UA53971A - Centrifugal vibration granulator - Google Patents

Abstract

The invention relates to the granulation equipment, in particular to the granulation of mineral fertilizers. Centrifugal vibration granulator contains a perforated casing in the form of reverse cone coaxially fastened on the rotating hollow shaft, a device for supply of the melt with a previous distributor, a vibrator. Inside the casing, coaxially relative to the shaft the distributor of melt is mounted as a reverse cone with perforated lateral surface, inside of which perforated blades are mounted. Between the casing of granulator and distributor the equalizer of velocity of flow is located. The transversal profile of blades has the form of arc, the concave side of which at rotation of casing of granulator is front one. On side surface of casing of granulator spherical small holes with one opening in every small hole are made. Openings in different small holes are performed at different angles with the vectors of angular velocities of movement of openings.

Description

Description of the invention

The invention relates to the granulation (pouring) of melts, in particular, to the granulation of mineral fertilizers.

A known centrifugal granulator containing a perforated body having the shape of an inverted cone, coaxially rigidly fixed on a rotating shaft with its lower part and equipped with a device for feeding the melt into the body, while the holes in the body are made at different angles (see company information

Ziyes Midi, Italy, site m/mlu.zipi.y, 06.03.02). However, when using this centrifugal granulator 70, the final product at the exit from the granulation tower has a non-uniform granulometric composition.

A centrifugal granulator is also known, containing a perforated body having the shape of an inverted cone, coaxially rigidly fixed on a hollow rotating shaft with its lower part and equipped with a device with a preliminary distributor for feeding the melt into the body. The holes in the case are made in different directions from the top to the bottom of the case (see information from the company OKEA SAZAGE 5.A., Lugano, Switzerland, 12 1994). Due to the fact that the holes in the housing are made in different directions from the top to the bottom of the housing, the pellets in the granulation tower move along different trajectories (long trajectories - from the holes located in the upper part of the housing, short trajectories - from the holes located in the lower part of the housing) there is a uniform irrigation of the cross-section of the granulation tower with pellets, which leads to an improvement in the cooling of pellets when they fall in the granulation tower and a reduction in the amount of dust.

This analog is the closest in technical essence to the proposed invention and is accepted as a prototype.

It should be noted that during the spontaneous (irregular) breakup of the jets flowing out of the openings of the granulator body, files of different diameters are formed, the trajectories of which cross each other, which leads to the merging and grinding of the initial drops, as a result of which the poured product has a non-uniform appearance at the exit from the granulation tower granulometric composition (fraction 2-4 mm from 1495 to 7095, fraction less than 1 mm from 1.5 to 2.096). 22 The efficiency of cooling in a tower with an inhomogeneous granulometric composition is lower than with a tower with the same diameter. In addition, in the conical case, it is impossible to make holes at angles close to the direction of the circumferential velocity vectors of the holes (the range of changing the directions of the holes is less than 180"), which does not allow for uniform irrigation of the granulation tower over the entire cross section.

The invention is based on the task of improving the centrifugal granulator, which would ensure -- 30 obtaining melt droplets of the same size (adjective) due to the imposition of vibrational oscillations on the melt streams flowing from the openings of the centrifugal granulator body and a more uniform distribution of the resulting drops (adjective) along the cross-section of the granulation tower due to the increase in the range of changes in the direction of the holes in the granulator body, while obtaining a homogeneous granulometric composition of the poured product and increasing the cooling efficiency of the pour in the granulation tower.

