RU2143606C1 - Laminate nail - Google Patents

Abstract

FIELD: manufacture of fastening articles, possibly for assembling building structures, mainly wooden ones. SUBSTANCE: laminate nail includes at least two subareas of materials. At least a part of line of cross section boundary and(or) at least a part of line of boundary of material subareas is in the form of fragment of oblique cone section of straight circular cone. EFFECT: nail with constructionally caused directivity of strength properties, enhanced efficiency of fixation due to increased lateral surface of nail stem, high corrosion resistance, easy identification of nail manufacturer. 16 cl, 16 dwg

Description

 The invention relates to the manufacture of fasteners, for example, by rolling, stamping, drawing, machining, extrusion or welding methods, including explosion, and can be used in the assembly of building, mainly wooden structures.

Analogs to the proposed device can be considered the following:
1. A nail (application for the invention of the Russian Federation N 94018609, op. 10.01.96, class F 16 B 15/02), containing in the cross section of the rod the boundary line of the section in the form of circles (a rod with turns of a surface profile).

The disadvantages of the analogue are:
A) the absence of structurally laid directionality of strength properties during bending, which significantly complicates the construction of the nail. When designing structures containing joints using nails, their future loading pattern is generally known, including the plane or planes of greatest bending moments. The creation of an equal-strength nail structure in all directions in this situation is irrational, makes the nail heavier and the structure as a whole fastened by it;
B) low reliability of the definition of the manufacturer of the nail due to the lack of a manufacturer’s identifier on its body. Currently used product markings are short-lived, and branding leads to weakening of the nail structure, the appearance of zones with stress concentrators and microcracks on it. In the event of a structural failure or accident due to the fault of a nail (defective nail) that does not have a manufacturer identifier on the case, the process of finding a manufacturer and eliminating the cause of the malfunction is extremely difficult;
C) low corrosion resistance of a nail operating in aggressive environments, which leads to accelerated wear of the nail and a decrease in its strength and, as a result, failure of the entire joint.

 2. A nail (application for invention of the Russian Federation N 93013111, op. 10.02.95, class F 16 B 15/00) containing in the cross section of the rod a line of the section boundary in the form of a circle formed by a coating of low-melting metal (the nail shaft itself formed from turns of wire forming a surface profile).

The disadvantages of the analogue are:
A) the absence of structurally laid directionality of strength properties during bending, which significantly complicates the construction of the nail. When designing structures containing joints using nails, their future loading pattern is generally known, including the plane or planes of greatest bending moments. The creation of an equally strong nail structure in all directions in this situation is irrational; it makes the nail and the structure as a whole fastened by it heavier.

B) low reliability of the definition of the manufacturer of the nail due to the lack of a manufacturer’s identifier on its body. Currently used product markings are short-lived, and branding leads to weakening of the nail structure, the appearance of zones with stress concentrators and microcracks on it. In the event of a structural failure or accident due to the fault of a nail (defective nail) that does not have a manufacturer identifier on the case, the process of finding a manufacturer and eliminating the cause of the malfunction is extremely difficult;
C) low corrosion resistance of a nail operating in aggressive environments, which leads to accelerated wear of the nail and a decrease in its strength and, as a result, failure of the entire joint.

 3. A nail (RF patent N 2082906, op. June 27, 1997, class F 16 B 15/04) containing a cross-section line in the cross section of the smooth part of the rod as a circle.

The disadvantages of the analogue are:
A) the absence of structurally laid directionality of strength properties during bending, which significantly complicates the construction of the nail. When designing structures containing joints using nails, their future loading pattern is generally known, including the plane or planes of greatest bending moments. The creation of an equal-strength nail structure in all directions in this situation is irrational, makes the nail heavier and the structure as a whole fastened by it;
B) low efficiency of fixing the nail in the fastened parts. The smooth part of the nail shaft round in cross section does not contribute to effective adhesion to the parts.

To increase the efficiency of fixation, it is advisable to make a nail with a cross section of a smooth part of the rod that is different from a circle, for example, in the form of an ellipse, which increases the perimeter of the cross section, and therefore the contact surface of the nail with the part;
C) the low reliability of the determination of the manufacturer of the nail due to the lack of a manufacturer’s identifier on its body. Currently used product markings are short-lived, and branding leads to weakening of the nail structure, the appearance of zones with stress concentrators and microcracks on it. In the event of a structural failure or accident due to the fault of a nail (defective nail) that does not have a manufacturer identifier on the case, the process of finding a manufacturer and eliminating the cause of the malfunction is extremely difficult;
D) low corrosion resistance of a nail working in aggressive environments, which leads to accelerated wear of the nail and a decrease in its strength and, as a result, failure of the entire joint.

