SE430658B - Sieve for vibrating centrifugal separating machines - Google Patents

Abstract

A sieve for separating machines of vibrating centrifugal type is configured as a single piece in the form of a surface of rotation containing a sifting part 2, arranged for sifting of bulk material, and nonsifting end parts 1, arranged so as to fasten the sieve to the supporting elements 6 of the machine. According to the invention, the sifting part 2 consists of a plurality of partial pieces, each one in the form of a truncated cone 4, wherein the cone parts are of the same size and arranged axially in succession and joined to each other so that the smaller base of a conical part is joined to the larger base of the adjacent conical part and vice versa. Such a configuration contributes to significantly better separating properties for the sieve, when it is used in vibrating centrifugal separating machines of various kinds. <IMAGE>

Description

lm l5 20 25 30 l 35 79ü5657-8 2 It is known that the nature of the movement of the bulk material to be separated along the surface of the screen significantly affects the efficiency of the screen. The separation efficiency in this case is preferably determined by two important factors, firstly the intensity with which fine particles are screened through the meshes of the screen, and partly the intensity of the movement of these particles towards the screen surface from the deep-lying areas of the bulk material layer. on the surface of the screen. The intensity of the screening of particles through the meshes of the screen depends, for example, on the relative velocity of the particles along the surface of the screen, while the intensity of the movement of fine particles towards the surface of the screen from the deep layers of the layer preferably depends on the degree of loosening of the layer.

The speed of movement of the bulk material layer along the surface of the screen depends, for example, on the frequency of the oscillations of the screen, which at the same time cause the layer of bulk material to loosen. When the screen oscillation frequency is higher than the fixed cut-off frequency, the fine particles are less intense. speed of motion, which increase in speed results in a reduction in the probability that the particles end up in the meshes of the screen. At the same time, the layer is loosened more intensively, which promotes a more intensive movement of fine particles in the direction from the deep-lying areas of the layer towards the surface of the screen.

If the screening intensity of the particles was not reduced in this case, the efficiency of the screen would increase with increasing oscillation frequency or amplitude of the screen more considerably than is achieved with the known screens.

The effort to increase the efficiency of the known sieves by intensifying the oscillation conditions of the sieves therefore preferably leads to an undesirable increase in the speed of movement of the particles and a decrease in the sieving intensity of the particles. 79-05657-8 3 Repeated attempts to intensify the loosening of the grain layer at a caution of fine particles favorable oscillation frequency of the sieves by arranging at the surface of the sieving part of the sieves with tags with varying height, projections, rods or the like do not contribute to achieving anything. significant result without com- Wíß endast t fl f only the construction of the screens and leads to a reduction in the number of screen meshes in the screens.

An object of the present invention is to simultaneously increase the efficiency and service life of the screen.

The main object of the invention is to provide such a screen for shake centrifugal separating machines for cleaning and / or sorting of bulk material, in which the separation intensity for bulk material can be increased by suitable design of the screen separating surface, at the same time as the screen life increases.

This is achieved by means of a screen for separating machines of the shaking centrifuge type, which is made in one piece in the form of a rotating surface comprising a screening part, arranged for screening bulk material, and non-screening end portions, arranged to attach the screen to the supporting elements of the machine. wherein according to the invention the sifting part consists of a plurality of sub-portions, each in the form of a truncated cone, the condoms being of the same size and arranged axially one after the other and connected to each other so that a smaller base of a condel is connected to adjacent base larger base and vice versa.

Such a design of the screen surface contributes to the layer of bulk material loosening much more intensively, which intensifies the movement of fine particles in direction from the deep-lying areas of the layer towards the surface of the screen and at the same time increases the rigidity of the screen wall.

It is suitable that each condenser has its larger base facing the flow direction of the material to be separated, the direction of movement of the material being opposite to said base. i r9fø, as.s 7- ß iü 15 20 25 30 phase 4 _ This results in a more intensive screening of the particles of abdominal material through the meshes of the screen.

