UA122073C2 - PISTON-Type VIBRATING CAVITATOR FOR LIQUID ACTIVATION AND DISINFECTION - Google Patents

Abstract

The invention relates to devices for creating cavitation in a stream of liquid media. The piston-type vibrating cavitator for fluid activation and disinfection contains a housing, coaxial working and drive shafts. On one side the working shafts are mounted in drive shafts, on each working shaft the thrust-radial bearing equipped with the corresponding conical nozzle is rigidly fixed, on each working shaft the spring is put, on the one hand connected to a conical nozzle, and another - to the case. In this case, to provide reciprocating motion to the working shafts with pistons, the cavitator contains side shafts mounted perpendicularly on both sides relative to the working shafts and parallel to each other. The side shafts are rigidly mounted wheels with fixed bearings, in which the axles are installed, the side shafts are mounted with the possibility of rotation with the wheels, while the axles are installed with the ability to simultaneously interact with the conical nozzles and move each working shaft according to the upper and lower dead points, compressing the springs, and with the subsequent rotation of the wheels of the axle have the opportunity by rolling the conical nozzles, to proceed from the interaction with the nozzles. The springs are installed with the ability to impulsively move the working shafts with pistons, one to the top dead center, and the other to the bottom. The invention provides increased efficiency of cavitation processes in the device.

Description

The invention belongs to devices for creating cavitation in the flow of liquid media in order to influence them in order to change their properties and can be used to implement various technological processes (grinding, dispersing, emulsifying, homogenization, mixing, mechanical and chemical activation, disinfection, heating and etc.). flowing in liquid media, in mining, fuel, chemical, pharmaceutical, paint and other industries and agriculture.

The closest analog to the invention in terms of technical essence is a piston-type vibrating cavitator for liquid activation and disinfection | see OA 943581 dated November 10, 2014.

It consists of a housing on which a bearing support is installed, a shaft with an eccentric, which is connected by a clutch to an electric motor, the housing of the eccentric is connected by a rod to a piston installed in a cylinder. The piston has through holes with sharp edges with a certain ratio of the diameter of the cylinder to the diameter of the hole.

The disadvantage of this invention is its low efficiency due to the fact that the piston can only perform inverse translational movement with a frequency limited by the design features of the device and cannot rotate around its axis. It is known that the effect of cavitation occurs the greater the more often, faster and with greater pressure the liquid medium moves through the holes in the piston, and the increase in the speed of its passage is directly proportional to the speed of rotation of the drive shaft on which the eccentric is installed. An increase in the revolutions of the drive shaft with an eccentric will lead to the destruction of the entire device from the increase in friction and vibrations associated with this process.

The invention is based on the task of creating such a piston-type vibrating cavitator for the activation of a liquid medium and its disinfection, in which the piston will move simultaneously, both reciprocatingly and in the rotational direction around its axis.

The reciprocating movement of the piston will take place in pulse mode. The system for converting rotary motion into reciprocating motion will be created in such a way that it does not create significant friction from the parts that are in contact with each other, and the speed of rotary motion and the frequency of reciprocating motion of the piston will not destroy the entire device under significant loads. At the same time, the frequency, speed and pressure of the passage of the liquid medium through the holes in the pistons will increase significantly. In addition, there will be a liquid medium in the device

It will also move in the rotational direction and will be divided into two opposite flows, which will impulsively interact with each other, resulting in a significant increase in the amount of cavitation and the efficiency of the device.

Drawings (Fig. 1), (Fig. 2), (Fig. 3) and (Fig. 4) schematically show a piston-type vibrating cavitator for liquid activation and disinfection, where (Fig. 1) shows its longitudinal section, (Fig. 2) shows a top view in section, (Fig. 3) shows a front view, (Fig. 4) shows a piston.

