RU49183U1 - DEVICE FOR FUEL COMBUSTION IN TECHNOLOGICAL FURNACES - Google Patents

Abstract

The utility model relates to a power system and can be used to burn fuel in technological furnaces of engineering plants, combustion chambers, and boiler furnaces. The technical problem to which the utility model is directed is to increase the reliability of the device. The stated technical problem is solved in that in the device for burning fuel in technological furnaces containing a burner located in the burner unit, means for controlling the extinction of the flame in the burner, made in the form of a light guide cable with an optical output signal installed coaxially with the burner inside it, is optoelectronic registration unit, a quartz fiber, connected in series with the light guide cable, according to the proposed utility model, the quartz fiber is made in a U-shape, in square The fiber-optic light guide is cut in the form of a narrow slit. An additional distinguishing feature is that the light guide cable and the quartz rod are placed in a protective sheath. The technical result manifested when using the device is to provide the ability to control the state of operability of the sensitive element due to the proposed design, thereby preventing emergencies in production.

Description

The utility model relates to a power system and can be used to burn fuel in technological furnaces of engineering plants, combustion chambers, and boiler furnaces.

A device for burning fuel in process furnaces is known, comprising a burner located in the burner unit, and means for controlling the extinction of the flame in the burner, made in the form of a light guide cable with an optical output signal installed coaxially with the burner inside it, an optoelectronic recording unit, the device is equipped with a hollow fiber, the hollow fiber is made in the form of a L-shaped tube connected in series with the light guide cable. (The certificate of the Russian Federation on PM No. 16395, IPC7 F 23 D 14/00 2000)

The closest in technical essence is a device for burning fuel in stoves for various purposes, selected by the applicant for the prototype, containing a burner located in the burner unit, means for controlling the extinction of the flame in the burner, made in the form of a light guide cable with an optical output signal, an optoelectronic recording unit and L-shaped quartz fiber connected in series with the light guide cable, the device being provided with a metal sheath, inside of which are located rod and

light-conducting cable (RF Certificate for PM No. 22985, MPK7 F 23 D 14/00 2002).

Known devices are aimed at improving the accuracy of recording the moment of trapping the extinction of the flame in the burner. However, they do not provide for the possibility of periodically checking the sensitive element - the end face of the quartz rod, taking into account its location in the open flame zone, which does not guarantee reliable operation of the devices for a long period of time.

The technical problem to which the utility model is directed is to increase the reliability of the device.

The stated technical problem is solved in that in the device for burning fuel in technological furnaces containing a burner located in the burner unit, means for controlling the extinction of the flame in the burner, made in the form of a light guide cable with an optical output signal installed coaxially with the burner inside it, is optoelectronic the registration unit, a quartz fiber, connected in series with the light guide cable, according to the proposed utility model, the quartz fiber is made in a U-shape, in Artsev waveguide section formed as a narrow slit. An additional distinguishing feature is that the light guide cable and the quartz rod are placed in a protective sheath.

The technical result manifested when using the device is to provide the ability to control the state of health

sensitive element due to the proposed design, thereby preventing emergency situations in production.

The utility model is illustrated in the figure, where figure 1 shows a longitudinal section of the device.

The device comprises a burner 1 installed in the burner unit 2, means for controlling the extinction of the flame in the burner, made in the form of a light guide cable 3 with an optical output signal, an optoelectronic self-diagnosis and flame registration unit 4. The light guide cable is installed coaxially with the burner inside it. The device is equipped with a U-shaped light guide 5, connected in series with a light guide cable and made in the form of a quartz glass rod with a cross-section in the form of a transverse slit.

The implementation of a quartz optical fiber U-shaped and the presence in the quartz optical fiber section in the form of a narrow gap allows you to implement the self-diagnosis function.

The self-diagnosis function is implemented as follows: The U-shape of the quartz fiber allows you to supply a test signal to one of the ends of the fiber and then receive this signal by the optoelectronic recording unit through the second end of the fiber. The presence of a special cut (gap) in the body of the quartz fiber allows simultaneously with the test signal to supply a controlled signal through the specified slot into the channel of the quartz fiber and then accept

this signal by the registration unit. By using different ranges of optical radiation of the test and controlled signals, it is possible to simultaneously transmit and record these signals without their mutual influence on each other.

The device operates as follows: in the process of combustion, radiation from a flame through a gap in the body of a quartz rod is fed through it to the end of the light guide cable, through which it is fed to an optoelectronic control and control unit, where it is converted into a proportional electrical signal. When the flame goes out, the radiation intensity drops sharply, which leads to an abrupt change in the electrical signal from the output of the optoelectronic unit.

The presence of a free end due to the proposed shape of the quartz rod allows you to apply a periodic test signal to this end and thus increase the reliability of the device due to the ability to control the state of the sensitive element, thereby preventing emergencies in production.

Claims (2)

1. A device for burning fuel in technological furnaces, containing a burner located in the burner unit, means for controlling the extinction of the flame in the burner, made in the form of a light guide cable with an optical output signal installed coaxially with the burner inside it, an optoelectronic recording unit, a quartz fiber, connected in series with the light guide cable, characterized in that the quartz fiber is made U-shaped, a section in the form of a narrow slit is made in the quartz fiber. 2. The device according to claim 1, characterized in that the light guide cable and the quartz rod are placed in a protective sheath.