RU2087197C1 - Vibratory mill - Google Patents

Abstract

FIELD: chemical concentrating, food and other branches of industry. SUBSTANCE: vibratory mill uses grinding tubes 1 installed on carrier 2, two eccentric shafts 3, balance beams 4, bearing assemblies 5 and 6, reduction gear 7, material loading and unloading branch pipes. The relationship between the radii of the grinding tubes and eccentric shafts makes up 2,2-2,8″. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to devices for grinding and encapsulation of solid materials, namely to mills of vibrational action, and can be used in chemical, mining, food and other industries, in the production of construction and special materials.

 Known vibration mill containing a grinding tube mounted on a supporting frame. On the frame there are angular swing supports of the grinding tube, which are carried out by the swing drive and vibration exciter.

 The closest to the invention in terms of features is a vibration mill containing two grinding pipes with loading and unloading nozzles and a vibratory drive.

 The disadvantage of these mills is the relatively low efficiency of mechanical action on the crushed material.

 The present invention is directed to improving the effectiveness of mechanical impact on the processed material.

 In the proposed mill, it is possible to grind solid material, as well as grind it simultaneously with encapsulation, i.e. the conclusion of the crushed material in a shell of another component. This is achieved by the fact that the vibration mill contains at least two horizontally mounted grinding pipes filled with grinding media, and a vibro drive made in the form of a carrier rigidly connected through bearing units with two eccentric shafts, on which grinding pipes are installed, and the ratio of grinding radii pipes and eccentrics is 2.2 - 2.8. This ratio of radii is due to the fact that in this case the mean free path of the grinding media during mill operation is approximately equal to half the oscillation amplitude of the carrier, which ensures that the grinding media reach their maximum kinetic energy before impacting with another ball or with the wall of the grinding tube.

 Figure 1 presents a diagram of a vibratory mill; figure 2 end view.

 The vibration mill includes grinding pipes 1 mounted on carrier 2, two eccentric shafts 3, balancers 4, bearing units 5 and 6, gearbox 7, electric motor 8, nozzles for loading 9 and unloading 10 of material, bearing plate 11.

 The design feature of the mill is that the grinding tubes are vibrated with a carrier, which is rigidly connected through the bearing units to eccentric shafts, which together with the drive act as a vibration exciter.

 When the mill is operating, the torque from the drive is transmitted to the eccentric shafts, which, rotating synchronously, cause the carrier together with the grinding tubes to oscillate along a circular path with a strictly specified amplitude, providing the desired mode of movement of the grinding media in the grinding pipes. As a result of moving along a circular path inside the tubes, an inertial force arises, which is a vector sum of centrifugal force, gravity and Coriolis force. As a result, high energy is communicated to the grinding bodies placed inside the grinding tubes, contributing to their intense impact and abrasion on the processed material. This nature of the effect leads to effective grinding and chemical activity of the processed material.

Claims (1)

 A vibration mill containing grinding pipes with loading and unloading nozzles, a vibrodrive made in the form of a carrier connected through bearings with eccentric shafts, characterized in that the ratio of the radii of the grinding pipes and eccentric shafts is 2.2 2.8.

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