It is further agreed that the length of each truncated cone is a few times greater than the step height of the surface of the sifting die, the step height being the slope with the radius of the larger base of the cone and the radius of the smaller base of the cone.

Siutiigen it is appropriate that the sight is divided into a fiertai portions along the generatrix for the aiming part.

The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows a perspective view of the view according to the invention for shake centrifugal separating machines, Fig. 2 schematically shows a longitudinal section through the view according to the invention, Fig. 3 schematically shows a longitudinal section through a fragment. according to the present invention provides the perforated die of the screen, with a layer of abdominal material lying on the surface of the screen, and Fig. 4 schematically shows a longitudinal section through a fragment of a perforated screen of the known screen for shaking centrifugal separating machines and a screen surface layer of abdominal material.

The screen provided by the invention for shaking centrifugal separating machines comprises a non-screening die i (Fig. I), which is intended to attach the screen to the supporting elements of the machine, and a screening die 2 intended for screening abdominal material. A generator 3 (Fig. 2) »for the surface of the screen (Fig. I) of the screen (Fig. I) is stepped. Each step 4 (Fig. 2) of the generatrix 3 (Fig. 2) has a length, Å and a height h. The portions of the surface of the screen which correspond to each step 4 of the generatris 3 (Fig. 2) are adapted to each other evenly transitions, viika - seen in longitudinal section - show roundings with a radius r.

The length of the step 4 is a few times greater than the height h. 10 15 20 25 30 35 79-956 5 7 ~ 8 5 The shape and size of hole 5 (Fig. 1) in the wall of the screen sieve dei 2 depends on the area of use of the screen. The shank 5 may, for example, be circular, rectangular, square, triangular, oval or the like. The non-sifting and sifting dies 1 and 2, respectively, can be produced from the same or different materials, for example steel or steel and pisting materials or the like.

When the screen according to the invention is used in a shaking centrifugal separating machine, it is attached to the support element (Fig. 2) of the rotor of the machine in an arbitrarily known manner, the screen being simultaneously made to perform a rotational tube travel and a reciprocating movement depending on the design of the machine at which the sight is intended to be used.

In the case of, for example, a machine with a vertical rotor, the aim is to carry out a rotational pipe travel around the pipe travel axis at the same time and a reciprocating pipe journey along the abdominal material to be separated. the inside of the screen is placed in the upper part of the screen. When the screen is brought into contact with the surface of the screen, it is caused to rotate, at the same time as an annular layer 7 (Fig. 2) is formed at the surface of the screen under the influence of the emerging centrifugal forces. The oscillating travel of the screen results in aisting inertial forces, which impart to the layer 7 of abdominal material a pulsating relative travel speed, whereby the layer 7 moves downwards along the surface of the screen at a mean velocity.

As the layer 7 of abdominal material moves from step to step 4 (Fig. 3), it is considerably deformed, whereby the layer 7 becomes thicker and the transfer of fine particles from the deep-lying areas of the layer 7 to the surface of the screen is greatly intensified. These particles are then sieved through the sheaves (meshes) 5 and glued in the machine to a separate fraction. Said raising of the layer 7 of abdominal material results in a considerable increase in the efficiency of the screen. yaoaeav-8 10 15 20 25 3D 35 6 Because the centrifugal forces appearing in the layer 7 of bulk material act relatively high pressure on the wall of the screen in the radial direction, the stepped shape of the screen wall contributes to greatly increase the radial stiffness of the wall and thereby significantly increasing the durability and service life of the screen.

In order to be able to use the screen according to the invention more conveniently for centrifugal centrifugal separation machines, the screen can be divided into several parts located along the generator 3 (Fig. 2) along the surface so that a rotating body surface is formed when these parts are joined together.

The efficiency of the screen is considerably affected by the shape and orientation of the steps 4 (Fig. 3) in relation to the direction of movement of the layer 7 of bulk material. The steps 4 must be designed and oriented so that the base surface of the rotating body formed by the steps 4 in their rotation in the form of a truncated hollow cone faces the direction of movement of the layer 7 of bulk material, which contributes to the desired reduction in the relative speed of movement. particles, which are in immediate contact with the surface of the screen, when, for example, the oscillation frequency of the screen increases, which results in an increased probability that fine particles enter the holes of the screen, so that the screening intensity of these particles becomes considerably higher.

