RU2455096C2 - Formed closed section, method of producing formed closed section, 3d-structure carcass frame with said section and 3d structure incorporating said carcass frame - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to metal forming, particularly, to production of cold rolled sections for construction structures. Formed closed section features square or rectangular cross-section and butt nearby center of one facet. Note here that every section of facet with butt has extension made up of L- and/or I-like rib. Formed section is made from strip by trimming sidewalls and making roll-formed hats. Before finishing pass, W-shape section is formed along the center while, in finishing pass, closed section is formed. Carcass frame is made from closed roll-formed hat and incorporated with 3D-structure.

EFFECT: expanded performances.

18 cl, 11 dwg

Description

The invention relates to the processing of metals by pressure, in particular to the production of cold-formed profiles for special purposes. Another purpose of the invention is: the construction and production of building structures and products, which can be widely used in the manufacture of sets of profiles for the manufacture of structures of light frames and spatial structures used in the construction of household and household objects and containers for various purposes.

Known bent profile having bent side walls and a trough profile (RF patent No. 2144410, B21D5 / 08). The known profile does not have closed parts, which limits its bearing capacity.

Known bent closed profiles and bent closed welded profiles according to GOST 14350-80 (rolled bent profiles), which have a square or rectangular profile in cross section and a joint approximately in the center of one face. Use these profiles as elements that carry power loads in spatial structures. The effectiveness of the use of known profiles is reduced in the case when you need to install the filling between the power elements, since there is a need for means of fastening the filling.

A known method of manufacturing a bent closed profile, including the sequential preparation of the elements of the moldable strip in the bending passages of the side walls, shaping the trough profile and the finishing passage (RF patent No. 2144410, B21D5 / 08). However, the known method does not have the ability to obtain a bent closed profile.

A well-known frame of a spatial structure frame containing racks supported on foundation slabs and a connecting element connected to the upper parts of the racks (utility model of the Russian Federation No. 80866, E04 B1 / 32). In the known frame, each post and connecting element are composed of a large number of short rods, the connection of which is carried out directly at the place of installation of the frame, and this complicates the assembly process and increases its complexity.

A well-known spatial design, including a supporting frame of racks and a system of ties attached to them using connecting elements (utility model of the Russian Federation No. 34190, EV 1/32). In the known spatial design, the entire system of connections of the elements of its frame is carried out due to friction forces, and this limits the possibility of using the frame in the presence of significant power loads.

The objective of the invention when creating a new bent closed profile is to expand the scope of its use. The technical result consists in the fact that the proposed bent closed profile can be used as a power element in building structures and at the same time serve as a device that provides the installation of filling between the power elements.

This is achieved by the fact that in a bent closed profile comprising a square or rectangular cross section and a joint approximately in the center of one face, according to the invention, each part of the face on which the joint is made has an extension made in the form of Г- and / or I- shaped ribs. Parts made in the form of a G- and / or I-shaped rib can be interconnected by spot welding or roller welding. Parts made in the form of a G- and / or I-shaped rib can be interconnected using riveted or bolted joints. In the longitudinal direction, the bent closed profile is made in the form of a rod of a given length, while holes are made on the faces making up a square or rectangular section at one or each end of the rod.

The objective of the invention is a method of manufacturing a bent profile is to obtain a multifunctional product. The technical result consists in the fact that one closed and two open bent profiles are obtained from one sheet blank.

This is achieved by the fact that in the method for producing a bent profile, including the sequential preparation of the elements of the moldable strip in the bending passages of the side walls, the shaping of the trough profiles and the finishing passage, according to the invention, a W-shaped profile is formed in the center of the formed closed section section before the finishing passage, and when finishing a passage from the W-shaped profile form a closed profile. The folding of the side walls and the shaping of one or two trough profiles can be carried out in one pass.

The objective of the invention of the frame of the frame of the spatial structure is to reduce the complexity of assembly operations directly at the installation site of the frame. The technical result consists in minimizing the number of assembly elements and simplifying the assembly process.

This is achieved by the fact that in the frame of the spatial structure of the frame, containing racks supported on foundation slabs, and a connecting element connected to the upper parts of the racks by fasteners, according to the invention, the racks and the connecting element are made of a bent closed profile including a square or rectangular cross section the profile and the joint are approximately in the center of one face, with each part of the face on which the joint is made has a continuation made in the form of a G- and / or I-shaped rib, fasteners you are made in the form of at least one additional rod fixed to the faces at each end of the connecting element with a bent closed profile of square or rectangular cross-section, additional connecting element rods equipped with holes coaxial with holes made at the ends of the uprights, bolted joints are installed in the coaxial openings, the lower ends of the uprights are installed in rigidly connected to the base plate branches, each of which is composed of unequal corners, the parts parallel to each other formed by its long sides, are adjacent to the side walls of the uprights and are made with holes coaxial with the aforementioned holes made at the ends of the uprights, and the parts directed towards each other are adjacent to the outer walls racks, and in the coaxial holes bolted connections are installed. The additional rods fixed at the ends of the connecting element can be made in the form of boxes having bases rigidly connected to the connecting element and four sidewalls bent away from the base at an angle close to 90 °. The connecting element and the duct can be interconnected by spot welding. The connecting element and the box can be interconnected using rivet or bolted connections. The length of the additional rods fixed at the ends of the connecting element can be selected in the range from one to three sizes of their square or rectangular section. Holes may be provided on additional rods. These holes can be threaded, the profile can be composed of rolled or bent unequal corners, the long sides of which are parallel to each other and adjacent to the side walls of the rack.

