SU921611A1 - Rotor apparatus - Google Patents

Description

(5A) ROTARY DEVICE

one

The invention relates to a mixing technique and can be applied in the chemical and other industries.

A mixer is known that contains rotor and static disks with toothed elements arranged in alternating concentric circles, in which between the elements of the stator disk from the center to the peri-. the feria pass through radial channels, and between the elements of the rotor disk the radial-inclined main (wide) and auxiliary (narrow) channels 11,

The disadvantage of such an apparatus is the relatively low mixing efficiency.

In general, the number of pulsations per revolution is determined by the product of the numbers of elements of the rotor and stator disks. Therefore, from the point of view of the intensification of the processes carried out in the apparatus, it is desirable

increase the number of elements on both the stator and rotor discs. However, if the increase in the known number of elements on the stator disk does not encounter obstacles, on the rotor disk, an increase in the number of elements may lead to a violation of the orientation of the inclined channels and the formation of through radial channels.

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The latter circumstance is undesirable, since in this case a certain part of the mixed components passes through the through radial channels of the stator and rotor, without being exposed to the elements, as a result of which the mixing intensity decreases. Therefore, in this apparatus the number of rotor elements

Claims (2)

20 is less than the number of stator elements, and the number of local pulsations per rotor revolution is less than the square of the number of stator elements. Also known is an apparatus containing rotor and stator disks with toothed elements placed in concentric circles. In this device, the poTopai and stator disks are divided into an equal number of sec torors, between which are formed through radial channels, with the same number of elements in each sector . Therefore, in the mixing device under consideration, the number of local pulsations at one revolution of the rotor is equal to the square of the number of elements of any of the disks, which contributes to the intensification of mixing 2. However, both disks have through radial channels between the elements, which, as already indicated, is undesirable. In addition, since the rotor and stator elements are identically located in the radial direction, as the rotor rotates, local pulsations arise 5 and also stop almost simultaneously throughout the entire volume of the apparatus, as a result of which the apparatus operates in a mode of significant pulsating loads. This, on the one hand5, reduces the operational reliability of the device, and on the other hand, imposes certain restrictions on the possibility of increasing the rotor speed and. as a consequence, on the possibility of increasing the performance of the rotary apparatus and improving product quality. The purpose of the invention is to intensify the mixing process, as well as to increase the reliability of operation. The goal is achieved by the fact that in a well-known rotor apparatus containing rotor and stator disks with gear elements installed along alternating concentric circles, the gear elements of one of the disks are displaced along an IMM concentric circle by angles ± where m is the number of sectors formed by the elements on the corresponding disk a p the number of concentric circles of the corresponding disk, while the dimensions i of the elements along the arcs of the corresponding concentric circles of radius a and r are in the inte shaft 6 g fji-. Thanks to this position of the element. On one of the disks and the sizes of these elements, the apparatus eliminates the possibility of the CKBO3HbfX zadial channels. Due to this, the volume of the mixed media is exposed to the elements of the disc, which contributes to the intensification of the processes. Besides; the possibility of simultaneous interaction of all the elements of one of the disks with the elements of the other is eliminated, and at the same time, the elements are alternately interacting according to their mutual displacement, therefore, the local pressure pulsation in the two discs corresponds to the volume of the mixed mass, in the process of the proposed apparatus, the total amplitude of the local pressure pulsations will be significantly lower, and the frequency of the pulsations will be much higher than in the app rate while interac yudeystziem all elements. This makes it possible to stabilize the load on the drive units and, all other things being equal ./cr ov x, increases the operational efficiency of the apparatus, which, in its turn, allows you to intensify the processes carried out in the apparatus by increasing the rotational speed of the rotor disk. Fig: 1 shows a rotary apparatus, in which the number of elements of the rotor and stagor is equal, a general view in section; Fig. 2 is a layout of elements on the stator in plan; Fig. 3 shows the layout of the rotor elements in the plan; in fig., section A-A in fig. 1 (for the case of the combination of the rotor and stator sectors} of the housed parison 1 and stator) 2 disks installed in housing 3 ,. having an inlet C and 5 outlets with 5 nozzles ,. On the surface of d-wheels, gear elements 8 ii S are installed in alternating concentric circles 6 and 7: the sectors forming sectors on the surface of the disks are identical for each disk, In particular, the sectors are bounded by radials emitted by rays through two adjacent elements on one concentric circles 6 and 7. 8 one of the options of the elements of the stator disk 2 is installed in each sector on the radial rays 10, so that the radial channels 11 pass through them, and the elements of the rotor disk 1 are placed one on each of the p ialnyh beams 12 carried at an angle of sSgde m - number of rotary disk sectors; pyrex concentric circles of a rotor disk In the presented case of apparatus implementation, elements of a rotor disk in each sector are set in 13o arcs. Another variant is possible, in which elements on a stator disk are arranged in arcs, and on a rotor one, along radial rays. Disk 1 is selected for the following reasons. The dimensions of the elements in the radial pressure are chosen such that the gap between the elements of the rotor and stator disks during rotation of the rotor disk is in the range of 0.2-0.3 mm. The size () of each of the elements 8 of the rotor disk 1, measured along the arc of the corresponding concentric circle 7, is determined from the expression rc oi f where r is the radius of the concentric circle; PS is the angle between the radial rays; n is the number of concentric circles on the rotor. The specified interval of the size of the elements 8 of the rotor disk 1 is selected from the conditions that ensure the absence of through radial channels, as well as the presence of gaps between the elements of one concentric circle. The pre-mixed components are supplied under pressure through the inlet pipe A to the rotating rotary disk 1. Under the action of external pressure and centrifugal force resulting from the rotation of the rotary disk 1, the stirred mass rushes to its periphery through the lumens - between the toothed elements 8 and 9 disks 1 and 2. At the same time, elements 8 and 9, preventing the movement of the mass, create a turbulent mode of mixing. When the elements of the rotor disk 1 8 interact with the elements of the stator disk 2 9, cavitation phenomena and high-frequency local pressure pulsations occur, which promote intensive mixing of media. Having reached the periphery of the discs, the mixture of components is removed from the apparatus through the outlet nozzle 5. The proposed rotary apparatus allows to obtain high-genic finely dispersed mixtures for relatively short periods of time and is characterized by high operational reliability. Ooze of the invention alternating concentric circles, characterized in that, in order to intensify the process and increase the reliability of operation, the elements of one of the disks are made with a shift in concentric circles by an angle c. where m is the number of sectors formed by the element on the corresponding disk, n is the number of concentric circles of the corresponding disk, with these dimensions of elements along the arcs of the corresponding concentric circles of radius r are in the integer g-n-c 2. 5g g -oC. Sources of information taken into account in the examination 1. England patent number 1388889, l. On 01 F 5/06, 1975. 2. Authors certificate of the USSR 273161, cl. At 01 F 5/06. 1969. // FIG. J