RU43008U1 - LIQUID TREATMENT DEVICE - Google Patents

Abstract

The utility model relates to the development of devices for treating liquids, namely, the regulation of chemical variables: concentration and distribution of hydrogen ions and can be used in various sectors of the production of organic solutions and also in the water supply system for non-reagent treatment (purification) of water. a unit for processing liquid 1 with a filter load, which is connected to a sensor for monitoring the state of the liquid 2, a monitoring sensor and a unit for processing liquid laid on one conduit 3 and made in the form of cones filled with a multilayer filter charge, consisting of alternating layers of liquid crystalline cholesterylacetate with the addition of fine powders with ferroelectric properties, and layers of polymer plasticizer with the addition of liquid crystalline cholesteryl acetate and finely dispersed powders with cholesteryl acetate in the liquid processing unit and in the control sensor are connected to capacitor converters 4, 4 and electrometric amplifiers 5, 5, while the electromagnetic amplifier of the control sensor is connected through a selector 6, analyzer 7, frequency divider 8 with electromagnetic radiation means, which use a gradient cross electromagnetic field generator 9, which is connected through electromagnetic amplifiers and capacitors, with layers of liquid crystal cholesteryl acetate block for processing liquid. Layers of liquid crystal cholesteryl acetate b

Description

The utility model relates to the development of devices for treating liquids, namely, the regulation of chemical variables: concentration and distribution of hydrogen ions and can be used in various sectors of the production of organic solutions and also in the water supply system for non-reagent treatment (purification) of water.

Known devices for non-reagent water treatment provide for its treatment using electric and magnetic fields of high power and are, as a rule. energy intensive.

The closest in technical essence to the claimed utility model is a device for processing liquid media, mainly fuel [RF patent 2172860, MKI F 02 M 27/04, publ. 08/27/2001].

The device comprises a pipe for the passage of fuel and its enclosing body. In this case, the housing is made in the form of a cylindrical or conical shell and is mounted coaxially to the pipe. In the gap between them there is a layer of filler made of composite material, including cholesterol and / or its modifications and alloying additives selected from the list: chromium oxide, aluminum, nickel, copper, titanium, silicon, activated carbon, as well as polyvinyl acetate or epoxy resin as a basis.

The objective of the utility model is to create a device for processing liquids, providing activation of liquids due to macrostructural changes in the properties of molecules.

For example, during water treatment, control is provided for the stabilization of the alkaline properties of water during its neutralization.

The technical result from the use of the developed device is to give the liquid microstructural and biophysical properties similar to the structure of similar structures in a living organism.

The liquid processing device comprises a filter processing liquid processing unit that is connected to a liquid state monitoring sensor, a control sensor and a liquid processing unit are located on the same water conduit and are made in the form of cones filled with a multilayer filter loading consisting of alternating layers of liquid crystal cholesteryl acetate with the addition of fine powders with ferroelectric properties, and layers of polymer plasticizer with the addition of liquid crystal cholesterol acetate and fine powders with ferroelectric properties, each of the layers of liquid crystal

the cholesteryl acetate in the liquid processing unit and in the control sensor are connected to capacitor converters and electrometric amplifiers, while the electromagnetic amplifier of the control sensor is connected through a selector, analyzer, frequency divider to an electromagnetic field radiation means, which use a gradient cross electromagnetic field generator, which is connected through electromagnetic amplifiers and capacitors, with layers of liquid crystal cholesteryl acetate block for the treatment liquid.

The layers of liquid crystal cholesteryl acetate of the liquid processing unit and the control sensor contain nickel, copper, and zinc powders as finely divided powders with ferroelectric properties.

The layer of polymer plasticizer contains, as fine powders with ferroelectric properties, a mixture of nickel, copper, aluminum and quartz powders and barium titanate.

The shells of the cones of the liquid monitoring sensor and the liquid processing unit are made of a non-magnetic metal alloy or plastic.

The device further includes a tank for long-term storage with a multi-layer loading, which is installed on the water pipe after the sensor for monitoring the state of the liquid.

A removable cartridge may be installed inside the water conduit for additional coarse cleaning of the liquid with loading of a mixture of finely divided chitosan and fullerene.

The implementation of the sensor monitoring the state of the liquid in the form of a cone with layers. including liquid crystal cholesteryl acetate, it is possible to control acid-base parameters, for example, of water, in a non-contact way, since a regression model is known between the pH index and the value of & y, estimated in a non-contact manner based on the readings of liquid-crystal converters, where 5y is the specific gravity of water.

The implementation of the block for processing liquid in the form of a cone with layers, similar to the above, provides exposure to water generated by electromagnetic fields modifying the dynamic parameters of an unstable hydroxyl plasma, namely water and other organic liquids.

