RU2034458C1 - Device for breeding earthworms - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has a slope, worm traps and apparatus for separating earthworms from habitat. Separating apparatus is provided with two screw mechanisms 15. One mechanism is coupled with a frame 30 to which guiding ways are fastened. A truck 32 is mounted and fixed on guiding ways. The other screw mechanism is mounted on the first mechanism and engaged with a frame 14, on which a net 37 is drawn up and parallel traps 38 are fastened. Winch drums and wells provided with tanks for gathering worms are positioned on both sides of traps. Tanks are made movable in vertical plane. A flexible rod joins winch drums. Flexible rod is passed through a hollow part of traps and fastened to piston which contacts microswitches. Electrical chain connects microswitches with winches drives. Trucks 32 are placed inside slope guiding ways 2. The front truck 51 side is hinged with a truck frame and made for slewing to 90 C. The rear side has wheels. EFFECT: improved design. 6 dwg

Description

 The invention relates to agriculture to vermiculture.

 A device for growing earthworms is known, including containers made of metal corners and reinforced polymer walls using hollow perforated partitions. The container is divided into sections and tiers.

 A device is known for separating earthworms from the habitat, equipped with a frame that is located on the guides with the help of rollers, the guides are perpendicular to the conveyor, above the bathtub filled with water, the frame is equipped with a screw lifting mechanism arranged to move the boxes in a vertical plane and equipped with a grip and hooks that are in contact with microswitches located at appropriate points, the microswitches are interlocked with the drive trolleys of the lifting mechanism.

 Known traps for earthworms made of an elongated container, in the cross section it has the shape of a trapezoid, in the upper base it contains an oblong hole in the form of a slit with curved walls, the lower base is rigidly fixed to the side walls of the container, a stopper is installed in the end side, and in the container a piston is located on both sides, connected by a flexible rod.

 There is a known Bremsberg device for lowering bulk goods on an inclined area, consisting of a rope thrown over a pulley, to which two trolleys are attached, moving along inclined rail tracks under the action of gravity of loaded trolleys, the loaded one goes down, while the empty one rises. (Great Soviet Encyclopedia II edition, vol. 6 p. 78). Known devices neither individually nor in place can give high performance.

 The aim of the invention is to increase productivity.

This goal is achieved in that the traps are parallel to each other at a certain interval and are rigidly fixed to the frame of the screw mechanism, winches are located on both sides of the traps, the winch drums are interconnected by a flexible rod that is passed through the hollow part of the traps and connected to the piston and the trolleys located in the Bremsberg guides contain a bottom, its front side is pivotally fixed to the carriage frame and is rotatable by 90 ^° , and the rear side is equipped with support wheels.

The novelty of the proposed technical solution in comparison with the known ones is due to the fact that due to traps located parallel to each other, rigidly fixed to the frame of the screw mechanism, and winches located on both sides of the traps, which are interconnected by means of a flexible rod, passed through the hollow part traps and rigidly connected to the piston, provides an automated process for separating earthworms from the habitat and moving the worms into the tank. Each trolley located in the Bremsberg guides contains a bottom, its front side is pivotally mounted to the carriage frame and rotatable by 90 ^° , and the rear side is equipped with support wheels, which ensures the automatic unloading of vermicompost from the carts to the vehicle.

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

 Figure 1 shows the installation for growing earthworms, located under the slit floor of the livestock building; figure 2 Bremsberg, top view; figure 3 a device for separating earthworms from the habitat, the view from the front side; figure 4 is the same, view from the side; figure 5 is the same, a top view; Fig.6 camera for removal of biohumus mass.

The device consists of a Bremsberg 1, containing endless guides 2, which are located under the slit floor 3 of the livestock building 4. The guides 2 are located at a certain angle. The device is equipped with a camera 5 for separating earthworms from the habitat. The chamber 5 is equipped with a bathtub 6 filled with water, in which there are supply 7 and 8 outlet pipelines, equipped with electromagnetic valves 9 and 10 and a float chamber 11, equipped with a float 12 and a micro switch 13. A frame 14 is located above the bath 6. The frame 14 is equipped with a screw lifting mechanism 15. The screw lifting mechanism 15 contains four screws 16, which are installed in vertically arranged pipes 17. The pipes 17 are rigidly and fixedly fixed in the upper base of the chamber 5. In the lower base of the pipe 17 are fixed swivels 18, cat The others are connected to sprockets 19 (bushings of sprockets 19 are provided with nuts). The sprockets 19 are mounted on screws 16. An endless chain 20 is stretched over the sprockets 19. The drive sprocket 19 is connected to the electric motor 21. A permanent magnet 22 is fixed to the frame 14, interacting with the reed switch 23. The reed switch 23 is rigidly fixed to the rails 24, which are fixed to the rods solenoids 25. Solenoids 25 are installed every 3 cm in a vertical line at different levels above the surface of the water. A micro switch 26 is installed in the upper base of the chamber 5, which contacts the hook 27. The micro switch is connected to the electric motor 28 by an electric circuit. The electric motor 28 is connected to the time relay 29 using an electric circuit. The time relay 29 is activated after a certain time interval, for example, every 0.5-1.0 minutes. Two-sided solenoidal latches 31 are installed on the frame 30, locking in the proper position of the cart 32. In front of the camera 5, on the camera 5, and behind the camera 5, latches 31 are made of bilateral solenoidal latches. In the chamber 5, under the frame 14, there is a frame 30, which is made similar to the frame 14 and is rigidly connected to the screw mechanism 33. The screw lifting mechanism 33 contains four screws 16, which are fixed in vertically arranged pipes 17. The pipes 17 are rigidly and fixedly fixed in the upper base of the camera 5. In the lower base of the pipe 17, the swivel joints 18 are fixed, which are connected to the sprockets 19. The sprockets 19 are mounted on the screws 16. An endless chain 20 is stretched over the sprockets 19. The drive sprocket 19 is connected to the electric motor 28. On the screws 16 of the lifting mechanism 33 are rigidly fixed to the hook 34, which interacts with the microswitches 35 and 36. The grid 37 and the traps 38 are rigidly fixed to the frame 14. Each trap 38 consists of an elongated tank 39. The tank 39 in cross section has a trapezoid shape in the upper base contains an elongated a hole 40 in the form of a slit with curved walls. One or two sides may be exposed. A piston 41 is located in the container 39, which is connected on both sides to the drums of the winches 42 and 43 by means of a flexible rod 44. One well 45 is located on one side of the traps 38. The wells 45 can be located on both sides of the traps 38. In the well or wells container or containers 46. The piston 41 is in contact with microswitches 47 and 48. The drums of winches 42 and 43 are connected to electric motors 49 and 50. The electric motors 49 and 50 are connected to microswitches 47 and 48. Carts 32 are located in the guides 2 of Bremsberg 1. Front 51 is bottom trolley 32 is hinged to the frame 52 and is configured to pivot ^90, and the rear side of the trolley 32 is further provided with support wheels 53. The empty bogie 32 are moved upward by means of the endless chain 54. The endless chain 54 provided with hooks 55 and tensioned on sprockets 56 Asterisks 56 are connected to an electric motor 57. Under the slit floor of the livestock building 4, hollow perforated partitions 59 made of polymer materials are suspended from the drums 58 of the winch. The drum 58 is equipped with an electric motor 60. A microswitch 61 is mounted in the solenoid latch 31. The microswitch 61 is connected to an electric motor 57. An equalizer 62 of the biohumus mass is installed in front of the chamber 5. The equalizer 62 is equipped with an asterisk 63, on which the blade 64 is rigidly fixed. The asterisk 63 is connected to an electric motor 66 using a chain 65 and a gearbox. An electric motor 66 is connected to a time relay 67. A vehicle 69 is installed in the chamber 62 for unloading the biohumus mass. Vehicle 69 installed in the tunnel 70. Removal of the biohumus mass can be done using a sloped conveyor (not shown).

 The device operates as follows. Animals are kept in the livestock building 4. Animals eat food from the feeders, drink water from car drinkers, rest (lie) in boxes (not shown). Manure, litter and scraps fall onto the slit floor 3, with their feet they trample through the holes of the slit floor 3 and fall into the carts 32. Hollow partitions 59 are installed in the carts 32 at the bottom 51. Previously, a certain dose of manure is filled in each cell (section) at the bottom and seeded a certain number of earthworms, depending on the density of distribution, type and age of animals. The nutrient medium is eaten by earthworms and processed into vermicompost. In manure, earthworms live and breed. In manure through a slit floor, straw, flooring, sawdust, husk from grain waste, seeds of weed plants and other grain waste can be added. The mass can be moistened as needed. As manure is stratified in each cell, earthworms process manure into biohumus mass. As soon as the hollow perforated partitions 59 are covered with manure and bedding, we close the electric circuit supplying the electric motor 60. The electric motor 60 rotates the winch drum 58. A cable is wound around the drum 58 and the hollow partitions 59 are moved upward from the carriage 32. As soon as the hollow perforated partitions 59 have moved a certain distance so that 1/3 1/2 of the height of the partitions is covered with manure, we open the electric circuit supplying the electric motor 60. The ratchet mechanism (not shown) of the winch 58 holds the winch cable in its proper position. After each backfill with manure and litter of hollow perforated partitions 59, we close the electric circuit supplying the electric motor 60, after raising the partitions 59 we open the electric circuit supplying the electric motor 60. As soon as the cart 32 is full, close the electric circuit supplying the solenoid latches 31 and the electric engine 57. Under the influence of kinetic energy and dead weight of loaded carts, they move from top to bottom. The electric motor 57 drives the endless chains 54 in translational motion. The endless chains 54, by means of the hooks 55, move the loaded carts 32 from the bottom up. As soon as the loaded trolley 32 moves to the chamber 5, it is fixed by the solenoid latch 31. The trolley 32 interacts with the microswitch 61. The microswitch 61 closes the electric circuit supplying the electric motor 66, and the sprocket 63 rotates the sprocket 63 slowly using the chain reducer 65. The sprocket 63 rotates the blade 64 slowly Blade 64, rotating, aligns the layer of manure and vermicompost, moving its excess layer from the middle to the edges. After a certain period of time, the time relay 67 activates and opens the electric circuit supplying the electric motor, 66 and closes the electric circuit supplying the solenoid latch 31. The solenoid latch 31 moves down and unlocks the trolley 32. The loaded trolley 32 from its own weight and the action of gravitational forces moves along the inclined plane from top to bottom in the chamber 5. In the chamber 5, the trolley 32 is again fixed with a bilateral solenoid latch 31. When locked, the micro switch 61 is activated. connects the electric circuit supplying the electric motor 21. The electric motor 21 rotates the drive sprocket 19 of the screw lifting mechanism 15. The drive sprocket 19 rotates the remaining sprockets 19 around the screws 16. Using the infinite chain 20, the sprockets 19, rotating around the fixed screws 16, move the frame 14 s by traps 38 and net 37 to the trolley 32. As soon as the frame 14 moves down to the trolley 32, the hook located on the trap 38 interacts with the microswitch 71. The microswitch 71 opens the electrical circuit, feeding th electric motor 21, and closes the electric circuit supplying the electric motor 28. In this case, the electric motor 21 stops moving the traps 38 down, and the electric motor 28 rotates the drive sprocket 19 of the screw lifting mechanism 33. The drive sprocket 19 rotates the remaining sprockets with the help of the endless chain 20 19 around the screws 16. Asterisks 19, rotating around the fixed screws 16, move the frame 30 with the carts 32 from top to bottom in the bath 6 filled with water. When the frame 30 is moved down, the permanent magnet 22 acts on the reed switch 23. As a result, it opens the electric circuit supplying the electric motor 28. The electric motor 28 stops, the screw lifting mechanism 30 stops working. After a certain time interval, the time relay 29 activates and closes the electric circuit supplying the electric motor 28 again. The electric motor 28 rotates the drive sprocket 19 of the screw lifting mechanism 33 again. The drive sprocket 19 rotates the remaining sprockets 19 around the screws 16. Asterisks 19 move the frame 14 into the bath from top to bottom. As soon as the frame 30 with the trolley moves 3 cm, the magnet 22 acts on the reed switch 23. As a result, the electric circuit supplying the electric motor 28 of the lifting screw mechanism 33 opens. The electric motor 28 stops, the screw lifting mechanism 33 stops working. Further, all operations are repeated. As the cart 32 moves down, the vermicompost mass with worms is immersed in a bath 6 filled with water, and each immersion of the vermicompost mass passes to a depth of 3 cm with an interval of time every 0.5-1.0 minutes. Earthworms cannot breathe in water, and with each immersion they move up into the biohumus mass zone that is not filled with water. As the earthworms move along the inclined plane of the traps, they move through the holes 40 into the hollow tank 39 of the traps 38. As soon as the biohumus mass level is equal to the surface of the water, all the earthworms move from the biohumus mass into the trap 38, after 1-2 min time relay 29 it activates and closes the electric circuit supplying the electric motor 49. The electric motor 49 rotates the drum of the winch 42. The winch 42 by means of a flexible rod 44 moves the piston 41 along the hollow part of the trap 38. The piston 41 rakes all the rain nerves, moves and dumps into the reservoir 46 of the well 45. As soon as the piston 41 has moved to a certain point, it contacts the microswitch 47. In this case, the microswitch 47 opens the electric circuit supplying the electric motor 49 and closes the other electric circuit supplying the electric motor 28 and the solenoid 25 . When this electric motor 49 stops, and the winch 42 stops working. All saltinode 45 move the rail 24 with the reed switches 23 to the side for a certain distance. The electric motor 28 rotates the sprocket 19 in the opposite direction. In this case, the frame 14 is moved from bottom to top. The permanent magnet 22 is remote from all reed switches 23. When the frame 30 is moved, it does not interact with the reed switches and the electric circuit does not close in the reed switches 23. As soon as the frame 30 moves to a certain level (to the level of the guides) 2 mounted on a fixed support of the Bremsberg line 1 ) The hook 34 is in contact with the microswitch 36. The microswitch 36 opens the electric circuit supplying the solenoids 25 and closes the electric circuit supplying the solenoid latches 31 and the electric motor 57. In this case, the solenoidal latches 31 will unlock the loaded carts 32. The loaded carts 32 will be loaded by gravitational forces and their own mass. move along the inclined plane of Bremsberg 1 along the guides 2 from top to bottom. The electric motor 57 rotates the sprocket 56, with the help of an endless chain 54 and hooks 54 moves the empty carts 32 from the bottom up. As soon as the trolley 32 moves outside the chamber 5 along the guides 2 of the Bremsberg 1, the second trolley 32 moves to its place and is automatically fixed by the solenoid latch 31. The latches 31 located under the chamber 5 in the chamber 5 and behind the chamber 5 also fix the trolleys 32 in the proper position. Further, all technological operations are repeated. As soon as the container 46 is filled with earthworms, it is moved from the well 45 from the bottom to the top using a winch mounted on a well (not shown). The worms are removed from the tank 45 and packaged and packaged in boxes for sending them for processing for meat flour or for sending for reproduction.

