RU2115640C1 - Biohumus and vermiculture production apparatus - Google Patents

Abstract

FIELD: waste processing. SUBSTANCE: apparatus is designed to produce environmentally appropriate fertilizer (biohumus) and feed protein in the waste (including animal- origin one) conversion process. Apparatus consists of casing with pan and overflow pipe. Inside pan, there is a support consisting of vertical legs and perforated plate. Side walls of casing are provided with vertical ribs with guides. Screen bottom and supplementary side walls are formed by inserted textile sack, bottom of which is supported by perforated plate of the support. EFFECT: increased productivity of conversion of waste into biohumus and yield of worms-producers per unit weight of feed mixture. 4 cl, 1 dwg, 1 tbl

Description

 The invention relates to agriculture, and in particular to devices for producing environmentally friendly fertilizer of vermicompost, protein feed - vermiculture in the process of processing organic waste, including animal origin.

 Biohumus has a high content of humic substances and a large number of beneficial microorganisms, which allows it to be used to restore soil biocenosis, increase crop yields and provide the opportunity to improve the quality of vegetables and fruits grown.

 Vermiculture also has high fodder qualities due to its protein content and a number of valuable biological substances.

 A device for growing vermiculture with obtaining vermicompost is known, which consists of boxes mounted on shelves with a perforated bottom, the side walls of which are made at an obtuse angle to the bottom. Worms eat the nutrient mixture, turning it into biohumus, while laying cocoons in it, and move in the box from the bottom up. To maintain the life of the worms in the substrate, it is watered with water, since humidity of 70 - 80% is necessary. A drip tray is installed under the rack to collect excess liquid (RF patent N 2033049, class A 01 K 67/033, C 05 F 3/06, 04/20/95).

 A disadvantage of the known device is the presence of wall drying of the nutrient mixture in composting boxes, which reduces the yield of vermicompost and vermiculture per unit weight of the nutrient mixture.

 It is also known a device for producing biohumus, protein feed and vermiculture, which is the closest in technical essence to the invention, which contains a module of cases with a bottom having a mesh structure and side walls with flanges, the upper case is equipped with a flexible cover. The lower case is located on the base. The cases are made of wood and form a module of three buildings each (RF patent N 2054402, class C 05 F 3/06, A 01 K 67/033, 02.20.96).

 The main disadvantage of this device is the drying of the nutrient mixture at the walls of the pallet body, which reduces the yield of both vermicompost and vermiculture per unit weight of the nutrient mixture.

 The purpose of the invention is to increase the productivity of the process of processing organic waste into vermicompost and increase the yield of producer worms per unit weight of the nutrient mixture.

 The invention also achieves the goal of improving the ecological situation of small cities, workers' settlements, villages, farms and private households by means of almost 100% processing of organic and inorganic waste generated during the life of people, waste generated earlier, located in dumps and not having useful application. In the course of waste processing, vermiculture is obtained - a source of feed protein and biohumus - a highly effective organic fertilizer of a given composition for growing any type of plant.

 This goal is achieved in that the waste is recycled in a device consisting of a body with a pallet, side walls and a bottom, the pallet is equipped with an overflow tube and a stand is placed in it, consisting of vertical supports and a perforated plate, the side walls are equipped with vertical ribs with guides, and the mesh structure of the bottom and additionally the side walls are formed by a fabric bag inserted into the housing. The perforated plate of the stand and the pallet is located above the overflow tube, and the fabric bag is made of a moisture-permeable fabric (mesh) that is not destroyed in a humid environment and impervious to worms.

 The set of features of this device allows to achieve the goal and eliminate the disadvantages of the known methods.

 The drawing shows a diagram of a device for recycling.

