SU64063A1 - Device for determining the density of smoke - Google Patents

Description

The devices for determining smoke density using photocells known in the art have the disadvantage that the readings of the device in them depend on the instability of the photocell, the incandescent lamp and the electron tube.

The object of the present invention is a device for determining the density of smoke with a photocell alternately illuminated with two light beams. In the proposed device, one of the light rays passes through the test medium (chimney), and the other through the light wedge. In this case, according to the invention, for the purpose of automatic control of the light wedge, a logometer is used, in which the mobile system serves to turn the wedge, and the windings are included in the anode circuits of the two-anode electron tube, the grid of which is connected to the photocell.

The invention is illustrated in the drawing, which shows a schematic electrical diagram of the proposed device.

From illuminator 1, inside of which there is an electric lamp 2,

the outcome is two rays of light. One of the beams 3 passes the lens 4, then shines through the space of the chimney 26, falls on the mirror 5 and, reflecting from it, focused, hits the photocell 6. The other light beam 7 passes the lens 8, falls on the mirror 9 and, reflecting from the mirror , also hits the photocell 6. The light rays do not hit the photocell simultaneously, but in turn. This is achieved by using a beam chopper, made in the form of a vibration frequency meter 10 with an oscillation amplitude in the order of 15-25 mm. Thus, when the plate vibrates AND the frequency meter 10, the window 12 will strictly pass the light rays 3 and 7 to the photocell 6 in succession according to the frequency of the tainted current. transformer windings 15. Anode currents of the lamp 14. Prohol frame (winding) 16 and 16 of the measuring system of the meter 17, will cause the frames 16 and 16 to rotate in one direction or another, depending on the sign of the difference of currents. A compensation disk 18 is rigidly attached to the axis of the frames 16 and 16, on which there is a wedge-shaped window — a light wedge 19; when the frames 16 and 16 are rotated, the light wedge 18 reduces or increases the luminous flux of the beam 7. This will lipo until the illumination of the photocell of both 3 and 7 can be compared. Then the equilibrium of the currents of both frames 16 and 16 will come, and the measuring system of the meter will be at rest. In this case, the compensation disk will rotate a strictly defined angle corresponding to the density of the smoke.

For remote transmission of the angle of rotation of the gauge, an induction sensor 20 serves. On its axis 21, an iron clamp 22 is fixed, which, when turning the disk 13, rotates accordingly at the same angle. This, in turn, creates a current difference in the windings 23 and 24 of the sensor; This difference will be indicated by the measuring device 25, according to which the density of smoke in the chimney 26 is judged.

Subject invention

Claims (3)

1. A device for determining the density of smoke with a photocell alternately illuminated with two light rays, one of which passes through the medium under investigation, and the second through a light wedge automatically reset (according to the difference of the photocell illumination by both rays) using an anode drive mechanism a circuit of a photoamplifier tube amplifier, which is such that, in order to reduce inertia and increase the accuracy of the drive of the luminous wedge drive, as specified 1mech ism applied diferentsialnyi ratiometer type measuring device, movable winding is included in the amplifier circuit different anode. 2. In the device according to claim 1, use a vibration frequency meter as a light chopper for alternately directing light rays to a photocell. 3. In the device according to claim. 1, the use of the sensor of the electrical system for remote transmission of the angle of rotation of the gauge.