RU2652974C1 - Method of the heating boiler operation in the system of hot water supply - Google Patents

Abstract

FIELD: heating; power engineering.

SUBSTANCE: invention relates to heat power engineering and can be used in individual heating systems for residential buildings. In the heating mode, the combustion products are heated in a heat exchanger by a heat transfer medium that moves naturally through the outlet, a three-way valve and pipes respectively into the heating circuit and the tank, heating at the same time heating appliances and heat exchanger for hot water supply, after which the cooled down return to the input of the heat exchanger heating through the pipes. When the tap is open, the water heated in the heat exchanger rises due to the lower density of the hot water riser, and the cold water in the riser is lowered into the heat exchanger, resulting in a constant circulation of water, heating the riser itself and the presence of water in the latter with a temperature close to the required value. When opening the water tap, a hot water sensor is triggered, as a result of which the three-way valve switches the flow of the heat carrier heated in the heat exchanger through the outlet to the vessel for intensive heating by means of a heat exchanger for hot water supply of cold water entering the latter and then into the riser from the main.

EFFECT: increased operational characteristics of the hot water supply system.

5 cl, 1 dwg

Description

The invention relates to a power system and can be used in individual heating systems and hot water supply of residential buildings.

The prototype is the method of operation of the boiler for heating and hot water supply, which includes supplying air to the combustion chamber, heating the heat carrier with gas products in the heat exchanger of the heating circuit, discharging combustion products through the removal pipe, supplying heat carrier to a buffer tank equipped with a heat exchanger for the hot water supply, and then to the supply pipe of the heating system, the flow of cooled water into the return pipe and from there to the heat exchanger of the heating circuit, while the air supply to the combustion chamber manure combined with its supply to the sealed boiler body and heated by removing some of the heat from the pipe to remove combustion products and the outer surface of the heat exchanger of the heating circuit, and the removal of combustion products is carried out simultaneously by ejection of heated air from the sealed housing [US Pat. RF 2452906, IPC F24H 1/08, 2012].

The disadvantage of the prototype is the inconvenience in operation, caused by the delay in the appearance of hot water from the fittings with a temperature close to the desired value, after a break in its consumption. In addition, after the indicated interruption in consumption, overheating of the water in the hot water heat exchanger may occur, as a result of which the water from the standpipe can go with a temperature much higher than the required value, which is dangerous from the point of view of getting a burn.

The objective of the invention is to improve performance.

The problem is solved in that in the method of operation of the heating boiler in the hot water supply system, which includes heating the heating heat exchanger in the boiler, continuously heating the hot water heat exchanger, supplying the last cold water to the inlet and draining heated hot water from it to the riser, the upper end of the hot water riser of the system connected to the upper end of the cold water riser, the lower end of which is connected to the inlet of the hot water heat exchanger.

Provide natural circulation of the heat carrier between heat exchangers of heating and hot water supply. In the area of the connection of the upper ends of the riser hot water and riser cold water change the area of the passage section of the connection. Natural circulation of the heat carrier between the heat exchangers of heating and hot water supply is provided by the igniter of the boiler burner. Natural circulation of the coolant between the heat exchangers of heating and hot water supply is provided by the igniter of the boiler burner, while the thermal power of the igniter is changed.

These distinctive features allow you to achieve the following advantages compared with the prototype.

The connection of the upper end of the hot water riser of the system with the upper end of the cold water riser, the lower end of which is connected to the inlet of the hot water heat exchanger, allows to reduce the time of leaving the demountable water fittings with a temperature close to the required one. This is due to the fact that as a result of this connection, a miniature heating system is formed in the hot water circuit. The water heated in the hot water heat exchanger rises due to the lower density up the riser, and cold water descends along the cold water riser and enters the inlet of the hot heat exchanger water. Thus, the resulting natural circulation contributes to the constant presence in the riser of hot water supply of water with a temperature close to the desired value. In addition, this circulation eliminates the overheating of water in the heat exchanger during a long break in its analysis by the consumer. All of this improves performance.

Ensuring the natural circulation of the coolant between the heat exchangers of heating and hot water supply allows you to not spend any other energy (except thermal) to ensure the availability of hot water in the riser, i.e. There is no need, for example, for a circulation pump. In addition, any other source of heating of the coolant in the hot water heat exchanger is also not required when the heating is turned off, since in this case, heating can be done using the igniter, which now must work constantly. All of this improves performance.

