SU692545A3 - Apparatus for atomizing sludges - Google Patents

Description

(54) DEVICE FOR SPILLAGE DISPENSING

I

This invention relates to the field of spraying sprays, in particular abrasive mats, for example cement slurry, clay slimes, ore concentrates or other materials.

A spraying device is known comprising a cylindrical body with a lid and a bottom. Outlets with liners 1 are made in the case grids.

The drawback of the device is the implementation of investment of non-wear-resistant material, which complicates the operation of the device with sludge, ore concentrates and other materials, i.e. causes severe wear of parts.

Another device for sludge spraying is known, which comprises a cylindrical body mounted on the drive shaft with a bottom and a clapboard and with holes in the wall in which inserts of izsovostoy material are placed, protruding beyond the inner surface of the body, reinforced on its bottom plate of wear-resistant material and a central sleeve located in the housing on the drive shaft and forming an annular cup-shaped cavity with the housing 2..

; This device is the closest to the invention in its technical essence and the achieved result.

The disadvantage of it is the strong wear of the contact points of the cylindrical elements with the crank and the bottom of the spray gun, / as a result of which the device rapidly vanishes, especially when operating at high speeds of rotation.

The aim of the invention is to improve the performance of the device. This goal is achieved in that the housing is provided with a series of spoke-like protrusions located around the circumference of the bowl-shaped cavity of the housing, with one end of each protrusion located in the zone between the outer surface of the housing and the protruding ends of the contribution.

Claims (2)

