SU1333985A1 - Ventilating device - Google Patents

Abstract

The invention relates to ventilating devices using solar energy and makes it possible to increase the efficiency of ventilation by improving the aerodynamic characteristics of the device. Nozzles 2 are pivotally mounted on the tip of a 3-shaft mine 1, which has a spherical shape. The mechanism 4 for returning the nozzle to the neutral position is made in the form of a truncated cone (CC) 5 and a spherical hinge 6 located coaxially to the shaft below the tip. The hinge contacts the inner surface of the UK 5 from the side of its smaller base. Nozzles 2 and QC 5 are interconnected by means of flexible pipes and 9 that absorb solar radiation, which allows to increase the kinetic energy-flow. The device uses the energy of the sun and wind with the help of elements fixed outside the shaft. Making the nozzle 2 inclined with the formation of an ejecting gap I7 makes it possible to more fully utilize wind energy, and also increases wind energy in calm weather. 1 il. 00 SP

Description

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The invention relates to ventilation, in particular to ventilation devices using solar energy.

The purpose of the invention is to improve the ventilation efficiency by improving the aerodynamic characteristics of the device and the use of solar energy.

The drawing shows a constructive scheme of the ventilation device

The ventilation device contains exhaust shaft 1 of the nozzles 2, mounted on its top 3 with the possibility of rotation under the action of wind load, and mechanism 4 for returning the nozzle 2 to the neutral position.

The cap 3 has a spherical shape of nozzles 2 mounted on a hinge, and the return mechanism 4 is arranged coaxially with shaft 1 below the cap 3 of a truncated cone 5 and a spherical hinge 6 in contact with the inner surface 7 of the cone 5 from its smaller base 8 , the nozzles 2 and the cone 5 are interconnected by means of flexible m r 9 and absorbing solar radiation.

Cap 3 can be obtained directly by turning the material of the shaft 1 or by bending its elements. It is possible to manufacture the tip 3 in the form of a cbeMiioro ball ring 10 supported on a ring stop, 11, and the ring 10 may be collapsible from segments (not shown) fastened to the shaft 1 with screws, pins or a hoop. The ball ring 10 is made of heat insulating non-corrosive and anti-friction plastic.

Nozzles 2 have a conical base 12, a narrowing nozzle 13 and a transparent shell 14. In the slots on the lateral surface of the base 12 there are hemispherical housings 15 with fluoroplastic balls I 6 in contact with the ring 1 O i. ejecting gap 17 between the base 12 and the ring 10, while niapHKH 16 susceptible to blowing air. The base 12 and the pipe 13 are covered with black paint. When turning the nozzle 2 its base 12 closes the shell 14 from the wind.

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The base 2 nozzle 2 and a large base 18 of the cone 5 are connected inter1

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I am a t 9, evenly spaced around the perimeter and fixed on the base 18 by means of adjusting hook screws 19,

The spherical joint 6 of the return mechanism 4 can be performed similarly to the tip 3 and also mounted on the shaft 1.

To reduce the size of the cone; 5, removable weights 20 are suspended thereto. The inner surface 7 of the cone 5 is shiny and its wall expands downwards along the thickness. In addition, the cone 5 can be made detachable, closed by the Transparent shell 21 and coated on the outside with black paint. The plugs 9 can be connected to the base 18 and through the springs (not shown),

The ventilation device operates as follows.

Under the action of the wind load, the nozzles 2 deviate from the vertical 5 position and, through the rods 9, tilts the cone 5. At the same time, the outlet opening-. The injector nozzle 2 creates a rarefaction zone, and under its base 12 is blown out with air, which cleans the balls 16 and increases the thrust, increasing the height of the ventilated air discharge. The kinetic energy of the flow is increased by heating the pump 2 and cone 5 by solar radiation. In the windless weather, the nozzles 2 are returned by the cone 5 to the neutral position, but in this case also has the ejecting ability under the influence of solar radiation.

The proposed ventilation device uses the energy of the Sun and wind with the help of elements fixed outside the shaft 1, which improves the aerodynamic characteristics of the device and thereby increases traction.

Making the nozzle 2 inclined with the formation of an ejecting pump 17 and absorbing solar radiation allows for the fullest use of wind energy and also increases traction in calm weather, which increases the efficiency of ventilation.

The device is convenient in installation and preventive maintenance, which increases its operational reliability.

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Claims (1)

Invention Formula Ventilation device containing nozzle exhaust shafts, installation 3333985. new on its top with the possibility of being rotated coaxially with the chess turn under the action of the wind, below the tip of the truncated cone and load, and the mechanism for returning a spherical hinge in contact cage in neutral position, from-with the inner surface of the cone with Led by the fact that, on the sides of its smaller base, with the purpose of increasing the efficiency of the valve than the nozzles and the cone are connected between the salts, the tip has a spherical head with flexible t and the shape, the nozzles are installed on it . Nirno, and the return mechanism is made