RU2054253C1 - Device for growing earthworms - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has movable covered frame 1 and winches 5. Suspended from winch cables is clamp forming device with forming walls 1 and shaft makers 12. Device is designed for vertical displacement. Installed in upper base is horizontal scraper conveyor and container 15 installed close to conveyor for vertical displacement. Container has chain-slat conveyor 16 and screw-type lifting mechanism 20. At different levels of biologically formed humus mass several rows of wires of acting mechanism are arranged. One end of wires has ring. Wire rings are periodically connected with ultrasound source and with winch. EFFECT: enhanced quality of operation. 3 dwg

Description

 The invention relates to agriculture, to vermiculture.

 A device for removing earthworms from the habitat containing a container for biohumus mass, an impact mechanism and a container for collecting worms is known. The tank is equipped with hollow vertical shafts for installing an impact mechanism in them, which is made in the form of pipes connected to an ultrasound source having a time relay.

 A disadvantage of the known device is the high material consumption (requires a lot of concrete) of the pipe; large volumes of soil must be moved during the construction of the trench; a long process of removing earthworms from the habitat, as part of the worms moves to the side, in part only up.

 The aim of the invention is to reduce material consumption and accelerate the removal of worms.

 This is achieved by the fact that the device is equipped with a movable covered frame and a winch, on the cables of which a device for forming collars is suspended, consisting of forming walls and shaft formers, the device is made with the possibility of vertical movement. A horizontal conveyor is installed in its upper base, next to it is a container made with the possibility of vertical movement and equipped with a screw lifting mechanism and a chain-slat conveyor. At different levels of biohumus mass there are several rows of wires of the mechanism of action, one end of the wires is equipped with a ring. The rings are periodically connected to the ultrasound source to the winch.

 The novelty of the claimed technical solution is due to the fact that due to the use of ground storage with the help of the forming walls of the device for forming a shoulder, the need for concrete trenches or ground worms is eliminated, this leads to savings in building materials.

 Due to the use of flexible wires of the mechanism of influence located in rows at several levels, the process of separation of earthworms from the environment is accelerated, as the worms will move from top to bottom. Moreover, these wires are easily removed by a winch.

 In FIG. 1 shows a device, a cross section, a view from the front side; in FIG. 2 the same plan; in FIG. 3 same, side view.

 The device consists of a frame 1, with a cap 2 in the upper base and wheels 3 in the lower base. Wheels 3 are mounted on guides 4. A winch 5 is mounted in the upper base of the frame, equipped with an electric motor 6 and connected to the device for forming a collar 8 using cables 9 and rollers 10. The device is equipped with forming walls 11 and shaft shafts 12. A horizontal scraper conveyor 13 is installed in the upper base of the device 7, equipped with an electric motor 14. The device 7 is vertically configured moving ceiling elements.

 On one side of the frame there is a container 15 for supplying a nutrient medium to the collar 8, made with the possibility of vertical movement and equipped with a chain-slat conveyor 16, lower 17 and upper 18 drums. The conveyor and the drums are equipped with electric motors 19, the capacity 15 of the screw lifting mechanism 20, which receives the drive from the electric motor 21 by means of a chain gear 22. The screw lifting mechanism 20 is mounted on the frame.

 The capacity 15 in the upper base is in contact with the micro switch 23, in the lower base with the micro switch 24. The micro switches 24 and 23 are connected to the electric motor 21 by an electric circuit. Across the collar 8 in the layers of the biohumus mass or the nutrient medium, several rows of flexible wires 25 of the mechanism of action are located. One end of the wires 25 extends beyond the shoulder 8 and is provided with rings 26. The rings 26 are periodically connected to an ultrasound source 27 or a winch 28 using cables 29. The winch 28 is equipped with an electric motor 30.

 On vehicles 31, a nutrient medium is transported from the organic substrate and discharged into a container 15. The device is equipped with a receiving chamber 32. At the end of the production line, near the forming walls, a plate 33 is pivotally suspended contacting the microswitch 34. Narrow slots 35 are installed on one longitudinal side of the forming walls 11. for installing wires 25 and rings 26 beyond the shoulder 8. Each shaft 36 is connected to the fan 37 using pipes 38. The fan 37 is equipped with an electric motor 39 and a time relay 40, source st 27 trazvuka time relay 41 connected to an electric bell 42 by means of an electrical circuit.

 The device operates as follows.

 A plastic film is spread over the entire area of the pile. On vehicles, a nutrient medium is transported from an organic substrate and dumped into a container 15 using a tipper device. The electric circuit feeding the electric motor 21 is closed, which rotates the sprocket of the screw lifting mechanism 20. The latter drives the chain 22 in translational motion.

 Using a screw lifting mechanism 20, the container 15 moves up. As soon as the container 15 moves to the proper point, the container contacts the microswitch 23, which opens the electric circuit supplying the electric motor 21, and closes the electric circuit supplying the electric motors 14 and 19. In this case, the movement of the container 15 is stopped, and the electric motor 19 in the translational movement of the chain using a slatted conveyor 16, the nutrient mixture moves from the tank 15 to the drums 17 and 18, which grind the mass and feed it into the receiving chamber 32.

