WO1997033695A1 - Method of turbulence-pulverisation of materials (variants) and device for carrying out said method (variants) - Google Patents

Abstract

The invention relates to the turbulence-pulverisation of materials and can be used for the high-capacity fine pulverisation of poly-dispersed materials or as a mass-exchange device and chemical reaction-intensifier. The method is as follows: within the turbulence formed by streams of an energy-carrying medium introduced at an angle to the corresponding radius of the pulverisation zone, local concentrations of acoustical energy are created, each stream being pulsed at a frequency different to that of the other streams. The device comprises a chamber with means for feeding in the material, ducts for feeding in the energy-carrying medium, nozzles for discharging the end product, and gas-stream high-frequency oscillators. Each duct for feeding in the energy-carrying medium communicates with the chamber cavity via the corresponding gas-stream oscillator and the exit angle of the energy carrier stream relative to the corresponding radius of the chamber is 60-85°. Each gas-stream oscillator can take the form of a slit nozzle and a coaxially arranged resonator between which is located an oscillating channel; one lateral wall of the resonator and one of the walls of the nozzle lie in the same plane. The resonators of the gas-stream oscillators can be tuned to various resonance frequencies or can contain high-frequency gas-stream oscillators each of which takes the form of an assembly comprising two units (nozzle unit and resonator unit).

Description

 A method of dispersing materials and substances (options) and devices for its existence (options).

5 The invention relates to bulk grinding of materials and may

be used for high production and easy chopping

different materials in different ways of thinking, and

personal: urban, chemical, structural, energetic, food,

medical, as well as in others for industrial purposes.

The previous level of technology.

From the prior art, the method of the vie

material grinding (see 31 ⁾ Ν 1282894, Μ. cl С02C 19/00, 1983 [1]), which includes the entry of an energizer to the corner of the radius of the grinding zone,

limited lateral and end walls, and the formation of high-speed

15 night, the return of the original material with the possibility of involving him in

viral flow, the generation of gas-dynamic perturbations in a viral flow

in the case of the use of the side wall and at the same angle

to the left of the distribution of the friends from the friend, and the output of the target product.

Lime and gas dynamic devices for vortex grinding

20 material [1], including a standard camera, equipped with a stream for

giving the original material to the power supply unit of the power supply with the regulator

By the angle of the installation of the negative camera radius, the output of the target

of the product and sources of gas-dynamic perturbations of the viral feed- νθ 97/33695

2 ka, executed in the form of Helmholtz resorts, located tangen-

social camera.

The general disadvantages of the above described method and equipment for vira-

As a result of the grinding of the material, there is only one single input channel

(delivery) of the energy source to the area of grinding and, consequently, low

PERFORMANCE. Β due to the fact that an increase in the productivity of

closely connected with the size of the camera (its grinding areas),

and, consequently, its internal volume and as a consequence of the arc, it’s simple

For the sake of one complete treatment of the interior of the camera, which in turn leads to a decrease in the average value of the loss of flow, due to the non-pollution It reduces the kinetic

particle energy and is the reason for the reduction in the efficiency of grinding i.e. decrease in profitability and affordable profitability of the land.

Also known is the method of the direct grinding of the material (see patent 15 Aug 5 3648936, CL 02C 19/06, 1970 [2]) - The present invention

to the existing radius of the grinding zone, limited lateral and end walls, and the processing of high-speed vivid view, the yield of the original

the territory with the possibility of involving him in a viral flow and outputting the target 20 products.

Lime and gas dynamic devices for vortex grinding

a material that implements a method [2], including a normal camera, equipped with equipment for supplying the original material, a consumer device for supplying a power to a consumer 3

Ηedοsτaτκami izvesτnyχ [2] and sποsοba usτροysτva yavlyaeτsya nizκaya eφφeκτivnοsτ τοnκοgο grinding ποlidisηeρsnyχ sisτem, ποsκοlκu disπeρgiροvanie isχοdnοgο maτeρiala ηροisχοdiτ in ρezhime usτοychivοgο vρaschaτelnοgο movement κοτορy χaρaκτeρizueτsya nizκοy προizvοdiτel- nοsτyu and bοlshοy eneρgοθmκοsτyu. Otherwise, the entire product has a large inconvenience of dispersed composition.

DISCLOSURE OF INVENTION.

A technical task to be solved by the invention is to increase the grinding efficiency and to reduce the unevenness of the dispersed target product.

Pοsτavlennaya task ρeshena τem, chτο in sποsοbe viχρevοgο disπeρgi- ροvaniya maτeρialοv and veschesτv (vaρianτ) vκlyuchayuschim ποdachu disπeρgiρue- mοgο maτeρiala or veschesτva in viχρevuyu zοnu κameρy gazοdinamichesκοgο usτροysτva, vnuτρi κοτοροy on account of its τangetsialnοgο vvοda ρabοchy οb- it eneρgοnοsiτelya οbρazοvan sτatsiοnaρny viχρ and withdrawal from the chamber of the product, according to the invention, to the extent that it is not subject to a loss of energy, arises from the utilities and eτοm in κachesτve vοlnοvο- dοv geneρiρuemyχ vysοκοchasτοτnyχ κοlebany isποlzuyuτ sοπlοvye κanaly vvοda eneρgοnοsiτelya, ποsρedsτvοm κοτορyχ geneρaτορy vysοκοchasτοτnyχ κοlebany sοοbscheny with vnuτρennim οbemοm κameρy. Β vaρianτe sηοsοba, vκlyuchayuschim ποdachu veschesτva πο vχοdnοmu πaτρubκu in viχρevuyu zοnu κameρy gazοdinamichesκοgο usτροysτva, vnuτρi κοτοροy on account τangetsialnοgο vvοda its ρabοchy οbem eneρgοnοsiτelya οbρazuyuτ sτatsiοnaρny viχρ and ηοsle- \ θ 97/33695 ΡСΤ / ΚШ7 / 00058

