RU2034459C1 - Device for breeding earthworms - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has earthworm breeding house. Frame with hollow perforated membranes made movable in vertical plane is hung inside breeding house, which is connected with a stock space by means of a window. Manure conveyer provided with turning yoke having the form of a pipe is set up in the window. Guiding ways are placed on lateral sides of a frame and endless rolled chains provided with scrapers are mounted inside them. Timer is engaged with chain drives, manure conveyer drives and illuminating lamps. Earthworm breeding house walls are made hermetic. The house may be mounted on supports and provided with discharging holes. EFFECT: improved design. 2 cl, 5 dwg

Description

 The invention relates to agriculture to vermiculture.

 A device for growing earthworms is known, including a worm water, in which a frame is suspended with hollow perforated partitions made to move in a vertical plane.

 A disadvantage of the known device is that it includes labor-intensive operations: loading manure into vehicles from the manure storage, transportation, reloading the nutrient medium into the trench, leveling the upper layer, unloading vermicompost.

 The aim of the invention is to improve the known technical solutions and increase productivity.

 This goal is achieved by the fact that in the wormhole suspended frame with hollow perforated partitions made with the possibility of movement in a vertical plane. The worm water is connected to the livestock buildings by means of a window in which a manure conveyor is installed, equipped with a swivel trunk made in the form of a pipe, on the sides of the frame there are rails in which endless roller chains are equipped with scrapers. The time relay is interlocked with chain and dung conveyor drives and lighting lamps. The water worm is made of reinforced concrete, made airtight, located on the support posts and equipped with airtight discharge hatches.

 The novelty of the proposed technical solution in comparison with the known ones is due to the fact that the worm water is connected to the livestock building, the sloping manure conveyor is equipped with a trunk, the frame with hollow partitions is equipped with mechanisms for moving and leveling the nutrient medium (manure), as a result of which labor-intensive operations are excluded: loading manure from manure storage in vehicles, transportation, loading of the nutrient medium into the trench, leveling the surface layer, unloading of vermicompost, as a result of o Increases productivity and reduces labor intensity, simplifies operation.

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

 In FIG. 1 shows a worm water, cross section; figure 2 is the same, a top view; figure 3 installation for growing earthworms, top view; figure 4 trunk for feeding manure into the worm; figure 5 longitudinal and transverse section of a worm, the second option.

 In the wormhole 1, on the movable frame 2, the frame 3 is suspended using ropes 4 and the winch 5. The winch 5 is equipped with a ratchet mechanism 6 and an electric motor 7. The frame 3 is equipped with hollow perforated partitions 8 that divide the wormhole 1 into sections 9. The hollow partitions 8 serve as mine shapers . Under the shaft 10 at the bottom of the worm water 1, drainage pipes 11 are mounted in reinforced concrete bases 11. The frame 3 is made with the possibility of movement in the vertical and horizontal planes. The wormhole 1 is connected to the livestock buildings 12 by means of the door 13 of the window 14, in the window 14 there is a manure conveyor 15 provided with a swivel trunk 16 made in the form of a pipe. The trunk 16 is pivotally suspended under the upper part of the inclined dung conveyor 15. The lower part of the trunk 16 is connected to the winches 17 and 18 by means of cables 4. The winches 17 and 18 are equipped with electric motors 19, 20. On the trunk 16 there are hooks 21 that are in contact with microswitches 22 , 23, 24. A plate 25 with microswitches 26 is hinged on the rear wall of the carcass 3. On the sides of the carcass 3 are rails 27 in which the manure spreader 28 is mounted, made in the form of an endless roller chain 29 provided with a scraper sides 30 and an electric motor 31. The horizontal manure conveyor 32 is equipped with an electric motor 33. The inclined manure conveyor 15 is equipped with an electric motor 34. The time relay 35 is connected to electric motors 33, 34, 19 and 31, and the light bulbs 36 are connected to the time relay 37 when help electric circuit. Worm water 1 is buried in the ground and consists of walls 38, roof 39. Roof 39 is mounted on rails 40 using rollers 41 and connected to winches 42 and 43 using ropes 4. The winch 42 is equipped with an electric motor 44, and the winch 43 is equipped with an electric motor 45 The roof 39 is in contact with the microswitches 46 and 47. Above the worm 1 is a loader-reloader 48, made in the form of an overhead crane. The frame 3 is provided with a hook 49. The hook 49 is in contact with the microswitches 50. The microswitches 50 are fixedly mounted on the wall 38 of the worm water 1 in one vertical line and are located at different levels, at an equal distance from each other. Microswitches 50 are connected to the electric motor 7 by an electric circuit. The frame 2 is equipped with rollers 51, mounted on the rails 52, is movable in the horizontal plane and connected to the winches 53 and 54 using cables 4. The winch 53 is equipped with electric motors 55. The winch 54 is equipped with an electric motor 56. The frame 2 is equipped with a hook 57, in contact with microswitches 58 and 59. The drainage pipes 11 are equipped with an electromagnetic tap 60. The drainage pipes 11 are connected to the pool 61. The water worm 1 is connected to the pool 61 by means of pipes 62. The pipes 62 are connected to the pool 61 by means of a pump 63. N coc 63 is provided with an electric motor 64. In the upper header 1 cocoonery microswitch 65 is in contact with the frame 3. Biogumus charged cocoonery of the vehicle 1 by means of the loader 48, loader.

