RU42U1 - Fluid corrector - Google Patents

Abstract

1. A fluid corrector containing a cavity for receiving the fluid to be treated, connected to the inlet and outlet pipelines and a filter with a filter element made in the form of a grid of material with high magnetic susceptibility, characterized in that it is equipped with a pump, a container with a suspension of a magnetically controlled composite, additional a supply pipe and an electric motor with a drive, as well as blocks for setting the process and control modes, a speed indicator of the output shaft of the electric motor, and the cavity for the placement of the fluid to be treated is made in the form of a mixing chamber with two covers, the first cover being made in the form of a hard disk with 2n holes (n≥1) uniformly paired over the disk area, with a tube connected to each first hole of each pair of holes with the end of the first supply pipe, the other end connected to the source of the processed fluid, and a tube connected to the first end of the additional supply pipe is also introduced into each second hole of each pair of holes of the pipeline, the other end of the container with the suspension of the magnetic control composite, placed in the outlet, the first and second covers are hermetically connected around the perimeter by an elastic tape, while the second cover is made in the form of an elastic disk with a hole in the center of the disk, and along the perimeter of the hole in the second cover and the perimeter of the second the caps are installed respectively the first and second rigid rings, and on the first ring at one end is an elastic corrugated tube hermetically fixed, which is inserted into the inlet at the other end

Description

// dSOi f

.

Squeegee Corrector

Utility model - refers to the cleaning technique

water and biological fluids and can be used, for example, in medical technology to restore biological Ш1dostki within the limits of schiological norms.

A device is known that contains an electric motor connected by an output shaft to a roller pump, supplying and discharging elastic pipelines interacting with NaAOS and hermetically connected respectively to the inlet and outlet openings of a filter made in the form of a column with a carbon-based sorbent composite, and a tackle installed in front of the filter electromagnet interacting with its magnetic field with biological fluid flowing through the supply pipe (see, for example, USSR copyright certificate 1е 1568313 , 07/21/08, A6IM 1/36)

This device is characterized by unstable

correction of biological fluid, for example, purification of blood from toxins, and, in addition, the possibility of its use is limited due to undesirable effects, such as travatization of blood cells and the deterioration of its rheological properties.

MiiK: WHO С 1/08 containing a bath for the placement of the liquid being cleaned, inlet and outlet pipelines, as well as a drum installed in it with the possibility of rotation by means of an electric motor, inside which a magnetic system composed of permanent magnets is fixed. In this case, the drum and part of the bottom of the bathtub are made in the form of a grid of a material with high magnetic susceptibility. However, this device does not provide the possibility of correcting the composition of the cleaning fluid. The essence of the proposed drive model is that the corrector of fluidity, containing a cavity for accommodating the fluid to be treated, connected to the inlet and outlet pipelines, an electric motor, a magnet system and a filter with a filter element made in the form of a set of 1 material with high magnetic susceptibility, is equipped with a pump, a container with a suspension of a magnetically controlled composite, additional 1 and 2 lead by a pipeline and an electric motor with a drive, and blocks for setting the process and control modes and a marker revolutions of the output shaft of the electric motor. In this case, the cavity for accommodating the processed fluid is made in the form of a mixing chamber with two covers, in which the first cover is made in the form of a hard disk, Z / holes, evenly spaced in pairs along the front of the backside, a pipe connected to each first hole of each hole is connected the end of the first supply pipe, the other end connected to the source of the processed fluid, and into each second hole of each pair of holes also introduced a pipe connected to the first end of the additional of the piping, ,,: the other end of the container, which was placed in the outlet with a suspension of a magnetically controlled composite .. in the second cover and the perimeter of the second cover, respectively, the first and second rigid rings are installed. At the same time, an elastic corrugated tube is tightly fixed on the first ring, which is inserted into the inlet of the filter with the other end, and on the outer (opposite the first cover) side of the second cover, the first rods are radially installed at regular intervals. At one end, these first rods are fixed on the second ring with the possibility of rotation relative to the plane of the ring, and along the length S these rods are fixed on the surface of the second cover, moreover, the length of each first rod is equal to the radius of the second cover minus the outer radius of the first and the width of the second rings. The number of first rods, while on the other end of each first rod, rods are pivotally fixed at one end, with the other end movable rods connected to the node, which is made with an opening in the center of which there are two contact switches connected respectively to the first and second inputs of the control unit, the first and second outputs of which are connected to the control inputs of the electric motor respectively to the additional electric motor. The rod displacement unit is mounted coaxially with the second cover with the possibility of rotation between it and the filter m is connected by a rotation drive to an additional electric motor, an elastic corrugated tube is placed inside the hole in the center of the rod displacement unit. 3 holes in the center of the second cover there is a plug-valve, rigidly connected to the second ring with the help of radially mounted second rods, one end attached to the plug-valve, and the other end mounted on the second ring. In this case, the second rods are installed inside the sectors formed by the first rods, but on the other, relative to the second cover, sides, a, tx / y / (С