4 of blowing vyvοd κameρy usτροysτva tselevοgο προduκτa, sοglasnο izοbρeτe- NIJ in κameρu usτροysτva ποdayuτ zhidκοe veschesτvο and οbesπechivayuτ uslοviya vοzniκnοveniya κaviτatsii in viχρevοm ποτοκe veschesτva and eneρgοnοsiτelya on account geneρiροvaniya in οbeme viχρya πρi vvοde in negο eneρgοnοsiτelya, ulτρa- zvuκοvyχ ηοley, in geneρiρuemye vyχοdnyχ uchasτκaχ κanalοv vvοda eneρgοnοsiτelya, πρi eτοm in κachesτve vοlnοvοdοv geneρiρuemyχ vysοκοchasτοτnyχ κο- oscillations isποlzuyuτ sοπlοvye κanaly vvοda eneρgοnοsiτelya, ποsρedsτvοm κοτορyχ geneρaτορy vysοκοchasτοτnyχ Disturbances communicated with the internal camera. It is representative that, in every case, a non-essential chamber, a pulsating mode of failure occurred, not without a result of a malfunction. Pρedποchτi- τelnο sοzdavaτ in οdniχ sτρuyaχ πulsatsii with chasτοτοy in diaηazοne 50-500 Hz, and in dρugiχ sτρuyaχ eτi ηulsatsii sοzdayuτ with chasτοτοy in diaπazοne 15-25 κGts, πρi eτοm vvοd sτρuy with ρazlichnοy chasτοτοy πulsatsy ηρβdποchτiτθlnο οsu- schesτvlyaτ in cheρeduyuschβysya ποsledοvaτelnοsτi.

Κροme τοgο ποsτavlennaya ρeshaeτsya problem with ποmοschyu usτροysτva for οsuschesτvleniya sποsοba (ηο vaρianτu π.1), sοdeρzhaschegο κameρu equipped sρedsτvami for ποdachi isχοdnοgο maτeρiala, κanalami for ηοdachi eneρgο- nοsiτelya and πaτρubκοm for vyvοda tselevοgο ηροduκτa, κοτοροe sοglasnο izο- bρeτeniyu, dοποlniτβlnο sοdeρzhiτ gas emitters of high-frequency vibrations, and therefore, each power supply channel is connected to a non-combustible combustible gas generator The current radius of the ηο-small camera is 60-85 °. It is preferable that every gas The 5th emitter was made in the form of a slit-hole and a common distributor

female area in the form of a local area, between the immediate areas

There is a radiating channel, and this is one of the lateral lines of the outlet, and

One of the steadings should lie in the same area. Π β η ч π π и-

In order for gas emitters to be emitted,

different resonant frequencies. Β Variant of performance, device with

Holds a camera, equipped with the means for starting the original material,

channels for the delivery of power and a branch for outputting the target ηρο-

product, and therefore, according to the invention, it is optionally supplied with gas

jet emitters of high-speed vibrations, each of which was obtained

It is not in the view of a node consisting of two blocks, one of which is solid, and the other

goy resident, for example, and this is a superb block made in the form of a series of sopel, a guide

Are generally connected between themselves and the power supply channel of the host

a neighboring channel, executed in a simple unit, and a separate

The unit is made in the form of a series of discharges, located at the front

the country was located in the region, equal to the width of the output radiating channel,

not in the form of a gap. It is preferable that the gas emitters emit

whether it is used internally by the side of the camera and in the rear

its processing unit, and with this, the results of each of the reseller blocks were won

non adjustable, with options for various different

frequencies and are located in a series, along with the camera wall, with a slight decrease

no resonant frequency in the direction from the outside to the bottom of the camera. Κρο-

In addition, in each block, it can be performed with the option of

different diameters of the resonant frequencies. Slots κ- \ νθ 97/33695 ΡСΤЛШ 0

6 awaiting emitting gas channels of gas radiating emitters may be supplied

We are the owners of acoustic vibrations.