 Installation can be performed in the second embodiment. The second option is the same as the first one, differs from it in that the walls 38 of the waterworm 1 are located on the supporting posts 66, a trench 67 is installed under the worms, it is located above the ground surface and is equipped with hermetic discharge hatches 68. In the wormhole, the roof 39 and the frame 2 are fixed. Hatch 68 is pivotally fixed to the bottom of the worm and is provided with a latch 69.

 The device operates as follows. The time relay 37 activates and closes the electric circuit supplying the lighting lamps 36, and closes the electric circuit supplying the time relay 35. At the same time, the lighting lamps illuminate the inner surface of the wormguard 1 with bright light 1. After a certain period of time, for example, after 3 minutes, the time relay 35 is activated and closes the electric circuit supplying electric motors 33, 34, 31, 19. At the same time, electric motors 33 and 34 provide translational movement of chains with scrapers, for example: electric motor 33 using trans a porter 32, a gearbox and a drive sprocket (not shown) provides the translational movement of the chain with scrapers and its rotation at one of the corners of the quadrangle of the manure channel and cleans the longitudinal and transverse manure channels and transportation of manure to the place of its discharge to the inclined conveyor 15 (to the drive station horizontal conveyor). The inclined conveyor 15 receives the manure from the horizontal conveyor 32 and moves it upward and with the help of the trunk 16 drops it onto the edge of the worm 1. Electric motor 19 slowly rotates the winch 17. The winch 17 slowly moves the trunk 16 in one direction using a cable 4. When the trunk 16 is moved, the manure is dumped along the path from the middle to the edge of the wormguide 1. As soon as the trunk 16 has moved to the proper point, the hook 21 is in contact with the microswitch 22. The microswitch 22 opens the electric circuit supplying the electric motor 19. In this case, the trunk 16 from the action of gravitational forces and own weight moves from an inclined position to vertical.

 As soon as the trunk 16 has moved to a certain point, the hook 21 is in contact with the micro switch 23. The micro switch 23 closes the electric circuit supplying the electric motor 20. The electric motor 20 slowly rotates the winch 18. The winch 18 slowly moves the trunk 16 to the other side using the cable 4. When moving the trunk 16, the manure is dumped along the path of movement of the trunk from the middle to the edge of the wormhole. As soon as the trunk 16 has moved to the proper point, the hook 21 is in contact with the micro switch 24. The micro switch 24 opens the electric circuit supplying the electric motor 20. In this case, the trunk 16 is moved from an inclined position to a vertical one due to gravitational forces and its own weight. As soon as the trunk 16 has moved to a certain point, the hook 21 is in contact with the micro switch 23. The micro switch 23 again closes the electric circuit supplying the electric motor 19. Further, all technological processes are repeated.

