SU1697876A1 - Mixing mill - Google Patents

Abstract

The invention relates to machines for grinding and mixing materials in the production of building materials 5 11 and will allow to intensify the processes of grinding and mixing. The mixing mill includes a housing 1 with grinding bodies 11, loading and unloading openings 2 and 3, a working body in the form of coil springs 4 mounted on each of the parallel shafts 5 by means of connecting elements, coils of springs 4 of one shaft 5 are placed between turns of the adjacent shaft 5. The springs 4 are made multiple, and the axis of each of them forms a helix, with the adjacent springs 4 having the opposite direction of winding. The connecting element is made in the form of a screw blade 6 fixed on the shaft, the lateral surface of which has protrusions displaced relative to each other and grooves for accommodating the turns of the spring. 1 hp f-ly, 6 ill. Y Os Os v | 00 S figure 1

Description

The invention relates to machines for the production of building materials, namely, a grinding and stirring technique, and can be used in the building materials industry, chemical and other, both dry and wet.

The aim of the invention is to intensify the grinding and re-metering processes.

Figure 1 shows the mill-mixer, top view; 2 is the same cross section; Fig. 3 shows the outer surface of the connecting element, an embodiment; Fig. 4 is the same; Fig. 5 shows a spring, an embodiment; Fig. 6 shows the same embodiment.

The mill-mixer includes a housing 1, the loading 2 and the discharge 3 holes. The working body is made in the form of multiple cylindrical springs 4, the axis of each of them forms a helix, and the shafts 5, each of which is provided with a connecting element. The latter is made in the form of a screw blade 6 fixed on the shaft 5, the lateral surface of which has protrusions 7 displaced relative to each other and slots 8 for accommodating the turns of the multiple-start springs 4.

The shafts 5 are mounted in the bearings 9, with one drive shaft (drive not shown), and the other not drive. The worm blade 6 is connected to the shaft 5 by means of elements 10 and is made as multiple as the multi-way springs 4, and adjacent connecting elements have the opposite direction of winding.

In the housing 1 freely placed-grinding gela 11.

Mill-mixer works as follows.

The drive is turned on and the grinding product is fed through the loading opening 2. Due to the engagement of the turns of the multiple springs 4, the adjacent shafts 5 rotate in the opposite direction.

As the tool rotates, the material is grabbed and, under the action of centrifugal forces, is thrown onto the inner surface of the body, as well as into additional activation zones EI at the pinching of coils of adjacent multiple-start springs, the number of which is determined by the expression N p t, where - the number of visits spiral helix.

The grinding bodies 11 are captured by the turns of each multiple spring and are directed by threads in the upper part along the entire length of the housing 1 towards each other,

when this occurs, the capture of particles of the material, which significantly intensifies the grinding process, at the same time due to the auger effect that occurs during the rotation of multiple springs 4,

0, the axes of each of them form a helix, receive a forced movement along the axis of the body 1 of the grinding bodies 11 and particles of material. As a result, there is an increase in the effective weight of the grinding bodies and in

The volume of the mixture of grinding media and the material being processed in a shorter period of time gives rise to forced intense stresses causing the destruction of particles of the material by alternating loads, which, in general, significantly intensifies the processes of grinding and mixing.

Due to the fact that the side surface of the screw blade 6 has protrusions 7 and grooves 8 that are offset from each other, a stable fastening of the turns of the multiple-run spring 4 on the connecting element is achieved. In addition, when engaging the turns of the conjugate multi-feed springs 4, radial forces are directed, directed perpendicular to the axis of rotation and circumferential, directed tangentially to the axis of rotation. Radial forces additionally contribute to increasing the stability of fastening the turns of the multiple-start spring4 by pressing the turns to the inner surface of the grooves 8.

Particles of materials subjected to fine grinding, as well as particles

0 materials that have been thoroughly mixed, moving along the axis of the housing 1, are discharged in the form of the finished product through the discharge openings.

Claims (2)

5 claims ° 1. The mill-mixer, comprising a housing with grinding bodies, loading and unloading openings, a working body in the form of mounted on each of the parallel shafts by means of connecting elements of cylindrical springs, coils of springs of one shaft are placed between turns of springs of an adjacent shaft, characterized in that the purpose 5 intensification of the grinding and mixing processes, the springs are made of multiple inputs, and the axis of each of them forms a helix, and the adjacent springs have the opposite direction of winding 2. Mill-mixer according to claim 1, wherein the connecting element is designed as a screw blade fixed to the shaft, the side surface of which has protrusions displaced relative to each other and grooves for accommodating the turns of the springs. ft5 eight Ј ± 3Ј EEE 2c figm fiab