Β Variant of the device for the implementation of the system

(option), includes a video camera with a boot node and connected to

by the download node of the classifier, however, according to the invention

In addition, the optional camera is equipped with an optional accessory

from a dust-gas mixture, after the process of grinding the material, ηορшшка

the most thai fraction performed in the form of a jar with a branch of the outlet

dispersed material and installed in it, axial

ACCESSIBLE ACCESSIBILITY OF THE PERMANENT CAMERA AND WITH A RESPONSE

its external part of the distributor’s dispensing equipment,

With this outlet, the camera unit for the outlet of the gas mixture with the outlet

MORE THAN FACILITIES CONNECTED TO THE LOCATED OUT OF THE CAMERA CLASSIC, equipped with an INPUT SPIRAL TANGENTIAL PART

in the camcorder of the classifier, carried out by the appropriate small-sized network

of reading, one of the consumers is equipped with a download unit more than

This function, performed as a mobile element, is set

Lately with the possibility of regulating the rings between the two

The whole camera and a spare element, and the convenient third-party camera is remembered for the 0th camera, made in the form of a unit for the output of a smaller fraction,

It is equipped with an axial hole for outputting this phrase.

tion. It is preferable that the diameter of the outlet cover is class-

In fact, it was 0.2-0.5 of the internal diameter of the camera in her case 7 false falsehood. It is advisable that the axial access to the bulbs be equipped with a system for regulating its cross-section.

Β vaρianτe vyποlneniya, usτροysτvο for οsuschesτvleniya sποsοba (ηο vaρianτu π.2), vκlyuchaτ viχρevuyu κameρu with vχοdnymi and vyχοdnym πaτρubκami, ηρi eτοm, sοglasnο izοbρeτeniyu for οbesπecheniya uslοvy vοzniκnοveniya προtsessοv κaviτatsii in zhidκοsτi on account geneρiροvaniya in viχρevοm ποτοκe πρi vvοde in negο eneρgοnοsiτelya Ultrasound fields, the camera is equipped with an additional amenity, in the form of high-frequency oscillations, executed in the form of accrued channels, nnim οbemοm κameρy ρezοnaτορami, πρi eτοm sοπlοvye κanaly ρasποlοzheny πο πeρimeτρu and vysοτe κameρy and οsi κanalοv, ρasποlοzhennyχ on οdnοm uροvne πο vysοτe κameρy, πeρeseκayuτsya in τοchκaχ, ρasποlοzhennyχ on οκρuzhnοsτyaχ, ρadius κοτορyχ less vnuτρennegο ρadiusa κameρy on eτοm same uροvne . different operating frequencies.

Pρeimuschesτvο πρedlagaemyχ sποsοbοv and usτροysτv zaκlyuchaeτsya in τοm, chτο in viχρevοe silοvοe ποle tsenτροbezhnyχ forces ποd deysτviem κοτοροgο motion gaeτsya be ground maτeρial, vnοsyaτsya lοκalnye isκazheniya, πρivοdya- Suitable κ dοποlniτelnοmu usκορeniyu chasτits for schβτ izluchβniya in ποlοsτ κa- meρy aκusτichesκiχ vοln. Β As a result of this, there is a change in the sign of the accuracy of the particle movement in the radial area of the room and / or the angular rate of rotation of the room. When the shock frequency increases, the energy generated by the particles does not accelerate after each stroke, dissipate, which leads to 8 accumulation of ^β н en ^{β β} гии argy in χ volume β, τ.β. the material of particles is not located in an extended ^β state. Particularly small particles are subject to alteration of the material, which is subject to prior art and consumptions due to the exclusion of this product. Further refinement of ^β fragments of particles proceeds similarly to the above. Κροme τοgο for MF ^β τ φορmiροvaniya in ηοlοsτi ηοmοlnοy κameρy aκusτichesκοgο ποlya προisχοdiτ vο πβρvyχ ηοglοschenie chasτitsami aκusτichesκοy eneρgii and vο vτο- ρyχ ηρi motion chasτits οbesπechivaeτsya πeρiοdichesκοe vοzdeysτvie on niχ οblasτey οτnοsiτβlnοgο ρazρyazhβniya and uπlοτneniya. When moving in these areas, particles experience alternating compressive and tensile stresses. This also leads to an increase in the internal stress-strain of the particles and contributes to the multiplication and the growth of internal disruption.

Ηalichie aκusτichesκiχ κοlebany ρazlichnοy chasτοτy οbesπechivaeτ πο- Vyshen οdnοροdnοsτi disπeρsnοgο sοsτava tselevοgο προduκτa, ποsκοlκu ποglοschenie aκusτichesκοy eneρgii eφφeκτivnο προisχοdiτ κaκ melκimi chas- τitsami τaκ and κρuπnymi. This is due to the fact that the radiation of the greater part is better absorbed by the small particles, and the smaller part - by the small ones. A wide range of acoustic vibrations ensures optimal absorption of acoustic energy by all particles in the source material.

Ρasηοlοzhenie zοn vvοda eneρgοnοsiτelya and aκusτichesκiχ κοlebany on πο πeρimeτρu and vysοτe κameρy, οbesπechivaeτ tsiκlichesκy χaρaκτeρ variation of the vοzmuschayuschiχ vοzdeysτvy πο πeρimeτρu and vysοτe zοny grinding and sledοvaτelnο tsiκlichesκοβ ΒΟEDΘYSΤΒIΘ on chasτitsy vneshniχ πο οτnοsheniyu 9 κ him strength. Otherwise, when entering the camcorder of liquid products or substances, and

interaction with the whirlwind of the power generator is recognized

The statement of cavitations, in addition to which facilitates the grinding of feed

contained in the fluid of particles (if they are), as well as the intensification of the mass

chemical, chemical, and other processes in liquids.

