RU188074U1 - DESIGN PROFILE - Google Patents

Abstract

This utility model relates to the field of lengthy load-bearing structures, in particular, to structural profiles, and can be used in construction, in the manufacture of furniture and furniture fittings, as well as in medicine, in particular, in the construction of technical rehabilitation equipment for the disabled, including for children with cerebral palsy, and other medical and rehabilitation equipment. The technical result consists in increasing the resistance of the structural profile to longitudinal bending and torsion load.

According to a utility model, a structural profile with an internal cavity is formed by two longitudinal walls (2,3), paired with two transverse walls (5,6). In contrast to the prototype, bends (4) are made in the middle sections of the longitudinal walls, oriented inward to the profile cavity, and the first and second transverse walls (5.6) are made of different widths. At the same time, a depression (8) is made in the transverse wall of greater width (6), and the places where this wall meets the longitudinal walls are reinforced with stiffeners (7). 4 s.p. f-ly, 3 Fig.

Description

Technical field

This utility model relates to the field of lengthy load-bearing structures, in particular, to structural profiles, and can be used in construction, in the manufacture of furniture and furniture fittings, as well as in medicine, in particular, in the construction of technical means of rehabilitation for the disabled, including for children with cerebral palsy, and other medical and rehabilitation equipment.

State of the art

The prior art structural profile for creating lightweight building structures (patent for utility model of the Russian Federation No. 34578, published 10.12.2003). Known structural profile is a chamber formed by four longitudinal plate elements in the form of a parallelepiped with an equal wall thickness. On the outer side of the camera corners are two equal planar elements, the free ends of which are bent inward and form L-shaped elements symmetrical to each other with respect to the vertical axis of the profile.

In another example, a metal beam is disclosed in the prior art (patent for utility model of the Russian Federation No. 6570, published May 16, 1998). The known metal beam is made in cross section in the form of a rectangle with an opening, four L-shaped protrusions, arranged in pairs at the ends of two opposite sides and directed towards each other, and a protrusion of a linear shape.

A steel beam is known in the art (US Patent Application No. 20090313937, published December 24, 2009). The known beam is formed by two parallel plates and two parallel jumpers connecting them. On the outside of one of the plates, longitudinal side walls are installed, which together with the plate can serve as formwork for concrete poured over the beam. The joints between the beam elements are welded laser seams.

The carrier beam for supporting large weights is known from the prior art (US patent No. 5661945, published September 2, 1997). The known beam has a U-shaped open cross-section, is equipped with a channel for fixing other long elements in it. Known beam can also be made by extrusion.

The prior art furniture profile for the assembly of composite furniture components (patent for utility model of the Russian Federation No. 112818, published January 27, 2012). Known furniture profile has in its cross section a hollow square or sector shape formed by the faces of the profile, on the faces of the inner side of the profile there are notches. According to one variant of the cross-section of the furniture profile, the profile contains two ribs on the outside, forming a groove for connecting to the chipboard or MDF panel.

The closest analogue to the claimed utility model is a lengthy structural element made of composite material, disclosed in the patent for the invention of the Russian Federation No. 2290483 (published December 27, 2006). Known structural element contains a reinforcing frame formed by profile walls connected by jumpers with the formation of a longitudinal cavity and mounting elements with covering contact surfaces with longitudinally oriented locking elements.

A common disadvantage of the known analogues is the cross-sectional shape, the geometric characteristics of which can lead to reduced longitudinal bending resistance and torsional stress, which can lead to deformation of the beam surface and the formation of backlashes when it is placed in a structural profile having a cross section complementary to the cross section structural beams.

Utility Model Disclosure

The technical task is to create a simple to manufacture and lightweight long structural profile with improved mechanical characteristics.

The technical result achieved by the implementation of this utility model is to increase the resistance of the structural profile to longitudinal bending and torsion load.

