RU29144U1 - Torch Control Sensor - Google Patents

Description

2002131537

TORCH CONTROL SENSOR

This utility model relates to the field of radio engineering, namely to non-contact infrared sensors of monitoring systems.

Known contact sensors for monitoring the flame of standby burners of flare plants based on ionization sensors and thermocouples

The disadvantages of such control systems based on ionization sensors include their low reliability due to the contamination of their working surfaces with resinous substances rising from the discharge flame. The disadvantage of thermocouples is the burnout of the working junction, which has a limited service life, which requires frequent replacement during continuous operation of the flare units.

The closest in technical essence to the claimed device is a device for monitoring the state of flame 2. This device contains an optical system consisting of a lens and a beam splitter, radiation receivers and a processor that receives and processes the signals of the receivers (signal processing unit).

The disadvantage of this device is the increased complexity of the optical part and the presence of two radiation detectors, which reduces the reliability of the flame control.

GOl J5 / 10, G08B17 / 12

The technical result of the utility model is the increased reliability of remote monitoring of the presence of flames of standby burners of flare plants.

The specified technical result is achieved by the fact that in the flame control sensor containing an optical system, a radiation receiver connected to the signal processing unit, a built-in control system and an executive relay connected to the processing unit are introduced. The optical system is made in the form of a simple single-lens lens. The built-in control system is made in the form of a radiating IR diode and a pulse generator connected to it, the radiation receiver is a pyroelectric module.

FIG. 1 is a block diagram of a flame monitoring sensor.

The device contains a simple single-lens lens 1, a radiation receiver 2, a signal processing unit 3, while the output of the radiation receiver 2 is connected to the input of the signal processing unit 3, the output of which is connected to an executive relay 4. The emitting IR diode 5 of the integrated control system 6 is connected with pulse generator 7.

The device operates as follows. The radiation from the torch is focused using a simple single-lens lens 1, to the radiation receiver 2. An alternating electrical signal from the output of the radiation receiver 2 is fed to the input of the signal processing unit 3, where the signal is amplified, detected and generated to control the executive relay 4. When turned on embedded control system 6, starts

operate the pulse generator 7 connected to the emitting infrared diode 5. Some of the radiation of the infrared diode 5 goes to the radiation receiver 2 and causes the actuator relay 4 to trigger, which is a fact of a healthy state of the device.

Introduction to the proposed device of the built-in control system increases the reliability of the device, and the use of a simple optical system from a single-lens and one radiation receiver based on a pyroelectric module that responds to non-stationary variable IR radiation of the flame of a flame significantly simplifies and reduces the cost of the proposed device compared to the prototype.

This achieves the technical result of the utility model - increasing the reliability of remote monitoring of the presence of flame of the standby burners of flare plants.

Sources of information:

1.A. P. Babkovsky, I.G. Vippivany. Torch control sensor. Oil and gas technology No. 3, May-June 1999, p.15-16.

2. UK application No. 2188416 (8707076) dated 25. 03. 87, MKI 4 G 01J 5/10, G 08 B 17/12 (prototype). Chief Designer V. A. Ryazantsev

The authors:

A.P. Babkovsky

. I. Tkach I. G. Embroidered

A.S. Filonenko A.P. Nevshupa

Claims (3)

1. The torch control sensor containing an optical system, a radiation receiver connected to the signal processing unit, characterized in that a built-in control system and an executive relay connected to the signal processing unit are introduced into it, and the optical system is made in the form of a simple single-lens lens. 2. The device according to claim 1, characterized in that the built-in control system is made in the form of a radiating infrared (IR) diode and a pulse generator connected to an IR diode. 3. The device according to claim 1, characterized in that the radiation receiver is a pyroelectric module.