A vehicle 69 is installed in the unloading chamber 68. As soon as the loaded trolleys 32 are moved to the chamber 68 for unloading the biohumus mass (there is no floor in the chamber 68), the bottom 51 of the 32 trolley falls and swivels 90 ^° , and the humidified biohumus contains weight wakes up and discharged into the vehicle 69 disposed in the tunnel 70. The trolley 32 moves forward, the bottom 51 by means of supporting wheels 53 is moved on an inclined plane 90 turned ^on, and returns to the original position . Further, all technological operations are repeated.

 Using the proposed technical solution in the national economy will increase productivity.

Claims (1)

A device for growing earthworms containing an installation for separating worms and traps, characterized in that the installation for separating worms is made in the form of a bath and two screw mechanisms installed with the possibility of movement in a vertical plane, with a grip and hooks and with the possibility of contacting with a micro switch, at the same time, a frame is fixed on one screw mechanism, on which guides for installing the device for growing earthworms are rigidly fixed, and the other is mounted on the first screw the mechanism and is connected to the frame on which the net is stretched and traps are mounted parallel to one another, moreover, wells are made on both sides of the traps, in which containers are mounted with the ability to move in a vertical plane, winch drums are fixed on the rings, which are interconnected when using flexible traction, passed through the hollow part of the trap and rigidly connected to the piston, which is installed with the possibility of contact with microswitches connected to the actuators by means of electric In addition, the device for growing worms has a Bremsberg and is made in the form of a moving trolley, in which the front side of the bottom is pivotally attached to the carriage frame and is rotatable 90 ^° , and the rear side has support wheels.

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