RU2019311C1 - Device for screening friable materials - Google Patents

Abstract

FIELD: separation of friable materials. SUBSTANCE: friable materials screening device comprises screen in the form of a cylindrical spiral rotatably mounted on main and additional supports and provided with a mechanism for changing its geometric axis by shifting additional support in curvilinear guides of housing and fixing it by clamps. EFFECT: improved design. 4 dwg

Description

 The invention relates to equipment for sieving bulk materials, dividing them into two or more classes and can be used in construction, in the building materials industry, in the chemical, metallurgical, food, paint and varnish and other sectors of the national economy.

 Known spiral roar containing a spiral drum, made in the form of an elastic cylindrical spiral attached with a flange to the faceplate, rigidly sitting on the shaft (ed. Certificate. N 508280). The disadvantage of this device is the difficulty of regulating the inter-turn gap, which requires disassembly and subsequent installation of the necessary gap.

 The closest in technical essence and the achieved result to the proposed invention is a device for separating bulk materials by size, containing a loading hopper, a drive spiral drum, a drive, a shaft made of separate sections connected by hinges, a bearing support and a material collector [1]. The disadvantage of this device is that it does not allow you to remove waste, although it eliminates clogging of the separating surface, as well as the inability to change the separation boundary of the sifted material.

 The aim of the invention is to improve operating conditions by the timely removal of a large fraction and to ensure a smooth change in the separation boundary of the material.

 This is achieved by the fact that in a screening device containing a loading hopper, a frame, a movable support, a casing, a sifter made in the form of a cylindrical spiral mounted for rotation in the main and additional supports, the drive and material collectors, according to the invention, the sifter is equipped with a mechanism for changing the curvature of its geometric axis by moving the additional support in the curved guides of the casing and is fixed by clamps, and the shaft of the main support is made with windows for unloading large fractions.

 Introduction to the design of the device for changing the curvature of the geometric axis of the helical spiral allows you to smoothly change the gap between its turns, which makes it possible to change the separation boundary of the granular material. Guides along which the additional support moves, clamps serve as a means of achieving the goal. The execution on the shaft of the main support of the windows for unloading allows due to this to timely remove a large fraction.

 In FIG. 1 shows a device for screening bulk materials; in FIG. 2 - the same, view A; figure 3 - node I in figure 1 (a mechanism for changing the geometric curvature of the axis of the sifter); figure 4 is a section along aa in fig. 1 (shaft of the main support with windows for unloading a large fraction).

 A device for sifting bulk materials contains a loading funnel 1, frame 2, a sifter 3, made in the form of a cylindrical spiral, mounted for rotation in the casing 4 on the supports, the main 5 and additional 6. An additional support 6 is installed in the casing 4 in curved guides B and fixed by clamps 7. The shaft 8 of the main support 5 is made with windows for unloading a large fraction. In the casing 4, a window 9 for moving the additional support 6 in the curved guides B. is provided. The sifter 3 is driven from the electric motor 10 through a V-belt transmission 11 mounted on the frame 2 and closed by the casing 12. A thin fraction of the sifted material is removed from the casing 4 through the pipe 13 and is collected in the collection 14, divided by a wall into two compartments. A large fraction enters the second compartment through the nozzle 15. The fixing device 7 is mounted on the hollow axis 16 and contains a washer 17, a nut 18 and a pin 19. The shaft 8 of the main support 5 contains a fastener 20 of the sifter 3 connected to the shaft through the pins 21.

 The device operates as follows. The source material through the feed funnel 1 and the hollow axis 16 of the additional support 6 enters the sifter 3, driven in rotation from the drive 11. A thin fraction having a particle size less than or equal to the gap between the turns of the cylindrical spiral is ejected out by centrifugal force and is removed through the nozzle 13 into the collection 14. Particles of the coarse fraction move along the helix of the sifter 3 towards the discharge side through zone B in the mount 20 and the window on the side surface of the shaft 8 of the main support 5. Then the material is C pipe 15 enters the second section of the collection 14.

 The separation boundary of the sifted material is adjusted by changing the curvature of the geometric axis of the sifter 3, causing a change in the gap between the turns of the cylindrical spiral. The curvature is changed by moving the additional support 6 in the curved guides B of the casing 4. Fixing in the selected position is carried out by a screw support 17.19.

 Using the proposed invention improves the quality of separation and facilitate operating conditions due to a smooth and simple mechanism for changing the gap between the turns of the spiral. The proposed device allows you to adjust even without stopping the drive, achieving the required quality of the finished product in dynamic mode.

Claims (1)

 A device for sifting loose materials, containing a loading funnel, frame, movable support, casing, a sifter made in the form of a cylindrical spiral mounted for rotation in the main and additional supports, a drive and material collectors, characterized in that the sifter is equipped with a mechanism for changing its the geometric axis by moving the additional support in the curved guides of the casing and is fixed with clamps, and the shaft of the main support is made with windows for unloading a large fraction.

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