SU1577837A1 - Unit for separating foreign inclusions from food product pulp - Google Patents

Abstract

This invention relates to waste management. The goal is to increase operational reliability and reduce labor costs during cleaning of the installation. A part of the cylindrical surface of the cylindrical body (CK) 1 is made in the form of a grate (CW) 2. Inside CK 1, a rotor 3 is installed with comb-shaped blades with fingers bent backwards relative to the direction of rotation by C14 1 2 camera (K) 5, located vertically and attached to the side of the Central Committee 1. Each grate is S-shaped. Its upper part is made with the possibility of the fingers 4 of the rotor 3 to enter over their entire length in КР 2, and the lower part is made in the form of a logarithmic spiral and smoothly mates with the surface of CC 1. The upper edge of CR 2 is offset by 1/6 of the circumference of CC 1 its uppermost generatrix, and the lower edge of CP 2 coincides with the lowermost generator of CC 1. The angle between fingers 4 and tangents to RC 2 at the point of their intersection is at least 104 °. Inside K 5, a baffle 10 is installed. The inlet 7 and KP 2 are located on one side of the partition 10. Food waste enters K 5 through the nozzle 7 under overpressure. Light extraneous inclusions due to a pressure drop in K 5 and CC 1 are pressed against CG 2. Solid foreign inclusions are deposited in the lock gate 8. Fingers 4 of the rotor 3 enter C slits 2 and collide with CI 2 extraneous inclusions and direct them to the sluice gate 8. At high rates of pulp entry, a part of the light impurities moves to the sluice gate 8 and, by bending the partition 10, re-enters the separation. When the sluice gate 8 is filled up, it is turned over and unloaded without stopping the installation. The cleaned pulp passes through CR 2 and is discharged through the discharge pipe 9. 3 Cc. f-ly, 2 ill.

Description

The invention relates to a waste treatment technique, in particular to the separation of impurities from pulpy food waste, can be used to separate solid particles from a slurry and can be used in the chemical, light, mining and other industries.

The purpose of the invention is to increase operational reliability and reduce labor costs during cleaning of the installation.

FIG. 1 shows the installation, side view; in fig. 2 shows section A-A in FIG. one.

The installation includes a horizontally located cylindrical body 1, part of the cylindrical surface of which

made in the form of a grate 2. Inside the cylindrical body 1, a rotor 3 is installed with comb-shaped blades with the fingers bent backward relative to the direction of rotation with the fingers 4 entering into the grate 4. A cylindrical body 2 of chamber 5 is connected to the cylindrical body 1 5 is arranged vertically and attached to the side of the cylindrical body 1. The grate 2 is made of grid bars 6, for example, of rectangular cross section. Each grate b is S-shaped, its upper part is made with the ability of fingers 4 of the rotor 3 to enter the grate 2 for their entire length, and the lower part is made in the form of a logarithmic spiral and smoothly mates with the surface of the cylindrical body 1.

The upper edge of the grate 2 is offset by 1/6 of the circumference of the cylindrical body 1 from its uppermost generator, and the lower edge of the grate 2 coincides with the lowermost generator of the cylindrical body 1. The angle between the fingers 4 of the rotor 3 and tangent to the grate 2 at the point of their intersection is at least 104 °. A feed inlet 7 and a device for removal of foreign inclusions, made in the form of a sluice gate 8, are connected to the chamber 5. A discharge pipe 10 is connected to the cylindrical case 1. A feed inlet 7 and a grate 2 are located on one side of the partition wall 10.

The fingers 4, which form an obtuse angle a with the working surface of the grate 2, are pushed against the direction of rotation of the rotor 3. In order to effectively repel foreign inclusions from the fire grate 2, the angle a must be 90 ° plus the angle of friction of foreign inclusions on the surface of the fingers 4. Fibrous foreign inclusions have the highest coefficient of friction on the wet metal surface, which is equal to 0.25, which corresponds to a friction angle of 14 °. Therefore, to ensure the repulsion of all extraneous inclusions from the grate, the angle a must be at least 104 °. The optimum angle is chosen experimentally depending on the physicomechanical properties of the impurities and the material of the fingers. For example, for the separation of impurities from the pulp of boiled food waste with a humidity of 87-92% and metal fingers 4, it is 112 °.

