RU2005363C1 - Device for raising earthworms - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has an overhead-track hoist with containers 4. Container 4 is fabricated from metal angle-pieces and reinforced polymer walls. Hollow perforated partitions divide the containers into sections and tiers. The mixer has an unloading auger provided with a jacket which is a turned-over chute. The drive ON/OFF mechanism is a spring-loaded disk mounted on the auger axle. The cart can move on guides perpendicular with the auger axle, and it is provided with a motor-operated winch. The device is provided with heaters and a temperature control unit. The chamber of removal of worms from earth is provided with a bath and solenoid valves mounted on the water supply and discharge pipes. There is also a floating chamber provided with a float and microswitch. EFFECT: higher efficiency. 5 cl, 9 dwg

Description

 The invention relates to agriculture, specifically to vermiculture. A device for breeding earthworms, including boxes with a capacity of 30-80 liters. In the boxes, earthworms and soil with a nutrient medium for growing them are placed. Several boxes with a height of 200 mm are stacked and installed on the storage floor with an interval of 50 mm between the side walls of the boxes of adjacent stacks. The nutrient medium in each drawer is covered on top with paper or plastic film. Holes were made in the walls and bottom of the drawers for air passage and ventilation and percolation of moisture. The diameter of the holes is 5-20 mm. The surface occupied by the area of the holes is 15-40%.

 The known device has the following disadvantages: high complexity; low productivity.

 The aim of the invention is to increase productivity and reduce complexity.

 This goal is achieved by the fact that straw choppers, mixers of nutrient components and crane rails equipped with containers are located in the worm water, the containers are made of metal corners and reinforced polymer walls, using hollow perforated partitions, the container is divided into sections and tiers, the container is equipped with a ring and double-leaf doors containing a latch lock. The mixer contains a blade discharge screw equipped with a casing made in the form of an inverted trough, and the mechanism for switching off and on the drive of the truck on which the container is located is made in the form of a spring-loaded disk mounted on the axis of the screw. The cart is arranged to move along the guides perpendicular to the axis of the screw and is equipped with an electric winch. Worm water is equipped with electric heating elements and a temperature controller. The chamber for separating the worms from the habitat is equipped with a bathtub and electromagnetic taps installed on the water supply and drainage pipes and the float chamber, equipped with a float and microswitch. The container dispenser is equipped with a hopper, a screw conveyor and a vibrator.

 The novelty of the claimed technical solution compared to the known one is due to the fact that through the use of a container divided into tiers and sections using hollow perforated partitions, the use of a crane beam and machines for preparing a nutrient medium, container loaders, a chamber for growing worms, container unloaders , a chamber for separating worms from the habitat increases productivity and reduces labor intensity.

 In FIG. 1 shows a container for growing earthworms, end view; in FIG. 2 - the same view from the side; in FIG. 3 - a machine for preparing a nutrient medium for worms; in FIG. 4 - container loader, end view, in FIG. 5 - shows a worm water for growing earthworms, a view from the front side; in FIG. 6 - same, top view; in FIG. 7 - container unloader, view from the side and end sides; in FIG. 8 - a chamber for separating worms from the habitat, view from the side and end sides; in FIG. 9 is a diagram of the block arrangement of nodes and parts.