 The closest in technical essence the prototype to the proposed device is a nail containing at least one of the cross sections of the rod line boundary section (application for the invention of the Russian Federation N 95111735, op. 20.06.97, CL F 16 B 15/00) .

The disadvantages of the prototype are:
A) the absence of structurally laid directionality of strength properties during bending, which significantly complicates the construction of the nail. When designing structures containing joints using nails, their future loading pattern is generally known, including the plane or planes of greatest bending moments. The creation of an equally strong nail structure in all directions in this situation is irrational; it makes the nail and the structure as a whole fastened by it heavier.

To increase the strength properties: the rigidity of the nail with a known scheme of its loading in the structure and, in particular, with the known plane of action of the maximum bending moment, it is advisable to constructively direct the direction of the strength properties (rigidity) of the cross section of the smooth part of the rod. Those. it is advisable to produce a nail with a cross-section line not in the form of a circle or alternating circle elements, but, for example, in the form of an ellipse, the moment of inertia of which is maximum in the direction of the larger axis. When assembling the structure, the nail with its larger axis of the ellipse is oriented in the plane of action of the maximum bending moment;
B) low reliability of the definition of the manufacturer of the nail due to the lack of a manufacturer’s identifier on its body. Currently used product markings are short-lived, and branding leads to weakening of the nail structure, the appearance of zones with stress concentrators and microcracks on it. When a structure or accident fails, through the fault of a nail (defective nail) that does not have a manufacturer identifier on the case, the process of finding a manufacturer and eliminating the cause of the malfunction is extremely difficult.

To increase the reliability of determining the manufacturer of the nail, part of the line of the border of the cross section can be made in the form of a fragment or combination of fragments of an oblique conical section of a straight circular cone, i.e., a section of the line that forms the surface of a straight circular cone and a secant plane that does not pass through its top . Moreover, for the identification of a particular manufacturer, it does not matter the particular particular case of the execution of this line, i.e. whether it is an ellipse, a hyperbola or a parabola. So, for example, to identify one of the manufacturers, the first quarter of the section line can be selected, and the second quarter to identify another manufacturer. In addition, depending on the specific manufacturer (its features), the first quarter will be made from a section of an ellipse, hyperbola or parabola. Any section of curves, united by the concept of "conical section", is uniquely identified using well-known mathematical methods [1-5];
C) low corrosion resistance of a nail operating in aggressive environments, which leads to accelerated wear of the nail and a decrease in its strength and, as a result, failure of the entire joint.

 The objective of the invention is the creation of a layered nail, providing a structurally laid focus of strength properties (stiffness) during operation, for example, bending, increased fixation efficiency in the part by increasing the side surface of the nail shaft, high corrosion resistance, as well as increased reliability of determining the manufacturer of the nail by constructive laying identification properties in its manufacture.

 The specified technical result of the invention is achieved in that the layered nail contains at least two subregions of materials, while at least part of the boundary line of the section and / or at least part of the boundary line of the subregions of materials is made in the form of a fragment of an oblique conical section of a straight circular cone.

This provides:
A) structurally incorporated orientation of the strength properties (rigidity) of the nail, for example when working on bending. Structurally laid directionality of strength properties is formed during shaping operations in the process of nail manufacturing.

 When designing structures containing nails, their future loading pattern is generally known, including the plane or planes of greatest bending moments. The creation of an equal-strength (equal-rigid) nail structure in all directions in this situation is irrational; it makes the nail and the structure as a whole fastened by it heavier.

To increase the strength properties (stiffness) of a nail with a known scheme of its loading in the structure and, in particular, with a known plane of action of the maximum bending moment, a constructive laying of the directivity of the strength properties (stiffness) of the cross section of the nail shaft is formed, i.e. a nail is made with a cross section of the smooth part not in the form of a circle, but, for example, in the form of an ellipse, the moment of inertia of which is maximum in the direction of the larger axis. When assembling the structure, the nail with its larger axis of the ellipse is oriented in the plane of action of the maximum bending moment;
B) increased efficiency of fixation in the part. A nail shaft that is not round in cross section, for example, elliptical, contributes to more effective adhesion to the part due to the increased lateral surface.

