SK1042006A3 - Connection on control volumeters in centre distribution heat water - Google Patents

Description

Technical field

BACKGROUND OF THE INVENTION The invention relates to a circuit for checking the accuracy of flow meters in a central hot water distribution system formed by an internal circulation loop equipped with an inlet line with an inlet flow meter, an outlet line with an outlet flow meter and at least one branch to one hot water outlet. an inlet shut-off valve is provided and an outlet shut-off valve is located between the last outlet of the last outlet in the water flow direction and the outlet flowmeter, and a supply line between the inlet flowmeter and the inlet shut-off valve is connected to the control line to check the accuracy of the inlet and outlet flowmeter. with a check shut-off valve with an outlet line between the outlet shut-off valve and the outlet flowmeter.

BACKGROUND OF THE INVENTION

Central hot water distributions in large buildings, such as residential buildings, offices, hospitals, hotels, etc., are created by a distribution loop in which hot water is forced to circulate to guarantee its supply immediately after each distribution loop outlet has been opened. In some buildings, e.g. In hospitals or hotels, hot water consumption throughout the building is measured using flow meters located at the boundary of the distribution loop and the external hot water distribution. In other buildings, e.g. in dwellings or apartment buildings, information on the hot water consumption of each part of the building is required separately, eg flat or office. Therefore, hot water abstraction is measured by flow meters located behind each tap of the discharge loop. Nevertheless, it is necessary to measure the total consumption of hot water at the same time in the whole building. The reliability and accuracy of hot water consumption measurement is a common requirement for the flow rate of 2 hot water distribution systems. From CZ-281 807 it is known to connect a central domestic hot water distribution system in which the central domestic hot water distribution system is formed by an internal circuit with outlet points which is separated from the external domestic hot water distribution system by a heat exchanger. The hot water from the external piping passes through an external loop with a heat exchanger, in which it transfers heat to the internal circuit water and then returns to the external piping. The heat exchanger is connected in parallel with a flowmeter to supply hot water to the inner circuit. The accuracy of the measurement depends on the accuracy of only one flowmeter, which only operates when water is drawn from the internal circuit, but it is not possible to check the accuracy of the flowmeter. It is generally known in the art to provide other hot water distribution systems in which hot water is permanently supplied to the distribution loop through a supply line from an external hot water distribution line and after circulation through the distribution loop, the hot water is returned to the external hot water distribution line. In such central hot water installations, an inlet flow meter is located in the supply line and an outlet flow meter is located in the outlet line. The difference between the measured values of the input and output flow meters is used to determine the hot water consumption of the central distribution system of the whole building. This connection is simple, but different inaccuracies of inlet and outlet flowmeter measurements can cause significant distortion of hot water abstraction data, especially at a time when 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. It is not possible to disassemble the flowmeters for regular, accurate measurement of the hot water consumption, but it is necessary to check the flowmeter accuracy during the operation of the central hot water distribution system. It is known from the state of the art to connect a central distribution system according to which an inlet shut-off valve is located between the inlet flow meter and in the water flow direction of the first outlet of the first outlet and in the water flow between the last outlet of the last outlet and the outlet flow meter between the inlet flow meter and the inlet shut-off valve is connected to the outlet line between the outlet shut-off valve and the outlet flow meter by means of a control line equipped with a check shut-off valve. In the control phase of the central hot water system, the inlet shut-off valve and the outlet shut-off valve are closed and the check shut-off valve is open. The hot water from the external distribution is not supplied to the distribution loop, but is returned from the supply line via the control line to the external distribution via the outlet line. The accuracy of the measurement of the inlet and outlet flowmeter is checked, e.g. by correcting the flow values measured by the input flow meter and the output flow meter to reduce the measurement error and eliminate illogically measured values. The input and output flow meters are usually set to a defined error. The accuracy of the inlet and outlet flowmeter measurements can only be checked at the time of day when there is no hot water consumption, because by closing the inlet and outlet valves the distribution loop is disconnected from the hot water supply from the external distribution. It is an object of the invention to overcome the disadvantages of the prior art and to achieve a central hot water distribution which, by simple means, allows checking the accuracy of the hot water consumption measurement without disturbing the hot water consumption.