Worm water 1 is buried in the ground. In the worm water 1 there are devices for growing earthworms, including a straw chopper 2, a mixer 3, containers 4 for growing earthworms, chambers 5 for growing earthworms (without windows), chambers 6 for separating the worms from the habitat, unloaders 7 containers 4 A crane beam 8 is installed in the worm water. The container 4 is made of metal corners 9 and reinforced polymer walls 10 with perforated holes 11. The container 4 is divided into several tiers 13 using hollow perforated partitions 12. The floor e partition wall 12 in the end portion of the side doors 17 have no perforations 11. Each tier 13 using the hollow apertured partitions is divided into several sections 14. Each section 14 has a volume of 30-80 liters. Each container 14 is equipped with a ring 15, designed to be caught by hooks 16, using a crane beam 8. The container 4 is equipped with double-sided perforated doors 17 containing locks 18 made of latches. The mixer 3 for preparation of a nutrient medium for worms formed as a hopper 19 in which are located lobed shafts 20. The blades 21 are fixed on the shafts 20 and arranged in the form of a screw and turned relative to each other at ^about 90. The setting angle of the blade 21 relative to the axis of the shaft is 45 ^about , the rotation of the shafts 20 oncoming. The shafts 20 are equipped with electric motors 22. In the lower base of the hopper 19 is a screw 23, designed to discharge the nutrient medium from the hopper 19 and feed it into the container 4. The screw 23 is provided with a casing 24. The casing 24 is made in the form of an inverted groove. Carts 25 are equipped with a winch 26 and an electric motor 27. The mechanism for turning on and off the electric motor 27, designed to move the cart 25, is made in the form of a spring-loaded disk 28 mounted on the axis 29 of the screw 23 in contact with the micro switch 30. The cart 25 is mounted on the rails 31. The auger 23 is equipped with an electric motor 32. A basin 33 is installed in the wormhole for humidifying the nutrient medium in the containers 4. The basin 33 is filled with livestock drains or water. Around the pool 33 is installed platform 34 for containers 4. The platform 34 is made of a hard coating with a certain angle to the side of the pool 33 for water drainage. Area 34 is covered with a grill. Humidification of the nutrient medium can be carried out in the second embodiment. The second option is the same as the first one, differs from it in that the nutrient medium is moistened during the mixing of the components in the mixer 3. The chamber 5 for growing earthworms is equipped with electric heating elements 35 and thermostat 36. The chamber 6 for separating the worms from the habitat is equipped with a bath 37. The bath 37 is connected to the pool 38 by means of a water pipe 39 equipped with an electromagnetic tap 40. The pool 38 is connected to the bath 37 by a pump 41 and a water pipe 42. The pump 41 is equipped with an electric motor a holder 43. In the bath 37, a float chamber 44 is installed, equipped with a float 45 and a microswitch 46. An electromagnetic tap 47 is connected to a microswitch 46, and a time relay 48 is connected to an electromagnetic tap 40 and an electric motor 43. The unloader 7 of the containers 4 is made in the form of a hopper 49, equipped with a screw conveyor 50. The conveyor 50 is equipped with an electric motor 51. The receiving cone hoppers 52 are designed for components of a nutrient medium (for example, for manure, straw, land, industrial waste, etc. ) The receiving hopper 52 is connected to the mixer 3 by means of screw conveyors 53. The screw conveyor 53 is equipped with an electric motor 54. The screw 23 is supported by a fixed support 55. The electric motor 22 is equipped with a time relay 56. The crane beam 8 is supported by wheels 57 on rails 58 laid on the upper shelves under the dome of the wormguard 1. The crane beam 8 is equipped with an electric motor 59. The electric motor 59 rotates the wheels 57 by means of their axles. The beam crane 8 is equipped with a hoist 60. The hoist 60 consists of a winch 61, equipped with an electric motor 62, and the chassis 63 with an electric motor 64. The hoist 60 moves along a monorail suspension track 65. In the wormhole there are lighting lamps 66. A cart 25, on which containers 4 are installed, connected to winches 26 and 67 using ropes 68. Winches 26 and 67 are equipped with electric motors 27 and 69 and gearboxes 70. Hooks 71 are installed at the proper points of the trolley 25. Hooks 71 are in contact with microswitches 72 and 73. Microswitches Spruce 72 is connected to electric motors 69 and 32 by means of an electrical circuit. The micro switch 73 is connected to the electric motors 70 and 32 by an electric circuit. Microswitches 72 and 73 are mounted on a fixed support. The distributor 7 is equipped with an electric vibrator 74, which is located above the grill 75.

 The device operates as follows.

 The components of the nutrient medium for feeding the worms are brought to the wormhole 1 on a dump truck (not shown in the drawing), for example: manure, straw, land, industrial waste, mineral feed, etc.

