RU2783132C1 - Method for adjusting the fastening of fragile panels to the enveloped structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, to a frameless method for fastening cladding panels with adjustment of their position relative to the building envelope. The effect is achieved by the fact that the method for adjusting the fastening of fragile panels to the building envelope includes drilling holes in the building envelope and the panel for installing an adjusting fastener with a dowel, and cylindrical plastic bushings are installed in the holes of the panel, while the panel is fastened to the building envelope with a screw to the full pressing the panel against the enclosing structure, then a smaller diameter bushing is driven into the hole of the bushing above the screw to fix the screw and allow the screw to adjust the position of the panel relative to the building envelope, while both bushings are held in the panel due to friction forces or due to locking rings or threads made on them .

EFFECT: simplifying the method and reducing the cost of adjusting the fastening of fragile panels to the building envelope.

1 cl, 5 dwg

Description

The invention relates to the construction, to the fastening of flat cladding panels with adjustment of their position relative to the OK. The frameless method of fastening the cladding panels has significant advantages in terms of saving space and materials of the leveling frame. There is no need to level OK with plaster or leveling crate (leveling frame). Leveling the surface of the OK (walls, partitions, ceiling, etc.) with plaster takes a lot of time and requires special skills, and the installation of a leveling crate increases the thickness of the OK and thereby reduces the usable area of the premises.

It is promising to finish OK with gypsum-fiber sheets (GVL) and gypsum boards (GKL) in a frameless way. But the installation of GVL or GKL, in this case, using glue, plaster and mounting foam complicates the process due to the need for spacer or clamping structures that will fix (press) GVL and GKL to the OK surface until the glue, plaster or mounting foam does not polymerize and does not securely fix GVL or GKL.

A known method of fastening flat cladding panels and sheets to OK using adjusting screws. Adjustment screws can solve the problem of fastening and leveling panels, for example, in wooden structures. Known, for example, "Adjusting screw SKRHSORMAT for installing door frames https://rskcorp.ru/". The screw has a double thread. The thread to the tip of the adjusting screw has twice as many turns as the thread to the head of the screw in the form of retaining rings, which prevent it from being pulled through to the pressed element. After making holes in the pressed element and the door frame, an adjusting screw is inserted into the holes and the position of the box is adjusted with a special key. But this method of fastening is not applicable for fragile panels, such as GVL and GKL.

The closest in terms of technical solution and the achieved result is the RF patent for the invention No. 2768232, IPC E04V 2/00 “Method for adjusting the fastening of fragile panels to the building envelope”, 03/23/2022. The method includes drilling holes in the enclosing structure and a panel for installing an adjusting screw with a dowel, where the diameter of the retaining rings located near the screw head exceeds the diameter of the thread to the screw tip. A cylindrical sleeve made of plastic material is installed in the panel opening, which excludes the destruction of the panel material when adjusting its position relative to the OK. The method makes it possible to implement a frameless fastening of fragile facing panels to the OK. But this method of fastening panels has a number of significant drawbacks, such as high cost of use due to the need to use special expensive adjusting screws of complex design, and has another significant drawback - the impossibility of simply removing the fastener from the panel after it is installed (for example, in the case of erroneous installation), since it is practically impossible to dismantle such a fastener from the panel without destroying it, which leads to the need for a complete replacement of the panel in the event of an error during its installation in the placement of at least one such fastener. Also, this fastening has a significant limitation, since it requires sufficient strength of the OK material at the moment the retaining rings are inserted into the plastic sleeve, at this moment a sufficiently large pulling force arises that can lead to tearing out the plastic dowel from the OK, which was noticed during the experimental installation of these types fastenings in the enclosing structure of aerated concrete blocks of low density and strength.

