RU1801562C - Mixer - Google Patents

Abstract

SUMMARY OF THE INVENTION: The support of the suspension shaft 8 is made of annular sectors 10 on rotary eccentrics moving in the radial direction. The sealing element is made in the form of a diaphragm 9, peripherally supported by annular sectors. The mixing body 22 is equipped with an imbalance in the form of a rod 21 with an eccentric 24. 4 ill.

Description

The invention relates to mechanical engineering and can be used in the metallurgical, chemical, food and other industries for carrying out processes associated with intensive mixing of liquid media throughout the apparatus.

The aim of the present invention is to expand technological capabilities and simplify the design of the mixer.

Figure 1 shows the mixer, section, a General view; Fig. 2 is a sectional view of diaphragm stiffness control, section; in Fig.Z - section aa in Fig.2; Fig. 4 illustrates an imbalance changing unit of a mixing organ.

The mixer comprises a vertical cylindrical body 1 with a cover 2, a loading hatch 3, thermal insulation 4, a heating tank 5, a drain pipe 6 and struts 7. On the cover 2 there is a support for the suspension shaft 8. The shaft support consists of a diaphragm 9, peripherally supported by an annular support formed by sectors 10. The outer diameter d of the flange 11 of the support body 12 and the inner diametric dimension D-Di between sectors .10 form an annular gap 13 within which the diaphragm 9 can deform.

Each sector is mounted on eccentrics, which, with the help of fingers 15 with heads and nuts 16, restricting the vertical movement of the diaphragm 9, can be rotated synchronously (for example, by means of sprockets connected by a pulley-roller chain - not shown in the figure), sectors in the radial direction. The outboard shaft is seated in bearings 17 and connected in the upper part via pulleys 18, 19 and V-belts 20, to the motor 21 of the rotary drive. .

At the free end of the outboard shaft, a stirring member 22 is rigidly fixed in the form of a blade disk, on which a shaft 23 with an eccentric 24 is placed coaxially with the shaft 8 in the hole. a locking rod relative to the cam tabs on the blade. mixing organ disk 22.

During the mixing of the liquid medium 29, the diaphragm 9 allows the axis of the suspension shaft to deviate by an angle a, the angle of nutation of the shaft.

The mixer operates as follows.

Through the loading hatch 3, liquid and powder components are added to the vertical cylindrical housing 1, which subsequently make up the liquid medium

29. The drain pipe 6 is previously shut off and the heat transfer medium b is supplied. heating capacity 5.

The rotation drive of the suspension shaft 8 is turned on, which, by means of the motor 21,

pulleys 18, 19 and V-belts 20 provides rotation of the suspension shaft 8 at an angular speed (O and, at the same time, to the mixing body 22 attached to it at the free end, with an unbalanced moment changing device consisting of a rod 23 with an eccentric 24, a cam washer 25, springs 26, washers 27 and nuts 28.

As a result of the presence of unbalanced masses, the shaft 8 is deflected by the nutation angle a in the shaft precession and simultaneously rotates along the cone with vibrational pulses. The forces causing vibration and the shaft 8 deflecting from the vertical position are transmitted through bearings 17, the bearing housing 12 and its flange 11 to the diaphragm 9. The diaphragm, rigidly resting on the ring formed by sectors 10, is deformed into

within the annular gap 13 and, depending on the rigidity of the material of the diaphragm (rubber, polyurethane, etc.) and the magnitude of the gap determined by the outer diameter d of the flange 19 and the inner diametric dimension D-Di between sectors 10, determines the deflection angle a.

For mixing conditions of mixtures with different parameters, for example, with a different viscosity of the base, with different weight inclusion of the powder components, and to achieve at this highest efficiency, turning the rod 23 changes the position of the eccentric 24 relative to the mixing body

22 and, consequently, the imbalance moment changes. The kulachkova washer 25 thus works similarly to the safety clutch.

The optimal angle of nutation is controlled by turning the eccentrics 14 with the fingers 15 and changing the diametrical size of D-Di.

Thus, the necessary mode of movement for the mixer is provided by turning the rod 23 on the mixing organ 22 and turning the eccentrics 14 with the fingers 15 of the diaphragm 9.

The formation of turbulent flows associated with the precession of the suspension shaft contributes significantly to the efficiency of mixing the liquid medium.

Claims (1)

SUMMARY OF THE INVENTION A mixer comprising a vertical cylindrical body, on the lid of which is placed a rotary drive with a support. bearing a suspension shaft, a sealing assembly in the form of a bearing housing with a flange and an elastic sealing element covering the shaft, and a mixing body at the free end of the suspension shaft 1, characterized in that, in order to expand technological capabilities In order to simplify and simplify the design, the support of the suspension shaft is made of circumferential ring sectors mounted on rotary eccentrics with the possibility of radial movement and change of the annular gap formed by the support and the flange, the sealing element is made in the form of a diaphragm, peripherally resting on the ring sectors, while the mixing body is equipped with an imbalance in the form of a rod with an eccentric, whose axis is parallel to the axis of the shaft, fixed by a cam spring-loaded washer. Figure 1