RU2013157731A - HEAT METERING SYSTEM FOR A SINGLE-TUBE VERTICAL HEATING SYSTEM FOR BUILDING OR CONSTRUCTION - Google Patents

Abstract

1. A heat metering system for a one-pipe vertical heating system of a building or structure, containing at least two resistive temperature sensors that are installed on sections of a vertical coolant supply pipe connected to one or several parallel water heating devices adjacent to opposite horizontal ceilings of the building’s premises or facilities for measuring the temperature of the coolant at the inlet and outlet of a vertical coolant supply pipe, a flow meter mounted on a vert to the coolant supply pipe, to take into account the volume of coolant flowing through it, a computing device electrically connected to receive data from resistive temperature sensors and a flow meter, each of the resistive temperature sensors is connected to the computing device by four electrical conductors connected in pairs to opposite contacts of the resistive sensitive element RTD, one pair of conductors connected to opposite pins of the resistive probe of the sensing element is connected to a computing device for supplying electric current to the resistive sensitive element, and the second for measuring voltage on the resistive sensitive element, while the computing device is configured to calculate data on heat consumption over the accounting period of time according to the difference in the temperature of the coolant at the input and the output of the vertical coolant supply pipe received from the resistive temperature sensors, and the volume of the flowed coolant, as well as with the possibility of withdrawal

Claims (3)

1. A heat metering system for a single pipe vertical heating system of a building or structure, comprising, at least two resistive temperature sensors that are installed on sections of a vertical heating medium supply pipe connected to one or several parallel water heating devices and adjacent to opposite horizontal ceilings of the building or structure premises for measuring the temperature of the heating medium at the inlet and outlet of the vertical heating medium pipe, a flow meter mounted on a vertical coolant supply pipe to account for the volume of coolant flowing through it, a computing device electrically connected to obtain data with resistive temperature sensors and a flow meter, each of the resistive temperature sensors is connected to the computing device by four electrical conductors coupled to the opposite contacts of the resistive sensitive element of the resistive temperature sensor, one pair of conductors connected to opposite contacts of the resistive sensitive element is connected to a computing device for supplying electric current to the resistive sensitive element, and the second for measuring voltage on the resistive sensitive element, wherein the computing device is configured to calculate data on heat consumption over the accounting period of time according to the temperature difference of the coolant at the inlet and outlet of the vertical coolant supply pipe received from the resistive temperature sensors, and the volume of the flowing coolant, and also with the possibility of outputting the received data on the heat consumption for the accounting period of time. 2. The system according to claim 1, characterized in that one or more pairs of resistive temperature sensors are connected to the computing device, which are installed adjacent to the opposite horizontal floors of the building or structure in sections of one or more vertical coolant supply pipes located adjacent to one or more the premises of the building or structure, and each of the vertical coolant supply pipes is connected to its one or several parallel water heating devices and each of the vertical coolant supply pipes has its own flow meters, which are also connected to a computing device, wherein the computing device is configured to calculate and summarize data on heat consumption over the accounting period of time according to the temperature difference of the coolant at the inlet and outlet of each vertical coolant supply pipe, the resistive sensors of which are connected to the computing device, and also with the ability to output the received data on the total flow heat for the accounting period of time for all the specified vertical pipes of the coolant. 3. The system according to p. 2, characterized in that in the premises on one or more other floors of the building or structure, separate resistive temperature sensors are located similarly located, as well as separate computing devices similarly connected to them, moreover, common to each of these computing devices are connected for all floors, flow meters on each vertical coolant supply pipe, with the distribution of the flowmeter connections among computing devices depending on the connection of resistive sensors t temperatures installed on one or another vertical coolant supply pipe.