In addition, the spoke-like protrusions are located in the cup-shaped cavity with a gap in relation to the body and the plate and secured, the lenses on the inner wall of the body using Iggyreas, one end of which is placed in the protrusion and the other in the hole of the body wall and fixed by means of a flange element. FIG. 1 shows the proposed device, a vertical axial cross-section of one variant of the device; in fig. 2 is a section A-A in FIG. one; in fig. 3 and 4 are various modifications of the details of the sprayer of FIG. one; in fig. 5 is a section BB in FIG. four; in fig. b - vertical axial section of another device variant; in fig. 7 is a vertical axial cross section of a third embodiment of the device; in fig. 8 is a partial cross section in the radial plane of the fourth embodiment of the device. The device for lynching slimes comprises a drive shaft 1 passing through the central opening in the cover 2, mounted thereon a cylindrical case 3 with outlet openings 4 in the walls of the case 3, in which the insert 5, made of wear-resistant material, is placed. As shown in FIG. 1 and 2, the inner end of the inserts protrudes into the bowl-shaped cavity of the device beyond the inner surface of the housing. Between the drive shaft 1 and: the cover 2 - There is an annular gap 6 for feeding dispersed material to the spray. The device has 12 outlets. The drawings show their locations; in fig. 1 - intersection point of 7 axes of the outlet openings and the inner surface of the housing; in fig. 2 - radial lines 8 which are the axes of the heel. . The device also contains length 9 with fortified; .a ring plate 10 of wear-resistant material and the central sleeve 11, located in the housing 3 on a water shaft. 1 and forming an annular cup-shaped cavity with the body. In addition, the housing 3 is provided with {by means of spoke-shaped protrusions 12 located around the circumference of the bowl-shaped cavity of the housing, with one end of each protrusion 12 located in the zone between the inner surface of the housing 3 and the protruding ends of the liners 5, in which a layer of dispersed material is deposited . The location of the protrusions is shown in FIG. 1 shows the intersection point of the 13 axes of the projections with the inner surface of the housing; in FIG. radial lines 14, which are axes of projections. The projections 12 are attached to the housing 3 by pins 15, which are inserted into the openings 4 of the housing 3 and attached to the housing 3, and through the flanges 16, the other end of them is inserted into the corresponding axial opening in the projection 12. Projections 12, which are removed from the specimen material, are subjected only to the action of pressing forces. It should be noted that the projections 12 may be located in one or more rows, and the number of the projections 12 and the hub 4 may not coincide. However, in any case, the holes 4 and the protrusions 12 should be placed so that the device is balanced in both the static and dynamic states. The protrusions 12 in FIG. 1 and 2 are in the form of truncated cones and the cross section of each protrusion 12 is reduced in the direction to the central sleeve 11. Thus, the largest possible surface area of the protrusion 12 is achieved in a plane parallel to the axis of the device to increase the speed of rotation of the slurry bed and the smallest possible area in a plane parallel to the axis of the device, in order to reduce the degree of wear of the material, | sth 12; In addition, there are gaps between the protrusions 12 and the bottom 9, as well as between the projections 12 and the roofs 2, as a result of which the wear of these parts of the device is significantly reduced. FIG. 3 shows another method of fastening the protrusions 12 to the body 3, namely by using inpo6pK 17 inserted into the holes 4 into which the corresponding end of the threaded pin 15 is screwed; the other end of the pin 15 is inserted into the axial hole of the protrusion 12, also having the shape of a truncated cone. FIG. 4 and 5 show wedge-shaped protrusions 12, the cross-sectional areas of which are reduced towards the central sleeve 11. A wedge-shaped shape is obtained because each protrusion is limited in the axial direction of the device by inclined planes symmetrically relative to the radial plane of symmetry passing through the protrusion 12. To reduce wear as a result of the three HtVt, the wedge-shaped protrusions 12 are positioned in such a way that their widest iiacTb is located in a direction perpendicular to the direction of the device. The wedge-shaped protrusions 12 are attached to the body 3 by means of the stmrey 15 in the same manner as in FIG. 1 and 2. In addition, an element 18 may be placed around the central bushing 1 inside the atomizer, forming a guide direction for the sludge fed to the device. FIG. 6, projections 12 radially mounted in element 18 by means of pins 15 having a flange 16 at one end forming a bearing surface for the outward end of the stitch | 1 of the shoulder 12. The other end of the plugs 15 is threaded for screwing them into the holes in the cell 18. The protrusions 12 and the pins 15 are of such length that the outer ends of the protrusions 12 are located between the housing 3 and the ends of the liners 5. A device for dissolving slimes in: FIG. 7 is similar in construction to the device in FIG. 1, 2 and 6 and differs only in a significantly larger diameter. The protrusions 12, located in the radial direction, are mounted on pins x 15 fixed in the element 19, surrounding the cylindrical sleeve 11, and forming a guide surface for the liquid sludge. . -. However, the pins 15 come almost to the body 3 (gap 0.5-1 IMM) and do not have flanges 16, while the projections 12 are mounted on the pins 15 slidably over them, with the result that during operation of the device move. In addition, an additional positive effect is achieved due to the additional protrusions 12 .. These axial protrusions 12 are attached to the shingles 2 in a space that is located at a smaller distance from the cylindrical sleeve 11 than from the casing 3, by using threaded needles 15 s. flanges 16. In order to reduce wear In device 3, it is advisable to position the spikes 12 with HisKOTOpbiM in the direction opposite to the direction of rotation of the device. The device for the spraying is executed as follows. Liquid sludge is fed into the annular gap 6 between the drive shaft i and the collet 2. Then the device is rotated and the sprayed material is ejected from it through the outlet openings 4 in the housing 3. The increase in device performance can be demonstrated in the following examples. Example 1 Cement slurry, having a total solids content of 56% by weight, is sprayed with a device similar to that shown in FIG. 1, but without projections. The device has a diameter of 225 mm and 24 outlets, which are lined with conic liners protruding beyond the inner surface of the case, from the wear-resistant MatepHwa lining. At a rotational speed of the device of 6000 rpm, its maximum capacity is 19. Then the inserts in the 12 outlets x are replaced with corkamnas in which conical spoke-like protrusions 1 1 1, which are 25 mm longer than the wear-resistant liners, edge (fixed to the central sleeve) were fixed. At the same rotation speed of the device, its maximum performance is 45 m / h. EXAMPLE 2. A device similar to that shown in Fig. 1, but having a diameter of 280 mm and 24 extra holes, lined with inserts of wear-resistant, koro material protruding beyond the inner surface, is used. 6300 rpm, its maximum capacity for milling material of the same material as in example 1 is 33 m / h. Claim 1: A slurry spraying device comprising a cylindrical body mounted on a drive shaft and a lid and with holes in the wall in which there is an insert made of wear-resistant material, protruding beyond the inner surface of the housing, a plate of wear-resistant material fixed on its bottom and a central sleeve located in the frame on the drive shaft to form An annular cup-shaped cavity), distinguished by the fact that, in order to {increase the productivity of the device, the housing is provided with a series of spoke-like projections located around the circumference of the bowl-like housing cavity, with one end of each protrusion located in the zone between the inside edge; the ends of the contribution. 2. The device according to claim 1, characterized in that the spike-like protrusions are located in the cup-shaped cavity with a gap of φ relative to the body and the plate. tine. 3. The device according to claim 1, of which is that the spoke-like protrusions are fixed on the inner wall of the case with the help of the device, one end of which is placed in the protrusion and the other in the hole hull walls and fixed mediocre (| zlantsy element. Sources of information accepted in the VNIchMyo during excursion AT "1. The USSR author's certificate number 154177, cl. B 05 B 3/02, 1961. 2. The patent of the USSR N 316260, cl. B 05 B 3/02. 1971 (prototype). 1-D4