The change in the area of the connection of the upper ends of the riser of hot water and the riser of cold water the area of the cross section of the connection allows you to adjust the amount of water circulating through the risers, which makes it possible, ultimately, to vary the temperature of this water. For example, in cold weather during intensive operation of the boiler in heating mode, the temperature of the water in the hot water riser may exceed the required value. However, if you increase the area of the bore in the connection, the increased circulation will reduce the temperature of the water in the heat exchanger and, therefore, in the riser of hot water. Note that the temperature in the riser of cold water also rises slightly. All of this improves performance.

Ensuring the natural circulation of the coolant between the heat exchangers of the heating and hot water supply with the igniter of the boiler burner and changing its thermal power make it possible to maintain the required temperature in the riser of hot water in the absence of heating, for example, in the summer, which improves operational characteristics.

The invention is illustrated in the drawing, which shows a diagram of the operation of a heating boiler in a hot water system.

The hot water supply system contains a heating boiler 1 having a combustion chamber 2 with a chimney 3 for removing combustion products 4, a burner 5, an igniter 6, a heating heat exchanger 7, the input 8 of which is connected to the pipes 9, 10 of the heat carrier 11, which has cooled in the heating circuit and tank 12 and exit 13 - with the inlet 14 of the three-way valve, the outlet 15 of which is connected to the pipe 16 of the hot coolant of the heating circuit and to one end of the pipe 17, the other end of which and the outlet 18 of this valve are connected to the lower part of the tank 12, in which the heat exchanger 19 is placed oryachego water supply inlet 20 is connected to the manifold 21 and the lower end of the riser 22, the cold water and the outlet 23 - to the lower end of the riser 24, the hot water, the upper end of which is through valve 25 connected to the upper end of the riser cold water. The risers 22, 24 pass through the premises 26 located on different floors, which may have water-folding fittings (mixer) 27.

The method is implemented as follows.

In the heating mode, the combustion products 4 are heated in the heat exchanger 7 of the heating medium 11, which moves naturally (or by means of a pump) through outlet 13, a three-way valve and pipes 16, 17, respectively, into the heating circuit and tank 12, while heating devices (batteries ) and a hot water heat exchanger 19, after which it cools back to the inlet 8 of the heating heat exchanger 7 through pipes 9, 10. With the tap 25 open, the hot water heat exchanger 19 together with risers 22, 24 form a miniature system from water in the heat exchanger 19 due to the lower density rises through the outlet 23 along the riser 24 of hot water, and cold water in the riser 22 is lowered through the inlet 20 into the specified heat exchanger, as a result of which there is a constant circulation of water, heating of the riser 24 and the presence in the latter of water with a temperature close to the desired value. Note that by adjusting the area of the passage section of the crane 25 (flow rate of water flowing through it), it is possible to control the temperature of the water in the riser 24 within certain limits.

When the water fitting 27 is opened, a hot water sensor (not shown) is triggered, as a result of which a three-way valve switches the flow of heat carrier 11 heated in the heat exchanger 19 through the outlet 18 to the intensive heating tank 12 through the hot water heat exchanger 19 supplied to the latter and then to riser 24 from line 21. After stopping the analysis of hot water, the three-way valve returns to its original state by the signal of the hot water sensor and the described process is repeated.

When turning off the heating, for example, in the summer period, the circulation of water in the risers 22, 24 is provided by the igniter 6, which should in this case work continuously, while its thermal power can be increased.

The implementation of the invention will allow, without significant material costs and complicating the design of the hot water supply system, to reduce the time of emergence of hot water from the water fittings with a temperature close to the desired value after a break in its consumption, which will significantly improve the operational characteristics of the hot water supply system.

Claims (5)

1. The method of operation of the heating boiler in the hot water supply system, including heating the heating heat exchanger in the boiler, continuously heating the hot water heat exchanger, supplying the last cold water to the inlet and draining heated hot water from it to the riser, characterized in that the upper end of the hot water riser of the system connected to the upper end of the cold water riser, the lower end of which is connected to the inlet of the hot water heat exchanger. 2. The method according to p. 1, characterized in that they provide natural circulation of the coolant between the heat exchangers for heating and hot water. 3. The method according to p. 1, characterized in that in the zone of connection of the upper ends of the riser hot water and the riser cold water change the area of the passage section of the connection. 4. The method according to any one of paragraphs. 1, 2, characterized in that the natural circulation of the coolant between the heat exchangers for heating and hot water supply is provided by the igniter of the boiler burner. 5. The method according to any one of paragraphs. 1, 2, characterized in that the natural circulation of the coolant between the heat exchangers of the heating and hot water supply is provided by the igniter of the boiler burner, while the thermal power of the igniter is changed.

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