UA144597U - MOBILE ULTRASOUND DEVICE FOR LIQUID TREATMENT - Google Patents

Abstract

The mobile ultrasonic liquid treatment device comprises a liquid-filled container with a flat bottom surface made of non-magnetic material, into which an ultrasonic resonant drive of longitudinal displacements with an oscillating velocity transformer is immersed vertically by the radiating surface. oscillations, the excitation frequency of which is equal to the natural frequency of the treated fluid, and is located relative to the flat bottom surface of the tank with the formation of a slit gap, and outside the tank is a magnetic fluid processing unit formed by a set of permanent magnets. The oscillatory speed transformer is installed in the removable tank cover, made of non-magnetic material and in it from the side of the radiation surface along the axis for a quarter of the length of the longitudinal deformation wave made a hole of small diameter, which through a transverse hole near the gap between the bottom surface of the liquid tank and the disk vibrator with the atmosphere. The container is filled with liquid to a level below the transverse hole, and the magnetic fluid treatment unit is made in the form of flat permanent magnets pressed by a non-magnetic lid to the bottom surface of the liquid container and set taking into account magnetic poles so that the magnetic lines in the liquid , and the central magnet was placed under the slit gap.

Description

The useful model belongs to the technological use of ultrasonic energy and can be used in various industries and everyday life, in particular in processes that take place in a liquid environment, for example, in the disinfection of liquids, that is, the destruction of harmful viruses and microorganisms, the creation of high-quality stable emulsions, cold sterilization and homogenization milk, etc.

Various physical fields and influencing factors are used to intensify technological processes related to the liquid, for example, ultrasonic vibrations, which act on the mentioned processes through the so-called first-order effects (frequency, intensity, etc.) and second-order effects , which include, first of all, cavitation.

The effectiveness of the specified use of ultrasonic vibrations depends to a large extent on the modes of radiation of ultrasonic energy and the features of the construction of the technological equipment that implements the specified technologies.

A well-known mobile ultrasonic device for liquid treatment (patent of Ukraine Mo 100470,

IPC on SO2B 11/36, SO2B 11/30, publ. 25.12.2012, Bull. Mo 24), containing a vertically located hollow stepped housing with a flat bottom end surface and inlet and outlet nozzles, an ultrasonic emitter with a radiation end surface, fixed in the upper part of the stepped housing with the formation of a hermetic cavity for the emission of ultrasonic waves towards the flat bottom end surface, which is located parallel to the radiation surface at a regulated distance in degrees of smaller diameter.

The device uses the effect on the liquid of only one physical field - ultrasonic.

The emission of ultrasonic waves along the housing is provided by the location of the ultrasonic transducer in the upper part of the housing, where a hermetic cavity is formed in the area where the speed transformer is attached. This cavity prevents the nodal point of the speed transformer from getting wet. In the case of wetting of this point, the ultrasonic energy may flow into the liquid and not reach the output end of the speed transformer in full, reducing the efficiency of its oscillations.

Achieving a high level of intensity of ultrasonic vibrations, necessary for

The inactivation of microorganisms harmful to human health is ensured in the design due to the step design of the housing, which performs the function of a quarter-wave pressure transformer. Thanks to the pressure transformer in the stage of smaller diameter, pressure fluctuations increase, which leads to the intensive development of cavitation and, accordingly, more intensive processing of the liquid.

The small area of the radiating surface used in the oscillating speed transformer device does not allow introducing an ultrasonic wave of high intensity into the liquid, because when the power supplied to the emitter increases, a cavitation two-phase layer is formed on the radiating surface, which absorbs and dissipates a significant amount of ultrasonic energy, preventing the passage of ultrasonic vibrations into liquid Therefore, an increase in the supplied power leads only to heating of the piezoceramics of the emitter.

Thus, the known design does not ensure the achievement of a sufficiently high intensity of the ultrasonic field and a high level of cavitation in the volume of the liquid being processed. Therefore, the specified device does not provide effective processing of liquid for the purpose of its disinfection, homogenization and obtaining stable emulsions.

In addition, the design of the known device is complex, gets clogged, and its washing requires dismantling.

A mobile ultrasonic device for liquid treatment is also known (patent of Ukraine Mo 113244, IPC СО2Е 1/30, СО2Е 1/36, publ. 26.12.2016, Byul. Mo 24), which contains a hollow body with a bottom end surface made of non-magnetic material, in which is sequentially installed, a vertically located, ultrasonic resonance emitter, the excitation frequency of which is equal to the natural frequency of the treated liquid, with a radiating surface immersed in the liquid, fixed in the housing with the formation of a hermetic cavity, and a magnetic treatment unit formed by a set of permanent magnets, and the liquid is fed into the housing through a fitting installed in the housing above the emitting surface of the ultrasonic emitter, and a fitting for draining the liquid is installed in the end bottom surface of the housing, which is parallel to the emitting surface.

The device already uses two physical fields - ultrasonic and magnetic, which will increase the energy impact on the liquid and microorganisms in it.