The essence of the technical solution

Disadvantages of the prior art are eliminated and the object of the invention is fulfilled by the connection for checking the accuracy of the flow meters in the central hot water distribution system formed by an internal circulation loop having 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. wherein an inlet shut-off valve is provided between the inlet flow meter and in the water flow direction of the first outlet of the first outlet, and an outlet shutoff valve is located in the water flow direction between the last outlet of the last outlet and the outlet flowmeter; an inlet shut-off valve interconnected by a control line with a control shut-off valve with an outlet line between an outlet shut-off valve and an outlet flowmeter according to the invention, consists in that a bypass line is connected in parallel to the inlet shut-off valve, its inlet in the supply line downstream of the inlet shut-off valve and its outlet in the line in the direction of the hot water flow between the inlet shut-off valve and the first outlet of the first outlet; in the bypass line or between all taps and outlets there is a flow indicator or flowmeter connected to an evaluation unit for outputting a power signal to control the accuracy phase of the input flow meter and the output flow meter. Advantageously, the flow indicator may be coupled to an evaluation unit to provide a power signal to interrupt the control phase with the inlet shut-off valve and the outlet shut-off valve closed and the control shut-off valve open. Advantageously, the flow indicator may be coupled to an evaluation unit to provide a power signal for stopping the control phase by opening the inlet shut-off valve and the outlet shut-off valve and closing the check shut-off valve. Advantageously, the flow meter may be connected to an evaluation unit for evaluating the measurement of the hot water flow through the inlet flow meter and the flow meter in the control phase with the inlet shut-off valve (81) and the outlet shut-off valve closed and the check shut-off valve open. Advantageously, a check flow meter may be connected in series with the check shut-off valve. The advantage of the flowmeter accuracy wiring in the central hot water distribution system of the invention is that it is possible to interrupt the accuracy check phase of the inlet and outlet flow meters in the case of hot water withdrawal or to check the accuracy of the inlet and outlet flow meters independently of the hot water draw. In such a case, the hot water consumption is not affected by the control. An advantage of the connection according to the invention is furthermore the possibility of monitoring both the inlet and outlet flow meters and the outlet flow meters. Finally, the advantage of the connection according to the invention is the possibility of remote monitoring of the accuracy of flowmeter measurements.

BRIEF DESCRIPTION OF THE DRAWINGS

The connection for checking the accuracy of the flow meters in the central hot water distribution according to the invention is shown in the drawings, in which FIG. 1 shows a circuit diagram with a flow sensor in the bypass line, and FIG. 2 shows a circuit diagram with a flow meter in the bypass line.

