CZ302889B6 - Circuit arrangement for checking accuracy of flow meters - Google Patents

Abstract

The invented circuit arrangement comprises within a central distribution system of hot water an internal circulation loop (10) provided with a supply line (2) with a supply flow meter (1), a discharge line (3) with a discharge flow meter (5) and at least one branch (11, 12, 13, 14, 15) to one discharge (111, 112, 113, 114, 115) for hot water withdrawal. An inlet shut-off valve (81) is arranged in the water flow direction between said supply flow meter (1) and the first branch (11) of the first discharge (111) while an outlet shut-off valve (82) is arranged in the water flow direction between the last branch (15) of the last discharge (115) and the discharge flow meter (5). In order to check the accuracy of both the supply flow meter (1) and the discharge flow meter (4), said supply line (2) is connected between the supply flow meter (1) and the inlet shut-off valve (81) through the mediation of a check line (9) with the discharge line (3) between said outlet shut-off valve (82) and said discharge flow meter (5). In the check line (9), there is arranged a regulating shut-off valve (83). According to the present invention, a pressure transducer (71, 72) for indication of pressure surge is arranged within the circulation loop (10) between said inlet shut-off valve (81) and said outlet shut-off valve (82) or between all the branches (11, 12, 13, 14, 15) and discharges (111, 112, 113, 114, 115). Said pressure transducer (71, 72) is connected with an evaluation unit (20) for generating a power signal to control the phase of checking the accuracy of both the supply flow meter (1) and the discharge flow meter (5). Preferably, said pressure transducer (71, 72) can be connected with the evaluation unit (20) for generating a power signal to close the regulating shut-off valve (83) and to open the inlet shut-off valve (81), optionally to open the outlet shut-off valve (82).

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a circuit for checking the accuracy of flow meters in a central hot water distribution system comprising an internal circulation loop provided with an inlet duct with an inlet flowmeter, an outlet duct with an outlet flowmeter and at least one branch to one hot water outlet. The first shut-off of the first outlet is provided with an inlet shut-off valve and an outlet shut-off valve is provided in the direction of water flow between the last outlet of the last outlet and the outlet flowmeter, and an inlet line between the inlet flowmeter and the inlet shut-off valve with an outlet conduit between the outlet shut-off valve and the outlet flow meter, wherein a control shut-off valve is provided in the control line.

BACKGROUND OF THE INVENTION

It is necessary to maintain sufficient water temperature in central hot water distribution systems of large buildings so that hot water of the required temperature is available without delay after opening the outlet. The technical solution according to which a sufficient temperature of hot water in the central distribution system is maintained by means of a circulation loop connected by its inlet to the inlet line for hot water supply to the building from the external heat exchanger and its outlet to the outlet line external heat exchanger stations. The hot water circulates between the external heat exchanger station, where it is heated to a sufficient temperature and through the circulation loops of the central distribution systems of individual buildings. In the case of a central hot water distribution system with a circulation loop, an inlet flow meter is provided in the supply line and an outlet flow meter in the outlet line. The amount of hot water measured by the inlet flowmeter includes both the actual consumption of water flowing from the outlets in the building and the amount of hot water that circulates through the circulation loop. The amount of hot water measured by the outlet flowmeter is the amount of hot water circulating through the object. The difference between the measured values of the inlet and outlet flowmeters determines the hot water consumption of the central distribution system of the whole building.

Differing measurement accuracy in input and output flow meters may cause significant distortion of hot water abstraction data, especially at a time when the total hot water abstraction is low in relation to the total volume of circulating water. It is therefore necessary to regularly check the accuracy of the flow meters. The aim of checking the input and output flowmeters is to prevent unwanted overlapping of the error zones of the input and output flowmeters, which would show negative water consumption, that is, the object would not consume water according to the measured values of the input and output flowmeters. The inlet and outlet flowmeter readings are corrected to reduce measurement error and eliminate illogically measured values. In particular, the check should allow the flow meters to be detected and aligned (adjusting the flow meters so that the flow meter error bands are narrowed down to a value that allows the flow meters to be used to determine the amount of water drawn from the measured values. the overall endeavor is to increase the accuracy (reduce error) of this measurement.

In order to enable control, the prior art flow meters are arranged in pairs or set to a defined error. The flow meters are also checked by disconnecting the object's circulation loop from the external input line and the external output line. The hot water supply to the circulation loop in the building is thus interrupted and resumed only after the flow meter inspection has been completed. Since it is not possible to draw water from the individual outlets in the building while the circulation loop of the building is disconnected, it is necessary to check the flow meters at such a time of night that water abstraction is exceptional. However, even exceptional subscriptions need to be met,

Since if they are not satisfied, there is a risk that the water tap at the outlet will be left open and the building will be flooded if the water supply to the circulation loop is restored later.

