard weights, and by draining or adding water, seek to establish indications on indicator 12 equal to those recorded in paragraph 5.

8. Take the reference weights and after calming the readings of the indicator 12 of the weighing terminal 11 record the readings.

9. The mass of reference weights is recorded in the verification protocol.

10. The actions described in clauses 6-9, are repeated until the water is completely drained from the measuring device, after the water has been discharged with a solid stream, time is given for drip water discharge and the drain valve 5 is closed.

11. On the site 7 for the placement of reference weights, reference weights are placed in series until the indicator 12 reaches the last recorded readings, the mass of 7 reference weights placed on the site 7 is recorded in the verification protocol. If the last recorded readings were not reached when placing on the platform 7 for placing standard weights all the available weights, the mass of the standard weights is entered into the verification protocol and water is added until the last recorded readings are reached, the standard weights are removed from the site for placing the standard weights and the indicator reads . Drain the water from the measuring unit, taking into account the exposure to drainage of the drops and close the drain cock 5. Gradually placing the reference weights on the platform for placing the reference weights, the indicated indicator readings are achieved. The mass of reference weights located on the site is entered in the verification protocol.

12. The masses of reference weights recorded in the verification protocol are summed up, and this mass is taken to be equal to the mass of water contained in the measuring tank, filled to the nominal mark.

13. Subsequently, based on the recorded mass of water, taking into account its density and temperature, the actual volume of the measuring device is calculated.

14. The product is put into transport position.

Description of the measuring device with an integrated verification device when determining the capacity of the neck.

1. The product is placed on a flat horizontal platform.

2. The screws of the locking mechanism are unlocked and inverted until the bearings of the measuring unit touch 6 weight sensors 10.

3. The jacks 13 on the ampoule level 14, the product is installed in the working position.

4. The mernik is filled to the maximum mark of the neck with water and a 10-minute exposure is performed to remove air bubbles and establish temperature equilibrium between the measuring apparatus and the flooded water, after exposure the water level is monitored and, if necessary, the level is brought to the maximum.

5. The readings of indicator 12 of the weighing terminal 11 are recorded.

6. Water is drained from the meter until the minimum mark of the neck is reached.

7. On the platform 7 for the placement of reference weights, the reference weights are placed in series until the indicator 12 reads equal to the readings recorded in paragraph 5, the mass of the 7 reference weights placed on the site 7 is entered in the verification protocol.

The implementation of the invention using the design of ungraded electronic scales, presented in figure 3 is similar to the operation of the measuring device with an integrated verification device. In this case, the calibrated measuring device is installed on a horizontal platform 15.

The advantages of the claimed invention:

The accuracy of measurements is increased due to the absence of the influence of the following factors: water losses when using intermediate tanks, reduced accuracy due to non-linear transformation of weights, changes in gravity depending on the geographical latitude and height of the place of verification and the uneven rotation of the Earth.

Claims (1)

Measuring device with a calibration device, comprising a housing, a neck with a water-indicating window and a drain pipe with a drain valve, characterized in that the measuring device is mounted on vertical supports rigidly connected to the platform for placing standard weights, which is connected to a mounting frame containing weight sensors associated with a weighing terminal with an indication tool.

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