The straw is crushed using a chopper 2. All components of the nutrient medium are poured into the receiving hopper 52. Then, the ring 15 of the container 5 is hooked to the hook 16 of the winch 61 of the hoist 60. The electric circuit supplying the electric motor 62 of the winch 61 is closed. The electric motor 62 rotates the winch 61. Using the winch 61, the container 4 moves up, then closes the electric circuit supplying the electric motor 59 and the electric motor of the chassis 63. In this case, the electric motors 59 and 63 move the container 4 under the load of the nutrient medium. As soon as the container 4 has moved to the proper point, the electric circuit supplying the electric motors 59 and 63 is opened. Then, using the telpher 60, the container 4 is moved to the trolley 25 and shifted from a vertical to a horizontal position, the lock 18 is unlocked and the doors 17 are opened. Then they close the electric circuit supplying the electric motor 54 and sequentially load with screw conveyors 53 from the conical hoppers 52 into the mixer 3 components of the nutrient medium (for example, manure, crushed straw, waste from technical production, land, etc.). Dosing of each component was carried out visually. After loading the mixer 3, close the electric circuit supplying the electric motor 22 and the time relay 56. In this case, the electric motors 22 rotate the blade shafts. In the opposite rotation of the shafts 20 with the help of helical blades, mixing of dissimilar components and their transformation into a nutrient medium with a homogeneous mass occurs. After a certain period of time, the time relay 56 activates and opens the electric circuit supplying the electric motor 22, and closes the electric circuit supplying the electric motor 32. In this case, the electric motors 22 stop mixing the components of the medium, and the electric motor 22 rotates the screw 23 and the medium from the hopper 19 moves along the screw 23 into the container 4 and loads all sections 14 on all tiers. When the container 4 is loaded, the casing 24 prevents the nutrient medium from moving up, forward and backward and moves the loaded mass in the direction of the axis of the screw 23. As the medium is fed into section 14, it wakes up under the screw 23 under the casing 24. After filling one section, the mass of the medium closes the bottom and the mass moves to the second, then to the third, etc. section. As soon as the nutrient medium reaches the proper wall of the container 4 under the action of the pressure of the mass of the nutrient medium, the spring-loaded disk 28 moves along the axis 29 of the screw 23 towards the wall of the container 4 and contacts the micro switch 30. The micro switch 30 closes the electric circuit supplying the electric motor 27 of the winch 26. When this electric motor 27 rotates the winch 26. The winch 26 using cables 68 moves the cart 25 with the container 4 forward. In this case, the nutrient medium wakes up under the screw 23, the pressure of the mass on the disk 28 stops and the disk 28 moves to its original position. The micro switch 30 opens the electric circuit supplying the electric motor 27. The electric motor 27 stops turning the winch 26. The screw 23 without interruption moves the mass of the nutrient medium from one to the other section 14. As soon as all sections 14 of the container 4 are loaded with the nutrient medium, the carriage 25 by means of the hook 71 begins to contact the microswitch 72. The microswitch 72 opens the electric circuit supplying the electric motor 69. The electric motor 69 rotates the winch 67, using the cable 68 the winch 67 moves a trolley 25 with the container 4 to its original position. As soon as the trolley 25 has moved to the proper point, the hook 71 is in contact with the microswitch 73. The microswitch 73 opens the electric circuit supplying the electric motor 69. Then the double-leaf