RU2247199C2 - Leading profiled building beam - Google Patents

Abstract

FIELD: building, particularly profiled beams to construct floor coverings with thickness of 25 - 40 mm for arranging finishing floors and other structures, for instance for flat roofs.

SUBSTANCE: profiled beam comprises longitudinal load-bearing member, two perforated side walls connected with bearing member and perforated bases extending from them in opposite directions. Each base has bent end forming longitudinal three-edged extension. The first edge is perpendicular to the major part of base. The second edge is parallel to the second one, the third extreme edge forms an angle of not less than 90^o with the second one.

EFFECT: improved cohesion ability between beam and covering material.

8 cl, 5 dwg

Description

The invention relates to the field of construction, in particular to profile beams for the production of screeds with a thickness of 10 mm to 25 mm of finished floors from any hardening mixtures, as well as for the production of plastering.

Known profile beam for concrete work, containing a longitudinal bearing element connected to it by two perforated side walls with perforated bases extending from them in opposite directions. To increase the rigidity of the beam, its bases are connected by a tightening element (RU 19069 U1, class E 04 C 3/293, 2001).

A disadvantage of the known design is the lack of adhesion of the profile beam to the casting material, as well as the inability to use it to obtain fine finish floors and for plastering work, when profile beams of low height are needed, and the known design of the beam at low height has insufficient rigidity, since the profile should be made of thin sheet.

The technical result of the invention is the elimination of these disadvantages, i.e. increasing the adhesion of the beam to the pouring material, as well as providing the necessary rigidity when using the beam for the production of fine floors and plastering.

This result is achieved due to the fact that in the profile beam for construction work containing a longitudinal bearing element, two perforated side walls connected to it with perforated bases extending from them in opposite directions, the edge of each base is curved with the formation of a longitudinal trihedral protrusion, the first face which is perpendicular to the main part of the base, the second is parallel to this part, and the third extreme edge forms at least 90 ° from the second.

Preferably, the angle formed by the second and third faces is 135 °.

To improve the fillability of the beam with concrete, it is advisable to place part of the perforations of the side walls and bases along the bend line of the side wall-base, so that one part of the area of each hole is located on the side wall and the other on the base, and it is desirable that the bend line of the side wall the base passed through the centers of the indicated holes.

These holes may have a round, or oval, or other shape.

According to one embodiment, the beam can be provided with a longitudinal guide insert located in the recess of the longitudinal bearing element and having a working surface convex with positive curvature in cross section.

The deepening of the longitudinal support element can be flattened to form a stiffener on the inside of the longitudinal support element.

The holes in the bases for the adjusting screws are located on the main part of the base and have a circular shape with a groove in the area of the hole edge, and the hole edges on each side are bent in mutually opposite directions to form a helix.

Figure 1 shows a cross section of a profile beam, the first embodiment.

In Fig 2 is the same, the second option.

Figure 3 is the same, the third option.

Figure 4 - the location of the holes for the adjusting screws on the steel billet.

Figure 5 is an isometric view.

The profile beam is designed for the production of thin finish floors with a very small screed thickness (from 10 to 25 mm) with guaranteed fillability of the internal cavity of the profile beam with any hardening casting mixture, regardless of its viscosity and fractionality, fillers, for plastering in the manufacture of walls with a layer of plaster from 10 to 25 mm, as well as for the repair of concrete or cement floors.

Profile beam 1 contains two perforated side walls 2 with perforated bases 3 extending from them in opposite directions. The free edges of the bases 3 are bent to form a trihedral protrusion 4 (bend).

The first part of the protrusion 4 is perpendicular to the main part 5 of the base 3, the second is parallel to this part 5, and the third extreme edge forms an obtuse angle with the second, preferably equal to 135 °. The edge of the third face preferably lies in the same plane with the main part 5 of the base 3. The bends 4 of both bases 3 are symmetrical with respect to the central plane of symmetry of the beam.

The bend in the form of a protrusion 4 provides the formation of an additional internal cavity under the beam with a height h even in the absence of adjusting screws filled with concrete or another pouring mixture, which ensures increased adhesion of the profile beam to the pouring material.

Two symmetrical protrusions 4 with an extreme edge located at an angle of 135 degrees increase the rigidity of the beam.

The beam is equipped with plastic adjusting screws inserted into the holes 6 of the base 3 of the beam to ensure adjustment of the required level of the beam, the angle of the floors, the verticality of the walls, the required thickness of the working mixture layer.

The profile beam is made of a flat steel billet 7 on roll forming mills, ensuring strict symmetry of the cross section of the beam profile and straightness in the longitudinal direction.

The preliminary perforation of the steel billet involves the arrangement of two symmetrical groups of holes 6 and 8 for the adjustment screws and for the fittings and for the passage of the mixture, the latter being arranged so that the “side wall-base” bend line passes through the centers.

This arrangement of holes 8 facilitates and accelerates the filling of the internal cavity of the profile beam with concrete or another working mixture due to the location of one part of the hole 8 on the side wall 2 of the beam, and the second part on the basis of 3 beams,

The holes 10 can be round, or oval, or any other configuration.

In the first embodiment, the longitudinal bearing element 9 connecting the side walls 2 is made with a longitudinal recess (groove) 10 (Fig. 1).

In another embodiment (FIG. 2), the profile beam is provided with a longitudinal guide plastic insert 11 located in the groove 10 of the beam having a different cross-sectional shape, for example, the shape of a truncated vertical plane or an un-truncated dovetail. The upper and lower parts of the insert 11 have the same shape. The plastic insert 11 allows to increase the height of the profile beam.

