RU2630510C2 - Water activating device - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: water activating device contains inlet and outlet pipes, a container with flowing or permanently located activated water, connected to the inlet and outlet pipes, a magnetostrictive radiator powered from the functional generator. The working end of the magnetostrictive radiator is located into water in the container. The flow cross-section of the outlet pipe has a larger cross-section than the inlet pipe, the lower ends of the pipes are located at the same height, the outlet pipe has a flattened view in the horizontal plane.

EFFECT: improving the efficiency of activation while reducing energy costs.

2 dwg, 1 tbl

Description

The invention relates to devices for activating water and food based on it (tea, coffee, etc.) and can be used in medicine, agriculture, biology, veterinary medicine, the food industry (to improve the organoleptic properties of the product caused by activation) and other fields associated with therapeutic and prophylactic, biomedical, biotechnological, food use of water and various solutions.

A device is known for activating an ox in a vessel by exposing it to a rotating electromagnetic field created by an electric motor with a disk mounted on its shaft and placed above the surface of the liquid (patent No. 2171232, IPC C02F 1/48).

However, this device has a low productivity and efficiency of the liquid activation process.

A device for activating water or a solution is known, including exposure to water by a physical factor (patent No. 2151742, IPC C02F 1/32).

The disadvantages of this device are low productivity (the height of the liquid in the vessel should be 1 cm) and the efficiency of the activation process due to their structural and technological disadvantages that do not take into account the features of the contactless activation process.

The closest in technical essence to the proposed device is the activation of water, including exposure to water by a physical factor, while longitudinal electromagnetic waves and acoustic waves of pre-ultrasonic and ultrasonic frequencies that arise during hydrodynamic cavitation under the conditions of turbulent motion of water masses or solutions along one or more circles relative to the activated fluid, which may be located in the vessel (periodic activation) or ruboprovode - continuous activation - (patent №2333155, IPC C02F 1/46).

The disadvantage of this device is its low efficiency and high energy consumption, since significant speeds are required to obtain cavitation processes in a fluid moving through a pipe.

The technical result of the invention is to increase the efficiency of activation while reducing energy consumption by stabilizing the water level with fluctuations in its supply, as well as the exclusion of stagnant zones.

The technical result is achieved in that the device for activating water containing the inlet and outlet pipes further comprises a container with a flowing or stationary located activated fluid connected to the inlet and outlet pipes, a magnetostrictive emitter powered from a functional generator, the working end of the magnetostrictive emitter is placed in the liquid in the tank, while the bore of the outlet pipe has a larger cross section than the inlet pipe, while the lower ends of the pipes Position the one and the same height as the output pipe is horizontally flattened appearance.

In FIG. 1 schematically shows a device for implementing the proposed method of activating liquids; in FIG. 2 is a section along AA in FIG. one.

The device comprises a container 1 filled with water 2, an inlet pipe 3, an outlet pipe 4, a magnetostrictive emitter 5. The drawings show only the working end of the magnetostrictive emitter, the magnetostrictive emitter itself, a functional generator, the role of which, for example, can be produced by the commercially available generator FG-100 not shown. A detailed description of magnetostrictive emitters, the principle of their action is given in the book of V.V. Mayer, E.I. Varaksina “Sound and ultrasound in educational research: textbook” V.V. Mayer, E.I. Varaksina "- 2 ed. - Dolgoprudny: Intellect Publishing House, 2012.336 s. To ensure a constant water level in the tank 1, the outlet pipe 4 should have a larger flow area than the inlet pipe. For this, the lower ends of the pipes 3 and 4 must be located at the same level. The pipe 4 is flattened in a horizontal plane, as shown in FIG. 2 (Fig. 2 shows a pipe 4 having a passage width equal to the inner diameter of the container 1). When the magnetostrictive emitter 5 is operating, almost instantaneous activation of the flowing or stationary liquid in the tank 1 occurs. The main indicators of the change in the state of tap water are given in table 1.

The data shown were obtained when operating on a magnetostrictive ferrite emitter using the FG-100 functional generator when operating at a frequency of 18 kHz at an ambient temperature of 23 degrees Celsius.

The high efficiency of activation of the liquid with a simultaneous significant reduction in energy consumption due to stabilization of the water level during fluctuations in water supply, as well as the elimination of stagnant zones in the tank 1 is the advantage and advantage of the proposed technical solution compared to the prototype.

Claims (1)

A device for activating water containing an inlet and outlet pipe, characterized in that it further comprises a container with a flowing or stationary located activated fluid connected to the inlet and outlet pipes, a magnetostrictive emitter powered from a functional generator, the working end of the magnetostrictive emitter is placed in a liquid located in the tank, while the bore of the outlet pipe has a larger section than the inlet pipe, while the lower ends of the pipes are located at the same height , the outlet pipe has a flattened horizontal view.

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