RU2757128C1 - Perga extractor - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to beekeeping, and is intended to extract bee bread from honeycombs. Installation for extraction of bee bread contains a fixed fixed working chamber with a sieve and a loading mouth, a working shaft with teeth installed inside the chamber, fixed teeth fixed inside the chamber, an electric motor, a separator, an electric vibrator and an unloading chute. The working chamber is made in the form of a truncated cone with a large base upward, connected by a smaller base with a spherical segment. The working shaft is located vertically with radially mounted teeth, the length of which decreases towards the bottom of the conical working chamber. An elastic plate is attached to the lower tooth, the length of which is equal to the radius of the base of the ball segment. The diameter of the base of the spherical segment is equal to the height of the conical chamber, and the lower end of the working shaft is mounted for rotation in the hole located at the top of the spherical segment.

EFFECT: invention improves the productivity of the installation.

2 cl, 5 dwg

Description

The invention relates to agriculture, in particular to beekeeping, and is intended to extract bee bread from honeycombs.

Installation for extracting bee bread from honeycomb cells (RF patent No. 2302729), containing a body located on a supporting frame by means of an elastic suspension with a discharge pipe and a vibration exciter, while the lower part of the body is made in the form of a bearing plate, and inside the body the side walls are made in layers with grooves to install honeycomb frames in them, an unloading collector is installed under each honeycomb frame, made in the form of a plane inclined in two planes to the unloading pipe, and the body is made with a two-leaf technological door, on the inner side of which there are honeycomb clamps, and on the outer locks - and handles, the elastic suspension is made of four cylindrical, horizontally located springs.

The disadvantage of this design is the low productivity of the installation.

A device is known (RF patent No. 2452175), containing a grinder in the form of a vertical cylindrical working chamber with a rotor located inside, equipped with radially mounted pins, a pneumatic separator in the form of a cyclone with an aspiration channel communicating the cavity of the working chamber with a cyclone, and a drive, the units of the unit are placed in general housing, while the cylindrical working chamber is located above the cyclone and is made perforated along the entire lower part of the cylindrical surface, the cyclone is rigidly attached to the cylindrical working chamber with the coverage of the perforated section and contains an aspiration channel inside in the form of a pipe, at the lower end of which there is a coupling made with the possibility movement along the pipe and fixation in working position. Above the aspiration channel, on a common shaft with the rotor of the working chamber, there is a centrifugal fan impeller, to the casing of which a branch pipe is attached for removing wax raw materials, and under the cyclone there is a container for collecting bee bread. In this case, the lower pin of the cylindrical working chamber is equipped with an elastic plate and a balancer.

The disadvantage of the analogue is that in the process of grinding, the vertical perforated chamber will be clogged with bee bread and bee bread and wax dust and the productivity will drop over time and the quality of the cleaned bee bread wants to be better.

The proposed installation from the prototype (RF patent No. 2367150), containing a fixed fixed working chamber with a sieve and a loading mouth, a working shaft with teeth installed inside the chamber, fixed teeth fixed inside the chamber, an electric motor, a separator, an electric vibrator and an unloading chute differs in that the working chamber made in the form of a truncated cone with a large base upwards, connected by a smaller base with a ball segment, the working shaft is located vertically with radially mounted teeth, the length of which decreases to the bottom of the conical working chamber, to the lower tooth, the length of which is equal to the radius of the base of the ball segment, an elastic plate is fixed , wherein the diameter of the base of the spherical segment is equal to the height of the conical chamber and the lower end of the working shaft is mounted for rotation in the hole located at the top of the spherical segment, and the fixed teeth are concave like a sickle relative to the movement of the front of the movable teeth.

The technical result is to increase the productivity of the installation.

The execution of the working chamber in the form of a truncated cone with a large base upward, connected by a smaller base with a spherical segment, and a working shaft located vertically with radially mounted teeth, the length of which decreases to the bottom of the conical working chamber, allows continuously feeding pieces of harvested honeycombs through the loading neck and increasing plant productivity.

The closest tooth to the apex of the spherical segment, secured by an elastic plate, the length of which is equal to the radius of the base of the spherical segment, allows continuous movement of bee bread and wax particles accumulated in the lower part in the area of the spherical segment, passing small particles and bead granules continuously through the sieve of the working chamber, which increases plant productivity.

