RU2136411C1 - Sheet laminate construction material - Google Patents

Abstract

FIELD: manufacture of products containing metallic parts for example by rolling, powder metallurgy or welding process including explosion welding, possibly in building, machine engineering and other industry branches. SUBSTANCE: sheet laminate construction material includes in cross section at least two layers. On boundaries of front and back faces at least of one layer and at least on one apex at least of one layer of cross section, at least a part of line of boundary of cross section is in the form of fragment of cone section of straight round cone. It provides constructionally involved thickness change at least of one layer of sheet laminate material at shaping operations. EFFECT: enhanced technological effectiveness and lowered material consumption at making products of such sheet laminate construction material. 24 cl, 21 dwg

Description

 The invention relates to the field of production of products containing metal parts, for example, rolled products, powder metallurgy or welding methods, including explosion, and can be used in construction, engineering and other types of structures.

Analogs to the proposed device can be considered:
1. Sheet layered structural material obtained by the implementation of the "Method for producing three-layer sheets and strips", RF patent N2063852, op. 20. 7.96, according to MKI B 23 K 20/04, containing in cross section at least two layers.

 The disadvantages of the analogue are: the absence of structurally incorporated changes in the thickness of at least one of the layers of the sheet layered structural material during forming operations, low manufacturability and high material consumption of products from sheet structural material. The implementation of a sheet of layered structural material without structurally incorporated changes in thickness does not allow to provide the required thinning of at least one of the layers of the product during forming operations.

 The term "forming operations" should be understood as bending, twisting, rolling, straightening, drawing, embossing, flanging, embossing, reduction, landing, etc. [1].

 2. "Bimetallic strip, for example for welded pipes, and a method for its manufacture", RF patent N 2068324, op. 10.27.96, according to MKI B 23 K 20/00, containing in cross section at least two layers.

 The disadvantages of the analogue are: the absence of structurally incorporated changes in the thickness of at least one of the layers of the sheet layered structural material during forming operations, low manufacturability and high material consumption of products from sheet structural material. The implementation of a sheet of layered structural material without structurally incorporated changes in thickness does not allow to provide the required thinning of at least one of the layers of the product during forming operations.

 The closest in technical essence, the prototype of the proposed device is a "Sheet structural material" RF patent N 2010690 op. in 1994, according to MKI B 23 K 20/04, containing in cross section at least two layers.

 The disadvantages of the prototype are: the absence of structurally incorporated changes in the thickness of at least one of the layers of the sheet layered structural material during shaping operations, low manufacturability and high material consumption of products from sheet layered structural material. The implementation of a sheet of layered structural material without structurally incorporated changes in thickness does not allow to provide the required thinning of at least one of the layers of the product during forming operations.

 In the process of forming operations, at least one layer of a sheet layered structural material is thinned in places and parameters of forming operations determined by the design of the final product, and therefore the final product is not optimally implemented from the point of view of rational distribution of the material.

 The objective of the invention is the creation of a sheet layered structural material that provides structurally incorporated changes in the thickness of at least one layer during shaping operations, improved manufacturability, low material consumption of products, high corrosion resistance and sound insulation of structures made of sheet layered structural material.

 The specified technical result of the invention is achieved in that the layered structural material contains in cross section at least two layers, and at the border of the front and back sides of at least one of the layers and at least one of the vertices of at least one of the section layers at least part of the section boundary line is made in the form of a fragment of a conical section of a straight circular cone. At the same time, a structurally incorporated change in the thickness of at least one layer of the sheet layered structural material during shaping operations is provided, increasing the manufacturability of production and reducing the material consumption of products from the sheet layered structural material.

 The term “vertex” should be understood to mean the part of the cross section of at least one layer of material adjacent to the interface between the front and back sides of this layer or to the interface between one of the sides of this layer and the boundary of the section of this layer connecting the front and back sides of this layer.

 The front side of the layer should be considered the side of the layer lying closer to the front side of the sheet layered structural material, and the back side of the layer should be considered the side of the layer lying further from the front side of the sheet layered structural material.

