SU1360322A1 - System for combined automatic control of input of mains water - Google Patents

Abstract

The invention makes it possible to ensure the use of the heat storage capacity of a building during the passage of heat supply peaks and to stabilize the flow of network water. For this purpose, an additional controller (P) 12 of the water consumption for hot water supply is set to P 6, which limits the total consumption of network water. Sensor 13 t-ry P 12 installed on the return pipe I1 heating devices. Sensor 13 P12 is made with installation on the t-ru, lower compared to the installation of the t-ry of the sensor 10 of the main P9 water consumption for hot water supply. Thus, P6 periodically adjusts the total consumption of network water. Ensuring the regulation of the low water level in the system with the help of P12 makes the system universal and applicable to consumers with any ratios of heat loads, as well as ensure the reduction of network water consumption during the period of water consumption peaks. 1 il. • (L

Description

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Claims (1)

SAE IsD U1I3fi The invention relates to a power system and can be used for combined automatic control of the flow of network water for heating and hot water supply. The aim of the invention is to ensure the use of the heat storage capacity of a building while passing through the peaks of the heat supply and stabilizing the flow of the network water. The drawing shows a schematic diagram of one of the possible variants of the described system. The system of combined autonomic control of the flow of mains water for heating and hot water supply in a heat supply station with direct and return pipelines 1. and 2 of the heating network, as well as direct and return pipes 3 and 4 C1 1 devices 5, is combined with a regulator the heating flow regulator 6, which limits the total consumption of supply water, is equipped with a pulse breaker, a temperature sensor 7 installed in the return pipe A, and a sensor 8 for outdoor air, the main regulator torus 9 of water flow for hot water supply with temperature sensor 0 installed on the supply pipe 11 of the hot water supply system, additional controller 12 of water flow for hot water supply installed up to controller 6 and having a sensor 13 of the lower level of the temperature in the flow pipe 11 hot water systems. In this case, the sensor 13 of the additional controller 12 is made with a setpoint for temperature lower than the setpoint of the temperature of the sensor 10 of the controller 9 for the flow of hot water. The heating system also contains a hydraulic elevator 14 with a mixing line 15 and a mixing pump 16 with a valve 17 and a check valve 18 on the corresponding line 19, the hot water system will also contain a circulation pipe 20, water taps 21 and a bypass pipeline 22, and the return pipe 4 heating systems are connected to the return pipe 2 of the heat network through the throttle 23. On the supply pipe II, the circulation pipe 2-0., The bypass pipe 22 between them and the outlet 24, 25 to the hot water supply respectively installed check valves 26, 27, 28, 29, 30. Operation of the combined system of automatic flow control system water for heating and the hot water supply is carried out as follows. The heated network water through pipeline 1 is fed through regulator 6 into the direct pipeline 3 of the heating devices 55 after which the cooled network water enters the return pipeline 4, the temperature of the water in the return pipeline 4 is maintained depending on the outdoor temperature according to using sensors 7 and 8 of temperature by regulator 6, after which the network water through flow regulator 9 for hot water supply and non-return valve 29 enters the supply pipe 1I of the hot water system when The water temperature after the heating devices 5 has reached the temperature below the setting temperature of the regulator 9, which is pulse-operated from the temperature sensor 10, If the temperature of the hot water in the pipeline i1 when the main flow regulator 9 is fully opened for hot water supply drops to the setting temperature of the additional regulator 12 , - tuned to a lower water temperature than the main regulator 9, and operating on a pulse from the temperature sensor 13, the network water from the pipeline 1 goes through the regulator 12 in addition to the regulator torus 6 into pipeline I1, in which it mixes with water flowing into it from pipeline 4 through check valve 26, and when regulator 6 is completely closed through through bypass pipe 22 and check valve 28, since check valve 27 on the circulation pipe 20 in this case, it closes. During the cold period of the heating season, when the temperature of the water in the return pipe of the 4 heating devices 3 is not lower than the temperature of the main regulator 9, the latter is closed, and the regulator 6 passes the mains water only to the heating devices 5 with a flow rate that provides the required temperature schedule 136 ( datas Kaiv .-. KiusM i SMiH.ip.iTvpiii) temperature i system of pipe 4 When the water temperature in the return pipe 4 drops below the temperature to which the main regulator 9 has regressed, the valve opens and passes a part of the supply water that has passed the regulator valve 6 into the pipe 11 in an amount necessary to reheat the water coming through the pipeline 1 1 to the water intakes of the taps 21 at the temperature level set for regulator 9. At the same time, after the regulator 9 is triggered, the time required for the heating devices 5 to react to a change in the flow rate of water supplied to it through the direct pipeline 3, and expressed in the change in the temperature of the return pipe A, begins gradually or on the other side, the movement of the regulator valve 6 at a speed that ensures a smooth change in the water temperature in the return pipe 4. This speed of the valve regulator 6 can be achieved either by inserting the valve on the regulator 6 through long pauses (30-60 min) for short intervals of time, for which the valve, if there is a command to open or close, is re-immersed by 5-10% of its full stroke, or through relatively short pauses (2-5 min) for shorter time intervals, selectable experimentally depending on the type of controller and the speed of movement of the valve of the pilot valve 6 when it is activated. These modes of operation of the regulator valve 6 are provided by the inclusion of a step pulse chopper in the electric drive control circuit. In such a slow mode of operation of the regulator valve 6, installing it on the direct pipe I of the heat network before the main