SU837388A1 - Ajitating apparatus - Google Patents

Description

The invention relates to mixing devices and can be used in the food, textile and chemical industries.

A mixing device is known, ⁵ containing a vessel with inlet and outlet pipes, a hollow rod on which a piston consisting of two disks with holes is fixed, the piston connected to a reciprocating drive, and one of the disks with a rotary drive £ 1 ]. The disadvantage of this device is that when the upper ₁₅ disk with holes is rotated, the fluid being mixed is rotated along with it, and at the same time, the contact efficiency of the mixed flows and the mixing efficiency in general are reduced.

The purpose of the invention is to increase the efficiency of mixing by reducing g of the prosthesis a.

This goal is achieved by the fact that in the device the piston is made in the form of a perforated cylinder with a nozzle made of spherical ferromagnetic bodies, and a disk made with perforation is installed inside the cylinder.

In addition, in order to be able to control the mixing process when the viscosity of the mixed medium or medium ingredients changes, an electromagnet is placed on the outer surface of the cylinder, and to clean the working surface of the perforated cylinder and the inner walls of the vessel, the device is equipped with rotary blades.

In FIG. 1 shows the proposed device; in FIG. 2 is a section AA in FIG. 1.

The mixing device comprises a vessel 1 with inlet and outlet pipes 2 and 3, a rotary motion actuator 4, a reciprocating motion actuator 5, which is a pneumatic cylinder with a piston 6 837388. The rotary motion actuator 4 is mounted on a hollow stem 7, inside which the spindle passes 8 with a cis-com 9 installed with holes 10 and interconnected j rods 11 cleaning blades 12 adjacent to the working surfaces 13 of the perforated cylinder 14. The perforated cylinder ^ 14 is covered by an electromagnet 15. Elect romagnit 15 interacts with ball 10 acts ferromagnetic bodies 16, which partially fill the cavity of the cylinder 14.

The device operates as follows. fifteen

A mixed medium is loaded into the vessel 1 through the inlet pipe, after which the rotary motion drive 4 and the reciprocating motion drive 5 are turned on. The rotary drive 4 20 rotates the spindle 8, the disk 9 and the cleaning blades 12, interconnected by rods 11. The vertical movement 5 when supplying compressed air to the cavity above or below the piston 6, for example, from a compressed air system through a spool device, forces the hollow rod 7, and with it the perforated cylinder 14, move constantly then up, down. With 30 moving the cylinder 14 downward ilr upward, the mixed medium passes into the vice of a plurality of jets through the working surfaces 13. In the cavity of the cylinder 14, the jets of medium pass through the slots formed 35 between the spherical bodies 16, repeatedly changing the direction of movement and mixing intensively. At the same time, the rotating disk 9 contributes to intensive mixing of the medium, since it 40 mixes the spherical bodies 17. In this case, the holes 10 in the disk 9, as well as in the working surfaces 13 of the cylinder 14 are repeatedly blocked by the spherical bodies 17, which also contributes to 45 changes in the directions of the jets. Since the perforated cylinder moves along the entire height of the vessel 1, mixing occurs in the entire volume of the medium. The rotation from the spindle 8 is also transmitted to the blades 12, which clean the working surface 13 of the cylinder 14, and in the lower position of the cylinder 14 they clean the sediment at the bottom of the vessel 1.

The rods 11 when moving the cylinder 14 55 vertically clean the inner walls.

. vessel 1.

By changing the current strength in the winding of the electromagnet 15, you can change the strength of the electromagnetic field, and thereby the area of the passages between the spherical bodies 17, which allows you to adjust the intensity of mixing depending on the viscosity and quality composition of the ingredients of the mixed medium. However, the electromagnetic field interacting with the walls of the vessel 1 prevents the rotation of the cylinder 14 around a vertical axis. After completion of the mixing process, the medium from the vessel 1 is removed through the pipe 3.

The proposed mixing device can reduce the time of the mixing process by 15% compared with the existing one. In addition, the ability to control the process when changing the viscosity of the medium improves the quality of mixing.

Claims (1)

(54) A MIXING DEVICE 3, 8 with a pneumatic cylinder with a piston 6. The rotational movement 4 is fixed on the hollow stem 7, inside which the spindle 8 with the mounting tool 9 with the holes 10 and interconnected by means of 11 cleaning blades 12 adjoining to the working surfaces 13 of the perforated cylinder 14. The perforated cylinder 14 is covered by an electromagnet 15. The electromagnet 15 interacts with spherical ferromagnetic bodies 16, which partially fill the cavity of the cylinder 14. The device operates as follows. An agitated medium is loaded into the vessel 1 through the inlet 2, after which the rotational drive 4 is turned on and the return motion 5 is driven. The rotary actuator 4 rotates the spindle 8, the squeak 9 and the cleaning blades 12 interconnected in tandem 11. The vertical displacement actuator 5 when compressed air is fed into the cavity above the piston 6 or below it, for example, from the compressed air system through the spool valve The hollow rod 7, and with it the perforated cylinder 14, constantly mix up and then up and down. When the cylinder 14 moves downwards, the mixed medium flows upwards in the form of a plurality of jets through working surfaces 13. In the cavity of the cylinder 14, the jets of the medium pass through the slots formed between the spherical bodies 16, and the direction of movement is mixed many times and intensively mixed. At the same time, the rotating disk S51 promotes intensive mixing of the medium, as it mixes spherical bodies 17. At the same time, the holes 10 in the disk 9, as well as in the working surfaces 13, the cylinder 14 repeatedly overlap with the spherical bodies 17, which also contributes to changing the directions of the jets. Since the perforated cylinder moves along the entire height of the vessel 1, mixing takes place in the entire volume of the medium. The rotation from the 8 is also transmitted to the blade 12, which cleans the working surface 13 of the cylinder 14, and in the lower position of the cylinder 14 they clean the sediment on the stump of the vessel 1. When the cylinder 14 moves vertically, they clean the internal walls. Vessel 1 .. 84 By varying the current in the winding of the electromagnet 15, it is possible to change the strength of the electromagnetic field, and thus the area of the walkers between the ball heat 17, which allows you to adjust the mixing intensity depending on the viscosity and qualitative composition of the ingredients of the mixed medium. However, the electromagnetic field that interacts with the walls of the vessel 1, prevents the rotation of the cylinder 14 around the vertical axis. After the mixing process is completed, the medium from the vessel 1 is removed through the nozzle 3. The proposed mixing device allows to reduce the time of the mixing process by 15% compared to the existing one. In addition, obtaining the possibility of regulation; The process of changing the viscosity of the medium improves the quality of mixing. Claim 1. A mixing device comprising a vessel with inlet and outlet nozzles, a hollow rod on which a piston with a disk is fixed, wherein the piston is connected to a back-up movement drive, and a disk - a rotational movement drive, characterized by so that, with a chain of increasing the efficiency of movement by reducing the time of the process, the piston is dispensed in the form of a perforated cylinder with a nozzle of spherical ferromagnetic bodies, and the disk is inserted inside the cylinder and made with a perforation s. 2, The apparatus according to claim 1, wherein, in order to clean the working surface of the perforated shinsdra and the inner walls of the vessel, it is provided with blades mounted rotatably. 3. The device according to p. I, which is so that, in order to be able to control the intensity of mixing depending on the viscosity and composition of the mixed medium, it is equipped with an electromagnet attached to the outer surface of the cylinder . Sources of information taken into account in the examination of 1 .. USSR author's certificate N 6l6553, cl. In O1 F 11 / BO, 1976.