SU816569A1 - Vibration-type screen band-string sieve - Google Patents

Description

(54) VIBRATION SILVER BELT-STRING SITE

The invention relates to mining textiiiKe, namely, devices for the separation of bulk materials for fineness and can be used in mining industry, in the building materials industry, with oCtorameitHM minerals and in other areas of the native economy. The string sieve is known to include a sieve surface, made in the form of strings, fixed in the m op. The reason for the lack of sieves of the said constructions is that the statistical effect of cleaning the screening surface, due to the low relative mobility of the adjacent jets. This reduces the effectiveness of the screening process on such screens. Known sieve for screening bulk materials, KOTcq; K e consists of elastic bands, equipped with periodic protrusions and fixed in stationary supports p. The disadvantage of this screen design is that in the cases it is used (I have vibrating screens as the BixixHOCTK screening screen, the elastic elements of the screen oscillate in such a way that the planes of the belts move parallel to each other during the oscillation process. The dimensions of the screen meshes are meshed The ossification is unchanged. The lack of regular periodic relative displacements of adjacent belts does not provide a high intensity of screen cleaning, which reduces the efficiency of the screening process. The purpose of the invention is to improve Sieve self-cleaning of the sieve by providing periodic antiphase rotary vibrations of adjacent belts. The goal is achieved by the fact that in the sieve for screening bulk materials consisting of elastic tapes equipped with periodic projections and fixed in supports, elastic tapes are trapezoidal in cross section, and the tapes are fixed in the supports in such a way that the trapezoidal sections of the adjacent tapes are turned with the same bases relative to each other by ISO. FIG. 1 shows the proposed sieve, top view in FIG. 2 — the tape fastening assembly in section A-A in FIG. 1 | in fig. 3 - movement pattern

tapes in section bb in fig. 1: I is the position of the belts, in the initial state; {J - the same in the extreme upper position; W is the same in the lowest position.

The tape-stringed sieve of vibrating screens consists of elastic bands 1, provided with periodic protrusions 2 and fixed in supports 3 by means of attachment units 4. The tapes 1 are installed in supports 3 with a gap e, the value of which is determined depending on the technological conditions of screening. The cross sections of the strips 1 have a trapezoidal shape. The top of the top of the protrusion is parallel to the base of the protrusion mating with the side surface of the trapezoidal tape. The tapes 1 are braced in the supports 3 in such a way that the trapezoid sections of the adjacent tapes with the same bases are rotated relative to each other by 180 .. At the same time, the centers of gravity of the cross sections of the adjacent tapes 1 are displaced with respect to the axes passing through the centers of the cross section of the sections of their 4 fasteners in opposite directions on

the amount of

Ribbon string sieve vibrating screens works as follows.

When 3 sieves are applied to the supports, periodically varying force P Р0 directed at an angle p), determined from the conditions for obtaining the maximum velocity of the vibratory displacement of the material according to the sieve, there are oscillations of the tapes 1. At the points of application of the force P to the ends of the tapes 1, 4 of their mountings. Due to the fact that the centers of gravity of cross-section of adjacent belts 1 are displaced relative to the axes passing through the centers of gravity of cross-sections of nodes 4 of their fastening in opposite directions, antiphase rotating coils arise

Lebani of adjacent tapes 1. Such oscillations of tapes 1 provide for periodic changes in the size and shape of the cells of the sieve in its longitudinal vertical plane. At the same time, the maximum changes in the shape of the sieve cells occur in the extreme upper and lower positions of the belts 1 when the transported and difficult-to-remove particles detach from the sieve surface of the sieve. It contributes. increase of efficiency and intensification, self-cleaning of the sieve, and, consequently, increase of the efficiency of the screening process.

The use of the design of the proposed string-sieve for vibrating screens allows, without any special complications of the design of the screening surface, to increase the efficiency of its self-cleaning, as well as to intensify the screening process.

Claims (2)

1. USSR author's certificate No. 435862, cl. B 07 B 1/12, 1972.. 2. USSR author's certificate No. 363290, cl. B 07 B 1/04, 1967 (prototype). i / t. one f-s 9