RU164600U1 - INSTALLATION FOR REMOVING A PERG FROM A PARCH CELL - Google Patents

Abstract

Installation for extracting the beers from the honeycomb honeycombs, comprising a housing with a loading hopper and an unloading nozzle, equipped with a cyclone and an aspiration channel communicating with the chamber cavity through an adapter nozzle placed by a cone chopper, the upper part of which is fixedly mounted on the housing, and the lower movable conical part is mounted on located in the housing of the vertical shaft, while the upper and lower parts of the cone chopper from the side of the working chamber are equipped with ribs, characterized in that the working surface the fixed cone is made with radial oblong holes alternating with ribs, the working surface of the movable cone is provided with ribs made along part of the logarithmic spiral.

Description

The utility model relates to agriculture and is intended for crushing of honeycomb honeycombs, destruction of the shells of the released pellet granules and separation of wax and organic impurities from the bee bread.

A well-known honeycomb shredder is known, containing a frame in the form of a base on which a vertical cylindrical working chamber is mounted, inside of which a shaft with working bodies is arranged coaxially with it in the bearing support, driven by an electric motor through a V-belt drive, the working chamber is equipped with an unloading window and a loading neck (Patent for the invention of the Russian Federation 2171715, В02С 13/284, claimed 05.07.1999, publ. 10.08.2001)

Known pepper honeycomb shredder has disadvantages. The well-known shredder of honeycomb honeycombs allows the regrinding of a significant part of the beetroot as a result of the use of impacts on the beehive honeycomb, as well as in the process of compression of whole bead granules released during crushing during the destruction of the shells. In addition, over-ground bee bread is lost during subsequent technological operations aimed at separating the bee bread from wax particles.

Also known is a plant for extracting bee bread from honeycomb honeycombs, comprising a vertically mounted cylindrical working chamber with a loading neck, inside which a rotor with working blades, winged and drive is installed. The unit is equipped with a cyclone and an aspiration channel communicating the cavity of the working chamber through an adapter pipe with a cyclone. In the cylindrical working chamber, the inner side walls and half of the bottom are made corrugated, and the second half of the bottom is made in the form of a sieve, under which there is an adapter pipe. The corrugated surfaces are formed by rods mounted vertically on the side walls of the working chamber, and radially on the bottom half. The loading neck of the working chamber is equipped with a metering window and an adjustment flap. (Patent for the invention of the Russian Federation No. 2275800, IPC А01К 59/00, filed December 28, 2004, published May 10, 2006).

The known installation for extracting bee bread from honeycomb honeycombs allows you to destroy the wax base of the honeycomb honeycombs, release the beanbag granules from the shell and separate the wax and organic impurities from the beanhouse.

The known installation for extracting bee bread from honeycomb honeycombs has disadvantages. In a known installation for extracting beers, pieces of beeswax honeycombs are processed under the influence of working bodies and the resistance exerted on the material from the side of the walls of the working chamber. Part of the wax particles and granules with broken shells passes through the holes in the sieve. Large wax particles and pergola granules in the shell, unable to pass through the sieves, are returned to the corrugated part of the bottom under the action of the winged wing, where they are subjected to additional influence from the winged wing and corrugations. The finely ground pergosum is ejected by the winged wing onto the sieves and, passing through its openings, is guided by a transition pipe into the suction channel.

However, at the same time, part of the wax base of the honeycomb honeycombs, as well as the feathery granules, are crushed and the holes of the sieves are clogged with wax particles, as well as particles of the perga.

A honeycomb shredder is also known, comprising a housing with loading and unloading nozzles and a cone crusher located in it, the upper part of which is fixedly mounted on the housing, and the lower movable part is mounted on a vertical shaft located in the housing. The upper and lower parts of the cone crusher on the side of the working chamber are equipped with ribs located along the generatrices of the cones. Under the loading nozzle, a primary crusher is installed, made in the form of a nozzle with ribs fixed on the housing and tapering downwards, inside of which at least one beater is mounted vertically, eccentrically fixed on a vertical shaft. (Patent for the invention of the Russian Federation 2309797, IPC В02С 2/04, filed 04.04.2006, publ. 10.11.2007).

In a well-known pepper honeycomb shredder, a pre-shredded product in the form of a uniform granulometric mass enters the chamber of a cone crusher, where it is carried away by a rotating cone into the gap between the ribs. Under the action of compression forces, the wax base of the honeycombs is crushed, and whole honeycomb granules are released. The resulting wax mixture, under the action of centrifugal force and gravity, is lowered into the lower part of the cone crusher chamber. The pressure from the working surfaces of the cones leads to an increase in the internal friction of the product and its friction against the walls of the working chamber, due to which the shells on the pergovy granules are destroyed and exfoliate. The crushed product leaves the annular gap between the cones and enters the discharge bottom, rolling along which it is discharged from the grinder body through the discharge neck of the nozzle. The resulting mixture of wax particles, whole pepper granules and shells peeled off from the granules practically does not contain over-crushed product, which eliminates its losses during subsequent operations aimed at its separation from the mixture.

