RU2050341C1 - Apparatus for organic substratum processing into biogumus - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: apparatus for organic structure processing into biogumus has base, in the center of which there is stationary fixed support 1; shape-forming walls 8, mechanism with loading unit. Between two guides, on which transporter crane is mounted 25 with loading device there are several set in series mechanisms to form heaps. Each mechanism has shape-forming walls 8, horizontal shaft-maker, supporting wheels. Walls are made swinging around fixed support pole. Shape-forming walls are inclined by 10 50 deg. and provided with trestle. Uniform mechanisms are paired and linked to each other by swinging wall. EFFECT: increased efficiency. 5 dwg

Description

 The invention relates to agriculture, to vermiculture.

 A device is known for processing an organic substrate into vermicompost containing guides, with the help of rollers, a frame with forming walls and mine shafts is installed. The frame is equipped with a chain-slat conveyor and wires of the mechanism of action, an ultrasound source and a winch. The forming frame is made in the form of a pyramid, its rear wall is fixed and provided with a fixed support. An overpressure chamber equipped with a fan is installed on the front wall. A reduced pressure (vacuum) chamber is installed in the rear wall, equipped with a vacuum pump, electromagnetic valves connected to the pipes by shaft makers are installed in the over and under pressure chambers, and rotary metal rods are pivotally mounted at their ends. Inflatable perforated pipes and wires of the mechanism of action are mounted on coils under the casing on the rear wall. The even and odd rows of electromagnetic cranes are interlocked by a casing and connected to a time relay using an electric circuit. The frame with forming walls can be located above the trench and is equipped with a receiving chamber and an inclined chain-slat (s) conveyor (s).

 Known devices have poor performance.

 The aim of the invention is to increase productivity and reduce material consumption.

This is achieved by the fact that between the two guides on which the gantry crane with the loading device is located, several devices for forming mounds are installed in a row, each such device is equipped with shaping walls (equipped with horizontal mine shafts and support wheels), made rotatable around a stationary vertical support, shaping walls have a slope ^of 10-50 and are equipped with an overpass. The devices are paired and interconnected by a single rotary wall.

 Figure 1 shows a device for processing an organic substrate, plan; in FIG. 2 same, cross section; figure 3 the same plan, section; figure 4 the same, (second option) execution plan; figure 5 device for the formation of barrows.

An apparatus for processing organic substrate consists of a fixed support 1 which is pivotally connected to the frame wall forming the radially-2, running wheels resting on the wall frame 3. rigidly fixed formative transverse wall 4. In the upper base of the radial wall has a slope ^of 10-50 and equipped with pipe-mines 5, which are installed in a horizontal plane. Pipes 5 may have a slight bend, which should be made in such a way that when rotating around an axis they describe the shape of a circle (Fig. 1) and create shafts of different diameters (Fig. 3). On the walls 2, an overpass 6 with a ladder designed for the passage of maintenance personnel for seeding with earthworms is rigidly fixed as the mound is loaded with an organic substrate.

 The radial wall 2 is made rotatable around a fixed vertical support and is designed to form mounds. The same devices for the formation of barrows are installed in a row and paired. Between the two forming mounds, a fixed support 7 is mounted on which a pivoting forming wall 8 is pivotally mounted.

 On the fixed supports 1 and 7, a current collector 9 is installed, holes 10 are made on the front and rear walls 2 and 8, the diameter of which is equal to the inner diameter of the pipe-mines 5. The holes 10 are designed for air in and out of the mines 11 through the pipe-makers 5. On wall 8 has a casing 12, under which there are coils 13 with wound wires 14 of the impact mechanism. Pipes 5 are installed in rows on several tiers. In the middle of the pipes 5 by means of hinges 15, rotary metal rods 16 are fixed (Fig. 5).

