RU2050959C1 - Water hummer rotor apparatus - Google Patents

Abstract

FIELD: grinding and mixing material. SUBSTANCE: apparatus has housing and rotor and stator mounted concentrically inside the housing. Curved passageways are made in the walls of the rotor and stator. The distance between the passageways is 1.4-1.45 of the rotor radius. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to grinding and mixing equipment and can be used for dispersing and emulsifying ore and non-metallic materials in various industries.

Known rotary apparatus for dispersing coarse suspensions containing a housing inside which a rotor and a stator are concentrically mounted with a radial clearance with windows in the side walls formed by flat surfaces [1]
In the apparatus of this design there are conditions for the occurrence of direct hydraulic shock and hydrodynamic cavitation. However, hydraulic shocks in the narrow side windows of the rotor formed by the flat surfaces of rectangular prisms are weak. The hydrodynamic cavitation formed in the stator is insignificant due to the constant section of the windows over the entire thickness of the stator.

Closest to the proposed is a rotary apparatus of hydropercussion action, comprising a housing, inside of which a rotor and a stator are concentrically mounted with slots (channels) in the side walls. Moreover, the channels (slots) of the rotor are made in the form of subsonic nozzles, tapering towards the stator. Slots (channels) of the latter are made expanding towards the body and have concave surfaces [2]
The execution of the rotor channels in the form of subsonic nozzles provides a significant primary hydraulic shock. However, the configuration of subsonic nozzles limits the capabilities of the apparatus, namely, it does not allow grinding materials with a hardness of more than 7 units. on the Mohs scale, i.e. the resulting pressure impulse is not enough to destroy the crushed solid particles.

 The purpose of the invention is the expansion of the scope of the apparatus, increasing the effect of hydrodynamic cavitation.

 The goal is achieved by the fact that in the rotary apparatus of hydropercussion, including a housing inside which the rotor and stator are concentrically mounted with channels in the side walls, the rotor channels are made in the form of a boomerang and are arranged with a step equal to (1.40-1.45) R, where R is the radius of the rotor.

 The essence of the invention is to enhance the amplitude of the natural oscillations of the particles of the crushed material.

 The execution of the rotor channels in the form of a boomerang and their arrangement with the claimed step provides the combined effect of direct hydraulic shock and double hydrodynamic cavitation, which occurs at the entrance to the rotor channels and at the exit of the stator, on the crushed material necessary and sufficient for the destruction of solid particles of this material.

 The location of the channels in the rotor from each other at a distance less than 1.40R does not create a high effect of hydrodynamic cavitation.

 The distance between the rotor channels greater than 1.45R is not enough for the formation of the necessary pressure pulses, since the channels in this case acquire a smooth curved surface.

 In FIG. 1 shows a rotary apparatus of hydropercussion action "ARGUS", section; figure 2 section aa in figure 1.

 Rotary apparatus hydropercussion action "ARGUS" contains a housing 1 with input 2 and output 3 nozzles. Inside the housing, a rotor 4 and a stator 5 are mounted coaxially to each other. The stator has openings 6 expanding towards the housing 1 (confusers). The rotor is equipped with blades 7, curved along the rotation of the rotor. Each pair of adjacent blades forms channels 8 of variable cross section (subsonic nozzles), tapering towards the stator and made in the form of a boomerang with outlet openings 9. The channels are located in the rotor with a step of (1.40-1.45) R, where R is the radius of the rotor.

 The rotary apparatus "ARGUS" works as follows.

 A homogeneous suspension (for example, from water and crushed stone granite in a ratio of 2: 1) is fed through the inlet pipe 2 into the housing 1 into the channels 8 and onto the blades 7 of the rotor 4. When the rotor rotates (in the direction of the arrow, Fig. 2), the blades 7 inform the suspension of centrifugal and tangential velocities, which increase as the suspension moves along the narrowing channels (nozzles) 8. As the speed of the heterogeneous flow (suspension) increases, the pressure decreases. The maximum value of the flow velocity and its minimum pressure value are observed at the nozzle mouth at the rotor-stator gap boundary. In zones A, located at the beginning of the channels (nozzles) (figure 2), there is hydrodynamic cavitation, which is formed due to the boomerang configuration of the channels. Hydrodynamic cavitation additionally intensifies the dispersion of the suspension flow.

 At the moment of closing the outlet 9 of the subsonic nozzle with the stator wall, an increase in pressure occurs, a direct hydraulic shock results in stable turbulence, i.e., the compressive force is transmitted through the water to solid particles of crushed stone granite. Then the rotor hole 9 and the stator hole 6 are combined. The compressive force from the solid particles of the suspension is removed, and the flow of the suspension, which received high kinetic energy in the subsonic nozzles (channels 8) of the rotor, enters the expanding holes 6 (confusers) of the stator. Here, the speed of the suspension decreases, the pressure rises sharply, and hydrodynamic cavitation (secondary hydraulic shock) occurs. In confusers, solid particles receive additional destruction from the action of collapsing water bubbles in the cavitation zones B of the confuser (figure 2).

 When the rotor outlet openings are blocked by the walls of the stator with a given frequency due to the occurring direct hydraulic shocks, intensive grinding of the suspension solid particles occurs. The dispersed suspension from the stator enters the outlet pipe 3 and is removed from the apparatus.

 This design of the apparatus allows to increase the effect of grinding by 2-3 times.

Claims (1)

 A hydropercussion rotor apparatus including a housing inside which a rotor and a stator are concentrically mounted with channels in the side walls, characterized in that the channels in the rotor are curved in the form of a boomerang and are arranged with a step of (1.40 1.45) R, where R is the radius of the rotor .

Images