RU2031320C1 - Air pit - Google Patents

Abstract

FIELD: ventilation systems. SUBSTANCE: panel being transparent to solar radiation is disposed at south side. Heat-conducting screen covered with light-absorbing coating is mounted at central part of the pit in parallel to transparent panel. Umbrella is made in form of gable roof mounted on the posts which are fastened to walls of the pit. South pitch of the roof is transparent to solar radiation. V-shaped air stream dissector is made of heat-conducting material and is mounted under the roof with its point down and attached to the roof. Surface of the dissector which is turned to pitches of the roof is covered with light-absorbing layer. EFFECT: improved efficiency. 1 dwg

Description

 The invention relates to ventilation and can be used to remove contaminated air from a livestock building.

 Known exhaust shaft used in natural ventilation systems.

 The well-known mine of rectangular cross-section contains heat-insulating walls and a panel located on the south side, made in the form of a window unit with double glazing, an umbrella.

 A disadvantage of the known mine is the low efficiency during exposure to direct sunlight.

 The aim of the invention is the intensification of air exchange.

 The goal is achieved in that a rectangular rectangular cross-section exhaust shaft containing heat-insulating walls and a solar-transparent panel located on the south side, a heat-conducting screen with a light-absorbing layer installed in the middle of the shaft parallel to the transparent panel, an umbrella made in the form of a gable roof mounted on racks attached to the walls of the shaft is additionally equipped with a V-shaped air flow divider, and the southern slope of the roof is transparent to solar radiation, etc. This divider is formed of a heat conducting material installed under the roof edge down and attached to the latter, and its surface facing the roof slopes, is covered with a light absorbing layer.

 The essence of the invention lies in the fact that the equipment of the mine with a V-shaped divider made of heat-conducting material, making the southern slope of the roof transparent to solar radiation, installing the divider under the roof with its tip down, coating the divider’s surface with a light-absorbing layer can reduce the hydraulic resistance of the umbrella and use the thermal energy of the sun when using an umbrella to increase the air productivity of the mine, i.e. intensify air exchange.

 The drawing shows the proposed exhaust shaft in the context.

 The exhaust shaft contains a rectangular cross-section duct made of heat-insulating walls 1 and located on the south side of a panel 2 transparent to solar radiation with an air gap, a screen 3 of heat-conducting material, the surface of which facing toward the panel 2, is made with the possibility of absorption of solar radiation, umbrella 4, made in the form of a roof with slopes 5 and 6 mounted on racks 7 attached to the racks of the shaft, a V-shaped air flow divider 8, made of heat-conducting about the material installed with the tip down under the roof and attached to the roof, valve 9. To use thermal energy to intensify air exchange, the roof slope 6 is transparent to solar radiation, and the surface of the divider 8 facing the slopes 5 and 6 is coated with a light-absorbing layer.

 The exhaust shaft operates as follows.

 In the cold period of gas, the mine’s air capacity is ensured by a temperature difference equal to the temperature difference between indoor and outdoor air, and since the hydraulic resistance of the mine’s umbrella due to the use of a V-shaped air divider 8 is lower, its air capacity is greater than in the known one.

 In the transitional and warm periods of the year, when the temperature difference between the indoor and outdoor air is small, in clear weather during the daytime, solar radiation passing through the transparent panel 2 and the slope 6 of the umbrella falls on the light-absorbing surfaces of the screen 3 and the V-shaped divider, heating the latter above temperature of the removed air. Since the divider 8 is also made of heat-conducting material, the exhaust air, washing the heat exchange surfaces of the screen 3 and the divider 8, is heated to a higher temperature than in a known mine, which increases the additional air productivity of the mine.

 The increase in air productivity of the mine during these periods is also facilitated by the low hydraulic resistance of the mine umbrella. A higher degree of heating of the removed air also contributes to the reduction of heat loss by the removed air through the slopes 5 and 6 of the umbrella due to the presence of a divider 8. Using the rotary valve 9 regulate the air capacity of the mine.

 Thus, equipping the exhaust shaft with a V-shaped air flow divider, making it of heat-conducting material and light-absorbing from the side of the umbrella slopes, positioning it under the roof and attaching to it, making the southern slope of the umbrella transparent to solar radiation increases the degree of heating of the removed air and reduces hydraulic the resistance of the mine and, therefore, intensifies the air exchange of the room in sunny weather, in warm and transitional periods of the year.

Claims (1)

 EXTRACT SHAFT of rectangular cross-section, containing heat-insulating walls and a solar panel transparent for solar radiation located on the south side, a heat-conducting screen with a light-absorbing layer installed in the middle of the shaft parallel to the transparent panel, an umbrella made in the form of a gable roof mounted on racks attached to the walls of the shaft , characterized in that, in order to intensify air exchange, the mine is additionally equipped with a V-shaped air flow divider, and the southern slope of the roof is made transparent to solar radiation, while the divider is made of heat-conducting material, is mounted under the roof with its tip down and attached to the latter, and its surface facing the roof slopes is covered with a light-absorbing layer.

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