SU1766687A1 - Various density material separation device - Google Patents

Description

one

(21) 4794016/05 (22) 02.23.90 (46) 07.10.92. Bul Ms 37

(71) Kharkiv Special Design and Technological Bureau Mashpriborplastik

(72) A.M. Yakubov, V.N.Ovsienko, I.P.Neelov, V.E. Zemlitsky and B.G.Polov

(56) 1. USSR author's certificate Ns 1472125, cl. B 03 B 5/62, 1987.

2. USSR author's certificate number 1500369, cl. B 03 B 7/00, 1987. (54) DEVICE FOR SEPARATION OF MATERIALS OF VARIOUS DENSITY

(57) Use: production of plastic products and their waste in devices for separating a mixture of thermoplastics. Essence: the device is equipped with a frame with a valve. The tank is equipped with a latch, dividing walls, horizontal and vertical activators. Capacity is made with a bend along the bottom. The bottom is made in the form of a cylindrical channel with a section open from the side of the loading hopper in the upper part. The working body is made in the form of the main flexible helix and is placed in the channel. The length of the open section of the channel is chosen equal to 2-10 diameters of the main flexible helix. The device for unloading pop-up components is made in the form of an additional flexible spiral and is placed at the discharge funnel. The tank is connected to the frame by means of a hinge on the side of the loading bunker and by means of an elastic suspension on the side of the discharge funnel. The latch is connected to the valve, the tank housing is equipped with a camera with a ball valve and a float and overflow device. 2 з, п, ф-л, 1 tab., 4 Il.

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The invention relates to the production and processing of polymeric materials or their waste and can be used to obtain plastic products and their waste.

The known separator bath, containing the material separation section, the unloading section of sinking components with vertical partitions installed between them, two transport separating augers and the unloading auger of pop-up components are placed in the material separation section; a horizontal auger and unloading auger with drives 1 .

The disadvantages of the known device are the need to use

large volumes of separating medium and large energy consumption due to the large number of drives, different types of augers.

The closest to the invention in its technical essence and the effect achieved is a device for separating materials of different densities, containing a separating capacity installed on the frame, a material loading mechanism under the surface of the separating medium, transporting the unloading sinking components to a basic hopper the drive and the discharge funnel and the device for unloading pop-up components connected to the auxiliary drive 2.

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The disadvantages of the known device are the necessity to use large volumes of the separating medium and high energy consumption due to the large number of drives of different types of augers.

The purpose of the invention is to reduce energy consumption and reduce the volume of the separation medium during the separation of a mixture of thermoplastics.

The goal is achieved by the fact that the frame is equipped with a hydraulic distributor installed on the side of the discharge funnel, the container is equipped with a fixture placed on its body and placed inside dividing partitions and horizontal activators connected to an individual drive, and bent along the bottom, made in the form of a cylindrical channel, open from the side of the hopper in the upper part of the area, while the working body is made in the form of the main flexible helix, placed in a cylindrical The open channel of which is selected from another to ten diameters of the flexible helix, and the device for unloading pop-up components is chosen as an additional flexible helix placed on the side of the unloading spindle; additional flexible helix and horizontal activators are located in the upper part of the tank, and their central axes are perpendicular to the central channel, the tank being connected to the frame by a hinge on the side of the hopper and by means of an elastic suspension on the side of the outlet funnel, and the lock is connected to the hydraulic distributor.

The bending radius of the bottom of the tank is chosen from ten to fifteen diameters of the main flexible helix. The tank body is equipped with a tank-connected chamber with a ball-tap and a float, and an overflow device. The container is also provided with vertical activators placed between horizontal activators and connected to an individual drive through a flexible connection.

Figure 1 shows the device, a general view; figure 2 is the same, top view; Fig 3 is a diagram of bath parameters; figure 4 - section along the bottom of the bath.

A device for separating materials of different densities contains a separating tank 2 installed on frame 1 with separating medium in which is placed the mechanism for loading materials under the surface of the separating medium, transporting and unloading the sinking components, which contains the hopper 3 working

an organ made in the form of a main flexible helix 4 connected to the main drive 5 and a discharge funnel 6. In the vessel 2 there is also a tool for unloading pop-up components made in the form of an additional flexible helix 7 connected to an additional drive 8 and receiver of the pop-up components (not shown).

An additional flexible helix 7 is placed at the discharge funnel 6. In addition, the container 2 is equipped with dividing walls 9 placed inside it, horizontal activators 10 connected to an individual drive 11, and vertical activators 12 that are placed between the horizontal activators 10 11 through flexible

connection 13. The tank 2 is made with a bend along the bottom, which is made in the form of a cylindrical channel 14 with the section 15 open from the side of the hopper 3 in the upper part. The main flexible helix 4 is placed in the cylindrical channel 14, the length of the open section of which is 2 10 with the diameter of the main flexible helix 4, and the upper edge of the section 15 is placed on the side of the hopper 3 at a depth Hh from the surface of the separating medium chosen equal to 2-5 times the diameter of the main flexible helix 4. The bend radius of the bottom of the tank 2 is equal to 10 ... 15 di the main flexible helix 4 meters. At the same time, the spiral 7 and horizontal activators 10 are placed in the upper part of the tank 2, and their central axes are perpendicular to the central channel 14. Moreover, the frame 1 is equipped with a valve 6 installed on the side of the discharge funnel 6 and the tank 2 - with a retainer 17 placed on its case, with Ztom, the container 2 is connected to the frame 1 by means of a hinge 18 from the side of the hopper 3 and by means of an elastic suspension 19 from the side of the discharge funnel 6, and the retainer 17 is connected n with the control valve 16. The container body 2 is also provided with a camera 20 with a ball-cock 21 and the float 22, an overflow device 23 and a hose 24.

