SU1747194A1 - Vibration cylinder screen - Google Patents

Abstract

Usage: in the technique of cleaning powders (suspensions) from finely dispersed classes, in particular, to obtain fine-grained special powder of periclase brand PPE-ZMO. The frame of the screen is made with coaxial bearing pins, and the drum with hubs, through which it is mounted on the pins x. In one of the pins there is a hole for loading the drum. The radius R of the drum, the radius R of the hub and the gap b between the pin and the hub are in the ratio R2. 4 or 1 tab.

Description

The invention relates to a technique for cleaning powders (suspensions) from the dispersed phase and can be used in the building materials industry, in the processing, metallurgical, and electrical industries.

Iseester drum screen, including a drive, a drum with one or several concentrically installed screen surfaces, loading and unloading funnels.

The drum of this screen rotates at a speed less than critical, the centrifugal forces developed inside it are small, so the work of the screen, especially when used for sifting small classes, is characterized by low efficiency.

Closest to the offer: the drum vibration shaker is the one that includes the base, a frame mounted on it using shock absorbers, a drum with bandages and a screening surface, and a vibration drive.

The disadvantages of the known device are the complexity of the design and the sharp reduction in efficiency in the allocation of fine fractions (less than 0.04 mm).

The complexity is associated with the presence in the design of pneumatic cylinders, a return kapan of a pump with a separate engine, etc., a reduction in efficiency — with an irrational ratio of the radii of the tires and the drum (close to unity), at which the array of particles of material loaded into the drum does not completely disintegrate and until the end of the process, the low-deblocking skim remains

The purpose of the invention is to increase the efficiency of the process of cleaning powders from finely dispersed classes and simplifying the design of the screen.

The goal is achieved by the fact that in the drum vibrating stock, including a frame located on the base by means of shock absorbers with an inertial Bibro-ammo detector, mounted on it

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a drum with a sowing surface, the axis of rotation of which coincides with the axis of rotation of the vibration exciter, loading and unloading devices, the frame is made with coaxial bearing pins, and the drum with hubs, by means of which it is installed ne pins x, and the radius R of the drum, 0dius R2 of the hub and the gap d between the pin and the hub is in the ratio R2 m Vot55R

The simplification of the screen design is achieved by the fact that the simplest transmission mechanism - a friction pair (pin - hub) - is used to convert the circular vibrations of the frame into the planetary motion of the drum. The pins thus perform several functions: they are the supports of the drum, the elements of the drive mechanism, and one of them serves as a feed pipe for loading into the drum of the suspension. Improving the efficiency of the process of cleaning powders from finely dispersed classes is due to the vortex mode of movement of the material inside the drum, making a complex movement: rotation around its own axis and translational motion relative to the axis of the frame pins. During such a movement, the material is always in a loosened state and its particles are not collected in an array, but continuously move in the space of the drum, intensively colliding with the screening surfaces.

FIG. 1 shows a drum vibrating screen, video side loading; in fig. 2 shows section A-A in FIG. 1 (by vibrator); in fig. 3 shows a section BB in FIG. 1 (on the drum); in fig. 4 - drum, cross section.

The device includes a base 1 mounted on it using shock absorbers 2 frame 3, a drum 4 with concentricly arranged screening surfaces 5 and b, a vibrator with two self-synchronizing unbalance shafts 7, loading 8 and discharge 9 and 10 funnels. The frame 3 is provided with pins 11 and 12, and the drum 4 with hubs 13. There is a hole in the plug 11, located on the loading side, and several peripheral holes 14 on the discharge side on the discharge side.

The base 1 serves to attach the engines 15 and the frame 3 to it. If its mass is chosen correctly, no special foundation will be required under the screen. The condition of balancing MW.h., where Mv.ch. - total mass of vibrating particles.

The shock absorbers 2 are designed for soft fastening of the frame 3 to the base 1 (i.e., for vibration isolation of the base). If the stiffness of all shock absorbers is selected

so that the frequency of natural oscillations on them roar (LF.) is several times lower than the frequency of the disturbing force from the drive (pdv.). for example, grr / wcd 1/4, then during operation of the device unbalanced dynamic loads are not transmitted to the substrate.

Frame 3 is the frame of the device. It houses the bearing units 17 of the unbalance shafts 7, pins 11 and 12, to it

fastener loading and unloading funnels 8-10. It serves as a protective cover for drum 4 and unbalances.

Drum 4 - the working body of the device. It is made in the form of a cylinder or a polyhedron formed by end caps I with longitudinal links. The hubs 13 are attached to the covers, and the sieve surfaces 5 and 6 are attached to the longitudinal links. Through the hubs, the drum rests on

pins 11 and 12 frames. The diameter of the holes in the hubs is larger than the diameter of the pins, therefore, the static axis of the drum is located below the axis of the pins. The screening surfaces 5 and 6 consist of coarse 5 (inside) and finely cellular (outer) surfaces. The finely cellular surface serves to remove a fine class (sludge). The content of this class in suspension is small, therefore

to increase the efficiency of screening on finely cellular surfaces and to protect it from the destructive effect of the largest particles, the large cell surface 5 serves. Both surfaces are several arcuate or rectangular frames, which are not woven into a woven mesh or sheet. The frames are fastened to the longitudinal links of the frame. To clean or repair the frame is removed

and replaced with a new one.

