RU183009U1 - DEFLECTOR - Google Patents

Abstract

The claimed solution relates to a technique that provides ventilation in natural air exchange systems in various rooms, in particular, such as cellars, garages, collective vegetable stores located in low places, in ravines. The essence of the technical solution lies in the fact that the known deflector containing a pipe designed to be connected to the shaft of the air exchange system, and a housing including upper and lower bases and a set of arched plates fixed at their ends to the said bases by approaching the bottom behind the other, and the bases are rigidly interconnected by a vertical axis mounted for rotation on a bearing (not shown in the drawings) fixed in the said pipe, additionally provided with a casing fixed to the pipe concentrically to it, and made of a decreasing section from its lower cut to the upper cut, the smallest value of which is at least equal to the diameter of the lower base of the casing, the casing along the length of the pipe is fixed so that its upper cut is located from the lower base of the casing at a distance of sufficient for free rotation of the casing, and between the lower cut of the casing and the junction of the pipe with the shaft of the air exchange system, an air gap is formed. The efficiency of air movement between the pipe and the casing is explained by the fact that the air gap, absorbing the thermal radiation of the earth and the structure, will be warmer than the surrounding air . Warm air, moving up, captures the flow of air from the pipe, enhances rotation, providing the opportunity to improve the quality of the deflector in conditions of weak wind or in its absence. The most clearly claimed solution is schematically shown in FIG. 3 attached drawings.

Description

The claimed solution relates to a technique that provides increased ventilation in natural air exchange systems, and can be widely used for ventilation of various rooms without the use of electricity, in particular, such as cellars, garages, collective vegetable stores located in lowlands, in ravines.

Vane-type deflectors are widely known (for example, the weather vane according to RF patent No. 119859, IPC F24F 7/00), comprising a rotating housing connected to a rod, rotating elements in the form of bearings mounted on a rod, a weather vane rigidly mounted on a rotating housing, a ring for connections to the air exchange system, while curved visors are fixed to the rotating body, each of which comes into an angle with the subsequent angle with the possibility of passing outside air, and the rotating elements are hermetically mounted in the glass, rigidly Connections with the ring.

However, in strong winds such devices require great stability of their fastening, which can not always be done. Therefore, weathervane deflectors often fail due to their inclination under the influence of wind. If the wind is too weak or in the absence of wind, they do not work.

Known, widely used ball turbo-deflectors, manufactured and sold by a number of enterprises, including the city of Cherkessk, st. Stavropol, 72 (turbina16@yandex.ru), as well as the city of Cheboksary, st. Academician Krylov, 3, LLC "Turbodeflector".

Such a deflector comprises a pipe designed to be connected to the shaft of the air exchange system, and a housing rigidly mounted on a vertical axis mounted for rotation on a sealed bearing mounted by means of a support in said pipe. Moreover, the casing is made of a set of arched plates and two bases to which the said plates are attached, arranged one after the other, and the vertical axis is rigidly connected with the indicated bases.

Under the influence of wind falling on the plates, the body rotates, creating a vacuum inside, which increases the draft from the ventilation pipe. In the absence of wind or its insufficiency, the rotation of the body slows down, the thrust decreases. Such a situation may arise when deflectors are installed on structures, for example, vegetable stores, garages, garden cottages, which, as is common, located in lowlands, in ravines surrounded by forests, where the wind speed is less than 0.5 m / s, which is not enough for high-quality deflector operation.

The technical result of the claimed utility model is to provide the possibility of improving the quality of the deflector in conditions of weak wind or its absence.

The technical result is achieved due to the fact that the deflector containing the pipe, designed to connect with the shaft of the air exchange system, and the housing, including the upper and lower bases and a set of arcuate plates fixed at their ends to the mentioned bases one after the other, and the base rigidly interconnected by a vertical axis mounted for rotation on a bearing mounted in a pipe designed to be connected to the shaft of the air exchange system, is additionally equipped with a casing, fixed to the specified pipe concentrically to it, and made of decreasing section from its lower cut to the upper cut, the smallest value of which is at least equal to the diameter of the lower base of the casing, while the casing is fixed along the length of the pipe so that its upper cut is located from the lower the base of the housing at a distance sufficient for free rotation of the housing, and between the lower cut of the casing and the junction of the pipe with the shaft of the air exchange system, an air gap is formed.

