RU2336696C1 - Synanthropic maggot cultivation unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to agriculture and is intended for synanthropic maggot cultivation. Unit includes body with transverse slot mounted on height adjustable supports for horizontality of unit, storage tank for feeding slop for maggots, feeding slop feeder to body, premature migration preventive fan averting maggot migration from casing and removal after growth period is complete, and tank for separated maggots. Internal space of casing is divided by horizontal and vertical partitions to separate cavities. Vertical partitions have equispased on partitions and maggot-permeable apertures. Horizontal partitions are thin-walled sheets with two sided corrugating surface having triangular grooves connected to cross-section groove between which through maggot-permeable apertures are provided. Feeding slop feeder is designed as feed passage having cartridge with dispenser.

EFFECT: optimum conditions of synanthropic maggots growth and development.

3 dwg

Description

The present invention relates to agriculture and is intended for the cultivation of larvae of synanthropic flies. The larvae of synanthropic flies are cultivated on pig manure, bird droppings or on artificial substrates.

The scope of larvae of synanthropic flies is constantly expanding. Currently, they are used not only for processing livestock waste, but also for obtaining chitin, biologically active substances and antibiotics from them, which requires new, more advanced and economical plants for growing larvae of synanthropic flies, and most importantly, ways in which larvae can be obtained if not sterile, then at least devoid of those pathogenic microorganisms that are found in such traditional substrates as pig manure and bird droppings.

Known installation for the processing of liquid manure by and.with. No. 1586648, adopted by us as an analogue. The installation consists of conical, plate-shaped containers located one above the other. To prevent the migration of larvae from the installation, the edges of the tanks are blown with a stream of air. In this installation, not only liquid manure with a moisture content of up to 99%, but also other liquid media suitable for feeding the larvae can be used for feeding larvae.

However, in this installation, larvae can live only in a narrow zone at the interface between the liquid and the inclined bottom of the conical tank, which reduces the productivity of the installation and the output of the larvae per unit volume of the installation. For recreation, larvae can use only the peripheral part of the tanks. In the central part of the tanks, the death of larvae in a liquid without air access is possible.

A device for growing larvae of synanthropic flies is known, which we adopted for the prototype described in RU 2292711 C2, 02/10/2007. The device consists of rectangular trays mounted one above the other. The bottoms of the trays have triangular grooves into which a liquid suitable for feeding larvae of synanthropic flies enters and is maintained at a constant level. The dimensions and shape of the grooves are selected so that the larvae of synanthropic flies can have free access to feed for food and air for breathing. To insert synanthropic flies into egg trays and prevent death of synanthropic fly eggs and larvae hatching from eggs, synanthropic fly eggs are placed on platforms located on top of triangular grooves. To remove the grown larvae from the trays along the grooves, a stream of air moves at a speed of at least 0.3 m / s. The air flow causes the larvae to move in the direction of air movement and pour from the edges of the trays into the larvae storage tank.

This device has the following disadvantages. It takes a lot of time and manual labor to introduce synanthropic flies into each tray. In addition, it becomes necessary to weigh for each tray a portion of eggs of synanthropic flies. The introduction of eggs of synanthropic flies onto the platforms at such low sides of the trays causes considerable difficulties and requires a special device. Hatches for introducing eggs to the sites increase the cost and complicate the design of the device and can serve as a place for premature migration of larvae from the device. Since in this device instead of substrate the larvae are offered the inner surface of the trays, then to increase the yield of larvae per unit volume of the device, respectively, an increase in the area of the inner surface of the tray will be required. The operation of the experimental version of this device showed that the internal volume of this device is not fully used, as the larvae can live only on the grooves and the underside of the bottom of the upstream tray, holding on to it thanks to a thin layer of water film covering the inner surface of the device. The thickness of the bottom of the trays at the highest points of the corrugation forming the grooves exceeds 8 cm, which is irrational, since this leads to an overuse of material for the manufacture of trays and to irrational use of the internal volume of the device.

The technical task is to increase the productivity of the installation by increasing the yield of larvae of synanthropic flies per unit volume of the installation, reducing labor costs for maintenance of the installation, simplifying its design.

This is achieved by the installation for cultivation of larvae of synanthropic flies, including a housing with a transverse groove mounted on height-adjustable supports to give the installation a horizontal position, a container for storing liquid feed for feeding the larvae, a device for feeding liquid feed to the housing, a fan to prevent premature migration of larvae from the housing and removing them after completion of their growth, and a container for collecting separated larvae, characterized in that the inner space of the housing is divided by a horizon alum and vertical partitions into separate cavities, moreover, vertical partitions have openings evenly distributed over the entire surface of the partitions and permeable for fly larvae, and horizontal partitions are made in the form of thin-walled sheets with a corrugated surface on both sides having triangular grooves communicated with the transverse groove, between which through holes permeable for larvae are made, while the device for supplying liquid feed is made in the form of a feed pipe having a cartridge with a diffuser oil.

The claimed installation differs from the prototype in that it is equipped with vertical and horizontal partitions. The horizontal partitions are made in the form of a thin-walled sheet having a corrugated surface on both sides, which doubles the surface of the grooves and, accordingly, the number of larvae living on their surface, which significantly reduces the consumption of material. In addition, the presence of vertical partitions in the installation provides additional habitat for the larvae and, therefore, increases the yield of larvae per unit volume of the installation, the larvae have the ability to move around the entire internal volume of the installation. The installation does not need platforms for introducing eggs of synanthropic flies, since the required dose of eggs is introduced along with the first portion of liquid feed and is evenly distributed over all grooves. The shallow depth of the liquid in the grooves prevents the hatched larvae of synanthropic flies from drowning in the liquid feed and allows them to migrate from the liquid to the moist surface of the grooves, and then through holes in horizontal and vertical partitions to spread through the grooves of the cavities located at all levels. It has been established that the presence of eggs of synanthropic flies in a liquid does not reduce the percentage of larvae hatchability (provided that there are no ingredients toxic for larvae of synanthropic flies), in addition, not only eggs of synanthropic flies, but also hatching larvae can be introduced into the installation using a fluid flow. Due to the presence of holes permeable to the larvae in the partitions, the larvae can move around in the installation in search of an optimal location for them.

The essence of the invention is illustrated by the following description and the accompanying graphic material.

Figure 1 presents a diagram of the proposed installation, figure 2 shows the installation casing in the context, figure 3 shows the intersection of the vertical and horizontal partitions.

The installation consists of a housing 1, the inner space of which is divided by horizontal partitions 2 and vertical partitions 3 into cavities 4. Vertical partitions 3 have through holes 5 permeable for larvae of synanthropic flies, uniformly located over the entire surface of partitions 3. Horizontal partitions 2 have triangular grooves 6, which communicate with the transverse groove 7, between the grooves 6 there are made through holes 8 which are permeable to the larvae. The installation is equipped with a container 9 for storing liquid feed 10 for feeding larvae. For feeding liquid feed 10 into the grooves 6, a feed pipe 11 with a crane 12 is used, and to maintain a liquid level at a predetermined level, a special device 13. For uniform introduction of synanthropic flies into the grooves 6, the feed pipe 11 ends with a cartridge 14 with a diffuser 15. To prevent premature migration of larvae from grooves 6 during their growth, as well as to remove them after completion of their growth from the installation, fan 16 is used. Air ducts 17 with shutters 18 are used to direct the air stream created by fan 16. The larva serves a capacity 19. To give the installation a horizontal position, it is equipped with height-adjustable supports 20 and level 21.

