RU189532U1 - PROFILE CLAMP FOR FLAT CONSTRUCTIONS - Google Patents

Abstract

The utility model relates to clamping profiles designed to fix the glass panel in the horizontal and vertical plane in a cantilever manner in order to organize staircase fencing, glass partition, cladding the glass walls, pillar apertures, canopies made of glass and clamping any flat products. The technical result of the utility model is to maintain the load-bearing capacity of the profile and uniformly distribute the load on the profile with increasing strength of the entire device, both for statistical and dynamic loads, with glass being clamped over the entire working depth of the profile with improved weight and dimensional characteristics of the profile due to profile section shapes and used cavities inside the profile. A profile clamping device for flat structures containing a basic U-shaped profile with first, second walls and an arch-type base, a clamping profile, one part of which is made adjacent to the inside of the first wall of the clamping device, and the second to the first side of the flat design, internal surface the second wall of the base profile is made with the possibility of pressing to the second side of the flat structure through the L-shaped seal, one vertical side of which is located along the second wall The base profile and the second along the inner surface of the base of the base profile are made spring, the upper part of the inner surface of each of the first and second walls of the profile is made with a recess, as well as grooves for inserting seals, the base profile is made hollow with internal cells, the pressure profile and L-shaped seal is made with edges.

Description

The utility model relates to clamping profiles designed to fix the glass panel in the horizontal and vertical plane in a cantilever manner in order to organize staircase fencing, glass partition, cladding the glass walls, pillar apertures, canopies made of glass and clamping any flat products.

The following technical solutions are known in the art.

A profile clamping device for flat structures is known, which contains a base element that fixes the structure of the glass panel, as well as fastening parts that provide a wedge effect and are installed between the side wall of the inner space of the base element and the first side surface of the glass panel section. The profile contains a support element that must be installed between the side wall of the inner space of the base element and the second side surface of the glass panel section. Four curved surfaces formed on the side walls of the inner space of the base element constitute a rotation adjustment system for vertical adjustment of the glass panel position, together with the curved surfaces of the fastening parts and the support element inclined to adjust the vertical orientation of the glass panel section relative to the base element. The curved surfaces formed on the side surfaces of the base member have their centers of curvature located outside the region defined by the base member to achieve a vertical displacement of the glass panel. In the upper part of the open space of the profile, there is a flat panel with protrusions entering the grooves on the side wall of the profile (ЕP3179007А1, published on 14.06.2017).

Also known is a profile clamping device comprising a base with a U-shaped channel, a first regulating component and a second regulating component. The first control component contains an L-shaped plate with an arc groove inside. The second regulating component contains a support plate with a trapezoidal groove inside. The profile on one of the walls has a trapezoid groove for the installation of the regulating component.

The disadvantages of the known solutions is to create a stress concentration at the point of the wedge clamp in the corner of the internal space of the profile transmitted to the wedges that press the glass, arising from the local contact of one of the wedges on the inclined base and the loose wedges against the profile and the glass, which is negative affects the strength of the structure and may lead to the formation of cracks in the glass panel and / or weakening fasteners.

The technical problem solved by the invention is to eliminate the occurrence of stress concentrations when the anchor of the mounting wedges in the wall of the profile and in the surface of the glass panel while optimizing the dimensional and weight characteristics of the profile and the mounting node.
Also, the creation of non-collinearity of the surfaces of the wedge and the profile wall in the negative direction by 0.3 degrees. This contributes to a stronger fixation of the glass and the landing of the wedge. In the known solutions, this effect is absent, and during operation the wedge "goes" up and weakens the structure.

The technical result of the utility model is to maintain the load-bearing capacity of the profile and uniformly distribute the load on the profile with increasing strength of the entire device, both for statistical and dynamic loads, with glass being clamped over the entire working depth of the profile with improved weight and dimensional characteristics of the profile due to profile section shapes and used cavities inside the profile.

In turn, the improved weight and dimensional characteristics provide alloy savings, cost optimization and load bearing.

The claimed technical result is achieved due to the design of a profile clamping device for flat structures containing a base U-shaped profile with first, second walls and a base of an arched type, a clamping profile, one part of which is made adjacent to the inside of the first wall of the clamping device, and the second to the first side of the flat structure; l, one vertical side of which is located along the second wall of the base profile, and the second along the inner surface of the base of the base profile and is made spring, the upper part of the inner surface of each of the first and second walls of the profile is made with a recess, as well as grooves for inserting seals, the base profile made hollow with internal cells, pressure profile and L-shaped seal made with fins.

In the particular case of the implementation of the utility model on the walls of the lower cells facing the inner cavity of the base profile, thickening in the form of bosses is made.

In the particular case of the implementation of the utility model, one of the cavities in each of the first and second walls of the profile is made in a form that allows the end cap to be fixed to the profile by means of self-tapping screws.

