GR1009919B - Arrangement and method for the separation of polyolefin granules from light contaminants - Google Patents

Abstract

The present invention relates to the separation of polyolefin granules from light contaminants, such as dust, fibers and small pieces of packaging during their unpacking and air transport to storage silos. The arrangement of the present invention enables a productivity of the order of 8000 - 10000 kg / h, which is necessary for the smooth operation of the production process of a company having as object the storage and distribution of bulk materials and their packaging from one form to another. The operation of said arrangement is simple and safe (no need for users to come into contact with the materials under separation). Once the granules are separated by the arrangement of the present invention, they are ready for packaging.

Description

ARRANGEMENT AND METHOD FOR THE SEPARATION OF POLY-OLEFIN GRAINS AND LIGHT CONTAMINANTS

DESCRIPTION

1. Field of the art

The present invention relates to the field of separating poly-olefin granules from light contamination, such as dust, fibers and small pieces of packaging during their de-bagging and air transport to storage silos.

2. Prior art

Today, there are several such systems for separating materials and light pollution on the market, such as lightweight papers, polyester fibers, dust, etc. This is necessary, for example, in the case of recycling packages that carry labels, as well as in applications where the material must be clean and free of dust or other suspended particles. However, all these systems have been designed for small productivity e.g. up to 2500 kg/h. In our case, the required productivity is 8000 - 10000 kg/h. In this context, an attempt was made to develop a system that would satisfy this required productivity. A problem that arises when productivity is so high is the difficulty of separating light contaminations through such a large volume of grain. This happens because due to the large amount of grains and due to their dense free fall, not enough air passes between them, capable of entraining the contaminations to the upper part of the cyclone. The method of separation is through air transport of the material with the contamination tangentially in a cyclone and using the vortex that is created. To deal with this problem, a perforated sheet was placed inside the cyclone, the dimensions and details of which are described below, the purpose of which is, on the one hand, to slow down the grains and entrained contaminations, thus giving time to the swirling air to entrain the contamination to the upper part of the cyclone and on the other hand the flow of material with contamination is allowed to become thinner, allowing air to pass between the grains.

Brief description of the invention

The present invention describes a device which makes it possible to separate poly-olefin granules from light contaminations such as dust, fibers and small pieces of packaging which arise during the de-sacking of the granules. The grains are packed in 25 kg bags. In order to air transport the grains to a desired point, there is a special device that tears the bags and then air transports the grains. But as the bags are torn, small pieces of them are also torn, which fall with the grains, contaminating them. The arrangement of the present invention gives the possibility of productivity of the order of 8000 - 10000 kg/h, which is necessary for the orderly operation of the production process of a company whose object is the storage and handling of bulk materials and their packaging from one form to another. The handling of the device of the present invention is simple and safe, there is no need for a human to come into contact with the separated materials. And the grains that have been separated with the device of the present invention are ready for packaging.

Particularly:

The arrangement of the present invention for the separation between poly-olefin granules and small contaminations comprises in sequence:

• Grain collection bin

• At least three connecting vents to the main vent to the cyclone; One main vent to the cyclone

• A cyclone

• An air dam at the bottom outlet of the cyclone

• Contamination absorption air duct

• Absorber

· Filter bags and air duct connecting them to the hood

Preferably in this arrangement in the collection bin,

• There is perforated sheet metal

• There are suction air restriction flaps in front of the connecting air ducts with the main air duct to the cyclone

Preferably in this arrangement after the collecting bucket there are at least three air ducts connecting to the main air duct to the cyclone.

Preferably, the cyclone has a perforated plate in order to delay the free fall of the grains and contaminants and to allow time for the contaminants to be absorbed to the top of the cyclone.

Preferably, there are 32 filter bags in the filter bag system.

In this arrangement the grains fall from the bagging machine into the collection bin and are absorbed due to the vacuum created by the absorber through the three air ducts connecting to the main air duct to the cyclone. The main air duct intersects tangentially and in the upper part the cylindrical part of the cyclone. This creates swirling of the grains with the light contaminations inside the cyclone. This results in the heavy particles falling freely downwards while the light contaminations of dust, fibers and pieces of packaging are carried by the vortex to the upper part of the cyclone and are led through an air duct into the filter bag system. Contaminants are collected at the bottom of the filter bag system through suitable openings and in suitable bags. And the clean grains fall to the bottom of the cyclone where there is a big bag or octabin for packaging.

