SU39024A1 - Inertia laboratory screen for screen analysis - Google Patents

Description

The present invention relates to vibrating screens supported on springs and receiving vibrations from an unbalanced pulley attached to the frame of the screen and is intended for the production of sieve analyzes of crushed ores, coal and other loose materials. In the proposed screen, the vibrations in the horizontal and vertical planes of the pulley are provided with two unbalanced masses, which are located in different planes of rotation of the pulley.

In FIG. 1 and 2 show longitudinal sections of the screen with two mutually perpendicular planes; FIG. 3-section according to DE in FIG. 1, and FIG. 4-detailed view of the pulley.

The main part of the screen (Fig. 1) is a pulley / with two unbalanced masses 2 and 5 attached to the rim. The pulley, with its shaft 4, is suspended on the suspensions 5 to the platform b. The latter is mounted on four springs 7. Each spring is fastened at one end in slots 8 to the platform, and at the other end in the same sockets is fixed on racks 9 resting on a maintenance plate. On platform 6, the required Hf6op sieve 11 is installed. Sieve with a round rim of the usual American type and size. The entire set of sieves is fixed on the platform between the helical-tapped racks 12 by means of the crossbar 13 and the nuts 14. The shaft 4 of the unbalanced pulley is connected by means of a flexible transmission 15 directly to the shaft 16 of the motor. As such a flexible transmission can be, for example, an ordinary rubber tube attached by means of clamps or wire to the ends of the connected shafts. The lower part of the screen is covered by a casing 17.

The unbalanced pulley device is schematically depicted in FIG. 4. Two identical rings 2 and 3 are loosely put on the rim of an ordinary pulley, attached to each of them are load 2 and 3. The rings together with weights 2 and 3 can be rotated around the rim of the pulley at any angle relative to each other and fixed in the desired position. locking screws 6. When the ring is rotated to combine both weights, a maximum of an unbalanced mass is obtained and, conversely, the masses are completely balanced when the ring is rotated 180 ° from the goods alignment position. Thus, it is possible to change the unbalanced mass, and, therefore, during the operation of the screen and the centrifugal force of inertia, from zero to a certain maximum.

The springs on which platform b is installed (fig. 1) are short rubber cylindrical

shaped rods, the ends of which are clamped in detachable clamps, consisting of two half-rings, fastened with screws. Through these clamps and nipples, the springs are attached (by screwing in the nipples) to the slots of the platform and the struts. Instead of rubber, steel springs can also be installed.

The rumble is made as follows.

The entire set of sieves, with holes of the desired dimensions, is mounted on platform 6 (Fig. 1). A sample of material whose screen analysis is required to be produced is loaded into the upper sieve. The whole set of sieves is attracted by the nuts 14 to the platform 6 and then the motor is started up, which by means of the flexible gear 15 drives the shaft 4 and the unbalanced pulley / into rotation. When the latter rotates, the components of the centrifugal force of inertia of the unbalanced mass cause in the horizontal and vertical planes the forced oscillations of the entire system (shaft-platform-spring-sieve). In the case of oscillating vibrational movement of the sieves, the material is quickly and energetically rooted, after which, as is usual with the sieve analysis, after a certain time the motor stops, the sieves are removed and the resulting classes are weighed.

In addition to the oscillations created in the vertical and horizontal directions that make up the centrifugal inertial force, as the pulley rotates, a torque is generated in the horizontal plane due to the dynamic unbalance of the pulley (the centers of the weight of the load 2 vi 3 do not lie in the same plane of rotation). This torque causes a certain alternating return rotation of the platform and the sieves in the horizontal plane, which increases the efficiency of screening.

The proposed screen provides the possibility of adjusting the amplitude of oscillations and their number (number of revolutions). The amplitude is controlled by changing the magnitude of the centrifugal force, which is achieved by turning weights 2 or 3, and the number of oscillations is controlled by changing the number of revolutions of the motor by means of a rheostat.

The screen can be used in the mineral processing industry, as well as in the agronomic, chemical, etc.

The subject matter of the invention.

An inertia laboratory screen for sieve analysis, consisting of a set of laboratory sieves mounted on a platform supported by springs and receiving vibrations from an unbalanced pulley, characterized in that, in order to communicate the rumble of vibrations in the horizontal and vertical planes, the pulley attached to the suspensions 5 to the platform 6 of the screen, provided with two unbalanced loads 2 and 5, located relative to each other in different planes of rotation of the pulley.

Fig1

Fig2.

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