RU93845U1 - BRACKET FOR FASTENING THE HINGED PANEL OF THE BUILDING COVERING AND COMPONENT PARTS OF THE BRACKET - Google Patents

Abstract

 1. Bracket for mounting the hinged panel of the building cladding, consisting of two parts, made with the possibility of moving relative to each other - one fixed support bracket of the corner profile, on the rack of which a hole for mounting to the wall is formed, and on the shelf - stiffeners that pass into the ribs the rigidity of the rack and at least one slot, and one movable bearing bracket, interconnected by means of fasteners, and the movable bearing bracket is made in the form of a metal plate tines and is equipped with at least one slot for attaching the shelf of the fixed support bracket, on the plate there are bends inserted into the stiffeners of the support bracket, characterized in that the slots on the shelf of the fixed bracket and on the plate of the movable support bracket are located at an angle to the longitudinal axis and cross with respect to each other. ! 2. The bracket according to claim 1, characterized in that on the shelf and rack of the stationary support bracket along the stiffening ribs are made flat (longitudinal) outer edges. ! 3. The bracket according to claim 1, characterized in that the stiffeners of the fixed support bracket have an arcuate or trapezoidal transverse profile. ! 4. The bracket according to claim 1, characterized in that the bends on the plate of the movable bearing bracket are made in the form of arched or trapezoidal stiffeners along the entire plate. ! 5. The bracket according to claim 1 or 3, characterized in that on the plate of the movable supporting bracket along the stiffening ribs are made flat (longitudinal) outer edges. ! 6. The bracket according to claim 1, characterized in that the free end face of the plastic

Description

The utility model relates to the field of industrial and civil construction, and in particular to devices for fastening a ventilated facade cladding of buildings and structures, hung both during the construction of new buildings and during the reconstruction of previously operated structures using metal brackets.

A set of facade pendants is known, comprising an L-shaped metal element fixed to the wall with at least two fastening means, with longitudinal guides made in its shelf in the form of a flange for moving an insert installed in them, having an end plate for attaching a hanging front facing (see RF patent 2146323, IPC 7 E04F 13/00, 2000)

The disadvantages of the known technical solutions are low manufacturability, increased material consumption and manufacturing costs.

A known bracket for attaching a hinged panel of a building cladding, including an L-shaped metal element fixed to the wall with at least two fastening means, with longitudinal guides made in its ω-shaped cross-section of the shelf in the form of directed flanges inward into the flanging to move installed in them ω-shaped in cross section of an insert having an end plate for mounting a hinged cladding panel. The L-shaped element is made of two separately stamped parts joined together by a welded joint, a shelf and a rack having a lower supporting U-shaped section in section and an upper part protruding below the level of the shelf, having preferably a hole for mounting means U-shaped cross-section with a cutout of ribs in the place of placement of the shelf at the lower supporting U-shaped in the section of the part, and the distance between the ends in the neckline of each rib does not exceed the height of the cross-section of the shelf in connection with the legs of the rack (see RF patent 2182629, IPC 7 E04F 13/08, 2001).

The disadvantages of the known design are the high cost of the design, which reduces to zero the savings resulting from the use of the insulation fastening system, in a laborious installation scheme, insufficient reliability of the supporting structure and the high cost of anchor technology.

The known bracket for hanging the facing plate on the outer wall of the building, made in the form of a stamped corner profile, on the rack of which there is a hole for attaching to the wall, and on the shelf - stiffening arcs in section, located along its longitudinal edges, turning into stiffening ribs of the rack. The bracket is made of aluminum or an alloy based on it (see RF patent No. 14235 U, IPC 7 E04F 13/08, 2000).

The disadvantages of the known design are the laborious installation scheme, insufficient reliability of the supporting structure.

A known bracket for mounting the hinged panel of the building cladding, made in the form of a stamped corner profile, on the rack of which a hole for fixing to the wall is formed, and on the shelf - stiffening ribs located along its longitudinal edges, turning into stiffening ribs of the rack. The bracket has a sliding structure for adjusting the width of the gap and ensuring the vertical surface of the cladding and consists of two parts - one fixed support bracket of the corner profile, fixed to the wall with at least one fastening element, and one movable supporting bracket, interconnected by fasteners. The movable support bracket is made in the form of a metal plate, with through slots located on the side of the free end of the plate and used to install the elements for fastening the hinged facing plate (facade cladding). Both brackets are movable relative to each other (see RF patent No. 40066 IPC 7 E04F 13/08, 2004). This decision was made as a prototype.