-f-zo / 9

number of second rods /

The inlet and outlet openings of the rltra are made on opposite end surfaces of the filter housing made of magnetically transparent material, for example, plastic, and the mesh of the filter element is spatial, filling the housing with a liter and made, for example, of an iron-cobalt alloy. In this case, the magnets are mounted on the sides opposite the thickness of the filter housing, and a speed indicator is installed on the output shaft, the output of which is connected to the third input of the control unit, quarter, fifth, sixth and seventh / inputs connected respectively to the first, second, third and fourth outputs unit for setting process modes, and the third output of the control unit is connected to the trip contact of the corrector o

The rod moving unit is made in the form of a truncated cone, with a large base mounted on the base of the cylinder and with a groove on the outer cog surface, and the groove is made in the form of two concentric circles located respectively at the small and large bases of the cone and connected in a spiral surrounding the conical surface.

In this case, the part of the groove corresponding to the circle at the small base of the cone (the first circle) is made variable in terms of the level relative to the middle position of this part of the groove, for example, according to the sinusoidal law, and the number of periods of the sinusoid along the length of the first circumference is not less than three, and the amplitude of the sinusoid makes up at least a quarter of the width of the elastic tape connecting the first and second covers.

Contact switches are installed inside the groove, the first contact switch being installed on the first circle on one side of the place where this circle is connected to the spiral connecting the first and second circles, for example, COD of the acute angle side, and the second contact switch is installed on the other circumference on the other fenced off from this, flown away, respectively, from the side of an obtuse angle, in the place of its conjugation with the second circle. In this case, the cittindrical surface of the rod displacement assembly is completed in the form, for example, of a gear in contact with the corresponding drive, connected to an additional electric motor. In addition, the filter housing is made in the form, for example, of a parallelepiped, rectangular in the transverse and longitudinal-g. NOM sections, with a ratio of width in the central part and thickness, for example, 3: 1, and a ratio of length and width, for example, 4: 1, with the thickness of the parallelepiped made constant along its entire length, and the width of the ends of this parallelepiped made equal to half the width of the parallelepiped in the central part and is located symmetrically relative to its longitudinal axis, and the edges of the ends are connected to the corresponding sides at an angle (30-45) relative to the longitudinal axis of the box. The use of a fluid corrector ensures a high quality of purification of the processed fluid, and when purifying, for example, blood of toxins, it reduces the possibility of trauma to blood cells, increases the efficiency of blood purification from low, medium and high molecular weight exo and endotoxins without violating its rheological properties, and increases the activity of cholinesterase. The utility model is illustrated by drawings, where (Mr.I shows a general view of the fluid corrector, q.2 shows a view along arrow A, Fig. 3 shows a plan view of a rod displacement assembly, Fig. 4 shows a section along BB , Fig. 3 shows the functional diagram of the control unit, Fig. b shows a diagram of the included electric motors, and Fig. 7 shows a temporary diagram of the operation of the corrector fluid. -iG - go / 9- / & magnetically controlled cochosite (not shown in the drawing) in predetermined volumes, their mixing and interaction. Camera I remix (see, Fig. I) is connected zlast with a corrugated tube 2 with a filter 3, designed to clean the liquid from the magnet previously mixed with the suspension, we control the magnet about the composite. In the outlet (not shown) of the filter 3, there is a fixed 1 drain pipe 4 intended for output using pump 5 that has been treated with iS fluid from the corrector. Pump 5 is made in the form of a peristaltic igip pump with two flow directions and through a matching gear b is connected to the output shaft 7 of electric motor 8, designed to provide pump bots 5. Pump 5 is also connected to the supply pipe S, connected to the source (not shown) of the liquid to be treated, and to the supply pipe 10 connected. with a capacity of II with a suspension of a magnetically controlled composite. The supply pipelines 9 and 10 are connected by corresponding systems 12,13 branched elastic tubes with holes 1.15. These holes 14-, 15 are evenly distributed in pairs on the surface of the roof ШШШ1 16 of the mixing chamber I (in order not to overload the