RU21298U1 - PROFILE BEAM FOR CONCRETE WORKS - Google Patents

Description

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IPC 7 E 04 with 3/393

Profile beam for concrete work

The utility model relates to the field of construction, in particular, to metal profile beams designed for concrete floors and foundations.

The closest analogue is a profile beam for concrete work, including two side walls inclined to each other with holes for liquid concrete to pass through, with perforated bases extending from each wall, equipped with adjusting screws and connected cross ties, and a plastic guide installed in longitudinal gutter or on a longitudinal ledge formed in the upper part of the beam (Russian patent No. 2094574, CL E 04 C 3/393, 1997).

A disadvantage of the known solution is that the flat surface of the plastic rail does not fully support the concrete when moving the trolley, irregularities are formed on it, the trolley jumps, which reduces the quality of concrete compaction.

A flat surface also cannot serve as leveling. In addition, the uncertainty of the shape of the mating surfaces of the plastic guide and the gutter or protrusion of the beam reduces the reliability of their connection, as well as insufficient rigidity of the side walls of the beam, weakened by the presence of many through holes, reduces the quality of the work.

The technical result of the utility model is to improve the quality of concrete compaction by providing concrete rolling with a plastic guide, providing the possibility of using the generatrix of the upper surface of the guide as leveling, as well as providing hard locking interface of the plastic guide and the beam profile and increasing the rigidity of its side walls.

This technical result is achieved due to the fact that in the profile beam for concrete work, which includes two side walls inclined to each other with holes for liquid concrete to pass through, with perforated bases extending from each wall and a guide element mounted in a longitudinal gutter or on a longitudinal protrusion formed in

the upper part of the beam, the upper working surface of the guide element is convex, curved in cross section and with a direct generatrix.

In addition, the gutter or protrusion may have a cross-sectional shape in the form of a truncated vertical plane or an un-truncated dovetail.

The lower surface of the guide element, when installed in a longitudinal trough, is made curved in cross section with a bulge facing the beam profile and a similar upper surface. When installing the guide element on a longitudinal protrusion, its lower surface is made with a recess extending along the guide element and having in cross section a profile repeating the profile of the protrusion.

One of the side surfaces of the guide element installed in the longitudinal groove may be made with a vertical flat surface. At least one of the side surfaces of the guide element may be curved with one or two concavities of the same size.

It is preferable to make the guide element plastic.

The beam protrusion can be made of metal or plastic.

Along the line connecting the centers of adjacent holes of each side wall of the beam, trapezoidal or triangular bends can be made, facing outward or inward of the beam profile.

In addition, the beam can be equipped with adjusting screws mounted on perforated bases.

Cross ties connecting side walls located with equal or variable pitch along the length of the beam and each made in the form of a profile element with a length exceeding the transverse section of the beam.

The beam profile can be made of cold-rolled pre-punched trained tape.

The beam profile can be obtained cold flexible on roll forming mills to ensure symmetry of the cross section in the longitudinal direction.

The perforated openings of the side walls at any angle of inclination are preferably positioned so as to allow passage of reinforcing elements through the beam.

The upper working surface of the guide element can be made cylindrical with a radius R of 14.0-24.0 mm or have a parabola or hyperbola or other convex curved line in cross section.

In addition, the upper working surface may have flat sections connecting its curved convex part with the side surfaces of the guide element.

The lower surface of the guide element can be performed similarly to the upper with a radius of curvature R 14.0 mm

In addition, the guide element inserted into the chute has a convexity with a radius of curvature R 32.0 mm turning into concave surfaces (such as a dovetail) at the mid-height of the lateral curved surface.

The essence of the utility model is illustrated by drawings, which depict:

- figure 1 is a General view of a profile beam with a guide element mounted in a longitudinal gutter;

- figure 2 is a General view of a profile beam with a guide element mounted on a longitudinal protrusion;

-Fig. 3 is a cross-sectional view of a beam profile with a longitudinal groove; figure 4 is a view of I in fig.Z;

in Fig.Z - view II in Fig.Z;

- in Fig.6 is a view III in Fig.Z;

- Fig.7 is a transverse sectional view of the profile of a beam with a longitudinal protrusion; in FIG. 8-10 - embodiments of the plastic guide.

The profile beam for concrete work includes two side walls 1 inclined to each other with holes 2 for liquid concrete to pass through them.

If it is necessary to reinforce the concrete to be poured, the holes on the side walls of the profile at any angle of inclination should be positioned so as to ensure that reinforcing elements made in the form of rods or profiles pass through the beam.

Perforated bases 3, provided with adjusting screws, extend from the bottom of each wall 2.

provides an increase in stiffness in the longitudinal and transverse directions due to the formation of a closed triangle in the cross section. Cross ties 4 are arranged with constant or variable pitch along the length of the beam.

In the upper part of the beam, a longitudinal groove 5 or a longitudinal protrusion 6 is formed, having the shape of a truncated vertical plane or an un-truncated dovetail.