 The current collector 9 consists of a metal magnetic rod 17, a stainless steel ring and a casing 19 (FIG. 2) made of a non-conductive material. The wires of the action mechanism are periodically connected to the ultrasound source 20 and the winch 21. The driving wheels 3 are installed under the casing 22. The winch 21 is equipped with an electric motor 23. Guides 24 are installed along a number of barrow forming devices on which two-gantry gantry cranes of the loader-loader 25 are installed, containing steel trusses 26, equipped with trolleys 27, a grab and a lifting mechanism. The nutrient medium from the organic substrate is transported by motor vehicles 28 (dump trucks). Biohumus is transported to the fields by car or by car designed to make organic fertilizers. The territory of the worm water is fenced with a concrete or reinforced concrete wall 29, contains a gate 30. Behind the worms there is a liquid collector 31, equipped with an electric pump 32 and a flexible hose 33.

 The device can be made in the second embodiment, which differs from the first in that an overpressure chamber 34 is provided on the front wall 2, equipped with a fan 35. The latter is equipped with an electric motor 36, electric heating elements 37 and a time relay 38. The overpressure chamber 34 is connected to pipes 5 so that around several pipes 5 with overpressure there is one pipe connected to atmospheric pressure and is located in the center of the circumference of the pipes (FIGS. 2 and 5). Pipes connected to atmospheric pressure are designed to remove saturated carbon dioxide, i.e. to improve aeration of the culture medium. Heating elements 37 are used only in the cold season.

 The device can be made in the third embodiment, which differs from the first two in that instead of the fixed support post, infinite guides 39 are mounted on two levels (above and below), on which the rollers 40 are mounted. The radial forming wall 2 is made rotatable only at the ends of the guides 39.

 The device operates as follows. On motor vehicles 28, various components of the nutrient medium from an organic substrate are transported. The nutrient medium is dumped onto the site using a tipper device. The nutrient medium from the various components of the organic substrate is mixed into a homogeneous mass using a grab, trolley 27 and a lifting mechanism and loaded into the inter-wall space of walls 2 and 8. When loading the organic substrate and unloading the biohumus, the undercarriage moves the loader 25 over the devices where the barrows. Drive wheels (not shown in the drawing) are driven by an electric motor. At the ends of the guides 24 installed stops, trip switches and rail anti-theft grips (not shown). The lift captures, lifts and moves the organic substrate (manure, peat, straw.) Into the inter-wall space of walls 2 and 8 and, using the drive trolley of the lifting mechanism, the grab is raised and lowered. With the help of hydraulic cylinders, the jaw is brought into operation.

 The loading of the organic substrate from the vehicles 28 into the device for forming mounds is carried out through the open gate 30, it can be done daily or periodically depending on the receipt of the amount of volume of the mass. The mass of the organic substrate is discharged into the inter-wall space of walls 2 and 8 between the pipes 5, when it falls, the nutrient medium is compacted, fits tightly to the pipes 5, forming horizontal shafts 11. When the nutrient medium falls on the pipe 5, the latter rests with a metal rod 16 on the downstream pipe, which in turn rests on the next, lowermost pipe 5 rests on soil or a concrete base.

As soon as the bottom is filled with a nutrient medium, a certain amount of earthworms is introduced into this mass, earthworms with a mass of biohumus can be introduced from the neighboring mound, where they multiplied and are abundant. Earthworms penetrate the mass, are evenly distributed in the nutrient medium. After a certain period of time, the loading of the medium continues again. The nutrient medium is laid in the form of a mound, while layer-by-layer laying of an organic substrate with layer-by-layer sowing by earthworms is performed. As soon as the mass of the organic substrate reaches the upper base, they close the electric circuit supplying the electric motor 23, which rotates the winch 21. The winch uses a cable to move the frame with forming walls 2 to another place. In this case, the frame 2 rotates around a fixed support 1, the wires 14 of the mechanism of action, wound on a reel 13, under the casing 12 are unwound and moved along the shafts 11. The pipes 5 move, form the shafts 11. When moving the pipes 5, the metal rods 16 move from the resistance of the nutrient medium up, rotate on hinges 15 to 90 ^about and are installed from a vertical position to a horizontal.

 After moving to a new place, the vertical rods 16 from the action of kinetic energy from its own weight moves from horizontal to vertical position. Again, the organic substrate is loaded between the rows of pipes 5 and layer-by-layer sowing by earthworms, when the nutrient medium falls, it becomes denser. In each mine 11 air moves and air circulation is provided, the nutrient medium is enriched with air (oxygen).