 The device comprises a housing 1 with a pallet and an overflow tube 2. A stand 3 is installed inside the pallet, consisting of vertical supports 4 and a perforated plate 5. The side walls of the housing are provided with vertical ribs 6 with guides 7. The mesh bottom and additionally the side walls are formed by a fabric bag 8 inserted into the case. The mesh bottom of the bag rests on the perforated plate 5 of the stand 3, and its upper edges are wrapped through the edges of the open part of the body and can be pressed in the upper part of the body by pressure bars (not shown in Fig. 1), which have a decorative purpose and keep the upper part of the bag from slipping . Vertical ribs have a thickness of 1 - 5 mm, and the distance between the ribs is 5-12 mm. The perforated plate is 5 to 10 mm above the top edge of the overflow pipe.

 The device operates as follows.

A nutrient mixture in the form of granules 2 - 5 mm, consisting of bird droppings, manure, defecates from sugar production and biological treatment of effluents, sapropel, phosphoric acid, ammonia, ash, sand, phosphorites, overripe leaves, straw, sawdust, are placed together with cocoons in a tissue bag inserted into the housing 1. The composition of the nutrient mixture (ratio of components) depends on the type of plants that will be grown on soil fertilized with biohumus. The device is placed in a warm place, for example, on the heated floor of the greenhouse, covered with a dark film and held for 120 days, periodically (every 5 days) pouring the mixture with water at a temperature of +2 ^o C of the temperature of the nutrient mixture, and in an amount that provides water overflow overflow pipe 2. At the same time (to create conditions for the greenhouse effect) maintain the temperature of the water in the pan of the housing 1 to 1-6 ^o C above the temperature of the walls of the housing. Due to the continuous evaporation of water in the pallet of the housing 1, water vapor rises in the natural gap between the bag 8 and the side walls of the housing 1, steam condenses on the vertical ribs of the side walls and the condensate drains along the guides 7 onto the bag 8 and then onto the nutrient mixture in the bag. After sedimentation of the nutrient mixture to the surface load a new layer (5 - 7 cm) of the nutrient mixture. When the worms reach adulthood (a rim appeared on the upper half of the body) they are removed by known methods, for example, put on the surface a box with a mesh bottom and a nutrient mixture. The worms go into the box and are transferred to a continuous apparatus for further work.

 In the absence of greenhouse effect conditions in the device, the nutrient mixture from the walls begins to dry out. Worms move to the inside of the volume of the nutrient mixture, which reduces the yield of caprolites and feed protein per unit weight of the nutrient mixture.

 When loading the nutrient mixture in the form of granules with a size of more than 5 mm, the worms penetrate the granules and part of the nutrient mixture is not eaten, which also reduces the efficiency of waste processing.

 The mesh bottom formed by the bottom of the fabric bag 8 does not allow the worms to leave the container filled with the nutrient mixture.

 An overflow tube 2 in the pallet of the housing and a perforated plate 5 of the stand 3, located above the water level in the pallet, allow maintaining the optimum moisture content of the nutrient mixture in the bag and provide the maximum possible output of caprolites and vermiculture.

 The results of processing organic waste in the form of a nutrient mixture for vermiculture are shown in the table on the yield of caprolites (in%) per unit of nutrient mixture.

 Thus, the claimed device provides optimal conditions for the processing of organic waste with obtaining the maximum possible yield of vermicompost per unit weight of the nutrient mixture, and the biomass obtained during processing is also effectively used as feed protein.

Claims (4)

 1. Device for producing vermicompost and vermiculture, comprising a housing with side walls and a bottom having a mesh structure, characterized in that the housing has a pallet with an overflow tube and a stand placed therein, consisting of vertical supports and a perforated plate, the side walls are provided with vertical ribs with guides, and the bottom and optionally the side walls are formed by a fabric bag inserted into the housing.  2. The device according to p. 1, characterized in that the perforated plate of the stand is located 5 to 10 mm above the upper edge of the overflow pipe.  3. The device according to claim 1 or 2, characterized in that the fabric bag is made of a breathable fabric that is not destroyed in a humid environment and impervious to worms.  4. . The device according to claim, characterized in that the vertical ribs have a thickness of 1 to 5 mm and the distance between the ribs is 5 to 12 mm.

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