Description of the Drawings

The invention is illustrated by the following drawings, which serve as examples and not limitations.

Figure 1 shows the entire separation system.

Figure 2 shows the collection bin into which the grains with light contamination fall from the dehulling machine.

Figure 3 shows the air ducts connecting the collection bin to the main air duct to the cyclone.

Figure 4 shows the main vent to the cyclone.

Figure 5 shows the cyclone with the airfoil and the big bag support base. Figure 6 shows the air duct connecting the cyclone to the absorber.

Figure 7 shows the hood.

Figure 8 shows the air duct connecting the hood to the filter bag system and to the filter bag system.

Figure 9 shows the perforated sheet and how and where it may be positioned within the cyclone in accordance with the invention.

Detailed description of the invention

The invention is described with the following embodiment, with the following steps, with reference to the drawings, all of which should be taken as indicative and not restrictive examples.

1. Collection Bin

The collection bin, which is illustrated in Figure 2, is the space into which the grains enter by free fall from the de-shaking machine. Its purpose is to create the right conditions, i.e. the existence of air between the grains so that it is possible to absorb the grains through the vacuum created by the absorber. 17 for this purpose and in order to slow down the fall of the grains so as not to create a blockage, a perforated sheet of stainless steel 3 mm thick has been placed in the upper part of the bucket, with holes 08. In the lower part of the bucket in the openings leading to the connecting air ducts with the main vent, there are adjustable vanes that guide the grain into the connecting vents. In our case, the bin has an opening of 1000 mm x 1000 mm and a height of 1500 mm. The support base of the bucket in our case consists of suitable hollow beams which are connected to the bucket through electrical welding. Their dimensions are such as to withstand the loads and stresses that will be created during the operation of the device.

2. Air Ducts Connecting to the Main Air Duct

The connecting air channels shown in Figure 3 are intended to transport the collection bin as quickly and efficiently as possible, so that there is always air between the grains and the grains do not pile up inside the bin. They are made of stainless steel sheet and have a diameter of 0200.

3. Main Air Duct to Cyclone

The main air duct to the cyclone, which is shown in Figure 4, is intended to transport the grains together with the contaminants to the separation cyclone. It is made of stainless steel sheet, has a diameter of 0400 and is tangentially connected to the upper part of the cyclone.

4. Cyclone

The cyclone, which is illustrated in Figure 5, is the element of the system in which the separation between the granules and the light contaminants takes place. The grains with the contaminations enter tangentially in the upper part of the cyclone. Due to the geometry of the cyclone, vorticity develops inside it, which has the effect of driving the lighter contaminations to its upper part and through the air ducts and the absorber to the filter bag system. The heavier grains fall freely to the bottom of the cyclone where there is a big bag or octabin and are packed. At the bottom of the cyclone there is an air barrier, the purpose of which is to allow, on the one hand, through its rotation, the grains to fall into the big bag, but on the other hand, the bottom part of the cyclone is permanently closed so as not to disturb the aerodynamics inside the cyclone. It is made of 4 mm thick 304 stainless steel sheet. It has a diameter of 0950 and a height of 4500 mm. Inside the cyclone there is a perforated sheet, which is intended to slow down the fall of grains and contaminants, thus enabling the absorption of contaminants. After all, this is the difference of this system from the rest. The sheet has dimensions of 850 mm X 750 mm, it is made of stainless steel with a thickness of 3 mm and holes 08. At the point where the perforated sheet is located, outside the cyclone there is an access door, with dimensions of 700 mm X 500 mm, so that the perforated sheet metal in case of change of material or color.

5. Duct between Cyclone and Absorber

The air duct connecting the cyclone and the absorber is shown in Figure 6. Its purpose is to allow the absorption of light contamination from the top of the cyclone. It is made of stainless steel sheet and has a diameter of D500.

