RU2005125395A - LASER-LUMINESCENT CONCENTRATOMER, METHOD FOR ITS USE AND METHOD FOR MANUFACTURING THE LIGHT CABLE TIP - Google Patents

Claims (25)

1. Laser-luminescent concentrator containing a laser optically connected to a spectrometer with an U-shaped system of light cables with the ability to transmit, when measuring the fractions of the reflected laser beam and the luminescent flux excited by it from the carrier with a sample into the spectrometer, said spectrometer, a computer electrically connected to the spectrometer with the possibility of highlighting the peak, the hill and the measured luminescence excitation coefficient, a laser beam power meter, sets of transparent non-luminescent test carriers, adjusting samples and calibration graphs, characterized in that the concentrator is equipped with a tubular cable lug containing an opaque non-luminescent and non-wettable liquids, for which it is intended to be immersed, a sturdy tube sealed tightly to the end of the aligned light cable through a heat-shrinkable fastening bushing for in front of which there is an end face of the tube with 3 supporting protrusions with the greatest distances between them and with the vertices in the plane providing the gap when they rest against the carrier, a light-protective skirt is placed on the tube with the possibility of installing it by friction, a round safety bell is fixed at the rear end of the tube with a curvature forming less than the permissible curvature of the cable, the tip is equipped with a removable dust cap and a removable tuning cap with a flat hard mirror bottom , a set of dark boxes, case tip mating adapters with test media, a box for tuning samples, all of the mentioned parts are made opaque and not lumi estsiruyuschimi. 2. The concentrate meter according to claim 1, characterized in that it is equipped with a vertical-block combined cable looper containing 3 vertical light blocks with flanges for pairing the cable with the blocks, the curvature of which is predominantly equal to the permissible curvature of the cable, the axes of the end blocks are installed with the least possible friction in the bearings above the concentrator at a distance less than the diameter of the block between them, the middle block is hung on a cable loop with an allowable cable tension. 3. The cable lug according to claim 1, characterized in that its tube is made thin with an end face that does not cause unacceptable pressure to crush the surface into which it abuts. 4. The tip according to claim 1, characterized in that in the hole of the end of the tube there is an inner flange guaranteeing that the spectraholes are illuminated with fractions of the reflected beam. 5. The tip according to claim 1, characterized in that the tube is made of an alloy with shape memory and curved in an arc with a curvature less than the permissible curvature of the cable. 6. The tip according to claim 1, characterized in that the tube is made mainly about a pencil with supporting projections mainly at the corners of a mental equilateral triangle. 7. The tip according to claim 1, characterized in that the protrusions are made in the corners of a mental isosceles triangle, built on the basis of an equilateral triangle, the middle line of which intersects the axis of the tube. 8. The tip according to claim 1, characterized in that a replaceable crown is sealed on the cut end of the tube with an end that repeats the end of the whole tube. 9. The tip according to claim 1, characterized in that the end of the tube is hermetically closed by a flat transparent non-luminescent film, the thickness of which is less than the height of the protrusions, and the film is made chemically resistant, like the tube, to which it is intended to immerse. 10. The set of samples according to claim 1, characterized in that it is made with surfaces corresponding to the surfaces of the media. 11. The casket according to claim 1, characterized in that the samples are fixed on the inside of the lid without touching with a release film between the upper and lower parts of the casket, an air hole is made in the bottom, the aforementioned film is sealed and tightly bonded to the walls of the casket with a slack to maintain atmospheric pressure on its side with a tightly closed lid, and its upper side is made of adhesive. 12. The dark box according to claim 1, characterized in that it is made up of a bottom, a quick-change lid with a dropable handle and a window in the ceiling with the possibility of closing it with a shutter with a guide for the tip in its middle and air slots around it, a washer dressed on the guide , with water slots. 13. The case mating tip with test media, characterized in that it is made containing a stable desktop housing with the height of the longest tube with a seat for carriers in the form of a rectangular well and a hole for the tip with a non-magnetic tube perpendicular to the axis of the well in the plane of its symmetry, a wedge wedge clamp is placed in the well, containing a wedge-shaped bar fastened with its long face to the narrow face of the well opposite the hole for the tip with the wedge up, oblique wedge, sop adjustable with the oblique face of the wedge-shaped bar, mounting plates mating with the wedge and the carrier, in the other narrow side of the well along the said plane of symmetry, a mounting groove is made in the form of a dihedral angle, in the edge of which the axis of the hole for the tip is directed at the upper end, at