Known pepper honeycomb shredder has disadvantages.

Under the action of compression forces, there is not only grinding of the wax base of the honeycomb honeycombs, but also of the honeycomb granules that are clamped between the ribs.

The resulting wax-perg mixture under the action of centrifugal and gravity forces leaves the annular gap between the cones and enters the discharge bottom, rolling along which it is discharged from the grinder body through the discharge neck of the nozzle. The resulting mixture of wax particles, whole pepper granules and shells peeled off from the granules requires additional processing in other plants designed to separate the pepper granules from the crushed wax base and organic impurities.

The problem, the solution of which the technical solution is directed, consists in the need to destroy and separate the wax base of the honeycomb honeycombs with a decrease in damage to the honeycomb granules and to separate the granules of the honeycomb from wax and organic impurities.

The technical result from the use of the proposed utility model is that the destruction and separation of the wax base of the honeycomb honeycomb with the reduction of damage to the pellet granules and the separation of wax and organic impurities from the beers is carried out by exposing the ground bean mass to centrifugal force and the effects of ribs made in a logarithmic spiral, and the cleaning of the pellets of bee bread from wax and organic impurities by the influence of air flow.

The technical solution is achieved in that the installation for extracting the beers from the honeycomb honeycombs, comprising a housing with a loading hopper and an unloading nozzle, equipped with a cyclone and an aspiration channel communicating the chamber cavity through an adapter nozzle placed by a cone chopper, the upper part of which is fixedly mounted on the housing, and the lower the movable cone part is mounted on a vertical shaft located in the housing, while the upper and lower parts of the cone shredder are provided with ribs on the side of the working chamber, and the working surface of the fixed cone is made with radial oblong holes with alternating ribs, the working surface of the moving cone is equipped with ribs made along part of a logarithmic spiral.

Comparative analysis with the prototype shows that the claimed technical solution meets the criterion of "Novelty", as it differs from the prototype.

1. The working surface of the fixed cone is made with radial oblong holes with alternating ribs.

2. The working surface of the movable cone is provided with ribs made along part of a logarithmic spiral.

To destroy and separate the wax base of the honeycomb honeycombs with the reduction of damage to the pellet granules and to separate the wax and organic impurities from the beers by acting on centrifugal force and gravity on the ground bean mass, the lower movable part of the crusher on the side of the working chamber is equipped with ribs made in a logarithmic spiral. During installation, the lower movable part of the crusher rotates and pieces of honeycomb honeycombs due to centrifugal forces move in the radial direction. The ribs mounted on the lower movable part of the crusher from the side of the working chamber crush the feather raw material, and also break the wax base of the feather granules. At the same time, pepper raw materials are crushed, and due to centrifugal forces, they move in the radial direction. The ribs made in a logarithmic spiral allow to increase the speed of movement of the crushed feather mass not only in the radial direction, but also in part of the circle. In this case, the pepper mass, as well as the feather granules, are compressed between the ribs made along the logarithmic spiral of the moving cone and the ribs, as well as the oblong radial holes of the fixed cone.

For the destruction and separation of the wax base of the honeycomb honeycomb with the reduction of damage to the pellet granules and the separation of wax and organic impurities from the bee bread, the working surface of the stationary cone of the grinder is made with radial oblong holes.

Radially oblong openings made on the fixed cone of the grinder allow to destroy the wax base of the pergh granules. At the same time, the beads pellets, as well as the beeswax and organic impurities, are moved due to centrifugal forces in the radial direction, as well as due to the action of ribs made in a logarithmic spiral mounted on the working surface of the movable cone. Under the influence of atmospheric air, wax and organic comminuted impurities of the perga and the honeycomb honeycomb are entrained by the air flow and enter the suction channel, passing through the radial elongated holes made on the fixed cone, and settle in the cyclone. Pergh pellets, cleaned of wax shells, move along the movable cone of the grinder and under the influence of centrifugal forces, as well as ribs made in a logarithmic spiral, enter the discharge bottom.

In FIG. 1 shows a plant for extracting bee bread from pepper honeycombs; in FIG. 2 is a section AA in FIG. 1 (increased); in FIG. 3 is a section BB in FIG. 1 (increased); in FIG. 4 - stem I in FIG. 1 (increased).

