SU1481567A2 - Device for monitoring gas apparatus - Google Patents

Abstract

The invention relates to power engineering and allows for expanding the functionality of the device by adjusting the temperature. The throttle valve 7 is installed on the channel behind the pilot light 22, and the sensor 24 of the adjustable parameter is connected in parallel to the air throttle. Such an embodiment ensures the complete shutdown of gas both at the burner and at the igniter in case of violation of gi in the flue gas channel and accidental extinction of the flame. 1 il.

Description

The invention relates to the field of energy, namely to the automation of gas heat engineering devices, and is an improvement of the technical solution for autosw. No. 1390486.1

The purpose of the invention is the expansion of functionality by regulating the temperature. 10

The drawing shows a functional diagram of a device for monitoring and regulating gas devices.

The device comprises a housing 1 with input 2 and output 3 taps. A valve 5 with gasket 6 is installed over the seat 15 of the seat 4 in the body. The lateral surface of the valve forms a guaranteed gap with the body in the form of a pneumatic throttle 7 connecting the under-valve cavity 8 to the over-valve cavity 9, where a small 10 and a large 11 nozzle are installed. The damper 12 of the small nozzle through the rod 13 is attached to the start button 14 with a spring 15, which through the washer 16 abuts against the gasket 17 of the rod. The valve 18 of the large nozzle through the rod 19 with the seal 20 is connected to the sensitive thermocouple 21, for example, a bimetallic plate installed in the flame zone of the igniter 22, which through the draft sensor 23 with a sealing membrane, nozzle 24, shutter 25 and sensitive 35 a thermocouple 26, for example, bimetallic, is connected to a channel 27 connecting both nozzles through an adjustable parameter sensor to the output of the actuator, where 40 on the gas line 28 in front of the burner 29 there is a shut-off valve 30. Limit on the valve ny. emphasis 31 in the form of a protrusion. The draft sensor is connected to channel 27 and the igniter I 45 22 by impulse tubes 32 and 33, respectively. The sensor 34 of the adjustable parameter for the case of temperature control can be selected, for example, dilatometric and contain a nozzle 35 and a shutter 36, rigidly connected with the Invar rod 37 attached to the brass tube 38.

Through the pulse tubes 39 and 4'0, the adjustable parameter sensor is connected in parallel with the pneumatic throttle 41 mounted on the output channel behind the branch to the igniter. The burner and igniter have a reliable fire connection. The diameter of the small nozzle 10 is calculated only for feeding the igniter and practically does not affect the pressure in the supravalvular cavity 9. The diameter of the large nozzle 11 is chosen sufficient to drastically reduce the pressure in the supravalvular cavity, i.e. the live section of the large nozzle is commensurate with the live section of the pneumatic throttle 7.

The device operates as follows.

In the initial state, gas from the subvalve cavity 8 connected to the inlet 2 through the pneumatic throttle 7 fills the supravalve cavity 9, since the nozzles 10 and 11 are closed by the shutters 12 and 18. Due to the weight of the valve 5 and the pressure of the gas on it from above, the seat 4 is tightly closed and to the outlet 3 gas is not supplied. The faucet 30 in front of the burner · is closed, and the nozzles 24 and 35 of the draft and temperature sensors are held open by sensitive thermocouples.

To start the gas apparatus, it is necessary to press the start button 14 and hold it, to ignite the ignitor 22. Ignition of the ignitor is possible only with the valve 30 closed, with the valve 30 open, the gas pressure after the nozzle 10 drops to almost zero and the ignitor does not ignite. This important property, which ensures safety during the ignition of the apparatus, is achieved by choosing a nozzle diameter of -10, which ensures the normal operation of the igniter micro-nozzle. The thermocouple 21, having heated up from the igniter flame, diverts the shutter 18 from the nozzle 11 through the rod 19, which allows the release button 14 to be released without disrupting the operation of the igniter 22. Since the diameter of the nozzle 11 is large enough and its area is commensurate with the live section of the pneumatic throttle 7, when the valve 30 is opened, the pressure in the cavity 9 drops sharply, the valve 5 moves away from the seat 4 by pressure from below and the gas is supplied to the burner 29, which, thanks to reliable fire communication, is ignited from the igniter 22, and the gas apparatus begins to function.

• In case of draft failure in the flue gas duct, gas combustion products heat the thermocouple 26 of the draft sensor 23, which closes the nozzle 24 with a shutter 25 and stops the gas supply to the ignitor. This causes cooling of the thermocouple 21, which closes the nozzle 11 through the valve 19 with the shutter 18, and the inlet pressure is established in the cavity 9 due to gas leakage through the pneumatic throttle 7, due to which the valve 5, having dropped by force of weight, is pressed tightly against the seat 4 due to the differential pressure valve 5. The gas supply to the burner also stops. Thus, in the event of draft failure in the chimney, the gas is completely turned off both to the burner and to the igniter, which ensures safety. It is easy to see that a complete cessation of gas supply occurs in the event of accidental extinction of the flame in a similar way.

When the adjustable parameter, for example temperature, reaches the set value, the brass tube 38 expands through the stem 37 by the shutter 36 and closes the nozzle 35, the pressure in the cavity 9 rises and valve 5 closes the seat 4, switching to a small combustion mode. With a decrease in the controlled temperature below a predetermined value, the tube 38, compressing through the rod 37, diverts the valve 36 from the nozzle 35, the pressure in the cavity 9 decreases again, the valve 5, rising, departs from the seat 4, the burner 29 returns to its nominal operating mode. Thus, the temperature is controlled. Forced switching off the gas supply to the burners is done by closing the valve on the gas pipeline (not shown) in front of the gas apparatus, after which the valve 30 in front of the burner should be closed. It is also possible to provide an additional shutdown button, separating the cavity 9 from the channel 27, for example, on the rod 19, an emphasis in the form of a protrusion 31 is necessary to ensure a guaranteed gap between the end face of the valve 5 and the body when the valve is in its highest position, so that the connection of the cavities 8 and 9 throttle was not violated. This emphasis can be performed also on the inner surface of the housing.

An additional installation of a pneumatic throttle and an adjustable parameter sensor makes it possible to control the temperature of the gas apparatus along with the control of all necessary parameters.

Claims (1)

Claim The device for control of gas devices on the autor.St. No. 1390486, in contrast to the fact that, in order to expand its functionality by controlling the temperature, it contains an adjustable parameter sensor and a pneumatic throttle, the pneumatic choke is installed on the channel behind the igniter, and the adjustable parameter sensor is connected in parallel to the pneumatic throttle.