RU187719U1 - Curved Bubble Column - Google Patents

Abstract

A curved bubble column made in the form of a water-filled cylindrical tube made of transparent organic glass mounted along a vertical installation axis, and a cylindrical tube made of transparent organic glass made with the possibility of supplying air bubbles from the air nozzles of the base platform and with the possibility of illumination by directional illumination while the cylindrical tube made of transparent organic glass is a smoothly curved profile around a vertical mouth ovochnoy axis in the form of a helix, the lower point of which is offset relative to the lower mounting points of the vertical axis at a base-platform of the cylindrical pipe made of transparent organic glass offset value corresponding to the step helix. The technical result is the expansion of the arsenal of technical means used for interior equipment and the formation of optical color effects. 4 s.p. f-ly, 2 ill.

Description

The utility model relates to devices for equipment for interiors and can be used to create bubble columns, colonnades and panels.

A device is known [RU 32487, U1, C02F 3/20, 09/20/2003] made in the form of a fiberglass pipe impregnated with a composition of thermosetting resins followed by its polymerization to form an ordered microporous structure with a predetermined distance between pores throughout the pipe wall thickness, ensuring the prevention of coalescence of air bubbles escaping from the pores, the pipe being made of fiberglass layers having a thickness of at least 0.18-0.25 mm, wound in several at least 5 layers, and the fiberglass has been impregnated to e windings, and polymerization after winding.

A disadvantage of the known device is the relatively low transparency of the pipe walls, which does not allow to form a pronounced optical effect.

The closest in technical essence to the proposed one is a bubble column [http://www.aquade.ru/product/ Puzyrkovye_kolonny_p], made in the form of a straight cylindrical tube made of transparent organic glass filled with water, installed along a vertical installation axis that coincides with the longitudinal axis of the straight line a cylindrical tube made of transparent organic glass with a diameter of from 20 to 650 mm and a height of 0.3 to 4 m, moreover, a straight cylindrical tube made of transparent organic glass is configured to supply air bubbles to it of air nozzles at its base, a cylindrical tube made of transparent organic glass side walls are arranged to be directed illumination lights.

The effect of the movement of numerous air bubbles is enhanced by multi-color lighting of the entire volume of the column, and a smooth change of colors and their combinations forms a fascinating game of air and water, light and shadow.

The disadvantage of the closest technical solution is the relatively narrow functionality, since it provides the possibility of forming a moving air stream only in a strictly vertical direction. This narrows the arsenal of technical equipment used for interior equipment and the formation of optical color effects in the form of a game of air and water.

The objective of the utility model is to create bubble columns that provide the ability to form a moving stream of air bubbles in directions other than strictly vertical, that is, along curved paths. For this, it is proposed that the column be curved.

Thus, the required technical result consists in expanding on this basis the arsenal of technical means used for interior equipment and the formation of optical color effects.

The problem is solved, and the required technical result is achieved by the fact that, a curved bubble column made in the form of a cylindrical tube made of transparent organic glass filled with water, installed along the vertical mounting axis, moreover, a cylindrical tube made of transparent organic glass is made with the possibility of feeding bubbles into it air from the air nozzles of the base platform and with the possibility of its illumination by directional illumination, while the cylindrical tube is made of a transparent organ Natural glass is a smoothly curved profile around a vertical mounting axis in the form of a helix, the lower point of which is offset from the bottom of the vertical mounting axis at the base platform of a cylindrical tube made of transparent organic glass by the amount of displacement corresponding to the pitch of the helical line.

In addition, the required technical result is achieved by the fact that the diameter of the cylindrical tube made of transparent organic glass is 10-300 mm.

In addition, the required technical result is achieved by the fact that the length of the cylindrical tube made of transparent organic glass is 1-5 m.

In addition, the required technical result is achieved by the fact that the pitch of the helix is from 3-10 diameters of a cylindrical tube made of transparent organic glass.

In addition, the required technical result is achieved by the fact that the torsion of the helix is 180 ° -360 ° to the length of the cylindrical tube made of transparent organic glass.

The drawing shows:

in FIG. 1 - bubble column with the lower and upper base of the bubble column and air bubbles;

in FIG. 2 is an example of using a composition of bubble columns.

In the drawing are indicated:

1 - a cylindrical pipe made of transparent organic glass;

2 - platform - base;

3 - upper base;

4 - air bubbles;

5 - vertical mounting axis;

6 - displacement of the longitudinal axis of a cylindrical tube made of transparent organic glass relative to the vertical mounting axis at the lower base.

