SU1378905A1 - Rotary pulsating apparatus - Google Patents

Abstract

The invention relates to mixing apparatus and can be used in chemical, pharmaceutical, food and other industries of the national economy for carrying out the processes of mixing, dissolving, emulsifying, homogenizing in flowable media and allows intensifying the mixing process, increasing the efficiency of the device. This is achieved due to the fact that radial blades are installed on both sides of the rotor, between which at the rear edges, merging them in pairs, are arranged around the circumference of the partition, and in the ends of the stator are made of pressure-suction windows on both sides. Partitions with a disk can be joined along the radius. The injection-suction ports can be made separately, with the injection windows located closer to the axis of the apparatus. Blades, combined by partitions, can form diffuser channels. I 3. n. F-ly, 4 ill. (L

Description

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The invention relates to mixing apparatus and can be used in chemical, pharmaceutical, food and other sectors of the national economy for carrying out processes of mixing, dissolving, emulsifying, homogenizing in flowable media.

The purpose of the invention is to increase the intensity of mixing and increase efficiency.

FIG. 1 shows the apparatus, a longitudinal section; in fig. 2 is a section A-A and a of FIG. one; in fig. 3 - the same, with diffusive channels formed by radial vanes, combined by partitions; in fig. 4 - the same, injection-suction ports are made separately.

The device consists of a tank 1 in which a nepe.Meiiinearouiee device is placed, having a stator 2 with a set of coaxially placed cylinders 3 and a rotor 4. The latter is made in the form of a disk 5, on both sides of which are installed coaxial cylinders 6 placed between cylinders 3 of case 2 The disk 5 is connected to a shaft m 7, kinematically associated with a drive m (not shown). Radial blades 8 with overcaps 9 are mounted on the disk. Opposite each pair of blades 8 there are holes 10 that perform the function of pumping-suction windows. In this case, partitions 9 with a disk 5 on the side of the axis of rotation of the rotor are matched radially. The holes 10 can be made separately, i.e., with the windows 11 and the suction windows 12.

In the stator 2, the guiding device 13 is made in the form of a coaxial cylinder with slots. The radial vanes 8, between which, joined together in pairs, are mounted around the circumference of the partition 9, form dead-end channels 14, and the radical blades, combined by rebounding obliquely to each other, form diffuse dead-end channels 15.

At the same time, the partitions 9 connect the rear edges 16 of the blades 8, and in the cylinders 3 and 6 there are bores. Wives radial slits 17.

The device works as follows.

In the tank 1 load the processed fluid. When the shaft 7 rotates, the disk 5 of the rotor 4, rotating, at the expense of the blades creates radial fluid flows moving from both sides relative to the disk 5. At the same time, it passes through the slots of the coaxial cylinders 3 of the stator 2 and the rotor b cylinders 4. In this area of the device the medium is subjected to an intense hydromechanical effect: mixing, dispersing, etc. Getting into the area where the radio 5 has a radiator 8, installed on the disk 5,

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the flow is divided into parts, one of which falls into dead-end channels 14 and, reflected by partitions 9, leaves the stator 2 through the holes 10. The other part of the flow moves further between the blades 8, while due to significant speeds in these channels the static pressure drops. At that moment, when the channels (strength) are located opposite the holes 10, through them the fluid from the tank 1 enters the stator 2. Later it mixes with the part of the fluid that continues the radial movement in the apparatus. That liquid, which from the dead-end channels 14 of the left body of the body through the holes 10, g by volume of a certain kinetic energy, is mixed with the liquid in the container. Through the guided apparatus 13, the liquid leaves the stator housing 2, interchanging with the liquid in the vessel.

To improve the mass transfer through the holes 10, the latter can be performed separately, namely, in the form of pressure 11 and suction 12 windows, while pressure windows 11 are located closer to the axis of rotation of the disk, and the radial 1e blades 8 connected by partitions 9 can be are inclined towards each other, forming diffuser dead-end channels 15. In this case, most of the liquid flows into the dead-end diffuser channels 15, of which it travels more quickly through the | -stretch windows 1 1 to eq. 1. The smaller part (e through copfuser proto Because of the increase in the velocity of the fluid and the expansion of the channel, the pressure in the jet drops by a larger amount than in the previous case. This leads to a greater pressure drop between these channels: 1 and As a result, there is an increase in the flow rate of the liquid and as1 1Vasma from the tank 1 to the stator 2.

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Thus, in the area of the ends of the stator 2, there is an intense movement of the jets J1.1kosgi, leaving the apparatus and being sucked in. This intensifies the process of mass transfer in the tank in precisely those areas where the intensity of movement of the treated fluid is not great.

Claims (2)

1. A rotor-pulsation apparatus for processing multi-component flowable L-IICTCM, which includes a tank, a stator with a set of coaxially placed cylinders with radial slots, and a rotor placed inside the stator and made in the form of a disk, on both sides of which radial blades and coaxial cylinders with radial slits spaced between the stator cylinders, characterized in that, in order to intensify the mixing process, each pair of radial blades is provided with a partition located circumferentially and connecting yushey and their trailing edges, and opposite in the stator blades of each pair are provided with openings. 2. An apparatus according to claim 1, characterized in that, in order to improve efficiency by reducing hydraulic losses, the walls of the partitions on the side of the axis of rotation are coupled to the disk circumferentially. ten / J Aa at 13 sixteen P ten 15 Fig .: