RU2034461C1 - Device for breeding earthworms - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has tanks placed in a trench 6 provided with hollow perforated membranes made movable in vertical plane. Tank 7, bottom 8 and lateral sides 9 of the tank are made of endless netted bands provided with drives. Drum axles are coupled by means of conical gears. Hollow film provided with mechanisms for its moving is positioned above the upper tank base at a given angle. EFFECT: enhanced efficiency. 2 cl, 5 dwg

Description

 The invention relates to agriculture, to vermiculture.

 A device and method for growing earthworms is known, including feeding the nutrient medium directly into the trenches under the slit floor of the livestock building where animals are kept.

 A disadvantage of the known device is that biohumus with earthworms is loaded into vehicles together with moving containers. When vermicompost is transported to the fields, containers must be unloaded using cranes or manually. These devices must not be used on walking grounds, since when rain or snow falls, the nutrient medium and earthworms can be washed away by the flow of water flowing from walking areas. In addition, in winter, autumn, spring, low temperatures negatively affect the growth, development and reproduction of earthworms.

 The aim of the invention is the improvement of the known invention and the expansion of its technological capabilities.

 This goal is achieved in that the tank for growing earthworms is equipped with hollow perforated partitions made to move in a vertical plane, the bottom and side walls of the tank are made of endless mesh tape. Each movable endless belt is equipped with drives, the axes of the drums are interconnected by means of final gears. Above the upper base of the tank at a certain angle of inclination is a hollow film, which is equipped with mechanisms for its movement.

 The novelty of the proposed technical solution in comparison with the known invention is due to the fact that due to the bottom and side walls of the tank made of endless mesh belts and axes of the drums connected by bevel gears and supplying them with drives, the biohumus is unloaded from the tank into vehicles . Due to the film, which is fixed above the tank at a certain angle, which is wound on one side of the winch drum, the other end of the winch is connected to the drum of the other winch using ropes, where the winch drives are interlocked with a rain sensor and a thermal relay, which makes it possible to automate the process covering the film in case of rainfall, low temperatures and opening the film after the end of the rain or increase in air temperature.

 According to scientific, scientific, technical and patent 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 an installation, side view; figure 2 is the same, a top view; figure 3 capacity for growing earthworms, a longitudinal section; figure 4 is the same, cross section; figure 5 options for execution.

 On the walking platform 1 there are boxes 2, feeders 3, drinkers 4. Under the slit floor 5 there is a trench 6, in which a container 7 for growing earthworms is installed. Capacity 7 is made of horizontal 8 and two vertical belt conveyors made of endless mesh tapes of flexible wire insulated with polymeric materials. The axis of the drums 10 using bevel gears 11 are interconnected. The drums 10 are equipped with electric motors 12. Inside the tank 7 parallel to and near the walls of the vertical conveyor belts 9 there is a frame 13 with hollow perforated baffle-mines. The frame 13 with the help of cables 14 is connected to the winches 15 and suspended from the beams using rollers. The winches 15 are equipped with electric motors 16. A strong, sealed film 17 is stretched at a certain angle to the upper base of the trench 6, it is wound around the winch drum 18, the other end of the film 17 is connected to the drum 19 using ropes 20. The winches 18 and 19 are located on different levels. The winch 18 is equipped with an electric motor 21, and the winch 19 is equipped with an electric motor 22. The electric motors 21 and 22 are connected to the moisture sensors 23 and the thermal relay 24 using an electric circuit. The moisture sensor 23 is made of a roofing material consisting of an alloy of lead, tin, zinc in equal proportions with the addition of tellurium. The sensor 23 is rigidly mounted on the roof of the livestock building. The sensor 23 is connected to the solenoid 24, which through its rods 25 is in contact with the micro switch 26. The micro switch 26 is connected to the electric motors 22 and 21 by an electric circuit. A tunnel 27 is provided perpendicular to the axial line of the container 7, provided with reinforced concrete floors, designed to unload biohumus from the container 7 into the vehicle 28. The winch 15 is equipped with a ratchet mechanism 29. The dog 30 of the ratchet mechanism 29 is connected to the rod 31 of the solenoid 32. A hook is fixed to the film 17 33, which is in contact with microswitches 34 and 35. Outside the walking area 1, there is a pool 36 for collecting livestock waste after rain. The hollow sealed film contains a spool 37 and a fitting 38. The pool 36 is connected to the pipeline 39 by a pump 40 provided with an electric motor 41. An umbrella 42 is suspended at the junction of the ends of the films 17 to prevent water from entering the tank 7 during rain. The frame 13 is in contact with the microswitch 43. On the walking platform is a shadow canopy 44.

 The device can be performed in the second embodiment. The second option is the same as the first, differs from it in that there are several walking platforms 1 on the farm, and adjacent containers 7 are interconnected by means of side mesh tapes. The ends of the tanks 7 are connected by tunnels 27.

 The device can be made in the third embodiment. The third option is the same as the second, differs from it in that on both sides in the tunnels 27 are additional belt conveyors 45, which are connected to the conveyors 8 of the tank 7. Each conveyor 45 is located so as to load vehicles 28 on the ground surface. Each conveyor is equipped with an electric motor 46.

 The device can be made in the fourth embodiment, the fourth variant is the same as the 1st and 2nd variants, differs from them in that each container 7 is located at a certain angle of inclination, one end of the conveyor 8 is located on the soil surface so that it can be unloaded vermicompost from the conveyor 8 to the vehicle 28 and loading the nutrient medium with earthworms onto the conveyor 8 for further reproduction of earthworms.

 The device operates as follows. The animals, being on the walking platform, eat feed from the feeders 3, drink water from the car drinkers 4, rest in the boxes 2. Manure and bedding are trampled by the feet of the animals through the slotted floor 5 into the tank 7 and into the sections formed by the hollow partitions 13 by mine-aerators. Urine also enters through the slit floor 5 and moistens the nutrient medium. As soon as the manure is poured to a certain level, the worker passes through the tank 7 and sows each section with earthworms at the rate of 0.5-0.7 kg. Earthworms move into the layer of manure and begin to eat the nutrient medium. In a nutrient medium, earthworms grow, develop and multiply. As a nutrient medium, manure can be added / filled through the slit floor with waste currents, seeds of weeds, husks, floors, straw, as well as sawdust, bran, etc. In this case, manure litter and other components are processed into vermicompost. As soon as the manure has accumulated in the tank 7 above the level of the hollow partitions 13, we close the electric circuit supplying the electric motor 16. The electric motors 16 rotate the winches 15. The winches 15 are moved up the hollow partitions using cables 14 so that 1/3 of the part is covered with manure and litter, the rest is not filled. In this case, the hollow partitions 13 form a shaft. Through the perforated holes of the tape 9 and the partitions 13, air enters the nutrient medium, enriching it with oxygen. Hollow perforated partitions in the initial period form sections of 30-80 liters. In the partitions there are perforated holes with a diameter of 5-20 mm. The surface occupied by the area of the holes is 15-40%. As the sections are filled, its volume constantly increases. As soon as the manure and litter again accumulate in the tank 7 above the level of the hollow partitions 13, we again close the electric circuit supplying the electric motor 16. The electric motor 16 rotates the winch 15 again. The winch 15 moves the frame with the hollow partitions upward so that 1 / 3 part was covered with manure and bedding the rest is not filled. Then we open the electric circuit supplying the electric motor 16. Further, all technological operations are repeated.

 When precipitation (rain) occurs, the roof of the roof becomes wet, rain drops fall on the sensor 23. The sensor 23 generates a negative potential of the order of 0.5-1.0 V, and the current strength is directly proportional to the surface area in contact with water, and is 30-50 mA / mm In this case, using the rod 25 of the solenoid 24 and the microswitch 26, the electric circuit supplying the electric motor 22 is closed. The electric motor 22 rotates the winch drum 19. Ropes 20 are wound onto the winch drum 19. The ropes 20 unwind the winch drum 18 and move the film from one end of the container 7 to the other and completely cover the entire container 7. As soon as the film 17 moves from one end, the hook 33 contacts the microswitch 34 at the proper point. The micro switch 34 opens the electric circuit supplying the electric motor 22. When it rains, water flows down from the surface of the walking platform, flows under the slit floor along the film inclined film cover 17 into the pool 36 of the sump. As the pool is filled with 36 livestock stocks, they are pumped (not shown) into an irrigation network for irrigation of crops. As soon as good sunny weather is established, the sun's rays heat the roof, moisture on the surface of the sensor disappears. The sensor 23 is activated, the magnetic field disappears in the solenoid, the return spring moves the rod 25 of the solenoid 24, while the micro switch 26 closes the electric circuit supplying the electric motor 21. The electric motor 21 rotates the winch drum 18. The film 17 is wound onto the drum and the drum 18 is unwound. The ropes 20 move from one drum 19 to the other drum 18. As soon as the ends of the films move from one end to the other end, the hook 33 contacts the microswitch 35, opens the electric circuit supplying the electric motor 21. Manure, bedding and other components are trampled by the feet of the animals through the slit floor 5 and enters the tank 7 in the section. Manure and litter are continuously processed by earthworms. At the same time, gas contamination in the livestock building decreases and the quality of manure improves.

