RU187743U1 - Vibrating Screen - Google Patents

Abstract

The utility model relates to devices for separating bulk materials by size, in particular from 0.2 mm to 5 mm into fractions, as well as for dehydration, and can be used in the processing and enrichment of minerals, in the food and chemical industries, in the production of construction materials and other areas where a fine classification of materials is required.

The technical result, for which the claimed utility model is intended, is to reduce dynamic loads transmitted to the supporting surface from a working device.

Achieving the indicated technical result is ensured by the fact that the claimed device comprises a housing inclined in the housing with the possibility of adjusting the inclination angle of the screening surface, vibration sources and equipped with a support frame, means for loading and unloading material, while vibration sources are installed with the possibility of transmitting vibration directly to the screening a surface containing means for regulating the transverse and longitudinal tension, and vibrations from vibration sources on the screen the conveying surface is transmitted through pushers mounted on shafts located directly under the screening surface in the Scientology blocks installed on both sides of the device.

Description

The utility model relates to devices for separating bulk materials by size, in particular from 0.2 mm to 5 mm into fractions, as well as for dehydration, and can be used in the processing and enrichment of minerals, in the food and chemical industries, in the production of construction materials and other areas where a fine classification of materials is required.

In vibrating screens, the separation of raw materials by a given size occurs under the influence of vibrations when small pieces pass through a flat horizontal or inclined screening surface (into the under-sieve discharge hopper) and unloading pieces of sizes larger than determining the size of the holes in the screening surface (into the sieve, discharge hopper) .

They are known (See the Handbook “Vibration in Engineering” under the editorship of E.E. Lavendell - M .: Mashinostroenie, 1981, v. 4, p. 349-352) and the designs of a vibrating screen consisting of a box (supporting structure) are widely used, based on elastic elements and a working screening surface. A sieve installed horizontally or at an angle to the horizontal, and made in the form of a plate with the size of the sifting holes selected for classification, is used as a working surface. Bulk material, moving along the sieve under the action of vibration to the discharge end, is sifted - particles with a particle size less than the determining size of the holes pass through a sieve.

A similar type of construction includes a vibrating screen, known from RF patent No. 17782, class ЕВВ 27/06, published on April 27, 2001, containing a box with sidewalls, an inclined screen, box supports made in the form of shock absorbers, vibration exciters connected directly with the housing .

Known (see http://mtspb.com/grohoti_vibratsionnie_naklonnie/gil05l.html) screen vibrating inclined GIL 051, comprising a housing, an inclined screen (screen), vibration exciters directly connected to the housing, vibration dampers in the form of shock absorbers , on which the housing rests, while the angle of inclination of the indicated screening surface does not exceed -25 degrees to the horizon, and is adjusted only by changing the height of the stands for spring shock absorbers. The design of the screen is open, and therefore not designed to work with dusty products. The product is fed directly to the screen and there are no loading and unloading nozzles in its design.

As the closest analogue, it is advisable to take a vibrating screen, known from patent document SU 258840 A, publ. 08/05/1970, containing a housing, a support frame, means for loading and unloading material, inclined mounted in the housing with the ability to adjust the angle of inclination, a screening surface containing brackets with bolts (means) for regulating the transverse and longitudinal tension, vibration sources installed with the possibility of transmitting vibration directly to the screening surface through impactors (pushers )

The aforementioned devices have a significant disadvantage, namely, the transmission of vibration directly to the housing, and through it to the screening surface, which leads to high dynamic loads on the supporting platform, which, in turn, reduces the device’s life and reliability.

The technical result, for which the claimed utility model is intended, is to reduce dynamic loads transmitted to the supporting surface from a working device.

Achieving the indicated technical result is ensured by the fact that the claimed vibrating screen comprises a housing inclined in the housing with the possibility of adjusting the inclination of the screening surface, the vibration sources being provided with a support frame, means for loading and unloading the material, and the vibration sources are installed with the possibility of transmitting vibration directly to screening surface containing means for regulating the transverse and longitudinal tension, while vibrations from sources of The fractions on the screening surface are transmitted through pushers mounted on shafts located directly under the screening surface in the Scientology blocks installed on both sides of the device.

The presence in the design of the device of the mechanism for regulating the angle of inclination of the body, and with it the angle of inclination of the screening surface, without unnecessary costs and in a short time allows you to adjust the screen to a specific material.

A longitudinal section of the claimed screening device is presented in figure 1.

The vibrating screen comprises a support frame 1 placed on the frame of the housing 2, a device 3 for adjusting the angle of inclination of the housing together with a screening surface, a frame 4 with covers 5, a screening surface (sieve) 6 placed in the frame 4, removable covers 7, a longitudinal adjustment device 8 and lateral tension of the screening surface.

The operation of the vibrating screen is as follows.

The product to be classified is fed into the loading pipe 9. Due to the angle of inclination and vibrations transmitted from vibration sources, through the shafts 12 and pushers 13 to the screening surface, the material loaded in the screen is sieved. The fractions resulting from the sifting are removed from the screen through the discharge pipes 11.

On the shafts 12 installed under the screening surface, pushers 13 and vibration sources are fixed on the traverses 10. Pushers 13 have the ability to adjust the height (by using screws 15) and; are set so that their surface is in contact with the screening surface 6.

Each shaft 12 with pushers 13 is mounted on the Scientblocks 14 mounted on both sides of the screen device.

At the ends of the shaft 12, on the traverses 10, vibration sources are installed in the form of unbalanced electromechanical vibrators (not shown in the figure), which inform the shafts 12 and the pushers fixed to them of oscillatory movements.

Silent blocks are rigidly fixed in their bodies along the outer diameter, and shafts 12 are rigidly seated in them. Due to the certain stiffness of the rubber of silent blocks, shaft 12 has an oscillatory movement around its axis, which are transmitted through pushers to a sieving surface. The screening device has an adjustable (by adjusting the screws supporting the support frame of the supports) box tilt angle, from 30 to 45 degrees, which increases productivity with a small size of the screening surface. The design provides increased vibrodynamic operation (3000 rpm instead of 750-1000 rpm in the closest analogue), which positively affects the performance and quality of dehydration.

The vibration transmission, during the operation of the vibrating screen, is transmitted directly to the screening surface (sieve) 6, which, in turn, has its own longitudinal and transverse tension. With this transmission of vibration, the dynamic loads are reduced, including due to the elastic insertion between the parts of the silent block, which is sensitive to vibrations, both on the housing in which the screening surface is installed and on the supporting platform on which the screen is installed, there is no need to install shock absorbers, the installation of the vibration screen does not require significant costs for the preparation of the placement of the device, which can be installed on a quickly mounted site or on a concrete floor, with fastening construction to the floor with anchor bolts.

Claims (5)

1. Vibrating screen comprising a housing inclined in the housing with the possibility of adjusting the inclination angle of the screening surface, vibration sources, characterized in that it is equipped with a support frame, means for loading and unloading material, while the vibration sources are installed with the possibility of transmitting vibration directly to the screening surface containing a means of regulating the transverse and longitudinal tension, and the vibration from the vibration sources to the screening surface is transmitted through the pushers, mounted on shafts located directly below the screening surface in the Scientblocks installed on both sides of the device. 2. Vibrating screen according to claim 1, characterized in that the housing is placed on a support frame. 3. Vibrating screen according to claim 1, characterized in that the pushers are installed with the possibility of contact with the screening surface. 4. Vibrating screen according to claim 1, characterized in that unbalanced electromechanical vibrators are used as vibration sources. 5. The vibrating screen according to claim 1, characterized in that the inclination angle of the screening surface is 30-45 °.

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