The device works as follows. In the hopper 3 serves pre-crushed mixture of thermoplastics, which captures the main

helix 4 is flexible, draws into cylindrical channel 14 and floods beneath the surface of the separating medium to a depth Hh 2 ... 5 of the diameters of the main flexible helix

4. Horizontal activators 10 during rotation move the pop-up components along the surface of the separating medium. Vertical activators 12 provide complete destruction of the aggregates of floating particles and the pre-precipitation of sinking particles. The impurity-free floating components continuously supplied by the horizontal activators 10 are captured by an additional flexible helix 7 and discharged to the receiver of the floating components. The sinking components remain in the cylindrical channel 14, continue to be transported by the main flexible coil 4 and discharged through the funnel 6. A certain amount of separating medium, which can serve as a salt solution, is carried away with the particles of materials. When the mass of the separating medium becomes less than a certain size, the entire capacity of container 2 becomes easier, as a result of which the elastic suspension 19 connecting the frame 1 and the container 2 raises or lowers one edge of the container 2, while the other edge rotates around the fixed support of the joint 18, and the latch 17, by moving up or down, turns the valve of the hydraulic distributor 16 around its axis, opening or closing the flow of the separation medium from the mixer (not shown). Separating density; In the course of operation, the process is supported by the method of communicating vessels: when the density of the salt solution changes, the float 22 floats or descends. When the float 22 ascends, the supply of the solution is stopped, and when the salt solution is lowered it enters the separation tank 2. The upper level of the separation fluid is maintained in the chamber 20 by a ball valve 21,

Thus, the weight maintenance method responds to the density of the salt solution and the weight of the feed material, and the method for maintaining the density level depends only on the density of the salt volume. The use of both methods makes it possible to maintain the density of the salt volume of a container with great accuracy.

It was established experimentally that with the length of the open part 15 of the channel 14 smaller than two diameters of the main flexible helix 4, the emerging components do not have time to completely separate from the sinking and are captured by them, and with a length L greater than 10 diameters of the main flexible helix 4, the separation efficiency does not improve.

The interval of heights H of the column of separating medium of 18-22 the diameter of the main flexible helix 4 is optimal, since with a smaller height of the column the movement

The main flexible coil 4 turbulent the environment and degrades the quality of the separation, and with a larger effect is not observed.

It has also been established experimentally that when the radius R of the bend of the bottom of the container 2 is less than 10 diameters of the main flexible helix 4, there is a danger of its jamming due to the clamping of the material particles, and the bending radius greater than 15 diameters of the main

0 of the flexible helix 4 leads to an unjustified increase in the overall dimensions of the container 2. The minimum depth H-h ensuring the quality of separation is 2 times the diameter of the main flexible helix 4, while

5 with a depth H-h above 5 diameters of the main flexible helix 4, there is no further increase in the quality of separation.

Experimental studies of this device for the separation of polymer materials have shown that, compared with a device of similar purpose (prototype), it provides a higher quality of separation, lower energy consumption, and a smaller volume of separating medium.

5 and has a simpler design.

Comparative test results with a capacity of 200 kg / h are shown in the table.

The data show that

0, with equal performance, the proposed design provides 4 times less installed capacity and 6 times less volume of the separating medium, the number of drives and operating points is reduced.

Claims (4)

Claims 1. A device for separating materials of different densities, containing an separating tank installed on a frame, a material loading mechanism under the surface of a separating transportation medium and unloading sinking components containing a loading 5 bunker, a working body connected to the main drive and a discharge funnel, and a device for unloading pop-up components connected to an additional drive, characterized by 0 that, in order to reduce energy consumption and reduce the volume of the separating medium when separating a mixture of thermoplastics, the frame is equipped with a hydraulic distributor installed on the side of the discharge funnel, the capacitor 5 is equipped with a fixture placed on its body and placed inside it by separating partitions and horizontal activators connected to an individual drive, and is made with a bend along the bottom made in the form of a cylindrical channel with a section open from the side of the loading bunker in the upper part, while the working body is made in the form of a main flexible helix placed in a cylindrical channel whose open area is two to ten diameters of the main flexible helix, the device for unloading pop-up components made in the form of an additional flexible spiral placed on the side of the discharge funnel, an additional flexible spiral and horizontal activators are placed in the upper part of the tank, and their prices -sectoral axis disposed perpendicularly to the central channel, wherein the container is connected to the frame by a hinge from the hopper and through the elastic 6 8 nineteen suspension from the discharge funnel, and the latch is connected to the valve. 2. Device pop. 1, characterized by the fact that the bending radius of the bottom of the tank chosen from ten to fifteen diameters of the main flexible helix. 3. The device according to claims 1, 2, characterized in that the container body is equipped with a camera connected to the tank with a ball valve and a float and an overflow device. 4. A device according to claim 1, characterized in that the container is provided with vertical activators placed between horizontal activators and connected to an individual drive by means of a flexible connection, Fig. / 1766687 Ј ± 7 24-W 4- 21 20 II fa g. I 15