RU2084144C1 - Apparatus for withdrawing worms from habitat - Google Patents

Abstract

FIELD: agriculture, in particular, vermiculite culture. SUBSTANCE: apparatus has hermetically sealed trench and worm withdrawal mechanism. Trench has drain pipe system. Worm withdrawal mechanism is formed as conveyor with belt made from high-strength fabric and provided with windows and inclined pivoting trays, whose ends are connected with tension drums suspended on fixed immovable support formed as pendulum. Shafts of tension drum are connected with winch through flexible tie-rod. Drums formed as ponges or brushes are arranged at end line of conveyor and containers are positioned below drums. Apparatus is further provided with actuating mechanism having flexible wires extending transverse to trench within layers of biological humus mass at different levels. Wires are directed through branch pipes and tubes and are periodically connected with ultrasound source and winches. Tubes and branch pipes are made spiral and provided with slit. Doors are pivotally attached to concrete walls of trench. Lower end of conveyor belt laid on biological humus mass is provided with plates having vertical openings for passage of worms. Vertical openings are connected with deformed casings positioned at one side direction. Wires may be directed through openings in concrete walls of horn-shaped trench or through tubes with longitudinal slit. Tubes may be provided with rollers and housings. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 4 cl, 6 dwg

Description

 The invention relates to agriculture, to vermiculture.

 In the invention according to patent EP N 0326069, class. C 05 F 9/02, 1984 / decision to issue a copyright certificate / a device is described for removing earthworms from the habitat, including a trench and an extraction mechanism, the trenches are sealed, have a drainage pipe system and water supply, and the extraction mechanism is made in the form conveyor belt, the belt of which is made of fabric and equipped with windows and inclined pivoting trays, on which metal rods are attached, connected to tension drums, which are suspended on a fixed support in the form of a pendulum, and the axis is tensioned of the drum are connected to the winch using flexible traction, while on the inner and outer surfaces of the belt on the end line of the conveyor there are sponge or brush drums with containers for collecting worms placed beneath them, the drum mounted on the inner surface of the belt at an acute angle to the tape, in addition, the mechanism has a time relay, interlocked with a drum and winch drive.

 It is also known a device for removing earthworms from the habitat, containing a container for biohumus mass, an impact mechanism and a container for collecting worms. The tank is equipped with hollow vertical shafts for installing an impact mechanism in them, which is made in the form of a series of pipes connected to an ultrasound source having a time relay (EP N 0326069).

 A disadvantage of the known devices is the complexity of the design and the lengthy process of removing worms from the habitat, as the worms move to the side along horizontal and inclined lines and part moves up.

 The aim of the invention is to simplify the design and accelerate the removal of worms from the habitat.

 This goal is achieved by the fact that the impact mechanism is made in the form of flexible wires located across the trench in the layers of biohumus mass horizontally and parallel to each other at several levels, the wires are passed through pipes and connected to winches, the pipes in the cross section are spiral shaped, equipped with a longitudinal slot and a lid, the pipes are equipped with rollers and casings, the pipes are mounted in the concrete walls of the trench, the lower part of the conveyor belt is supported by the biohumus mass and provided with plates in which vertical holes for the passage of earthworms. The holes are connected to the deformed cones and are located in one-sided direction.

 The novelty of the claimed technical solution is due to the fact that the use of an impact mechanism made in the form of flexible wires located across the trench in the layers of the biohumus mass horizontally and parallel to each other, at several levels, allows the targeted action of ultrasound on earthworms from the bottom up, resulting in accelerated removal worms from the habitat from the bottom up.

 Due to the use of a tape (in the conveyor) equipped with plates in which vertical holes for the passage of earthworms are located, connected to the deformed cones located in the one-way direction, or through the use of tubes mounted in the tape, the design of the mechanism for extracting worms from the habitat is simplified .

 According to patent, scientific and scientific-technical materials, such a combination of features was not found that allows us to judge the novelty and materiality of the features.