Installation works as follows. Using the adjustable supports 20 and level 21 of the installation give a horizontal position. A liquid feed 10 is poured into the container 9, and a portion of eggs of synanthropic flies is laid in the cartridge 14, after which the valve 12 is opened. The liquid feed 10 by gravity enters through the feed line 11 into the cartridge 14, mixes with the eggs of synanthropic flies placed in it and enters through the scatterer 16 into grooves of 6 cavities 4 of the upper tier, and then through holes 8, feed 11 and the eggs of synanthropic flies in it fill the grooves of 6 lower cavities 4 until the device 14, located on the lowest tier of the cavities, stops feeding 11 to the grooves 6. After two suto after introducing eggs into the grooves 6 using the fan 16, air ducts 17 and dampers 18, an air stream is created at a speed of 0.3 m / s along the ends of the grooves 6, which prevents the migration of larvae from grooves 6. To remove the grown larvae of synanthropic flies on the 5-6th day after the introduction of the eggs using the damper 18, the air flow from the fan 16 is fed along the grooves 6 at a speed of 0.3 m / s, which causes the larvae to migrate from the grooves 6 to the collecting tank 19.

Thus, the proposed installation creates optimal conditions for growth and development for the larvae of synanthropic flies. However, as shown by mathematical calculations confirmed by experiments on laboratory models, the yield of larvae from a unit volume of the installation can be increased by increasing the surface of the partitions, without deteriorating the conditions of their cultivation.

Since the optimal depth of the groove for inhabiting the larvae of synanthropic flies is 8 cm, the width of the flange (side) of the groove forming the corrugation at a groove angle of 90 ° will be 11.31 cm. Thus, the corrugated surface of one horizontal partition with its size of 1 m × 1 m is equal to 135.72 m ² (11.31 cm × 12 pcs. = 135.72 m ² ) on the one hand, and on both sides 2.714 m ² (1.357 × 2 = 2.714 m ² ).

With a corrugation height of 8 cm, the number of horizontal partitions in the installation with a tank height of 1 m will be 12 pcs., Including 1 lower with a one-sided surface. Thus, the area of the entire corrugated surface of all horizontal partitions will be 31.21 m ² (11 pieces of corrugations × 2.714 = 29.85 + 1.357 = 31.21 m ² ).

Studies have shown that the optimal distance between vertical partitions in an installation with a groove depth of 8 cm is 16 cm, therefore, for an installation with the above dimensions 6 vertical partitions will be required, their total area will be 14 m ² (6 pcs. × 1 m ² × 2 extreme sides = 12 m ² + 2 m ² = 14 m ² ).

In total, the total area of the entire inner surface will be 45.21 m ² (31.21 + 14 m ² = 45.21 m ² ).

As laboratory studies show, the larvae of synanthropic flies are able to fully feed on liquid feed, which is poured on the surface with a layer of about 1 mm, in addition, accumulating on such a surface, the larvae form a foam layer of liquid up to 5 cm high, which serves them as food and allows breathing .

Therefore, to increase the yield of larvae of synanthropic flies per unit volume of the installation, it is possible to increase the habitat area of larvae without worsening the conditions for their habitat.

For comparison, consider an installation with a tank size of 1 m × 1 m × 1 m. The horizontal partitions have grooves with a depth of 5 mm. Horizontal partitions are located after 5 cm, so their total surface area is 40 m ² . Vertical partitions are located every 10 cm, and accordingly their surface area will be 19 m ² .

Thus, their total area will be 59 m ² , which is 31% more than in a installation with corrugated partitions.

Claims (1)

Installation for cultivation of larvae of synanthropic flies, including a housing with a transverse groove mounted on height-adjustable supports to give the installation a horizontal position, a container for storing liquid feed for feeding the larvae, a device for feeding liquid feed to the housing, a fan to prevent premature migration of larvae from the housing and removing them after completion of their growth and a capacity for collecting separated larvae, characterized in that the inner space of the housing is divided horizontally and vertically partitions into separate cavities, the vertical partitions having openings uniformly located over the entire surface of the partitions and permeable for fly larvae, and the horizontal partitions are made in the form of thin-walled sheets with a corrugated surface on both sides having triangular grooves communicated with the transverse groove, between which are made through holes permeable to the larvae, while the device for feeding liquid feed is made in the form of a feed pipe having a cartridge with a diffuser.

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