drawing, one pair of holes is numbered) and are intended to ensure the simultaneous supply of Zh11dostoks into the cavity of the chamber I uniformly over the entire area of the scherman. Pipelines 4,9,10 and tubes 12,13 are made of silicone. The cover 16 is made in the form of a hard disk and, using an elastic tape 17 fixed around the perimeter of the cover 16, is connected to the cover 18, made in the form of an elastic (silicone) disk with a hole in the center of the disk. In this case, the outer perimeter of this disk and the perimeter of the hole in it are made in the form of rigid rings, respectively 19.29. A plug valve 21 is installed in the hole 20 between the caps 16 and 18, for example, using rods 22 fixed at one end to the plug valve 21 and the other to the ring 19.4. f 930 / ni 22 are also mounted between the mevda-caps 16,18 and are located inside the cavity formed by these caps 16,18 and an elastic tape 17 “On the other side of the cover 18 (NLS cavity) four rods 23 are fixed on its surface along the entire length, one the end is also fixed on the ring 19. The other end of each rod 23 is pivotally connected to the end of the corresponding rod 24. The rods 22,23 are mounted with an offset relative to each other (see figure 2). The other ends of the rods 24 on the rollers 25 are installed in a groove made in the video recess 26 of the rod transfer unit E7 made in the form of a truncated cone with a larger radius base mounted on the base of the cylinder. Moreover, the periphery of this C1 cylinder is made in the form of a gear gear 28, mounted rotatably and through a gear unit 29 shmatically connected to an electric motor 30 made in the form of a reversible motor of the DPR type, Groove 26 is made on the conical surface of the link movement unit 27 and consists of two concentric circles 31.32 (see yyg.Z), respectively located near the bases of the cone and connected by a spiral 33, with the leg of the Taurus groove 26 located vertically, and the shelf of the Taurus in the groove 26 related to the spiral 33 and zhnoeti 32 of larger diameter disposed horizontally and in the groove 26 belonging to the circle 31, the shelf brand is sinusoidally with respect to its mean poyao: ;; {eniya. At the same time, three periods of a sinusoid are placed along the length of this circle, and the amplitude of the sinusoid along the Vedic is equal to one fourth of the Width of the elastic tape 17 connecting the covers 16.18. Inside the groove 26 on the shelf of the Taurus circle 31 from the side of the acute angle of its conjugation with the spiral 33 to the shelf of the Taurus-circle 32 from the side of the obtuse angle of its conjugation with the spiral 33 are mounted contact switches 34 and 35, respectively, electrically connected to the first and second inputs / control unit 36, respectively (see FIG. 5). . A through oterothia 37 is made in the central part of the link displacement unit 27, through which an elastic corrugated tube 2 is connected, connected to the inlet 39 of the filter 3 located in the housing 38. The housing 38 of the filter 3 is made of plastic that does not interfere with the action of magnets 40 on the filter element 41, installed in the housing 38 of filter 3 and made in the form of a pure fine-mesh mesh of iron-cobalt alloy with high magnetic susceptibility. In this case, the value of each parameter of the mesh cell is made in and range. (1t2) mm. An otchzh 42 revolutions of the shaft is connected to the output shaft 7 of the shaft, made B in the form of a photodiode 43, optically coupled to an incandescent lamp 44 through a hole 45. in an opaque disk 46 installed on the shaft 7, an incandescent lamp 44 and a photodiode 43 connected to the third input of block 36 The control tree 36 includes a control element 47, the first input connected to the fourth input of the control unit 36, and the second input connected to the output of the counter 48. The comparison element 47 is used to compare the set to the fourth input Control unit 36 zhpulsov amount of .shpulsov number that came to ochetchkk 46, a first input connected to the third input of the control unit 36. The output of the comparison element 47 is simultaneously connected to the first input of the relay coil 49, disconnecting the contact of which is installed in the control circuit of the electric motor 8, to the input of the delay element 50, made, for example, in the form of an adjustable BC-circuit, I to the first input of the counter 51. The output of the element 50 of the delay is simultaneously connected to the installation input O of the counter 48 and the second input of the relay coil 49. The output of the counter 51, intended for counting: impulse signals from the comparison element 47, is connected to the first bypass of the comparison element 52, the second input connected to the fifth input of the control unit 36. The output of the element 52. comparison, designed to compare specified on the fifth input of the block 36 control- 8h- / J