 The electric motor 31 moves the endless roller chains 29. The roller chains 29 move the scrapers 30. The scrapers 30 capture the manure from the manure conveyor 15 and move along the worm through the frame 3 in sections 9 formed by partitions 8. The scrapers 30 move the manure in the first row of sections , when moving the scrapers 30, the manure wakes up under the scrapers 30 and ends up in section 9. The scrapers 30 move the manure in sections 9 of the first row until all sections 9 are filled with manure to the upper base. In this case, the upper base serves as a floor for moving the mass of manure into the second row of sections 9. When filling all sections 9 of the second row, the upper base of manure 1 and 2 of the row serves as a floor for moving manure in 3.4. etc. rows of sections. The following components can be added to the dung mass: scraps of feed, green mass of plants, waste from grain processing (weed seeds, husks, dust) straw, flooring, sawdust, kitchen and dining wastes, and others.

 When moving manure with the indicated waste, they are mixed with manure; as necessary, the mass can be moistened with water. As soon as the manure moves to the very rear wall of the wormhole 11, the mass of manure presses the microswitch 26. The microswitch 26 closes the electric circuit supplying the electric motor 7. The electric motor 7 rotates the winch 5, with the help of ropes 4 it moves the frame 3 up to a certain height. As soon as the frame 3 moves to a certain height, for example, 1/3 of the height of the partitions 8 will be located in the dung mass, the rest will move above its surface. We open the electric circuit supplying the electric motors 7, 31, 33, 34 and 19. The worker descends into the worm water and sows earthworms in each section at the rate of 0.5-1.0 kg. Then again we close the electric circuit supplying the electric motors 31, 33, 34, 19. At the same time, work continues: the electric motor 33 provides translational movement of the chain with scrapers and cleans the longitudinal and transverse manure channels using a horizontal manure conveyor 15. The electric motor 34 provides translational movement of the chain with scrapers in the conveyor 15, receives manure from the horizontal conveyor 39, moves it up and drops it down with the help of the trunk 16. Electric wigglers 19 and 20 create a pendulum movement of the trunk 16, ensuring uniform distribution of manure on the floor surface of the wormguide 1. The electric motor 31 provides the translational movement of the chains 29 equipped with scrapers 30. The scrapers 30 capture the manure and move the manure, filling all sections of the frame 3. As soon as the mass of manure will move to the back wall of the worm water 1 the mass of manure again acts on the plate 25, moving it to the wall 38 of the worm water. The plate 25 presses the wall of the worm water 1 using the microswitch 26. The microswitch 26 closes the electric circuit supplying the electric motor 7. The electric motor 7 rotates the winch 5. The winch 5 uses the cable 4 to move the frame 3 with the hollow partitions 8 up. As soon as the frame 3 moves up to the proper height, the hook 49 contacts the micro switch 50. The micro switch 50 opens the electric circuit supplying the electric motor 7. The electric motor 7 stops moving the frame 3 up. After a certain period of time, the time relay 35 opens the electric circuit supplying the electric motors 33, 34, 31, 19, 20. In this case, the operation of the horizontal 32, inclined 15 conveyors, the scraper leveler 28 and the winches 17 and 18 is stopped. In worm water 1, under frame 3 in section 9, earthworms live, develop and breed. As they grow and develop, earthworms move to the upper layers of fresh manure and eat fresh nutrient medium. Hollow partitions 8 form shafts for aeration, air penetrates the shafts through the perforated openings of the partitions, providing earthworms with oxygen. As soon as the moisture content of the nutrient medium decreases to the minimum limits, we close the electric circuit supplying the electric motor 64. The electric motor 64 rotates the blades of the pump 63. The pump 63 delivers water from the pool 61 through pipes 62 through the drain pipes 11 to the shafts formed by the hollow partitions 8, to the level of the middle layer of the nutrient medium, then open the electric circuit supplying the electric motor 64. After 2.0–2.5 minutes we close the electric circuit supplying the electromagnetic tap 60. In this case, the water is th medium and using properties of hygroscopic manure water moves upwards. Excess water through the drainage pipes 11 and the shafts is discharged into the pool 61.