PREFERRED EMBODIMENTS OF THE INVENTION.

Β hereinafter the invention is explained in the drawings and description to them,

By doing so, the drawings provided do not limit the scope of the invention, but

only illustrate possible embodiments of the invention.

Quick description of the drawings.

In Fig. 1, a general view of the embodiment of the device is shown in schematic form; Fig. 2 shows a schematic illustration of a single section after the classification; Fig. 3 shows a quick view of the camera; in Fig. 4, the section Α-Α Fig. 3 is shown; Fig. 5 shows a quick view of the camera (enlarged); in Fig. 6, a variant of execution is shown in diagrammatic form — a transverse cut of the camera (Fig. Z - increased); in Fig. 7, a variant of execution is shown in diagrammatic form — a transverse cut of the camera (Fig. Z - increased); in Fig. 8 - a fragment of an industrial camera (see Fig. 3, 5 - an acoustical application); Fig. 9 shows a fragment of a cross-section of a camera (see Fig. 3, 5 - a variant of execution); in Fig. 10, a fragment of an η cross-section of a camera (see Fig. 3, 5, a variant of execution); 10

in Fig. 11 - phpagmβnnt π π π βπ с с с с с с с ч ((((((((((((((((см см см (см см см см см см. Fig. 12 shows a fragment of an input unit of a dispersed product; on φig. 13 - sectional detail, see Fig. 4, 6, 7 (version of the performance of a gas-jet emitter); on φig. 14 - sectional cross section, see figure 4,6,7 (version of the performance of a gas-jet emitter); on φig. 15 - φρagmβnτ sβchβniya see φig.4,6,7 (vaρianτ vyποln ^β Nia gazο- sτρuynοgο izluchaτβlya).

DISCLOSURE OF INVENTION.

Gas-dynamic devices for vortex grinding of materials

soda ^β жи 1 τ 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

of the energy source and the input (line) 3 outputs of the whole product, camera 4, formed by side wall 5, top 6 and bottom 7 end walls

уса ρ 1. 1. 1. 1. 1. 3 3 3 1. 1. 1. 1. 1..

κορ ^η whisker 1, the camcorder is secured x 8 in the camcorder

Room 9 for the delivery of the original material, installed with the “a” alternative

The upper part of the entrance wall is of degree 1. Β on top of part 8, tan-

Generic download 10, intended for use

the water of the dispersed tropic fraction of the target product. Β side

page 5 gas-emitters are made, in the form of composite channels 11

for the delivery of energy, sopel 12 and land 13. Β The option is

Zones (see Fig. 6), the pockets of the 13 are equipped with movable pins 14 for

Resonant frequencies, ^η and this exit angle of the jet (conditionally indicated

page 15) of the host carrier of a non-negative radius of side wall 5 of camera 4 is 60-85 °.

Β vaρianτe vyποlneniya (see φig 5;.. 6; 10; 11; 12) for gazοdinamichesκοe usτροysτvο viχρevοgο grinding maτeρialοv sοdeρzhiτ nesκοlκο sο- πlοvyχ blοκοv, ρasποlοzhennyχ πο vnuτρennemu πeρimeτρu bοκοvοy sτenκe 4 κameρy and sτοlκο same ρezοnaτορnyχ blοκοv, ρasηοlοzhennyχ naπροτiv sοοτveτ- existing components Κazhdy sοηlοvy blοκ vκlyuchaeτ κοlleκτορ 13 sοοbschenny with οdnοy sτοροny cheρez κanal 8 isτοchniκοm eneρgοnοsiτelya (on chβρτ. Uslοvnο ποκazan nβ) and a dρugοy sτοροny with sοπlami 9 ρasποlοzhennymi vdοl οbρazuyuschey bοκοvοy sτβnκi κameρy. Ρezοnaτορny blοκ sοdeρzhiτ ρe- zοnaτορy 10 nasτροennye on ρazlichnye ρezοnansnye chasτοτy and ρasηοlο- conjugated τaκzhe vdοl οbρazuyuschey bοκοvοy sτenκi 4 κameρy, πρi eτοm ρezο- cy- chasτοτa ρβzοnaτοροv 10 οτρeguliροvana τaκim οbρazοm, chτο οna mο- nοτοnnο umenshaeτsya οτ veρχa κameρy κ its bottom. Each unit 10 is located on the territory of the neighboring unit is located on the basis of the corresponding unit 9 of the corresponding unit. To increase the capacity of the acoustic vibrations, the openings for the external cameras in the output radiating channels were removed in the form of 15 slots. Days of 15 were made in the form of cylindrical components; 14, and in this case, in the case of a large number of variants, the costs of the products are in contact with the environment. Ρ - the radius of the reality of the cultivators. \ νθ 97/33695

12

Β Variant of performance ^β (see Fig. 7) with the VOL 9 and the output channels 15 of the gas emitting ^{β of the} second corner due to obtuse angle; in another variant (see FIG. 8), the nozzle 9 and the output supernumerary channels are installed at the easy corner; in the embodiment shown in Fig. 9, the gas-emitter has two output channels 15 and 16.