"9. / y

kkya klitshes E; hl.; g ulsov with :: olichichsto:.; l1..11 whose :: g ;; A,;:; G} 1a:: o, .. shykh on the counter 51, is simultaneously connected to the first input of the relay 33, the switching contacts of which are installed for the purpose of controlling the electric motor 30 and the intended to change the direction of rotation of the Bykhodko-shaft of this street sirodvuaaatsl, g: o B.;:. OD: / ou..Uj.-KJ relay 5, I disconnect 1D1a g whose contact is used to control the motor 8, and to the first input of the counter 55, designed to count pulsed signals from the element 52 of the comparison.

The output of the counter 55 is connected to the input of the comparison element 56. the second input is connected to the sixth input of the control unit 36, and the output of the element 56 is compared to the input of the installation O of the counter 55 and via the delay element 5 .- to the output of the control unit 36

In addition, to the second input 71. of the control unit 36, the input of a single-shot 56 is connected at the same time, which is designed to generate a pulse of a given length (waiting for signal a) :: the first input of a counter 59, designed to count pulses x

signals from the contact switch 35. The input of the counter 59 is connected to the first input of the comparison element 60, the second -; the input of the control unit 36 connected to the seventh input and intended for comparing the set number of pulses with the number of pulse signals burned from the on-off contact switch 35. The output of the comparison element 60 is simultaneously connected to the second input of the relay coil 53 and the installation setting O of the counter 59

In this case, the output of the one-shot 58 is connected to the first input of the And 61 element, the second input connected to the first input of the control unit 36, and the output simultaneously connected to the other input of the relay winding 5 and to the installation input O of the counter 51.

- iiT- 9 o / ff / e

they have the fourth outputs of block 62:: I re: a process noise designed to provide icoppeicropa fluid in the required mode l containing a reference register of 63.6.65.; 6G, prychek, the outputs of registers 63-66 are connected respectively with the second, third, and fourth steps of the block 62 of the job re ::; process names.

The liquid corrector works as follows: Pre-fill et.iKOCTb li suspensions of magnesium o-controlled composite, made in the form of a suspension in liquid

medium of a composite of ketocarbon particles of size (10 10) A, and on registers 63-66 of block 62 of setting the renim of the process of view Blya1: m are the quantities required for the given process. ..pii, on the register 63, set the number of revolutions of the electric motor 8, which ensures the passage of doses of the processed fluid and the suspension of magnetically controlled co: 4 posit to the cavity of the chamber I; moreover, the dose of the treated fluid is set in the range of () ml, and the suspension, respectively, in the range of ( ) ml, the ratio of the doses of the liquid being treated and the suspension is ensured by the appropriate choice of the internal diameters of the pipelines supplying these liquids.

On the register 64 set the number of

switching the electric motor on for a cycle, which ensures that the mixing of the given volumes into the cavity of the chamber I is processed :, liquids and suspensions of magnetically controlled coaposit. when this volume is adjusted for the cycle, the processed fluid is set in the B range () ml, and the suspensions are respectively in the range () ml, and the value of the number of starts of the electric motor 8 is determined as the quotient from dividing the set volume by the set dose of the treated liquid.

 On the register 65 set the quantity

cycles of turning on the electric motor 8, which protects the process arising L - -, GAB U - are full ;, the volume of processed (corrected) liquid, V - are set: the volume of liquid corrected in one cycle.

