RU93865U1 - TRANSPARENT CONSTRUCTION (OPTIONS) - Google Patents

Abstract

 1. Translucent structure, including a supporting frame, inside which a frame is installed, containing side racks connected by transverse elements with translucent elements located on them, forming an air chamber communicating with the outer space by means of at least one ventilation duct equipped with a filter, characterized the fact that between the side racks of the frame are installed with the possibility of rotation of the blinds, and the translucent elements are made of heat-shrinkable polymer, whose surface is covered with a layer of polytetrafluoroethylene. ! 2. The design according to claim 1, characterized in that the filters are installed in the ventilation ducts of the air chambers. ! 3. The construction according to claim 1, characterized in that the supporting frame is provided with a ventilation duct connected to the outer space, connected to the ventilation duct from the air chamber. ! 4. The design according to claim 4, characterized in that the filter is installed in the ventilation channel of the supporting frame. ! 5. The design according to claim 1, characterized in that the ventilation ducts are equipped with a system of water supply pipes. ! 6. Translucent structure, including a supporting frame, inside which a frame is installed, containing side posts connected by transverse elements with translucent elements located on them, forming an air chamber communicating with the outer space by means of at least one ventilation duct equipped with a filter, characterized the fact that the design is additionally equipped with an external frame equipped with translucent elements mounted coaxially to

Description

The utility model relates to the field of construction, namely to translucent walling and products used mainly in the field of construction for walls, roofs, sheds, windows.

Transparent and unbreakable hollow polycarbonate panels are used for this purpose. The lightness of the sheets allows you to increase the area of the light transmitting surface by increasing the width of the span of the supporting structure. A special protective layer deposited on the outer surface of the plates prevents the penetration of the most harmful UV radiation for the interior.

However, large flat surfaces of the panels tend to shrink and bend under the influence of changes in pressure and temperature, which leads to fracture of structures to their rapid wear.

Glass blocks with adjustable light transmission are widely used, usually used in window and / or doorways in a room or a car, and usually include an airtight chamber formed by two glass panels separated by a gas layer or made vacuum. Regulation of light transmission in them is carried out in various ways, for example, using tinted or reflective glasses. (A.V. Spiridonov. Window technologies of the late XX - early XXI centuries, Energy saving No. 1/2000).

A translucent sunscreen panel is known comprising a plurality of translucent elements with shading surfaces located in the seating sockets of the support structure. Translucent elements are made spherical in shape with spherical shading surfaces of variable transparency on two opposite quarters of the ball so that the degree of shading decreases in the direction from the landing slot. The supporting structure is made in the form of a lattice with round holes for translucent elements (P. RF No. 2226599, E06B 9/24).

A known design of a translucent panel with a controlled transmittance, consisting of many installed in transparent cells with the possibility of rotation of the radiation-blocking parts, each of which has at least one part, which is made essentially opaque, and means for rotating the radiation-blocking parts mounted on the case. The cells are made of transparent extruded plastic, such as polycarbonate, polymethylmethacrylate (PMMA) or polyvinyl chloride (PVC), and the plurality of tubular cells are integrally formed in the extruded plastic. The radiation-blocking parts are rotatably mounted in the cells and their surfaces have a substantially opaque portion, the angular position of this portion inside the cell determining the transmittance of the cells, which, by controlling this position, can vary between the minimum and maximum, which depends on the weather and / or from the position of the sun (p. RF 2221120).

However, the use of such structures places high demands on structural strength to withstand atmospheric air pressure and variable pressure caused by wind and vibration. Significant thermal stresses and mechanical stresses can occur between large panels.

A double glazed wall is known for building facades or windows, comprising an outer panel and an inner panel parallel to each other and forming a space inside which a dimming element is introduced, for example, blinds that can be maneuvered. The wall contains a node for forced circulation of air in the space between the panels to ensure the temperature inside the space equal to the temperature recorded in relation to the internal environment with the created climate, which allows to minimize heat dissipation; an air inlet opening allowing the internal environment to communicate with the specified space and located at the base of the inner panel, and an outlet opening outward and located at the top of the outer panel. The forced circulation assembly includes an air exhaust device mounted on an appropriate support fixed by an internal hole made in the upper part of the internal panel and in front of the exhaust hole. The inner panel and the outer panel are mounted on a frame formed by a perimeter frame comprising two side racks, one upper transverse element and one lower transverse element. The wall on the periphery is equipped with metal peripheral liners that contain substances designed to absorb moisture from the air (p. RF No. 2340756, E06B 7/02).

However, this design using forced ventilation of the air space between the panels is quite complex and time-consuming to manufacture.

Closest to the claimed is a translucent structure, which includes at least two translucent elements between which a closed cavity is formed with an air chamber. Translucent elements are located in a frame installed in the supporting frame. The air chamber through the ventilation channels located in the frame and frame is connected to the outer space, while the ventilation channels can be equipped with filters (p. RF No. 2235842, E06B 7/02).

The design provides the possibility of air exchange between the atmosphere and the air chamber, provided that condensation is prevented or frost is lost in the inter-glass space and the thermal insulation properties are increased due to the installation of appropriate filters.

However, this design does not provide the necessary climatic conditions for the objects protected by this design and does not allow adjusting the light flux.

The problem solved by the claimed device is to expand the range of translucent structures that meet the requirements of modern design and provide a safe and economic design, increase the sun protection of rooms, increase thermal insulation properties and reduce the harmful effects of dusting a translucent structure.

