RU2664819C1 - Frameless panel - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, namely to the construction of hermetic frameless panels that can be used to produce door and window structures used, including in high-rise buildings. Technical result is achieved by using a frameless panel comprising two inserts, a profile located between said inserts and extending along the perimeter of the frameless panel, wherein the profile has a recess in which a seal is disposed connected to a drive mechanism for making shuttle movement of the seal from said profile recess.

EFFECT: creation of a universal structure of a frameless panel that can be installed both on the lower and upper floors of high-rise buildings, with the provision of sealing and ventilation due to the shuttle movement of the seal.

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Description

The invention relates to the field of construction, namely to the design of sealed frameless panels that can be used to produce door and window structures, used, including, in high-rise buildings.

Known plastic window constructions (the so-called plastic windows), which are standardly equipped with a base installed in the opening of the building intended for this purpose, and movable doors that can open (“window open”) or close (“window closed”). To seal such window structures, rubber seals are used, made in the form of narrow tubes or tapes, which are located around the perimeter of the window structure base and movable shutters (http://koffkindom.ru/uplotnitel-dlya-plastikovyx-okon-vybor-i-sovety. htm, http://househill.ru/otdelka/okna/plastikovye/uplotniteli-dlya-pvx.html). When closing the movable leaves by means of a handle, the seals are pressed, and thus the window structure is sealed.

In this case, the seals are located around the perimeter on the outside of the window structure, which leads to the ingress of dirt and dust on the street side and shortening their service life. Also, a faster wear of the seals and the need to replace them results in mechanical stress (pressing) when sealing the window structure.

Such window structures are intended for use in buildings with less than 20-25 floors. Ventilation of rooms in this case is possible only by tearing and closing the movable window sashes. With a building height of more than 75 meters, opening windows is prohibited, including due to strong gusts of wind on the upper floors (http://kakzdorovo.com/v/12645.html). which can lead to the failure of the window structure. To provide the upper floors of the skyscrapers with air, ventilation and air conditioning systems are provided. However, regular maintenance of these systems is required to maintain clean air. Non-compliance with standards (for example, untimely replacement of air filters and other elements) leads to a decrease in the quality of incoming air, which negatively affects the well-being of people in the room. In addition, the operation of ventilation and air conditioning systems for high-rise buildings, in addition to significant labor costs in the calculation and construction, requires electricity. When a power outage occurs, the systems stop working, which causes additional inconvenience.

In addition, these window structures are installed in a frame that overlaps part of the glass surface on the movable leaves, reduces its area and view "from the window."

Currently, modern trends in the construction of buildings are reduced to the use of frameless window structures, which make it possible to obtain so-called panoramic windows without a visible external frame.

Known structures of frameless panels that can be used to produce window structures contain two panels, between which there is a profile with a U-shaped groove inside, inside which there is a sealing insert, while the profile with a sealing insert runs along the entire perimeter of the panels (US patent No. 5533314, publication date July 9, 1996, RF patent No. 137862, publication date February 27, 2014, European patent No. 2431561, publication date March 21, 2012, international application No. 2016050839, publication date April 7, 2016).

Placing the seal in the recess of the profile, which is located between the panels of the frameless structure, allows you to protect the seal from the influence of the external environment, thereby increasing its service life.

However, the opening and closing of such window structures for ventilation is carried out similarly to the plastic window structures discussed above: the window structure opens outward or inward if the hinges for its installation are located at one of the ends or the window structure can rotate around its axis, which is determined by the hinges located in the center of the structure. Therefore, such window structures do not allow organizing fresh air into the premises on the upper floors of high-rise buildings - it is also forbidden to open them.

Thus, these structures of frameless panels can be used on the lower floors of buildings with the required level of tightness and the presence of a ventilation mode only when the window is opened. On the upper floors, the installation of these structures is not possible.

A known design of a ventilated window (RF patent No. 2295622, publication date 03/20/2007), containing a window box, external, intermediate and internal glazing, sash, the main entrance channel located in the lower part of the window near the external glazing, the main ventilation channel, located in the upper part of the window at the intermediate glazing, and the main output channel located in the upper part of the internal glazing, control devices for blocking the channels, while it is equipped with a check valve placed on the side substitution in the upper part of the window above the visor, and the box and / or sashes are made with additional input, ventilation and output channels, each of which is located in the same part of the window as the corresponding main channel, and the input channels are placed diagonally relative to the ventilation channels, and the output channels are placed diagonally relative to the ventilation channels, while in the external inter-glass space the input and ventilation channels are diagonally placed in the vertical plane, and in the internal tekolnyh spaces diagonally placed ventilating and output channels in the horizontal plane.