Lo - 16 - 930 / On the register bb b, Belkchina is set to the number of revolutions of the electric motor 30, ooochiBaYu1ts: / y discharge of the forest cover of the Baeuii LIQUID and susiena H ng; go-do1;: wow -lohiiori-. ls of the cavity of the mixing chamber I into the filter 3. At the same time, with the help of the delay element 50, the duration T is set (see FIG. 7) pauses for every time;.: enta1l; ; l.: key; turning on and turning on the electric motor 8, corresponding to the holding time tf of the mixture, which ensures the availability of complete interaction between the corrected liquid and the suspension of the forced-injection composite and obtained from the ratios ;; I: ZYV dress U (2-J- 5) 10 sec / ml — the coefficient obtained experimentally corresponds to the condition of complete interaction of the constituent materials; other designations correspond to the notation. earlier. B are initial; D10: L6NT CAP I ::: x.; Ij ..; O stitching occupies the position j shown by ba, ig. 1 dashed, and the volume of the cavity inside the mixing chamber I is equal to zero. when you turn on the mouth; .. electric motor GB:. 8 through the gearbox, b drives the pump -j which. through the inlet pipe 10 and then through the branching of the tubes 13 pumps a suspension of a magnetically controlled composite from the tank il into the cavity of the mixing chamber I. At the same time, the processing fluid is pumped into the same cavity through the inlet pipe S and through the branching of the tubes 12 from the source of the liquid to be treated with the pump 5, When the perbmep |, van2Sh ztg is received in the shmer I; ; shdkoti lift the lid 16 according to the received volume. Simultaneously, the electric motor 30 through the gearbox 29 interacts with the node 27 for moving rods and rotates it counterclockwise (see Fig. 3). When this rod 24 on the rollers 25 are on the circumference 31 of the groove 26.

 -q. -

There are vertical directions (up-down) ujiioaHHwe o {n:; whether the ends of the first otbrnI 23 and the corresponding Bvnko (rk; .- 1: o ;; -.- ;;. And the olusg: l) deform sections of the elastic disk tfayayash 18 i -measures of the first period of willow-nkya. Intensive mixing occurs when the doses of the treated liquid and suspension that have entered the chamber I;;,: С1Ю.; Other substances also interact. After receipt of the specified dosage volumes of these liquids in accordance with the number of revolutions of the process set from register 63 of block 62 of task 62 of p5, :: needles from: sel} frequency from time B to time L., and then again Vllpcha;.; T. .:. p: i this is electric; g; motor 30 is operating in the previous mode, and accordingly the incoming fluids are re-shifted during shutdown of ejas:;: trod; wigTable 8.

The above inclusion i: the subsequent shutdown of the electric motor 8 and the corresponding filling:; n:.: E cavities of the kaier I of the fluid being treated with the liquid. And the suspension and mixing of these liquids, and the next subsequent dose of the liquid is introduced into the previously obtained clump, is carried out until the register is completed 64 quantities) quantities in the key :; an electric motor beyond the center, then simultaneously turn off the electric motor 8 and switch the electric motor 30 to reverse rotation,

At 3TO; v; node 27 peresheill of rods rpai; ax; T in jscoFight arrow (see Fig. 3) and rods 24 enter from the circumference 31 into the spiral part of the groove 26 and then go to the circumference 32. This movement of the rods 24 shifts them down in the vertical direction , which, respectively, through the rods 23 causes the lid 18 to be deposited into the gap (position G, indicated on sig. 1 by a dotted line with a dot). In this case, the plug-valve 21 with the help of the rod 22 is left in the same position, the hole formed by the ring 20 is opened, which the plug-valve 21 closed, and a year later; the remote control tube 2 is located in the cavity :. mixing chamber I, mix the filter 3. - i§ The lid 18 is held in the field / f for the duration of finding the rods 2 on the circumference 3i of the groove 26, which depends on the number of revolutions of the unit 27 moving the rods clockwise: arrow. This number of revolutions is determined by contacting the Ban 2 rods with a contact switch; : 35, with po1: ts.o which form the corresponding signals. block 36 controls. Then again, the control of the fasion from the electric motor 30 of the dl unit is changed to .e chow: ;; oa arrows i. the rods S4 are displaced to the circumference 31 of the groove 2 and then the cover 18 is returned to its original position, and the stopper-valve 21 is inserted into the ring 20 and, accordingly, the hole is closed from the cover 13. This is; Тс:.: с ..; e traction 24 con rotate with switch 3, from the first contact with which (iopMnpyiDT FOR block 36 control О1: Гкл,; -, seperated 1 Т sampling and Т щл. 11 after this the cycles are repeated. In case of driO correction logical liquid, for example, blood with suspension weight-1-upra: 1L Hollow co / lusitis BTs Filling: from in the form of a 6Hoco3iviecTiiAiOil suspension, for which fungi are used silt (schiological solution, vol. Flax n in the form of 0.9 / r-dSTEOR E in distilled water, ill solution of iolate, ij; i; 4:;:.,:,; ol; Chuatzo k ;;; ios.: t. 1 and the solution is chosen The ratio (Itii) r is per 50 ml of the solution.With THIS blood is preliminarily poured by mixing with physiological saline and its coagulability is reduced by introducing an anticoagulant, for example, heparin into the blood, moreover, the mixing of blood with Physiologically 1-1 solution is performed in the ratio; volumes of shkdostel 5: (i-s-i S), and heparin i-o calculation () thousand units heparin per i ltr corrected for. blood session o

