RU2667734C1 - Installation to extract and clean beebread from beebread honeycomb - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, in particular to beekeeping, and is designed to extract beebread from beebread honeycombs, to clean the extracted pearls from wax shells and to remove waxy particles from the beebread mass. Apparatus for extracting and cleaning beebread from beebread honeycombs consists of a vertical cylindrical working chamber provided with a loading throat, a shaft with pins. Installation is connected to the cyclone through a transition pipe and an aspiration channel. Shaft in the pin installation area is equipped with an auger. In the working chamber, it is possible to place an elastic sieve over the bottom provided with round holes, the surface of which is corrugated, and the holes are slit-shaped.EFFECT: invention makes it possible to change the duration of cleaning and the productivity of feeding beebread granules into pneumoseparation, which makes it possible to obtain beebread granules with insignificant content of wax particles that have been purified from wax shells.3 cl, 4 dwg

Description

The invention relates to agriculture, in particular to beekeeping, and is intended to extract the bee bread from the honeycomb honeycombs, clean the extracted granules of the bean bread from wax shells and remove wax particles from the bean mass.

A known installation for extracting bee bread from honeycomb honeycombs, consisting of a vertically arranged cylindrical working chamber with a loading neck and a transition pipe, inside which a rotor with working bodies is located, and a drive (RF Patent No. 2275800, IPC АКК 59/00, published on 05/10/2006 )

The disadvantage of this installation is the low efficiency of cleaning the bean pellets from wax shells, since the bead pellets are cleaned for a short time, part of the bead granules and large wax particles get stuck between the corrugations of the bottom of the working chamber, while the extraction of the bee bread is reduced and the installation process is disturbed.

A known installation for extracting and cleaning bee bread from honeycomb honeycombs, taken as a prototype, consisting of a vertical cylindrical working chamber connected by an aspiration channel through an adapter pipe with a cyclone inside which a shaft with working bodies is installed (RF Patent No. 2412590, IPC АКК 59/00 published on 02.27.2011).

The disadvantage of this installation is the low efficiency of the cleaning process of pellet pellets from shells, since the destruction of the shells occurs mainly due to the interaction of the pellets with each other, as well as the inability to control the duration of cleaning.

The objective of the invention is to create an installation that provides high efficiency of the process of destruction of the shells on pergovy granules and removal from the mass of extracted beeswax large wax particles, as well as the ability to quickly clean the working surface that interacts with the processed product.

The technical result from the use of the installation for extracting and cleaning the bee bread from the honeycomb honeycomb is to create conditions that ensure the active circulation of the bean granules in the working chamber during the cleaning process and increase the level of mechanical impact on them in order to destroy the wax shells, as well as the possibility of changing the cleaning time and pellet feed rates for re-separation.

The technical result is achieved by the fact that the installation for extracting and cleaning the bee bread from the honeycomb honeycombs, consisting of a vertical cylindrical working chamber equipped with a loading neck, a shaft with pins and connected to the cyclone through an adapter pipe and an aspiration channel, the shaft in the area where the pins are installed is equipped with a screw, and in the working chamber it is possible to place on top of the bottom, equipped with round holes, an elastic sieve, the surface of which is grooved, and slit-like openings having widths to 4 mm, and overlapping the circular openings of the sieve of the working chamber having a diameter of 9 mm. The cylindrical chamber has a slit-like cutout formed by two horizontal secant planes and a vertical secant plane passing through the central axis of the cylindrical working chamber, which is closed from the outside by an elastic patch.

In FIG. 1 shows a sectional view of a front view in section (cyclone not shown) for extracting and cleaning a bee bread from a honeycomb honeycomb and a top view of a working chamber section; in FIG. 2 shows an elastic sieve and an enlarged image of the corrugation of its upper surface; in FIG. 3 shows the position of the elastic sieve in the working chamber, which completely covers the bottom of the working chamber; in FIG. 4 shows the position of the elastic sieve in the working chamber when the bottom of the working chamber is partially open.

The installation (Fig. 1) consists of a cylindrical working chamber 1 with a loading neck 2 and a working shaft 4 located inside the bearing support 3, at the end of which there is a screw 5 and working bodies in the form of pins 6, fixed in a half-way between the turns of the screw so that the angle between the pins in horizontal projection is 120 °. The bottom of the working chamber is made in the form of a sieve 7 with round punching holes with a diameter of 9 mm, under which a discharge compartment 8 with an inclined bottom is installed, connected to the cyclone (not shown in Fig. 1) through the transition pipe 9 and the suction channel 10. In the wall of the working chamber 1, directly above the sieve 7, there is a slit-like cutout 11 formed by two horizontal secant planes and a vertical secant plane passing through the central axis of the cylindrical working chamber 1, which is closed outside by an elastic pad 12. Through the slit-like th cutout 11 in the gap between the sieve 7 and the plane of rotation of the lower pin is placed an elastic sieve (Fig. 2) made of a polymer having high mechanical strength, for example, polyurethane. The elastic sieve has a semicircular groove 13 and slit-like openings 14, the width of which does not exceed 4 mm, and a corrugation 15 is made on the upper surface of the elastic sieve between the slit-like openings 14.