To increase the efficiency of fixation, it is advisable to make a nail with a border line of the cross section of the rod, different from the circle, for example, in the form of elements of an ellipse, hyperbola or parabola, i.e. in the form of fragments or combinations of fragments of an oblique conical section of a straight circular cone;
C) the high reliability of the determination of the manufacturer of the nail due to the presence on its body (shaft) of the manufacturer's identifier. To do this, part of the boundary line of the cross section is made in the form of a fragment or combination of fragments of an oblique conical section of a straight circular cone, i.e., a section of the line formed by the surface of a straight circular cone and a secant plane that does not pass through its top. Moreover, for the identification of a particular manufacturer, it does not matter the particular particular case of the execution of this line, i.e. whether it is an ellipse, a hyperbola or a parabola, or a combination of fragments thereof. So, for example, to identify one of the manufacturers, the first quarter of the section line can be selected, and the second quarter to identify another manufacturer. In addition, depending on the specific manufacturer (its features), the first quarter will be made from a section of an ellipse, hyperbola or parabola. Any part of the curves, united by the concept of "conical section", is uniquely identified using well-known mathematical methods [1-5].

 The proposed identifiers favorably differ from the markings and branding currently used due to the simplicity of their measurement by known metrological methods and their unambiguous recognition by known mathematical methods. Markings on products are short-lived, and branding leads to weakening of the nail structure, the appearance of zones with stress concentrators and microcracks on it. In the event of a structural failure or accident due to the fault of the nail (defective nail), the identifier on its case will uniquely identify the manufacturer, which helps to quickly eliminate the cause of the malfunction.

 It should be noted that at present, product identification with labels with bar, sign, digital, letter codes, as well as identifier sensors made in the form of oscillatory LC circuits is widespread. The combination of letters, numbers, as well as the tuning frequency of the LC circuit in the code is an identifier and uniquely identifies an object.

The mentioned identifiers and methods for applying them to objects are described in detail in the descriptions of Russian patents 2045780, G 06 K 11/00, 10/10/95; 2074696, A 61 H 39/00, 03/10/97; 2102246, B 42 D 15/00, 01/20/98; 2106689, G 06 K 17/00, 03/10/98; 2112958 G 01 N 21/64, 10.06.98,
as well as in the descriptions of the utility model certificates: 0005883, G 09 F 3/02, 01/16/98, 0006461, G 09 F 3/02, 04/16/98.

However, the use of the above inventions to identify the produced nail due to the specifics of the application of the latter is impractical and inefficient;
D) increased corrosion resistance of the nail, working in aggressive environments, is achieved by making the nail layered, containing in the cross section of the smooth part of the rod at least two subregions of materials. The implementation of the outer layer of the layered nail of the corrosion-resistant material will significantly increase the corrosion resistance of the layered nail as a whole.

 Thus, the goal of the invention is achieved.

 In the process of developing materials for the invention and, in particular, the technical result and the independent claim, the applicant assessed the novelty of the invention according to the general principles and assessed the inventive step according to the general principles, as well as the "negative" and "positive" rules using the Rules for compiling, filing and consideration of applications for the grant of a patent for an invention (dated September 20, 1993) and Recommendations on the examination of applications for inventions and utility models (2nd edition, 1997).

 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.

 No solutions have been identified that have features that coincide with the distinguishing features of the invention, and the popularity of the influence of the distinctive features on the specified set of technical results is not confirmed. Therefore, the claimed invention meets the criterion of "inventive step".

 The layered nail can be made in cross section with a variable linear size of at least one of the subregions of the material, which will provide structurally laid directionality of the strength properties. A change in the linear size in the cross section of at least one of the subdomains of the material of the nail can be achieved during shaping operations.

 The layered nail can be made in cross section with the thickness of at least one of the subregions of the material, decreasing to the center of mass of the cross section of this subregion, which will ensure rational rigidity of the nail.

 The layered nail can be made in cross section with the thickness of at least one of the subregions of the material, increasing to the center of mass of the cross section of this subregion, which will ensure rational rigidity of the nail.