Afh, where & (0, ItO, 7) sec / yl is the experimentally obtained proportionality coefficient corresponding to:.: Fulfilling the condition of tzatol (uniform) pers.e.

mixtures, and vrb1-a filled cavity will dig pajjHbiw: 6..

where / g / is the number of pi points ;, ac- .: ooooat1LBaO. fluid l cavity; / - the number of discrete doses per c.cl from Aal-to;.; feed points, is the feed speed of the process of processing; C11D1osti B cavity ,. The rest marks correspond to the ones written earlier.

iipH zt, B cases of dorrections .- b;.; about l fire; .shdokosti, the transmission time through the zone of effectively magnate field is prescribed taking into account the ratio: - about / - /. ,, where

o - () 10 sec / mTl - experimentally obtained: the coefficient of this is corresponding to the optimal time :. 503de :: STB of a magnetic field with a strength of And 120 mTl for a mixture of baologic oO; -shdost 1 with a biocompatible suspension of a magnetically controlled composite. Here it is necessary to take into account the condition:, 25g -zt /,

tu, where t and 7i are the relative durations of the j / i cycle, the permissible period of preservation of biological fluid outside the body (see, for example, Yu, M. Lopukhin and M.N. Malo Gemosbrbtsiya, published by Medidana, M., 1985, p. S.60-65); other designations correspond to those recorded earlier.

Possibility of applying a fluid corrector subtBer:; with examples:

Example I. Outbred: A dog weighing 18 kg s

introduced 30 ml of karbofos solution. After 10 min, a picture of exotoxic shock, which turned into a coma, was observed. Sharply B.;.: Symptoms of acute poisoning of organophosphorus compounds are manifested: miosis, bradycardia 30 beats. Melon, sphonchorrhea, stiffness of the chest. Intubation of the trachea was performed, the arterial / venous shunt B was inserted into the femoral artery and vein. After intravenous .. administration of 9000 units of heparin, a fluid corrector is connected. During the session, 1.8 liters of i-service were missed.

- 19 - yjo /

Vv

 f g frf

- -26 volume of corrected blood per cycle 90 ml, dose; 10 ml each, Oyyon suspension introduced per cycle. / 10 ml. The amount of oil-gel and igkigo-controlled composite per session is 10 g, ivIariuiTKoe field is 1 ;; ultro H 50t60 mT. During correction for cushioning, bronchocorrector and cardia coronaria intravenously injected 20 ml of 0.1 l) solution of atropine. The concentration of carbophosph in the blood before the correction of 0.012 μg / ml, after the correction of 0.001 μg / ml, the activity of cholinesterase increased from 8/5 to 6% of the norm. Rheological indices of KpOBia to h iob correction, respectively: relative blood viscosity 4.85 ii h, 36 units; relative plasma viscosity 1.96 and 1.84 units; hematocrit 42.8 and 38.0; erythrocyte aggregation 13.25 and

7.75 bd; aggregation .1bodites 23.25,: 9.50

From the side of 1 scholar, 1 distortionist ;; Zaketio effect: on phage 1, enlarged absorption of latex.: etabol: ChosKO1 neutrophil activity 1.7 times. On the side of the acid-base state of the blood, moderate respiratory acmdosis caused by bronchorrhea and stiffness of the chest,

After 24 hours, the dog’s condition is severe, conscious, dynamic, independent breathing, moderate bradycardia. 6; mean arteriovenous difference in oxygen 7i; 5, ar; t:. Afterwards. 15 times as much as normal.