The objective of the invention of spatial design is to expand the scope of its use. The technical result consists in the fact that the main elements of the frame of the spatial structure can be used as power and at the same time serve as devices that provide installation of filling between them.

This is achieved by the fact that in a spatial structure comprising a supporting frame of racks and a communication system attached to them by means of connecting elements, according to the invention, the racks and connecting elements are made of a bent closed profile, comprising in cross section a square or rectangular profile and a joint of approximately the center of one face, with each part of the face on which the joint is made, has a continuation made in the form of a G- and / or I-shaped rib, the posts and part of the connecting elements form frames sequentially fixed on the foundation along the longitudinal axis of the spatial structure, the other part of the connecting elements forms the connections between the frames in the upper part of the racks, the connecting elements forming the connections between the frames in the longitudinal direction are made in the form of rods of a given length, while on the faces of a square or rectangular section at each end of the rod holes are made, coaxial with holes made on the connecting elements of the frames. The first and / or last frame can be equipped with additional racks made of a bent closed profile, while the racks are connected in pairs so that to the rack, which has a continuation made in the form of a G- and I-shaped rib, attached to the I-shaped rib the rack, which has a continuation made in the form of two L-shaped ribs. The space between the jays of adjacent frames, formed by L-shaped ribs and adjacent parts of the face of a closed profile, can be filled with bent profiles of square, and / or rectangular, and / or C-shaped section, and / or monolithic blocks. Monolithic blocks can be made of insulating material. The inner surface of the spatial structure can be lined with plastic, ensuring its use as a container for liquid.

Figure 1 shows a bent closed profile, including in cross section a square profile and a joint approximately in the center of one face, with each part of the face on which the joint is made has a continuation made in the form of two L-shaped ribs;

figure 2 - the same, with one part of the face on which the joint is made, has a continuation made in the form of a L-shaped rib, and the other part of the face on which the joint is made, has a continuation made in the form of an I-shaped rib ;

 figure 3 is the same, with each part of the face on which the joint is made, has a continuation made in the form of two I-shaped ribs;

figure 4 presents a bent closed profile in the longitudinal direction;

figure 5 is a section aa in figure 4;

figure 6 shows the sequence of forming a bent closed profile;

in Fig.7 shows the elements of one set of frame frames of a spatial structure before installation;

on Fig shows two options for bolted connections of frame elements;

figure 9 shows an additional element made in the form of a box;

figure 10 schematically shows a spatial structure;

11 shows a double rack.

The bent closed profile includes in cross section a square or rectangular profile 1 and a joint approximately in the center of the face 3. Each part of the face 3 has a continuation made in the form of a L-shaped rib 4 or I-shaped rib 5. Parts made in the form of a G- and / or I-shaped ribs 4 and 5, can be interconnected by spot welding or roller welding 6. Parts made in the form of G- and / or I-shaped ribs 4 and 5 can be interconnected using rivets 7 or bolted connections (not shown in the drawings). In the longitudinal direction, the bent closed profile is made in the form of a rod 8 of a given length, while holes 10 are made on the faces 9 making up a square or rectangular section at one or each end of the rod.

A bent closed profile is formed in 5-10 passes, depending on the yield strength of the material and elongation. The most characteristic passages of the method for producing a bent profile include the sequential preparation of the elements of the formed strip in the aisle - “bending of the side walls” (Fig.6) and the aisle - “shaping trough profiles” (Fig.6). Then form a "W-shaped profile in the center of the formed closed part of the section" (Fig.6). The angle α between the faces 11 and 12 of the W-shaped profile is created within 90-120 °, which allows a closed profile to be formed from the W-shaped profile during the finishing pass (Fig. 6). The folding of the side walls and the shaping of one or two trough profiles can be carried out in one pass.

Concrete example

The bent closed profile is made of steel strip St.3 kp with a thickness of t = 2 mm; the cross section is shown in figure 1.

Profile parameters: а = 120 mm; b = 120 mm; s = 120 mm; d = 120 mm.

The table shows the comparative characteristics of the obtained bent closed profile and two I-beams according to GOST 8239-89.