The disadvantage of this solution is the small range of adjustment of the position of the movable part of the bracket relatively stationary and due to this change in the position of the hinged panel relative to the wall. In addition, the design of the connection of the fixed and movable parts of the bracket does not provide reliable fastening of one part relative to the other (with a strong wind load, there is a high probability of moving the moving part along the groove on the fixed part and changing the position of the curtain panel relative to the wall).

Tasks solved by the utility model:

1. the development of a composite bracket for mounting the hinged panel of the cladding of the building, which allows to provide the necessary rigidity and bearing capacity of the bracket, the reliability of mounting the hinged panel and the stability of its position relative to the wall, as well as greater freedom to adjust the position of the hinged panel relative to the wall;

2. increasing the rigidity of the component parts of the bracket,

3. improving the convenience of connecting the components of the bracket.

The first of the tasks is solved due to the fact that in the known bracket for attaching the hinged panel of the cladding of the building, consisting of two parts connected with the possibility of movement relative to each other - one fixed support bracket of the corner profile, on the rack of which there is a hole for mounting to the wall, and on the shelf - stiffeners, passing into stiffeners of the rack and at least one slot, and one movable supporting bracket, fastened together by means of fasteners, than the movable support bracket is made in the form of a metal plate and is equipped with at least one slot for attaching the shelf of the fixed support bracket, the plate has bends inserted into the stiffeners of the support bracket, in accordance with a utility model, the slots on the shelf of the fixed bracket and the plate of the movable supporting bracket are located at an angle to the longitudinal axis and crosswise with respect to each other.

On the shelf and rack of the fixed support bracket along the stiffening ribs are made flat (longitudinal) outer edges.

Bends on the plate of the movable supporting bracket are made in the form of stiffeners along the entire plate.

On the plate of the movable supporting bracket along the stiffening ribs are made flat (longitudinal) outer edges.

The free end of the plate of the movable supporting bracket is made flat and bent.

The technical result from the use of the totality of the essential features of such a new technical solution is that it allows to obtain a composite bracket for mounting the hinged panel of the cladding of the building, which has increased rigidity and load-bearing capacity, and provides reliable fastening of the hinged panel and the stability of its position relative to the wall, as well as greater freedom in adjusting the position of the hinged panel relative to the wall.

The execution on the shelf of the fixed bracket and on the plate of the movable supporting bracket of slots located at an angle to the longitudinal axis and crosswise with respect to each other, allows not only to provide high rigidity of the composite bracket, but also to securely fasten both components relative to each other and hinged panels, the stability of its position relative to the wall, as well as greater freedom to adjust the position of the hinged panel relative to the wall.

The second and third tasks are solved due to the fact that in the known fixed support bracket of the corner profile, on the rack of which there is a hole for attaching to the wall, and on the shelf there are stiffeners that go into the stiffeners of the rack and at least one slot, in accordance with the utility model, the slot on the shelf of the fixed bracket is located at an angle to the longitudinal axis.

On the shelf and rack along the stiffening ribs are made flat (longitudinal) outer edges.

Stiffeners have an arched transverse profile.

Stiffeners have a trapezoidal transverse profile.

The technical result from the use of the totality of the essential features of such a new technical solution is that it allows to increase the rigidity of the stationary support bracket, as part of the main bracket. In addition, it allows to provide reliable fastening to the movable supporting bracket, as well as to increase the rigidity of the connection of the components, while increasing the convenience of its connection with the movable bracket, as well as greater freedom in adjusting the position of the hinged panel relative to the wall.

Making a slot on a shelf of a fixed bracket, located at an angle to the longitudinal axis, and flat (longitudinal) outer edges along the stiffeners on the shelf and rack of the bracket provides increased rigidity, ease of attachment to the movable carrier bracket and ensuring stability of the position of the attached curtain plate relative to the wall of the building and increases the range of adjustment.