Example 2. A outbred dog weighing 12 kg with a prepared renal-hepatic pathology introduced 5g of veronal After 60 minutes the dog fell into an atonic coma. The amount of barbiturate B: 1 and 120 mcg / ml. Before the correction, intravenous administration of 6000 units, heparin was carried out. Cleaning carried out on a fluid corrector,

During the session missed 1.5 liters of blood. Blood volume

adjusted for a cycle of 30 ml, doses of 10 d1L, and the amount administered, for a suspension cycle of 10 ml. The total number of magnetically-controlled KOLOIOzita in the suspension is lOr, Duration of dose withdrawal I sec, transmission time through the magnetic field mT 7 7 sec sec zl.

- b6 Indications before and after lurras (5lSCh1-l.

creatinine ciiO mkiol / l - 180 1lx; -olol;

urea 26.4 μmol / L 1i, 3 μmol / L;

Nclolirubin communicated 30.5 rui ivol / L - 20.5 Aysol / L;

barbiturates 21 μg / ml.

4eres I hour after correction, the dog’s condition is grave, inhibited in consciousness, adynamic, reflexes alive. During the burden of the session, a complete exercise was performed, inside :: :: -: z :: e,;, 500 hl i.aCTj: o: xi electrolytes and glucose.

Example 3. Outbred dog weighing 16 kg with sepsis, is experimentally called under local anesthesia. the stitching of the arteriovenous shunt was excised, and after the intra-Besyugo 1200 unit of heparin, a fluid corrector was connected.

During the session missed 1.5 liters of blood. Volume: Yevodimol per cycle of a biocompatible suspension of a magnate-resistant composite 14 ml, Magnetically-controlled composite modi1 gyrosan keo: ash, Vre-l. Swan dose I sec., Transmission time through a magnetic field 1.T 4 sec. per cycle.

1 SHOUBEN blood sowing on agar-agar: -: and and icoppu: -poi. In the inoculation before correction, growth of coloins of Stratococcus aureus staphylococcus aureus is observed; in the inoculation after correction of colony growth was not observed.

Blood tests were also taken on, so to speak; zas; lyb, mid :: e molecules (oligopeptides). The concentration of medium molecules in 1 phow was determined on a spectrophotometer. Anal. From 1 gaeal: before correction, 0.960, after correction 0.320 (at wavelength; 254 tr).

Arteriovenous shunt removed

After two days, the condition of the dog is average pull.

Example 4.. Sewage after intra-workshop use (,, 5) in the amount of Yul was passed through a fluid corrector for 30 minutes. Duration of exposure of a dose of I sec.

2/91 about 9

transmitting through the magnetic field .mTl, -jA - 4 seconds per .-. and larakteristv shod; before and after corre: s; and:. 1; oo ..: ;; siot: zOnpo:

Oki with lye (organic) 8,; 1g / l - 2 mg / l

Nitrates

Nitrite

Chlorides

General

Lead

Copper

Zinc

Coli index

Smell ... after OOOOOOTK :: in-to Bt rrrichenyu to control.

Deputy General D1chreki: ora PKF Toreks

-Yumg / l

-0.001 :: g / l

-120 ..g / l

-5.5 lUr ZK5 / L

-0.001 g; g / l -0.12 iG / l

--0.015. g /: 1-3

-no

A.N. IikolasB; .x01U ;; - ;;: THEN:}. , ...;,:. 0,.; - 0 .; APP ::; .r .G

Claims (3)

