RU2213193C2 - Glass block for openings in rooms - Google Patents

Abstract

FIELD: civil engineering, design of glass blocks. SUBSTANCE: glass block for openings in rooms includes at least two glazing sheets installed in opposition, thrust members placed between sheets and attached to glazing sheets by means of adhesive joint, hinges and stoppers. Thrust members are fabricated from clear material. Adhesive joint is realized with use of adhesive compound which forms medium transparent for light beam after hardening together with glazing sheets. Hinges and fasteners are anchored on glasses or thrust members by means of above-mentioned adhesive compound. EFFECT: high functional characteristics of windows, simplified attendance of it. 8 c, 4 dwg

Description

 The invention relates to the construction, namely, the construction of glass blocks used for glazing window and doorways of residential and industrial buildings.

State of the art
A non-binding window is known (see patent for invention of the Russian Federation 2083791, IPC: E 06 B 3/66, publ. 07/10/1997), containing a box and glazing in the form of a block. Known insulating frameless glazing (see patent for the invention of the Russian Federation 2135723, IPC: E 06 3/24, publ. 08/27/1999), containing parallel-located glass and a spacer element installed between them. Glazing is fixed directly in the window box.

 The advantage of the above technical solutions is the lack of frames and binding, which occupy a significant area in the window opening, which reduces the amount of light entering the room. In addition, the exclusion of the frame from the design leads to the absence of inherent defects in the frame: deformations in the interface nodes of the elements, size fluctuations due to differences in humidity, decay and corrosion, accumulation of dust, dirt and moisture in the relief and joints with glazing. However, the above solutions do not imply the possibility of opening a window for ventilation, in addition, it is difficult to care for the outer surface of the window.

 This problem is solved in the invention according to patent GB 2241013. It is the closest in constructive solution to the claimed invention and is adopted as a prototype. The aforementioned invention (see patent for the invention of the Russian Federation 2035577, IPC: E 06 B 3/64, publ. 05/20/1995, Bull. 14) relates to the construction of windows and glued double-glazed windows.

 The double-glazed window includes two rows of glasses located in parallel, a contoured frame of a U-shaped section and a profiled protrusion and is installed in the framing box.

 The contour frame is connected with spacers located between the glasses made of rigid material and in contact with the inner surface of both glasses not only around the perimeter, but also over the area of the glass packet. In this case, the spacer elements may form a lattice or pattern, and at the intersection points of the patterns or lattice they are rigidly attached to the glass by means of an adhesive joint.

 The double-glazed window can be installed in the box and fixed in it as a fixed or rotary shutter. In the second case of installation, the double-glazed window is connected to the box by means of curtains attached to the contour frame with screws.

 A profiled protrusion provides overlapping joints between the sash and the framing box. The profiled protrusion can be formed by the edges of the glasses protruding from the opposite side or made on top of the glazing in the form of glued profiled glass strips.

 The advantage of the above solution is the absence in the design of the glass packet of the frame and binding elements susceptible to decay, corrosion, deformation and obsolescence, which ensures high operational characteristics of the window and simplifies its maintenance. The main environmental influences are perceived by glass, which is a resistant and hygienic material. Along with this, it is possible to open the sashes and windows for the purpose of servicing glass or ventilating the room.

 In addition, this solution provides structural strength, which is one of the most important properties of the glass. This is achieved by the spatial placement of the spacer elements, which allows you to distribute the main stresses arising in the glass unit over the largest possible area and thereby reduce the load on the adhesive connection of the glass unit. However, with the spatial placement of the spacer elements in the form of a lattice or pattern and the execution of these elements from a metal profile, as is the case in the solution according to patent 2035577, the light transmission of the window decreases, the view decreases, and the window turns out to be heavily loaded, heavier. In addition, when performing the lattice of a metal having high thermal conductivity, the heat-protective functions of the glass packet will not be provided. Thus, an increase in the structural strength and strengthening of the protective properties of the glass packet led to a deterioration in the lighting and heat-insulating characteristics.

The essence of the claimed invention
The claimed invention solves the problem of creating a glass block that provides a high level and quality of illumination of the room, advanced consumer and design capabilities. At the same time, the problem of increasing the strength characteristics of the non-recessing construction of the glass block is solved and the possibility of installing it in the framing box as a movable sash remains.

 The problem is solved due to the fact that in the glass block for the openings of the premises, comprising at least two glazing sheets installed opposite one another with spacer elements placed between them, attached to the sheets with an adhesive joint, according to the claimed invention, the spacer elements are made of transparent material, and adhesive bonding is carried out by means of an adhesive composition, which forms, after hardening, together with the glazing sheets and spacers, a medium transparent to the light beam.

