RU2049700C1 - Station for water medium with ice cover - Google Patents

Abstract

FIELD: polar stations. SUBSTANCE: station has housing made in form of cylindrical sleeve with cover located above upper portion of hull which projects above ice cover; lower portion of this hull is located under ice in water medium. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to devices of polar stations and can be used for research stations that are designed for long-term drift with access to thin ice and free water with scientific staff and to work in automatic mode without staff.

 It is known to implement a station for an aquatic environment with ice cover, comprising a building with residential and office premises equipped with forced-air and exhaust ventilation.

 However, the device has insufficient reliability in the formation of cracks or strong movement of ice.

 The aim of the invention is to eliminate the effect of cracks and ice movements on the life of the station.

 This is achieved by the fact that the casing is made in the form of a cylindrical glass with a roof located on the upper part of the casing protruding above the ice cover, which is fixed on the ice surface, and the rooms on one or several floors are located in the aquatic environment, while the rooms are equipped with a lift-trigger device.

 The drawing is simplified in the form of a structural diagram of the station. It contains a housing in the form of a cylindrical cup 1, which is made of sections 2. Sections 2 are connected tightly together. The lower sections 3, 4 are used to accommodate ballast and product storage. All upstream sections 2 are residential. Those sections 2, which are located in the ice zone 5, are used as auxiliary equipment. On top of the glass 1 there is a roof 6 with an exit 7. The glass 1 has a supply and exhaust ventilation and a lift-and-release device (not shown conditionally). The simplest embodiment of the lifting and launching device can be a ladder made of brackets, as on tower cranes. Its implementation depends on the purpose of the station and its volume. Supply and exhaust ventilation can be made in the form of an air duct with holes in all sections for intake and air supply. At the top of each air duct are low-power fans. The station has an electric energy source with a diesel drive 8, which is located on the upper platform 9 for oxygen selection for its work from the external atmosphere. Section 2, which fall into the ice zone 5, have a thickening 10 of the wall. This is due to the fact that they will experience significant loads when moving ice and must withstand them without destruction. On the side surface of the glass 1 there are brackets 11 for fastening to ice 5. The walls of the sections that are in the water zone are thin, since they experience only hydrostatic pressure and the load from the equipment.

When resuming squeezing from the ice fields of section 2, which are located in the ice zone and have reinforcement, save the station from destruction. In addition, such a device of the station allows to obtain significant savings due to the location of the premises in the form of sections in the aquatic environment. This is because the water temperature of about zero degrees and require small space heating energy unlike the arrangement of premises on the surface of the ice cover, where the temperature falls to -70 ° ^C. Such station apparatus eliminates the effects of bad weather on the health of personnel, as is in the zone of the aquatic environment, i.e. below and remotely from the external environment. Simplified and simplified the work on sampling water, which can be carried out from the premises inside the cup 1, and the data of meteorological parameters that can be obtained at site 9. Thus, the device of the station allows to increase its bearing capacity, reduce energy consumption, simplify the technology of sampling and increase comfort.

Claims (1)

 STATION FOR A WATER ENVIRONMENT WITH ICE COVER, comprising a housing with living and service rooms equipped with supply and exhaust ventilation, characterized in that the housing is made in the form of a cylindrical glass with a roof located on the upper part of the housing protruding above the ice cover, which is fixed on the ice surface while in the lower part of the housing, located under the ice in the aquatic environment, these premises are located on one or several floors, which are equipped with a lifting and launching device.

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