SU1119745A1 - Internal separator - Google Patents

Abstract

I. INERTIAL SEPARATOR, comprising a housing, a loading device, a working body made in the form of a rotor with mounted dividing blade discs on it, receivers of separation products, a drive characterized in that, in order to monitor the efficiency of the separation of bulk materials with different friction properties, dividing blades are made of a set of rods installed with the formation of channels, while the channels are located one under the other. 0g / city /

Description

2, The separator according to claim 1, 1, and TL, which means that the rods are fixed in sleeves, are equipped with interchangeable wedge-shaped gaskets placed between them.

3. The separator according to claim 1, about tl and the fact that the separating blades in the lower part are fixed on the disk by means of a hinge, and in the upper part by a disk ring.

. 4. A separator according to Claim 3, in that it is provided with deflectors for collecting and withdrawing fines, which are rigidly connected to separator blades.

This invention relates to a technique for separating grain and its processing product. A device for sorting fruits and vegetables is known, comprising a housing, a working member made in the form of a rotor with two plates, tapes arranged along a cone-plate forming, receivers of separation products C1. The disadvantage of this device lies in the low capacity and quality of separation. The closest to the invention to the technical essence and the achieved result is an inertial stage machine comprising a body, a loading device, a working body made in the form of a rotor with an AI disk with dividing blades mounted on it, receivers of separation products and a drive 23. A disadvantage of the known separator is that each separation paddle forms a single calibration channel with the disc. Since the number of separator blades is determined by the size of the disc, for a given separator size, its performance is limited by the number of separator blades. The purpose of the invention is to increase the efficiency of the separation process for bulk materials with various frictional properties. This goal is achieved by the fact that the separating blades are made of a set of rods, installed with the formation of channels, at which time the channels are located one under the other. The rods are secured in the cage, equipped with. Replaceable wedge-shaped gaskets placed between them. Dividing blades in the lower part are fixed on the disk with the help of a hinge, and in the upper part - with a disk ring. The separator is equipped with deflectors for collecting and withdrawing the fines, rigidly connected to the separating blades. On (J "r. 1 the inertial separator is shown, longitudinal section; Fig. 2 shows a separating blade with a device for regulating KA1 b {oval channels). The inertial separator consists of a loading device containing a feed pipe 1, a distribution cone 2, a rotor, consisting of a shaft 3, a disk 4 and separating blades 5, receivers of fractions 6 and 7 with exhaust connections 8 and 9 and a drive with an iO electric motor, pulleys 11 and 12. Each separating blade contains rods 13, wedge-shaped structures 14, a clip 15 and a screw 16. Bottom ends wallpaper 15 are hingedly connected to the disk 4, and the upper ones are fixed by the disk ring 17, which is pressed to the disk by 4 screws 18. The deflectors 19 are connected to the clips 15 for collecting and withdrawing the fines, and the radial guides 20 to the disk ring 17. The separator operates as follows The initial product through the loading device 1 enters the distribution cone 2 and moves further along the radial guides 20, acquiring, by the action of centrifugal forces, a stress of about 2–4 m / s. At the specified product delivery rate and separation paddle, a high separation rate is achieved and conditions are created to evenly distribute the product across the height of the blade due to the effect of Coriolis inertia forces. When moving a part of the product along the dividing lobes 5, they are separated according to their size through the calibration channels formed by the adjacent rods, as well as the lower rods of each blade and the disk. These particles are directed by deflectors 1 IB receiver 7 and removed from the separator through the outlet nozzles 9. Particles larger than the maximum height of the calibration channels are removed from the separator through nozzles 8. To adjust the inertial separator to work with a product of other dispersion, it is necessary to unscrew screws 16 and insert into sleeves 15 between rods I3 wedge-shaped gaskets 14 of the required size. The cross sectional profile of the rods can be of any shape — a circle, a square, a rhombus, a rectangle, and the like. If an inertial separator is developed for use on a product of constant fractional composition, the separation blades may have non-adjustable calibration channels, made for example by stamping.

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FIG. 2 The separating blades 5 with respect to the radial direction can be mounted at an angle p, set aside the angular velocity of the rotor .si, or at an angle оС, set aside in the direction opposite to the direction of rotation of the rotor. The limiting values of these angles are determined by the relations О d arc sin 4 4 ft arc ctg fi where V is the velocity of the product when it enters the separation blade; € - the coefficient of friction of the product when moving along the separation blade. Dp change the angle ft or about. The proposed inertial separator design is sufficient to loosen the screws 8 and rotate all the separating blades to the required angle, then re-clamp all the clips 16 with the locking disk ring 17 using viits is. The simplicity and accessibility of adjusting the angles of angles and) 9 is also provided by the fact that the deflectors 19 for outputting the fines fraction are attached (for example by welding) directly to the clips 15. Because of this, the angles d and can change smoothly. When separating light materials, separating blades settle at an angle ft, and when working with difficult materials, at an angle oL.

Claims (4)

I. Inertial separator, comprising a housing, a loading device, a working body made in the form of a rotor with disks with dividing blades mounted on it, receivers of separation products, a drive, characterized in that, in order to increase the efficiency of the process of separation of bulk materials with various friction properties, dividing blades are made of a set of rods installed with the formation of channels, while the channels are located under each other. 2. The separator by π. 1, which is characterized in that the rods are fixed in holders, equipped with replaceable wedge-shaped gaskets placed between them. 3. The separator by π. 1, which is characterized in that the dividing vanes in the lower part are fixed to the disk by means of a hinge. and in the upper part - a disk ring. . 4. The separator pop. 3, characterized in that it is equipped with deflectors for collecting and output of the fine fraction, rigidly connected to the dividing blades.