 The electric motor 14 drives the horizontal conveyor 13, moving the nutrient medium along the device 7. In this case, it is evenly distributed over the entire area of the shoulder, while the forming walls 11 form a mass in the shoulder and create smooth smooth walls around the entire perimeter of the shoulder.

 Mine producers 12 form mines inside the nutrient medium in such a way as to provide air to all points at all levels, for breathing and normal life of earthworms. As soon as the nutrient medium moves to the end of the line, the mass falls onto the plate 33. The plate 33 moves (pivots) and contacts the microswitch 34, which opens the electric circuit supplying the electric motor 14 and closes the other electric circuit supplying the electric motor 21. In this case, the electric motor 21 rotates the sprocket of the screw lifting mechanism 20 in the opposite direction. Using a screw lifting mechanism 20, the tank moves down to its original position. As soon as the container 15 has moved to the proper point, it is in contact with the microswitch 24, which opens the electrical circuit supplying the electric motor 21.

The surface of the nutrient medium from the organic substrate is populated with earthworms at the rate of 2-3 kg per 1 m ² . Worms penetrate the nutrient medium, begin to grow and multiply. As soon as the worms eat up part of the nutrient medium, they close the electric circuit supplying the electric motor 6, while the electric motor rotates the winch 5. The winch moves the device 7 to form the shoulder up, so that 1 / 2-1 / 3 of the shaft builders are in a nutrient medium, and the rest is above the surface of the nutrient medium. Then, wires 25 are passed through slots 35 in the forming walls 11 and installed across the shoulders 8, the rings 26 being outside the shoulder 8.

 Then again, on vehicles 31, a nutrient medium is transported from the organic substrate and dumped into the tank 15. The electric circuit feeding the electric motor 21 is closed, which rotates the sprocket of the screw lifting mechanism 20. The latter drives the chain 22 in translational motion. Using the screw lifting mechanism 20, the tank 15 moves up.

 Further, all technological operations are repeated. As soon as the nutrient medium is laid and wires 25 are laid across the shoulders at different levels on several tiers, the electric circuit that feeds the electric motor 39 is closed. The electric motor rotates the fan 37, which creates air flow and excess pressure, which is transmitted through the pipes 38. Compressed air, moving through the layers of the nutrient medium, it is enriched with oxygen and creates normal conditions for the growth of the development of earthworms. Time relay 40 periodically turns fan 37 on and off. As soon as collar 8 reaches a height of 3-4 m and the nutrient medium is completely processed by earthworms into vermicompost, earthworms are removed from the habitat, therefore, certain sizes of fabric are spread around the collar. The rings 26 of wires 25 are connected in tiers using wires. A wall-forming wall 11, a horizontal scraper conveyor 13 are connected to the ultrasound source. Ultrasonic vibrations repel the worms from their environment and they move to the lower tiers.

 After a certain period of time, the electric circuit supplying the ultrasound source 27 is opened and the electric circuit supplying the electric bell 42 is closed. The ultrasound supply is cut off and a conditional signal is supplied to the operator. It connects the top row of wires 25 in addition to the ultrasound source. In this case, ultrasound penetrates the upper layers of the biohumus mass and displaces earthworms from it, they leave it and move down. After a certain period of time, the time relay 41 again opens the electric circuit supplying the ultrasound source, and closes the electric circuit supplying the electric bell 42.

 Further, all operations are repeated until all earthworms are removed from the habitat. As earthworms creep out of the habitat. As the earthworms creep out of the habitat, the tissue is collected and the worms are shaken out in a box. Boxes are packed and sent for processing for meat flour or for reproduction. After removing the earthworms, the wire 25 is removed using the winch 28, for this the cable 29 is connected to the rings 26 and the electric circuit feeding the electric motor 30 is closed. The latter rotates the winch 28, which, winding the cable, moves the wires 25 from the collar 8. After removing all wires 25 is moving the device to another place. To do this, connect the winch 28 to the frame 1 and close the electric circuit supplying the electric motor 30, which rotates the winch 28 and moves the frame 1 using the wheels 3 along the guides 4 to another place.

 The use of the invention in the national economy will reduce material consumption and accelerate the removal of worms from the environment.

Claims (1)

 A device for growing earthworms containing a container for biohumus mass, a mechanism for collecting worms, an apparatus for forming collars from forming walls, characterized in that it is equipped with a movable covered frame and winches, on the ropes of which is suspended an apparatus for forming drills, which has shaft makers and is made with the possibility of vertical movement, while the installation has a horizontal scraper conveyor in the upper base and a nearby container with the possibility of vertical movement it can be operated by means of a screw lifting mechanism and with a chain-slat conveyor, and the installation at different levels has several rows of wires of the action mechanism, at one end of which are rings installed with the possibility of periodic connection with the winch, and an ultrasound source.

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