The installation works as follows.

Boiled food waste enters chamber 5 through inlet 7.

0

with a humidity of 87–92% and a temperature of 100–105 ° C at an overpressure of about 70 kPa. They contain various foreign inclusions such as bones, glass, metal, fibrous impurities, various light packages, the density of which is 0.5-8.0 t / m3. In the chamber 5, under the influence of the partition 10, the pulp of food waste is directed to the grate 2. The installation parameters are selected in such a way that the chamber 5 is completely filled with food waste pulp, and the inside of the housing 1 is partially filled.

The light foreign inclusions (fibrous and lightly packed) under the action of the jet formed due to the pressure drop in the chamber 5 and the inner part of the housing 1 are pressed against the grate 2, thereby reducing its active surface. The solid extraneous inclusions under the action of the force of tin are deposited on the bottom of the chamber 5 in the sluice gate 8. Fingers 4 mounted on the rotating rotor 3 enter the grating slots

2 and push foreign objects stuck on it and stuck on it. The S-shaped form of the grid 2 allows you to increase its surface, as well as the fingers 4 to enter the slots of the grid 2 with the entire working surface. This interaction causes a shock effect, which enhances the cleaning of the grate 2. When the start of the grate 2 is located 1/6 offset from the uppermost generator of the cylindrical body, gravitational separation of heavy impurities that do not fall on the upper part of the grate 2 and at the same time the formation of turbulence at the top of the grid is avoided. The lower point of the working surface of the grid 2 coincides with the lowest forming part of the cylindrical body 1, since favorable conditions are created at this place for unloading the grid 2 from foreign inclusions and directing them to the sluice gate 8. The variable curvature of the lower part of the S-shaped grid 2 allows facilitate cleaning and enhance the self-cleaning effect of the fingers 4 as the rotor rotates

3 from sticking to the grid 2 extraneous inclusions, as they slide off with a smooth exit of the fingers 4 from the grid 2.

At high rates of pulp entry in the lower part of chamber 5, a jet is formed, raising from the chamber of the sluice gate 8 a part of the deposited light extraneous inclusions. They move to the outside of chamber 5 beyond the partition 10, from where they are re-sucked into the incoming jet with quenched speed. The deposition process of these foreign inclusions is repeated. Thus, the partition

10 prevents the direct entry of raised foreign inclusions onto the grate 2 and their accumulation in its lower part.

When the chamber of the sluice gate is filled with extraneous inclusions, it is turned over and unloaded. For unloading of impurities, the installation does not stop, since the lock gate provides unloading of impurities at an overpressure in chamber 5.

The cleaned pulp of food waste, passing through the grate 2, passes freely through the frame structure of the rotor 3 and is discharged through the discharge pipe 9.

Claims (4)

1. An apparatus for separating foreign inclusions from food waste pulp, comprising a horizontally disposed cylindrical body, a portion of the cylindrical surface of which is made in the form of a grate, a rotor with comb-shaped blades with fingers bent backwards in the slot direction of the grate inside the cylindrical body connected to the cylindrical body and the chamber covering the grate, connected to the chamber inlet and prism osoblenie for removing extraneous including The 0 five five 0 0 connected to the cylindrical body of the discharge pipe, characterized in that, in order to increase operational reliability and reduce labor costs during cleaning of the installation, the chamber is connected to the side of the cylindrical case, the device for removal of extraneous inclusions is made in the form of a lock gate the grate is S-shaped, the upper part is made with the possibility of rotor fingers entering the entire grate into the grate, and the lower part is made in the form of a logarithmic spiral and smoothly matched with the surface of the cylindrical body. 2. The installation according to claim 1, characterized in that the upper edge of the grate is offset by 1/6 of the circumference of the cylindrical body from its uppermost generatrix, and the lower edge of the grate coincides with the lowermost generatrix of the cylindrical body. 3. The installation according to claim 1, characterized in that it is provided with a baffle installed inside the chamber, wherein the inlet pipe and the grate are located on one side of the baffle plate 4. Installation according to Claim 1, characterized in that the angle between the fingers of the comb-shaped rotor and the tangents to the grate at the point of their intersection is at least 104 °. Giving of food about / ldov eight 1 Obstacle peeled gshshedyh tg waste Aa eight FIG. 2