To solve the problem, a piston-type vibrating cavitator is proposed for liquid activation and disinfection, which consists of a housing 1, bearings 2, rigidly fixed to the housing 1, stuffing box 3, splined bushings 4, installed in bearings 2, working shafts 5, installed in a splined bushings 4, mounts 6 on the working shafts 5, splined sections 7, made on the shafts 5, round gears 8 interacting with each other, wheels 9, thrust-radial bearings 11, rigidly fixed on the working shafts 5, conical nozzles 10, rigidly installed on thrust bearings 11, side shafts 13 and drive side shafts 12, on which wheels 9 and gears 8 are rigidly mounted, bearings 14, inserted at opposite ends diagonally in wheels 9, springs 15, put on working shafts 5, stops 16, rigidly fixed to the body 1, drive shafts 17, inside of which splined grooves are made in accordance with the splined grooves of sections 7, in which shafts 5, bearings 18, jors are installed tko fixed on the housing 1, in which the drive shafts 17 are installed, bearings 19, rigidly fixed on the housing 1, in which the side shafts 12 and 13 are installed. Axes 20, which are installed in bearings 14. Cylinder 21 with blades 29, which are rigidly fixed with on its inner side, pistons 22 with holes 28 and vanes 30, which are close to the vanes 29 with the condition of free rotation around their axis of the pistons 22. Pistons 22 are attached to the working shafts 5 by fastening 6. Inlet nozzle 23, exhaust nozzle 24. Identical gears 25 , fixed on drive shafts 12, identical to gears 26 and 27, fixed to intermediate shafts (not shown in the drawing) with the condition of their interaction between themselves and gears 25.

The device works as follows.

The liquid medium through the nozzle 23 is fed into the cylinder 21 with blades 29. A torque is applied to the drive shafts 17 in opposite directions relative to each other, which is transmitted through the slots 7 to the working shafts 5 installed in them, as a result of which the pistons 22 in the cylinder 21 receive rotational movement around their axis in opposite directions relative to each other. At the same moment, a well-directed torque is applied to one of the drive side shafts 12, which is transmitted through circular gears 25, 26 and 27 to the other drive shaft 12 and further through gears 8 to the shafts 13, as a result of which the wheels 9 begin to rotate synchronously around their axes in the opposite direction relative to each other and exclusively in the direction of the conical nozzles 10, as a result of which the axes 20, on both sides of the shafts 5, are synchronously engaged with the conical nozzles 10, which in turn leads to the movement of the working shafts 5 with springs 15 in splined grooves 7 and splined bushings 4 and drive shafts 17 to the top and bottom dead centers. At the moment of movement of the shafts 5, the springs 15 under the action of thrust radial bearings 11 are pressed against the stops 16, and at the moment when the axles 20 leave the engagement with the conical nozzles 10, the springs 15 pulse release the energy stored in them and move the shafts 5 with pistons 22 along the slotted grooves 7 in the opposite direction to the bottom and to the top dead center. At this moment, the pistons 22 perform a synchronous pulse movement in the direction of each other and a rotational movement in opposite directions relative to each other, during which the liquid medium in the cylinder 21 repeatedly passes through the holes 28 and the blades 29 with the blades 30, simultaneously being subjected to significant multidirectional loads, in which the cavitation process takes place in enhanced modes.

After undergoing cavitation treatment, the liquid medium is moved from the cylinder 21 through the nozzle 24.

In the future, the work cycles are repeated.

Claims (2)

