SU1547695A3 - Mixer - Google Patents

Abstract

The mixer comprises a mixing container 1 with a vertical axis, a conical side wall and a container bottom, as well as a mixing screw which is fastened to a shaft and is driven in rotation by means of a drive arranged underneath the container bottom. The upper end of the mixing screw is rotatably mounted in a bearing of a rotatingly driven swivel arm, which for its part is rotatably driven in a central housing flange on the upper side of the mixing container by a drive arranged there. To increase the operational reliability, axial changes in length of the mixing screw shaft are taken up in a bearing arranged at the swivel arm, by the mixing screw shaft being designed as a knockout spindle. Furthermore, the swivel arm is designed as a simple arm without any built-in gear mechanism, so there are no seals, gear components or the like in the product space. <IMAGE>

Description

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

In Fig.1 schematically shows the proposed mixer; in FIG. 2, the mixing auger and its fastening in the support of the pivot arm and the bottom} in FIG. 3 — the support on the pivot arm. The mixer contains a tank 1 with a vertical axis, a conical side wall 2 and a bottom 3 in which there is a mixing screw fixed on the shaft 4 5. The screw is driven into rotation by means of an actuator 6 located under the bottom of the tank. The upper end of the screw is rotatably mounted in support 7 placed at the free end of the pivot arm 8, the other end of the lever is mounted along the axis of the reservoir and connected to a rotational drive 9 located above the reservoir. The support 7 is made in the form of a sleeve 10 with a cover 11, the screw is provided with a sleeve 12 coaxial to it fixed to its upper end, having a spherical outer surface. The pivot arm 8 is inclined and has a vertical section 13, hermetically mounted in the flange 14. The lever is made with a section in the form of a hollow shaft 15 rigidly connected to the vertical section by means of flanges 16. The vertical section 13 is provided with an enclosure 17 s that is fixed to it outside the tank. placed in it by a protective sleeve 18, rigidly connected to the lever, and the packing gland packing J9, which provides the possibility of dismantling the vertical section outside the tank. The lever is made with a section in the form of interconnected shafts of different diameters, while the shaft of smaller diameter 20 is connected to the hollow shaft 15, and the shaft of larger diameter 21 21 is connected to the hub 10 of the support 7.

The shaft 4 of the screw 5 is fixed in the bottom by means of a universal joint 22, od5

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a part of which is made with a bolt 23 screwed into the end of the shaft 4, and the other is connected to the drive 6 via a hollow shaft 24 and a drive shaft 25.

The tightness of the shaft 4 of the mixing screw 5 with respect to the bottom 3 of the tank 1 is achieved by means of a hemispherical sealing element 26, which is rigidly connected to the shaft of the mixing screw 5, In the bottom there is a sealing ring 27, which is pre-tensioned and self-adjusting. A purge gas line and a pressure equalization system can be connected to this sealing ring.

The control of correct functioning is achieved herewith by means of a control viewing glass 28 "The shaft 4 of the screw 5 is mounted in the support 7 as follows. The upper end of the shaft is connected to the insertion axis 29, onto which the sleeve 12 is mounted, the upper end of the latter is closed by a washer 30, which is fixed by a screw 31 in the axis 29.

The mounting of the support is carried out in such a way that the sleeve 12 surrounds the inner perimeter of the sleeve 10} which is located inside the tubular element 32. The flange cover 11 is attached to the element 32 by a screw 33,

The element 32 is connected to one end of the shaft 21, the other end of which is connected to the shaft 20 of a smaller diameter, while the shaft 20 is inserted into the internal cavity of the hollow shaft 15 and fixed there.

The other end of the hollow shaft 15 is connected to the sealing element 34 and enters the flange 16, which by means of screws 35 is connected to the opposite flange 16 of the pivot arm actuator.

The flange 16, for its part, is connected to a vertical section 13 of the lever 8, which is connected to a hollow shaft 37 through a parallel key 36, which has an external gearing and is part of the drive mechanism 38. Face sealing of section 13 is achieved by means of a washer 39 and screw 40. Sealing The portion 13 of the mixing vessel flange 41 is reached by means of a stuffing box 19, which is self-aligning.

At the same time, the flange 42, through which the studs 43 pass, pushes the stuffing box 19 from the end to the gland packing. splines 45 and lying nuts 46 on the top. The stuffing box gasket 19 covers the protective sleeve 18 connected to the possibility of rigid rotation with section 13 of the lever.

All of the stuffing box - the gasket 19 is connected by means of screws 47 to a flange 14 rigidly connected to the body, which in turn is in contact with the tank flange 49 by means of a suitable plating 48. In the cavity of the tank, you can submit the spray jet through the spray tube 50, located in the vertical section 13 of the lever 8.

Using the described lever design, it is possible to overcome difficult working conditions in the reservoir cavity, since it does not contain any sensitive seals, no lubricated parts or quickly wearing parts, which in such conditions are characterized by low durability.

Changes in the length of the shaft of the mixing auger are perceived by the shaft of the mixing auger designed as a plug axis so that the bearing provided for this is not strained in the axial direction.

The sleeve 12 is made with an outer spherical surface and with an inner cylindrical surface. Thus, when the length changes and when the shaft of the mixing screw 4 is distorted or overloaded, the sleeve 12 may have a lateral displacement, which prevents the screw shaft bearing from breaking down under high temperature conditions.

It is also significant that sleeve 12 is made of AMCO steel, which is a self-lubricating high-wear steel. At the same time grease

bushings 12 are not provided by the residual moisture of the mixed product in the reservoir cavity, but by the mixed product itself.

Support 7 of the end of the auger shaft is closed on all sides and therefore completely. the possibility of contamination is excluded} which would lead to a malfunction of the device. Making the pivot lever inclined increases the tank capacity, and also eliminates the danger of contamination from the vertical section of the lever, which in this case will be located in the tank "

Claims (4)

Invention Formula 1, a mixer comprising a tank with a vertical axis, a conical side wall and a bottom in which there is a mixing screw fixed to the shaft, which is rotated by means of an actuator located under the bottom of the tank, the upper end of the mixing screw being rotatable in a support placed on the free end of a pivot arm, the other end of which is mounted along the axis of the tank and connected to a rotation drive located above the tank, the support at the end of the lever is designed as a sleeve, and the auger it is provided with a sleeve coaxially fixed to its upper end and having a spherical outer surface, characterized in that, in order to increase reliability, the pivoting lever is made inclined, and the support sleeve at the end of the lever is provided with a lid. 2, a mixer according to claim 1, characterized in that the pivoting lever is provided with a vertical portion which is hermetically mounted in the flange. 3, Mixer on PP. 1 and 2, that is, the rotary lever is made with a section in the form of a hollow shaft rigidly connected to the vertical section by means of flanges, while the vertical section of the lever is provided with a housing installed in it concentrically outside the tank. coupling rigidly connected to the lever and sealing gland packing. 4. Mixer on PP. 1-3, characterized in that the lever is made with a section in the form of interconnected shafts of different diameters, however, the shaft of a smaller diameter is connected to the hollow shaft, and the shaft of a larger diameter is connected to the support sleeve. 38 eight P Fm.1 38 P Physical 5