SU851111A1 - Photometric liquid analyzer - Google Patents

Description

(54) PHOTOMETRIC ANALYZER OF LIQUIDS

Claims (2)

The invention relates to the diagnosis of quality motor and hydraulic oils, namely, devices for determining the performance properties of oils and the moment of their replacement. To determine the performance properties of oils, instruments are used which are based on the principle of photometry. The quality of the oil is determined by its optical density, depending on the amount of impurities. The known device for photometry of liquids is a cuvette of variable thickness, comprising a hollow body with fittings and a fixed window, a sleeve with a window fixed in it, placed in a movable body, an o-ring, a light source photodetector and a recording device, between the transparent walls of the body and the liner is formed a closed sealed volume for the test medium. The thickness of the medium layer is determined by the position of the liner, which is rigidly connected to the pneumatic cylinder piston, which is the executive body of the positioning control system l. A disadvantage of the known device is the complexity of its design. The closest to the present invention is a photometric analyzer of liquids, which includes a housing with supply channels and a fixed window, a TOL1TSIN controller of the photo-measured layer, made in the form of a plunger, with a movable window mounted on its end, a sealing ring, a device for adjusting the distance between the windows containing limiters of the thickness of the photometric layer and stops, a light source with a mount, a photodetector and a measuring unit. In the known device, adjusting the thickness of the photometric layer is performed by interacting with the corresponding plunger surface with adjustable stops located inside the housing and moved with screws f2 .. The drawbacks of the device are the large labor costs for refilling and washing in connection with the internal arrangement of windows and their inaccessibility, consumption of large volumes of investigated and industrial fluids, as well as the complexity of the design, due to the equipment of the case with supply channels, plizhzhe Pa - lever for its movement, the presence of a large number of rubbing surfaces. The purpose of the invention is to reduce the complexity of photometric measurement by reducing the auxiliary time for filling the device and washing it, saving the test and washing liquids and simplifying the design. To achieve this goal, in a photometric analyzer of liquids such as oils, including a hollow body, a movable and fixed window, a device for adjusting the distance between them, a light source with a fixing unit to the body, a photodetector and a measuring unit, the first body is made with a side slot, perpendicular to its longitudinal axis, the movable and fixed window and the device for adjusting the distance between the windows are enclosed in a cassette, which is placed into the body cavity through a slot orifice and pressed and the sleeve of the mount of the light source connected to the housing by a threaded connection. The cassette is formed by a sleeve with internal threaded and side holes, a threaded plug with a conical protrusion, a lock washer with segment projections and a lid with a cylindrical protrusion placed in the opening of the lock washer, and windows are installed at the ends of the conical protrusion of the cylindrical plug and the cover. and the device for adjusting the distance between them is formed by a screw plug and a stop with a washer. In addition, the slotted hole in the housing is recessed by an amount equal to half the diameter of the cassette. FIG. I shows the device, a vertical section; in fig. 2 - time cut AA in FIG. one; in fig. 3 - checkout box, bottom view. 1,4-Photometric analyzer oil-containing hollow body 1, made with a side slot hole 2, perpendicular pH # 1 of its longitudinal axis and recessed in the body by an amount equal to half the diameter of the cassette. Through the slotted hole 2, the cassette 3 is formed into the cavity of the housing t formed by sleeve 4 with internal thread 5 and side 6 holes, screw plug 7 with a conical protrusion 8 on the p ;; nominal end, lock washer 9 with a segment of the projections 10 and a removable lid 1 with a cylindrical protrusion 12 placed in the opening of the locking washer 9. At the ends of the conical protrusion of the plug 7 and the cylindrical protrusion of the crack 12, windows 13 and 14 are hermetically mounted, the cartridge 3 is pressed by the sleeve 15 of the replenishment unit of the light source 16 with the light filter G / connected to the housing 1 to The thread 18, At the other end of the housing 1, in front of the window 19 is installed a photocell 20: held in it by means of a nut 21. The setup of the device in the process of preparing it for work consists in adjusting the cartridge 3 to several thicknesses of the photometric layer and is completed by putting marks on the elements of the cartridge. In the cassette setting, the lock washer 9 is unscrewed: the screw of