RU168309U1 - Source of coherent traveling pressure waves for liquids or gases - Google Patents

Abstract

The inventive utility model relates to devices that create coherent traveling pressure waves in a liquid or gaseous medium. The source of coherent traveling pressure waves for liquids or gases contains an oscillator fixed to the waveguide filled with the working medium in the form of a liquid or gas. The fairing-separator is made in the form of radially located partitions. Each of the partitions is connected by one edge to the inner surface of the waveguide body, and the opposite edges of the partitions are connected along the central axis of the waveguide and divide the waveguide into working channels of equal shape and size. Parts of the working channels at the outlet of the device are cylindrical with the ability to connect them to secondary sources of oscillations that generate a standing wave. The device is equipped with sensors for monitoring vibration parameters. The device allows the formation of controlled coherent traveling pressure waves with the possibility of transferring their energy to secondary sources of oscillation to generate a standing wave. 12 s.p. f-ly, 2 ill.

Description

The inventive utility model relates to devices that create coherent traveling pressure waves in a liquid or gaseous medium.

The coherence of pressure waves, characterized by the same frequency and constancy of the phase difference, is a necessary condition for obtaining a stable interference pattern, a particular case of which is a “standing wave” generated by secondary oscillation sources, in particular, in the operation of a device for cleaning liquid or gas from impurities (RU 86585 U1, C02F 1/34, 09/10/2009). At the same time, it is possible to control the cleaning process by changing the parameters of coherent traveling pressure waves generated in the controlled sources of coherent waves.

It is known to create a coherent flow using an improved nozzle for a tool for coke removal using a liquid jet (RU 2531395 C2, C10B 33/00, B05B 1/16, B05B 1/02, 10.20.2014), which is achieved by reducing or eliminating stagnation areas and large vortex flows, because, as indicated in the description of the invention. “The duct has a conical shape, so that when the fluid for coke removal passes through the nozzle, a predominantly coherent fluid flow is created at the outlet.

The known device provides a coherent flow regime in a single stream, while the coherent flow created in the known device is a flow of a uniform fluid flow. This device does not allow the formation of coherent pressure waves, characterized by the same frequency and constancy of the phase difference in two or more streams.

Known hydrodynamic generator of pressure fluctuations in the fluid stream (RU 2464456 C2 F15B 21/12, F15D 1/02, F15C 3/16, 10/20/2012), consisting of a slotted nozzle; sharp wedge; two flat divergent channels extending into a common perforated output manifold, and two resonator chambers with a sharp output edge located on both sides between the nozzle and diverging channels, while a hydraulic cylinder with a bottom and two pistons connected by a rod passing through the bottom of the hydraulic cylinder, and in the hydraulic cylinder two spaced windows are made, each connected to its diverging channel, and the pistons are installed as follows: one in the hydraulic cylinder between the windows, and the second in the output m collector. This device is taken as the closest analogue.

The well-known hydrodynamic generator allows you to more fully convert the pressure drop in the working channels into pressure fluctuations in the output manifold, but does not allow you to create coherent traveling pressure waves at the outlet of the channels.

The objective of this utility model is the formation of controlled coherent traveling pressure waves with the possibility of their transmission to secondary sources of oscillations that generate a standing wave.

The technical result is expressed in obtaining the required number of controlled coherent traveling pressure wills.

The problem is solved in that in a source of coherent traveling pressure waves for liquids or gases, including an oscillation generator, fairing-separator, working channels, according to the claimed utility model, the oscillation generator is fixed to a waveguide filled with a working medium in the form of a liquid or gas, fairing-separator made in the form of radially located partitions, each of which is connected by one rib to the inner surface of the waveguide body, and the opposite edges of the partitions are connected along the central th axis of the waveguide, and the waveguide is divided into working channels of equal shape and size, wherein the portion of working channels at the outlet of the source of coherent traveling pressure waves formed cylindrical form, with their connection to secondary sources of vibrations, generating a standing wave.

The waveguide can be made cylindrical in shape.

The oscillation generator can be fixed to the waveguide with the ability to adjust the housing of the oscillation generator relative to the body of the waveguide.

The waveguide can be made of two hermetically connected waveguides - the waveguide of the oscillation generator and the fairing waveguide.

The oscillation generator can be fixed to the waveguide of the oscillation generator.

The oscillation generator can be fixed directly to the fairing waveguide.

The fairing-separator may be configured to divide the waveguide into at least two working channels.

The partition walls of the fairing-separator can be attached to the inner surface of the waveguide body by an integral connection.

The partition walls of the fairing-separator can be connected to the inner surface of the waveguide body by a detachable connection.

The partition walls of the fairing-separator can be made in the cross section of a wedge-shaped shape with a thickened part attached to the waveguide wall.

The cylindrical parts of the working channels can be made with the possibility of connecting them to the secondary sources of vibrations using fittings.

The outputs of the working channels can be made open.

The outputs of the working channels can be made hermetically sealed.

