RU2005362C1 - Method and device for taking earthworms out of their environment - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves installation of metal pipes in vertical pits staggered in the biohumus mass in at least three rows. Every 3-5 min one row of pipes is taken from one place and put in another, and it is connected to a source of ultrasound and time-delay relay. Ultrasound is supplied to the pipes every 1-5 min. Flexible cloth of film is laid on the biohumus mass surface and later outside it, and the cloth or film is raised at regular time intervals to shake the worms into a box. A piece of flexible cloth is on the trench surface, and it is joined to the box vis a hole in its center. EFFECT: higher efficiency. 2 cl, 5 dwg

Description

 The invention relates to agriculture, specifically to vermiculture.

 A known method of separating earthworms from the habitat.

 The method involves the use of a layer of homogeneous material covered with a mesh. A layer of heterogeneous material with worms is laid on the grid, in which a vibrating device such as a harrow is located. A light source and vintilators are located above the shaft, oriented to the material layer, and the effect of the combined influence of the light, gas, and vibration factors causes the separation of the worms.

A device for growing earthworms is known, which includes old concrete silos, they form stacks of substrate from a height of 1.5 m. Top of the stack is covered with straw. 1 million earthworms are added per 10 tons of organic substrate. The processing of 3 months at 80% humidity, a temperature of 20-30 ^C. From the 2 t 1 t manure obtained vermicompost (1.5-3.0 tons / ha vermicompost equivalent to 40-50 t / ha of manure.

 The disadvantage of this method and device is low productivity.

 The aim of the invention is to increase productivity.

 This goal is achieved by the fact that in the vertical holes of the mines in the biohumus located in the trench, metal pipes are installed in a checkerboard pattern of at least 3 rows, every 1-5 minutes in series one row of pipes is rearranged from one place to another and connected to an ultrasound source . On the surface of the trench (then outside), a flexible flexible fabric or film is spread, the ends of which periodically after filling it with worms, are lifted and worms are collected in a box by shaking.

 A device for implementing the method includes trenches equipped with hollow shafts. Pipes are installed in the mines, which are connected in series with an ultrasound source and are equipped with a time relay. A flexible fabric is located on the biohumus surface; it is connected in the center through a frame hole with a box.

 The novelty of the claimed technical solution in comparison with the known is due to the fact that through the use of ultrasound in the method and device, productivity is increased.

 In FIG. 1 shows a device for growing earthworms, top view; in FIG. 2 - the same view from the front side; in FIG. 3 - a device for removing earthworms from the habitat; in FIG. 4 - the same, transverse section; in FIG. 5 - block diagram of the interaction of nodes and parts.

 The device contains a trench 1 filled with vermicompost. In the upper base of the walls of the trench there are guides 2, a frame 4 is fixed on the rollers 3. The frame 4 is connected on both sides to the winches 5 and 6. The winch is equipped with an electric motor 7, and the winch 6 is equipped with an electric motor 8. The hooks are rigidly fixed to the frame 4 9. The hooks 9 are in contact with the microswitches 10 and 11. The frame 4 is equipped with winches 12. The winches 12 are equipped with an electric motor 13. The winch 12 is connected via a cable 14 to the frame 15. The frame 15 contains pipes 16 connected to the shaft-forming machines 17. The shaft-forming machine 17 is made form a cylinder with an open cover 18, 1 / 3-1 / 2 of the upper base of the cylinder is made and provided with perforated holes 19. In the shaft 20, metal pipes 22 are installed, they are connected to an ultrasound source 23. The ultrasound source 23 is connected to a time relay 24 using an electric circuit. On the surface of biohumus 21 spread flexible fabric 25 or film. In the fabric 25 in its central part there is a frame hole 26 connected to the box 27. The frame 15 is equipped with hooks 28. The hooks 28 are in contact with microswitches 29.

 The device operates as follows.