the plug 7 is screwed all the way into the cover 11, and the ends of the sleeve 4 and the screw plug 7 apply (FIG. 3) zero marks (risks). Then the screw plug 7 is unscrewed for several turns and a gauge of necessary thickness is inserted through the side opening 6 of the cartridge sleeve 4, which is pressed between the windows 13 and 14. The screw plug is screwed up until the gauge is snugly attached to the windows, and the mark is put on the sleeve 4 (risk ) with a numerical designation on the threaded plug 7, corresponding to the thickness of the dipstick. Likewise, marks of other thicknesses of the photometric layer are made. The device works as follows. In accordance with the brand of oil and the type of engine in the cassette 3, the required thickness of the photometric layer is set. To do this, remove the cap 11, unscrew the lock washer 9 and turn the screw plug 7 to align the required mark with the drawing on the sleeve 4 of the cassette. The predetermined position of the screw plug 7 is fixed with a lock washer 9, twisting the stop projections 10 into the plug 7 until the stop. After setting a setting of 1 {t thickness from the crankcase of the engine (the measuring scale and the window gauge) 4); plugs 7 applied a few drops of oil. Then Tan & Cap II. The cassette 3 thus filled places the cavity 1 of the housing 1 through its slotted opening 2, after which it is pressed by the sleeve 15 of the mount of the light source 16. Next, an optical density measurement of m is measured and its suitability is determined for further use. The cassette was washed by wiping it with a damp rag, soaking windows 13 and 14 in gasoline. To drain the flushing fluid and excess oil When the cassette was filled, the protrusion 8 of the threaded plug was conical, which allowed excess liquid through the slots of the projections) 10 lock washers (Fig .2) flow out into the opening 6. The opening 6 of the sleeve 4 is also drainage to eliminate the vacuum during EITin K1) and the pressure hose 11 and reduce the pressure during its installation. With thicknesses up to 1 mm, the oil does not leak out due to surface adhesion forces, and with greater thicknesses, to prevent leakage, the side opening 6 in the sleeve 4 of the cassette is closed with a stopper. The optical density is determined by the formula 1, -if i, where D is the optical density of the oil to be analyzed; 100-K- accepted constant value of the photocurrent formed in the absence of oil in the cassette, µA; P is the value of the photocurrent in photometry, μA; K is the limit of measurement. The amount of optical density at which oil is discarded is determined experimentally on anti-wear friction machines. The technical and economic advantages of the proposed photometric analyzer for fluids of the oil type are that labor costs for filling the device and washing it are reduced by reducing the auxiliary time for these operations, due to easy access to the windows between which the photometric layer is created. In addition, the consumed volumes of the analyzed and flushing fluids are reduced in connection with the disappeared need for sampling, as well as as a result of the shortening of the path of ingestion of the analyzed fluid in the space between the windows. In connection with the disappearance of the need for a plunger, a lever for its movement, oil supply channels, the design of the device is simplified. Claim 1. A photometric analyzer of oils such as oils, comprising a hollow body, a movable and fixed window, a device for adjusting the distance between them, a light source with an attachment point to the body, a photo receiver and a measuring unit, reducing the labor intensity of photometry by reducing the auxiliary time for filling and flushing the device, saving test and flushing fluids and simplifying the design, the hollow body is made with a side slot, erpendikul molecular its longitudinal axis, moving and fixed windows and apparatus for adjusting the distance therebetween are enclosed in the cassette, which is placed in the cavity of the housing through the slit and pressed otver.stie node attachment sleeve light source associated with the housing thread connection. 2. The analyzer according to claim I, characterized in that the cassette is formed by a sleeve with internal threaded and side holes, a threaded plug with a conical protrusion, a lock washer with segment projections and a lid with a cylindrical protrusion placed in the opening of the lock washer, and at the ends of the conical the protrusion of the stopper and the cylindrical protrusion of the Krishlka are fitted with windows, and a device for adjusting the distance between them is formed of 785 threaded stopper and locking bar 3. The analyzer according to claim 1, about tl and the fact that the slot opening in the body is deepened by an amount equal to half the diameter of the cassette, 8 1 ill Sources of information. State notes taken into account when examining 1. USSR author's certificate, .. D 354284, class, 6 01 J 1/04, 1972. 2, US Patent No. 3740156, 356-204, published, 1973 (prototype). AA