The second and third tasks are also solved due to the fact that in the known movable supporting bracket, made in the form of a metal plate and provided with at least one slot and bends made on the plate, in accordance with the utility model, the slot is located at an angle to the longitudinal axis.

An additional slot is made on the plate, located at an angle to the longitudinal axis

Bends on the plate are made in the form of stiffeners along the entire plate.

The stiffeners on the plate have a trapezoidal or arched transverse profile.

On the plate of the movable supporting bracket along the stiffening ribs are made flat (longitudinal) outer edges.

The free end of the plate is made flat and bent.

The flat and bent free end of the plate is made with the formation of a flat shelf parallel to the bracket plate.

The technical result from the use of the totality of the essential features of such a new technical solution is that it allows to increase the rigidity of the movable support bracket, as part of the main bracket. In addition, it provides reliability and rigidity of attachment to the fixed bracket while improving the convenience of its connection with the fixed bracket and ensuring stability of the position of the hinged plate relative to the wall of the building.

Figure 1, 2 is a General view of the bracket (special cases);

Figure 3 is a General view of a stationary support bracket;

Figure 4 is a General view of a movable carrier bracket;

Figure 5, 6 - special cases of the execution of the movable support bracket.

The proposed bracket for mounting the hinged panel of the building cladding consists of two parts - one fixed support bracket 1 and one movable supporting bracket 2, interconnected by means of fasteners 3. Brackets 1 and 2 are connected with the possibility of movement relative to each other (the direction of movement is shown by arrows on figure 1) to adjust the position of the hinged panel relative to the wall of the building.

The fixed support bracket 1 (see figure 3) is made of a corner profile, on the rack 4 of which a hole 5 is formed for attaching to the wall (not shown conditionally). On the shelf 6 of the bracket 1, stiffeners 7, 8 are made, passing into stiffeners 9, 10 of the rack 4. The stiffeners 7, 8, 9, 10 can have an arcuate or trapezoidal transverse profile, or another profile that allows you to increase the stiffness of the bracket 1.

The shelf 6 of the fixed support bracket is provided with at least one slot 11 located at an angle to the longitudinal axis. On the shelf 6 and the rack 4 along the stiffening ribs 7, 8, 9, 10 there are made flat (longitudinal) outer edges 12, forming an additional supporting surface in contact with the movable bearing bracket 2.

The movable support bracket 2 (see Figs. 4, 5, 6) is made in the form of a metal plate and is equipped with at least one slot 13 located at an angle to the longitudinal axis. An additional slot 14, identical to the slot 13 and located at an angle to the longitudinal axis, can be made on the carrier bracket plate. Moreover, the slots 13, 14 of the bearing bracket and the slit 11 of the support bracket are located crosswise with respect to each other, which provides reliable fixation of the position of the brackets 1, 2 relative to each other, as well as the hinged panel relative to the wall when the panel is subjected to wind loads.

Bends 15 in the form of stiffeners are made on the plate of the supporting bracket. These bends 15 (having an arched or trapezoidal or other cross-sectional profile corresponding to the cross-sectional profile of the stiffeners 7, 8 of the bracket 1) to increase the stiffness of the bracket can be performed along the entire plate. Along the stiffening ribs 15 are made flat (longitudinal) outer edges 16, forming an additional supporting surface in contact with the supporting bracket 1.

The free end face 17 of the plate can be made flat and bent (see figure 5). The flat and bent free end face 17 of the plate can be made with the formation of a flat shelf 18 parallel to the bracket plate (see Fig.6).

Installation of the proposed bracket for mounting the hinged panel of the cladding of the building is as follows.

Installation of the system begins with the installation of a fixed support bracket 1 on the wall.

A hole is made in the bearing wall, the bracket 1 is assembled complete with an anchor and a gasket (not shown in the figures). Install the movable support bracket 2 and fix it by means of a fastener (for example, a bolted connection) 3 to the fixed support bracket 1. Alignment of the hinged panel vertically is done by loosening the adjusting fastener 3, moving the brackets relative to each other due to the presence of slots 11, 13, 14 and the subsequent tightening of the fastening element 3. The fastening element 3 is rigidly fixed, as it is located in the hole formed at the intersection of cross-located x inclined slots 11, 13 or 11, 14.