The execution of the casing of a decreasing section from its lower cut to the upper cut can be a single truncated cone. In the case of a significant length of the pipe intended for connection with the shaft of the air exchange system, the casing can be made in the form of two truncated cones and an insert made of one section along the entire length and with the possibility of articulation with these cones. This will simplify the manufacturing technology of the casing with its considerable length.

The drawings schematically show: in FIG. 1 is a general view of a deflector without a casing (prototype), FIG. 2 - structural design of the casing and its location relative to the pipe, in FIG. 3 - deflector with a casing, in FIG. 4 is an embodiment of a casing in the form of two truncated cones and an insert.

The deflector includes a pipe 1 (Fig. 1), designed to connect to the shaft 2 of the air exchange system, and a housing 3 made of a set of arched plates 4, upper 5 and lower 6 bases, to which plates 4 are attached one after the other. The bases 5 and 6 are rigidly interconnected by the axis 7. The axis 7 is mounted for rotation in a bearing (not shown in the drawing), fixed in the pipe 1.

The deflector is equipped with a casing 8 (Fig. 2, 3) made of a decreasing section from its lower cut A to the upper cut B. In this case, the smallest diameter value of the upper cut B is at least equal to the diameter D of the lower base 6 of the housing 3.

The casing 8 is fixed to the pipe 1 (Fig. 2, 3) concentrically to it and is located on this pipe in such a way that its upper cut B is located from the lower base 6 of the housing 3 at a distance H sufficient to allow free rotation of the housing 3, and between the lower cut A of the casing 8 and the place F of the connection of the pipe 1 with the shaft 2 of the air exchange system formed air gap C.

The casing 8 is fixed to the pipe 1 using known fastening means, for example, by means of studs (not shown in the drawings).

With a significant length of the pipe 1 intended for connection with the shaft of the air exchange system, the manufacture of a truncated cone of considerable length can be technologically difficult, therefore, the casing 8 can be made integral (Fig. 4), i.e. contain two truncated cones K1 and K2 and an insert M made of one section along the entire length and with the possibility of articulation with cones K1 and K2.

The presence of the casing and its location provides the formation of an air ring between the outer wall of the pipe 1 and the inner wall of the casing 8, which allows air to move from the air gap C up to the casing 3, acting on the plates 4, and turning the casing 3. The efficiency of air movement between pipe and casing due to the fact that the air gap C, absorbing the thermal radiation of the earth and buildings, will be warmer than the surrounding air. Warm air, moving up, rotating the body, captures the air flow from the pipe, enhances rotation, providing the opportunity to improve the quality of the deflector in light wind or in its absence.

Claims (3)

1. The deflector containing a pipe designed to connect with the shaft of the air exchange system, and a housing including upper and lower bases, and a set of arcuate plates fixed at their ends to the said bases with approaching one after another, and the bases are rigidly connected to each other by a vertical an axis mounted for rotation on a bearing mounted in a pipe intended to be connected to a shaft of an air exchange system, characterized in that it is further provided with a casing fixed to said pipe eccentric to it and made of decreasing section from its lower cut to the upper cut, the smallest value of which is at least equal to the diameter of the lower base of the body, while the casing along the length of the pipe is fixed so that its upper cut is located from the lower base of the body, sufficient to ensure free rotation of the housing, and between the lower cut of the casing and the junction of the pipe with the shaft of the air exchange system, an air gap is formed. 2. The deflector according to claim 1, characterized in that the casing is made in the form of a truncated cone. 3. The deflector according to claim 1, characterized in that the casing is made in the form of two truncated cones and an insert made of one section along the entire length and with the possibility of articulation with the said cones.

Images