The problem is solved by the fact that in the centrifugal granulator, which contains a perforated housing, which has the shape of an inverted cone, coaxially fixed on a hollow rotating shaft, a device for feeding the melt with a preliminary distributor, according to the invention, a vibrator is installed on the bottom of the granulator housing as follows , that the direction of vibration coincides with the plane perpendicular to the axis of rotation of the granulator body and the granulator body is connected by its upper part through a flexible element to the shaft, and Z 70 inside the body, coaxially with the shaft, a melt distributor rigidly connected to the shaft is installed in the form of an inverted cone with perforated side surface, inside which perforated vanes are installed, and between the granulator body and the distributor, also coaxially with the shaft, a flow speed equalizer is placed, made in the form of a blade wheel rigidly connected to the shaft, the blades of which are located parallel to the granulator body forming the body in direct and close to its inner surface, and the transverse profile 45 of the blades has the shape of an arc, the concave side of which is the front during rotation of the granulator body, and on the i-th side surface of the granulator body, spherical holes are made convex relative to the outer surface of the granulator body with one hole in each holes, the axis of which is located normal to the surface of the hole and lies in a plane perpendicular to the axis of rotation of the granulator body, and the holes in the different holes are made at different angles to the vectors of the circumferential speeds of the holes. -I 20 Installation of the vibrator on the bottom of the body of the centrifugal granulator makes it possible to impose mechanical disturbances through the body of the granulator with a frequency equal to the vibration frequency of the vibrator on the melt jet, which

They flow from the openings of the granulator body, which leads to the disintegration of the melt jets into drops (dribbles) of the same size.

Installing the vibrator on the bottom of the granulator body in such a way that the direction of vibration coincides with the plane perpendicular to the axis of rotation of the granulator body is the most energetically beneficial, which makes it possible to the most complete use of the power of the vibrator to ensure the disintegration of the melt jets into drops of the same size over the entire surface of the granulator body in a wide range of vibration frequencies of the vibrator (100-1000 Hz).

The granulator body is connected to the shaft through a flexible element to prevent the transmission 60 of vibration created by the vibrator to the shaft, as well as the transmission of vibration created by the rotation drive of the granulator body and shaft bearings to the granulator body, which prevents the imposition of parasitic vibrations on the granulator body, which precludes obtaining drops (adj) of unequal size.

The melt distributor, which has the form of an inverted cone with a perforated side surface, inside which there are perforated blades, is installed inside the granulator body and is rigidly connected to the shaft, because it ensures uniform supply of the melt to the openings of the granulator body along its height and prevents the flow of the melt along the forming body granulator, which achieves the entrance of the melt into the openings of the granulator body without slipping in a plane parallel to the axis of rotation of the granulator body.

The flow rate equalizer, which is a vane wheel, the vanes of which are located parallel to the generating cone of the granulator body, and the transverse profile of the vanes has the shape of an arc, the concave side of which is the front when the granulator body rotates, is installed between the inner surface of the granulator body and the outer surface of the distributor and rigidly with connected to the shaft, ensures, due to the addition of the speeds of translational movement of the melt along the blades and the circumferential speed of the movement of the blades, the equalization of the speed of the melt and the circumferential speed of the inner surface of the granulator body, thus achieving the entrance of the melt into the openings of the granulator body without slipping in a plane perpendicular to the axis of rotation of the granulator body .

The entrance of the melt into the openings of the granulator housing without sliding relative to these openings allows the formation of laminar and symmetrical jets of melt flowing from the openings of the granulator housing, which is a necessary condition for obtaining drops of the same size (adj).

Execution on the side surface of the granulator body of spherical wells convex in relation to the outer surface of the granulator body, with a hole in each well, the axis of which is located normal to the surface of the well and lies in a plane perpendicular to the axis of rotation of the granulator body, and in different wells the axes of the holes are located at different angles to the vectors circular velocities of the holes (from 0" in the upper part of the granulator body to 1807 in the lower part of the granulator body), helps to obtain drops of the same size (adj) and allows you to expand the irrigation area and achieve a more uniform irrigation density of the cross section of the granulation tower, and thereby to increase the cooling efficiency of the pellet in the granulation tower.

Thus, the use of all essential features of the device, including distinctive ones, allows during the operation of this granulator to significantly improve the granulometric composition of the received slag, to improve the cooling efficiency of slag in the granulation towers.

The essence of the invention is explained by the drawings, where figure 1 shows the proposed granulator in section; Figure 2 shows a section along A-A of Fig. 1; Figure C shows an enlarged section of the spherical holes in the upper, intermediate and lower parts of the granulator body. Notation in figure 3: Mvyt - speed of flow of melt relative to the body of the granulator, Mokr - circumferential speed of movement of holes, Mabs - absolute initial speed of flight of a drop of melt. The offered granulator has a body 1 (Fig. 1, 2), which has the shape of an inverted cone coaxially fixed on a hollow rotating shaft 2, a device C with a preliminary distributor 4 located in the lower part - for feeding the melt into the body 1 of the granulator. Inside the housing 1 of the granulator, on the shaft 2, a distributor 5 of the melt would be installed in the form of a reverse perforated cone with vanes located inside.