The connection of the free end of the working shaft by means of a sliding unit (contact of the shaft end) with the apex of the spherical segment prevents accidental contact of the working shaft with the working chamber, respectively, unintentional destruction of the bee bread, when the bee bread enters the contact zone.

The equality of the diameter of the spherical segment and the height of the conical chamber is optimal for the destruction of the beaded combs and their continuous removal through the sieve from the working area.

The installation of the lower end of the working shaft with the possibility of rotation in the hole located at the top of the ball segment simplifies and facilitates the installation of the entire working shaft in a stable manner in the working chamber. Such a fixed arrangement of the end of the shaft with the possibility of its rotation in the hole prevents the shaft with teeth from jamming during a long operation of the installation with fixed teeth, which also increases the productivity of the installation.

An elastic plate, fixed with its edge to the lowest movable tooth, the length of which is equal to the radius of the base of the ball segment, allows you to continuously sweep and push the granules of bee bread and the wax mixture, falling and not passing in the upper zone of the working container, downward beyond the base of the ball segment through its segmental perforations surface. The lower part of the elastic plate in contact with the surface of the ball segment can be made in the form of villi.

The production of fixed teeth concave like a sickle relative to the movement of the front of the movable teeth contributes to the destruction of the shells of the honeycomb in the region of the middle of the teeth, because in the process of contact of the beading combs with the teeth, they will mainly move from the working surface to the axis of the conical chamber and be crushed by the teeth themselves in the region of their middle part, i.e. the sickle-shaped teeth, due to their curvature, contribute precisely to the movement of the mass to be processed by the pieces to the center. Thus, they reduce the friction of the honeycomb on the working surface of the chamber and prevent clogging of its perforation holes, in turn, all this increases the productivity of the installation.

In addition, the proposed invention is associated with the creation of an installation for producing bee bread in the form of granules directly from pieces of bee bread, separated from honeycomb frames in one installation.

FIG. 1 shows a general view of the installation for extracting bee bread; in fig. 2 - view A-A of FIG. 1 with straight teeth; in fig. 3 shows the working area with sickle-shaped fixed teeth; in fig. 4 shows the teeth with projections in section; in fig. 5 illustrates an elastic plate with bristle-like fibers and the location of the lower part of the working shaft in the hole at the top of the ball segment.

The installation consists of a frame 1, contains a working vessel 15, made in the form of a truncated cone 2 with a large base upward, connected by a smaller base with a ball segment, inside which fixed teeth 7 are installed, an electric motor 8 connected to a vertical working shaft 5A, 5 and 5B with teeth 6 radially mounted on it, the length of which decreases towards the bottom of the conical working chamber 2. In this case, the lower end of the working shaft 5B is mounted for rotation in the hole located at the top of the ball segment. An elastic plate 12 with bristle-like villi 26 on the lower side is attached to the tooth closest to the apex of the spherical segment, contacting the surface of the spherical segment in a shape equal to its radius of curvature, while the thickness of the plate 12 increases as it approaches the fixed lower movable tooth. The working shaft 5 with the end of the shaft 5A emerging from the working chamber is held together by the electric motor 8 on the frame of the installation body by means of the bearing stop 17 and the attachment point 18. In the upper part there is a loading neck 4 and there are clips 24 for fixing the cover 25 to the frame 2. Below the working chamber , on the frame, by means of a spring suspension 20, at an angle relative to the horizon, a separator 9 is installed. The design of the separator is a sieve 9A bounded by the side walls with elongated holes, the front narrowed part of which forms an unloading chute 11. In the upper part of the separator, motionless relative to the screening surface, an electric vibrator 10 is installed, which is a cylindrical box closed on all sides, inside which there is an electric motor with an unbalance fixed on its shaft. Under the separator 9, there is a receiving hopper 16, made in the form of a cubic container, which can be removed from the frame. From the side of the unloading chute 11, a barrier plate 21 is installed vertically at an angle and immovably on the separator.

The fixed teeth can be made in the form of a sickle 13, in addition, teeth 6 and 7 can be made with projections 22 and 23. For quick assembly - disassembling the working chamber 2 and cleaning it, repairing in emergency cases, there are special clips 24 on the upper part of the frame 2 , with which you can easily remove the electric motor 8 together with the shaft 5 with movable teeth 6 fixed on it and install them back to your workplace just as quickly. The line indicated by the number 14 shows the border where the continuous perforation of the working chamber 2 begins from top to bottom to the top of the ball segment.

