UA24382U - System of by-flat record of heat consumed in multistorey building with vertical pipe run - Google Patents

Abstract

System of by-flat record of consumed heat in multistorey building with vertical pipe (standpipes) run that includes room temperature indicators installed in each room of the building through which standpipe with heating radiators and communication lines goes connected to secondary device.

Description

Description of the invention

The proposed useful model refers to the thermal energy accounting technique and can be used, 2 in particular, for commercial accounting of consumed thermal energy both in individual rooms of a multi-story building with vertical distribution of pipes (risers), and in the building as a whole.

The closest to the proposed one in terms of the number of essential features is the apartment-by-apartment accounting system for consumed heat in a multi-story building with vertical distribution of pipes (risers), which includes room temperature sensors designed to be installed in each room of the house, through which a riser with 70 heating batteries passes. , and room temperature sensors are connected to the secondary device by communication lines

Information received on December 27, 2006. from the website pEr/Alumla Tpakh.gy/?aiy-18828). The mentioned system involves the installation of heat distribution indicators and floor recorders on apartment heating batteries, information from which is automatically transmitted once a day via communication lines to a bush recorder, where the on-duty dispatcher is located and the apartment-by-apartment database of consumed heat is formed.

The disadvantage of the described system is the insufficient reliability of accounting, as it involves obtaining information from heat accounting sensors installed on apartment heating batteries, the data from which can be easily distorted by the consumer, for example, by covering the sensor with a wet cloth, etc.

The basis of the proposed useful model is the task of creating such a system for accounting for the consumed heat in a multi-story building with vertical pipes, which would allow obtaining more reliable and controlled data. The task is solved by creating conditions under which the unauthorized influence of the consumer on the operation of the sensors and the system as a whole would be insignificant.

The proposed, as well as the well-known, system of accounting for the consumed heat by apartment in a multi-story building with vertical distribution of pipes (risers), includes room temperature sensors installed in each room of the house, through which a riser passes with heating batteries and communication lines connected to 29 of the secondary device, and, according to the proposal, it is supplemented with riser flowmeters intended for measuring the amount of coolant passed through the riser, riser calculators are used as secondary devices, each of which is designed to calculate the amount of heat consumed by heating batteries connected to the corresponding riser , each room temperature sensor is designed to measure the temperature of the coolant at the entrance of the riser into the room and at the exit of the riser - in the adjacent room, the room temperature sensors of the corresponding riser and the riser flow meter are connected by communication lines to the corresponding inputs of the riser computer, and the riser computers connected by a communication line to a central computer designed to form a database of apartment-by-apartment heat consumption. at

The proposed system for accounting for consumed heat is more reliable than the prototype system, as it allows /-«f to control the consumed heat in real time and, practically, excludes influence on the received action data

From a specific resident of the apartment to the operation of the system. with

At the same time, wired and wireless (radio and other) channels can be used as communication lines.

The essence of the proposed system for accounting for consumed heat in a multi-story building with vertical distribution of pipes (risers) is explained in the schematic drawing. The apartment-by-apartment accounting system for heat consumption in a multi-story building with vertical distribution of pipes (risers) 1, 2, 3, 4 (the number of risers З can be any) includes 5 room temperature sensors. 5 room temperature sensors are installed in each in the room (room) 6 of the house, through which the riser or 1, or 2, or 3, or 4 passes with heating batteries 7. The riser flowmeters 8 are designed to measure the amount of heat carrier passed through the corresponding riser 1, 2, 3, 4 and are connected communication lines to the corresponding riser calculators 9, designed to calculate the amount of heat consumed by the heating batteries connected to the corresponding riser. Each room temperature sensor 5 is installed on the upper or lower part of the corresponding riser in the room and is connected by a communication line (not shown) to the input of the corresponding secondary device - the riser computer 9. The outputs of the riser computers 9 are connected via a communication line to the central calculator 10, which is designed to form a database of apartment heat consumption. The system also includes

Mami has an automated heat point 11, designed to account for household heat consumption and regulate its supply to the house at 20.

As a central computer 10, processors of the Repiisht, AKega type can be used. and" As a riser calculator 9, a calculator from the company "Measuring Technologies" can be used (information obtained on February 23, 2007 from the site per://teazyge.sot.tsa/sopiasi tsa.piti.