The invention is illustrated by drawings, where:
in FIG. 1 shows a device, side view;
in FIG. 2 the same, from the front side;
in FIG. 3 shows the mechanism of action;
in FIG. 4 the same, top view;
in FIG. 5 same, side view;
in FIG. 6 shows a device, a top view.

 The device consists of a concrete trench 1, on its longitudinal walls are guides 2, in which the frame 3 is mounted using rollers 4. A winch 5, equipped with an electric motor 6, is pivotally mounted on the frame 3. The frame 3 is arranged to move in a horizontal plane outside the trench 1. The frame 3 is connected to the frame 7. The frame 7 is made of horizontal pipes, to which the shaft-forming machines - aerators 8, made of perforated pipes, are perpendicularly attached. The impact mechanism is made in the form of flexible wires 9, periodically connected to an ultrasound source 10. The wires 9 can be located across the trench 1 in the layers of biohumus mass at several levels in several versions, for example, in the walls of the trench 1, pipes 11 with bent horizontally are located on one side nozzles made in the form of a spiral and containing a longitudinal slot 13 (Fig. 2). Doors 14 are pivotally fixed above the longitudinal slit 13. The doors 14 contain holes 15 in the form of a slit through which wires 9 are passed. The wires 9 are periodically connected to the winch 16. The winch 16 is connected to an electric motor 17. An ultrasound source 10 is connected to a time relay 18.

 The wires 9 may be located in the second embodiment. The second option is the same as the first, differs from it in that the longitudinal slot 13 is made in the shape of a horn (Fig. 2), which is located along the trench on both sides. The slots are directed towards each other.

 The wires 9 can be located in the third embodiment. The third option is the same as the first and second options, differs from them in that in the holes of the pipes 11 are fixed rollers 20, equipped with casings 21. The pipes 11 are mounted in the walls of the trench 1 with overlap on both sides.

 The fourth option is the same as the first option and the second, differs from them in that the wires 9 and the nozzles 12 are located at an acute angle with respect to the pipes 11. In the trench 1 there is a compartment 22, there are winches 16 and electric motors 17.

 The wires 9 can be located in the fifth embodiment. The fifth option is the same as the first or fourth options, differs from them in that the winch 16 is mounted on a support post 23 made in the form of a quadrangle, triangle, polygon or oval. The winch drum 16 is arranged to move in a vertical plane and is fixed at a certain level (height) using bolts 24.

 The wires 9 can be located in the sixth embodiment. The sixth option is the same as the first to fifth options, differs from them in that the pipes 11 are arranged vertically, and the winches 16 and electric motors 17 are located on the soil surface (Fig. 5).

 The wires 9 can be located in the seventh embodiment. The seventh option is the same as the sixth option, differs from it in that the winches 16 are mounted on one shaft 25 and are equipped with one electric motor 17. The mechanism for extracting and selecting earthworms 26 is made in the form of a conveyor belt, in which the lower tape 27 is supported by a nutrient environment and biohumus. The tape 27 contains vertical holes 28 for the passage of earthworms. The holes 28 are connected with the deformed cones 29 located in one direction. The extraction mechanism 26 is provided with an electric motor 30. On the inner and outer surfaces of the tape 27 are installed drums 31 and 32 made of a sponge or brush. The drums 31 and 32 are equipped with electric motors 33 and 34. Under the tape 27 there are containers 35 for collecting worms. The drum 31 is mounted on the inner surface of the tape 27 at an acute angle. Electric motors 17, 30, 33, 34 are equipped with a time relay 36. Tubes 37 can be passed through tape 27 and rigidly fixed in a horizontal plane. The frame 3 on both sides is connected to the winches 38 and 39 by means of ropes 40. The winch 38 is equipped with an electric motor 41. The winch 39 is equipped with an electric motor 42. On the frame 3 there are fixed hooks 43 in contact with microswitches 44 and 45. The time relay 18 is connected to the sound signaling device 46 using an electric circuit. In a vehicle 47, a nutrient medium is driven up. Using the loader-reloader 48, the nutrient medium is transferred from the vehicle 47 to the trench 1. The microswitch 49 is fixedly mounted in the trench at the highest level. The microswitch 49 is connected to the electric motors 6 by an electric circuit.

