SU842345A1 - Apparatus for controlling heat removal in heat supply system - Google Patents

Description

The drawing shows a diagram of the proposed device. The device for controlling the heat consumption in the heat supply system consists of a supply pipe 1 with installed on it. water heater 2 upper stage and temperature controller 3, return pipe 4 with a water heater 5 lower stage, bypass pipe 6 with a controller 7 for heating water flow, connected in parallel to the supply pipe 1, pipe 8 ,. hot water of the upper stage, valves 9, a discharge pipe 1O, an additional water heater 11 and a temperature controller 12 installed on the discharge pipe 10, and a hot water pipe 13, an additional water heater located parallel to the hot water pipeline 8 the upper stage, the valve 14, the flow sensor 15, the temperature sensor 16 and 17, the discharge pipe 10 is connected to the feed pipe 1 to the bypass pipe bis reverse pipe 4 to the water heater 5 of the lower stage. The device works as follows. A part of the heating network water from the heat sources enters the heating system in a constant amount through the supply pipe 1 through the water heater 2 of the upper stage and the bypass pipe 6. The rest of this water enters through the discharge pipe of the additional water heater 11 into the return pipe 4, from where, mixing With water from the heating system, passes through the water heater of the lower stage 5 and returns to the heat source. The heated water from the cold water supply system passes through the water heater 5 of the lower level. After that, it is divided into two streams in quantities proportional to the heat loads removed from the water heater 2 upper stages and the additional water heater 11. These streams pass through pipelines 8 of hot water and through water heaters 2 and 11, and further, mixing They enter the hot water supply system. Regulator; 3 and 12 with their sensors 16 and 17, the temperature maintains the hot water temperature after the water heaters 2 and 11. The values of these temperatures are the same. The controller 7 with its own flow sensor 15 maintains a constant heating water flow rate equal to the normal heating flow. The proportional flow of oryear water in pipelines 8 and 13 of oryear water is established with the help of adapik 9 and 14. In the absence of water discharging, the flow rate e1 "of water through regulator 3 to outlet pipe 10 is zero, regulator 7 maintains constant water consumption and the heating is equal to the normal heating flow. When there is a water intake, the controller 3 opens and the controller 7 closes so that the water consumption for heating remains equal to the heating flow. Thus, as in the known device, heat is saved for heating at low outside temperatures by eliminating the possibility of excessive heating of water. Here, in the upper stage water heater 2, only a part of the hot water is heated to the desired temperature. The remainder of this water is heated in the additional water heater 11 by the network water flowing through the discharge pipe 10. After the additional water heater 11, the network water leaves with a temperature always lower than eliminating the possibility of boiling water at any water pressure in the return pipe 4. A smaller number of regulators and their installation in pipelines 1 and 10, which are not dependent on each other, increases the stability of regulation. The performed technical calculations show that with the same heat loads of heating and hot water supply, the total flow rate of network water from the heat source and the total heating surface of all water heaters in the proposed device does not exceed the same flow rate and total heating surface of the water heaters in the known device, and the cost of the pipeline hot water, additional water heaters and gate valves with installation are less than the cost of one unnecessary flow controller in a bypass pipeline to familiar device. Therefore, the cost of creating and operating the proposed device is less than for the known device. At the same time, due to the possibility of functioning at any pressure of water in the return pipe

The proposed device has a wide range of applications.

Claims (1)

Claims. five A device for controlling the heat consumption in the heat supply system, containing a supply pipe with an upper stage water heater and temperature controller installed on it, a return pipe with a lower stage water heater, a bypass pipe with a network water consumption regulator for heating connected in parallel to supply - 15 The main piping, the hot water piping of the upper stage and the discharge piping, characterized in that, in order to increase reliability, it is equipped with additional water tank and temperature controller installed on the discharge piping, and the latter is connected to the feed pipe to the bypass the pipeline and with the return to the water heater of the lower stage, and the hot water pipeline of the additional water heater is parallel to the hot water pipeline of the upper stage. Sources of information taken into account during the examination 1. USSR author's certificate No. 643723, cl. F 24 D 17 / GS, 1976.