RU9507U1 - HEAT SUPPLY SYSTEM - Google Patents

Abstract

1. The heat supply system, including the supply pipe, elevator, heat removal branches, characterized in that it is equipped with controllable control valves. 2. The system according to claim 1, characterized in that the controlled control valves are installed in pairs on each coil of the heat sink, one in series and the other parallel to it. The system according to claim 1, characterized in that each branch of the heat sink is equipped with one controllable control valve installed parallel to it.

Description

The claimed technical solution relates to: the field of heat supply and can be used in heating systems of residential, administrative and industrial buildings, if necessary, change the flow of heat carrier inside the heat supply facility.

The existing heat supply systems are designed for the design hydraulic mode, since the change in the amount of thermal energy supplied to the heat consumption object is carried out using the so-called quality control. In this case, it is not the amount of coolant supplied to the object that changes, but its temperature. If it is necessary to change the flow rate of the heat carrier inside the heat consumption object, including the design number of heat transfer branches, it is necessary to equip the heat supply system with additional devices and mechanisms. In elevator heat supply systems, this is associated with great difficulties, since a change in the flow rate of the coolant after the elevator is unacceptable due to a violation of the hydraulic mode of its operation.

Heat supply systems C 13, C 23 are known in which circulation pumps with a non-return valve equipped with a control system and sensors installed in the return pipe of the object or in the volume of regulation are used to control the flow of heat carrier at the heat supply object. The regulation mechanism consists in the fact that, if necessary, part of the coolant circulates repeatedly through the circulation loop, thereby reducing its temperature characteristics.

The disadvantage of this technical solution is the high cost and the impossibility of independent regulation of individual branches of the heat at the facility.

Closest to the claimed one is the heat supply system EZZ, C41, which includes a supply pipe, heat source branches of the heat supply object and a return pipe, in which an elevator is installed at the inlet of the heating branches of the heat supply object, creating an internal recirculation system that stabilizes the hydraulic mode of the system and reduces the temperature of the coolant coming from outside to the necessary parameters.

The disadvantage of the prototype is the impossibility of changing, if necessary, the flow rate of the coolant in order to regulate heat consumption inside the heat supply object, without the risk of disruption of the hydraulic regime.

The purpose of the proposed technical solution is to obtain the ability to control the heat consumption of objects equipped with elevators, independently in separate branches, while maintaining the operating mode of the elevator itself, with minimal cost for the reconstruction of the heat supply system

The essence of the claimed utility model lies in the fact that the known heat supply system, including a supply pipe, an elevator, heat branch and a return pipe 5 is equipped with controlled control valves. In this case, valves are installed on each branch of the heat in pairs, one in series, and the other parallel to it. In the case of the commensurability of the hydraulic resistance of the heat supply branch with the hydraulic resistance of the heat sink, each of the heat supply branches can be equipped with one controlled valve installed in parallel.

Figure 1 presents a diagram of the inventive heating system, where:

1 - supply pipeline;

2- return pipe;

3- elevator;

4; 5 - pressure equalization devices (combs); 6; 7; 8; 9 - warm

1 (3; 1 1; 1 2; 13; 14; 15; 16; 17 - controlled control valves.

When operating the inventive heat supply system, the following occurs:

The coolant enters the supply pipe, and then through the elevator through the pipes of the heat supply branches, it is supplied to the heat sink in which it is heated. When the flow rate of the coolant changes, a pair of control valves controlled by one control channel is triggered in antiphase, i.e. when one closes, the other opens. During the reconstruction, the valves are selected and adjusted in such a way that the total amount of flowing coolant remains constant. This is due to the fact that the increase in hydraulic resistance on the supply branch is compensated by its decrease in the parallel branch in the area of the heat, Thus, for any change in the flow rate s of individual branches through the elevator node flows the estimated amount of coolant and it works in the calculated hydraulic mode. In the case when the hydraulic resistance of the heat supply branch is commensurate with the hydraulic resistance of the heat sink, it is possible to use one rather than two valves. It remains as a control valve parallel to the heat sink.

LIST OF REFERENCES

1. Advertising brochures of the company GRUNDFOS.

2. Advertising prospectuses of DANfOSS company.

Automation of district heating by DANfOSS regulators.

3.V.A. Lereverzev, V.V. Noises

Reference master heating networks. L, Energy, 19S0

4.N.M. Singer, V.G. Bestolchenko, A.A. Zhidkoz Improving the efficiency of heating points. P., Stroyizdat, 1990

Claims (3)

1. The heat supply system, including the supply pipe, elevator, heat removal branches, characterized in that it is equipped with controllable control valves.  2. The system according to claim 1, characterized in that the controlled control valves are installed in pairs on each coil of the heat sink in pairs, one in series and the other in parallel to it. 3. The system according to claim 1, characterized in that each branch of the heat sink is equipped with one controllable control valve installed parallel to it.