 The layered nail can be made in cross section with a linear size in the cross section of at least one of the subregions of the material, varying many times increasing and decreasing, which will ensure structurally laid directionality of the strength properties (in different directions).

 The layered nail can be made in cross section with a linear size in the cross section of at least one of the subregions of the material, changing repeatedly and periodically, which will ensure a structurally incorporated change in its strength properties.

 Laminated nails can be made in cross section of at least one of the subdomains of the material with a stepped portion of the length of the boundary line of the section, which will improve the manufacturability of the assembly of structures containing the nail.

 The layered nail can be made with steps along the length of the border line of at least one of the subregions of the material, which can have an increase or decrease in the linear size in the section of the nail when moving from one step to another, which will improve the manufacturability of the assembly of structures with nails.

 The layered nail can be made with at least one recess on a portion of the length of the line of the sectional boundary of at least one of the material subregions, which will improve the manufacturability of the assembly of structures with nails.

 A layered nail can be made with at least one protrusion on a part of the length of the line of the sectional boundary of at least one of the material subregions, which will improve the manufacturability of the assembly of structures with nails.

 A layered nail can be made with at least part of the length of the sectional boundary line of at least one of the material subregions containing fragments and / or combinations of polygon fragments in the section, which will improve the accuracy of assembly of structures with nails when connecting a protrusion, for example, a nail and a recess of a part .

 The layered nail can be made with at least part of the length of the sectional boundary line of at least one of the material subregions containing fragments or combinations of oblique conical section fragments passing into each other in the section, which will improve the accuracy of nail identification.

 The layered nail may be made with at least one linear-size gap in the cross section of at least one of the material subregions. Moreover, linear size gaps in the section can be performed repeatedly and periodically, which will improve the manufacturability of the assembly, structures with nails.

 The terms used in the application for the invention.

 The term "oblique conical section" should be understood as the line formed by the surface of the straight circular cone and the secant plane that does not pass through its top, provided that the angle between the secant plane and the axis of the direct circular cone is different from the right angle [6].

 The term "oblique conical section" is used in this context throughout the description, including the claims.

 The term "identification" should be understood as establishing the correspondence of both a batch of objects and a piece object (product) to its individual identification mark. Identification can be carried out by applying the identifier (label) to the product or by entering the identifier into the product (on its surface), for example, an information signal about the nail manufacturer in the form of the shape of the side surface of the smooth part of the nail shaft.

 The term "identification" is used in this context throughout the description, including the claims.

 The term "nail" means a fastener, usually a shaft with a cap. The core is divided into two zones: the pointed and smooth parts of the core.

 The term "nail" is used in this context throughout the description, including the claims.

 The term "rod" means a structural element, the transverse dimensions of which, as a rule, are small in comparison with the length.

 The term "rod" is used in this context throughout the description, including the claims.

 The term "strength properties" should be understood to mean the ability of a material and its structure to resist fracture, as well as shape change, including irreversible shape change (plastic deformation) under the action of external loads, in the narrow sense - only fracture resistance. The strength properties of solids are ultimately determined by the forces of interaction between the atoms and ions that make up the body. The concept of "strength properties" is broader than strength, and combines strength itself, rigidity and stability. Strength properties depend not only on the material itself, the shape of its cross-section or longitudinal section, but also on the type of stress state (tension, compression, bending, etc.), on operating conditions (temperature, loading speed, duration and number of loading cycles, exposure to the environment environment, etc.). Depending on all these factors, various strength measures have been taken in the technique: tensile strength, yield strength, fatigue strength, etc. An increase in the strength properties of materials is achieved by heat and mechanical treatment, the introduction of alloying additives in alloys, radiation, the use of reinforced and composite materials, and the formation of cross (longitudinal) section with the maximum possible moment of inertia in the plane of action of the bending moment.

 The term "strength properties" is used in this context throughout the description, including the claims.

 The term "stiffness" in the narrow sense refers to the characteristic of a structural element that determines its ability to resist deformation (tensile, bending, torsion, etc.); depends on the geometric characteristics of the cross section and the physical properties of the material (elastic moduli).

 The term "rigidity" is used in this context throughout the description, including the claims.

