RU16086U1 - HYDROCAVITATION DEVICE - Google Patents

Abstract

1. Hydrocavitation device comprising a housing with a coaxially arranged confuser provided with a cylindrical channel and a diffuser, between which a flowing cavitation chamber is formed, the diameter of which exceeds the diameter of the cylindrical section, characterized in that a spring resonator is mounted with axial movement in the flow cavitation chamber in the form slotted cylindrical glass with annular protrusions in the initial and final sections, which form with confuser and diffuser, respectively, in single and output resonant cavities. 2. The hydrocavitation device according to claim 1, characterized in that the slotted cylindrical cup of the spring resonator is made in the form of a set of rings staggered with jumpers, while its length exceeds the distance between the confuser and the diffuser.

Description

 HQ H 08 H 3/02,

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HYDROCAV1 LOTATION DEVICE

The utility model relates to the field of mechanical engineering, in particular, to means for creating a cavitadion jet and can be used mainly for cleaning contaminated surfaces from scale and deposits, as well as for cutting various materials, dispersing, etc. technological processes.

A hydrocavitation cleaning device is known from the prior art, comprising a housing with a nozzle confuser channel, at the outlet of which a cowl (deflector) with an annular protrusion is installed (see 5U 494202 AI, 08 V 3/02, 1975; 2113298 C1, B 08 B 9/02, 1998). However, the technological capabilities of this device are limited.

Also known is a hydro-cavitation device containing a confuser, a diffuser, between which a flow-through cavitation chamber with an annular cavitator is placed (see RV 2001666 C I, B 01 P 5 / QO, 1993; R. U2032455 C I, B 01 P 5/00, 1995 ) Such a device effectively operates in the dispersion mode only if the declared ratio of geometric parameters is observed.

Closest to the utility model is a hydro-cavitation device comprising a housing with a coaxially arranged confuser provided with a cylindrical

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section, and a diffuser, between which a flowing cavitation chamber is formed, the diameter of which is larger than the diameter of the cylindrical section (see R.U C I, B 01 f 5/00, 1995).

The disadvantage of this device is the difficulty in choosing the profile of the flowing cavitation chamber for effective control of the cavitation process.

The utility model is aimed at simplifying the design of a hydro-cavitation device and increasing the efficiency of generating a cavitation jet.

The solution of the problem is ensured by

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that in a hydro-cavitation device comprising a housing with a coaxially arranged confuser provided with a cylindrical channel and a diffuser, between which a flow-through cavitation chamber is formed, the diameter of which exceeds the diameter of the cylindrical section in the flow-through cavitation chamber, a spring resonator is mounted with axial movement in the form of a slotted cylindrical cup with ring by steps in the initial and final sections, which form the input and output p with the confuser and diffuser, respectively resonant cavity.

In addition, the slotted cylindrical cup of the spring resonator is made in the form of a set of rings connected in a checkerboard pattern with bridges, while

the length exceeds the distance between the confuser and the diffuser.

The presence of a spring resonator leads to the appearance of harmonic oscillations in the flowing cavitation chamber, which cause resonant collapse of steam bubbles in the compression phase and the formation of vapor bubbles in the expansion phase, which causes the formation of longitudinal shock waves in the water stream leaving the hydro-cavitation device and increases the efficiency of its impact .

The drawing shows a General view of the device, the hydrocavitation device contains coaxially

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located housing I with a confuser 2 having a cylindrical channel 3 and a diffuser 4. In the flowing cavitation chamber 5, the diameter of which is larger than the diameter of the cylindrical channel 3, the spring resonator 6 is mounted with the possibility of axial movement, made in

in the form of a slotted cylindrical cup, consisting of a set of rings 7 connected staggered by jumpers 8, while the length of the spring resonator exceeds the distance between the confuser and the diffuser.

The spring resonator 6 has annular protrusions 9 and 10 in the initial and final sections, which form, with the confuser 2 and the diffuser 4, respectively, the input and output resonance cavities II and 12.

Hydrocavitation device operates as follows. - 3 at the outlet from which the pressure drops below the pressure of saturated vapors, which leads to the formation of vapor bubbles and the appearance of cavitation regimes in the flowing cavitation chamber 5 and in the inlet resonant cavity II, while the cavitation pulsating water jet, acting on the inlet annular protrusion 9 spring resonator 6 changes the size of the input resonant cavity II, causes longitudinal harmonic oscillations of the spring resonator b and a change in the size of the output resonant cavity 12, which leads to periodic change the hydraulic resistance of the confuser 2 and the diffuser 4 .. As a result of the harmonic oscillations generated in this way in the flow cavitation chamber 5, the vapor bubbles resonantly collapse in the compression phase and the vapor bubbles form in the expansion phase, which leads to the formation of longitudinal shock waves in the hydro-cavitation jet, which leaving the diffuser 4 has an increased dynamic effect.

Selecting the stiffness of the spring resonator 6, you can provide optimal modes, the operation of the device for various technological processes.

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Claims (2)

1. Hydrocavitation device comprising a housing with a coaxially arranged confuser provided with a cylindrical channel and a diffuser, between which a flowing cavitation chamber is formed, the diameter of which exceeds the diameter of the cylindrical section, characterized in that a spring resonator is mounted with axial movement in the flow cavitation chamber in the form slotted cylindrical glass with annular protrusions in the initial and final sections, which form with confuser and diffuser, respectively, in single and output resonance cavities. 2. Hydrocavitation device according to claim 1, characterized in that the slotted cylindrical cup of the spring resonator is made in the form of a set of rings staggered by jumpers, while its length exceeds the distance between the confuser and the diffuser.