The installation is carried out as follows. The drive electric motor 8 is turned on, which rotates the shaft 5 of the grinder at the required frequency, and the vibrator motor 10 is also turned on. The pieces of honeycomb 19 prepared for processing, separated from the honeycomb frames and cooled to -12 ÷ 18 ° C, are fed through the feed throat 4 into the conical working chamber 2, where they are crushed under the influence of teeth 6 of the rotating shaft-rotor 5 and stationary teeth 7, fixed rigidly directly on the inner surface of the working chamber. Pieces of honeycomb 19 first come under the influence of long teeth 6 and 7, which have a greater destructive force. As a result of blows, pieces of honeycomb break down into smaller parts with partial destruction of the honeycomb to granules of bee bread and fine wax dust. Due to the impact of centrifugal force and air flow, an air-product layer is formed, where small wax particles and wax dust are removed through the through holes (perforations) of the working chamber 2. Due to the small rotation of the shaft 5 relative to the granules, the bee bread will not be deformed, broken and not chipped, which results in high quality bee bread. Upon further lowering, the particles of the honeycomb come under the influence of the shorter teeth 6 and 7, the impact of which is sufficient to destroy the honeycombs and not enough to destroy the granules of the bee bread. As the granules of bee bread move down in the working chamber, the entire mixture, to a greater extent, will pass through the perforated working chamber onto the sieve 9A of the separator 9, while falling on the barrier plate 21 all the mixture and the bee bread will fall out mainly in the central part of the separator 9. In the central lower part 3 of the working container 15, the accumulated processed mass by means of the elastic plate 12, constantly mixing against the walls of the chamber 2, will pass through the holes down to the sieve. It should be noted that granules having a large amount of wax on their surface are sometimes unable to pass through the perforation of the working chamber 2, but due to the elastic plate 12 with bristle-like pile 26, the beech granules and wax particles will be constantly pushed through the perforation. When grinding, wax particles are smaller in size than beech granules and freely pass through the sieve 9A, moving along the surface of the sieve, they fall through its oblong holes and enter the receiving hopper of 16 wax particles, and whole beech granules remain on the sieving surface of the sieve and under the action of vibrations and tilt of the sieve move towards the unloading chute 11.

The dimensions of the perforation of the working chamber are much larger than the dimensions of the sieve 9A, i.e. the size of the sieve is less than the size of the bee bread and, accordingly, on the sieve the bee bread will not fall down, but only move horizontally down the inclined one.

The tooth closest to the apex of the spherical segment, the length of which is equal to the radius of the base of the spherical segment, is located above this base, which prevents the said tooth from coming into contact with the surface of the working chamber.

In addition, it should be noted that the execution of the working chamber in the form of a conical shape, connected to the spherical segment, located upward with the base of the cone, allows continuous movement due to the rotation of the teeth and vibration of all granules and their mixtures to the central part 3 of the spherical segment, where they mainly occur. fast sliding down through perforations.

Thus, the technical result from the use of the proposed invention, which consists in increasing the productivity of the installation, is fully implemented.

Sources of information:

1. RF patent for invention №2302729;

2. RF patent for invention No. 2452175;

3. RF patent for invention №2367150.

Claims (2)

1. An installation for extracting bee bread from honeycombs, containing a fixed fixed working chamber with a sieve and a loading neck, a working shaft with teeth installed inside the chamber, fixed teeth fixed inside the chamber, an electric motor, a separator, an electric vibrator and an unloading chute, characterized in that the working chamber made in the form of a truncated cone with a large base upwards, connected by a smaller base with a ball segment, the working shaft is located vertically with radially mounted teeth, the length of which decreases to the bottom of the conical working chamber, to the lower tooth, the length of which is equal to the radius of the base of the ball segment, an elastic plate is fixed , wherein the diameter of the base of the spherical segment is equal to the height of the conical chamber, and the lower end of the working shaft is mounted for rotation in the hole located at the top of the spherical segment. 2. Installation according to claim. 1, characterized in that the fixed teeth are concave like a sickle relative to the movement of the front of the movable teeth.

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