EXAMPLES

According to FIG. 1 is a central hot water distribution system formed by a circulation loop 10, equipped with a supply line 2 with an inlet flow meter 1, an outlet line 3 with an outlet flow meter 5 and at least one branch 11, 12, 13, 14, 15 to at least one outlet 111, 112; 113, 114, 115 for hot water collection. An inlet shut-off valve 81 is located between the inlet flow meter 7 and the first tap 11 of the first outlet 111 in the water flow direction, and an outlet shutoff valve 82 is located in the water flow direction between the last tap 15 of the last outlet 115 and the outlet flow meter 5. and the outlet flowmeter 5, the supply line 2 between the inlet flowmeter 7 and the inlet shut-off valve 81 is connected by a control line 9 to the control shut-off valve 83 with an outlet line 3 between the outlet shut-off valve 82 and the outlet flowmeter 5. 7 results in an inlet to the supply line 2 in the direction of the hot water flow upstream of the inlet shut-off valve 81 and its outlet to the line in the direction of the hot water flow between the inlet shutoff valve 81 and the first branch 11 of the first outlet 111. A flow meter 62 is connected to the evaluation unit 20 for evaluating the hot water flow measurement by the inlet flow meter 1 and the outlet flow meter 5 in the control phase with the inlet shut-off valve 81 and the outlet shut-off valve 82 closed and the check shutoff valve 83 open. A check flowmeter 4 is connected in series with the check shut-off valve 83. In FIG. 2 shows the same wiring as FIG. 1, wherein a flow indicator 61 is provided in the bypass line 7, and a flow indicator 61 connected to the evaluation unit 20 is provided in the bypass line 7 to output a power signal to interrupt the accuracy of the input flow meter 1a of the output flowmeter 5 or to output a power signal to stop the control phase. by opening the inlet shut-off valve 81 and the outlet shut-off valve 82 and closing the check shut-off valve 83. The flowmeter 1 at the inlet pipe and the flowmeter 5 at the outlet pipe are checked and possibly corrected by the flow meter 4 in the evaluation unit 20. 5. in defined parameters. The function of the flow meter 4 can be performed by flow meters 1 to 5 mounted between the taps and the circulating loop outlets. Checking the flowmeter function is performed by comparing their measurements with the flowmeter. The control is ensured by switching the flow of the medium by means of the shut-off valve 83 or other suitable valves allowing the medium to flow through the control line 9. Comparison of the controlled flow meter with the control gauge (etalon) ensures the control of the whole measuring instrument. A separate flow sensor 61 or a flow meter 62 located in the bypass line 7 above the interruption of the loop 10 in the control phase may be used to confirm the correct function in checking and comparing the flow meter to be checked with the flow meter. This makes it possible to signal, or define, the flow of water between a separate part of the circulation loop. On the basis of this signaling or definition, it is possible to accurately evaluate the state at the time of the inspection, compare the flow meters and make an evaluation, or decide on the applicability of the performed measurement. At the same time, it is also possible to draw water from a separate part of the circulation loop at the time of inspection. Additional valves or non-return valves can be mounted on the bypass line 7. A pressure sensor can also be used to signal the function. The flow meters used to measure the flow and hot water consumption of the circulating loop can also be used to measure the heat contained in the flowing medium. The comparison of the flowmeters with the control flowmeter can be done by a separate device or this function can be performed by the evaluation unit of the meters used. The time and method of switching valves for inspection are not technically limited. The frequency of controls and the way in which the measured values are processed and stored are not technically limited. Final further processing of the measured values and displaying is not technically limited. The connection of the drain line 7 and its further fitting with the fittings is not technically limited, it only has to allow the connection of the separated parts of the circulation loop at the time of the flow meter check.

Claims (5)

PATENT CLAIMS 1. Wiring for checking the accuracy of flow meters in a central hot water distribution system, formed from an internal circulation loop equipped with an inlet line with an inlet flow meter, an outlet line with an outlet flow meter and at least one branch to one hot water outlet, between the inlet flow meter and water an inlet shut-off valve is located in the first outlet of the first outlet, and an outlet shut-off valve is located in the direction of water flow between the last outlet of the last outlet and the outlet flowmeter and the inlet line between the inlet flowmeter and the inlet shut-off valve is a shut-off valve with an outlet line between the outlet shut-off valve and the outlet flow meter, characterized in that a bypass line is connected in parallel with the inlet shut-off valve (81) not (7) resulting from their inlet to the supply line (2) in the hot water direction upstream of the inlet shut-off valve (81) and its outlet to the line in the hot water flow direction between the inlet shut-off valve (81) and the first branch (11) of the first outlet ( 111), wherein a flow indicator (61.63) or a flowmeter (61.63) or a flowmeter (61.63) or a flowmeter (61.63) or a flowmeter (61) 62, 64), which are connected 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), Flow meter accuracy check circuit according to claim 1, characterized in that the flow indicator (61,63) is connected to an evaluation unit (20) for outputting a power signal to interrupt the control phase when the inlet shut-off valve (81) and the outlet are closed. a shut-off valve (82) and an open check shut-off valve (83). The flow meter accuracy check circuit according to claim 1, wherein the flow indicator (61,63) is coupled to an evaluation unit (20) to provide an output signal for stopping the control phase by opening the inlet shut-off valve (81) and the outlet shut-off valve. valve (82) and closing the check shut-off valve (83). The flow meter accuracy check circuit according to claim 1, characterized in that the flow meter (62,64) is connected to an evaluation unit (20) for evaluating the measurement of the hot water flow through the inlet flow meter (1), the outlet flow meter (5) and the flow meter. (62,64) in the inspection phase with the inlet shut-off valve (81) and the outlet shut-off valve (82) closed and the check shut-off valve (83) open. Connection for monitoring flow meters in the central hot water distribution system according to claim 1, characterized in that a monitoring flow meter (4) is connected in series with the check shut-off valve (83) in the control line (9).