RU6630U1 - DEVICE FOR CONTROL OF TECHNICAL CHARACTERISTICS OF FLUID FUEL IN A WORKING CAPACITY - Google Patents

Abstract

A device for monitoring the technical characteristics of flowing fuel in a working tank, containing a radiation source and receiver, as well as reflective prisms optically coupled to them with a gap between them, characterized in that two hollow tubes located adjacent to each other are inserted into the device, at one ends of which are attached optically coupled reflective prisms, and the other ends of the tubes are coupled to a radiation source and receiver, and an indicator is introduced that is electrically coupled to the radiation receiver and on sistent with screen orifices corresponding to the maximum transmittance fuel reference marks.

Description

device © to @ for technical specifications of fluid® fuel in the tank @ sti

Devices for analyzing technical characteristics of corpses are known in the art, for example, devices © for monitoring technical characteristics; Fluid flow chart n @ 1elik © britain 1 2239516 © t 12/27/198EG, (g01 / / 33/26, contains an optical sensor with an emitter, radiation receivers, a reference sensor and a dielectric sensor, and an indicator, The operation of the device consists in the following: © fuel, in particular oil, emitter, pick up the emitted light flux / output signal / radiation receiver, compare it with etalen and set the technical characteristics of “t® fuel.

The disadvantages of the @ r © device in determining the working fuel, in particular gasoline, in the working capacity, are the low accuracy of determining the grade of lard, because The person affected by the light flux is independent of the brand of gasoline, and .. or deviating by a small amount, there are no technical elements that allow you to use the device in a working capacity, it is not possible to immerse the devices in a liquid / fluid / t takes a lot of time © to control, because predetermines laboratory control.

the closest device @ is the solution n®load2 sensor n © a.s. USSR 1103082, e01L / 1/04, IS84r., Containing two prisms with a zaz @ pvm between the niches fixed in holders, on © dn® of which a lighter is installed, connected with the first and prism®, which its turn is interconnected with the second prism and radiation receivers, the pylons are mounted on the second holder, with the second holder kinematically with © single x0d in the @ th screw and rail with divisions, the operation of the device je9404I6II / 2n / 04II02 / MF 33/22

It consists in the following: the lower kenets of the prisms are immersed in the liquid under study, the illuminator and light © t © trazhamshchikh D1) the prism of the prism passes through the liquid under investigation, it enters the photodetector. the readings obtained are compared with the results obtained in the measurement of the reference fluid.

The disadvantages of this sensor solution are: the sensor design is unsuitable for use, for example, laboratory technology, is not economical in both the production and measurement methods, and is direct in the working capacity at gas stations in the tank without a gun,

on the road, in tanks with fuelIvl fuel, the measurement takes a lot of time, because it is necessary to take a sample for analysis and to examine fuels © in the lab®torii. the design is complex and uneconomical, because glass prisms of a large © diany stand d @ horn ©, but they are fragile, unprotected from impacts, the device is open, prone to contamination and inconvenient to use when determining fuel grades in a working capacity, unreliable.

The technical result of the invention is the reduction of the time for monitoring fuel in the working capacity, simplifying the design, increasing the reliability of operation, manufacturability.

this result is achieved by the fact that in the devices for monitoring the technical characteristics of the flowing fuel in a working tank containing a radiation source and receiver, as well as reflective prisms conjugated with them with a gap between them, two hollow tubes are placed adjacent to each other, ADVI ends of which are attached © optically conjugated reflective prisms, while the other ends of the tubes are coupled to the radiation source and receiver, and an indicator is inserted that is electrically connected to the radiation receiver, and lmchamschi screen with calibrated holes, seotvetstvuyuschimi 1aksimumam passing reference fuel brands.

fuel shown in the drawing of figure 2 "

the device for monitoring the technical characteristics of the fuel fluid in the working tank © holds two psms of the tube 1.2 of Fig. 1, arranged parallel to each other, at the ends of which two reflective prisms are fixed with cathete faces, the second ..- v- cathete faces of the prisms on the lower the ends of the pipes © to are installed parallel to each other, providing a sheath between the prisms and a gap opposite to the first / second / second ends of the tubes 1.2, the second ends of the tubes 1.2 are optically coupled to the emitter 6 / I tube / and to the radiation receiver 7 connected / sec The radiation tube / receiver is connected to the indicator, the value of the electrical signal from the receiver is recorded on the screen of the CATVROG®. . indicator 8 © is calibrated with the values of the electric signal, corresponding to the brands of gasoline and diesel fuel. On the screen of indicator 8 at the maximums of the electric signal, with @ 9tv-valid reference marks of gasoline, there is a “reversion” with inscriptions of the marks of gasoline in their left / hole, /.

pa (b @ that device is enclosed in the following. In working capacity 9 / gas tank, tank, canister / filled with fuel, lower the tube to the 1.2 ends, on which the printers are fixed until the gap is filled with 5 cathets faces of the prisms with fuel oil, including the radiation source of a b / xenon lamp /, the light flux passes through the internal cavity of the tube I, passes through the cathetnum face into the prism З, is reflected from its hypotenuse face, and the prism face goes through the layers of fuel through the catetum second through the layers of fuel in the gap 5 sizes and goes into Zmu 4, reflected by the t, & hypotenous face, leaves prism 4, falls into the inner cavity of tube 2 and falls onto the photosensitive area of the receiver 9. The light beam is converted into an electric signal. 1 depends on the degree of transmission of fuel, t. k. each brand of fuel will replace its own © ed.: Initiative missing and corresponding spectral curve of Fig. 2, electric

the signal has different meanings; w 8 indicator screen lights up

one or another calibrated hole corresponding to a significant mark of the signal ©, showing TJ or inum 1 mark of gasoline or diesel fuel, IF not one of the calibrated screw holes of indicator 8 is displayed, then the controlled fuel grade does not meet the standard, i.e. not ш vshadamt spectral curves etalon nogo т t®fuel controlled brands of fuel in the working capacity, do not match their к kant © numbers.

the use of the invention, a device for monitoring the technical characteristics of fluid © fuel in a working tank @ can reduce control time in a working tank, simplify designs, increase reliability, technological effectiveness and economy, with the help of this © device it is possible to quickly determine in a working tank / in ( petrol tank, canister / at a gas station, on the road compliance of controlled fuel with this brand of fuel, the device is simple to manufacture, technologically advanced, affordable® small oil and gas small holes, i.e. premyshlenno primenim®, ekonsmichn® device as standard tube, small size prism product © convenient to operate and maintain, is made in the layout and © shrobovan® in practice.

The author Zh ..., - VA Rvetlykh A.A.

deputy Director of TsShTR Cfelf LLP // .. yo-Melnikev s.I.

at c

4

W g S

Claims (1)

A device for monitoring the technical characteristics of flowing fuel in a working tank, containing a radiation source and receiver, as well as reflective prisms optically coupled to them with a gap between them, characterized in that two hollow tubes located adjacent to each other are inserted into the device, at one ends of which are attached optically coupled reflective prisms, and the other ends of the tubes are coupled to the radiation source and receiver, and an indicator has been introduced that is electrically coupled to the radiation receiver and on sistent with screen orifices corresponding to the maximum transmittance fuel reference marks.