 The implementation of the spacer elements and adhesive bonding transparent allows without loss of aesthetic qualities of the product to get away from a single spacer frame structure, to disperse the spacer elements over the area of the glass block in such a way as to ensure optimal strength characteristics of the structure. For example, install the spacer elements in the places of maximum deflection of the glasses, make a contour frame composite, and the spacer elements are not interconnected and the like, thus ensuring an optimal stress distribution. In order to increase the strength and rigidity of the structure, an unlimited increase in the number of spacer elements and the area of their connection with the glazing sheets is possible, while the shape and dimensions of the spacer elements will not affect the light transmission of the glass block. An increase in strength characteristics is possible so much that glazing sheets can act as supporting elements on which mounting mounting elements will be fastened, which is not possible in known technical solutions.

 Thus, the above set of distinctive features of the claimed invention leads to a new technical result, namely, it allows to obtain a glass block with maximum strength and at the same time lighting characteristics, while expanding the design capabilities and consumer qualities of the glass block. In other words, the invention allows to create a solid glass block structure having the form of a single, monolithic glass ("monolith" effect), covering the space of the opening of the room.

 In the study of other well-known technical solutions in this technical field, no solutions have been identified that have similar distinctive features aimed at solving the problem.

 The above allows us to conclude that the claimed invention meets the criterion of "inventive step".

 In the particular case of execution, the spacer elements can be made of transparent plastic. Plastic has a low thermal conductivity, which allows to obtain a sufficiently high heat-insulating parameters of the glass block. For example, it is possible to make spacers made of organic glass, which has high transparency: up to 96% for visible and up to 75% for ultraviolet rays.

 Spacer elements can be made in the form of contour spacer frames made along the perimeter and tightly interconnected every two adjacent glazing sheets.

 In the case of compiling a glass block of three or more glazing sheets, it is advisable to make spacer elements in the form of a single spacer frame having a multi-stage profile and connecting three or more glazing sheets into a single block. Such a solution allows to increase the structural rigidity of the glass block.

 In order to increase the rigidity and strength of the structure, it is possible to increase the number of points and the area of contact of the spacer elements and glazing sheets with each other. The glass block may contain additional spacer elements, randomly distributed over the area of the glass block.

 Such a design of the spacer elements makes it possible to optimally evenly distribute the stresses arising in the adhesive connection of the glass block, similarly to solving this problem in the prototype, while the performance of the spacer elements from a transparent material and the adhesive bonding of the spacer elements to the transparent glazing sheets does not violate the light transmission of the glass block.

 In the particular case, it is possible to install the glass block in the framing box motionless. However, installation in a framing box as a movable leaf is preferred. To ensure such an installation, the glass block is equipped with canopies and locks.

 Awnings and locks can be fixed on spacers. However, the claimed invention allows you to create a sufficiently rigid and strong structure so that the role of the supporting elements can be performed by glazing sheets, i.e., not spacer elements, but the glass itself, and in this case, canopies and locks are attached directly to the glass by means of the aforementioned adhesive composition.

 Between two adjacent glazing sheets and a spacer frame, a sealed internal volume (chamber) is formed.

 In order to increase heat and sound insulation, it is possible to discharge the air gap of the internal volume of the glass block, i.e. evacuation.

 It is possible to increase the strength, heat and sound insulation properties of the glass block by increasing the number of chambers (the number of glazing sheets).

 It is possible to create a deep vacuum in a multi-chamber glass block, with the aim of increased heat and sound insulation. In this case, the glass block includes four rows of glazing, which together with the spacer elements form three isolated volumes, the average volume being pumped out to a deep vacuum, and the other two volumes being evacuated to a value intermediate between the average pressure and the minimum atmospheric pressure, which is necessary for pressure equalization.

 The internal volume can be filled with an inert gas, which glows when an electric current is passed through it. This solution will allow the use of glass in display cases and advertising stands. In addition, filling with an inert gas can be aimed at reducing the humidity of the gas layer of the glass block.

 In order to increase the protective properties, it is possible to perform a protective hardening coating on the glazing sheets.

 To ensure burglar resistance and bulletproof glass block, it is possible to perform glazing sheets from armored or reinforced glass.

 It is advisable to perform spacers with grooves for installing seals.

 The glass block can be used to protect both window and doorways of the premises.

 The claimed solution allows to obtain additional technical results due to the creation of the effect of "monolith". This is the improvement of the aesthetic properties of the appearance, the expansion of the design possibilities of using the glass block, for example, the possibility of using the glass block for tape glazing of large areas, the possibility of creating various shop windows, windows of cafes and restaurants, transparent pavilions and advertising stands and stands. A sheet of glass is more expensive the larger its area. The use of the inventive glass block as an integral element of a prefabricated transparent structure for glazing large areas will reduce the cost of the design.