The longitudinal groove 5 includes a removable plastic guide element 7. The upper working surface of the guide element has, for example, a cylindrical surface with a bulge facing the beam profile outward. When installing a plastic guide element 7 in a longitudinal groove 5, its lower surface has a cylindrical or other curvilinear cross-sectional surface 9 with a bulge facing the inside of the profile.

In the case of installing the guide element 7 on the protrusion of the beam, the lower surface of the guide element 7 is made with bends 10 extending along its length and having a cross-section in profile that repeats the profile of the protrusion.

One of the side surfaces of the guide element 7 may be made in the form of a vertical flat surface 11, and the other a curved surface 12 having one concavity 13 or two of the same size.

The beam protrusion can be made of metal or plastic.

To increase the rigidity of the beam along the line connecting the centers of adjacent holes 2 of each side wall 1, trapezoidal 14 or triangular 15 bends are made in the longitudinal direction, facing outward or inward of the beam profile.

The beam profile can be obtained cold flexible on roll forming mills, providing strict symmetry of the cross section in the longitudinal direction.

For the manufacture of the profile using cold-rolled pre-punched trained tape.

The radius of curvature of the cross section of the lower and upper surfaces of the guide element is R 14.0.

The guide element inserted into the trough has a bulge 16 with a radius of curvature R 32.0 mm, turning into concave surfaces 13 of the dovetail type, at the mid-height of the lateral curved surface ..

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The presence of a gutter or protrusion in the profile beam allows the use of a set of plastic guides that differ in height from each other in order to form technological joints of various depths in concrete floors, if necessary, for subsequent filling with special casting mixtures.

Claims (19)

1. Profile beam for concrete work, including two side walls inclined to each other with holes for passing through them liquid concrete with perforated bases extending from each wall, and a guide element mounted in a longitudinal gutter or on a longitudinal protrusion formed in the upper part beams, characterized in that the upper working surface of the guide element or part thereof is made convex, curved in cross section and with a direct generatrix.  2. The beam according to claim 1, characterized in that the trough or protrusion has a cross-sectional shape in the form of a truncated vertical plane or an un-truncated dovetail.  3. The beam according to claim 1 or 2, characterized in that the lower surface of the guide element when installing it in a longitudinal groove is curvilinear in cross section with a bulge facing the profile of the beam and similar to its upper surface.  4. The beam according to claim 1 or 2, characterized in that the lower surface of the guide element when installing it on a longitudinal protrusion is made with a recess extending along the guide element and having in cross section a profile that repeats the profile of the protrusion.  5. A beam according to any one of claims 1 to 3, characterized in that at least one of the side surfaces of the guide element when installed in a longitudinal groove is made curved with one or two concavities of the same size.  6. The beam according to claim 5, characterized in that one of the side surfaces of the guide has a vertical flat surface.  7. The beam according to any one of claims 1 to 6, characterized in that the guide element is made of plastic.  8. The beam according to any one of claims 1 to 7, characterized in that the protrusion is made of metal or plastic.  9. A beam according to any one of claims 1 to 8, characterized in that along the line connecting the centers of adjacent holes in each longitudinal row of each side wall, trapezoidal or triangular bends are made, facing outward or inward of the beam profile.  10. A beam according to any one of claims 1 to 9, characterized in that it is equipped with adjusting screws mounted on perforated bases.  11. The beam according to any one of claims 1 to 10, characterized in that it has transverse ties connecting the side walls located with equal or variable pitch along the length of the beam and each made in the form of a profile element with a length exceeding the transverse section of the beam.  12. The beam according to any one of claims 1 to 11, characterized in that its profile is obtained by cold flexible on roll forming mills with ensuring the symmetry of the cross section in the longitudinal direction.  13. A beam according to any one of claims 1 to 12, characterized in that its profile is made of cold-rolled pre-punched trained tape.  14. A beam according to any one of claims 1 to 13, characterized in that the perforated holes of the side walls at any angle of their inclination are located so as to allow passage of reinforcing elements through the beam.  15. The beam according to any one of claims 1 to 14, characterized in that the upper working surface of the guide element is made with a radius of curvature R≥14,0.  16. A beam according to any one of claims 1 to 14, characterized in that the upper working surface of the guide element has in cross section an arc, or a parabola, or a hyperbola, or another convex curved line.  17. The beam according to any one of claims 1 to 14, characterized in that the upper working surface of the guide element has flat sections connecting its curved convex part to the side surfaces.  18. The beam according to any one of paragraphs.3, 5-17, characterized in that the lower surface of the guide element is made with a radius of curvature R≥14.0 mm 19. A beam according to any one of claims 1 to 3, 5-18, characterized in that the guide element inserted into the trough has a bulge at the mid-height of the lateral curved surface with a radius of curvature R≥32.0 mm, turning into concave surfaces ( like dovetail).