the opposite end of this hole an annular magnet is fixed with magnetic poles on the outside, and a soft magnetic ring is fixed on the tip with the ability to maintain the smallest magnetic gap when the tip abuts the carrier, the narrow side of the well is equal to the diameter of the thickest test tube, the supporting protrusions of the tip are made corresponding to the carrier, the pocket has a pocket for storing the oblique wedge and mounting plates, the housing is equipped with a light-tight cover with a height in the housing with a slot for the passage of the tip closed by flexible jaws. 14. The mating device for the carrier in the form of a biotechnological installation product pipeline according to claim 1, characterized in that its housing is made in the form of a clamp with the possibility of fixing on the carrier, perpendicular to the tangent to the surface of the carrier in the place where the carrier is transparent, an opening for the tip is made, where it is installed means for prolonged mechanical abutment of the tip in a transparent place, mainly in the form of a nut, screwed into this hole and fixed in it, a compression nut is screwed onto the protruding part of the nut, pressing the end face with its protrusions into the carrier through a ring mounted on the tip. 15. The concentration meter according to claim 1, characterized in that it is equipped with lasers of various frequencies, spectrometers with frequency working regions of luminescent flows excited by lasers, and cables for these frequencies. 16. Laser-luminescent method for minute measurement of the absolute concentration of luminescent, in which the carrier with the sample is illuminated with a laser beam from the light cable, the peak, the hill and the value of the measured luminescence coefficient are displayed on a computer and the absolute concentration of luminescents in the sample is determined from the calibration graph, which is different from sample with a stationary laser beam without touching the end of the media cable. 17. The method according to clause 16, characterized in that it is illuminated manually, properly supporting the tip with 3 protrusions in the carrier. 18. The method according to clause 16, wherein the tip is introduced into the illuminate sample by introducing the tip into the sample. 19. The method according to clause 16, characterized in that the tip is inserted into the guide of the dark box, it is guided to a specified place in the direction of the visual eye through the water slots and the distance along the peak. 20. The method according to clause 16, characterized in that the carrier is installed with a sample in the well of the body mating tip with the carrier in a predetermined place against the hole for the tip using a wedge clamp, the tip is inserted into the hole for it with the corresponding protrusions at the smallest gap between the magnet and soft magnetic ring and put on the cover on the mating. 21. The method according to clause 16, characterized in that the mating device is fixed to the carrier in the form of a biotechnological installation product line with a hole for the tip against the transparent place of the carrier, the tip is inserted into the hole for it with 3 protrusions into the carrier, the tip is pressed mechanically to the carrier for a given time. 22. The method according to p. 16, characterized in that they illuminate the carrier with a breakdown by lasers of different frequencies alternately and highlight peaks, hills and measured luminescence coefficients using appropriate spectrometers and cables. 23. The method according to clause 16, characterized in that the resulting peaks, hills and measured luminescence coefficients are transmitted by telemedicine specialists. 24. A method of manufacturing a light-cable lug, in which a lug is put on the cable, connect them with a heat-shrinkable sleeve by rest friction force, pass them plumb through a hole in a posistor welder run, heated to a heat-shrink temperature, without touching the hole wall, remove the cable with a sleeve fixed to it with a tip from the hole, characterized in that they fix the safety bell on the tube for the tip, put the cleaned sleeve on the cleaned combined cable of the U-shaped cable system Lei at its end according to the drawing, heat-shrink the sleeve with the aforementioned actions, connect the system to the laser and the spectrometer, turn on the concentrator, cover the sleeve with glue, pull the cable with the sleeve with sliding back into the cleaned tube until the ends of the sleeve and the tube align, put the tuning cap on the tube until it stops in 3 support ledges, continue to pull the cable into the tube until the highest peak is obtained, turn off the concentrator and cure the glue. 25. A method of manufacturing a curved version of the light cable tip, in which a straight tube of an alloy with shape memory is bent to a predetermined shape, heated in this form to a shape memory temperature, cooled, straightened, fastened with a given device, heated to restore the stored shape, characterized in that give the tube a bend memory with a curvature of less than the permissible curvature of the cable with straight ends, with a straightened tube, perform actions according to the method of manufacturing the main version of the tip according to paragraph 24, okryvat adhesive only that part of the sleeve which is conjugate with the straight end of the tube, and heated to restore the stored tip shape.