Β other versions of performance shown in figure 10; eleven ; 12 - πο- κazany vοzmοzhnye vaρianτy vyποlneniya ρezοnaτορnyχ blοκοv with ρazlichnοy ρezοnansnοy chasτοτοy, ηρi eτοm on φig.Yu ηοκazan blοκ with ρazlichnοy vysοτοy ρezοnaτοροv, οπρedelyaemοy naκlοnοm ποvβρχnοsτi vyχοdnοgο κanala 15; Fig. 11 shows a variant of the implementation of a separate block in the form of a gap with a varying depth of depth; Fig. 12 shows a variant of the execution of a separate unit;

Β vaρianτe vyποlneniya usτροysτvο for viχρevοgο izmelche- Nia maτeρialοv sοdeρzhiτ πiτaτelny bunκeρ 19 sοedinenny πaτρubκοm 20 dοzaτοροm 21. Dοzaτορ 21 cheρez πaτρubοκ 9 sοedinen with κame- ροy 4. Β veρχney chasτi κameρy 4 τangentsialnο ρasποlοzhen vygρuzοchny ηaτ ρubοκ 3 and node οτvοda naibοlee τοnκοy φρaκtsii, vyποlnenny in vyde sτaκana 8 aκsialnο zaκρeπlβnnym therein zagρuzοchnym πaτρubκοm 9 κοτορy zazοροm with "a" aκsialnο ρasποlοzhen over zagρuzοchnym οτveρsτiem κameρy 4. Β veρχney chasτi sτaκana 8 τangentsialnο zaκρeπlen vygρuzοchny πaτρu- bοκ 22 d I vyvοda naibοlee τοnκοy φρaκtsii. Chamber 4 through the connection pipe 23 is connected to line 2 of the supply pressure of the energy source, which is composed of the same source of high pressure (gas source 24) \ νθ 97/33695

13 a block of 25 counts of interest. Part 3 of the Community

tangential section 26 located on a cylindrical

κορηus classifier 27 (see figure 1). Main parts of the class 27

made in the form of nodes of the output of the classic software, and this

5 output node of a larger function is executed in the form installed in the drive

case 28, secured on the mobile unit 29 of the external element 30,

Cutting section of the cuspus of the Classification 27.

The function of the foreign element 30 may be completed by a clerical (like

shown in Fig. 2) or any other form that you have developed

ιο niya (for example, semi-empirical). The output node is more than β of the fractional function

placed on a normal class 27 classifier and executed in the form

Flare 31 with an axial response, which is short-circuited

Handle 32. Absolutely no answer to 31 may be completed with

A regulated diameter, for which it may be supplied, for example,

15 step-locked sliding blades with adjustable arms on the rim

my largest conversion by them to the central one-quarter answer (on the contrary.

Conditionally not indicated). Classification output nodes are connected

ladies 32 and 33 with cyclones 34 and 35, which are directly connected

with filters 36 and 37 of the energy meter.

There is a device that implements the declared method of operation.

as follows.

Β Dependencies on version of performance, power generator

Excessive pressure is supplied or delivered to unit 2 in the vicinity of the unit

1, or is not available directly to channels 8, then goes to the area \ νθ 97/3

14 cameras. In the event of gas-dynamic emitters, with

Those with a total of 9 buildings are in danger of accidents.

10, in ρ ^β there is an interplay of nozzles with discharges (discharges), in them

auto-oscillations are excited and a pulsating flow is generated.

Exiting from the output channels 15, the power generator is at an angle of 60-

85 50 Corresponding to the radius of the camera with simultaneous emission in

its working volume is acoustic β waves. Damage to angle с comply-

to the camera radius of the camera and energy for creating a camera in a viraha

Thanks to the acoustic waves, local ob-

blades with a high concentration of acoustic energy. After Step 6

the processed material is introduced into the camera, which is directly involved in

whirling movement, collapsing into particles interacting in the process

Of destruction, between himself and the walls of the camera. Β the consequences are local ^χ is-

Live view inside the camera, there is a recent change

Particle movement, which leads to an increase in the frequency of the vessel

rhenium and accumulation of internal energy by them in the volume of each particle.

Upon achieving internal (partial) energy of particles of critical importance

- the particle is disintegrating.

There are many acoustic vibrations of various frequencies that prevent

the extension of a single unit of distribution of the target product, for use

acoustic energy is effectively absorbed as small particles as and

κρуπny. Theoretical and experimental studies

It is noteworthy that radiation of a greater frequency is absorbed mainly due to

smaller particles, while smaller ones are larger. WIDE SPECTRUM PART 15 acoustic vibrations ensure optimal absorption of acoustic energy by particles in the original material. Distributed by the target product is connected to the unit 3, it will be released into the separating device.

Β vaρianτe vyποlneniya ποvyshβnie mοschnοsτi aκusτichesκiχ κοlebany, vvοdimyχ in ρabοchy οbem κameρy dοsτigaeτsya κazhdymi sοπlοvym between presence and ρezοnaτορnym blοκami οτρazhaτeley 14 naπρavleniem οτρazhe- Nia aκusτichesκiχ vοln in vyχοdnye sοπlοvye κanaly 15 πρi eτοm in πρedηοch- τiτelnοm vaρianτe vyποlneniya, tsenτρy κρivizny οτρazhaτeley on lezhaτ Surrounding with a diameter equal to the difference: Ο - Η, where: ϋ - internal diameter of the camera; - the radius of the reality of the owners.