The technical result is ensured by the shape of the cross section of the profile and weight characteristics. The base of the profile is made in the form of an arch so that when the profile is mounted, the anchor, acting on the bottom of the profile, creates a reactive force to hold the vertical walls of the profile against the glass. The thickenings in the lower cells of the truss structures of the side walls of the profile, made in the walls facing the internal cavity of the profile, are designed to increase the bearing capacity of the most loaded section of the profile, since during the operation of the profile it is in these areas that the stresses are concentrated. The design of the clamping profile and the L-shaped seal is ribbed to reduce weight and increase compressive strength. The spring base on which the planar structure rests relieves the load on the end of the glass, thereby increasing the strength of the entire system for both statistical loads and dynamic ones. The recesses in the upper parts of the inner surfaces of each of the first and second walls of the profile facilitate the construction and additionally allow the cable to be laid to illuminate the railings. Thus, the implementation of thickenings / ribs / depressions in the design of the components of the clamping device allows you to optimize the weight and dimensional characteristics of the profile while maintaining the bearing capacity and uniform distribution of the load on the profile with glass clamping over the entire working depth of the profile.

Further, the solution is explained by reference to the figures, which show the following.

Figure 1 - a general view of the profile.

FIG. 2 is an illustration of the process of squeezing the profile walls when exposed to the lower part of the profile.

Profile clamping device for K601 planar constructions, made by pressing. Material: aluminum alloy 6060, delivery condition T6, hardened and artificially aged. All technical requirements according to GOST22233-2001. The front surfaces are anodized, ensuring the absence of the use of decorative linings. The profile is designed for 6 sizes of glass sheets 10mm 12mm 16mm, triplex 5 + 5mm, 6 + 6mm, 8 + 8mm. It is completed with three sets of clamping profiles (wedges) for clamping all available sizes of canvases. Seals reliably protect the internal cavity profile, which makes it possible to use it on the street.

The device contains a basic U-shaped profile 1 with the first, second walls and the base of the arch type. Base profile 1 is hollow with internal cells. The base 6 of the profile 1 is made in an arched way, when the profile is mounted, a reactive moment is formed, the profile walls are compressed - an additional downforce on the glass sheet, respectively (figure 2).

The design of the clamping profile 3, one part of which is made adjacent to the inside of the first wall of the clamping device, and the second to the first side of the flat structure, is made with a rib and increases the contact area with the glass and the wall of the profile. The optimal width of the profile 3 is selected in order to increase the distance from the first wall of the profile 1 to the first surface of the glass. The angle of inclination of the wall of the profile and the wedge is selected with optimal parameters to increase the reliability of the entire system.

The inner surface of the second wall of the base profile 1 is made with the possibility of pressing to the second side of the flat structure through the L-shaped seal 2, one vertical side of which is located along the second wall of the base profile, and the second along the inner surface of the base of the base profile and is made spring.

The upper part of the inner surface of each of the first and second walls of the profile is made with a recess 8, as well as grooves for inserting seals 4 and 5.

The L-shaped compactor 2 is made of ABS plastic, with a ribbing to facilitate weight and increased compressive strength. The spring base on which the glass sheet rests relieves the load on the end of the glass, thereby increasing the strength of the entire system for both static loads and dynamic loads. Due to the spring form and fit-in, the installation of a spacer in the profile is made with a “click”, which provides ease of installation of glass.

Seals 4 and 5 are made of EPDM (ethylene-propylene rubber), provide ease of installation and anti-vandalism, perfect sealing. Also, the seals are designed in such a way that the open profile shelves are of the same size - to unify the decorative linings. The shape of the seals ensures reliable connection and anti-vandalism. They are fixed on the internal surfaces of the walls of the profile 1 due to the “thorn-groove” connections.

The recess 8 on the two walls of the profile is made to facilitate the design and to enable the cable for lighting.

The thickening in the form of a “boss” 9 is intended to increase the bearing capacity of the most loaded section of the profile.

The shape of the cavity 10 is made in such a way that it was possible to fix the end cap with a self-tapping screw.

Tests of the proposed profile devices were carried out at the Central Scientific Research Institute of Building Constructions. The tests carried out showed that the K601-2-16-3m railing glass fencing passed the test of 420kg horizontal load, prescribed by SP 20.13330.2016 "SNiP 2.01.07-85 Loads and Impacts", and can be used in the following structures:

 - residential buildings, preschool institutions, rest homes, sanatoriums, hospitals and other medical institutions;

 - stands and gyms;

 - buildings and premises in the absence of special requirements.

Claims (3)

1. A profile clamping device for flat structures containing a base U-shaped profile with first, second walls and an arch type base, a clamping profile, one part of which is made adjacent to the inside of the first wall of the clamping device, and the second to the first side of the flat structure, the inner surface of the second wall of the base profile is made with the possibility of pressing to the second side of the flat structure through the L-shaped seal, one vertical side of which is located along the second wall and the base profile, and the second along the inner surface of the base of the base profile and is made spring, the upper part of the inner surface of each of the first and second walls of the profile is made with a recess, as well as with slots for inserting seals, the base profile is made hollow with internal cells, the pressure profile and L-shaped seal is made with edges. 2. The profile clamping device according to claim 1, in which thickening in the form of bosses is made on the walls of the lower cells facing the internal cavity of the base profile. 3. Profile clamping device according to claim 1, in which one of the cavities in each of the first and second walls of the profile is made in a form that provides the possibility of mounting the end cap to the profile by means of self-tapping screws.

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