SU65745A1 - A device for determining the density of smoke - Google Patents

Description

The well-known devices for determining the density of smoke, the so-called smoke meters, are made in the form of a projection lamp, illuminated: through a chamber connected to the chimney, a thermometer, enclosed in an evacuated flask and connected to a pointing electrical device.

The main disadvantage of this design of the opacimeter is the dependence of its readings on the oscillation of the voltage of the network that feeds the power adapter.

The magnitude of the energy emitted by the lamp is proportional to the fourth degree of the magnitude of the absolute temperature of the filament (Stefan-Boltzmann law), therefore, even a slight 31: fluctuating voltage in the voltage in the net leads to significant measurement error.

In addition, it is not possible to test the appliance with the boiler in operation, since the design of the smoke meter is such that in order to obtain an indication corresponding to the absence of smoke, it is necessary to pull the boiler and stop smoke emission. It is necessary to check the instrument quite often, since the luminous flux of a projection lamp varies rapidly over time, especially in view of the frequent replacement of one lamp with another, whose light fluxes, as a rule, differ from each other.

The object of the present invention is a device for measuring the density of smoke inserted into a chimney and provided with transparent optical elements (walls) for transmitting light rays from a light source through the test gas to the photocell.

To check the instrument scale, in the position “no-no. gray smoke without disrupting the chimney's operating mode; in the instrument case there are two prisms or mirrors which during the test position are in the deflection position, 1 luminous flux through the tract passing besides the chimney.

An exemplary embodiment of the invention is shown in the drawing.

Rays of light from a car lamp / pass through lens 2 and then in a parallel beam through pipe 3, reinforced across the DYMOHOD 14 and having slots for the passage of smoke; "At the other end of the tube 5 there is a second lens 4,

collecting this beam of rays on the surface of the photocell 5, which jUH is included B. an amplifying circuit having a nrHob-index 6.

In order that it was possible at any time, when working five hundred years, to get the instrument's laser control deviation, corresponding to the absence of smoke, serve as a light beam optical path, obccMOBJienubiH four})) or mirrors 7, 8, 9, 10. Mirror 7 and / ABOUT . Poeorotis, oik to be turned cBOcii plane or in the direction of the rays in the smoke, or at an angle of 45 ° to them. In the first case, oiiH does not remove the device’s work, and in the second case, block the path of light through the chimney, so that the beam of rays reflected from mirror 7 comes through the control tube 11, is reflected from mirrors 6, 9, 10 and hits the photocell 5, do not pass through the smoke. Pipe 11, make a chimney, a-ie, nesereke it.

A beam of beam, hg, 1d; 1d through this control optical path and on the photocell, will cause a certain device indicator 6, corresponding to the absence of smoke in L, b; The magnitude of this deviation is determined in advance when the boiler is not working during the smoke meter's operation and does not need to be checked, since it is a coefficient. Mirror reflection mirizo Mizpo with sufficient accuracy to be considered constant. Before the consumption of the mirrors 7 and 10, wipe them clean with a clean cloth.

Prn checking dpyu:, 1era it is necessary to check two T10chki 1pkal.y fi5ora: the indication "na tempo and 0 Kazachie" for the absence of smoke.

To check for darkness, set the arrow of the 6 prp lamp off lamp to the maximum deviation within the set scale, adjusting the pressure of the rheostat 12.

For a smoke check, mirrors 7, 10 are turned under

45 ° angle, as punished by a dotted nozzle in the drawing, and set the arrow of the device 6 to the division specified by the smoke meter passport, changing the corresponding lumen / rheostat 13.

If we take the reflection coefficient of the mirror 0.8, then the light flux, D01fsdiy to:. 4 photocells 5, will be 0.8Fo 0.4Fo, where Pho is a note, breathed from a loroy j iHi3bi 2. Takpl; in the manner of ikazapche pnbo ;; a 6 should be 40% iOT noKaza1n-1 of the same p) collection, measured not: Sre, 1 sst 5snpo without mirrors with an exhaust / -bi-ia in the chimney This value we will specify one hundred; experimentally at adjustment nrkbsra.

Didge 7 and 10 can bg-gg kyiolmeny and irreversible, and plug-in, which calls it to ensure their more reliable storage. Pipes 3 and // are equipped with protective glasses 15 and / 6.

In order to reduce the influence of network fluctuations on the device 6, the electrical circuit parameters are selected so that the effects of these oscillations and the individual elements 1, the eites of the circuit are mutually compensated as much as possible.

PRIOR TESTS AND ISSUES

A smoke measuring device inserted into the chimney and equipped with transparent optical elements to transmit the light beam ;; from the source of light, the gas under study to the photo of the lighter, about a l and h with the application of two prisms n; n1 zer; -; al 7, O, installed in the | | well ;; device on the time of chulk 1 channel adjustment In 1o otklospis light stream Cheoez Grakt, DIRODYDIY in addition to the chimney, defined, 1, for example, mirrors o and 5, in order to check the scale of the measuring radiation level without smoke, without disrupting the operation of the chimney.

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