It is an object of the present invention to overcome the disadvantages of the prior art and to provide a central hot water distribution circuit with a circulation loop which, by simple means, allows checking the accuracy of hot water consumption measurements at any time of day and night without limiting hot water consumption. to ensure water supply each time at least one of the circulation loop outlets is opened. It is also an object of the invention to control flow meters, including inlet and outlet flow meters, without delay after the demand for hot water supply has ended without disrupting hot water consumption.

SUMMARY OF THE INVENTION The shortcomings of the prior art eliminate the circuitry for checking the accuracy of flow meters in a central hot water distribution system comprising an internal circulation loop provided with an inlet line with an inlet flow meter, an outlet line with an outlet flow meter and at least one branch to one outlet for hot water. an inlet shut-off valve is provided in the flow meter and downstream of the first outlet of the first outlet;

2in the direction of water flow between the last tap of the last outlet and the outlet flowmeter, an outlet shut-off valve is provided, and to check the accuracy of the inlet and outlet flow meters, the inlet duct between the inlet flow meter and the inlet shut-off valve is wherein a check shut-off valve according to the present invention is provided in the control line, characterized in that a pressure sensor is provided in the circulation loop between the inlet shut-off valve and the outlet shut-off or between all taps and outlets connected to an evaluation unit for providing a powerful signal to control the accuracy phase of the input flow meter and output flow meter.

The pressure switch is connected to an evaluation unit for outputting a power signal to close the check shut-off valve and to open the inlet shut-off valve, or the pressure sensor is connected to the evaluation unit for outputting a power signal to open the outlet shut-off valve. This stops the flow measurement of the inlet flow meter and the outlet flow meter. Advantageously, the pressure sensor may be coupled to an evaluation unit to provide a powerful signal to open the check shut-off valve and close the inlet shut-off valve and the outlet shut-off valve. Advantageously, a control flow meter may be connected in series with the check shut-off valve in the control line.

• w If, at the time of the check, by opening the hot water tap in a separate circulation loop, there is a demand for hot water, the pressure drop always causes a pressure surge in the circulation loop which can be indicated and the hot water supply to the circulation is restored object loop. This ensures that hot water is always supplied whenever a demand is made. Therefore, the meters need not be checked only at the time of exceptional hot water consumption, but can be performed at any time of the day. The precision check circuit according to the invention makes it possible to ensure hot water supply whenever required. At the same time, it allows the meter to be checked when there is no hot water in the separate circulation loop. This function can be provided by using the pressure sensor signal. The sensor signal is used by the evaluation unit either directly as a command to switch the fittings separating the circulation loop or pressure change information, based on which the evaluation unit evaluates the pressure change and commands the opening of the fittings separating the circulation loop from the hot water inlet and outlet. The pressure sensor of the invention indicates the pressure surge that occurs when the hot water outlet from the loop is opened when the circulation loop is separated from the hot water inlet and outlet lines. If the circulation loop is separated from the hot water inlet and outlet lines, a pressure drop can occur spontaneously during the measurement

-2GB 302889 B6 due to a leak in the circulation loop. However, the pressure surge that can be detected by the pressure sensor occurs even if the pressure in the circulation loop decreases due to a leak in the circulation loop. After the circulation loop has been separated, the pressure drop down to the water column height level in the circulation loop can occur due to minor leaks. However, any opening of the tap will cause a sudden drop in this pressure as well. However, the highest point of the circulation loop must be placed higher than the taps on the top floor of the building. This can be easily done or minor adjustments can be made. Because the flow meter control takes a relatively short time, there is usually no pressure drop over this short time such that the pressure measured by the pressure sensor is less than the pressure corresponding to the height of the water column in the circulation loop. Similarly to the pressure sensor, the flowmeter sensors can also be used if the flowmeter is mounted on all outlets. Further evaluation of the sensor signal is identical. The impulse for sending the signal is the reaction of the flow meters to the pressure surge when the tap is opened due to the demand for hot water consumption. According to the invention, the demand for water supply is satisfied by the pressure sensor stimulation, setting the initial state in which the check shut-off valve is closed and the inlet shut-off valve and the outlet shut-off valve open.