As room temperature sensors 5, a thermal sensor from the company "Measuring 29 Technologies" can be used (information received on February 23, 2007 from the site pEr://teazyge.sot.tsa/taip tsa.piti.s The proposed system works as follows.

Coolant is supplied to risers 1, 2, 3, 4. At the same time, room temperature sensors 5, installed in each room 6 of the building, through which risers 1, 2, 3, 4 with heating batteries 7 pass, register the temperature difference at the entrance and exit of the riser section of each room b. Each riser flowmeter 8 60 is designed to measure the amount of coolant passed through the corresponding riser 1, 2, 3, 4. Signals from the sensors 5 and from the riser flowmeters 8 are sent via communication lines to the corresponding inputs of the riser calculators 9. The riser calculator 9 calculates the amount of heat consumed in the rooms through which the riser passes or 1 , or 2, or 3, or 4. At the same time, each riser computer 9 determines the amount of consumed heat as a product of the mass of the heat carrier, its specific heat capacity, and the temperature difference of the heat carrier at the entrance and exit of the room 6. Information from the riser computers 9 is sent to the central computer 10 , which forms a database of apartment heat consumption.

The automated heat point (ATP) 11 carries out general house accounting and regulation of heat consumption in the house as a whole, depending on the temperature of the outside air and/or the set mode.

The riser computers 9 are connected to the network, taking into account the readings of the temperature sensors 5, they calculate the heat consumption in the rooms 6 through which the riser passes. Technical capabilities may allow one computer 9 to serve two or more risers.

The central computer 10 receives data from the riser computers 9, forms an apartment-by-apartment database on 7/0 consumed heat, as well as on heat that goes to general household needs.

The automated thermal point 11 and the central computer 10 can be combined into a single module.

Heat used for general household needs is paid for by apartment owners according to an agreed formula (for example, in proportion to the thermal energy consumed by each apartment or in proportion to the area of the apartment).

To regulate heat consumption, a regulating device (not shown) is installed on each heating battery.

Each apartment temperature sensor 5 is attached in each room 6 directly to the riser or 1, or 2, or 3, or 4 under the ceiling and sealed. At the same time, the design of the seal /not shown/ prevents unauthorized access to the internal circuit of the sensor 5 without violating the integrity of the seal.

The scheme of the apartment temperature sensor 5 can also provide for alarming the dispatcher in case of unauthorized intervention (break-in).

From the apartment temperature sensor 5 to the computer 9, the signal can be transmitted by a communication line, as a wire, or a pipe (riser), or a radio signal.

The temperature of the heat carrier is controlled automatically every few minutes and in the case of detection of readings of the apartment temperature sensor 5 outside the permissible limits, the heat supply company has the right to access it, in order to replace it in case of malfunction or detection of unauthorized intervention.

Thus, the proposed system for accounting for consumed heat in a multi-story building with vertical pipe distribution allows to obtain more reliable and controlled data and is provided with the means of obtaining ("from data on the unauthorized influence of the consumer on the work of sensors 5 and the system as a whole, and the quality of its work does not depend on the number of risers 1, 2, Z, 4 heat carrier, floors and rooms 6 in the building.

Claims (1)

The formula of the invention « 35 , p. A system of apartment-by-apartment accounting of consumed heat in a multi-story building with vertical distribution of pipes (risers), which includes room temperature sensors installed in each room of the house, through which a riser with heating batteries and communication lines passes, connected to a secondary device, which is distinguished by the fact that it is supplemented with riser flowmeters designed to measure the amount of coolant passed through the riser, as secondary devices, riser calculators are used, each of which is designed to calculate the amount of heat consumed by heating batteries connected to the corresponding riser, each room temperature sensor is designed to measure the temperature of the coolant at the entrance of the riser to the room and at the exit of the riser - in the adjacent room, the room temperature sensors of the corresponding riser and the riser flow meter are connected by communication lines to the corresponding inputs of the riser computer, and rack computers connected and a communication line to the central computer designed for the formation of a database of d) apartment heat consumption. (95) oo 50 Ko) p. 60 b5