RU2095161C1 - Screen - Google Patents

Abstract

FIELD: separation of loosening materials. SUBSTANCE: screen has pressure-tight housing 1 wherein a conical riddle is mounted on shaft 8 through pivot units 9 mounted at the inlet and outlet of the riddle perpendicular to each other. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to the food industry, in particular to devices for sifting flour.

A device for sifting bulk materials is known, including two rings rigidly interconnected, inside of which there is a drum sieve and a ring rotation drive, the rings being provided with flexible connections connecting them to the sieve, while flexible connections in the plane of one ring are offset relative to the other ring by an amount equal to half the arc between adjacent rings, and the axis of rotation of the rings and the lattice are offset relative to each other. [one]
This device allows you to increase productivity and improve the quality of sifting by giving the sieve additional vibrations, but to achieve a sufficiently high reliability of the installation is almost very difficult, since spring elements of flexible connectors tend to collapse when they reach the material fatigue threshold.

There is also a separator for sunflower seeds, containing an inclined shaft with concentric cylindrical gratings with calibrating holes mounted on it, a rotation and oscillation drive, loading and unloading units, the separator is equipped with additional sieves, each of which is attached from the shaft to a corresponding sieve with calibrating holes with the formation of a gap of not more than the thickness of the seeds and is made with holes whose size exceeds the size of the calibrating holes of the sieves, and cal bruyuschie sieve openings and additional openings of sieves are arranged coaxially with each other, and a discharge unit is formed in the form of wings, eakreplennyh longitudinally on the shaft, [2]
The specified separator provides efficient operation, i.e. increases productivity and quality of separation by increasing the speed of rotation of the sieve, but the need for an additional drive for alternating movements of the sieve complicates the installation.

 The technical result of the invention is to increase reliability by simplifying the device under conditions of excessive pressure in the housing and, as a result, increasing productivity by reducing downtime.

 The technical result is achieved by the fact that the sifter of bulk products, comprising a housing, a shaft with a sieve concentrically mounted on it, a rotation drive, loading and unloading units, the housing is sealed, and a conical sieve is installed on the horizontal shaft connected to the shaft by two hinged units, each hinge unit is located at the inlet and outlet of the sieve, perpendicular to each other, and the hinge nodes are installed with the ability to move perpendicular to the longitudinal axis of the shaft.

In FIG. 1 shows a General view of the sifter of bulk products; in FIG. 2
section AA in FIG. one; in FIG. 3 fragment of the hinge assembly.

 The sifter of bulk products contains a housing 1 with a removable lid and a hopper for collecting waste 2, a spacer with a thrust bearing 3, a filter pipe 4, a loading 5 and an unloading unit 6, a thrust bearing 7. A composite split shaft 8 is installed on bearings 3 and 7, on which cantilever hinge assemblies 9 are connected, connected to a conical sieve 10. Longitudinal rails 11 are fixed on the inner surface of the sieve 10, and in the area of the pit of the loading unit 5, the shaft 8 has a detachable connection (not shown) and an impeller 12 for forced and the sifted product into the sieve cavity 10. The output of the unloading unit 6 is connected to the lock gate 13, which feeds the sifted product into the air line 14. The hinge unit 9 is made in the form of a sleeve 15 on which studs 16 are mounted, interacting at their ends with sockets 17 fixed to the sieve .

The sifter of bulk products works as follows: the shaft rotation drive 8 is started, compressed air is supplied to the pneumatic actuator 14, the lock gate 13 is turned on, and the initial product is fed into the loading unit 5 with a screw feeder, and since the lock gate 13 does not have a high tightness, then an excess pressure p ₁ in the range of 0.01-0.03 MPa appears in the housing 1, depending on the purity of the filter 4. When the conical sieve 10 is rotated, the cantilever hinge assemblies 9 periodically occupy a vertical or horizontal position, and this leads to a redistribution of the mass of the sieve 10 on M ₁ and M ₂ , i.e. with the horizontal position of the hinge 9 located at the bearing 3, and the vertical position of the hinge 9 at the inlet of the sieve 10 due to the difference in the length of the shoulders and the mass M ₁ and M ₂ , the sieve 10 tends to change its horizontal position due to the clearance "H", which leads to the oscillatory movement of the sieve 10 and these oscillations will be repeated at the indicated positions of the hinges 9.

 The amplitude of the oscillations is regulated by changing the position of the stud 16 and depends on the size of the gap "N", and the oscillation frequency does not exceed four times the frequency of rotation of the shaft 8.

 The initial product enters the blades of the impeller 12 and is forcedly fed into the cavity of the sieve 10, where it moves along the inclined surface of the cone in the direction of the hopper 2, but intense rotational and oscillatory action force the product to pass through the calibrated holes of the sieve 10 and enter the cavity of the unloading unit 6, and particles larger than the size of the holes fall into the hopper 2.

 Thus, the execution of the hinge assembly in the form of a socket with an adjustable pin and the placement of the hinges perpendicular to each other allows the sieve's center of gravity to be moved periodically when the sieve rotates, which leads to strictly oriented sieve vibrations only along the vertical axis perpendicular to the longitudinal axis of the shaft , and this simplifies the design of the sifter, providing high reliability and productivity of the installation as a whole.

Claims (2)

 1. A sifter of bulk products, comprising a housing, a shaft with a sieve concentrically mounted on it, a rotation drive, loading and unloading nodes, characterized in that the housing is sealed, and a conical sieve is installed on the horizontal shaft connected to the shaft by two hinged nodes, each hinge unit is placed at the inlet and outlet of the sieve perpendicular to each other.  2. The sifter according to claim 1, characterized in that the hinge assemblies are mounted with the ability to move perpendicular to the longitudinal axis of the shaft.

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