 The term "conical section" should be understood as the line that forms the surface of a straight circular cone and secant plane, not passing through its top [2].

The sheet layered structural material can be made with the formation of an angle of at least one of the vertexes of the cross section of at least one of the layers of the cross section less than 180 ^o , which will improve the manufacturability of further processing of the sheet layered structural material.

 The sheet layered structural material can be made with at least one of the layers of variable thickness, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during shaping operations.

 The sheet layered structural material can be made with a thickness of at least one of the layers increasing in the direction from one edge of the section to the other, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during forming operations.

 The sheet layered structural material can be made with a thickness of at least one of the layers, increasing in the direction from the inner part of the section to at least one of the edges, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during shaping operations.

 The sheet layered structural material can be made with a thickness of at least one of the layers, decreasing in the direction from the inner part of the section to at least one of the edges, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during forming operations.

 The sheet layered structural material can be made with a thickness of at least one of the layers, changing many times, increasing and decreasing, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during shaping operations.

 The sheet layered structural material can be made with a thickness of at least one of the layers, changing repeatedly and periodically, which will allow to provide a structurally incorporated change in the thickness of the sheet layered structural material during shaping operations.

 The sheet layered structural material can be made with a convex portion of the length of the boundary line of at least one of the sides relative to the midline of the cross section of at least one of the layers, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during shaping operations.

 The sheet layered structural material can be made with a concave portion of the length of the boundary line of at least one of the sides relative to the midline of the cross section of at least one of the layers, which will allow for a structurally incorporated change in the thickness of the sheet layered structural material during shaping operations.

 The sheet layered structural material can be made with a stepped portion of the length of the boundary line of at least one of the sides of at least one of the layers, which will improve the manufacturability of the assembly of structures from the sheet layered structural material.

 The sheet layered structural material can be made with steps that can have an increase or decrease in the thickness of at least one of the layers of the material when moving from one step to another, which will improve the manufacturability of the assembly of structures from the sheet layered structural material.

 The sheet layered structural material can be made with bending and / or bending of at least one edge of the material, which will improve the manufacturability of the assembly of structures from sheet layered structural material.

 The sheet layered structural material can be made with repeated bending and / or folding of the material, including a change in concavity, including the opposite, which will improve the manufacturability of the assembly of structures from the sheet layered structural material.

 The sheet layered structural material can be made with at least one recess on a portion of the length of the boundary line of at least one side of at least one of the layers, which will improve the manufacturability of the assembly of structures from sheet layered structural material.

 The sheet layered structural material can be made with at least one protrusion on a portion of the length of the boundary line of at least one side of at least one of the layers, which will improve the manufacturability of the assembly of structures from the sheet layered structural material.

 The sheet laminated structural material can be made with at least one metal layer, as well as any part of any other layer, metallic or non-metallic, which will increase the corrosion resistance of structures made of sheet laminated structural material.

 The sheet layered structural material can be made with at least one cavity at least on a portion of the length of the boundary line between at least two adjacent layers, which will improve the soundproofing properties of structures from the sheet layered structural material.

 The sheet layered structural material can be made with periodic cavities of at least a portion of the length of the boundary line between at least two adjacent layers, which will improve the soundproofing properties of structures made of sheet layered structural material.

 The sheet layered structural material can be made with at least one recess on at least one of the vertices of at least one of the section layers, which will improve the manufacturability of the assembly of structures from the sheet layered structural material.

 The sheet layered structural material can be made with at least one protrusion on at least one of the vertices of at least one of the section layers, which will improve the manufacturability of the assembly of structures from the sheet layered structural material.

 A sheet layered structural material can be made from at least one of the vertices of at least one of the sections of the section and / or part of the length of the border of at least one of the sides of at least one of the layers of the section containing fragments and / or combinations of fragments in the section : polygon, conical section of a straight circular cone, which will improve the accuracy of assembly of structures from sheet layered structural material when connecting the protrusion and the recess.

 The sheet laminated structural material can be made with at least one gap in the thickness of at least one of the layers. Moreover, thickness gaps can be performed repeatedly and periodically, which will improve the manufacturability of the assembly of structures from sheet layered structural material.