regulator 9 of the water flow in the hot water supply system stabilizes the hydraulic mode of operation of the direct pipeline 1, since during the passage of water consumption peaks in the mountain system water supply, the duration of which usually does not exceed 30-50 minutes, the regulator 6 does not have time to work on the valve and remains in the previously selected position. At the same time, the passage of the peaks of the hot water supply in the case of a corresponding increase in the network flow pass through the valve of the main regulator 9 of the water flow in the hot water system and a reduction in the flow rate of the network water in the direct piping of 3 heating devices 5. Thus, when the peaks of the hot water pass through the regulator 6 performs the functions of limiting the total flow rate of the supply water, coming through it to the heating devices 5 and through the valve of the main flow regulator 9 to the supply line I 1 hot water system. If, when the valve of the main regulator 9 is completely opened, the water in the supply pipe 11 of the hot water system is not heated to the temperature to which the additional regulator 12 is built, the latter opens its control valve through which additional pipe enters the pipe 11 from the direct pipeline 1 network water consumption. It should be noted that the opening of the valve of the additional regulator 12, which is set to a lower temperature than the main regulator 9, may occur mainly during the transitional period of the heating season, when the flow of supply water through the valve of regulator 6 is significantly reduced, or when the outside temperature rises the valve of the regulator 6 closes. During other periods of the heating season, the valve of the additional regulator 12 of the water flow in the hot water supply system may also be triggered. consumers with increased maximum hot water consumption. However, even for these consumers, the consumption of supply water does not increase as much as the main heating of the water for hot water supply is carried out by passing the supply water through the valve of the main regulator 9, and the additional regulator 12 carries out reheating the water to the minimum allowed by sanitary standards value. Thus, in the described system, the controller 6 periodically adjusts the total flow rate of the supply water, setting it so that the temperature of the water in the return pipe 4, measured by the sensor 7, which is the main indicator of the operation of the heating devices 5, complies with the required outdoor temperature , measured by the sensor 8. At the same time, the quality and reliability of operation of the heating devices 5 is increased and, in part, the thermal heating of the internal heat and solar radiation is partially taken into account Because when povyshganii air temperature in heated rooms at the expense of internal. heat dissipation and solar radiation decreases the heat output of heaters 5, the temperature of the inverse of the heating water decreases and the controller ft reduces the total flow of supply water through its valve), and also the hydraulic mode of the heating networks is stabilized and the power consumption for pumping the heat carrier is reduced due to more precise control of the total consumption of network water for heating and hot water supply. In addition, the provision in the described system of regulating the lower level of water temperature in the hot water supply system using an additional controller 12 makes this control system universal and applicable to consumers with any ratios of heat loads of hot water supply and heating, as well as reducing consumption network water during peak water consumption. The described system of combined automatic control of the flow rate of network water for heating and hot water supply can also be implemented in open centralized heat supply systems with an independent heating system and in closed centralized heat supply systems, no matter what scheme the connection is made heating systems dependent or independent. In the last cjiyMae, the sensor 7 of the temperature opposite to the water heating system should be installed on the return pipe of C1Bode 4 of the local circulator of the heating circuit in front of the heating heaters. When implementing the described system of regulation in a closed system, the regulators 9 2 of the hot water supply system are connected to the direct pipeline 1 of the heating network before and after regulator 6 and to the inlet of the corresponding hot water heater, at the outlet of which (on the heating side tap water) installed sensors 10 and 13 of the specified regulators 9, 12, Use when implementing the described system pulsed automatic control of the flow of network water for heating and hot water Depending on the outdoor air temperature, 4 heating devices 5 can also be supplied with a temperature in the return pipe for dependent types of heating systems for most of the heating season (with the exception of the transitional period), and for some types of heating systems (bifillary, two pipe) , single-tube, with top wiring, etc., which allow for a significant reduction in the flow rate of the water circulating in them) and during the entire heating season, refuse to use it at heat points Max. mixing pumps 16. In general, when using the described control system, the consumption of heat-transfer fluid and electrical energy for its transfer in heating networks is reduced, the quality and reliability of the heating system is improved, and the water supply is stabilized and the hydraulic system is stabilized. combined automatic control of the flow of network water for heating and hot water in the heating station with direct and reverse heat pipelines and heating devices, containing a regulator that limits the total consumption of mains water, and regulators of water consumption for heating and hot water, each equipped with a temperature sensor, so that, in order to ensure the use of heat storage the ability of the building to pass through the peaks of heat supply and stabilize the flow of mains water, it additionally contains an additional water flow regulator for hot water supply installed before the regulator limiting the total flow of the water supplied with the pulse chopper of the walking body and at the same time with the aforementioned water flow regulator for heating, the temperature of which is installed on the return pipe of the heater13 of two devices, the sensor of the additional water flow regulator being made with a temperature setting lower than setpoint for the temperature sensor of the main water flow regulator for hot water supply.