The presence of both units in the communication device through a selector, analyzer, frequency divider and generator allows you to automatically change the intensity of the influence of micromagnetic fields on the fluid being processed, depending on the dynamics of modification of its clathrant structure. The placement of capacitor converters on the layers of liquid crystal cholesteryl acetate in the control sensor provides a non-contact assessment of changes in the structural parameters of the liquid and the supply of an appropriate signal to continue the necessary modification of the liquid, that is, the signal to the generator that emits the gradient cross-section electromagnetic field electromagnetic waves acting on the liquid crystal cholesteryl acetate layer in the block for processing liquid - Due to the resonant amplification of micromagnetic Tour spinal structures cholesteryl

SQUID-spin interactions and the formation of a hydroxyl plasma, which imparts stable acid-base properties to water, are realized. Hydroxyl plasma is a model of such a state of water when it is considered as a substance with an unstable crystal graphic structure, namely in the form of a polymer matrix with stochastically controlled concentration structures in the form of inhomogeneous groups of OH hydroxyl chains. The organometallic shell of the cones enters nonlinear resonant-micromagnetic interactions with the atmospheric magnetic vortex flow and, due to the topological characteristics of the loading of the cones with alternating layers, the alternating micromagnetic-gravity flow is focused on the spin characteristics of the liquid molecules moving by a turbulent flow inside the water duct.

A utility model diagram is shown in FIG. 1, where 1 is a unit for processing liquid, 2 is a fluid monitoring sensor, 3 is a water conduit, 4 is a capacitor converter of a fluid processing unit, 4 is a capacitor converter of a sensor, 5 is an electromagnetic amplifier of a fluid processing unit 5 - electromagnetic amplifier of the sensor, 6 - selector, 7-analyzer, 8 - frequency divider, 9 - gradient cross-section electromagnetic field generator.

The device operates as follows: the water flow is sent through a conduit 3 to a unit for processing liquid 1 and then to a sensor for monitoring the state of liquid 2. In this case, the generator 9 connected to the network through electromagnetic amplifiers 5 and capacitor converters 4 affects the multilayer loading of unit 1 by micromagnetic fields, through which the processed fluid passes. Passing through alternating layers of block 1 and sensor 2, water interacts at the macrostructural level with the materials of the layers. In this case, the effect of the magnetic resonance fields of the multilayer load.

In the sensor for monitoring the state of liquid 2, a non-contact assessment of changes in the structural parameters of water occurs, a corresponding signal is supplied through a capacitor converter 4 and an electromagnetic amplifier 5 to a generator 9 emitting micromagnetic fields, which in turn acts through an electric amplifier 5 and a capacitor converter 4 of the unit water treatment for multilayer loading unit 1.

Compared with the known devices, the technical effect is achieved due to the micromagnetic effect of the multilayer charge on the liquid being treated, including finely divided powders with ferroelectric properties.

The technical result is also achieved due to the additional processing of liquid crystal cholesteryl acetate with an alternating magnetic field emitted by a generator with a capacitor converter, while the process of non-reprocessing treatment of water or organic liquids is carried out under dynamic feedback conditions.

A special parametric capacitive sensor allows you to monitor changes in the dynamic specific gravity of the processed fluid in real time.

Studies on physical models showed that with repeated passage through the installation, the alkaline reaction of water increases, which indicates a soft saturation with hydrogen.

So, according to the protocol of the chemical laboratory, the dynamics of changes in the pH of raw water, depending on the frequency of transmission, is characterized by the following indicators.

Multiplicity Background 1 10 20 thirty 40 fifty PH 7.15 7.5 8.1 8.45 8.5 8.6 8.65

Claims (6)

1. The liquid processing device comprises a liquid processing unit connected to a liquid state monitoring sensor, a monitoring sensor and a liquid processing unit are located on the same water conduit and are made in the form of cones filled with a multilayer filter load consisting of alternating layers of liquid crystal cholesteryl acetate with the addition of fine particles powders with ferroelectric properties, and layers of polymer plasticizer with the addition of liquid crystal cholesteryl acetate and finely divided powders with ferroelectric properties, each of the layers of liquid crystal cholesteryl acetate in the liquid processing unit and in the control sensor is connected to capacitor converters and electrometric amplifiers, while the electromagnetic amplifier of the control sensor is connected through a selector, analyzer, frequency divider to a gradient cross electromagnetic field generator, which connected through electromagnetic amplifiers and capacitors to layers of liquid crystal cholesterol Eryl acetate in the water treatment unit. 2. The device according to claim 1, characterized in that the liquid crystal cholesteryl acetate layers of the liquid processing unit and the control sensor contain nickel, copper, and zinc powders as fine powders with ferroelectric properties. 3. The device according to claim 1, characterized in that the layers of polymer plasticizer contain, as fine powders with ferroelectric properties, a mixture of nickel, copper, aluminum and quartz powders and barium titanate. 4. The device according to claim 1, characterized in that the shells of the cones of the liquid state monitoring sensor and the liquid processing unit are made of a non-magnetic metal alloy or plastic. 5. The device according to claim 1, characterized in that it further includes a tank for long-term storage with a multilayer load, which is installed on the water pipe after the sensor for monitoring the state of the liquid. 6. The device according to claim 1, characterized in that a removable cartridge is installed inside the water conduit for additional coarse cleaning of the liquid with loading from a mixture of finely divided chitosan and fullerene.