SU1094599A1 - Silk worm house - Google Patents

Abstract

A WOOD BLADE containing a carcass and a film coating, characterized in that, in order to improve the regulation of the moisture content of the air in the wormwater with changes in the state of the outside air, it is provided with a screen located on the inside of the film coating and made of a moisture absorbing material. (L with JV CO with

Description

The invention relates to agriculture, namely sericulture, and may. be used in households for the production of silk cocoons. The known chervodn, containing a skeleton and a film coating 1. However, chervodoven film coatings have a high heat transfer coefficient, it is not enough zash, ns, there are tracks from solar radiation. In addition, a disadvantage of the device is the excessive moisture content inside the wormwater. The aim of the invention is to improve the regulation of the moisture content of the air in the chervodna with changes in the state of the outside air. This goal is achieved by the fact that the chervodn is equipped with a screen located on the inner side of the film coating and made of a moisture-absorbing material. FIG. 1 shows the worms; in fig. 2 is the same cross section. The silkworm for silkworm feeding consists of a metal frame 1 mounted on a concrete foundation 2 in which there are ventilation 3. The inner surface of the spatial (in the form of trusses welded from the corner profiles) frame 1 is attached using bolted joints of foam plates that are connected between on the side surfaces with pin joints. Foam plates, located across the entire inner surface of the wormfish, form a moisture-absorbing screen 4. On the inside of the moisture-absorbing screen 4 in the subceiling space, along the entire length of the worms-water, we made an air duct 5 made of a polyethylene perforated film 6, 200 mm from the moisture-absorbing screen 4. The lateral ends of the air duct 5 are attached to the moisture-absorbing screen 4. The air duct 5 is connected with the installation of the hygrothermal mode. The distance from the moisture-absorbing screen 4 to the perforated film 6 depends on the power of the hygrothermal installation, the greater the power of installation 7 of the hygrothermal mode, the greater the distance from the screen 4 to the perforated film 6 to ensure the normal throughput of the duct 5. On the outer side of the frame 1 is worm water has a film coating 8, which closes the wormwater from all sides. Inside the worms according to the technological process, install the following shelves 9 to feed the silkworm caterpillars. In the process of feeding the larvae of the silkworm and the wormfish works as follows. The conditioned air from installation 7 of the hygrothermal mode enters the air duct 5, from where it passes through the perforation of the film G6 into the inside of the wormwater, after which all the air layers pass, the air is carried out through the vents 3. A large amount of moisture is released from the bodies of the larvae , which, evaporating, creates an increased moisture content of the air inside the worms, which leads to the appearance of various kinds of diseases, so the most important task for obtaining high-quality cocoons is to remove excessively moisture from the wormwater and maintaining the humidity of the air inside the wormwater at least 65%. With an increase in the humidity of the air inside the wormwater, the excess moisture is absorbed to some extent by the porous screen and remains in it until the humidity of the air inside the wormwater decreases. As soon as the humidity inside the wormwater decreases (and this depends on many factors, for example due to an increase in the outside air temperature), the moisture absorbing screen 4 begins to give off excess moisture to the wormwater, wetting it and, thus, adjusting the moisture content of the wormwater to the limits. The installation of the film 6 with holes also helps to maintain the necessary hygrometric parameters. This is explained by the fact that the air flow of a certain temperature and humidity, supplied through the duct 5, passes through the apertures of the film b and, washing the surface of the ceiling and walls, takes and removes excess moisture through the vents 3, at the same time lowering the air temperature wormwatering to the specified parameters, the presence of an air gap between the outer surface of the moisture-absorbing screen 4 and the inner surface of the film coating 8 prevents overheating of the wormwater during hot daytime and overcooling in the cold one night time The proposed worm-breeding structure allows one to stabilize the air humidity in it, completely eliminate the harmful effects of solar radiation, and reduce the costs of its operation by reducing energy consumption.

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Claims (1)

WATERFILL containing a frame and a film coating, characterized in that, in order to improve the regulation of the moisture content of air in the worm water when the state of the outside air changes, it is equipped with a screen located on the inside of the film coating and made of moisture-absorbing material. FIG. /