doors 17 of the container 4 are closed. The doors 17 are latched in the proper position using the latch 18. Then they hook onto the hook 16 of the winch 61 hoist 60 ring 15 of the container 4. Close the electric circuit that feeds the electric motor 62 of the winch 61. In this case, the electric motor 62 rotates the winch 61. Using the winch 61, the container moves up, close the electric circuit that feeds the electric motor 59 Thus, the electric motor 59 rotates the wheels 57 of the crane beam 8. The crane beam 8 moves along the guides. Then we close the electric circuit supplying the electric motor 64. The electric motor 64 rotates the rollers of the running gear 63 and the hoist 60 moves along a single rail towards the pool 33. Using the hoist 60 we lower the container 4 into the pool with livestock drains or with water, maintain it for a certain time / 5-10 min /, livestock runoff or water, penetrating through the perforated holes 11 of the walls of the container 4, are absorbed by the nutrient medium to the limit. The electric circuit that feeds the electric motor 64 of the hoist 60 and the winch 61 is closed, the container 4 is moved up and installed on the platform grate 34. In this case, the water flows through the perforated holes 11 of the container 4 along an inclined plane of the floor and moves to the pool 33. Then, the nutrient is filled environment and humidification of containers. Containers 4 are installed in a row. Excess water or drains through the perforated openings of the containers flows to the floor under the grate. The moist nutrient medium from its own mass is compacted and reduced in volume and a gap forms between the ceiling and the nutrient medium. Then, the container 4 by means talfera 60 pivoted at ⁹⁰ from a vertical to a horizontal position, rasfiksirovyvayut lock 18 and open the door 17. In each section 14, formed in the gap between the wall and the nutrient medium poured certain amount / weight / earthworms, for example 2-3 kg. The doors 17 are closed, they are automatically locked by the lock 18. Then they hook onto the ring 15. They close the electric circuit supplying the electric motors 64 and 59, using the crane beam 8 and the hoist 60, move the containers into the chamber 5 for growing earthworms. By means of the electrical heating element 35 and thermostat 36 is maintained at the optimum temperature cocoonery May 22 ^{° C} and humidity 75%. The containers 4 in the worm water 1 are installed in rows so that there is a distance of at least 5 cm between them. Earthworms live and grow in the nutrient medium, they lay cocoons inside which the eggs are fertilized. The girdle-organ that secrets the cocoon is glandular thickening of the skin in several segments. The resulting barrel-shaped cocoon is discharged through the head end. Its ends are connected and it forms a shape resembling a lemon. Each cocoon contains 1 to 20 eggs. Under favorable conditions, small worms hatch after 2-4 weeks, after 8-12 weeks they reach the size of an adult worm and begin to lay cocoons. In a nutrient medium, they advance by pushing particles of soil with their heads or by swallowing a nutrient medium. Earthworms are nocturnal. Food is rubbed into the muscular ventricle and moistened with intestinal secretions, its remains are thrown out in the form of heaps of earth. These excrements break up into small lumps. In the processed nutrient medium, the content of substances necessary for plants increases: the combination of nitrogen, phosphorus, calcium, potassium, etc. If 1 ton of manure gives 0.3 centner / ha of grain yield increase, then 1 ton of humus fertilizer is 3 centner / ha (cm Agriculture N 12, 1989). The nutrient medium is moistened as the moisture evaporates. To moisturize the nutrient medium in containers 4, a flexible hose with a spray nozzle connected to a water supply network / is not shown / is suspended on a winch 61.

