RU89428U1 - AIR FLOW PRODUCT ISOLATION SYSTEM - Google Patents

Abstract

1. A system for separating grinding products from the air stream, comprising at least two sequentially installed dust collecting units and a fan connected to the outlet of the last dust collecting unit, characterized in that a fan with a prechamber connected to the input of the subsequent one is installed at the output of each of the other dust collecting units dust collecting unit and having openings for suction of air from the atmosphere. ! 2. The system according to claim 1, characterized in that dampers are installed on the holes of the prechamber.

Description

The utility model relates to devices for isolating grinding products from the air stream during operation, mainly of a mine mill, as well as for purifying gases and air from solid dispersed particles.

A two-stage dust collection system is known, comprising first and second vortex dust collectors, a fan, a feed gas supply conduit connected to the upper and lower inlets of the first dust collector and tangentially introducing a separator concentrator into the vortex chamber, which is connected to the output the nozzle of the first dust collector, the axial tube of the vortex chamber of the concentrator-separator is connected to the swirl of the second dust collector, and laterally the vortex chamber branch pipe is connected to the tangential inlet pipe of the second dust collector, the axial outlet pipe of which is in communication with the fan suction pipe, while the dampers are installed on the gas supply pipelines, gate valves and a hub separator are installed in the dust outlet pipes (see Patent RU 2336953, published 27.10.10, published 27.10.10, published 27.10.10 .2008).

A disadvantage of the known system is the serial connection of two dust collecting units into one system with one fan, which does not allow separate and independent adjustment of the velocities, volumes and concentrations of dust of air flows at the inlet to the first dust collecting unit and at the entrance to the second dust collecting unit, which leads to turn to the impossibility of selecting dust particles of a given size with a given performance from the source of dust formation and the further process of effective vision drains of air discharged into the atmosphere from fine dust.

The closest analogue of the proposed utility model is a mill - a grinding complex containing a feeder with a hopper that feeds the initial product to a centrifugal mill, from where the crushed product is sent to the air classifier, and then to the group of cyclones, where the product is precipitated and unloaded and then to the filter through the transport fan associated with it (see the website http://www.uralomega.ru/stuff/meln/howwork).

The disadvantages of this complex is the low efficiency of air flow cleaning, and when using additional filtration units, the overall system performance decreases.

The technical result of the proposed device is to increase the efficiency of capture of both large and small particles from the air stream, without reducing the performance of the grinding unit as a whole.

The technical result of the utility model is achieved due to the fact that the system for extracting grinding products from the air stream contains at least two sequentially installed dust collecting units and a fan connected to the outlet of the last dust collecting unit, and a fan with a prechamber is installed at the output of each of the other dust collecting units connected to the inlet of the subsequent dust-collecting unit and having openings for suctioning air from the atmosphere.

In addition, dampers can be installed on the holes of the prechamber.

The utility model is illustrated by the drawing, which schematically shows the relationship of the elements of the system for separating grinding products from the air stream.

The system for separating grinding products from the air stream contains two dust collecting units made in the form of two cyclones 1 and 2 of large diameter, the outputs of each of which are connected to the suction fans 3 and 4, respectively, designed to select grinding products from the mine mill 5, and the fan performance 4 more performance of fan 3. Between fan 3 and cyclone 2, a prechamber 6 is installed, having a damper 7 for suctioning air from the atmosphere and connected to the inlet of cyclone 2 and exhaust 8 slaughter fan 3. In other embodiments, the system may have three or more independent pyleosaditelnyh unit which are arranged in series and separated by a prechamber 6 with individual fans, wherein pyleosaditelnyh aggregates performance may be either the same or different from each other.

The device operates as follows.

The selection of grinding products from the mine mill 5 is carried out using a fan 3 connected to the first cyclone 1, selected depending on the performance of the mill 5 and the grinding fineness. The flow of dusty air through the pipe 9 enters cyclone 1, where the primary dust is emitted by large particles, after which the dusty air passes through the exhaust pipe 8 of fan 3 into the pre-chamber 6, from where it is sucked up by the second fan 4 through cyclone 2, in which secondary dust is released, and then the cleaned air stream is released into the atmosphere through the exhaust pipe 10 of the fan 4.

Using special dampers 7 installed in the pre-chamber 6, it is possible to adjust the parameters of air flows, as well as the degree of dust concentration due to the intake of clean air from the atmosphere in actually two independent from each other circuits of the general dust collection system, consisting of two or more cyclones 1 and 2 with fans 3 and 4 associated with each of them, respectively.

Thus, due to the inclusion of a pre-chamber 6 in the general dust collection system, the air flow with fine dust in cyclone 2 can be accelerated to the speeds necessary for the use of large-diameter cyclones without affecting the parameters of air flows in cyclone 1, by opening the shutters 7 in the pre-chamber 6 for the required value, as well as reduce the concentration of dust in the air flow, thereby improving the conditions for more efficient operation of cyclones 1 and 2.

Having created a system for separating the products of grinding of a mine mill, consisting of two independent circuits interconnected by a special pre-chamber 6, it is possible to grind the clay, obtaining powder with the specified parameters of fineness, the desired performance of the entire system as a whole, without emitting fine dust into the atmosphere.

Claims (2)

1. A system for separating grinding products from the air stream, comprising at least two sequentially installed dust collecting units and a fan connected to the outlet of the last dust collecting unit, characterized in that a fan with a prechamber connected to the input of the subsequent one is installed at the output of each of the other dust collecting units dust collecting unit and having openings for suction of air from the atmosphere. 2. The system according to claim 1, characterized in that dampers are installed on the holes of the prechamber.