The movable support bracket 2 allows, due to the implementation of inclined slots 13, 14, to correct the unevenness of the wall and expose the hinged panels (not shown conditionally) in one plane, as well as compensate for the thermal expansion of the structure. Mounting brackets to the wall is provided by special anchors.

Adjusting the length of the brackets is necessary so that it is possible to level out the irregularities of the main wall, which, for example, is more than vital when repairing old buildings, and also depending on the thickness of the insulation layer.

Example.

One of the main elements designed to ensure reliable fastening of the hinged panels to the supporting base are the movable brackets 2. The fastening of the fixed support bracket 1 to the wall is provided by special anchors. The type of anchors, their diameter, installation depth are selected depending on the applied load, structure and material of the wall into which this fastener is installed. Vertical guides (not shown conditionally) are attached to the movable carrier bracket 2. To eliminate the unevenness of the wall and depending on the thickness of the insulation layer, up to 6 standard sizes of brackets are used, with a length of 110 to 336 mm. Prevention of the formation of cold bridges is carried out by installing paronite gaskets. Then, all other elements of the supporting structure are attached to the brackets.

Claims (17)

1. Bracket for mounting the hinged panel of the building cladding, consisting of two parts, made with the possibility of moving relative to each other - one fixed support bracket of the corner profile, on the rack of which a hole for mounting to the wall is formed, and on the shelf - stiffeners that pass into the ribs the rigidity of the rack and at least one slot, and one movable bearing bracket, interconnected by means of fasteners, and the movable bearing bracket is made in the form of a metal plate tines and is equipped with at least one slot for attaching the shelf of the fixed support bracket, on the plate there are bends inserted into the stiffeners of the support bracket, characterized in that the slots on the shelf of the fixed bracket and on the plate of the movable support bracket are located at an angle to the longitudinal axis and cross with respect to each other. 2. The bracket according to claim 1, characterized in that on the shelf and rack of the stationary support bracket along the stiffening ribs are made flat (longitudinal) outer edges. 3. The bracket according to claim 1, characterized in that the stiffeners of the fixed support bracket have an arcuate or trapezoidal transverse profile. 4. The bracket according to claim 1, characterized in that the bends on the plate of the movable supporting bracket are made in the form of arched or trapezoidal stiffeners along the entire plate. 5. The bracket according to claim 1 or 3, characterized in that on the plate of the movable supporting bracket along the stiffening ribs are made flat (longitudinal) outer edges. 6. The bracket according to claim 1, characterized in that the free end of the plate of the movable carrier bracket is made flat and bent. 7. Fixed support bracket of the angle profile, on the rack of which there is a hole for attaching to the wall, and on the shelf there are stiffeners that pass into the stiffness ribs of the rack and at least one slot, characterized in that the slot on the shelf of the fixed bracket is located under angle to the longitudinal axis. 8. The support bracket according to claim 7, characterized in that on the shelf and stand along the stiffening ribs are made flat longitudinal edges. 9. The support bracket according to claim 7, characterized in that the stiffeners have an arched transverse profile. 10. The support bracket according to claim 7, characterized in that the stiffeners have a trapezoidal transverse profile. 11. A movable support bracket made in the form of a metal plate and provided with at least two slots, bends are made on the plate, characterized in that the slots are located at an angle to the longitudinal axis. 12. The bearing bracket according to claim 11, characterized in that the plate has an additional slot located at an angle to the longitudinal axis. 13. The bearing bracket according to claim 11, characterized in that the bends on the plate are made in the form of stiffeners along the entire plate. 14. The bearing bracket according to claim 11, characterized in that the stiffeners on the plate have a trapezoidal or arched transverse profile. 15. The bearing bracket according to claim 11, or 13, or 14, characterized in that flat (longitudinal) outer edges are made on the plate of the movable bearing bracket along the stiffening ribs. 16. The bearing bracket according to claim 11, characterized in that the free end of the plate is flat and bent. 17. The bearing bracket according to clause 16, characterized in that the flat and bent free end face is formed with the formation of a flat shelf parallel to the bracket plate.