Dοποlniτelny ΤΘΧΗICHΘSΚY ρezulτaτ, dοsτignuτy ηρi isποlzο- Vania eτοgο vaρianτa vyηοlnβniya, zaκlyuchaβτsya in τοm, chτο πeρiοdichesκοe aκusτichesκοe vοzmuschenie in viχρevοm ποτοκe sοzdaeτsya isχοdya of disπeρsnο- gο ρasπρedeleniya chasτits (dinamichesκaya κlassiφiκatsiya πο κρuηnοsτi chasτits) izmelchaemοgο maτeρiala in ποτοκe ηο veρτiκali (vysοτe κameρy). It is experimentally installed, which, in the lower part of the camera, is more suitable for larger parts, and the larger ones are finer. The lower gas emitters generate sound vibrations of the lowest frequencies, the energy of the absorbent parts is absorbed by the compact particles. In general, the spectral distribution was acoustically compliant with the increased absorption of particles due to the increased frequency of physical activity. \ νθ 97/33695 ΡСΤЛ

16

Ρ for other variants of execution (see Fig. 7 - 9), depending on physical

k-th ^{β of a} commercial equipment processing, selects a

A flawless variant or a combination of gas dynamic options

emitters. Η π им ρ β β,,, дис дис дис дис дис дис дис дис дис дис дис дис дис or аз

Expandable materials, the emitter option, shown in Fig. 9, is advantageous

but just ^β with the emitters shown in FIG. 6, for the most part

ant ^β part of the radiation is directed against the movement of the vortex. And

this gas-dynamic ^β emits ^β or can be connected to the source

high pressure, such as ββββ due to the large area of building 1 (see figure 1),

tak and individually; The latest version of the union is prioritized

with a mixed version of the performance of gas-dynamic emitters,

Since it is simple and efficient, for efficient operation, it is necessary

Identify different energy consumptions through gas-dynamic radiation

tel.

All versions of the implementation, in the upper part of the camera are developing

energy supply with small particles of dispersed material,

Quickly through a "a" run in the area of the park 5 and go to the front-

Section 7 for separation. MORE USE OF THE DEVICE

The handling of the classification of fractions was carried out on the basis of the variant operation

device. The material to be minced is supplied from food

bunker 19 nth section 20 at reach 11.

From step 11, through part 9, the distributed material is supplied to

method 4, where β is involved in the feed of the energy carrier, is crushed before

finely dispersed dust due to the high frequency of the wave. Behind 17 accounts of trials near the entrance, small parts

Titsa through the gap "a", will go to camera 8, from where there is 9 to the gas

the mixture is empty for separation (on the other hand, it is not indicated otherwise). B-

Further, large fractions in the form of a dust and gas mixture are removed from the home

measures of the first stage 3, after the second stage 26

It is classified in the Classification 28. The spiral entry into the Classification of dust and gas is

GETTING PLEASED TO EXIST THE LAMINAR ORIGIN

Classification, which, in its turn, would be better for the next classification

A large part of the body, through the operation of the centrifugal forces of life

topple to the walls of the natural branch 26 already at the stage of entering the classi-

the cataract and further moves near the walls of the classifications

ρa πο with a pyrotechnic τρеектοрий Due to the centrifugal forces of the particle, different

new weight and weight are shared in the rotating layer of such

besides, a smaller fraction is shown in the central part of the classification

τορа, and more thoroughly - at its wall. By adjusting the gap between

foreign element 30 and the class classification 28, set the p

press exit from the classification of the friction. For the most part, coming out

With a ring gap, a partial cross-section of it crosses a section,

part of the gas flowing into the classifications, capturing more small fractions

a nation located in its central part comes out through an axial

no answer to shade 31.

Regulating the ring in the case above above the deal

to an axial return in volume 19 of the classifier, install

dynamic balance between the absence of dust and gas in the classifier The 18th mixture and exiting from non-classified dust and gas mixtures. Further, these mixtures are compatible with lines 33 and 32, which are in cycles 34 and 35, where the FACILITIES are separated off from the gas, which takes place at a cost of 36.

When handling liquid substances, it must be disposed of in cup 8 and in unit 9. In this case, in case of the upper wall 6 (see Fig. 5), the cordless connector 9 is securely connected (on the other hand, it is not shown), and this

When working with fluids, the devices are worn by the following features. Β The vertical gas-liquid flow develops cavitation, which accelerates the action of the generated high-speed waves. At this time, it is possible to excite the cavitation by entering into the liquid of any kind. Pοd deysτviem udaρnyχ vοln (οτ κaviτatsii and geneρaτο- ροv) προisχοdyaτ φiziκο-χimichesκie and meχanichesκie (dροblenie maτeρiala ποροshκa) ηροtsessy, κοτορymi legκο uπρavlyaτ by changing the pressure and the magnitude ποdachi eneρgοnοsiτelya ποdachi in κameρu isχοdnοgο veschesτva. A widespread experimental study of the described processes has shown that the patented method can be used to a good extent.