The device operates as follows. At the bottom of the concrete trench 1, a concrete frame 7 is installed with shaft-forming aerators 8. On vehicles 47, nutrient medium is transported from an organic substrate. Using a loader-reloader 48, the nutrient medium is loaded into the trench 1 and all sections are evenly filled with it, the surface layer is leveled, the nutrient medium is moistened with hoses from the water supply system (not shown in the drawing). The surface of the biohumus mass is evenly seeded with earthworms at the rate of 2 3 kg of worms per 1 m ² . The nutrient medium is covered with a thin layer of straw. Worms penetrate the nutrient medium, begin to live, grow, develop and multiply. As soon as the worms eat up part of the nutrient medium, we close the electric circuit supplying the electric motor 6. The electric motor 6 rotates the winch 5. The winch 5 moves the frame 7 from the bottom up to a certain distance so that 1/2
1/3 of the miners 8 were located in a nutrient medium, and the rest was located above this level. As soon as the frame 7 is mixed up to a certain level, we open the electric circuit supplying the electric motor 6. Then we open the doors 14 (we turn 90 ^o ). Wires 9 are installed horizontally inside the spiral through an elongated slot 13. After installing the wires 9, the doors 14 move down from their own weight and pass the wires 9 through the hole 15. In parallel to each other, we install the wires 9 on the surface of the nutrient medium under the frame 7. After installing the wires 9 on the transport means 47 transport the nutrient medium from the organic substrate, with the help of a loader-reloader 48, the nutrient medium is loaded into the trench 1 and all sections are evenly filled up and the surface level th layer, moisturize the nutrient medium using hoses from the water supply system (not shown in the drawing). Worms in a nutrient medium actively develop and multiply. Air enters into all layers of the nutrient medium through the mines formed by the mine-forming aerator 8. This does not interfere with the normal growth and development of worms located in the lower layers. Once the layering of the nutrient medium has reached a certain level, again parallel to each other, we install wires 9 on the surface of the nutrient medium under the frame 7, open the doors 14 (we rotate them 90 ^° by hinges). The wires 9 are installed in a horizontal plane inside the spiral pipe 11 through the profile slot 13. After installing the wires 9, the doors 14 move down from their own weight and pass the wires 9 through the holes 15. Then all technological operations are repeated. After filling the trench with the nutrient medium above the hole 15, the nutrient medium cannot penetrate the hole 15, since it is blocked by the door 14. Therefore, there is a guarantee that the pipes 11 and the nozzles 12 will not be blocked. As soon as trench 1 is filled with nutrient medium, earthworms will process it into vermicompost. We close the electric circuit supplying the electric motors 6. The electric motors 6 rotate the winch 5, using the ropes of the winch 5 the frame 7 is moved from bottom to top. As soon as the frame 7 moves to a certain point, it contacts the microswitch 49. The micro switch opens the electric circuit supplying the electric motors 6 and closes the electric circuit supplying the electric motor 42. In this case, the electric motor 6 stops moving up the frame 7, and the electric motor 42 rotates the winch 39. The winch and 39 by a cable 40 moves in the direction of frame 3 beyond cocoonery. As soon as the frame 3 with the frame 7 moves beyond the limits of the wormhole to the proper point, the hook 43 contacts the micro switch 45. The micro switch 45 opens the electric circuit supplying the electric motor 42. In this case, the electric motor 42 stops moving the frame 3 and the frame 7. Wires 9 located on at the lowest level, connect to the ultrasound source 10, and on the surface of the trench 1 we install a mechanism 26 for extracting earthworms, made in the form of a conveyor belt, in which the lower tape 27 is supported nutrient medium and biohumus. In this case, the ultrasound source 10 creates mechanical elastic vibrations. During the passage of ultrasound along the mass of vermicompost, ultrasonic waves penetrate the vermicompost mass layer around the network of wires 9 located on the lower rows, the worms leave their environment from the influence of ultrasonic waves and move from the lower layer to the upper layer. After a certain time interval, the time relay 18 opens the electric circuit supplying the ultrasound source 10, and closes the electric circuit supplying the sound signaling device 46. In this case, the ultrasound source stops creating mechanical elastic vibrations of the ultrasound. The buzzer 46 signals the operator. The operator connects the wire 9, located on the second level, to the source of ultrasound 10 and closes the electric circuit supplying the source of ultrasound 10. In this case, the source of ultrasound 10 creates mechanical elastic vibrations. When ultrasound passes through the mass of vermicompost, ultrasonic waves again penetrate the vermicompost mass layer around the network of wires 9 located on the lower two rows. From the effects of ultrasonic waves, the worms leave their habitat and move from the lower layer to the upper layers. Further, all technological operations are repeated.