The bubble column (Fig. 1) is made in the form of a cylindrical tube 1 filled with water from transparent organic glass mounted along the vertical mounting axis 5.

In a bubble column, a straight cylindrical tube 1 made of transparent organic glass is configured to supply air bubbles 4 from air nozzles (not shown) of the base platform 2 and with the possibility of illumination by directional illumination.

In addition, in the bubble column, the cylindrical tube made of transparent organic glass is smoothly curved around the vertical mounting axis 5, while the longitudinal axis of the cylindrical tube 1 made of transparent organic glass has the shape of a helix, the lower point of which is offset from the lower point of the vertical mounting axis 5 at the base platform 2 of the cylindrical pipe 1 made of transparent organic glass by an offset value of 6, corresponding to the pitch of the helix.

A feature of the proposed bubble column is that, mainly, the diameter of the cylindrical pipe 1 made of transparent organic glass (polymethyl methacrylate) is 10-300 mm, its length is 1-5 m, the pitch of the helix is 3-10 diameters of the cylindrical pipe 1 made of transparent organic glass, the torsion of the helix is 180 ° -360 ° to the length of the cylindrical pipe 1 of transparent organic glass.

A bubble column is used as follows.

The bubble column, which is an organic glass pipe 1, is mounted on a base platform 2 and filled with clean water. Air bubbles emerging from the nozzles located in the base platform 2 and painted in different colors by directional illumination, due to the fact that the side walls of the cylindrical tube 1 made of transparent organic glass are made with the possibility of their illumination by directional illumination, fill the entire volume of the bubble column. The lining of the base platform 2 can be made of decorative plastic, colored plexiglass, metal, natural stone, ceramic tile or soft coating. For incorporation into the interior, the platform-base 2 can be hidden in the floor or parapet. The effect of the movement of numerous air bubbles is enhanced by multi-color lighting of the entire volume of the column. The smooth change of colors and their combinations shows an eye-catching picture, a bewitching play of air and water, light and shadow.

Robust base construction assembled from steel profile pipes, metal racks and platens.

Sealing of the bubble column can be performed by the annular and flange sealing method, which allows you to clean the pipe from contamination, replace the pipe in case of damage or dismantle for transportation. Air is supplied by low-noise compressors through nozzles.

To drain water from a bubble column, a drainage hose with a ball valve can be provided, which can be connected to the sewage line when draining or a clean line when filling.

Illumination of the bubble column is carried out by specialized LED assemblies using high-class elements. The LED board can have dozens of powerful LEDs with a small scattering angle, which allows you to evenly and brightly illuminate the entire space of the bubble column.

The bubble column itself may have a specialized backlight control unit that creates color transitions, and in the case of double-sided backlighting, it is possible to combine different colors in the upper and lower backlights, which greatly expands the visual variety of the product.

The upper part of the high bubble columns can be equipped with an upper base (decorative head), in which additional illumination can be mounted, as well as a metal bracket for fixing the bubble column to a wall or ceiling.

An essential feature of the proposed bubble column is that it is possible to form a moving stream of air bubbles in directions other than strictly vertical, in particular screw-shaped, which allows you to expand the arsenal of technical means used for interior equipment and the formation of optical color effects, and achieve the required technical result.

The proposed bubble columns can be combined in the composition, for example, in the form of interwoven columns (see Fig. 2). This creates an additional optical effect.

Claims (5)

1. A curved bubble column made in the form of a water-filled cylindrical tube made of transparent organic glass mounted along a vertical installation axis, the cylindrical tube made of transparent organic glass made with the possibility of supplying air bubbles from the air nozzles of the base platform and with the possibility of lighting directional illumination, while the cylindrical tube made of transparent organic glass is a smoothly curved profile around a vertical an axis in the form of a helix, the lower point of which is offset from the lower point of the vertical mounting axis at the base platform of a cylindrical tube made of transparent organic glass by the amount of displacement corresponding to the pitch of the helix. 2. The bubble column according to claim 1, characterized in that the diameter of the cylindrical tube made of transparent organic glass is from ten to three hundred mm. 3. The bubble column according to claim 1, characterized in that the length of the cylindrical tube made of transparent organic glass is from one to five meters. 4. The bubble column according to claim 1, characterized in that the pitch of the helix is from three to ten diameters of a cylindrical tube made of transparent organic glass. 5. The bubble column according to claim 1, characterized in that the torsion of the helical line is from 180 ° to 360 ° to the length of the cylindrical tube made of transparent organic glass.

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