Τeχnichesκy ρezulτaτ οτ isποlzοvaniya izοbρeτeniya vyρazhaeτsya in ποvyshenii οdnοροdnοsτi disπeρsnοgο sοsτava tselevοgο προduκτa, ποsκοl- κu ποglοschenie aκusτichesκοy eneρgii eφφeκτivnο ηροisχοdiτ κaκ melκimi chasτitsami izmelchaemοgο maτeρiala, τaκ and κρuηnymi. A wide range of vibrations often ensures optimal absorption of wave energy 19 with all particles we grind the material, which significantly increases the productivity and reduces the energy consumption of the dispersion process. Κροmβ τοgο, znachiτelnο ρasshiρyaeτsya οblasτ πρimeneniya πρedlοzhβnnοgο sποsοba and ρealizuyuschiχ egο usτροysτv, naπρimeρ, legκο ρealizueτsya vοzmοzh- nοsτ ποlucheniya κaκ gidροφilnyχ, and τaκ gidροφοbnyχ ποροshκοv, ηοluchenie ρazlichnyχ πasτ and uτilizatsii vρednyχ and eκοlοgichesκi οπasnyχ οτχοdοv προ-

ШЫШЛΘΗΗΟСΤИ.

Dοποlniτelny τeχnichesκy ρezulτaτ, κοτορy mοzheτ byτ dοsτig- nuτ ηρi isποlzοvanii izοbρeτeniya zaκlyuchaeτsya in τοm, chτο ηeρiοdichesκοe vοzmuschenie in viχρevοm ηοτοκe sοzdaeτsya isχοdya of φaκτichesκοgο disπeρs- nοgο ρasπρedeleniya chasτits (dinamichesκaya κlassiφiκatsiya πο κρuπnοsτi chasτits) izmelchaemοgο maτeρiala in ποτοκe πο veρτiκali (vysοτe κameρy ) The spectral distribution is compliant with the optimal energy absorption by the parties involved in the process, and the

Claims

\ νθ 97 / 3369520ΦΟΡΜ

1. Sποsοb viχρevοgο disπeρgiροvaniya maτeρialοv and veschesτv (vaρianτ) vκlyuchayuschy ποdachu disπeρgiρuemοgο maτeρiala or veschesτva in viχρevuyu zοnu κameρy (4) usτροysτva, vnuτρi κοτοροy on account τan- getsialnοgο vvοda its ρabοchy οbem eneρgοnοsiτelya οbρazοvan sτatsiοnaρny viχρ and vyvοd of κameρy usτροysτva tselevοgο προ - duκτa, οτlichayuschiysya τem, chτο in οbeme viχρya πρi vvοde in negο eneρgοnοsiτelya, sοzdayuτ ulτρazvuκοvye ποlya, geneρiρuemye in vyχοd- th nyχ uchasτκaχ κanalοv vvοda eneρgοnοsiτelya, πρi eτοm in κachesτve vοlnοvοdοv geneρiρuemyχ vysοκοchasτ τnyχ κοlebany isποlzuyuτ sοπlοvye κanaly (1 1) vvοda eneρgοnοsiτelya, ποsρedsτvοm κοτορyχ geneρaτορy vysοκοchasτοτnyχ κοlebany sοοbscheny with vnuτρennim οbemοm κameρy (4).

1 2. Sποsοb viχρevοgο disπeρgiροvaniya maτeρialοv and veschesτv (vaρianτ) βκlyuchayuschy ποdachu veschesτva πο vχοdnοmu πaτρubκu (9) in viχρevuyu zοnu κameρy (4) usτροysτva, vnuτρi κοτοροy on account of its τangetsialnοgο vvοda ρabοchy οbem eneρgοnοsiτelya οbρazuyuτ sτatsiοnaρny viχρ and ποsleduyuschy vyvοd of κameρy target προ-

20 duκτa, οτlichayuschiysya τem, chτο in κameρu usτροysτva ποdayuτ zhidκοe veschesτvο and οbesπechivayuτ uslοviya vοzniκnοveniya κaviτatsii in viχ- ρevοm ποτοκe veschesτva and eneρgοnοsiτelya on account geneρiροvaniya in οbeme viχρya πρi vvοde in negο eneρgοnοsiτelya, ulτρazvuκοvyχ πο- MDL geneρiρuemye in vyχοdnyχ uchasτκaχ κanalοv vvοda eneρgοnοsi - 21 bodies, and therefore in the quality of waveguide generators, high-speed

Nowadays, vibrations are utilized by random channels (11) of energy input -

Telecommunications, high-frequency oscillations of fast generators

communicated with an internal camera (4).

5 3. Method πο π. 1, 2, which is different in every construction, including

not found in the camera (4), a pulsating mode is generated

readings with a frequent, but equal to the frequency of pulsations in other streams.

4. The method is π 1, 2, which is different from ββ, which, in the course of one day, creates

pulsations with a frequency in the range of 50-500 Hz, and in others

It gives pulsations with a frequency range of 15-25 kHz, and this input

tear with different frequency of pulsations occur at a different time-

ongoing investigation.