This is because when a particle m (Fig. 3) of bulk material immediately moves along the surface of the screen under the influence of, for example, its weight P, the particle m moves not only along the center axis of the screen but also a certain distance towards the center axis. In such a particle motion, the particle m meets a further resistance from the component of the centrifugal inertia force directed along step 4, which results in the relative velocity of movement of the particle m becoming considerably lower than the average velocity V1 of the layer. Under such conditions, the particle m enters the holes of the screen and is screened considerably more often than in the known screen under otherwise equal conditions. In the known sieve, which has, for example, the shape of a vertical hollow cylinder, the particle m (Fig. 4) moves along the surface of the sieve in the direction of the longitudinal axis of the sieve, primarily under the influence of its weight P. In such a sieve, the centrifugal force is directed perpendicularly. against the generator for the surface of the cylinder, so that the particle m in the known view under otherwise equal conditions moves at a relative velocity v'o, which is higher than vo (Fig. 3). The particle motion velocity ~ v '° (Fig. 4) differs in this case very little from the average velocity velocity v'1 of the layer, which results in less loosening of the layer of bulk material and less intensive sieving of the particles.

When the generatrix for the surface of the screening part 2 of the screen proposed according to the invention (Fig. 1) is formed with step 4 (Fig. 3), the speed of movement of the particles at the surface of the layer 7 (Fig. 3) can several times exceed the speed of movement of the particles m at the surface of the screen, since the upper portions of the layer 7 move above the projections of the steps 4 and the steps 4 to a lesser extent limit the movement of the particles.

This makes the loosening of the layer 7 of bulk material even more intense and promotes a further increase in the efficiency of the screen.

In order to make the production of the screen according to the invention simpler and to standardize screens for shake centrifugal separation machines, it is suitable that the parameters h and ,, are the same for all steps 4 (Fig. 3) of the generator 3 (Fig. 2).

The screen according to the invention for shake centrifugal separating machines has the advantage that the step-shaped design of the separation surface at the same time ensures more intensive loosening of the layer of bulk material and higher rigidity of the screen. 10 759- * 3565-'7- 8 8.

The stepped design further contributes to a more intensive screening of abdominal material. The same circumstances result in a considerable increase in the efficiency and length of the sight.

It is this more efficient and intensive sieving of abdominal material which constitutes the most important advantage of the sight according to the invention.

The use of a screen according to the invention in shaking centrifugal separating machines for, for example, cleaning and / or sorting of seeds and grain materials of various kinds ensures - compared with the known view of this screen - an increase in the efficiency of the machine by 25-30% without some significant additional costs.

Claims (4)

10 l5 20 25 79056 57 ~ 8 9 PATENT REQUIREMENTS 1. A screen for shaking centrifuge-type separating machines and made in one piece in the form of a rotating surface comprising a sifting part (2), arranged for sieving of bulk material, and non-sifting end portions (1), arranged to attach the sieve to the machine supporting element (6), characterized in that the sifting part (2) consists of a plurality of sub-portions, each in the form of a truncated cone (4), the condoms being of the same size and arranged axially one after the other and connected to each other so that the smaller base of a condyle is connected to the larger base of the adjacent condyle and vice versa. A sight according to claim 1, characterized in that each condyle (4) has its larger base facing the flow direction of the material to be separated, the direction of movement of the material being opposite said base. A sight according to claims 1 and 2, characterized in that the length (Å) of each truncated cone (4) is a few times greater than the step height (h) of the surface of the sifting part (2), the step height (h) consists of the difference between the radius of the larger base of the condyle and the radius of the smaller base of the condyle. A sight according to claims 1, 2 and 3, characterized in that it is divided into a plurality of portions along the generator (3) for the aiming part (2).