Installation for extracting beers from honeycomb honeycombs is located on four supports 1, consists of a cyclone 2 and an aspiration channel 3 having an air flow regulator 4. The feed hopper 5 is mounted on a grinder 6 of honeycombs. The honeycomb shredder 6 comprises a frame 7 on which the housing 8 and the electric motor 9 are connected via pulleys 10 and 11 and a V-belt drive 12 with a shaft 13 mounted inside the housing 8 in the bearing support 14. The upper part of the housing 8 is a vacuum chamber 15 connected with an aspiration channel 3. In the housing 8, under the discharge chamber 15, a fixed cone 16 of the grinder 6 is installed, over which the loading pipe 17 is located. The loading pipe 17 is a chamber 18 for primary grinding of honeycomb cells Within which a vertically mounted beater 19 eccentrically mounted on the movable cone 20. The walls of the working chamber 18 of the primary crusher made in a conical constriction of the working side of which there are ribs 21 arranged in a vertical rods. The chopper chamber 6 is formed by a movable working cone 20 mounted on the shaft 13 and a fixed cone 16. The working surface of the movable cone 20 is provided with ribs 22 made in a logarithmic spiral. The working surface of the fixed cone 16 is made with radial oblong holes 23 with alternating ribs 24 made of rods. The output of the finished product (pepper granules freed from the wax shell) from the grinder 6 is carried out through an inclined discharge bottom 25 connected to the discharge pipe 26.

Installation for extracting bee bread from honeycomb honeycombs works as follows. With a steady air flow rate in the suction channel 3 and the vacuum chamber 15, as well as a steady rotation frequency of the movable cone 20, pre-prepared pieces of honeycomb honeycombs, separated from the frames, dried to the humidity of the bee bread 14 ... 15% and. cooled to a temperature of 0 ... + 3 ° C, load into the hopper 5. From the hopper 5 under the influence of gravity, the pergola material enters the loading nozzle 17 and the chamber 18 of the primary grinder of the honeycomb honeycombs. Chunks of honeycomb honeycombs are crushed under the action of compression forces between the installed ribs 21 and an eccentrically rotating beater 19. Pre-chopped chunks of honeycombs in the form of a crushed granulometric mass enter the chamber of the grinder 6 honeycombs, where they are carried by the rotating cone 16 into the gap between the ribs 22 and 24, as well as between the ribs 22 and oblong radial holes 23 made in a fixed cone 16. Under the action of compression forces, the wax base of the honeycomb is ground. In this case, feather beads are released. Pergh pellets, buried in radial oblong holes 23 under the action of the ribs 22 of the movable cone 20, are freed from the destroyed wax base. Organic impurities from pergola granules, as well as crushed wax shells from pergola granules, destroyed by the action of ribs 22 on the pergola material, which moves along radial oblong openings 23 under the influence of an upward air flow, move through radial oblong openings 23 of the fixed cone 16 into the discharge chamber 15 and then through the suction channel 3 into the cyclone 1. The speed of the upward air flow passing through the radial oblong holes 23 of the fixed cone 16, ka In step 15, the suction channel 3 in cyclone 1 is set with regulator 4 in such a way that wax particles and organic impurities are entrained in the air stream and settle in cyclone 1. Perg beads under the influence of ribs 22 made along a logarithmic spiral and fixed on the working surface of the movable cone 20 are released from the wax shell and move under the action of gravity, centrifugal force, as well as under the action of ribs 22, made by a logarithmic spiral, and are lowered into the lower part of the grinder chamber 6. When ohm pressure from the working surfaces of the cones leads to an increase in internal friction pergovogo crushed material and its friction on the working surface of the fixed cone, made with radial elongated holes 23 with alternating ribs 24, whereby the wax coating on granules pergovyh destroyed and peeled off. Pergh pellets, cleaned of wax shell and organic impurities are moved through the annular gap between the fixed cone 16 and the movable cone 20 and enter the unloading bottom 25, rolling along which are unloaded through the unloading pipe 26.

Pergh pellets as a result of the action of ribs 22 made in a logarithmic spiral and fixed on the working surface of the movable cone 20, ribs 24 fixed on the working surface of the fixed cone 16 and elongated radially made holes 23 made on the fixed cone 16, as well as the upward air flow passing through the openings 23, the chamber 15 into the suction channel 3 is cleaned of wax particles, exfoliated wax membranes, organic impurities and does not contain oversized feather granules.

Claims (1)

Installation for extracting the beers from the honeycomb honeycombs, comprising a housing with a loading hopper and an unloading nozzle, equipped with a cyclone and an aspiration channel communicating with the chamber cavity through an adapter nozzle placed by a cone chopper, the upper part of which is fixedly mounted on the housing, and the lower movable conical part is mounted on located in the housing of the vertical shaft, while the upper and lower parts of the cone chopper from the side of the working chamber are equipped with ribs, characterized in that the working surface the fixed cone is made with radial oblong holes alternating with ribs, the working surface of the movable cone is provided with ribs made along part of the logarithmic spiral.

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