SU1738389A1 - Classifier - Google Patents

Abstract

The classifier can be used in the chemical and other industries. In order to increase the separation efficiency of polymeric granular materials, the classifier is equipped with a casing 6. And the input section of the supply pipe 2 of the source material is made with perforations 5 and is located in the casing 6 communicated with the housing 1 by means of a pipeline 7, the output end 8 of which is located below the baffle 4. classifier made with a device 9 for controlling the flow of exhaust gas. The material flow, containing gas, solid granules, tapes and threads, enters the pipe 2, is fed to the baffle 4, is evenly distributed over the cross section of the housing 1, is divided into light and heavy fractions discharged respectively to the upper and lower parts of the body. Part of the gas under the action of overpressure in the pipe 2 is withdrawn through the perforation of the area and is fed under the chimney 4.1 Cp. F-crystals, 1 sludge. At YO VI from 00 SA) 00 YO to

Description

The invention relates to devices for classifying polymeric granular materials which contain components in the form of tapes and threads, for example, after pneumatic conveying, and can be used in the chemical and other sectors of the industry.

When pneumatic conveying of polymer granular materials, in particular polyethylene, in the transport pipeline, the formation of tapes and threads. Small non-standard polyethylene particles move along with standard granules. Two of these factors significantly reduce the quality of the finished granular polyethylene. Therefore, devices are needed to separate the light fractions, ribbons and threads from the marketable product.

A device for separating bulk materials is known, comprising a cord with nozzles, inside of which a bump stop is installed, which faces vertically to the material supply nozzle. The apparatus is equipped with a device for the separation of light fractions from gas.

The drawback of the device is the absence of the possibility of separating the tapes and threads from the marketable pellets after the pneumatic transport due to the poor quality of separation and the possibility of driving the device for separating the light fractions from gas with threads and tapes.

The closest in technical essence to the proposed invention is a classifier, which includes a housing with a pipe for feeding the source material, the section of which with the outlet end is installed coaxially inside the housing, and the inlet section is outside the housing; , fractions located respectively in the lower and upper parts of the body, a bump stop mounted inside the body under the outlet end of the source material supply nozzle and coaxially with it.

The disadvantage of the classifier is the low separation efficiency of polymer granular materials, especially those that contain components in the form of tapes and filaments due to the uneven distribution of the flow over the cross section of the housing.

The purpose of the invention is to increase the efficiency of separation of polymer granular materials.

The goal is achieved by the fact that in the classifier, which includes a housing with a pipe for feeding the source material, the area of which with the outlet end face is set coaxially inside the housing, and the input

the section is outside the housing, branch pipes for removal of heavy and light fractions, located respectively in the lower and upper parts of the housing, a bump stop mounted inside the housing under the outlet end of the source material supply nozzle and coaxially with it, is provided with a casing, and the inlet section of the supply nozzle the source material is perforated and located in the casing communicated with the body through a pipeline, the output end of which is located below the bump stop. In the classifier, the pipeline is made with a device for controlling the flow rate of exhaust gas.

Due to the fact that the outlet section of the source material supply nozzle, provided with a casing, is made perforated, a part of gas uncontaminated by pellets, tapes and threads enters the casing through the perforation holes. Through a pipeline connected to the casing, this part of the gas is supplied under the baffle and moves upwardly. The pellets that are poured through the gap between the baffle and the walls of the body are subjected to additional purging with this part of the gas. Such a technique makes it possible to increase the separation efficiency due to double separation and more uniform distribution of the flow over the cross section of the housing. In addition, the even distribution of the flow over the cross section of the housing allows the height of the housing to be reduced, since the zone of formation of a uniformly distributed flow moving upwards is significantly reduced. Consequently, the separation of a part of the gas from the main stream and its supply under the baffle allow an increase in the efficiency of the separation of ribbons, threads and light fractions from the commodity pellets.

Thus, in the classifier, two stages of separation are clearly expressed, moreover in the countercurrent of phases. The first stage is carried out above the baffle, where the material enters along with the gas, the second is in the gap between the baffle and the walls of the body.

The drawing schematically shows a classifier, a section.

The classifier consists of a housing 1 with a pipe 2 for feeding the source material and a pipe 3 for withdrawing a heavy fraction. Inside the housing 1, along the feed pipes 2, the baffle 4 is coaxially mounted. Section 5 of the feed pipe 2, which is outside the housing 1, is perforated. The perforated section 5 of the source material supply nozzle 2 is enclosed in an impermeable casing 6, which is connected to the housing 1 by a pipe 7. The output end 8 of the pipe 7 is located below the baffle 4. The pipe 7 is made with a device 9 for controlling the flow of exhaust gas. (commercial product) is supplied with a feeder 10. A branch pipe 11 is connected to the upper end of the housing 1 for draining the light fraction together with tapes and threads.

Classifier polymer granular materials works as follows.

From the pneumotransport pipeline, a separable stream containing gas, solid granules, tapes and filaments enters the pipe 2. The pipe passes through pipe 2 and is fed to a bump stop 4 having a special geometry. With the aid of the baffle 4, the flow acquires an upward movement and is evenly distributed over the cross section of the housing 1. As it moves upward, the flow velocity over the cross section of the housing is equalized. Light fractions, filaments and ribbons are picked up by gas and together with it come into the pipe 11. Large commodity granules under the force of gravity are released, the gap between the baffle 4 and the walls of the housing 1 passes and is deposited in the pipe

 3. Simultaneously with the described process, the following proceeds. In the pipe 2 because of the hydraulic resistance of the knee 12 and

the gap formed between the pipe 2 and the bump stop 4, an excessive static pressure occurs. Under the action of this pressure, a part of the gas from the flow to be separated passes through the walls of the perforated section 5, enters the casing 6 and through the pipe 7 of the AL, the nozzle 8 is fed under the baffle 4. To adjust the amount of gas, the device 9 serves. 1 has some hydraulic resistance, then the gas supplied under the baffle is evenly distributed over this gap and blows the product pellets, which settle 8 nozzle 3. Light fractions, threads and tapes are picked up by gas and tranr ported with it to the nipple

11. The only obstacle in the way of moving up the tapes and threads is the nozzle 2, but due to the streamlined shape, there is no accumulation of threads on it and

tapes. The light fraction, together with gas, ribbons and filaments, is discharged from the device through nipple 1. Pellet pellets are removed from nozzle 3 by a feeder 10.

Thus, by filing part

gas under the bump in the gap between the bump and the walls of the body is an additional cleaning of commercial pellets from light fractions, tapes and filaments, i.e. separation efficiency is enhanced. The best

gas distribution over the cross section of the hull reduces the height of the ejection of pellets from the bump stop, which makes it possible to reduce the size and material consumption of the classifier.

The use of the proposed classifier in the industry makes it possible to increase the efficiency of separation and the quality of the commercial product, to reduce the consumption of materials due to a more even distribution of the flow over the cross section of the housing.

Claims (2)

1. Classifier, which includes a housing with a pipe for feeding the source material, the area of which, with the outlet end is installed coaxially inside the housing, and the inlet section outside the housing, branch pipes for discharge of heavy and light fractions, located respectively in the lower and upper parts of the body, a baffle installed inside the body under the outlet end of the source material supply nozzle and coaxially with it, characterized in that, in order to increase the separation efficiency of polymer granular materials, the classifier is provided with a casing, and the input part of the source material supply nozzle is perforated and located in casing, 1 communicated with the case through the pipeline, the output end of which is located below the bump stop. 2. The classifier according to claim 1, that is, that the pipeline is made with a device for controlling the flow of by-pass gas.