This window structure is rigidly fixed in the window opening without the possibility of opening it and at the same time provides an influx of fresh air, which allows the use of such a structure on the upper floors of high-rise buildings. However, it is difficult to implement due to the presence of different main and additional channels. In addition, due to the high complexity of installation and the inability to open a window in a standard way, such a window structure is not practical to install on the lower floors of buildings.

The window construction according to Korean patent No. 20170020406 (publication date 02/22/2017) has similar disadvantages, which contains two glass panels installed in the window opening, an external air supply device, and an air supply channel to the room.

Thus, these window structures can be installed on the upper floors of buildings. On the lower floors, it is advisable to use simpler window structures.

For the solution closest in technical essence to the claimed solution, we will take the decision according to US patent No. 5533314, discussed above.

The objective of the invention is to expand the arsenal of technical means and create a frameless panel on the basis of which a window structure and, if necessary, a door structure can be obtained.

The technical result of the invention is the creation of a universal and simple frameless panel design that can be installed on both the lower and upper floors of tall buildings, providing sealing and ventilation due to the reciprocating movement of the seal, and which simplifies the supply and exhaust ventilation system of buildings .

The technical result is achieved when using a frameless panel containing two inserts, a profile located between the specified inserts and passing along the perimeter of the frameless panel, the profile has a recess in which there is a seal connected to the drive mechanism to make it back when the panel is rigidly installed in the window opening - progressive movement from the specified recess to provide two modes of operation of the panel, one of which is designed to carry out its sealing, and the other for passing air.

Under the drive mechanism in the framework of the present invention refers to a device or system that controls the movement of the seal in the recess of the profile to eject from it or pressed against it.

The frameless panel can be made with three inserts, that is, contain two main panels and one additional insert between them.

The inserts can be made of glass, wood or any other material.

The profile may have two or more recesses in which the seals associated with the drive mechanism are located.

Sealers can be made of any flexible heat-resistant material (for example, polyurethane, rubber, silicone rubber) and other similar widely used materials.

The profile between the inserts may be made of aluminum or a similar material.

The drive mechanism can be performed using devices and circuits that implement mechanical or electrical principles of operation. Devices and circuits with other operating principles of the drive mechanism can also be used, which make it possible to realize its main function - the reciprocating movement of the sealant from the indicated recess of the profile with the formation of a channel between the profile and the sealant.

The reciprocating movement of the sealant from the recess of the profile allows you to organize two modes of operation:

1) the sealing mode of the frameless panel, when the seal is pushed out from the recess of the profile, while a channel is formed between the profile and the seal;

2) the mode of transmission of air (ventilation), when the seal is pressed against the recess of the profile, while a channel is formed between the seal and the opening for installing a frameless panel for air passage.

At the same time, both modes do not depend on how the frameless panel is installed in the opening - with the possibility of standard opening of the frameless panel (lower floors of the building) or without the possibility of such opening (upper floors of high-rise buildings). On the lower floors of buildings, only the sealing mode can be used, when the seal is pushed out of the recess of the profile. Ventilation in this case is carried out by simply opening the frameless panel. On the upper floors, both modes can be used. If it is necessary to ventilate, the sealant is drawn into the recess of the profile with the formation of a channel for air passage, while the frameless panel itself remains rigidly installed in the window opening.

When using the claimed design of the frameless panel, the system of supply and exhaust ventilation of high-rise buildings is greatly simplified, which simplifies the process of its construction and maintenance during operation.

In addition, the ventilation and sealing mode does not depend on the availability of general electricity in the building. When it is turned off, comfortable conditions for people to stay in the building can be provided, which is an advantage of the solution.

As a result, this design is simple and versatile in implementation and efficient to use.

In FIG. 1a shows the construction of a frameless panel in general form with two inserts and a drive mechanism when pushing the seal from the recess, FIG. 1b - frameless panel design with two inserts and a drive mechanism while pressing the seal against the profile recess.

In FIG. 2 shows a design variant of a frameless panel with three inserts and a drive mechanism, providing for the pushing out of the seals by the pressure of the air pumped by the micropump.

In FIG. Figure 3 shows a design variant of a frameless panel with two inserts and a drive mechanism, providing for the pushing out of the seals during the movement of the rollers connected with the cable.