Attendants move along overpass 6 and, using special devices, uniformly plant earthworm surfaces at all levels with earthworms. It is possible to produce layer by layer inoculation with earthworms with a mass of biohumus, without separating the worms from the habitat, but moving the biohumus mass with worms. All technological operations are repeated. As soon as the frame with the forming walls 2 makes 3/4 of a revolution around the fixed support 1, the forming wall 8 is unlocked with hooks and rings located on the fixed support. The edge of the frame of the forming wall 8 is connected to a fixed support using a winch cable 21 (not shown). Then close the electric circuit that feeds the electric motor 23, which rotates the winch 21. The winch moves the wall 8 on the wheels 3, turning it 180 ^about around the fixed support 7. As soon as the forming wall 2 moves to the fixed support (another mound) the end of the frame of the wall 8 fixed to the support 1 (see figure 1) using hooks and rings. Further, all technological operations of loading and forming mounds are repeated. The mound is covered with straw above, which is moistened. During precipitation in the form of rain, water flows down the inclined surface of the mounds and accumulates in the sump 31.

 As necessary, it is used to moisten the nutrient medium in the mounds using a pump 32, equipped with an electric motor and a flexible hose 33.

 In the cold season, the mound is covered with a layer of straw and plastic wrap. This creates good thermal insulation. In a nutrient medium, earthworms grow, develop and multiply. As soon as earthworms process the organic substrate into biohumus, the wires 14 located in the shafts 11 are connected to each other in vertical rows. Then the fixed metal support 1 is connected to the ultrasound source 20. Under the influence of elastic ultrasonic vibrations, earthworms move from the center to the periphery. After a certain period of time, connect a vertical row of wires 11 located near and coaxially to the support with an ultrasound source.

 Under the influence of elastic ultrasonic vibrations, earthworms from all layers move from the center to the edge. Then, after a certain period of time, the vertical rows of wires are sequentially connected to an ultrasound source. In all layers, as wires 11 are connected, earthworms move from vermicompost beyond the mound onto spread tissue. The tissue is shaken off and the worms are collected in a box (not shown in the drawing).

 After removing earthworms from the habitat, the wires 14 are disconnected from the pipes 5 and attached to the winch. Close the electric circuit that feeds the electric motor 23, the rotating winch 21. The winch 21 sequentially removes the wires from the shafts 11, winding them again on the coils 13.

 The device can work in the second embodiment. The second option differs from the first in that after a certain period of time, the time relay 38 closes the electric circuit supplying the electric motor 36, which rotates the fan 35. The fan creates excessive air pressure in the chamber 29 and the shafts 11 located in the circumference of the pipe, and the shafts connected with atmospheric air (figure 2). Air passing through the layers of the nutrient medium removes air enriched in carbon dioxide through the central shafts 11 and pipes 5, aerates all layers of the nutrient medium well, enriching them with oxygen. In the cold season, they additionally close the electric circuit that feeds the electric heating elements 37 that heat the air, while the supply of fresh air to all layers of the nutrient medium is carried out by a warm stream.

 The device can operate in the third embodiment, which differs from the first two in that instead of the fixed support post, endless guides 39 are used, located in the center of the collar at two levels (top and bottom), they have rollers 40 installed, while wall 2 moves parallel along collar and rotates only at the ends of the guides. While laying the organic substrate is made in the form of an elongated pyramid (figure 4).

 The use of the invention will improve productivity and reduce material consumption.

Claims (1)

DEVICE FOR PROCESSING ORGANIC SUBSTRATE IN BIOGUMUS, containing a base, in the center of which a support is fixedly mounted, shaping walls, a mechanism with a loading installation, characterized in that the shaping walls are provided with horizontal shaft formers and support wheels and are rotatable around the vertical support, while the shaping walls are the upper base are radially slope 10 - 50 ^o and rack for the passage, wherein the loading mechanism is configured in the form of installation of the gantry crane, and Ba REPRESENTATIONS performed several and they are arranged in a row, and paired with each other and connected to the rotary wall.

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