RU16397U1 - GAS HEAT GENERATOR - Google Patents

Abstract

A gas heat generator containing a housing inside which an infrared gas burner and an electric motor with a fan are built-in, characterized in that it is additionally equipped with infrared gas burners interconnected by a gas pipeline, inside which a protective diffuser is installed, a control unit with an LED and a temperature regulator, while the number of infrared ones gas burners from 9 to n, where n = 16, and the burners are located diametrically of the working surface inward, and the thermostat is installed outside the heat generator and connected to the control unit by wiring.

Description

Gas heat generator

The utility model relates to the field of heat power engineering, in particular to air-heating installations and can be used for heat supply of facilities in various sectors of the national economy.

A heat generator is known that contains a heat-insulated casing with an end inlet opening and a coaxial recirculation heating chamber formed by side and perforated end walls and provided with a centrifugal fan mounted on one drive shaft with an axial fan located between the inlet opening of the casing and the input end wall of the heating chamber, and provided a drive motor, while the recirculation heating chamber is placed in the housing with the formation of a peripheral gap and is equipped with the side walls of the outer and inner ribs, and on the outer surface of the output end wall - radial channels connecting the peripheral gap connecting the peripheral gap with the axial zone of the heating chamber, and the motor is placed in the housing between the axial and centrifugal fans on the same

IPC7 F24H 3/02

drive shaft (see A.S. USSR No. 819521, class F24H 3/02, F26B 21/02, F27B 17/00).

The disadvantage of this heat generator is the design complexity, low power of the burners.

A recirculation gas heat generator is known, comprising a housing with axially arranged pipe shells, a burner device and a fan with a connecting flange, as well as a nozzle, while the burner device is made entirely of metal and equipped with two inlets of air injected by discharge in the working space of the heat generator, the ratio of the inner shell and the fan nozzle is chosen equal to 2.2 - 1.5, and the outer and inner shells of 1.5 - 1.2, while the heat generator in the area of the front edge pits inner shell of the air fan is mounted downstream from the pipe for water supply, and on the periphery of the connecting flange formed air holes to purge the annular space between the shell and the outer shell (see. Nat. RF № 2144646, cl. F24H 3/02).

The disadvantage of this heat generator is its high fuel consumption, low burner power and fuel economy.

The closest in technical essence and accepted by the authors for the prototype is a heat generator containing a housing perpendicular to the axis of which a burner and a fan are built-in, while the fan is equipped with a nozzle mounted around the axis of the housing with a shell around it with an opening on its side surface, the outlet section of the burner is installed with adjacent to this hole, and the outlet section of the nozzle is displayed in the direction of the air beyond the front edge of the outlet section of the burner by an amount equal to 0.1 - 0.8 of the diameter of the latter (see USSR AS No. 1605107, CLP24H 3/02).

The disadvantage of this heat generator is the low power of the burner and the efficiency of fuel combustion.

The technical result that can be obtained by implementing the proposed utility model is to increase power by increasing the number of burners and the cost-effectiveness of fuel combustion, reducing fuel consumption.

The technical result is achieved using a gas generator containing a housing, inside which an infrared gas burner and an electric motor with a fan are integrated, while it is equipped with infrared gas burners connected between

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a gas pipeline, inside which a protective diffuser is installed, a control unit with an LED and a temperature regulator, while the number of infrared gas burners is from 9 to p, where, moreover, the burners are located diametrically on the working surface inward, and the temperature regulator is installed outside the heat generator and connected to the control unit by electrical wiring .

Figure 1 is a General view of the gas heat generator.

Figure 2 shows infrared gas burners with a protective diffuser, inside, a section.

In Fig. 3, a schematic diagram of a gas heat generator is given.

The gas heat generator consists of a housing 1, inside which there are built-in infrared gas burners 2, located diametrically on the inside of the working surface and interconnected by a gas pipeline 3, and the number of burners 2 is from 9 to p, where, in the housing 1, an electric motor with a fan 4 is mounted, as well as a unit control 5, the gas pipeline 3 is connected to an external source (not shown in FIG.) through a gas reducer 6 and a solenoid valve 7. On infrared gas burners 2, glow plugs 8 and a bimetallic plate 9 are connected output with control unit 5

electrical wiring 10. A LED 11 is installed in the housing 1, which is an alarm and connected to the control unit 5. Inside the infrared gas burners 2, a protective diffuser 12 is installed; outside the heat generator, a temperature regulator 13 is connected by wiring 10 to the control unit 5.

The gas heat generator works as follows.

A purge is carried out - the electric motor with a fan is switched on for 3-5 s, a signal is sent from the control unit 5 to turn off the electric motor with a fan 4, the solenoid valve 7 is opened and the glow plugs 8 are lit, gas is supplied through the gas reducer 6 and solenoid valve 7 through the gas pipeline 3 to infrared gas burners 2 and ignites for 2-3 seconds, the bimetallic plate 9 begins to heat up for the time necessary for the infrared gas burners 2 to enter the operating mode, after roar to a certain temperature bimetal plate 9 opens and delivers the signal for interrupting the glow plug 8 and the switching of the fan 4, the heat generator is included in the operation mode, the cool air is blown into the fan 4 Protective slabonagretogo diffuser 12. The air flow at the outlet of the heat generator generates

vacuum pressure between the protective diffuser 12 and the working surface of the burners 2 by means of which a high-temperature flow is created, which is then mixed with the flow of slightly heated air at the outlet of the heat generator. When the set temperature in the heated room is reached, which is set by the thermostat 13 connected by the wiring 10 to the control unit 5, a command is issued to turn off the gas, the electromagnetic valve 7 closes, the infrared gas burners 2 go out, the fan 4 continues to work. When the ambient temperature drops below a predetermined interval, the thermostat 13 gives a command to turn off the fan 4, ignite the glow plugs 8 and open the solenoid valve 7, that is, to the ignition mode. In further operation of the heat generator, the control purge mode is excluded. The LED 11, which serves for alarming and during emergency attenuation of the burners 2, gives a signal to the control unit 5, which in turn stops the gas supply using the electromagnetic valve 7.

The proposed utility model in comparison with the prototype and other known technical solutions has the following advantages:

increased power by increasing the number of infrared burners; fuel economy; fuel consumption is reduced;

environmental cleanliness by reducing emissions of harmful substances from carbon monoxide by 5-10 times, and by nitrogen oxides by 50-90 times;

increase in efficiency up to 85-90% due to the high (99.9%) completeness of combustion of the gas-air mixture.

Aut ° Ry: / Shi Ј LI- Yudin

 V.V. Androsov

Yu.N. Pozhidaev

: /

A.N. Mikhailuk

Claims (1)

A gas heat generator containing a housing inside which an infrared gas burner and an electric motor with a fan are integrated, characterized in that it is additionally equipped with infrared gas burners connected by a gas pipeline, inside of which there is a protective diffuser, a control unit with an LED and a temperature regulator, while the number of infrared ones gas burners from 9 to n, where n = 16, and the burners are located diametrically of the working surface inward, and the thermostat is installed outside the heat generator and connected to the control unit by wiring.