 Layering of manure and litter of a large thickness of 2.3 m will not adversely affect the growth and development of earthworms located at great depths, since all layers of manure with the help of mines are supplied with oxygen. After a certain period of time, the relay 37 is activated and closes the electric circuit supplying the electric lighting lamps 36. The lighting lamps 36 again illuminate the surface of the nutrient medium with bright light. Earthworms are nocturnal and are always in a dark place. When bright light appears, earthworms tend to quickly leave the surface of the nutrient medium and move to the lower layers of manure. After a certain period of time, for example, after 2-5 minutes, the time relay 35 is activated and closes the electric circuit supplying the electric motors 33, 34, 31, 19. Further, all technological operations are repeated.

 After filling the wormguide with a nutrient medium, and when it will be processed by earthworms into a biohumus mass, they close the electric circuit supplying the electric motor 7. Electric motors rotate the winches 5. Winches 5 with the help of ropes 4 move the frame 3 to the proper point. As soon as the frame 3 moves to a predetermined point, it contacts the microswitch 65. The microswitch 65 opens the electric circuit supplying the electric motor 7 and closes the electric circuit supplying the electric motor 44. The electric motor 44 rotates the winch 42. The winch 42 moves the cable 4 the roof 39 on the rollers 41 along the guides 40. As soon as the roof 39 has moved to a certain point, it contacts the microswitch 46. The microswitch 46 opens the electrical circuit supplying the electric the motor 44 and closes the electric circuit supplying the electric motor 55. At the same time, the winch 42 stops moving the roof 39. The electric motor 55 rotates the winch 53. The winch 53 by means of a cable 4 rollers 51 moves the frame 2 along the rails 52 to the proper point. As soon as it moves to the set point, the hook 57 is in contact with the microswitch 58. The microswitch 58 opens the electric circuit supplying the electric motor 55. The movement of the frame 2 is stopped.

 We close the electric circuit supplying the electric motor 64. The electric motor 64 rotates the blades of the pump 63 and delivers water from the pool 61 through pipes 62, through the drain pipes 11 to the shafts formed by the hollow partitions. The water supply is regulated so that each centimeter of the biohumus water layer is filled in 1-3 minutes. Earthworms cannot breathe without air and move from the lower layers to the upper. As they move, they are collected using traps, then packaged and sent for reproduction or processing for meat flour.

 As soon as the water level rises to the level of the surface of the nutrient medium, we open the electric circuit supplying the electric motor 64 and the electromagnetic valve 60. In this case, the operation of the pump 63 stops. The electromagnetic tap 60 closes. In water worm 1, we hold water for 0.5-1.0 h. As soon as all the worms are collected from the surface of the biohumus, we close the electromagnetic valve 60. The electromagnetic valve 60 opens, excess water drains from the worm through mines formed by hollow partitions (through drainage pipes 11 pool 61. As soon as all the water flows out of the worm water 1 into the pool 61, after 12-24 hours, the biohumus mass is transferred from the worm water 1 to the vehicle using a loader-reloader 48 and transported to the fields as fertilizer.

 The device can work in the second embodiment. The second option is the same as the first one, differs from the first option in that the biohumus mass is removed through airtight hatches 68. In this case, vehicles are installed under worms 1, the latches of one door 68 are unlocked, the door 68 opens and moves at one end from a horizontal position to a vertical, biohumus mass wakes up through the hatch 68 to the vehicle 70. The hatch 68 is designed so that the mass of the biohumus located above the hatch can load only one vehicle. By means of a vehicle, the biohumus mass is transported to the fields as a valuable fertilizer, and the hatch 68 is moved to its original position, the latch reliably fixes the hatch 68 in the proper position.

 The use of the claimed technical solution in the national economy will increase productivity and simplify operation.

Claims (2)

 1. INSTALLATION FOR GROWING RAINWORES, containing a livestock room connected to the worm using a window, characterized in that it is equipped with a frame with hollow perforated partitions made to move in the vertical and horizontal planes of the worm, and the manure installed in the window a conveyor having a swivel trunk made in the form of a pipe, while on the sides of the frame mounted rails in which endless rollers are placed e chain with scrapers, in addition, the installation is provided with time switch interlocked with drive chains and dung conveyor, and lighting lamps.  2. Installation according to claim 1, characterized in that the worm water is located on the supporting posts and is equipped with hermetically sealed hatches.

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