The technical result is achieved by this useful model, according to which the structural profile with the internal cavity is formed by two longitudinal walls, paired with two transverse walls. Unlike the prototype, in the middle sections of the longitudinal walls made bends oriented inwardly to the cavity of the profile, and the first and second transverse walls are made of different widths. At the same time, a depression is made in the transverse wall of greater width, and the points of contact of the specified wall with the longitudinal walls are reinforced with stiffeners.

Brief Description of the Drawings

Figure 1 presents the image of the structural profile in isometric projection.

Figure 2 presents a drawing of a cross section of a structural profile.

Figure 3 presents an image of a part of the construction of the support functional for children with disabilities, in which the claimed structural profile is used.

Utility Model Implementation

As shown in figure 1, the structural profile 1, according to the present utility model, is a long profiled element with an internal cavity. The cross section of profile 1 and the size of the cross-sectional area are preferably the same along the entire length of the profile. Profile 1 can be made of a soft metal alloy, for example, aluminum alloy 6063.

In accordance with figure 2, the longitudinal walls 2 and 3 are curved, with bends 4 in the middle section of the walls 2 and 3. The bend 4 is oriented inside the cavity of the profile 1. The longitudinal walls 2 and 3 can be made essentially parallel, except for those sections in which bending is performed 4. The longitudinal walls 2 and 3 are associated with two opposite transverse walls 5 and 6 with the formation of a closed cross-section of profile 1, while the walls 5 and 6 have different widths. In particular, the wall 5 may be straight, convex or concave. The mating points of the wall 6 of greater width with the walls 2 and 3 are strengthened by stiffeners 7, represented by the influx of a soft metal alloy, for example, aluminum alloy. In the middle section of the wall 6, a depression 8 is made, oriented inward to the cavity of the profile 1. In the finished product obtained using this utility model, the lengths of the longitudinal walls can be 30 mm, the lengths of the transverse walls are 18.7 mm and 26 mm, the wall thickness is 2.5 mm, sharp edges of profile 1 can be rounded.

In accordance with figure 3, the structural profile 1 can be used in the design of the functional support for sitting for children with disabilities. Profile 1 is installed in the cavity inside another profiled element 9, the cross section of which is complementary to the cross section of profile 1. The specified element 9 is attached to the surface of the backrest 10. The headrest 11 is fixed on the profile 1. Holes are made in the rear wall of the element 9 for fixing the structural profile 1 inside another profiled element 9, due to which the height of the headrest 11 is adjusted.

Due to the geometric characteristics of the cross section of the claimed structural profile, it is ensured that its stability and stiffness in longitudinal bending and torsion are increased. In particular, the improved mechanical properties of this profile are manifested when the load on it is applied unevenly or at an angle.

The structural profile can be made by die drawing, which is as follows. An aluminum alloy billet heated to a temperature of 500 ° C is forced through a hole in the die. The die is a steel disk with a forming channel formed in it, the cross section of which is essentially identical to the cross section of the outer walls of the structural profile. The profile cavity is provided by a divider installed inside the die body. The specified divider has a cross section substantially identical to the internal cavity of the structural profile. The die is made of high-quality steel grade 6063, to increase its resource the process of hardening (nitriding) is underway. The product obtained as a result of punching is cooled, calibrated and sawn across to ensure the required length of the structural profile.

Claims (5)

1. The structural profile with an internal cavity formed by two longitudinal walls mating with two transverse walls, characterized in that in the middle sections of the longitudinal walls are bends oriented inward to the cavity of the profile, the first and second transverse walls are made of different widths, while in the transverse wall the greater the width of the hollow is made, and the interface between the specified wall with the longitudinal walls are reinforced with stiffeners. 2. The structural profile according to claim 1, characterized in that the longitudinal walls are essentially parallel to each other, with the exception of those sections in which the bends are made. 3. The structural profile according to claim 1, characterized in that it is made of an aluminum alloy. 4. The structural profile according to claim 1, characterized in that the stiffeners are represented by influxes made of an aluminum alloy. 5. The structural profile according to claim 1, characterized in that it is made by die drawing.

Images