The necessary high intensity of ultrasound is achieved due to the pressure transformer, because it allows to obtain an increased amplitude of sound pressure fluctuations in the case of a smaller diameter of the case. To ensure a sufficiently high efficiency, the amplitude of oscillations of the radiating end of the oscillating speed transformer of the ultrasonic emitter is insignificant, which ensures the effective introduction of ultrasonic vibrations into the liquid without the formation of a cavitation layer on the radiating end, which absorbs and dissipates ultrasonic energy. But the applied ultrasonic pressure transformer does not allow to significantly increase the pressure amplitude, because in order to ensure piston oscillations of the radiating end of the oscillating speed transformer, it is necessary to use a small diameter of this radiating end. Therefore, it is impossible to achieve significant values of the transformation coefficient of the pressure transformer.

The magnetic treatment of the liquid used in the device is not effective, as it acts on a short distance of the liquid flow path and creates only a weak magnetic field.

The closest analogue is a mobile ultrasonic device for liquid processing (application for the invention of Ukraine Mo a201807516, IPC СО2Е 11/30, СО2Е 1/36, submission date 07.05.2018), which contains a liquid-filled container with a flat bottom surface made of non-magnetic material, in which immersed in the surface of the radiation is a vertically located ultrasonic resonance drive of longitudinal movements with an oscillating speed transformer, the working radiating surface of which is made flat in the form of a disk vibrator, which performs bending vibrations, the excitation frequency of which is equal to the natural frequency of the treated liquid, and is located relative to the flat bottom surface of the container with the formation slotted gap, and a block of magnetic processing of liquid, formed by a set of permanent magnets, is placed on the outside of the container.

The device also uses the effect of two physical fields. Now the liquid is passed through the gap with a high intensity of ultrasound and developed cavitation. The liquid flows through the slit gap in a short period of time, which does not allow high-quality treatment of the liquid with a cavitation layer. Therefore, to achieve the desired result of liquid processing, it is passed through the device several times. In addition, the design of the device is easily clogged when processing contaminated liquid, and its washing is very difficult due to the presence of small slit gaps and the general complexity of the design.

In the main useful model, the task of increasing the efficiency of liquid processing is set

From a mobile ultrasound device due to the elimination of identified deficiencies.

The task is solved in a mobile ultrasonic device for liquid processing, which contains a liquid-filled container with a flat bottom surface made of non-magnetic material, in which an ultrasonic resonance drive of longitudinal movements with an oscillating speed transformer, whose working radiating surface is made flat in the form of a disk, is immersed in the radiation surface and is vertically located of a vibrator that carries out bending oscillations, the excitation frequency of which is equal to the natural frequency of the processed liquid, and is located relative to the flat bottom surface of the container with the formation of a gap, and outside the container there is a block of magnetic processing of the liquid, formed by a set of permanent magnets, according to a useful model, an oscillating speed transformer installed in the removable cover of the container, made of non-magnetic material, and in it, on the side of the radiation surface along the axis, a hole of a small diameter is made for a length of a quarter of the length of the longitudinal wave of deformation, which helps a transverse hole near the nodal zone of the oscillating speed transformer connects the gap between the bottom surface of the container with the liquid and the disk vibrator with the atmosphere, and the container is filled with liquid to the level below the transverse hole, and the unit for magnetic processing of the liquid is made in the form of flat permanent magnets pressed by a non-magnetic lid to the bottom surface of the liquid container and installed taking into account the magnetic poles in such a way that the magnetic lines in the liquid were parallel to the bottom surface and the central magnet was placed under the gap.

In addition, the disk vibrator can be made from the slot gap side with a shoulder on the edge.

The design of the device ensures its quick disassembly for washing. The presence of an acoustic pump in the oscillating speed transformer ensures gradual pumping through the slit gap with intense cavitation of the entire volume of liquid in the container, which will allow the entire liquid to be processed effectively.

The use of a set of magnets pressed to the bottom surface of the container ensures a long-term effect of the magnetic field on the liquid. This provides structuring of the liquid after cavitation treatment, i.e. returns it to its natural state and gives it therapeutic properties. The magnetic field will additionally filter the liquid from possible magnetic metal impurities.

The essence of the useful model is explained by the drawing, which shows the diagram of the mobile 60 ultrasonic device for liquid processing.

The device consists of a container 1 made of non-magnetic material. Container 1 is filled with liquid 2, which is to be processed. Container 1 has a flat bottom surface 3. An ultrasonic resonant longitudinal displacement drive 4 with an oscillating speed transformer is vertically located in the liquid 2 immersed in the radiation surface, the working radiating surface of which is made flat in the form of a disk vibrator 5, which performs elastic bending vibrations 6, the excitation frequency of which is the natural frequency of the treated liquid 2. The electrical generator of ultrasonic oscillations, which excites the ultrasonic resonance drive, is conditionally not shown in the diagram. The radiating surface in the form of a disk vibrator 5 is located relative to the flat bottom surface of the container 1 with the formation of a gap 7.