 The analysis of the prior art showed that the claimed combination of essential features set forth in the claims is unknown. This allows us to conclude that it meets the criterion of "novelty."

 To verify the conformity of the claimed invention with the criterion of "inventive step", an additional search was carried out for known technical solutions in order to identify features that match the distinctive features of the claimed technical solution from the prototype. It is established that the claimed technical solution does not follow explicitly from the prior art. Therefore, the claimed invention meets the criterion of "inventive step".

 The invention and the possibility of its practical implementation is illustrated by drawings, where in Fig. 1 shows a cross section of a sheet of layered structural material, in Fig. 2-7 illustrate examples of a structural embodiment of a cross section of a sheet laminate structural material, FIG. 8-21 illustrate examples of the structural embodiment of parts of the cross section of a sheet laminated structural material.

 The sheet layered structural material (Fig. 1) contains in cross section at least two layers 1 and 2 with borders of the front 3 and rear 4 sides, and at least part of the line of the sectional boundary of at least one of the layers on the border 3 of the front side, and. on the border 4 of the back side, and at least on one of the vertices 5 of at least one of the layers of the section, they are made in the form of a fragment of a conical section b of a straight circular cone.

In examples of the structural embodiment of the sheet laminated structural material shown in FIG. 1 and 2, formed by the vertices 5, the angle 7 can be made less than 180 ^o .

 In examples of the structural embodiment of the sheet laminated structural material shown in Figs. 1 to 13, one of the layers 1 (2) is made of variable thickness.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 2, the thickness of the layer 2 increases in the direction from one edge 8 of the section to the other edge 9.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 3, the thickness of the layer 2 decreases in the direction from the inner part 10 of the section to the edges 8 and 9.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 4, the thickness of the layer 2 decreases in the direction from the inner part 10 of the section to the edge 9.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 5, the thickness of layer 1 varies many times, increasing and decreasing.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 6, the thickness of layer 1 (2) varies repeatedly and periodically.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 7, a portion of the length of the boundary line of the front side 3 relative to the midline of the cross section of the layer 1 is made convex, and part of the length of the border line of the back side 4 relative to the midline of the cross section of the layer 1 is concave.

 In the example of the structural embodiment of the sheet laminated structural material shown in Fig. 8, part of the length of the boundary line of the front side 3 of layer 2 (the same back side 4 of layer 1) is made with steps 11. Steps 11 can be made (Fig. 9) as with an increase in the thickness of at least one of the layers (1) of the sheet laminated structural material during the transition from one step to another, and with a decrease.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 10, the latter is made with a bend and / or bend 12.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 11, the bending and / or bending 12 of the material is made multiple, including with a change in concavity to the opposite.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 12, part of the length of the boundary line of the front side 3 of the layer 1 is made with a recess 13.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 13, part of the length of the boundary line of the front side 3 of the layer 1 is made with a protrusion 14.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 14, the material layer 2 is made of metal, and the layer 1 is made with a non-metal part 15 and with a metal part 16.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 15, a cavity 17 is made between the layers 1 and 2 of the material.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 16, between the layers 1 and 2 of the material are periodic cavities 17.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 17, the top 5 of the material layer 1 is made with a recess 18.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 18, the top 5 of the material layer 1 is made with a protrusion 19.

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 19, the edge of the layer 1 of the sheet layered structural material contains a fragment of a circle 25. In the sheet layered structural material, at least one of the vertices 5 of the section and / or part of the length of the border of the side of the section 3 (4) may contain fragments and / or combinations of fragments in the section: polygon (square 20, rectangle 21, trapezoid 22, rhombus 23, triangle 24, etc., etc.), a conical section of a straight circular cone (circle 25, ellipse 26, etc. etc.) .

 In an example of structural embodiment of the sheet laminated structural material shown in FIG. 20, the thickness of the material layer 1 has a gap 27.

 In the example of the structural embodiment of the sheet layered structural material shown in Fig. 21, the breaks 27 of the layer 1 are made repeatedly and periodically.

 Thus, the use of this sheet laminated structural material will achieve the objectives of the invention.