Profile parameters: а = 120 mm; b = 120 mm; s = 120 mm; d = 120 mm.

The table shows the comparative characteristics of the obtained bent closed profile and two I-beams according to GOST 8239-89.

Comparative characteristics of profiles

Profiles Sectional area, cm ² X moment of inertia, cm ⁴ Y moment of inertia, cm ⁴ Curved Closed Profile 16.8 1114 247 Beam number 14 17.4 572 41.9 Beam number 18 23,4 1290 82.6

findings

1. With a relatively equal cross-sectional area with beam No. 14, the proposed bent closed profile has a moment of inertia along the X axis of 1.9 times greater, and a moment of inertia along the Y axis is 5.8 times greater.

2. With a relatively equal moment of inertia along the X axis with beam No. 18, the proposed bent closed profile has a sectional area 1.4 times smaller, and the moment of inertia along the Y axis is 3 times larger.

The frame of the spatial structure of the frame contains racks 13 and 14, supported on a foundation plate 15 and 16 (Fig.7). The connecting element 17 is connected with the upper parts of the uprights 13 and 14 with fasteners. Racks 13 and 14 and the connecting element 17 are made of a bent closed profile, including in cross section a square or rectangular profile 1 and joint 2 approximately in the center of the face 3, with each part of the face 3 having a continuation made in the form of a L-shaped rib 4 and / or I-shaped rib 5. The fastening elements are made in the form of at least one additional rod 19 with a bent closed profile of square or rectangular section fixed on the faces 18 at each end of the connecting element 17. In the square or rectangular holes 20 in the upper parts of the uprights 13 and 14, additional rods 19 of the connecting element 17 are installed (for better clarity, the frame is shown in Fig. 7 before installation). The additional rods 19 are provided with holes 21 coaxial with the holes 22 made at the ends of the uprights 13 and 14. In the coaxial holes 21 and 22 bolted connections 23 and / or 24 are installed (Fig. 8). The lower ends of the uprights 13 and 14 are installed in profiles 25-26 and 27-28, rigidly connected respectively to the base plates 15 and 16. The parts of the profiles 25-26 and 27-28 directed towards each other are adjacent to the outer walls 29 of the uprights 13 and 14. The parallel parts of the profiles 25-26 and 27-28 adjoin the side walls 30 of the uprights 13 and 14. The parallel parts of the profiles 25-26 and 27-28 are provided with openings 31 coaxial with the openings 32 made at the ends of the uprights 13 and 14 In the coaxial holes 31 and 32, bolted connections are installed similar to those shown in Fig. 8. The additional rods 19 fixed at the ends of the connecting element 17 can be made in the form of boxes having a base 33, rigidly connected to the connecting element 17, and four sidewalls 34, bent away from the base at an angle close to 90 ° (Fig. 9) . The connecting element 17 and the additional rods 19 can be interconnected by spot welding. The connecting element 17 and the additional rods 19 can be interconnected using rivet or bolted connections. The length of the additional rods fixed at the ends of the connecting element 17 can be selected in the range from one to three sizes of their square or rectangular section. The holes on the additional rods 19 can be threaded, for example, under the bolts 23 (Fig. 8). Profiles 25-26 and 27-28 can be composed of rolled or bent unequal corners, the long sides of which are parallel to each other and adjacent to the side walls 30 of the racks 13 and 14.

The spatial structure includes a supporting frame of racks 13 and 14 and a system of ties attached to them using connecting elements 17 and 35 (figure 10). Racks 13 and 14 and connecting elements 17 and 35 are made of a bent closed profile having in cross section a square or rectangular profile 1 and joint 2 approximately in the center of the face 3, with each part of the face 3 having a continuation made in the form of a L-shaped rib 4 and / or I-shaped ribs 5. Stands 13 and 14 and connecting elements 17 form frames sequentially mounted on the foundation plates 15 and 16 along the longitudinal axis of the spatial structure. The connecting elements 35 form the connection between the frames in the upper parts of the uprights 13 and 14. The connecting elements 35 in the longitudinal direction are made in the form of rods 8 of a given length, with holes 10 aligned with the holes on the faces 9 of a square or rectangular section at each end of the rod 8 21 made on additional rods 19 of the connecting elements 17. The first and / or last frame can be equipped with additional racks 36 made of a bent closed profile, while the racks 13 (14), 36 are connected in pairs ak that the rack 37 (Figure 11) which has an extension formed as T- and I-shaped edges to the I-shaped rib 38 is attached strut 39 which has an extension formed as two L-shaped ribs. The space between the racks 13 (14) of adjacent frames, formed by L-shaped ribs and adjacent parts of the face 3 of a closed profile, can be filled with bent profiles 40 square, and / or rectangular, and / or C-shaped, and / or monolithic blocks 41. Monolithic blocks 41 can be made of insulating material. The inner surface of the spatial structure can be lined with plastic 42, ensuring its use as a container for liquid.