FORMULA OF THE INVENTION 1. Vibrating piston-type cavitator for liquid activation and disinfection, which includes a housing, a drive shaft, a working shaft, a piston with through holes, a bearing, nozzles for the supply and removal of a liquid medium, a cylinder, which is distinguished by the fact that it contains an additional working shaft and an additional drive shaft, and the working and driving shafts are installed coaxially, the working shafts on both sides have sections with splined grooves, on one side, the working shafts are installed in the driving shafts, inside of which splined grooves are made, each working shaft on the opposite side is installed in the corresponding splined groove bushing, splined bushings are fixed in bearings, a thrust radial bearing is rigidly fixed on each working shaft, equipped with a corresponding conical nozzle, a spring is put on each working shaft, one side is connected to the conical nozzle, and the other - to the body, while to provide reciprocating movement of working shafts with pistons, the cavitator contains lateral ales, installed perpendicularly on both sides relative to the working shafts and parallel to each other, while one shaft in each pair of side shafts is the driving one, wheels with bearings fixed in them are rigidly mounted on the side shafts, axles are installed in the wheel bearings, side shafts mounted with the ability to rotate with the wheels, while the axles are mounted with the ability to synchronously engage with the cone nozzles and move each working shaft according to the top and bottom dead centers, thereby compressing the springs, and with further rotation of the wheels, the axles have the ability to roll the cone nozzles , come out of interaction with the nozzles, and the springs put on the working shafts are installed with the possibility of impulsively moving the working shafts with pistons, one to the top dead center, and the other to the bottom. 2. Piston-type vibrating cavitator for liquid activation and disinfection according to claim 1, which is characterized by the fact that the pistons are installed with the ability to perform synchronous pulse reciprocating movement with simultaneous rotational movement around their axes in opposite directions relative to each other, the pistons are equipped with blades, the cylinder is equipped with blades on the inside. ; х dec 15 z Mala same Z: Z zan i i v ! and x Z 3 in "Tamamy NN am ; shchi dkodknA in DO uko sehkyueku Z E ib5 i vakh ze i a i KD. donna xx x ze Z zhiga I Z i z i u Z VMO s dyn zn knlk v MI NN EE sen ; ; ren KM En i ; 1 j x mas She i 5 ZHAKA Kk x v i Z MISHE NN 5 more mks in Z Oh 5 I KE in: V N and M: their X 5 I not X Ku u pn ooo ooo t ШЭ; yah Yan. u moget rai u. y: I N z a Km yah sozh du V sox su: zhu V a Ai Dt omomnemyi wa i i ns nyn v Sh nyny Za ee NN Be V Eh MOV Vl IZ still Sho Z ' ; s s still shk S How vn s own and BATHS I oo s h. mo He IY pokos: y yabnoh; po non oda fo u dpddoosov AH X she o a NI a a DN: kri V y: hodoyu Hi VI U: i, :z m u Ta voky, ked v. do z tr ekh ХМК Х х Кк Я su. NOT I: re and To um ooo U and I Kh. z vyn o eh SHY i - i mya BZ I dec TV KE mch zey Zh. N de I ZE He shi pens sa NA Zh DV Anna Vi ee ey u r YADVO zhlyakm. What is it? KU en: se ey S y: rev ie KE VZHK y yony we chy Shko ko Men bob - In topic I o a tai EE: oh -e"Shho" In okkykh Z Ro Code AV x zh MY g ; iye x ; y ah z V: yah s i Z. i CHE NDU i I Z s i Ot z Shen yu Y AH b V Ba Z y NE: sem SHT: y: Z De Shk ve: mk ZV : Z i non FO ev v Me Я У Я 3 do - m EK: 5 I zh v. CY nya chy y: a so au ve tya, snyai vy she ke she cha de On rek Z sche pi : Ah u shi kyu s i osi V iva Ž rana shlya x ni u sht xx i OO 5 I i shi o SOOVVA K 5. i i V DAN k. i E ve: Z x DOZVO dovyh che Z Z 3 3 Me x - u e u I Z teo I ek 1 ek V Sword Z U NI EM: ime te Von v I NN EE: STATEMENT r None yah Ol NIV gZ she wife TT i Z NN ХЕ i Z h eV NU y He E Z Dn Ж ki s sn, -y 3 EI seni SCHO Ko Z M: i shchi o: how p u s DO tyu dlnk Z B Bu yannia M i ny Z zhe i KI u and Z KIV y 8 Ob - p nn. | | 5. x | sho - ANA DE x rai nn: shshshshshshshnnshii Kk Oh . ; ше шк ши шк зд І ши кр лшше чесни ши шк еше Шк в и в о ШЕ и | nya I | and now in Y ke. 10 Y s M kN "Sche kh rog. 2 E N kA V: Also 5 x N tkuzh, hrya x N sekh Z x N Z y Z She! Z x N i: X I yukknkkknku i i ' Yaeiy ' m x Kz x shyai I " X hiz ih 1 Ka N 4 Zh oseyuyukh Z gny FV ey u x na de A m VYSH ne Z TK U sli i a 5 I day; and che Z Z N y I y Z u seni u X I sni sha y v ; "DS KE: I Z - zh; che for she 'm she hu SK and DSHY that Z go and still and NN Her N She ro NN ; ry IZ 5; 7 x V tk zhh Z i ! ШК Ж и х ke myukkkkkkh Z NN N -Z svya ; : i A i 5 iz : y N sny Ж ЖЖ x y ssuyudkkyuvii "Where x and dev sya still Z : N still z x N : Z i staff : X How i s 3) No: mother Z - ! 5 Z : a N z 5 Z snnndlyayaiv 5 u. i x u N: ih u H: ih u N: ih z BO i 5 Z; Z Z E Z Z; X ru u i Z I i Z i U osn Fig. WITH I still KI y shi cha De as oz I | tires Y. fenu kut, i: m y Gums Y k she OM Y M z x I ZM or nn ZY tro E I, Ka she | From STU Fig. 4