RU12856U1 - CAPACITY WATER HEATER - Google Patents

Abstract

1. A capacitive water heater comprising an injection gas burner having a housing in which a mixing chamber is located, in communication with a gas pipe and a system for supplying air to the burner, the burner outlet communicating with a container in which a system of through water pipelines is located, wherein the water heater has a discharge pipe gases to the atmosphere, characterized in that it is equipped with a fan, as well as an additional nozzle for communicating the volume of the tank with the space located between the inner part of the body of the injections ion burner and mixing chamber, the fan communicates with an additional patrubkom.2. The water heater according to claim 1, characterized in that the air supply system to the gas burner has air intake channels with a mechanism for regulating their flow area. The water heater according to claim 1, characterized in that the fan is in communication with the air supply system to the gas burner. The water heater according to claim 1, characterized in that the pipe for exhausting gases into the atmosphere is in communication with an additional pipe. The water heater according to claim 1, characterized in that the pipe for exhausting gases into the atmosphere is equipped with an adjustable damper. The water heater according to claim 1, characterized in that it is equipped with an additional fan in communication with the air supply system to the gas burner.

Description

Capacitive water heater.

A utility model relates to the field of heat engineering, namely, to means for heating water.

A water heater is known, including a gas burner in communication with a water boiler (Isserlpn A, C, Gas burners, Leningrad, bowels, 1973, p. 171-172). Since the area of the heated surface in this case is very small, the effectiveness of such a water heater is also insignificant.

Known for a capacitive water heater, including a burner, the outlet of which is in communication with the channel, in which are located the requirement for water to pass through them. Air nozzles for working on liquid and gaseous fuels, Moscow, Nedra, 1964, p. 36-39) .In this case, the efficiency of such a water heater is very low, since a significant part of the heat flux is not used,

Closest to the claimed is a capacitive water heater, including injection gas

a burner having a housing in which a mixing chamber is located, in communication with a gas pipe and a system for supplying air to the burner, moreover, the burner outlet is connected to a container in which a system of through water pipelines is located, moreover, the water heater has a pipe for exhausting gases into the atmosphere (Lando I .M. Burning fuel oil and gas in industrial boiler houses, Moscow, Gosenergizsdat, 1963, p. 44-47}. In this case, a fairly effective method of heating running water is used, however, the performance of this water heater is still not enough high.

The technical result in this case is to increase the operational performance of the water heater, which is achieved in

due to more efficient use of heat and air flows,

The specified technical result is ensured by the fact that the tank has an injection gas burner having a housing in which there is a mixing chamber in communication with the gas pipe and the air supply system to the burner, and the burner outlet is in communication with the tank in which the system of water passage pipelines is located moreover, the water heater has a pipe for exhausting gases into the atmosphere, is additionally equipped with a fan, as well as an additional pipe for communicating the volume of the tank with the space th between the interior of the body of the burner and the injection mixing chamber, when communicated ztom fan with an additional pipe.

At the same time, the air supply system to the gas burner may have air intake channels with a mechanism for regulating their flow area, and the fan may be in communication with the air supply system to the gas burner.

In addition, the pipe exhaust gas to the atmosphere can be communicated with an additional pipe and can also have an adjustable damper.

The water heater may also have an additional fan in communication with the air supply system to the gas burner.

Figure 1 presents a General view of a capacitive water heater, in FIG.2-BID side Fig Fig, Fig.3 is a section along aa of Fig.1.

The storage tank includes a tank 1, an injection gas burner 2, having a housing 3 "in which a mixing chamber 4 is located, in communication with the gas pipe 5 and the air supply system 5 to the burner 2, and the output of the burner 2 is in communication with the tank

- Ј 1, in which the system is installed; burner 2 and mixing chamber 4 (in this case, as an injection gas burner 2, a well-known injection gas burner of the type PR-310, cmL1sserdin A.S. Gas gas burners, Leningrad, Nedra, 1973, p. 42-43 can be used), with this fan 9 messages ene with additional 10.Sistema pipe 6 supplying air to the gas burner 2 has an air intake ducts 11 with a mechanism 12 to regulate their flow cross section. The fan 9 can be in communication with the system 6 for supplying air to the gas burner 2, and the pipe 8 for venting gases into the atmosphere can be communicated with an additional pipe 10. The pipe 8 for venting gases into the atmosphere can be equipped with an adjustable damper (not shown), and the water heater can have an additional fan (not shown) in communication with the air supply system 5 to the gas burner 2.

A DHW cylinder works as follows. Through gas pipe 5, gas is supplied to burner 2, and air is supplied through system 6. Gas is ignited in burner 2 from an external or integrated system (both are not shown). Water passes through a system of water through pipelines 7 .Combustion products, passing through the tank 1 with a system of through-water pipelines 7, heat their surface from which heat is transferred to the water flowing through them. Further, these products of combustion through the pipe 10 by means of a working fan 9 are fed into the space located between the inner part of the body 3 of the injection burner 2 and the mixing chamber 4, a, t: o: the atmospheric air through the channels 11 with the mechanism 12 for regulating their flow area continues to flow E mixing chamber 4 of the burner 2, where the combustion process is supported. .that, there is a complete oxidation of all products and the maximum use of the return energy of the flue gases. Thus, the flue gas circuit improves the efficiency of the burner and, therefore, the heater as a whole. The fan 9 can be generalized with the system 6 for supplying air to the gas burner 2, which allows you to adjust the process of combustion of gases, and an additional pipe 10 can be communicated with a pipe 8 for exhausting gases into the atmosphere} which can be equipped with an adjustable damper (not shown), which allows you to adjust the flow rate so called secondary air (see the book by Iserlin A.S.), and if the water heater has an additional fan (not shown) in communication with the air supply system 6 to the gas burner 2, the operation of burner 2 can be quite simply optimized Rova.

The use of the claimed capacitive water heater allows r a high degree of efficiency to carry out heating of water.

Claims (6)

1. A capacitive water heater comprising an injection gas burner having a housing in which a mixing chamber is located, in communication with a gas pipe and a system for supplying air to the burner, the burner outlet communicating with a container in which a system of through water pipelines is located, wherein the water heater has a discharge pipe gases to the atmosphere, characterized in that it is equipped with a fan, as well as an additional nozzle for communicating the volume of the tank with the space located between the inner part of the body of the injections ion burner and mixing chamber, the fan communicates with an additional pipe.  2. The water heater according to claim 1, characterized in that the air supply system to the gas burner has air intake channels with a mechanism for regulating their flow area.  3. The water heater according to claim 1, characterized in that the fan is in communication with the air supply system to the gas burner.  4. The water heater according to claim 1, characterized in that the pipe for exhausting gases into the atmosphere is in communication with an additional pipe.  5. The water heater according to claim 1, characterized in that the pipe for exhausting gases into the atmosphere is equipped with an adjustable damper. 6. The water heater according to claim 1, characterized in that it is equipped with an additional fan in communication with the air supply system to the gas burner.