Between the housing 1 of the granulator and the distributor 5, a flow rate equalizer b is coaxially located.

The housing 1 of the granulator is connected to the shaft 2 by means of a flange connection 7, a flexible element 8 is installed between the flange connection 7 and the housing 1 of the granulator. A vibrator 9 is installed on the bottom of the housing 1 of the granulator in such a way that the direction of the vibration created by it coincides with the plane perpendicular to the axis of rotation of the body 1 of the granulator. Spherical holes "40.10" with hole 11 in each hole are made on the side surface of the granulator body 1 (Fig. 2, 3). The holes 11 are made in such a way that their axes normal to the surfaces of the holes 10 pt") with lie in planes perpendicular to the axis of rotation of the body 1 of the granulator. In addition, the axis of holes 11 in different . holes 10 have a different angle of inclination to the vectors of circumferential speeds of movement of holes 11 (from 0" in the upper part of the granulator body to 180" in the lower part of the granulator body).

The granulator works like this. The melt is fed through the device C and flows out through the holes of the previous distributor 4. Next, the melt enters the distributor 5, from which, in the form of a flow distributed evenly along the height of the distributor 5, it enters through the flow rate equalizer b into the holes 10 made on the side surface of the body 1 of the granulator and flows out of them through the holes 11 in the form of laminar axisymmetric jets, which, under the action of mechanical oscillations (vibrations) of the body 1 of the granulator, created by the vibrator 9, break up into drops

Ge) (adverbs) of the same size. The flexible element 8 prevents the transmission of the vibration created by the vibrator 9 to the shaft 5r 2, as well as the transmission of the vibration created by the rotation drive of the fanulator body 1 and the bearings of the shaft 2 to

Sh- housing 1 fanulator. Due to the fact that the holes 11 in different wells 10 are made at different angles to the vectors as circumferential speeds of movement of the holes, and the range of angle changes is increased to 180" (from 0" in the upper part of the housing 1 of the granulator to 180" in the lower part of the housing 1 of the fanulator ) more uniform irrigation of the cross-section of the granulation tower occurs.

The use of the proposed design of the centrifugal vibrating fan provides the following advantages in comparison with the existing centrifugal granulators:

P" - improvement of the granulometric composition of the molded product due to the regular breakdown of the melt jets flowing from the holes of the fanulator body, as a result of the imposition of mechanical oscillations (vibrations) on them, created by the vibrator installed on the bottom of the fanulator body; in - increasing the cooling efficiency of the slurry in the granulation tower due to uniform irrigation of the cross-section of the tower with slurry.

Claims (1)

The formula of the invention is b5, sho, dosh, and Viddentra vibrating granulator, containing a perforated body in the form of an inverted cone, coaxially fixed on a rotating hollow shaft, a device for feeding the melt with a preliminary distributor, which is characterized by the fact that a vibrator is installed on the bottom of the granulator body in such a way that the direction of vibration coincides with a plane perpendicular to the axis of rotation of the granulator body, and the granulator body is connected by its upper partly through a flexible element with a shaft, and a melt distributor rigidly connected to the shaft in the form of an inverted cone with a perforated side surface, inside which perforated vanes are installed, is installed coaxially with the shaft inside the housing, a flow rate equalizer is placed between the granulator housing and the distributor also coaxially with the shaft, made in the form of a vane wheel rigidly connected to the shaft, the vanes of which are located parallel to the generating body of the granulator in the immediate vicinity of its inner surface, and the transverse profile of the vanes has the shape of an arc, the concave side of which during rotation of the body of granulate ora is the front one, spherical wells are made on the side surface of the granulator body, convex relative to the outer surface of the granulator body with one hole in each well, the axis of which is located normal to the surface of the well and lies in a plane perpendicular to the axis of rotation of the granulator body, and the holes in the different wells are made at different angles up to /5 vectors of circumferential speeds of movement of holes. « «- in (o) (ze) and in) - and? 1 (95) se) - and - 60 b5