In FIG. Figure 4 shows the options for the location of the hinges when installing the frameless panel.

In the General case, the frameless panel contains two inserts 1 and 2, a profile 3 located between these inserts 1 and 2 and passing along the perimeter of the frameless panel, the profile has a recess 4, in which there is a seal 5, connected to the drive mechanism 6 for return - translational movement of the seal 5 from the specified recess 4 of the profile 3 with the formation of the channel 7 between the profile 3 and the seal 5 (Fig. 1A) or channel 8 between the seal 5 and the opening 9 for installing a frameless panel (Fig. 1b).

Such a frameless panel design can be installed as a window structure in areas with a favorable climate.

In the General case, the design is implemented as follows. The frameless panel is installed on the hinges in the window opening 9. The hinges can be located on the side of the frameless panel (pos. 17 of Fig. 4) with standard opening and closing, and can also be located in the center of the frameless panel to be able to open around its axis (pos. 18 Fig. 4).

The drive mechanism 6, associated with the seal 5, exerts a buoyant effect on it. The seal 5 moves from the recess 4 of the profile 3 to the outside with the formation of a channel 7 between the profile 3 and the seal 5. This ensures that the frameless panel is sealed in the window opening 9. If necessary, the drive mechanism 6 acts on the seal 5 and presses it to the recess 4 of the profile 3 s the formation of a channel 8 between the seal 5 and the window opening, through which fresh air enters from the outside.

For areas where significant temperature differences are observed, a window structure based on a frameless panel with an additional insert 10 located between the two main inserts 1 and 2 can be provided. FIG. 2 shows a design option for expelling the seals 5 from the recesses 4 of the profile 3 by means of air pressure pumped by the micropump 13 (version of the drive mechanism 6). In this case, the micropump 13 communicates with the central air intake channel 11, which passes in the window opening 9 and then in the profile 3 with sealing materials. At a level located above the gaskets 5, the central channel 11 is divided into channels 12, the open ends which extend to the end of the gaskets 5. The pressure of the air pumped by the micropump 13 pushes the gaskets 5 out of the recesses 4 of the profile 3 to ensure sealing of the frameless panel. If it is necessary to ventilate the air, the micropump 13 is pumped out of the channels 12, the central channel 11, thereby compressing the seals 5 to the recess 4 of the profile 3. A channel 8 is formed between the window opening 9 and the seals 5, through which fresh air can pass from the outside. The micropump 13 can be electric with automatic operation, and air can also be pumped and pumped out manually.

Another example implementation of the drive mechanism is shown in FIG. 3 and is as follows. The drive mechanism (electric drive and manual action) 16 is connected to the cable 15, which in turn is connected to the rollers 14 acting on the seal 5. This principle of operation of the cable and rollers is similar to the operation of the blinds when raising and lowering the canvas. When the cable 15 is tensioned, the seal 5 is pressed against the recess 4 with the provision of a ventilation mode, and when loosened, it is pushed out of it to ensure sealing of the frameless panel.

The claimed solution is universal and can be used to install a window structure on any floor of buildings of any number of storeys. Moreover, the design is easy to install and use. Providing ventilation on the upper floors of tall buildings simplifies the design of the supply and exhaust system of the building. Also on the upper floors there is an influx of fresh air, which is important for a comfortable stay of people.

Claims (8)

1. Frameless panel, characterized in that it contains two inserts, a profile located between these inserts and passing along the perimeter of the frameless panel, the profile has a recess in which there is a seal connected to the drive mechanism for making with a rigidly installed panel in the window opening reciprocating movement from the specified recess to ensure two modes of operation of the panel, one of which is designed to carry out its sealing, and the other to pass air. 2. The frameless panel according to claim 1., characterized in that it contains three inserts. 3. The frameless panel according to claim 1., characterized in that the inserts are made of glass or wood. 4. The frameless panel according to claim 1., characterized in that the profile has two recesses in which the seal is located. 5. Frameless panel for PP. 1, 4., characterized in that the seals are made of polyurethane, rubber, silicone rubber. 6. The frameless panel according to claim 1., characterized in that the profile is made of aluminum. 7. The frameless panel according to claim 1., characterized in that the drive mechanism is made using devices and circuits that implement the mechanical principle of operation. 8. The frameless panel according to claim 1., characterized in that the drive mechanism is made using devices and circuits that implement mechanical or electrical operating principles.

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