Literature
1. V.A. Masters, V.S. Berkovsky. Theory of plastic deformation and metal forming. M. Metallurgy, 1989, 399 p.

 2. Mathematical Encyclopedic Dictionary. M. "Soviet Encyclopedia", 1988, 847 p.

Claims (24)

 1. Sheet layered structural material containing in cross section at least two layers, characterized in that at the border of the front and back sides of at least one of the layers and at least one of the vertices of at least one of the layers of the section at least at least part of the boundary line of the section is made in the form of a fragment of a conical section of a straight circular cone. 2. Sheet layered structural material according to claim 1, characterized in that the angle of at least one of the vertices of at least one of the layers of the section is less than 180 ^o .  3. Sheet layered structural material according to any one of claim 1 or 2, characterized in that at least one of the layers is made of variable thickness.  4. Sheet layered structural material according to claim 3, characterized in that the thickness of at least one of the layers increases in the direction from one edge of the section to the other.  5. Sheet layered structural material according to claim 3, characterized in that the thickness of at least one of the layers increases in the direction from the inner part of the section to at least one of the edges.  6. Sheet layered structural material according to claim 3, characterized in that the thickness of at least one of the layers decreases in the direction from the inner part of the section to at least one of the edges.  7. Sheet structural material according to any one of claims 3 to 6, characterized in that the thickness of at least one of the layers varies many times, increasing and decreasing.  8. Sheet structural material according to any one of claims 3 to 6, characterized in that the thickness of at least one of the layers varies repeatedly and periodically.  9. A sheet layered structural material according to any one of claims 1 to 8, characterized in that a part of the length of the boundary line of at least one of the sides of at least one of the layers relative to the middle line of the section of the layer is convex.  10. A sheet layered structural material according to any one of claims 1 to 8, characterized in that a portion of the length of the boundary line of at least one of the sides of at least one of the layers relative to the middle line of the section of the layer is made concave.  11. Sheet layered structural material according to any one of claims 1 to 10, characterized in that a part of the length of the boundary line of at least one of the sides of at least one of the layers is made stepwise.  12. The sheet layered structural material according to claim 11, characterized in that the steps can be performed both with an increase in the thickness of the layer material during the transition from one step to another, and with a decrease.  13. Sheet layered structural material according to any one of claims 1 to 12, characterized in that at least one edge of the material is made with a bend and / or bend.  14. The sheet layered structural material according to item 13, wherein the bending and / or bending of the material can be performed including multiple with a change in concavity, including the opposite.  15. Sheet layered structural material according to any one of claims 1 to 14, characterized in that a part of the length of the boundary line of at least one of the sides of at least one of the layers is made with at least one recess.  16. Sheet layered structural material according to any one of claims 1 to 15, characterized in that a part of the length of the border line of at least one of the sides of at least one of the layers is made with at least one protrusion.  17. Sheet layered structural material according to any one of claims 1 to 16, characterized in that at least one of the layers is made of metal, and any part of any other layer is made of metal or non-metal.  18. A sheet layered structural material according to any one of claims 1 to 17, characterized in that a part of the length of the boundary line between at least two adjacent layers is made with at least one cavity.  19. The sheet layered structural material according to p, characterized in that the cavity is made periodic.  20. A sheet layered structural material according to any one of claims 1 to 19, characterized in that at least one of the vertices of at least one of the sectional layers is made with at least one recess.  21. A sheet layered structural material according to any one of claims 1 to 20, characterized in that at least one of the vertices of at least one of the sectional layers is made with at least one protrusion.  22. Sheet layered structural material according to any one of paragraphs.9 to 21, characterized in that at least one of the vertices of at least one of the layers of the section and / or part of the length of the border of at least one of the sides of at least one of the layers sections are made from the group containing fragments and / or combinations of fragments in the section: polygon, conical section of a straight circular cone.  23. Sheet layered structural material according to any one of claims 1 to 22, characterized in that the thickness of at least one of the layers has at least one gap.  24. Sheet layered structural material according to item 23, wherein the thickness gaps are made repeatedly and periodically.

Images