The oscillating speed transformer of the ultrasonic resonance drive of longitudinal movements 4 is installed in the removable cover 8 of the container 1 and is made of non-magnetic material. In it, on the side of the radiation surface along the axis, for a length of a quarter of the length of the longitudinal wave of deformation, a hole of small diameter 9 is made, which with the help of a transverse hole 10 near the nodal zone of the oscillating speed transformer connects the slit gap 7 between the bottom surface of container 1 with liquid and disk vibrator 5 with atmosphere. The container 1 is filled with liquid 2 to the level just below the transverse opening 10. The unit for magnetic processing of the liquid is made in the form of flat permanent magnets 11, pressed by a non-magnetic cover 12 to the bottom surface of the container with liquid and installed taking into account the magnetic poles in such a way that the magnetic lines 13 cross about The liquid tank is parallel to the bottom surface, and the central magnet was located under the slit gap 7. In addition, the disk vibrator 5 is made from the side of the slit gap 7 with a shoulder 14 along the edge.

The device works as follows. The electric generator of ultrasonic vibrations excites the ultrasonic resonance drive of longitudinal movements. This leads to the appearance of bending resonance vibrations 6 in the disk vibrator 5. The vibrations of the vibrator 5 lead to the appearance of cavitation layers on its surface, where intensive cavitation processing of the liquid takes place. The lower surface of the vibrator 5 forms a gap with a flat bottom surface 3, where a very intensive cavitation treatment of the liquid will be provided, since the ultrasonic waves do not go further into the liquid from the cavitation layer. An acoustic pump is used in the design to pump the entire volume of liquid through the slit gap 7. Liquid

Zo is pumped due to the pressure difference in the slot gap and in the transverse opening above the liquid. In addition, thanks to the shoulder 14 and bending vibrations 6, the liquid is pushed to the entrance to the opening 9. The liquid rises up the opening 9 and pours into the container 1 through the opening 10.

In some time, the entire volume of liquid in container 1 will be cavitationally treated.

After cavitation treatment, the water is disinfected, but the structure of the water is destroyed.

The structure of the water is restored after 50...60 minutes of settling. In order for the liquid to be suitable for use immediately after cavitation treatment, a magnetic field is applied to the liquid. Lines of force 13 penetrate the volume of liquid and renew its structure. Water is activated, which allows it to more actively penetrate the cell membranes of humans or living organisms, that is, water acquires healing properties.

The proposed mobile cavitation device for liquid treatment allows to disinfect and activate the liquid due to ultrasonic cavitation and magnetic influence. The intensive cavitation treatment involved in the device neutralizes a wide range of harmful bacteria, viruses and microorganisms in the liquid, ensures a high level of oxidation processes in the liquid, which allows it to be saturated with free radicals, that is, to activate the liquid. The use of powerful permanent magnets, which penetrate the liquid disturbed and torn by cavitation with lines of force, ensures, in addition to the ultrasonic field, the most effective effect of the magnetic field on the liquid, which leads to its calming, structuring and additional activation.

The emulsion obtained in such a device does not stratify for a long time due to intensive cavitation mixing at the molecular level.

Claims (2)

USEFUL MODEL FORMULA 1. A mobile ultrasonic device for liquid treatment, containing a liquid-filled container with a flat bottom surface made of non-magnetic material, in which an ultrasonic resonance drive of longitudinal movements with an oscillating speed transformer, immersed in the radiation surface, is vertically located, the working radiating surface of which is made flat in the form of a disk vibrator, with the possibility of bending oscillations, the excitation frequency of which is equal to the natural frequency of the treated liquid, and is located relative to the flat bottom surface of the container with the formation of a gap, and outside the container there is a 60 block of magnetic processing of the liquid, formed by a set of permanent magnets, which is distinguished by that the oscillating speed transformer is installed in the removable cover of the container, made of non-magnetic material, and in it, on the side of the radiation surface along the axis, a hole of a small diameter is made for a length of a quarter of the length of the longitudinal wave of deformation, which with the help of a transverse hole near the nodal zone of the oscillating speed transformer connects slot gap between the bottom surface of the container with liquid and the disk vibrator with the atmosphere, and the container is filled with liquid to the level below the transverse opening, and the magnetic processing unit of the liquid is made in the form of flat permanent magnets pressed by a non-magnetic cover to the bottom surface of the container with liquid and installed taking into account the magnetic poles in such a way that the magnetic lines in the liquid were parallel to the bottom surface, and the central magnet was placed under the slit gap. 2. A mobile ultrasonic device for liquid processing according to claim 1, which is characterized by the fact that the disk vibrator is made on the side of the slit gap with a shoulder on the edge. ЗК КК НИ НКИ ЛЖЖ з у х ! ! wounds and : | z she z y 8 | ra: Ya yati and chief 2 7 pd EK pni Yi x nn write; M sno Mono s-m pe 020 І і х з ще з / ТІ х й мя I І у 1 яния ни о nn I І nn і et PITTYA І ro ih ШТ о nn nn aa pe o Mishin tv PO. B NI na KON Chu I; С Ж ож и и ше кН! Kya SONS oh iy NN NN NK ANNA NI zdo them. 5; but oh meso catch. 7? i F; A M in X ;; r M her ach M i ne a ON Ya i vo ni o ny asha in OD x rea Y