RU136683U1 - CABINET INSECTARIUM FOR GROWING BUMBOUSES AND ALSO INSECTS AND MITS FOR PROTECTION OF PLANTS FROM Pests - Google Patents

Abstract

Insect cabinet for growing bumblebees, as well as insects and mites to protect plants from pests, including a cultivation chamber for growing beneficial insects and mites, a ventilation chamber, an air preparation chamber and a control unit, mesh shelves for placing pallets for plants or cages are installed in the cultivation chamber for insects and ticks, and also illuminators are installed, equipment for heating, cooling, humidification of air, bactericidal UV irradiators and a fan are placed in the air preparation chamber For the injection of cooled air into the chamber, the climate control automation sensors are located in the cultivation and ventilation chambers, and the control unit is located outside the insect cabinet, the ventilation chamber communicates with the air preparation chamber, and it is separated from the cultivation chamber by an air filter.

Description

The utility model relates to agriculture, namely, devices for breeding bumblebees for pollination of entomophilous plants in greenhouses, as well as breeding of carnivorous insects and ticks to control agricultural pests, and can be used in bumblebees, biosecurity laboratories and scientific laboratories.

Bumblebees are used in greenhouses for growing tomatoes, bee pollinated hybrids of cucumber, pepper, strawberries and other crops. Predatory insects and mites (bioprotection objects) are used to control pesticides resistant agricultural pests, as well as when growing environmentally friendly vegetables, and in other cases when the use of chemical plant protection products is undesirable.

For the cultivation of bumblebees and a number of species of beneficial insects and ticks, specialized insectarians have been developed. As a rule, these are rooms with ventilation, heating, cooling and humidification systems. Inside, floor-to-ceiling racks with cages for bred objects are placed. Known methods for the artificial breeding of bumblebees and bioprotection objects (Ascheulov, 2001; Ponomarev, 2004; Popov et al., 1991; Cancer et al., 2008; Velthuis, van Doom, 2006).

Some of the techniques are protected by patents: KR 20010039134, A01K 47/00, 2001; EP 0591343, A01K 67/033, 1994; US 5351643, A01K 67/033, 1994.

According to the method described in KR20010039134, the artificially domesticated Bombus ignitus Smith is placed in a portable container having a plurality of ventilation openings in a breeding room at a temperature of 30 ± 1 ° C, relative humidity of 60 ± 5% and in complete darkness.

The invention according to the application EP 0591343 relates to a method for mass production of insects entomopathogens and entomoparasites and a device for its implementation, comprising a system for monitoring environmental conditions, a sealed enclosure consisting of a cap and a base, and a system of vertical or horizontal leaf support. Laminar airflow may be used.

The system according to patent US 5351643 for breeding larvae with a high density, which can be used under suitable external conditions, consists of three sections: a feeder, a department for larvae, a department for insect excrement. The insect department is located under the feeder and includes a set of vertical cells perpendicular to the feeder and in direct contact with it, so the insect larvae can disperse over the cells. The excrement department is located under the feeder, so all the excrement enters the department immediately after its isolation and does not interact with the feeder or the larva section. The larva breeding system may also include an egg-laying cell. It is inserted into the excrement department after pupation of all the larvae.

The disadvantages of these methods and devices for their implementation is that indoors for breeding conditions are subject to significant fluctuations associated with the periodic on and off of climate control systems. In addition, the optimum temperature is usually maintained only in the middle of the room near the sensor locations. As a rule, the temperature is lower on the floor, and above the optimum on the ceiling. If for each of the bred species or stages of the technological cycle different microclimate conditions are required, then even with a small volume of production, isolated rooms are needed. This requires not only significant equipment costs, but also leads to a decrease in production energy efficiency.

Known electric incubator for the output of bee babies (SU 247704, A01K 49/00, 1969), comprising a housing, an electric heating element located under the grating floor and evenly distributed along the base of the chamber, and a tray located under the heating element into which water is supplied from the vessel, mounted on the side of the camera. Both temperature and humidity inside the chamber are subject to significant fluctuations.

The closest set of features is the Bombus terrestris breeding facility, which automatically sets and controls temperature and humidity (KR 20090025310, A01K 49/00, 1009). The installation includes a chamber for the nest, which receives one or two egg-laying working bees, breeding equipment in which the queen bee and many working bees breed, and a central processor that is connected to the network to adjust the temperature, humidity and ventilation of the chamber and container breeding, and also informs the administrator about deviations from normal parameters.