 Using remote control of the crane beam 8 and hoist 60, the flexible hose is hoisted to a certain height and the surface of all containers 4 is irrigated.

 After a certain time, as soon as the processing of the nutrient medium into biohumus mass is finished, hook 16 onto the ring 15 and close the electric circuit supplying the electric motor 64 of the hoist 60 and the electric motor 62 of the winch 61. In this case, the container 4 is lifted a certain distance to a certain distance height above the floor surface and move it with the help of a hoist 60 along the monorail track 65. Then close the electric circuit supplying the electric motor 59. The electric motor 59 move the crane-b Alku 8 with wheels 57 along rails 58. The container 4 is moved into the chamber 6 to separate the worms from the habitat. Using a hoist 61, the hoist 60 lay the container 4 in the bath 37, unlock the lock 18, open the doors 17 and close the electric circuit supplying the electric motor 43 and the solenoid valve 47. In this case, water from the pool 38 moves to the bath 37. Slow filling of the bath 37 will allow penetrate water into all cracks and pores of the biohumus mass. Worms without air can not breathe, so they move from the lower layers of vermicompost to the upper layers. Worms are collected on the bath surface as they crawl to the surface, sorted by size using a sieve, packaged in boxes and sent for processing for meat flour or for reproduction. Worms are sorted by size by sifting them through a sieve with calibrated holes. As soon as the water level has moved to the proper point, the float 45 floats in the float chamber 44 and the float 45 contacts the microswitch 46. The microswitch 46 opens the electric circuit supplying the electric motor 43 and the solenoid valve 47, and closes the time relay 48. In this case, the water supply from pool 38 into the bath 37 is stopped and the surface level is set at the top of the surface of the container 4. In this case, all the earthworms crawl out onto the surface of the container 4 and the side platform of the bath 37. The worms are collected, sorted by their size and packaged in boxes and sent for processing for meat flour. The water supply from the pool 38 to the bath is regulated by a tap, so that every centimeter of the water level is filled in 0.5-1.0 minutes. After a certain time, sufficient to completely separate the worms from the environment, the time relay 48 is activated and closes the electric circuit supplying the electromagnetic valve 40. The electromagnetic valve 40 opens and the water from the bath 37 moves to the pool 38. The hook 16 is hooked onto the ring 15 of the container 4 and closed an electric circuit supplying electric motors 62 and 64. At the same time, the chamber 4 is raised to a certain height above the floor surface using a winch 61 and a hoist 60, they are moved along the monorail 65, then the electric circuit is closed a chain supplying the electric motor 59. The electric motor 59 moves the crane beam 8 with the help of wheels 57 along the rails 58 and delivers the container 4 to the unloader 7 of the containers 4. Unlock the lock 18, open the door 17 and lay the container with the hoist 61 and hoist 60 4 / turn the container 4 from a vertical position to a horizontal and stack it so that the open side of the container 4 is located in the lower base. The electric circuit feeding the electric vibrator 74 and the electric motor 51 are closed. In this case, due to mechanical vibrations of the vibrator 74, the contents of the containers 4 / vermicompost fertilizer - vermiculite / wakes up through the grate 75 into the cone hopper 49, and the electric motor 51 rotates the screw 50. Using the screw, humus fertilizer - vermiculite moves into a vehicle - into a manure spreader / not shown in the drawing. After releasing the container 4 from fertilizers, the hook 16 is hooked onto the ring 15 of the container 4. The electric circuit feeding the electric motors 62 and 64 and 59 is closed. In this case, the container 4 is lifted to a certain height above the floor surface and, using hoist 61, hoist 60 and crane hoist 8 carry out the movement of the container 4 to its original position under the loading of the nutrient medium. After the first container is released, the second, third, fourth, etc. are freed. After loading the manure spreader, the biohumus is taken out to the fields.

 The use of the claimed technical solution in the national economy of the country will increase productivity and reduce labor intensity. (56) French Patent N 2561869, cl. A 01 K 67/033, 1985.

Claims (5)

 1. A device for growing earthworms containing a worm water, in the upper part of which a crane beam is installed, containers, characterized in that the worm water is buried in the ground and has shredders and mixers of the nutrient medium components, each container made of metal corners reinforced with polymer walls, hollow perforated partitions with which the container is divided into sections and tiers.  2. The device according to p. 1, characterized in that it is equipped with an unloading screw made in the form of a casing in the form of an inverted gutter, and a trolley, the drive on and off mechanism of which is made in the form of a spring-loaded disk mounted on the axis of the screw, while the trolley is made with the ability to move along the guides perpendicular to the axis of the screw and has an electric winch.  3. The device according to claim 1, characterized in that the worm water is equipped with heating electric elements and a temperature controller.  4. The device according to p. 1, characterized in that the chamber for separating the worms is made in the form of a bathtub, electromagnetic taps installed on the water supply and drain pipes, and a float chamber with a float and microswitch.  5. The device according to p. 1, characterized in that it has a container unloader in the form of a hopper, a screw conveyor and a vibrator.