 As soon as the earthworms move to the surface of the biohumus layer, they penetrate through the hole 28 onto the tape 27. After a certain period of time, the relay 36 activates and closes the electric circuit supplying the electric motors 30, 33, 34. At the same time, the electric motor 30 rotates the drum and drives translational movement of the tape 27. Worms move on the inner surface of the tape. Vertical holes 28 located on the tape 27, improve the penetration of worms on the tape and reduce their loss during movement. Electric motors 33 and 34 rotate the drums 31 and 32. The spools 31 and 32 are wound from the inner and outer surfaces of the tape 27 into the container 35. As soon as the tape 27 makes one revolution, the hook 50 contacts the micro switch 51. The micro switch 51 opens an electric circuit supplying electric motors 30, 33, 34, and closes an electric circuit supplying a time relay 36. Further, all technological operations are repeated. After the earthworms are completely removed from the habitat from the trench 1, the mechanism 26 is removed. Then, the wires 9 are sequentially removed from the biohumus mass using a winch 16.

 To remove the wires 9 from the biohumus mass, we fix the end of the wire to the winch 16 and close the electric circuit supplying the electric motor 17. At the same time, the electric motor 17 rotates the winch 16 and the wire 9 is pulled (removed) from the biohumus mass. Using the winch 16, it is possible to sequentially remove several wires 9 simultaneously, both in the horizontal and in the vertical plane. After removing the wires 9 from the biohumus mass using a loader-loader 48, the biohumus mass is loaded from the trench into the vehicle 47 with subsequent transportation to the field. The worms in containers 35 are packed in boxes and sent for reproduction or for processing to meat flour.

 The use of the claimed technical solution in the national economy of the country will increase labor productivity.

Claims (4)

 1. A device for extracting earthworms from the habitat containing trenches and an extraction mechanism, characterized in that it is equipped with an impact mechanism, and the trenches are sealed concrete and have a drainage pipe system, and the extraction mechanism is made in the form of a conveyor belt, the tape of which is made of fabric and is equipped with windows and inclined pivoting trays, at the ends of which are fixed metal rods connected to tension drums, which are suspended on a fixed support in the form of a pendulum, and the axis n the heavy drum are connected to the winch using flexible traction, while on the inner and outer surface of the belt on the end line of the conveyor there are sponge or brush drums with containers for collecting worms placed under them, and the drum mounted on the inner surface of the belt is at an acute angle to the tape, in addition, the mechanism has a time relay, interlocked with the drives of the drums and winch, while the impact mechanism is made in the form of drives located across the trench in layers of biohumus mass on At several levels, wires are passed through nozzles and pipes with the possibility of periodic connection with an ultrasound source and winches, the pipes and nozzles in cross section are spiral shaped, equipped with a longitudinal slot, a door and mounted in the concrete walls of the trench, the lower part of the conveyor belt rests on the concrete mass and equipped with plates, in each plate there are vertical holes connected to the deformed cones located in one-sided direction.  2. The device according to claim 1, characterized in that the wires are passed through holes in a concrete trench made in the form of a curved horn.  3. The device according to claims 1 and 2, characterized in that the wires are passed through pipes with a longitudinal slot provided with rollers and casings.  4. The device according to claims 1 to 3, characterized in that tubes for passage of worms are passed through a flexible tape, which are rigidly fixed to the tape and are located in a horizontal plane.

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