The inventive source of coherent traveling pressure waves for liquids or gases is illustrated by drawings. In FIG. 1 schematically shows a longitudinal section of a source of coherent traveling pressure waves; in FIG. 2 is a view A in FIG. one.

The source of coherent traveling pressure waves for liquids or gases includes an oscillation generator 1, a waveguide, which can be made as a whole, or consisting of hermetically connected waveguide of the generator 2 and the waveguide of the fairing-separator 3, connected at the junction 4, the partition of the fairing-separator 5, working channels 6 with a cylindrical part 7.

A source of coherent traveling pressure waves for liquids or gases works as follows. An oscillation generator 1, for which, for example, a piezoelectric transducer or other devices can be used based on specific requirements for power and (or) for the frequency of traveling pressure waves, creates a traveling pressure wave in the waveguide, which, when the waveguide is made of two hermetically connected waveguides, through the waveguide of the generator 2 and sequentially along the waveguide of the fairing-separator 3 reaches the fairing-separator built into the waveguide, and enters the working channels 6, through their identical sectoral parts at the inlet and further to the cylindrical parts 7 at the exit, with the possibility of further transmission of the oscillations of the traveling coherent pressure wave to the secondary oscillation sources for generating standing waves. Since the working channels 6 of the fairing-separator are made of the same size, shape (along all cross sections from inlet to outlet) and material, the traveling pressure waves at the outputs will be the same in all respects, i.e. coherent, that is, the basic condition for the generation of a standing wave will be created.

The outputs of the working channels of the source of coherent traveling pressure waves for liquids or gases are performed open with the creation of a common working environment in the inventive source of coherent traveling pressure waves for liquids or gases and secondary sources of oscillations connected to it to form a standing wave in the process waveguide.

The outputs of the working channels of the inventive source of coherent traveling pressure waves for liquids or gases are hermetically sealed, for example, with elastic separating materials and / or membranes that do not impede the transfer of vibration energy from the source of coherent wave generation to secondary vibration sources to form a standing wave in the process waveguide. Moreover, the elastic membrane may not necessarily be included in the kit of the inventive device, but also be included in the device kit of the sources of secondary oscillations of the technological waveguides.

The connection of the partition walls of the fairing-separator with the internal surface of the waveguide body with a detachable connection allows, if necessary, the replacement of the fairing-separator with a similar one, or the fairing-separator, equipped with a different number of partitions and, respectively, working channels, for the possibility of attaching the inventive device to different versions of the secondary oscillation sources.

The oscillation generator is fixed to the waveguide with the possibility of adjusting the housing of the oscillation generator relative to the waveguide body to achieve the identity of the output pressure waves, including the amplitude.

Regulation of the oscillation parameters can be carried out by the control system by changing the control actions on the oscillation generator.

The inventive source of coherent traveling pressure waves for liquids or gases allows the formation of controlled coherent traveling pressure waves with the possibility of transferring their energy to secondary oscillation sources to generate a standing wave in the process waveguide.

Claims (13)

1. A source of coherent traveling pressure waves for liquids or gases, including an oscillation generator, fairing-separator, working channels, characterized in that. that the oscillation generator is fixed to the waveguide filled with the working medium in the form of a liquid or gas, the radome-divider is made in the form of radially arranged partitions, each of which is connected by one edge to the inner surface of the waveguide body, and the opposite edges of the partitions are connected along the central axis of the waveguide and divide the waveguide on working channels equal in shape and size, while part of the working channels at the exit from the source of coherent traveling pressure waves are made cylindrical with the possibility odsoedineniya them to secondary oscillation source that generates a standing wave. 2. The source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the waveguide is made of a cylindrical shape. 3. A source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that. that the oscillation generator is fixed to the waveguide with the ability to adjust the housing of the oscillation generator relative to the waveguide housing. 4. The source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the waveguide is made of two hermetically connected waveguides - the waveguide of the oscillation generator and the radome waveguide. 5. A source of coherent traveling pressure waves for liquids or gases according to claim 3, characterized in that the oscillator is fixed to the waveguide of the oscillator. 6. The source of coherent traveling pressure waves for liquids or gases according to claim 3, characterized in that the oscillator is fixed to the waveguide of the fairing-separator. 7. A source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that. that the fairing-separator is configured to divide the waveguide into at least two working channels. 8. The source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the partition walls of the fairing-separator are connected to the inner surface of the waveguide body by an integral connection. 9. The source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the partition walls of the fairing-separator are connected to the inner surface of the waveguide body by a detachable connection. 10. The source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the partition walls of the fairing-separator are made in the cross-section of a wedge-shaped shape with a thickened part attached to the waveguide wall. 11. A source of coherent traveling pressure wills for liquids or gases according to claim 1, characterized in that the cylindrical parts of the working channels are configured to connect them to secondary vibration sources using fittings. 12. A source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the outputs of the working channels are open. 13. A source of coherent traveling pressure waves for liquids or gases according to claim 1, characterized in that the outputs of the working channels are hermetically sealed.

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