6. Absorber

The absorber is shown in Figure 7. Its purpose is to create absorption and the movement of grains and contaminants throughout the system from the collection bin to the movement of contaminants into the filter bag system. It is made of 304 stainless steel, and the power is transmitted via a belt from a 25 HP electric motor.

7. The Air Duct That Connects the Absorber to the Filter Bag System and the Filter Bag System

The air duct connecting the hood to the filter bag system as well as the filter bag system is shown in Figure 8. The purpose of the air duct is to transport contaminants to the filter bag system. The filter bag system is designed to relieve the air pressure through an array of filter bags, and to allow contamination to be collected through two funnels, to which disposal bags are attached. The air duct is made of stainless steel sheet and has a diameter of 0350. The filter bag system consists of an array of 8 X 4 filter bags of diameter 0200 made of a special fabric that allows the air pressure to be relieved and at the same time allows it to be filtered. It is entirely made of galvanized sheet metal.

8. Big Bag Support Base

The support base of the big bag shown in Figure 5 is the base on which the big bag is placed on the four hooks and its upper neck is applied to a special connection arrangement with the lower part of the air barrier. It is also a support base for the cyclone which is placed on top of it. It is made in our case from hollow beams of dimensions 100 mm X 55 mm and thickness 5.5 mm made of steel and connected to each other by electrical welding. In addition, it has such dimensions to be able to withstand the loads and stresses that will be created by the operation of the system.

9. Control Panel

The device of the present invention can have a control panel, preferably at a central monitoring point of the separation system and inside it is an electrical circuit. Externally there are all the necessary switches for the operation and above all for the safety of the operators.

Maintenance - Cleaning

The entire separation system of the present invention has no special maintenance or cleaning requirements. In the event that no changes are made to the type of material or color, there is no need for any cleaning within the system. Otherwise, cleaning is done in the collection bin in an easy way since it is open from above and all its elements are screwed and not glued or electrowelded. Also in the separation cyclone there is an access port, which is fixed on the cyclone with screws. In this way there is access for cleaning the perforated sheet metal and possible grains that have remained there.

Claims (8)

1. A device for the separation between poly-olefin granules and light contaminations comprising in sequence: • Grain collection bin · main vent to the cyclone • cyclone • air dam at the bottom outlet of the cyclone • air duct for absorption of contamination • hood · filter bags and air duct connecting them to the hood which arrangement is characterized in that the collection bin includes • perforated sheet metal, which is in a vertical or lateral position in relation to the walls of the collection bin, • intake air restriction fins in front of the air ducts connecting to the main air duct to the cyclone 2. Arrangement according to claim 1, where at the point where the perforated sheet is located, outside the cyclone there is an access door, which allows the perforated sheet to be cleaned. 3. A device according to each of claims 1 and 2, which after the collection bin includes at least three air ducts connecting to the main air duct to the cyclone. 4. A device according to any one of claims 1 to 3, wherein there are 32 filter bags in the filter bag system. 5. An arrangement according to any one of claims 1 to 4, wherein the main air duct intersects tangentially and at the top the cylindrical part of the cyclone. 6. An arrangement according to any one of claims 1 to 5, wherein the contaminants are collected at the bottom of the filter bag system through suitable openings and into suitable bags, and the clean granules fall ready for packaging to the bottom of the cyclone where there is a big bag or octabin to package. 7. Arrangement according to each of the claims 1 to 6, in a size that gives the possibility of productivity of the order of 8000 - 10000 kg/h and it becomes possible that the contact of persons with the separated materials is not necessary. 8. A method for the separation between poly-olefin granules and light contamination comprising the following steps: • Introduction of the material to be separated into a collection bin, • Air intake with at least three air ducts connecting to the main air duct to the cyclone, • Transport of the grains together with the contaminations with a main air duct to the separation cyclone, • Air dam that rotates at the bottom outlet of the cyclone, • Air duct between cyclone and absorber to absorb contamination • Absorber • Filter bags and air duct connecting them to the hood • Collection of contamination at the bottom of the filter bags which method is characterized by the fact that - the collection bin has been fitted with a perforated sheet that slows down the fall of grains and contamination and - there are suction air restriction flaps in front of the air ducts connecting to the main air duct to the cyclone.