1. A fluid corrector containing a cavity for receiving the fluid to be treated, connected to the inlet and outlet pipelines and a filter with a filter element made in the form of a grid of material with high magnetic susceptibility, characterized in that it is equipped with a pump, a container with a suspension of a magnetically controlled composite, additional a supply pipe and an electric motor with a drive, as well as blocks for setting the process and control modes, a speed indicator of the output shaft of the electric motor, and the cavity for the placement of the fluid to be treated is made in the form of a mixing chamber with two covers, the first cover being made in the form of a hard disk with 2n holes (n≥1) uniformly paired over the disk area, with a tube connected to each first hole of each pair of holes with the end of the first supply pipe, the other end connected to the source of the processed fluid, and a tube connected to the first end of the additional supply pipe is also introduced into each second hole of each pair of holes of the pipeline, the other end of the container with the suspension of the magnetic control composite, placed in the outlet, the first and second covers are hermetically connected around the perimeter by an elastic tape, while the second cover is made in the form of an elastic disk with a hole in the center of the disk, and along the perimeter of the hole in the second cover and the perimeter of the second the caps are installed respectively the first and second rigid rings, and on the first ring at one end is an elastic corrugated tube hermetically fixed, which is inserted into the inlet at the other end the filter aperture, while on the outer side of the second cover, the first rods are mounted radially at regular intervals, fixed at one end with a second end and mounted on the surface of the cover, the length of each first rod equal to the radius of the second cover minus the outer radius the first and the width of the second rings, and the number of first rods p1≥2, while on the other end of each first rod one end is pivotally attached to the rod, the other end can be moved in the node and They are connected with a node for their movement, which is made with a hole in the center and on which two contact switches are installed, connected respectively to the first and second inputs of the control unit, the first and second outputs of which are connected to the control inputs of the electric motor and the additional electric motor, respectively, while mounted coaxially with the second cover with the possibility of rotation between it and the filter and is connected by a rotation drive with an additional electric motor, and an elastic corrugated tube ra is located inside the hole in the center of the rod displacement assembly, and in the hole in the center of the second cover there is a plug-valve rigidly connected to the second ring with the help of radially mounted second rods, one end attached to the plug-valve, and the other end mounted on the second ring, this second rods are installed inside the sectors formed by the first rods, but on the other side of the second cover, and the number of second rods p2≤p1, and the inlet and outlet openings of the filter are made on opposite x along the length of the end surfaces of the filter housing made of magnetically transparent material, for example plastic, the mesh of the filter element is made spatial, filling the filter housing and made, for example, of an iron-cobalt alloy, while the magnets are mounted on the sides opposite to the thickness of the housing, and on a speed indicator is installed on the output shaft of the electric motor, the output of which is connected to the third input of the control unit, the fourth, fifth, sixth and seventh inputs of which are connected respectively with the first, second, third and fourth outputs of the unit for setting the process modes, and the third output of the control unit is connected to the disconnect contact of the fluid corrector. 2. The corrector according to claim 1, characterized in that the rod displacement assembly is made in the form of a truncated cone, a large base mounted on the base of the cylinder with a groove on the outer conical surface, the groove made in the form of two concentric circles located respectively at the small and large bases a truncated cone and connected in a spiral surrounding the conical surface, while the part of the groove corresponding to the first circumference is made variable in level relative to the middle position of this part of the groove, for example ep according to a sinusoidal law, and the number of sinusoid periods along the length of the first circumference is not less than three, and the amplitude of the sinusoid is not less than one fourth of the width of the elastic tape connecting the first and second covers, while the contact switches are installed respectively the first inside the groove on the first circle on one to the side of the interface between this circle and the spiral connecting the first and second circles, for example, from the plane angle side, the second contact switch is mounted on the second circle on the other side of this spiral, respectively, from the obtuse angle in the place of its conjugation with the second circle, and the cylindrical surface of the rod displacement unit is made, for example, in contact with a corresponding drive associated with an additional electric motor. 3. The corrector for PP. 1 and 2, characterized in that the filter housing is made, for example, in the form of a parallelepiped, rectangular in longitudinal and transverse sections, with a ratio of length and width, for example, 4: 1, with the thickness of the parallelepiped made constant along its entire length, and the width of the ends of this parallelepiped is made equal to half the width of the parallelepiped in the central part and is located symmetrically relative to its longitudinal axis, and the edges of the ends are connected to the respective sides at an angle of 30 - 45 ° relative to the longitudinal axis of the parallelepiped.