 A frame 15 is installed in the trench 1. The space between the pipes 16 and the shaft-forming machines 17 is filled with a nutrient medium. The nutrient medium is moistened with a flexible hose by the spray method (not shown in the drawing). A certain amount of earthworms is introduced into the nutrient medium. For example, 1 million worms are introduced per 10 tons of manure and organic matter. The nutrient medium is covered with a thin layer of straw. As the nutrient medium is eaten, the electric circuit supplying the electric motor 13 is closed. In this case, the electric motor 13 rotates the winch 12. The winch 12 moves the frame 15 up to a certain height. Then we open the electric circuit that feeds the electric motors 13. The space between the pipes 16 and the shaft makers 17 is filled with a nutrient medium. The surface of the culture medium is leveled. The nutrient medium is moistened. At the same time, earthworms move from bottom to top and begin to eat a portion of fresh nutrient medium. When moving upward, the frame 15 with the shaft-forming elements 17 form vertical cylindrical shafts 20. The air passing through the perforated holes 19 of the shaft-forming machine 17 and through the layer of the organic substrate 21 enriches it with oxygen, which improves the conditions for the maintenance of earthworms. After filling a large layer of vermicompost 1.5-2.5 m, we close the electric circuit that feeds the electric motors 13 of the winches 12. At the same time, the electric motors 13 rotate the winches 12. The winches 12 move the frame 15 upward. As soon as the frame 15 moves to a certain height, the hook 28 contacts the micro switch 29. The micro switch 29 opens the electric circuit supplying the electric motors 13 and closes the electric circuit supplying the electric motor 7. The electric motor 7 rotates the winch 5 with the cable 14 winch 5 It moves the unit frame 4 to a certain point. As soon as the frame 4 moves to the proper point, the hook 9 contacts the microswitch 10. The microswitch 10 opens the electric circuit supplying the electric motor 7. The winch 5 stops moving the frame 4. In this case, the frame 4 with the frame 15 are placed outside the trench 1. Then, in the vertical holes the shafts 20 along the end walls of the trench 1 are installed in a row of metal pipes 22. The pipes 22 are connected to an ultrasound source 23 and close the electrical circuit supplying the timer 24 and the ultrasound source 23. The source at trazvuka 23 creates mechanical oscillations of elastic medium. When ultrasound passes from one medium to another, ultrasonic waves are refracted according to the laws of acoustics. Ultrasonic waves penetrate the biohumus layer of mass around the pipes 22. From the effects of ultrasonic waves, the worms leave their habitat and move from the pipes 22 into the depths of the trench 1. Then, the second row of metal pipes 22 is staggered. After a certain period of time, the time relay 24 trips and opens the electric the circuit supplying the ultrasound source 23. The second row of metal pipes is connected to the ultrasound source 23 and close the electrical circuit supplying the ultrasound source 23 and the time relay 24. In this case ltrazvukovye wave again biogumusny layer around permeate tubes 22. The mechanical vibrations of the ultrasound elastic force earthworms leave their habitat. Earthworms move from the pipes 22 deep into the trench 1 or onto the surface of the biohumus layer 21. Then we install the third row of metal pipes 22 into the vertical shafts 20. As soon as the timer 24 opens the electric circuit supplying the ultrasound source 23, the third row of pipes 22 are connected to the ultrasound source 23 and close the electric circuit supplying the ultrasound source 23 and the time relay 24. In this case, ultrasonic waves will pass through the three rows of pipes, they will penetrate the biohumus layer from top to bottom on all sides of the pipes 22. Earthworms, leaving their habitat, tend to accelerate their movement and crawl out onto the surface of the biohumus layer, and some of it remains inside it. Then, the fourth row of pipes 22 is installed. As soon as the time relay 24 opens the electric circuit supplying the ultrasound source 23, the fourth row of pipes is connected to the ultrasound source and the first row of pipes 22 is disconnected from the ultrasound source 23 and the electric circuit supplying the ultrasound source 23 and the relay are closed 24. The first row of pipes 22 is moved forward into the vertical openings of the shaft 20. As soon as the time relay 24 opens the electric circuit supplying the ultrasound source 23, the first row of pipes 22 are connected to the ultrasound source and connect the second set of pipes 22. Further, all the processes are repeated. Earthworms from the action of ultrasonic waves tend to accelerate their movement, so most of them move to the surface of the biohumus layer and fill through the holes of the tissue on its surface. As soon as a certain number of worms is collected, the ends of the tissue are lifted upwards from all sides, shaken off, the worms move through the frame hole 26 into a box 27, which is dug in the biohumus layer. After filling the box 27, it is packaged. As you rearrange the rows of metal pipes 22, the flexible fabric 25 is rearranged with the box 27 from one place to another. After removing all earthworms from the biohumus mass, collecting and packing them in boxes, 27 boxes with earthworms are sent for reproduction or processing for the manufacture of meat meal for animal feeding.

 An example implementation of the method for removing worms from the habitat. In the vertical openings of the mines in the biohumus mass, metal pipes 22 are installed in a checkerboard pattern of at least three rows (excluding the beginning and end of work, one row is allowed). Every 1-5 minutes, the rows of pipes are rearranged from one place to another. A number of tubes 22 are connected to an ultrasound source 23, and flexible tissue 25 or film is spread on the surface of the biohumus mass 21 and outside the trench, the ends of which are periodically raised after filling it with worms and, by shaking, the worms are collected in a frame hole and put into boxes 27.

 The use of the claimed technical solution in the national economy will increase productivity. (56) Gorodnitsky N.M. et al. Vermiculture and its Zororeceptivity, Kiev, 1990, Agriculture. Overview of information Ukr. NIINTI. A series of agriculture, agrochemistry, agricultural land reclamation, s. 26.

Claims (2)

 1. A method of removing earthworms from the habitat, including the impact on the biohumus mass and the collection of crawling worms, characterized in that the effect is carried out by ultrasound by staggering metal pipes in the vertical openings of the mines in the biohumus mass at least in three rows, each 1 - 5 minutes, one row of pipes is rearranged and connected to an ultrasound source and a time relay, and the collection of worms is carried out by spreading flexible tissue, which periodically after filling it with worms raise the ends and shake the worms in a box.  2. A device for removing earthworms from the habitat containing a container for biohumus mass, an impact mechanism and a container for collecting worms, characterized in that 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 an ultrasound source having a time relay.