RU768060C - Circular piston jigging machine - Google Patents

Description

The invention relates to an enrichment technique and can be used in the enrichment of minerals, mainly of small classes.

The aim of the invention is to reduce. the specific energy consumption of the machine by reducing the initial daylen and the amount of air consumed, which is achieved by the location of the air pulsator in the center of the machine along its vertical axis.

Figure 1 shows a round besporshnevoy jigging machine; figure 2 - section A-Anafig; 1; figure 3-section bB in figure 1.

The machine consists of a cylindrical housing 1, a horizontal partition 2 with vertical nozzles 3, a worker, a sieve 4, an inner cylinder 5, an air pulsator 6, an air supply pipe 7, a pulsator drive 8, unloading devices 9, a tail chute 10, a protective cone 11 The partition 2 divides the machine body into a working (upper) and an air (lower) compartment. The air pulsator consists of a housing mounted on the inner cylinder 5, and a rotor 12, made in the form of a disk and receiving rotation

from drive B. The pulsator case has an internal 13 and an external 14 cavity, respectively connected to the air supply pipe 7 and the atmosphere. At the upper end of the pulsator case there are several pairs of windows uniformly spaced around the circumference, having a DO output of an internal or external cavity of the case. The rotor 12, tapering to the upper end of the housing, has the same windows, the number of which D is higher than that in the pulsator housing. Through these windows and the annular gap 15 of the cavity 13 and 14 of the pulsator body are able to alternately connect with the air compartment of the machine.

Maij.uifia works as follows.

The initial g1 material flows through the pipe to the center of the machine on the protective cone 11, from which the material flows onto the sieve 4 and is distributed along it, moving radially to the periphery. At the same time, under the horizontal partition 2, a pulsating supply of compressed air is carried out using the pulsator 6 into the air compartment, under the influence of which water flowing through the nozzles 3 creates pulsating ascending

And downward flows dividing the processed material by density. The heavy fraction passes through the sieve and is removed from the housing through the discharge devices 9, the light fraction is removed and. machines through the host chute 10. Due to the uniform distribution of the nozzles 3 relative to the area of the sieve, the water vibrations in them are converted into a uniform pulsating flow above the sieve, which creates favorable conditions for the effective separation of the material. Uniform distribution around the circle

windows pulsator provides uniform pacnpt. separation in the air compartment of compressed air, irro also contributes to the uniformity of pulsations of water under the sieve.

The swelling of the air pulsator in the center of the machine 3 times reduces the path and time of air passage from the pulsator to the most remote section of the air compartment of the machine body, which allows to increase the working area of the machine sieve with a corresponding increase in its productivity.