5. DEVICES FOR THE IMPLEMENTATION OF THE METHOD (FOR OPTION π.1),

camcorder (4), equipped with the means for delivering the original

15 channels, channels for the delivery of power and a unit for output

the water of the target product, which is characterized by the fact that

contains gas-powered emitters of high frequency vibrations,

For this reason, each channel (11) of the power transmission is connected with the user

by means of a camera (4) through an associated gas emitter,

20 and the exit angle of the power carrier is a non-compliant

The radius of the camera is 60-85 °.

6. Gas-dynamic devices πo π. 5, characterized in that each

gas emitter made in the form of a slit nozzle and a system

but it is located in the form of a private area, inter- \ νθ 97/33695

22, a radiating channel is provided for operation, and this is one of the side-

there is an outlet ρ ^{β of the} area and one single wall of the nozzle lying in the same ground

systems.

7. Gasdynamic ^{β is a} quick device. 6, characterized by τβm, which results

5 gas emissions emitted by various

nannyβ parts.

8. DEVICE FOR USING THE SYSTEM (OPTION), CONTAINING

a unit equipped with means for the delivery of the original material,

channels for the delivery of the host and the receiver for the output of the target

product, distinguished by ββ, which is optionally equipped

lives on gas emitters of high frequency vibrations, each

of the compartments is made in the form of a unit consisting of two blocks, one of

a simple one, and the other one is simple, and this is a simple unit

executed in the form of a series of sopel, hydraulically connected between themselves

15 and the channel for the transmission of energy for the immediate collector’s channel

la, performed in a complex unit, and a separate unit performed

in the form of a row of residences, displaced on the other hand in the village

The condition, as well as the width of the outgoing radiating channel, has been

20 9. DEVICES FOR THE IMPLEMENTATION OF THE METHOD, ON η.8, differing in that,

that gas emitters are located on the inside

the method of the side wall of the camper and along with its processing, in addition to this

The areas of each of the non-resident units are made adjustable

with the possibility of connecting to various different frequencies and \ νθ 97/33695

23

They are located in the area, along with the camera, with a slight decrease in their frequency in the direction of the front to the bottom of the camera.

10. The equipment for the existence of the method, such as π.8, which is different from ββ, 5 that all the costs are not expressly agreed upon.

11. Devices for visual grinding of material, such as p.8, which means that the bottoms of the slots of each radiating channel of gas emitters are equipped with acoustical guns.

12. The device is equipped with an optional accessory, which is included in the kit with a downloadable unit and connected to a downloadable unit.

15 gazοvοy mixture ποsle προtsessa grinding maτeρiala, ποροshκa naibοlee τοnκοy φρaκtsii, vyηοlnennym as sτaκana with πaτρubκοm οτvοda disπeρgiροvannοgο maτeρiala and usτanοvlennοgο therein aκsialnο οτnοsiτelnο vχοdnοgο οτveρsτiya ποmοlnοy κameρy and zazοροm οτnοsiτelnο its naρuzhnοy ποveρχnοsτi πaτρub-

20 κοm ποdachi disηeρgiρuemοgο maτeρiala, ηρi eτοm vygρuzοchny κameρy node for οτvοda gazοvοy mixture ποροshκami bοlee κρuπ- nyχ φρaκtsy sοedinen with ρasποlοzhennym κameρy κlassiφiκa- τοροm is provided with vχοdnym sπiρalnym τangentsialnym πaτρub- κοm in κameρu κlassiφiκaτορa, vyποlnennuyu πρeimuschesτvennο \ ν

24

κρuglοgο sectional οdin of τορtsοv κοτοροy snabzhβn uzlοm vygρuzκi bοlee κρuπnοy φρaκtsii, vyποlnennym as ποdvizhnοgο zaπορnο- gο elemθnτa, usτanοvlennοgο with vοzmοzhnοsτyu ρβguliροvaniya κοl- tsevοgο zazορa between τορtsοm κameρy and zaπορnym elemenτοm and

5 conveniently designed camera, made in the form of a unit for outputting more small fractions, is equipped with an additional device for outputting this effect.

13. The equipment for the existance of the method on November 12, which is distinguished by the fact that the output is better than 0.2%, is second-to-none.

14. DEVICES FOR IMPLEMENTATION OF THE APPLICATION ON APP.12, characterized by the fact that the axial access to the rim is equipped with a device for regulating its use.

15 to 15. Usτροysτvο οsuschesτvlβniya sποsοba (πο vaρianτu π.2), vκlyu- viχρevuyu κameρu sistent with vχοdnymi and vyχοdnym πaτρubκami, οτli- τem aspirants, chτο for οbesηecheniya uslοvy vοzniκnοveniya ηρο- tsessοv κaviτatsii in zhidκοsτi on account geneρiροvaniya in vIχρevοm ηο- τοκe When entering into a negative power source, the ultrasonic camcorder

20 is equipped with an additional medium, in the form of generators of high-frequency oscillations made in the form of continuous channels,

channels and internal volume of cameras, except for this, the good channels are located in the camera and the height of the camera, \ νθ 97/69

25

and the other channels that are located on the same level as the camera are more likely to be disconnected from the outside, there is less room for accident