RU179835U1 - MIXING WORKING BODY WITH SHOULDER TURN MECHANISM - Google Patents

Abstract

The utility model can be used in the chemical, pharmaceutical, food industry, as well as in the building materials industry and is used for mixing mixtures of various degrees of humidity. The objective of the utility model is to increase the mixing efficiency by quickly adapting the working body in the zone of its influence on the components of the mixture to their physical and mechanical properties during continuous operation. This is achieved by the fact that the working body of the mixer with the rotation mechanism of the blades contains a hollow shaft 1 with attached to it cows 5 and blades 8. Inside the hollow shaft 1, a rod 2 is installed with cylindrical protrusions 3 and grooves 4 with the possibility of rotation around its axis and reciprocating motion. Axles 6 are fixed in the struts with the possibility of engagement with the protrusions 3 of the rod 2, in the lower part of which the fingers 7 are eccentrically located, and in the upper part - the blades 8.

Description

The utility model can be used in the chemical, pharmaceutical, food industry, as well as in the building materials industry and is used for mixing mixtures of various degrees of humidity.

A known mixer [RF patent for the invention No. 1611426, A1 B01F 7/00, 12/07/1990], which contains a rotor (working body) of the "squirrel wheel" type, on the longitudinal mixing elements of which brackets are mounted with blades, adjustable relative to one another by brackets, installed with the possibility of movement relative to the longitudinal mixing elements of the rotor.

The disadvantage of the invention is the impossibility of changing the angle of rotation of the blades relative to its own axis when changing the physico-mechanical properties of the mixture, which leads to a decrease in the mixing efficiency.

The closest analogue adopted for the prototype is the blade shaft (working body) of the mixer [RU patent for the invention No. 2290301, B28C 5/14, 12/27/2006], containing blades (blades) made in the form of plates of durable dense material, mounted on racks mounted on the mixer shaft. The shaft is made hollow, each rack is made with a hole along the longitudinal axis, communicated with the cavity of the shaft, and is mounted with the possibility of rotation and fixation of a given position. The blades are fixed on the racks without blocking the holes in the rack, while the plate of each blade is closed on the working side with a gap lining made of liquid and gas permeable material, and the gap between the plate and the lining is sealed around the perimeter.

The following features of the prototype coincide with the essential features of the utility model: the racks are fixed in the holes of the hollow shaft, and the axes with blades are inserted in the racks in the upper part.

The disadvantage of the invention is the low mixing efficiency due to the inability to adjust the angle of rotation of the blades (blades) during the mixing process, since it is necessary to stop the equipment for the subsequent adjustment of each blade individually.

The objective of the utility model is to increase the efficiency of mixing due to the rapid adaptation of the working body in the zone of its influence on the components of the mixture to their physico-mechanical properties during continuous operation.

This is achieved by the fact that the working body of the mixer with the rotation mechanism of the blades contains a hollow shaft with racks and blades fixed on it. A rod with cylindrical protrusions and grooves is installed inside the hollow shaft with the possibility of rotation around its axis and reciprocating motion. The racks are fixed axes with the possibility of engagement with the protrusions of the rod, in the lower part of which the fingers are eccentrically located, and in the upper part - the blades.

The essence of the utility model is illustrated by graphic materials, where in FIG. 1 shows a General view of the working body of the mixer, FIG. 2 - rod, FIG. 3 is a view of the axis of the blade in connection with the rack, FIG. 4 - rotation mechanism of the blades assembly.

The working body of the mixer (Fig. 1) contains a hollow shaft 1, inside which a rod 2 (Fig. 2) is mounted with the possibility of rotation around its axis and reciprocating movement, on which there are cylindrical protrusions 3 with grooves 4. Into the holes of the hollow shaft 1 fixed, for example by welding, racks 5 (Fig. 3). Axles 6 are inserted into the posts 5, the fingers 7 are eccentrically located at the bottom. The blades 8 are fixed rigidly to the axles 6, for example, with bolts 8. The fingers 7 of the axis 6 are located in the grooves 4 of the rod 2 with the possibility of engagement with the protrusions 3. The rod 2 is coaxially connected with a piston 9 (Fig. 4) of the rotation mechanism of the blades by means of a thrust bearing 10 and a sleeve 11. At the other end of the piston, for example, a lever 12 is fastened, for example, by a bolt connection.

The working body of the mixer with the rotation mechanism of the blades is as follows. For mixing dry materials, such as cement and sand, the recommended angle of rotation of the blades relative to the horizontal axis of the hollow shaft 1 is 45 °. To set the recommended angle, it is necessary to turn the lever 12 by a certain number of revolutions. In this case, the piston 9 makes a reciprocating motion and pushes the rod 2 by means of a thrust bearing 10. The rod 2, moving with the help of the protrusions 3 and the grooves 4, makes the fingers 7 of the axis 6 rotate about its axis. The blades 8 are rotated after the axles 6, mounted in the uprights 5. This improves the mixing efficiency during continuous operation of the mixer.

In the case of the material entering the mixer with high humidity, it is necessary to increase the angle of rotation of the blades by rotating the lever by a certain number of revolutions in the opposite direction. In this case, the piston 9 pulls the rod 2 behind it. In turn, the axis 6, when the rod 2 moves in the opposite direction, changes the angle of the blade 8, for example, by 60 ° during continuous operation of the mixer. This allows during continuous operation to increase the intensity of mixing of the components.

The utility model improves the mixing efficiency and the quality of the finished mixture by changing the angle of rotation of the blades during continuous operation of the mixer depending on the physicomechanical properties of the components, and the proposed design of the mechanism of rotation of the blades will provide ease of installation, maintainability and durability.

Claims (1)

The working body of the mixer with the rotation mechanism of the blades, containing a hollow shaft with racks and vanes fixed on it, characterized in that a rod with cylindrical protrusions and grooves is installed inside the hollow shaft with the possibility of rotation around its axis and reciprocating motion, and the axes are fixed in the racks with the possibility of engagement with the protrusions of the rod, in the lower part of which the fingers are eccentrically located, and in the upper part - the blades.

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