SU1473848A1 - Laboratory vibratory mill - Google Patents

Abstract

The invention relates to the grinding, grinding of ores, materials by means of a laboratory vibrating mill in the mining, chemical and other fields. The goal is to increase productivity. The grinding body / MT / with its side spherical catfish rolls mainly in the horizontal plane the side spherical with the grinding chamber of the PC. The MT is made with a through vertical hole / SVO /, the PC is equipped with a hemispherical perforated partition and lid installed above the MT, through which the raw material feed nozzle and the medium pneumatic discharge medium are introduced coaxially into the CBO. The bottom of the PC is made with a conical central projection upward, toroidally mating with its spherical rim, and the base of the MT is made with toroidal mating of the surfaces of its spherical belt and the mouth of the ITS. The raw material from the loading nozzle is poured through the CBO into the area of the PC protrusion, is preliminarily crushed and passes through the toroidal cavity into the run-in area. The product is blown through the partition into the discharge cavity. 1 il. 1 sec. 1 hp f-ly.

Description

one

The invention relates to the fine grinding of ores, rocks, materials, namely, vibratory mills, mainly for laboratory purposes, and can be used in the mining, chemical, construction, food and other industries.

The purpose of the invention is to increase the productivity of the vibrating mill.

The drawing shows the structural scheme of the proposed :, vibromills, vertical section. Building 1 of the mill with grinding chamber 2, ring discharge

the channel 3 and the opening 4 is supported by the springs 5 on the supporting structure 6. The grinding body 7 with a through hole 8, laid at rest with its base on the bottom of the chamber, is freely placed in the chamber 2.

Under the camera in the housing 1, a vibration exciter is mounted with a drive shaft 9, unbalance 10 and engine 11. Through the concentrically mounted cover 12 and perforated partition 13, coaxially arranged connections 14 and 15 are inserted into the through hole 8

WITH

oo

four.

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ki raw materials and feed medium pneumatic discharge of the product.

The bottom of the chamber 2 and the base of the grinding body 7 are made with mutually in contact toroidal bearings 16 themselves, which on the outer side mate respectively with the spherical cameras and the grinding body themselves, and with the inner side — with the surfaces of the chamber conical protrusion 17 and the mouth of the hole 8, forming the cavity 18 of the head, centrifugal distribution and pre-grinding of the raw material. The pipe 15 is connected by a hose 19 with a pneumatic system, and the pipe 4 - with the receiver 20 of the product.

In the process of operation of the mill, the body 1, as a result of the rotation of the unbalance 10, makes hydration oscillations in which the grinding body with its spherical catfish rolls around the spherical camera from the chamber. The raw material from the nozzle 14 is poured into the hole 8 on the protrusion 17. In the running-in mode, the grinding body rises and a gap is formed between the toroidal bodies 16 themselves, into which the particles that have been crushed in the cavity 18 fall. The final grinding takes place in the running-in zone between the spherical ones themselves. Cyclical and continuous modes of operation of the mill and the supply of a medium for pneumatic discharge, mainly air, are possible.

By adjusting the air flow rate in continuous mode, the technological parameters of the mill are controlled. Performing the grinding zone with a cone and toroidal ones, as well as supplying the pneumatic discharge medium, increase the technical and operational productivity of the mill.

Claims (2)

1. Laboratory vibratory mill, containing the body, lid, perforated partition, loading nozzle and made with a spherical grinding chamber and grinding body, into the through hole of which A pipe is inserted through the lid and partition from above, characterized in that, in order to increase productivity, the bottom of the chamber is made with a toroidal mating with its spherical conical protrusion upwards to the nozzle, and the base of the grinding body is made with toroidal matching of its surfaces spherical sa 0 through hole. 2. The vibratory mill according to claim 1, characterized in that it is provided with a product unloading pnummy introduced into the through-hole of the coaxial supply pipe of the medium. nineteen