RU2050960C1 - Device for mixing - Google Patents

Abstract

FIELD: mixture preparation. SUBSTANCE: cavitation effect is generated using low frequency oscillations in fluid. Low frequency in the fluid is generated by short pulsed oscillations of elastic plates installed in prestressed compressed condition radially and fastened with one end to the extension piece on a crankshaft, and hinged by the other end to activator case. EFFECT: high speed when mixing components, uniform distribution of the components in the mixture, and high quality in cleaning surfaces from impurities. 3 cl, 6 dwg

Description

 The invention relates to means for preparing mixtures in a liquid medium and can be used to mix liquids having different densities, to obtain mixtures, and to clean contaminated surfaces.

 A device for mixing, including a housing, a shaft for transmitting rotation, a nozzle on the shaft of rotation, radially spaced elastic plates, one end mounted on the housing (1).

 This device has insufficient mixing efficiency.

 To increase the mixing efficiency according to the first embodiment, the shaft in the inner part of the housing is cranked and a nozzle is installed in this section of the shaft with radially spaced elastic plates fixed to it at one end, the other end of which is fixed in a hinge on the apparatus body. When the shaft rotates, the nozzle located on its crankshaft rotates eccentrically and consequently compresses the radial plates in turn. After the nozzle passes through an unstable position during compression of the plate (the plane between the axis of the rotation shaft and the axis of the hinge), the elastic plate bends sharply (shoots) towards the shaft rotation and transmits a sharp oscillatory motion to the liquid. According to the 2nd embodiment, the shaft in the inner part of the housing is cranked, and the elastic plates are fixed to the housing along its perimeter with two ends and are connected to the nozzle by means of rods, while the nozzles are placed on the crankshaft section of the shaft. The eccentric rotation of the nozzle on the crankshaft allows each plate to be pushed alternately by means of rods, and then pulled inward. Since the plates are installed in a stressed state (compressed), each ejection and retraction is completed by sharp shooting, respectively, outward and inward, transmitting these sharp fluctuations of the surrounding fluid. These vibrations form low-frequency fluid vibrations, which ensures efficient mixing.

 In FIG. 1 shows a device for mixing in the 1st embodiment, a top view; figure 2 is the same side view; figure 3 phase oscillation of the plate; in FIG. 4 device according to the 2nd embodiment, top view; figure 5 is the same side view; Fig.6 phase oscillation of the plate.

 The device according to the 1st embodiment comprises a housing 1, a rotation transmission shaft 2 in the inner part of the housing, made cranked, elastic plates 3, one end fixed to the housing by a hinge 4, and the other on a nozzle 5 mounted on a shaft portion made of a cranked.

 In the 2nd embodiment, the elastic plates are fixed to the housing along its perimeter with two ends and are connected to the nozzle by means of rods 6.

 The device according to the 1st embodiment acts as follows.

 The rotation of the transmission shaft 2 due to the cranked design of its portion in the housing provides an eccentric rotation of the nozzle 5. Rigid fastening of the plate 3 at one end to the nozzle 5 transmits oscillatory movements (with an amplitude equal to twice the eccentricity of the nozzle placement) to the radially placed plates, compressing them alternately, so as the second end of each plate 3 is fixed in the hinge 4. In the first phase of the cycle performed by the plate 3, the plate itself is out of tension, its position coincides with the plane of the axis of rotation of the shaft 2 and hinge 4 mounts. In the second phase, plate 3 is half compressed. Due to the deviation of the end fixed on the nozzle 5 in the direction of rotation from the plane of the axes, the plate bends convex in the direction opposite to rotation. With its deflection, the plate sets in motion the fluid surrounding it. In phase III, an unstable position occurs for the plate, plate 3 has the greatest compression. When the attachment point of the plate 3 on the nozzle 5 passes through the plane of the axes of the shaft 2 and the hinge 4, the compressed tape (plate) 3 sharply shoots and the convexity of the bend of the plate 3 is then directed towards the rotation of the shaft 2. A sharp oscillation during the shooting of the plate 3 transfers the oscillatory motion into the liquid, generating wave oscillations in it that cause the phenomenon of cavitation. Cavitation significantly increases the speed of mixing.

 According to the 2nd variant, when placing the plates 3 around the perimeter of the housing 1, the eccentric placement of the nozzle 5 on the shaft 2 transfers vibrations (reciprocating) to the plates 3 by means of rods 6. Since the plates 3 are mounted in hinges 4 in a stressed state, then the reciprocating fluctuations will cause shooting during one full cycle of rotation of the nozzle 5 two times there and back. Also, such shooting through of the plates 3, as in the first embodiment, will cause wave oscillations in the liquid, creating the effect of cavitation, providing a high mixing speed with high quality.

 The considered designs of the mixing device are highly efficient and versatile.

Claims (3)

 1. A device for mixing, including a housing, a rotational transmission shaft, a nozzle on the rotation shaft, radially located elastic plates fixed at one end on the housing, characterized in that the shaft in the inside of the housing is cranked and a nozzle is installed on this shaft section on which the other ends are fixed elastic plates.  2. The device according to claim 1, characterized in that the plates are pivotally mounted on the housing.  3. A device for mixing, comprising a housing, a rotational transmission shaft with a nozzle, elastic plates fixed to the housing, characterized in that the shaft in the inner part of the housing is cranked, and the elastic plates are fixed to the housing along its perimeter with two ends and connected to the nozzle by means of rods while the nozzle is placed on the crankshaft portion of the shaft.

Images