The technical result is achieved by providing control of the light flux in the claimed design and using heat-shrink plastic as a material of the translucent element, such as, for example, heat-shrink polymer based on polyvinyl chloride (PVC) or polyolefin polymers, including reinforced, with a layer of polytetrafluoroethylene applied to its surface .

The problem is solved by a translucent structure, including a supporting frame, inside which a frame is installed, containing two side posts connected by transverse elements with translucent elements located on them, forming an air chamber communicating with the outer space by means of at least one ventilation duct provided with a filter, formed in the frame, while between the side racks of the frame are installed with the possibility of rotation of the blinds, and translucent elements non-shrink polymer, the outer surface of which is coated with a layer of polytetrafluoroethylene.

The problem is also solved by a translucent structure, including a supporting frame, inside which two frames are coaxially mounted, an inner and an outer one, each of which is equipped with two connected transverse elements side racks located on them with translucent elements with the formation of air chambers communicating with the outer space by means of equipped with a filter ventilation channels, while between the side posts of the inner frame are installed with the possibility of rotation of the blinds, and translucent construction elements made from thermosetting resin, the outer surface of which is coated with a layer of polytetrafluoroethylene.

The proposed second version of the translucent structure can significantly improve the thermal insulation properties of the claimed design and makes it possible to operate it at external temperatures up to minus 30-40 degrees Celsius.

The proposed options for translucent construction is illustrated by the drawings of figure 1 and figure 2. Figure 1 schematically shows one of the possible designs with one frame, where 1 is translucent elements, 2 is the frame formed by the side posts 3 and transverse elements 4, 5 is the air chamber, 6 is the blinds, 7 are the ventilation ducts of the air chamber, 8 - a ventilation duct located in the supporting frame 9, 10 - control unit blinds.

Figure 2 schematically shows the construction according to the second embodiment of the proposed utility model with two frames, where 2 is the inner frame, and 11 is the outer frame.

The use of a heat-shrink polymer 1 with a PTFE layer deposited as a translucent element 1, which can simply be stretched onto the frames to form air chambers 5 and then heated in any suitable way, for example, with hot air, which makes it possible to obtain a lightweight, durable, weather-resistant construction, required profile.

The ventilation ducts 7, made, for example, in the form of a system of gas pipes, can directly communicate with the outer space (not shown in Fig.), But can be combined with a single ventilation duct 8 as shown in figures 1 and 2, located in the supporting frame and equipped with a filter for moisture and dust protection at the outside air inlet (not shown in FIG.).

Moisture and dust filter can be the same for the whole system and is installed in the unifying ventilation channel 8 of the supporting frame or each of the ventilation channels 7 of the frame can be equipped with such a filter.

The louvre plates 6 can be rotatably mounted, for example, on the side rack 3 of the frame, and their rotation can be carried out both manually and automatically using power supplied to them via a cable channel located on the side rack 3 of the frame . The louvre plates 6 can be made of any materials suitable for this purpose, for example, polycarbonate, polystyrene. They can also be made or coated with a light converting material, being energy active.

To ensure fire safety, ventilation ducts and / or a side stand of the frame can be additionally equipped with a system of water supply pipes, which can also be used to clean translucent elements.

The proposed design operates as follows. The existence of ventilation ducts leads to a natural equalization of air pressure in the structure, which changes both under the influence of temperature drops and with a change in atmospheric pressure, and this, in turn, allows to reduce the occurring deformations in used translucent elements made of heat-shrinkable polymer and extend their service life which is also facilitated by a layer of polytetrafluoroethylene applied to their surface, which also helps to reduce the rate of surface contamination This translucent element gives it hydrophobic properties and protects against ultraviolet radiation. The use of blinds allows you to control the light flow and regulate the temperature regime.

Claims (10)

1. Translucent structure, including a supporting frame, inside which a frame is installed, containing side racks connected by transverse elements with translucent elements located on them, forming an air chamber communicating with the outer space by means of at least one ventilation duct equipped with a filter, characterized the fact that between the side racks of the frame are installed with the possibility of rotation of the blinds, and the translucent elements are made of heat-shrinkable polymer, whose surface is covered with a layer of polytetrafluoroethylene. 2. The design according to claim 1, characterized in that the filters are installed in the ventilation ducts of the air chambers. 3. The construction according to claim 1, characterized in that the supporting frame is provided with a ventilation duct connected to the outer space, connected to the ventilation duct from the air chamber. 4. The design according to claim 4, characterized in that the filter is installed in the ventilation channel of the supporting frame. 5. The design according to claim 1, characterized in that the ventilation ducts are equipped with a system of water supply pipes. 6. Translucent structure, including a supporting frame, inside which a frame is installed, containing side racks connected by transverse elements with translucent elements located on them, forming an air chamber communicating with the outer space by means of at least one ventilation duct equipped with a filter, characterized the fact that the design is additionally equipped with an outer frame equipped with translucent elements mounted coaxially relative to the inner frame with the formation of air channels between them, while the translucent elements of the frames are made of heat-shrinkable polymer, the outer surface of the translucent elements of the outer frame is covered with a layer of polytetrafluoroethylene, and the blinds are installed with the possibility of rotation between the side racks of the inner frame. 7. The design according to claim 6, characterized in that the filters are installed in the ventilation ducts of the air chambers. 8. The design according to claim 6, characterized in that the ventilation ducts are equipped with a system of water supply pipes. 9. The construction according to claim 6, characterized in that the supporting frame is provided with a ventilation channel connected to the outer space connected to the ventilation channels of the air chambers. 10. The design according to claim 9, characterized in that the filter is installed in the ventilation channel of the supporting frame.