 The term "deformation" (from Latin deformatio - distortion) refers to a change in the relative position of points of a solid, at which the distance between them changes as a result of external influences. A deformation is called elastic if it disappears after removal of the impact, and plastic if it does not completely disappear. The simplest types of deformation are tension, compression, bending, torsion.

 The term "deformation" is used in this context throughout the description, including the claims.

 The term "plane" refers to the simplest surface. The concept of a plane (like a point and a straight line) is one of the basic concepts of geometry. A plane has the property that any line connecting its two points entirely belongs to it. The intersection of the planes forms a line.

 The term "plane" is used in this context throughout the description, including the claims.

 The term "bending" refers to a type of deformation characterized by a curvature (change in curvature) of the axis or the middle surface of an element (beam, rod, plate, etc.) under the influence of an external load. There are bends: clean, transverse, longitudinal, longitudinally-transverse.

 The term "bend" is used in this context throughout the description, including the claims.

 The term "line" refers to (from Lat. Linea) the common part of two adjacent surface areas. A moving point describes a line during its movement. In analytical geometry on the plane, lines are expressed by equations between the coordinates of their points. In a rectangular coordinate system, the lines are divided depending on the type of equations. If the line equation has the form F (x, y), where F (x, y) is an nth degree polynomial with respect to x, y, then the line is called an nth order algebraic curve. The 1st order line is a straight line. Conical sections refer to lines of the 1st and 2nd order. Examples of non-algebraic lines are graphs of trigonometric functions, logarithmic functions, exponential functions.

 The term "line" is used in this context throughout the description, including the claims.

 The term "combination" is understood (from late Lat. Combinatio - connection) combination, relative position of something (for example, a combination of fragments of lines).

 The term "combination" is used in this context throughout the description, including the claims.

 The term "forming operations" should be understood as bending, twisting, rolling, straightening, drawing, hood molding, rolling, etc. [7].

 The term "forming operations" is used in this context throughout the description, including the claims.

 The invention and the possibility of its practical implementation is illustrated by drawings, where in FIG. 1 shows a cross section of a layered nail; in FIG. 2-6 depict examples of the structural embodiment of the cross section of a layered nail; in FIG. 7-16 illustrate examples of constructive implementation of parts of a cross section of a layered nail.

 Layered nail (Fig. 1) contains in cross section at least two subregions 1 and 2 of the material with the borders of the outer 3 and inner 4 sides, and at least part of the line of the sectional boundary of at least one of the subregions of the nail material on the border 3 of the outer side and / or on the border 4 of the inner side of at least one of the subregions of the section of the material of the nail is made in the form of a fragment of an oblique conical section 5 of a straight circular cone.

 In examples of constructive implementation of the layered nail depicted in FIG. 1-14, one of the subregions 1 (2) of the nail material is made of variable thickness.

 In an example of structural embodiment of the layered nail depicted in FIG. 2, the thickness of the subregion 2 of the nail material increases toward the center of mass of the 6th section.

 In an example of structural embodiment of the layered nail depicted in FIG. 3, the thickness of the subregion 1 of the nail material decreases to the center of mass of the 6th section.

 In examples of constructive implementation of the layered nail depicted in FIG. 4-6, the thickness of subregions 1 and 2 of the nail material varies many times, increasing and decreasing.

 In an example of structural embodiment of the layered nail depicted in FIG. 3, the thickness of the subregions 1 and 2 of the nail material changes repeatedly and periodically.

 In an example of structural embodiment of the layered nail depicted in FIG. 7, part of the length of the boundary line of the outer side 3 is made with steps 7. Steps 7 can be made (Fig. 8) both with an increase in the thickness of the subregion of the layered nail when moving from one step to another, and with a decrease.

 In an example of structural embodiment of the layered nail depicted in FIG. 9, a portion of the length of the boundary line of the outer side 3 of the subregion 1 of the nail material is made with a recess 8.

 In an example of structural embodiment of the layered nail depicted in FIG. 10, part of the length of the boundary line of the front side 3 of the subregion 1 of the nail material is made with a protrusion 9.

 In an example of structural embodiment of the layered nail depicted in FIG. 11, the sub-area 2 of the nail material is made of metal, and the sub-area 1 is made with a non-metallic part 10 and with a metal part 11.

 In an example of structural embodiment of the layered nail depicted in FIG. 12, a cavity 12 is provided between the subregions 1 and 2 of the nail material.