List of drawings
Figure 1 shows a cross section of a glass block, which shows the fastening of the constituent elements of the block between themselves and the fastening of the glass block in the framing box.

 Figure 2 shows the fastening of the canopies to the glazing sheet.

 In FIG. 3 shows an example of the spatial arrangement of the spacer elements.

 Figure 4 presents an example of a multi-chamber glass block with the creation of a deep vacuum.

Information confirming the possibility of carrying out the invention
Example 1 of the execution of the glass block.

 The glass block (see figure 1) consists of parallel arranged glazing sheets 1 and 2 and spacer elements 3 and 4 placed between them and made of plexiglass. Plexiglas is a thermoplastic material, has high transparency, high strength characteristics, sufficient resistance to atmospheric aging and water resistance.

 The glass block is installed in the framing box 5 by means of canopies 6. The canopies 6 are attached to the spacer element 3 by means of screws 7. The spacers 4 are secured by locks 8 by means of screws 9. In the spacers 3 and 4, grooves 10 are made in which the seals 11 are installed. The spacer elements 3 and 4 are connected to the glazing sheets 1 and 2 by means of a polymer composition 12, which, after hardening, forms a medium transparent to the light beam. On the outer surface of the sheet 1, a protective reinforcing coating 13 is made.

 Example 2 of the execution of the glass block.

 The glass block (see Fig. 2) is made analogously to example 1 and consists of parallel-mounted glazing sheets 1 and 2 and spacer elements 3 placed between them. The canopies 6 are fastened in this case directly to the glazing sheet 2 by means of a polymer composition 12. Spacer element 3 made in the form of a single spacer frame (see figure 3), which forms, together with the glazing sheets 1 and 2, a closed internal volume 14. The glass block further comprises spacer elements 15 located inside the block in close proximity from attachment points of sheds 6. Furthermore, the spacer frame 3 has an arbitrary contour. Such an arrangement of the spacer elements allows you to distribute the loads that occur in the glass block when installing it in the framing box 5.

 Example 3 of the execution of the glass block.

 The glass block (see Fig. 4) consists of parallel-located glazing sheets 16, 17, 18 and 19 and a spacer element 20 arranged between them, made in the form of an element with a multi-stage profile and connected by a polymer composition 12 to all glazing sheets 16, 17, 18 and 19. Closed sealed internal volumes 21, 22 and 23 are formed between the glazing sheets and the spacer element. A deep vacuum is created in the average internal volume 22 to provide heat and sound insulation. To reduce the external air pressure on the walls of the average volume 22 in the surrounding airtight volumes 21 and 23, the air is pumped out to a pressure intermediate in magnitude between atmospheric and the pressure of the deep vacuum created in the average volume 22.

 The glass block according to any example 1-3 can be installed in window or door framing boxes.

 The glass block according to any of the examples works as follows. The glass block fixed on the box 5 rotates on the canopies 6 and closes the opening. By turning the constipation 8, the position of the glass block is fixed. To open, the actions are performed in reverse order.

Claims (9)

 1. The glass block for the openings of the premises, comprising at least two glazing sheets installed opposite one another with spacer elements placed between them, attached to the glazing sheets with an adhesive joint, movable installation elements - canopies and fixation elements - constipation, characterized in that the spacers the elements are made of a transparent material, and the adhesive connection is made by means of an adhesive composition, which, after hardening, forms, together with the glazing sheets and spacers, transparent for light ovogo ray medium, wherein the sheds and constipation are fixed on the slides and / or the spacer elements through said adhesive composition.  2. Glass block according to claim 1, characterized in that the spacer elements are made of transparent plastic.  3. The glass block according to claim 1 or 2, characterized in that the spacer elements are made in the form of contour spacer frames that tightly connect each other every two adjacent glazing sheets.  4. Glass block according to claim 1 or 2, characterized in that the spacer elements are made in the form of a single spacer frame having a multi-stage profile and connecting three or more glazing sheets into a single block.  5. The glass block according to claim 3 or 4, characterized in that it contains additional spacer elements distributed randomly over the area of the glass block.  6. Glass block according to any one of paragraphs. 3-5, characterized in that the sealed inner volume formed between two adjacent glazing sheets and the spacer frame is evacuated.  7. Glass block according to any one of paragraphs. 3-5, characterized in that it includes four rows of glazing, which together with the spacer elements form three isolated internal volumes, the average volume being pumped out to a deep vacuum, and the other two volumes being evacuated to a value intermediate between the average pressure and the minimum atmospheric pressure.  8. Glass block according to any one of paragraphs. 3-7, characterized in that the internal volume is filled with an inert gas.  9. Glass block according to any one of paragraphs. 1-8, characterized in that the spacer elements are made with grooves for installing seals.

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