The technical problem to be solved is to simplify the method and reduce the cost of adjusting the fastening of fragile panels to the OK. The technical problem to be solved in the method of fastening fragile panels to the OC, including drilling holes in the OC and the panel for installing an adjusting fastener with a dowel, and cylindrical plastic bushings are installed in the panel holes, is achieved by the fact that the panel is fastened to the OC with a screw until the panel is completely pressed to OK, then a bushing of a smaller diameter is driven into the hole of the bushing above the screw to fix the screw and allow the screw to adjust the position of the panel relative to the OK, while both bushings can be held in the panel due to friction forces, locking rings on them or threads.

In FIG. 1 shows a gypsum fiber panel (GVL) or a gypsum board panel (GKL); in fig. 2 - plastic cylindrical bushing with locking conical rings; in fig. 3 - smaller diameter plastic cylindrical bushing, with locking conical rings; in fig. 4 - the position of the fasteners when the panel is fully pressed to OK; Fig.5 - scheme for adjusting the position of the fragile panel relative to OK.

The way to adjust the fastening of fragile panels to the OK is implemented in the following sequence of technological operations. Holes 2 are drilled in panel 1 for insertion into them to obtain a stress-deformed state (by driving in) cylindrical plastic bushings 3 with a side 4 (Fig. 3) and with conical retaining rings 5 (Fig. 2). The choice of bushing material depends on the brittleness of the panel material. When installing the panel 1 to the enclosing structure 6 (Fig. 4), a hole 7 is drilled through holes 2 (Fig. 2) with two different diameters d ₂ , d ₄ (Fig. 4). A dowel 9 is baited onto the screw 8, inserted into the hole 2 of the panel 1 and into the OK 6, the screw 8 with the dowel 9 is screwed in until the panel 1 is completely pressed against the OK 6 (Fig. 4). To fix the screw 8 into the hole 2 of the bushing, a smaller diameter plastic bushing 10 with a thread 11 (Fig. 4) is driven into its surface. The bushing 10 has a smaller outer diameter than the bushing 3(d ₆ <d ₃ ), but the outer diameter of the bushing 10 is slightly larger than the larger hole diameter of the bushing 3 (d ₆ >d ₂ ). Adjusting the position of panel 1 is carried out by turning it counterclockwise or clockwise - moving the panel further from the OK or bringing the panel closer to the OK, with a screwdriver 12 or a screwdriver (Fig. 5).

An example of the implementation of the method for adjusting the fastening of GVL with a thickness of 12.5 mm. Holes 2 with a diameter of 12 mm are drilled in GVL 1. A polypropylene sleeve 3 with an outer diameter of 12.4 mm is hammered into hole 2. This is a tight landing. The sleeve 3 has a hole of different diameters d ₂ , d ₄ , respectively, 8.5 mm and 6 mm (Fig. 2). Screw the screw 8 with the dowel 9 into OK 6 until the panel is completely pressed. A polypropylene sleeve 10 with a diameter of 8.9 mm with a thread 11 on its surface is driven into the sleeve 3 with an inner diameter of 8.5 mm. In this case, the diameter of the inner hole of the sleeve 10 was 6.2 mm, so that a standard screwdriver 12 or a screwdriver bit with a diameter of 6 mm could pass through it. Adjusting the position of the panel is carried out by turning the screw. As experiments have shown, bushings can also be used metal, for example, aluminum or steel.

The proposed method for adjusting the fastening of fragile panels significantly reduces production costs, creates the possibility of simple dismantling of this fastening from the panel, if necessary, and significantly reduces the requirements for the strength of the material of the enclosing structure, since its installation does not require sufficiently large pulling forces that can lead to tearing out of the plastic dowels from the building envelope.

Claims (1)

A method for adjusting the fastening of fragile panels to the enclosing structure, which includes drilling holes in the enclosing structure and a panel for installing an adjusting fastener in the form of a screw with a dowel, and cylindrical plastic bushings are installed in the panel holes, characterized in that the panel is fastened to the enclosing structure with a screw until it is completely pressing the panel against the enclosing structure, then a smaller diameter bushing is driven into the hole of the bushing above the screw to fix the screw and allow the screw to adjust the position of the panel relative to the building envelope, while both bushings are held in the panel due to friction forces or due to locking rings or threads made on them .

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