 In an example of structural embodiment of the layered nail depicted in FIG. 13, between the subregions 1 and 2 of the nail material, periodic cavities 12 are made.

 In an example of structural embodiment of the layered nail depicted in FIG. 14, a part of the outer 3 and inner 4 borders of the subregions 1 and 2 of the cross section of the layered nail contains a circumference 13. In the layered nail, at least part of the length of the border of the side of the cross section 3 (4) of at least one of the subregions of the material may contain fragments and / or a combination of fragments: a polygon (square 14, rectangle 15, trapezoid 16, rhombus 17, triangle 18, etc., etc.), a conical section of a straight circular cone (circle 13, ellipse 19, etc., etc. .P.).

 In an example of structural embodiment of the layered nail depicted in FIG. 15, the thickness of the subregion 1 of the nail material has a gap of 20.

 In an example of structural embodiment of the layered nail depicted in FIG. 16, gaps 20 of subregion 1 are made repeatedly and periodically.

 Thus, the use of this layered nail will achieve the objectives of the invention.

Literature:
1. Bronstein I.N., Semendyaev K.A. Math reference. - M .: Nauka, 1980, 975 p.

 2. Yusupov R.M. Statistical methods for processing the results of observations. - M .: Moscow, 1984, 557 p.

 3. Vygodsky M.Ya. Analytical Geometry - Moscow: Fizmatgiz, 1963, 468 p.

 4. Ermakov S.M. The mathematical theory of an optimal experiment. - M .: Nauka, 1987, 317 p.

 5. Demidenko E.Z. Linear and nonlinear regression. - M.: Finance and Statistics, 1981, 291 p.

 6. Mathematical Encyclopedic Dictionary. - M.: Soviet Encyclopedia, 1988, 847 p.

 7. Masters V.A., Berkovsky V.S. Theory of plastic deformation and metal forming. - M.: Metallurgy, 1989, 399 p.

Claims (16)

 1. The nail is layered, containing in the cross section of the smooth part of the rod at least two subregions of materials, characterized in that at least part of the boundary line of the section and / or at least part of the boundary line of the subregions of materials is made in the form of a fragment of an oblique conical section of direct circular cone.  2. The nail is layered according to claim 1, characterized in that at least one of the subregions of the material of the latter is made of variable thickness.  3. The nail is layered according to claim 2, characterized in that the thickness of at least one of the subregions of the material of the latter increases toward the center of mass.  4. The layered nail according to claim 3, characterized in that the thickness of at least one of the subregions of the material of the latter decreases to the center of mass.  5. The nail is layered according to any one of claims 1 to 4, characterized in that the thickness of at least one of the subregions of the material of the latter varies, increasing and decreasing many times.  6. The nail is layered according to any one of claims 1 to 5, characterized in that the thickness of at least one of the subregions of the material of the latter varies repeatedly and periodically.  7. The nail is layered according to any one of claims 1 to 6, characterized in that a part of the length of the boundary line of at least one of the subregions of the material of the latter is made stepwise.  8. The nail is layered according to claim 7, characterized in that the steps can be performed both with an increase in the thickness of the layer of the subregion of the material when moving from one step to another, and with a decrease.  9. The nail is layered 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 subregions of the material of the latter is made with at least one recess.  10. The nail is layered according to any one of claims 1 to 9, characterized in that a part of the length of the boundary line of at least one of the subregions of the material of the latter is made with at least one protrusion.  11. The nail is layered according to any one of claims 1 to 10, characterized in that at least one of the subregions of the material of the latter is made of metal, and any part of any other subregion of the material is made of metal or nonmetallic.  12. The nail is layered according to any one of claims 1 to 11, characterized in that a part of the length of the boundary line between at least two adjacent sub-regions of the material of the latter is made with at least one cavity.  13. The nail is layered according to claim 12, characterized in that the cavities are made periodic.  14. The nail is layered according to any one of claims 7 to 13, characterized in that at least part of the length of the section boundary of at least one of the subregions of the material of the latter is made from a group containing fragments and / or combinations of fragments in the section: polygon, conical section straight circular cone.  15. The nail is layered according to any one of claims 1 to 14, characterized in that the thickness of at least one of the subregions of the material of the latter has at least one gap.  16. The nail is layered according to claim 15, characterized in that the thickness gaps are made repeatedly and periodically.

Images