RU2202740C2 - Circuit arrangement for raising temperature of water-heating system by means of heat generator - Google Patents

Abstract

FIELD: water heating systems for apartment houses and industrial buildings. SUBSTANCE: circuit arrangement has heat generator, heating-system motor-driven water pump communicating with heat generator through injection pipe, delivery and return pipelines provided with individual valves. Valves of delivery and return pipelines are interconnected in parallel so that inlet pipe of valve that provides communication with delivery line of pipeline through its outlet pipe is connected in parallel with inlet pipe of valve whose outlet pipe provides communication with return pipeline; starting end of return pipeline is joined with outlet pipe of heat-transfer apparatus incorporated in most distant user. EFFECT: enlarged functional capabilities. 2 dwg

Description

 The invention relates to a device for heating water heating with a heat generator used in the construction of residential and industrial premises, and can be used in other sectors of the national economy.

 A known heating system of a water heating system comprising a heat generator, an electric water mains pump connected to a heat generator body using an infectious branch pipe, supply and return pipelines with individual valves, respectively, connected in series with each other and between the outlet pipe of the cylindrical part of the body (hereinafter CCC) and collector i.e. the supply line of the pipeline, and the outlet pipe of the first valve connected to the inlet pipe of the second valve and in parallel with the return line of waste hot water, i.e. with a return pipe, in turn, connected at one end to the pump inlet, forming a "Small Circle" of water circulation (hereinafter referred to as the heat transfer medium), with the other end connected through a heat exchanger system, forming a "Big Circle" of heat transfer (see patent 2045715, 6 F 25 B 29/00, 1993 "Heat generator and device for heating a liquid").

 The disadvantage of such a heating scheme for a water heating system is that the series connection of the valves between them makes it difficult to adjust the flow of the coolant with the required temperature, which is necessary for natural periods of time, namely when the seasonal environmental temperature changes or sudden long-term warming of the weather in winter.

 This is due to the fact that when the first valve is fully open, connected to the output pipe of the central control circuit, the circulation of the Small Circle reduces the circulation of the Big Circle, thereby not excluding the possibility of insufficient heating of the heat exchangers of the distant consumer from the heat generator. The initial end of the return pipe connected to the outlet pipe of the heat exchanger of the nearest consumer contributes to the same effect. At the same time, in order to increase the circulation of the Big Circle, it is necessary to reduce the circulation of the Small Circle, and if the circulation of the latter is reduced, the circulation of the Big Circle is directly proportional to it.

 The aim of the present invention is to increase technological capabilities.

 This goal is achieved by the fact that in the heating circuit of the water heating system with a heat generator comprising a heat generator, an electric water pump connected to the heat generator body by means of an injection pipe, supply and return pipelines with individual valves, respectively, the latter are connected in parallel so that the input the nozzle of the valve communicating with its outlet nozzle to the supply line of the pipeline is connected in parallel with the inlet of the valve communicating with its yhodnym pipe line with the return line and the starting end of the return pipe line connected with an outlet of the heat exchanger of the remote user.

 Figure 1 shows the proposed scheme for heating a water heating system with a heat generator.

 Figure 2 shows the heating circuit of a water heating system with a heat generator of an existing solution (prototype) to better represent the difference in the efficiency of their circulation.

 The heating circuit of a water heating system with a heat generator comprises a heat generator 1, a network water pump 2 with an electric drive 3, connected to the housing of the heat generator 1 by means of an injection pipe 4, supplying 5 and return 6 pipelines with individual valves 7 and 8, respectively, whose inlet pipes are connected in parallel and in series - with the outlet pipe 9 of the central control unit, consumer heat exchangers 10 and the bypass pipe 11 connecting the heat generator 1 with the pump inlet 2 and the outlet end of the return pipe string 6.

 Such a heating scheme of a water heating system works as follows.

 When the valve 7 is fully open and the valve 8 is completely closed, hot water enters the supply pipe 5 and through the consumer’s heat exchangers 10 connected in parallel to it, transferring heat to it, water flows from the outlet pipe 12 of the most distant consumer’s heat exchanger to the return pipe 6, and the latter directs it in the bypass pipe 11, from where it enters the inlet pipe of the pump 2 for a second cycle.

 If necessary, reduce the temperature of the heat exchangers 10 open the valve 8 and limit its throughput as it reaches the required temperature. Moreover, a certain part of the hot water, bypassing the heat exchangers 10, leaves the Small Circle through the return pipe 6 to the bypass pipe 11 and then to the inlet pipe of the pump 2 for a second cycle, thereby uniformly lowering the temperature of the heat exchangers 10 of all consumers.

 The economic efficiency from the application of the proposed scheme lies in the fact that with increasing technological capabilities in regulating the circulation of water, the speed and uniformity of heating of heat exchangers of all consumers increases.

Claims (1)

 A heating circuit of a water heating system with a heat generator, comprising a heat generator, an electric water mains pump connected to the heat generator body by means of an injection pipe, supply and return pipes and individual valves, characterized in that the latter are connected in parallel so that the inlet pipe of the valve communicating its outlet pipe with the supply line of the pipeline, connected in parallel with the inlet pipe of the valve, communicating with its outlet pipe with a return line first conduit and the starting end of the line of the return line connected with an outlet of the heat exchanger of the remote user.

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