In the third embodiment (Fig. 3), the walls of the trough 10 are rolled up so that they form a stiffener on the longitudinal support member 9 of the profile.

The holes 6 for the adjusting screws are made round with a groove in the area of the edge of the hole. The edges of the groove are bent in opposite directions with the formation of a helical line for the thread to enter the screw (figure 4).

Profile beam is used as follows.

In the manufacture of floors, profile beams are installed on the floor base at predetermined distances and poured with concrete or cement mixture. A leveling device is installed on the longitudinal bearing element 9 or on the plastic insert 11 and moved, thus leveling concrete or cement.

When carrying out plastering, the profile beam is used as a beacon profile. The working mixture (plaster) is applied to the wall base, the beacon profiles are pressed into it, the working mixture is repeatedly applied to the wall base until it is a layer thicker than the height of the beacon profiles, and then the wall surface is leveled using the rule sliding along the longitudinal bearing elements of the beacon profiles .

In both cases, the adjusting screws are pushed along the entire length of the profile beam all the way to the base and ensure the straightness of the beams, their strictly horizontal or vertical position and their rigidity in places of unevenness of the base of the floor or wall.

The holes 6 for the adjusting screws (Fig. 4) on the basis of 3 profiles of the beacon beam are stamped with a selected pitch (20-30 mm) symmetrically with respect to the side walls of the profile, but with grooves directed in opposite directions. This scheme of stamping a steel billet under the profile leads to the fact that the protruding “down” relative to the plane of the billet semicircle of the obtained screw holes 6 for adjusting screws are located symmetrically relative to the longitudinal axis of the billet under the profile.

This makes it possible to use a calibration tool that is symmetrical with respect to the profiling axis (workpiece axis) when producing a profile of the required cross section at a roll forming mill from a steel perforated workpiece, which leads to stability of the profiling process and ensures the accuracy of the geometric dimensions of the resulting steel profile both in longitudinal and transverse directions .

Holes 6, perforated along the plane of the base 3 of the steel profile of the beacon profile beam and free of adjusting screws, allow, on the one hand, when pressed into the mortar applied with the moldings to fasten the profile 1 with the mortar mixture, extruded excess mortar mixture out, thereby ensuring the desired depth of immersion of the profile, and, on the other hand, ensure that plaster or pouring mixture gets into the internal cavity of the lighthouse profile beam, thereby improving the adhesion of the lighthouse profile Alki obtained with niveliruemoy surface.

Round or oval holes 8, perforated along the bend line base - side wall ”of the steel profile of the beacon profile beam, in addition to facilitating the penetration of the steel profile of the casting mixture into the inner cavity, if necessary, reinforce the fill cards with wire reinforcement.

Bends 4 of the base 3 of the steel profile of the beacon profile beam “inward” (with a bend angle from 0 ° to 90 °), on the one hand, improve the fixation of the profile when it is pressed into the fixing mortar, and on the other hand, form an additional internal cavity to be filled pouring mixture, which increases adhesion to the base of the beacon profile beam with the resulting leveling surface layer.

The proposed design of the beacon profile beam allows, using the same steel profile - the main structural element, to obtain various thicknesses of layers with the help of adjusting screws to obtain leveling surfaces (or thicknesses of plaster layers, or thicknesses of finishing floors).

The proposed design of the beacon profile beam allows using billets made of steel of economical thicknesses of 0.5-0.80 mm for the manufacture of the main structural element - cold-rolled steel profile. The bending of the steel profile under the influence of a rule or other leveling device at the places of possible voids of the base (floor or wall) is prevented by the installation of additional plastic adjusting screws in these places (the minimum step for installing the adjusting screws is 20 mm).

The proposed design of the beacon profile beam (due to adjustment with screws) does not require perfect alignment of the base (walls or floors), which significantly saves the cost of work (and their acceleration) in laying the right layer of the leveling surface.

An important advantage of the proposed beacon profile beam is the ability to repair concrete floors at industrial enterprises with filling cards, which allows not to stop the production. The floors are ready for walking after 12 hours, and after 2-3 days you can run cars, loaders and install heavy equipment on them.

Claims (8)

1. Profile beam for construction work, containing a longitudinal bearing element, two perforated side walls connected to it with perforated bases extending from them in opposite directions, characterized in that the edge of each base is curved with the formation of a longitudinal trihedral protrusion, the first face of which is perpendicular to the main parts of the base, the second face is parallel to it, and the third extreme face forms at least 90 ° from the second. 2. The beam according to claim 1, characterized in that the angle formed by the second and third faces is 135 °. 3. The beam according to claim 1 or 2, characterized in that part of the perforation holes of the side walls and bases are located along the fold line of the side wall-base, so that one part of the area of each hole is located on the side wall and the other on the base. 4. The beam according to claim 3, characterized in that the bend line of the side wall-base passes through the centers of these holes. 5. The beam according to claim 3 or 4, characterized in that said holes have a round, or oval, or other shape. 6. A beam according to any one of claims 1 to 5, characterized in that it is provided with a longitudinal guide insert located in the recess of the longitudinal bearing element and having a convex working surface in cross section. 7. A beam according to any one of claims 1 to 5, characterized in that the recess of the longitudinal bearing element is flattened with the formation of a stiffener on the inner side of the longitudinal bearing element. 8. A beam according to any one of claims 1 to 7, characterized in that the holes in the bases for the screws are located on the main part of the base and have a circular shape with a groove in the region of the edge of the hole, the edges of the holes on each side being bent in mutually opposite directions to form helix line.

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