By comparing the controlled flow meters with the control meter, the function of the whole set of meters is ensured and the operation of the measurement in defined parameters is enabled. The flow meters used to measure the flow and consumption of hot water in the circulation loop can also be used as part of the measurement of the heat contained in the flowing medium. Comparison of gauges with control gauges can be ensured by the evaluation unit of the gauges used. The pressure sensor may be coupled to an evaluation unit to provide a powerful signal to open the inlet shut-off valve and the outlet shut-off valve and close the check shut-off valve and thereby stop the flow measurement of the inlet and outlet flow meters. the evaluation unit itself. The pressure transducer may be coupled to an evaluation unit to provide a powerful signal to open the outlet shut-off valve and thereby interrupt the flow of the inlet flow meter and the outlet flow meter. The evaluation unit will give a signal to restore the flow rate measurement of the inlet flow meter and the outlet flow meter based on the signal received by the evaluation unit at the new pressure surge generated by the end of water abstraction.

Overview of the figure in the drawing

The wiring for checking the accuracy of the flow meters in the central hot water distribution system of the invention is shown in the drawing, in which Fig. 1 is a wiring diagram.

Exemplary embodiment

In FIG. 1, an internal circulation loop 10 is provided, into which hot water is supplied via inlet line 2 with inlet flow meter 1, outlet line 3 with outlet flow meter 5. The circulation loop 10 has taps 11, 12, 13, 14, 15 to the outlets. 111, 112, 113, 114, 115 for hot water. An inlet shut-off valve 81 is arranged between the inlet flowmeter 1 and the downstream water outlet 11 of the first lily outlet, and an outlet shut-off valve 82 is arranged downstream of the last outlet 115 of the last outlet 115 and the outlet flowmeter 5 and to check the accuracy of the inlet flowmeters I and. In the flow line 5, the inlet line 2 between the inlet flow meter 1 and the inlet shut-off valve 81 is connected by the control line 9 to the outlet line 3 between the outlet shut-off valve 82 and the outlet flowmeter 5. a pressure sensor 71 is provided between the inlet shut-off valve 81 and the outlet shut-off valve 82, or between all taps 11, 12, 13, 14,15 and outlets 111, 112, 113, 114, 115, a pressure sensor 72 is provided to indicate the pressure surge evaluation one 20 to output a power signal for controlling the accuracy check phase

The inlet flow meter 1 on the inlet line 2 of the circulation loop 10 and the outlet flow meter 5 on the outlet line 3 of the circulation loop 10 are checked and possibly corrected by means of a control flow meter 4 connected to the evaluation unit 20. a continuous function of the inlet flow meter 10 and the outlet flow meter 5 in defined parameters is enabled. Checking the function of the inlet flow meter 1 and the outlet flow meter 5 is performed by comparing their measurements with the control flow meter 4. The control is ensured by switching the fluid flow by the inlet shut-off valve 81, the outlet shut-off valve 82 and the check shut-off valve 83.

Claims (3)

PATENT CLAIMS Wiring for checking the accuracy of the flowmeter in a central hot water distribution system comprising an internal circulation loop (10) provided with an inlet line (2) with an inlet flowmeter (1), an outlet line (3) with an outlet flowmeter (5) and at least one branch (11) , 12, 13, 14, 15) to one outlet (111, 112, 113, 114, 115) for hot water withdrawal, wherein between the inlet flow meter (1) and the water flow direction the first branch (11) of the first outlet (111) 1) an inlet shut-off valve (81) is provided and an outlet shut-off valve (82) is provided in the direction of water flow between the last tap (15) of the last outlet (115) and the outlet flowmeter (5) and to check the accuracy of the inlet flowmeter (1) and outlet In the flowmeter (5) the inlet line (2) between the inlet flowmeter (1) and the inlet shut-off valve (81) is connected by a control A conduit (9) with an outlet conduit (3) between an outlet shut-off valve (82) and an outlet flow meter (5), wherein a control shut-off valve (83) is arranged in the control line (9). 10) a pressure sensor (71) is provided between the inlet shut-off valve (81) and the outlet shut-off valve (82) or between all branches (11, 12, 13, 14, 15) and outlets (111, 112, 113, 114, 115) ) a pressure transducer (72) for inductive pressure surge coupled to an evaluation unit (20) for outputting a power signal for controlling the accuracy of the input flow meter (1) and the output flow meter (5), wherein the pressure sensor (71, 72) is coupled with an evaluation unit (20) for outputting an output signal to close the check shut-off valve (83) and to open the inlet shut-off valve (81) or to output an output signal to open the outlet shut-off Račího valve (82). A flow meter accuracy check device according to claim 1, characterized in that the pressure sensor (71, 72) is connected to an evaluation unit (20) for outputting a power signal to open the check shut-off valve (83) and close the inlet shut-off valve (81). ) and the outlet shut-off valve (82). The flow meter accuracy check circuit according to claim 1 or 2, characterized in that a flow meter (4) is connected in series in the control line (9) in series with the check shut-off valve (83).