An example of using a spatial structure as a liquid container

Initial data: capacity height - 3000 mm; the distance between the racks 13 (14) - 1000 mm; maximum hydrostatic pressure - 30 kN / m ² ; rack parameters 13 (14) are given in the table.

If we take into account that hydrostatic pressure acts on the rack 13 (14) - 30 kN / m ² over a width of 1 m, then the maximum distributed load in the lower part of the racks 13 (14) will be - 30 kN / m = 30 N / mm, and the minimum the top of the uprights 13 (14) will be zero. Under these conditions, the maximum voltage will be 187 MPa.

Claims (18)

1. A bent closed profile, including a square or rectangular profile in cross section and having a joint approximately in the center of one face, characterized in that each part of the face on which the joint is made has a continuation made in the form of a L-shaped and / or I- shaped ribs. 2. The bent closed profile according to claim 1, characterized in that the parts made in the form of a L-shaped and / or I-shaped rib are interconnected by contact spot or roller welding. 3. The bent closed profile according to claim 1, characterized in that the parts made in the form of a L-shaped and / or I-shaped rib are interconnected using riveted or bolted joints. 4. The bent closed profile according to claim 1, characterized in that in the longitudinal direction it is made in the form of a rod of a given length, while holes are made on the faces making up a square or rectangular section at one or each end of the rod. 5. A method of manufacturing a bent closed profile, including the sequential preparation of the elements of the moldable strip in the bending passages of the side walls, shaping the trough profiles and the finishing passage, characterized in that before the finishing passage they form a W-shaped profile in the center of the formed closed section, and during the finishing passage a closed profile is formed from the W-shaped profile. 6. The method according to claim 5, characterized in that the bending of the side walls and the shaping of one or two trough profiles is carried out in one pass. 7. The frame of the spatial structure of the frame, containing racks supported on foundation plates, and a connecting element connected to the upper parts of the racks by fasteners, characterized in that the racks and the connecting element are made of a bent closed profile according to claim 1, each fastening element is made in the form of at least one fixed on the faces of each end of the connecting element of the additional rod of a bent closed profile of square or rectangular cross section with holes installed in a square openings or rectangular openings of the upper struts to ensure alignment of the holes of the racks and the holes of additional rods for installing bolted connections in them, the lower ends of the racks are installed in profiles rigidly connected to the base plate, each of which is composed of unequal corners, parts of which are parallel to each other, formed by its long sides adjacent to the side walls of the racks and made with holes coaxial with the aforementioned holes made at the ends of the racks, and directed towards each other They are adjacent to the outer walls of the uprights, and bolted joints are installed in the coaxial holes. 8. The frame according to claim 7, characterized in that the additional rods fixed at the ends of the connecting element are made in the form of boxes having bases rigidly connected to the connecting element, and four sidewalls bent away from the base at an angle close to 90 ° . 9. The frame according to claim 7, characterized in that the connecting element and the duct are interconnected by spot welding. 10. The frame according to claim 7, characterized in that the connecting element and the box are interconnected using rivet or bolted connections. 11. The frame according to claim 7, characterized in that the length of the additional rods fixed at the ends of the connecting element is selected in the range from one to three sizes of their square or rectangular section. 12. The frame according to claim 7, characterized in that the holes are made on additional rods. 13. The frame of claim 12, wherein the holes are threaded. 14. A spatial structure comprising a supporting frame of racks and a communication system attached to them by means of connecting elements, characterized in that the racks and connecting elements are made of a bent closed profile according to claim 1, the racks and part of the connecting elements form frames sequentially fixed on the foundation along the longitudinal axis of the spatial structure, the other part of the connecting elements forms the connections between the frames in the upper part of the racks, the connecting elements forming the connections between the frames, the longitudinal direction are in the form of rods of predetermined length, wherein the faces of square or rectangular section at each end of the rod is provided with holes which are coaxial with the holes formed on the connecting frame elements. 15. The spatial structure according to 14, characterized in that the frames are equipped with double racks made of a bent closed profile, while the racks are connected in pairs so that to the rack, which has a continuation made in the form of a L-shaped and I-shaped ribs , a rack is attached to the I-shaped rib, which has a continuation made in the form of two L-shaped ribs. 16. The spatial structure according to 14, characterized in that the space between the racks of adjacent frames, formed by L-shaped ribs and adjacent parts of the face of a closed profile, is filled with bent profiles of square, and / or rectangular, and / or C-shaped section and / or monolithic blocks. 17. The spatial design according to clause 16, wherein the monolithic blocks are made of heat-insulating material. 18. The spatial structure according to 14, characterized in that its inner surface is lined with plastic, ensuring the use of the spatial structure as a container for liquid.

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