The disadvantage of this device is that it does not allow to maintain uniform temperature and humidity in a sufficiently large volume of the cultivation chamber, suitable for accommodating several hundred cages with bumblebees or other useful insects and mites.

The objective of the utility model is to create a plant that can be used for the industrial cultivation of bumblebees and beneficial insects in large volumes.

The technical result consists in providing optimal conditions for the cultivation of bumblebees, as well as insects and ticks to protect plants from pests in the minimum production areas and at the lowest cost of energy.

The technical result is achieved by the fact that the insect cabinet for growing bumblebees, as well as insects and ticks to protect plants from pests includes a cultivation chamber for growing beneficial insects and ticks, two ventilation chambers, an air preparation chamber and a control unit, mesh shelves are installed in the cultivation chamber for placement of pallets for plants or cages for insects and ticks and illuminators are installed, equipment for heating, cooling, humidification of air is placed in the air preparation chamber, b bactericidal UV lamps and air circulation fans, climate control automation sensors are located in the cultivation and ventilation chambers, and the control unit is located outside the insect cabinet, ventilation chambers communicate with the air preparation chamber, and it is separated from the cultivation chamber by an air filter.

Due to this design of the insect cabinet, the optimum temperature and humidity are maintained in the entire useful volume with minimal fluctuations associated with turning on and off the heating, cooling and humidification devices. In addition, constant air filtration from dust is carried out, and if necessary, disinfection and lighting. Moreover, depending on the needs, one or several cultivation chambers with the same or different microclimate can be connected. Due to this, the energy efficiency of the device is increased.

The figure shows a diagram of the insect cabinet.

The insect cabinet 1 consists of a cultivation chamber 2 and a ventilation chamber 3, an air preparation chamber 4 and a control unit 5. Mesh shelves are installed in a cultivation chamber 2 6. Equipment for heating 7, cooling 8, humidification 9, and bactericidal UV lamps 10 are placed in the air preparation chamber and fan 11. In the cultivation 2 and ventilation 3 chambers there are microclimate control sensors (not shown), which are connected to the corresponding blocks 7, 8, 9 and control unit 5, to which the fan is connected p 11, bactericidal UV lamps 10 and lighting lamps (not shown in the figure). Between cultivation 2 and ventilation 3 chambers a filter 12 is installed.

According to the utility model, the essential features distinguishing the utility model from the prototype are the multi-chamber insect construction, which allows maintaining the optimal microclimate in the required volume. Tests of this device were carried out at Bumblebee Technologies LLC, where an insect cabinet was used to grow such beneficial insects and mites as aphidius, predatory cows, phytoseyulus, amblyseus, etc.

The device is used as follows.

The cabinet, as a rule, is located in a heated room.

Orchards with grown insects or mites, as well as plates with living plants, are placed in the appropriate cultivation chambers 2 on the grid shelves 6. If live plants are needed for breeding biosecurity objects, luminescent or LED illuminators are turned on in cultivation chambers.

Ventilation chambers 3 serve for uniform distribution of codified air in the cultivation chambers. The ventilation chambers are separated from the cultivation chambers by an air filter 12 from sintepon or other breathable material.

Air preparation chambers 4 are used for conditioning and mixing air. Inside these cameras is placed equipment for heating 7, cooling 8 and humidification 9 of the air. If necessary, bactericidal UV lamps are switched on for disinfecting the air in the air preparation chambers 10. If the dimensions of the air preparation chamber do not allow the components of the air cooling equipment to be placed, the air is cooled in the room to accommodate the insect cabinet. In this case, the automation that controls the air temperature includes an additional fan, which pumps cooled air into the air preparation chamber.

Climate control automation sensors are located in cultivation 2 and ventilation 3 chambers, and control unit 5 is outside the insect cabinet 1. Cabinet 1 can be equipped with one or more cultivation chambers 2 with the same or different microclimate.

Claims (1)

Insect cabinet for growing bumblebees, as well as insects and mites to protect plants from pests, including a cultivation chamber for growing beneficial insects and mites, a ventilation chamber, an air preparation chamber and a control unit, mesh shelves for placing pallets for plants or cages are installed in the cultivation chamber for insects and ticks, and also illuminators are installed, equipment for heating, cooling, humidification of air, bactericidal UV irradiators and a fan are placed in the air preparation chamber For the injection of cooled air into the chamber, the climate control automation sensors are located in the cultivation and ventilation chambers, and the control unit is located outside the insect cabinet, the ventilation chamber communicates with the air preparation chamber, and it is separated from the cultivation chamber by an air filter.

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