The vibrator with unbalance shafts 7 is the driving mechanism of the device, the balls on the frame are installed in bearing assemblies 17, whose axes are located on

0 equal distances x from the axis of the pins 11 and 12. To ensure the synchronous rotation of the shafts during operation, it is necessary that in the static state the condition r V2J / M, where M is mass; J - moment

5 inertia of the device frame.

The hopper 8 will fold to feed the raw material to the drum. For this, its output is a pin of a junction with an aperture and a pin 11.

Discharge funnels 9 and 10 are designed to remove screening products. Through the funnel 9, the finished product unites the coarse fractions from the device. For this purpose, the rear end cap of the drum 4 has peripheral holes 14. Through the funnel 10, fines (sludge) are removed.

The pins 11 and 12, together with the drum hubs 13, perform two functions: they serve as supports for the drum 4 and are elements of a friction gear designed to convert the circular oscillations of the frame 3 into a planetary motion of the drum 4, and the pin 11 also serves to load the raw material into the drum ( suspensions).

The hub 13 of the drum 4, mounted non-axially with respect to the pins 11 and 12, serve as the driven elements of the friction mechanism.

The roar works as follows.

When the motors 15 are turned on through the elastic coupling 16, the self-synchronizing unbalance shafts 7, which rest on the bearing assemblies 17 of the frame 3, are rotated. 11, committing with this planetary dvklnie. The size of the gap between the pinhole and the hub is chosen based on the condition of stability of the dynamic processing of the drum on the pin x: b KAO, where g is the gap between the hubs and the pin; To "6 - coefficient when kr dose run-in.

To implement the vortex motion of the material, it is necessary that the drum radius R, hub radius R2 and gap d between the pin and the hub should be in the ratio Ra obtained from the condition of equality of centripetal accelerations acting on the thundering particles.

The source material (suspension) through the feed funnel 8 and the hole in the pin 11 enters the drum 4, then on the screening surfaces 5 and b is divided into three fractions, for example more than 0.1, from 0.1 to 0.063 and less than 0.063 mm. The first two products are combined and emerge from the drum 4 through the peripheral holes 14 into the discharge funnel and fetium, the most / km-kmy product (sludge), into the funnel 10.

Example. Drum / i vibratory i rohot is used to produce fine-grained special pericg powder from a fine powder, for example, PES-ST, which is a by-product of g /.

Powder PPE-ZT in the form of an aqueous suspension is loaded into a laboratory model of the described screen with a cell size of the sifting surfaces of the drum 0.1 and

5 0.063 mm.

The purpose of the test is to obtain a powder with a grain composition that satisfies change No. 1 of GOST 13236-83 for a fine-grained special grade powder.

0 ППЭ-ЗМО (see tab. 1).

To compare the efficiency of the extraction of finely dispersed classes from the PES-ZT powder, a similar experiment was carried out in a laboratory setup corresponding to the known screen.

The test results are shown in Table. 2

From the data table. 2 it follows that the grain composition of periclase obtained on the laboratory model of the known device has an elevated content of particles of sizes +0.04 and -0.04 mm, respectively equal to 28.4 and 22.7%. The content of particles of the same size in the periclase powder obtained in the predioem device is much smaller and amounts to 6.1 and 0.3%, which confirms the higher efficiency of the cleaning process in it of powders from finely dispersed classes. Grain composition of the experienced powder

0 periclase obtained in the proposed device, fully corresponds to the grain-carrier composition of the fine-grained special nopoi jxa according to the change in Mg 1 of GOST 1G 236-83. o Maximum yield of good product after

B drying and calcining amounted to 55% of the original o. The qualitative characteristics of the obtained fine-grained powder of periclase powder, in addition to the apparent bulk density (2 g / cm instead of 2.2), also satisfy the requirements of Supplement No. 1 to GOST 13236-83 and are confirmed by tests.

Claims (1)

Invention Formula Drum Vibrating Screen 5 comprising a frame with an inertial vibration exciter located on the base by means of shock absorbers, a drum mounted on it with a screening surface, the axis of rotation of which coincides with 0, the axis of rotation of the vibration exciter, the loading and unloading devices, which is characterized by the fact that, in order to increase the efficiency of screening and simplify the design, the frame is made with coaxial bearing pins, and the drum with hubs, through which it is mounted on the pins x, with the drum radius R, the hub radius R2 and the gap between the pin and the hub d located in the ratio Ra - Table 1 Grain composition and yield of periclase powder. table 2 YAH 2.7 € 0 Sl} CU St .. I Ib. J "K -4 -Jk CO -fc.