The installation operates in three modes, corresponding to the technological operations of grinding pieces of honeycombs, cleaning the pergola granules from wax shells and large honeycomb particles not carried away by the air stream, and removing peeled wax shells and destroyed honeycomb particles from the cellar mass.

In the mode of grinding pieces of honeycomb installation works as follows. With a steady speed of rotation of the working shaft and reaching a linear speed of the ends of the pins equal to 8.5-9 m / s, at which the integrity of the pergh granules is preserved (Kashirin D.E. Energy-saving technologies for extracting the bee from honeycombs by specialized means of mechanization: dis. Saransk, 2013. P. 206), pieces of honeycombs preliminarily separated from wooden frames and cooled to a temperature of -1 ... -6 ° C, weighing 50-70 g, which are inside, are portioned into the installation through the loading neck 2 working chamber 1 exposed the impact effect of the pins 6 are crushed and penetrate through the round openings of the sieve 7 into the discharge compartment 8, from where they are discharged through the transition pipe 9 into the suction channel 10 and pneumatically separated when the cyclone is turned on, which creates an upward air flow in the suction channel, the speed of which slightly exceeds the speed of the separated from the pollen of wax particles. As a result of this operation, a mass of bead granules is obtained, enclosed in wax shells containing large honeycomb particles not carried away by the air stream.

In the mode of cleaning granules, the beeswax from wax shells, the cyclone is turned off, the rotational speed of the working shaft is reduced to a value at which the linear speed of the ends of the pins does not exceed 2 m / s (Byshov D.N. Study of the process of mechanical cleaning of pepper beads from organic shells / D.N. Byshov et al. // Vestnik KrasGAU. 2016. No. 2 (113). P. 75), and insert the elastic sieve into the slit-like cutout 11 until it stops (Fig. 3), while the elastic sieve completely covers the bottom of the working chamber and is fixed from displacement using elastic pad 12, which is the lower gra ew is inserted into the semicircular groove 13, and the slit-like openings 14 of the elastic sieve are superimposed on the round openings of the sieve 7. Separated bead granules enclosed in wax shells and containing large honeycomb particles are loaded through the filler neck 2 to 1/3 of the height of the working chamber 1 not blown away by air during the first operation. Purg granules cannot pass through 4 × 9 mm oblong holes formed by superimposing slit-like openings of the elastic sieve on the round holes of the sieve 7, and due to the rotation of the screw 5 they begin to circulate inside the working chamber, and, as a result of friction of the granules, the corrugation 15 of the elastic sieve and between themselves, the destruction of the wax shells, as well as large particles of honeycombs to the formation of cup-shaped particles with a thickness of 0.3-3 mm, which pass through elongated holes. The duration of the regime of cleaning the bean pellets from wax shells is 5-10 minutes, after which a mass of bead granules with exfoliated wax shells and without large honeycomb particles that cannot be separated by pneumo-separation are formed in the working chamber.

In the mode of removing exfoliated shells from the pergonaceous mass, the cyclone is turned on, while the cup-shaped particles penetrating the discharge compartment 8 during the second operation enter the suction channel 10 through the transition pipe 9 and are carried away by the ascending air stream. The elastic sieve is pulled out so that 15-25% of the round holes of the sieve 7 are fully open (Fig. 4), and fix it from displacement due to deformation of the elastic lining 12 and its friction against the corrugation 15. The beads of the bee bread gradually come out through the open holes of the sieve 7 , which ensures their metered supply for repeated air separation and eliminates clogging of the suction channel, while cup-shaped wax particles and exfoliated wax shells continue to penetrate through elongated holes in the discharge compartment and are carried away stuffy stream. The feeding rate of pergola granules for repeated pneumatic separation can be controlled by changing the position of the elastic sieve in the slit-like cutout 11. The flexible design of the elastic sieve allows quick cleaning of its corrugated working surface and slit-like openings by repeatedly bending the elastic sieve manually.

The advantage of the proposed technical solution in comparison with the prototype is the ability to control the duration of cleaning and the performance of feeding pellet pellets for separation. As a result of the sequential implementation of three technological operations using the proposed installation, a mass of purified pergh granules with a low content of wax particles is obtained.

Claims (3)

1. Installation for extracting and cleaning the bee bread from the honeycomb honeycombs, consisting of a vertical cylindrical working chamber equipped with a loading neck, a shaft with pins, and connected to the cyclone through an adapter pipe and an aspiration channel, characterized in that the shaft in the area where the pins are installed is equipped with a screw, and in the working chamber, it is possible to place on top of the bottom, equipped with round holes, an elastic sieve, the surface of which is grooved, and the holes are slit-like. 2. Installation according to claim 1, characterized in that the slit-like openings of the elastic sieve having a width of up to 4 mm overlap the round openings of the sieve of the working chamber having a diameter of 9 mm. 3. Installation according to claim 1, characterized in that the cylindrical working chamber has a slit-like cut-out formed by two horizontal secant planes and a vertical secant plane passing through the central axis of the cylindrical working chamber, which is closed outside by an elastic patch.

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