 In the autumn period, as soon as the air temperature drops below the stipulated one, the animals are distilled into insulated livestock buildings. Through the slit floor, the container is loaded with manure and litter to the maximum size so that the worms have enough food until spring. This closes the electric circuit supplying the electric motor 22. The electric motor 22 rotates the winch drum 19. Ropes 20 are wound on the drum of the winch 19. The ropes 22 unwind the winch drum 18 and move the film 17 from one end of the container 17 to the other and completely covers the entire container 7. Using a bicycle pump (not shown) we pump compressed air through the spool 37 and fitting 38. When this film 17 is inflated. Air is a poor heat conductor, it creates good thermal insulation in the upper part of the tank 7.

 As soon as the level of the nutrient medium and biohumus reaches the highest point, we close the electric circuit supplying the electric motors 16. The electric motors 16 rotate the winches 15. Using the ropes 14, the winches 15 move the frame 13 with the hollow partitions up to the proper point, it contacts the micro switch 43 The micro switch 43 opens the electric circuit supplying the electric motor 16. The winch 15 stops moving the frame 13. The ratchet mechanism 29 locks in the proper position of the cable, and the frame 13 freezes hell by the surface of biohumus. Vehicles 28 are installed under the horizontal belt conveyor 8. We close the electric circuit supplying the electric motor 12. The electric motor 12 rotates the drum 10. The drum 10 moves the mesh belts of the horizontal 8 and two vertical 9 belt conveyors, by means of bevel gears 11 the rotation of all belt conveyors 8 and 9 is produced at equal speed. The main load of the mass of vermicompost in the tank 7 falls on the horizontal conveyor 8, the vertical conveyors 9 are designed to prevent the loss of vermicompost during transportation. During the progressive movement of the horizontal and 8 vertical conveyor belts 9, the biohumus mass falls into the vehicles 28. After filling the vehicle 28, we open the electric circuit supplying the electric motor 12, as a result of which the conveyors 8 and 9 stop working. Using the vehicles 28, the biohumus mass with earthworms are transported to a chamber to separate earthworms from the habitat, followed by transport of vermicompost to the fields, and earthworms are packed in boxes and sent for reproduction or processing for meat and bone meal. The device can work in the second embodiment. The second option is the same as the first, differs from it in that when unloading the biohumus, we close the electric circuit supplying the electric motor 12. The electric motor 12 rotates the drum 10. The drums 10 move the horizontal conveyor 8 and the vertical mesh belts 9, of the conveyor 9, and adjacent the walls of the two conveyors are interlocked with each other and the biohumus material is loaded into vehicles 28 in tunnels 27 on both sides simultaneously.

 The device can work in the second embodiment. The second option is the same as the second option, differs from it in that in two tunnels 27 there are additional belt conveyors 45, which are connected to the conveyors 8 and load vehicles 28 on the ground surface from any tank 7. To load the vehicle, we close the electric the circuit feeding the electric motors 12 and 42. In this case, the electric motor 12 rotates the winch drum 10 and provides reciprocating movement of the conveyor belts 8 and 9 at the same speed, and the electric matic motor 46 provides a reciprocating movement of the belt conveyor 45. Once the conveyor belt 45 loads the vehicle 28, break the electrical circuit supplying the electric motors 12 and 46. Operation of conveyors 8, 9 and 45 is terminated.

 The device can work in the fourth embodiment. The fourth option is the same as options 1 and 2, differs from them in that the tank 7 is located at a certain angle, one end of the tank and conveyors 8 and 9 are located on the ground surface. In this case, it is possible to unload biohumus into vehicles on the soil surface and load the nutrient medium with worms for subsequent reproduction.

 Using the proposed technical solution in the national economy will expand technological capabilities.

Claims (2)

 1. INSTALLATION FOR GROWING RAINWORES, containing containers, the bottom of which is formed by an endless tape mounted on drums with a drive, characterized in that it is equipped with trenches with hollow perforated partitions made with the possibility of movement in the vertical plane, in which the containers are installed, and the side the walls of the tank are made of endless mesh tapes mounted on the drums and having drives, while the axis of the drums of the side tapes and the bottom tape, which is mesh, are connected between bevel gear combat.  2. Installation according to claim 1, characterized in that it has a hollow strip with a mechanism for moving it, mounted above the upper base of the tank at an acute angle to the horizontal plane.

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