RU2730724C1 - Method of making structural elements of jewellery and structural element of jewellery product made by method thereof - Google Patents

Abstract

FIELD: jewellery.

SUBSTANCE: invention discloses a method for making a structural element of jewellery articles from wire by braiding and a structural element of a jewellery product which can be used, in particular, for production of bracelets, rings and other jewels from precious metals. Structural element is made in the form of hollow sleeve by radial braiding around mandrel surface with biaxial wire laying scheme. Rectangular cross-section of the wire is the most preferable for making the described structural elements of the jewellery.

EFFECT: invention discloses a method for making structural elements of jewellery and a structural element of a jewellery product made using said method.

4 cl, 8 dwg

Description

The invention relates to technologies for the manufacture of jewelry, namely, to the technology of manufacturing jewelry from wire by weaving and can be used, in particular, for the manufacture of bracelets, rings and other jewelry made of precious metals.

Wire is a versatile material that can be wound into spirals, wrapped with another wire, twisted into bundles or used to create a filigree pattern. There are many different methods for making wire jewelry.

Known jewelry with a braided wire decor and technology for their manufacture, consisting in the formation of the base and the implementation of already on it weaving from the wire. So, for example, a ring with a lattice top is made (Novikov V.P., Pavlov BC "Jewelry Making", St. Petersburg, 1993, p. 247) or a jewelry item with a mesh ornament made of chaotically laid wires (application WO 92/02157, class A44C 25/00).

There is a known method of making jewelry, including the technique of weaving from pieces of wires (see, for example, a "braid" element is made - a kind of braid woven from three or more wires; often used as a side rim of flat filigree jewelry) (V.P. Novikov, Pavlov V.S. "Jewelry making", St. Petersburg., 1993, pp. 140-141).

There is a known method of making jewelry (RU 2234844 C1; IPC: А44С 27/00; 02/05/2003), including the technique of weaving from wire segments, characterized in that the wire segments contain at least three working ends, and weaving is carried out with the formation of knots, and successively interwoven rows of knots form either a simple or corner piece of jewelry, which are then connected together. When weaving, all the working ends of the wire segments are used, and the remaining parts of the working ends of the wire, at the end of the manufacture of the product, are woven into the end nodes of the finished product.

It should be noted that such methods of making jewelry are very labor-intensive due to the use, as a rule, of manual labor of highly qualified specialists-jewelers.

At the same time, modern weaving technologies are widely used in the most advanced industries, for example, in aircraft construction in the manufacture of aircraft engine parts from composite materials. (Korotygin A.A. Development of textile technologies for creating reinforcing structures for aircraft engine parts from composite materials. ”- NPO Saturn. - Rybinsk. - 2015, -

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One of the simplest and most promising methods of manufacturing parts from composite materials is the method of radial weaving. As noted in studies devoted to this technology (Samipur S.A. Design and manufacturing technology of mesh structures of aircraft with a braided reinforcement system. Thesis for the degree of candidate of technical sciences. - FSBEI HE Kazan National Research Technical University named after A.N. Tupolev - KAI "(KNITU - KAI), - Kazan. - 2018), radial weaving is the most suitable method for making preforms of tubular composite structures. In many cases, especially in the manufacture of parts of complex shapes, the method of producing products by radial weaving is the most economical. The braiding process can also be easily automated. The product preform is usually obtained by braiding the mandrel. One of the advantages of radial braiding is the ability to braid the mandrel using different layering patterns of reinforcing threads. Radial weaving technology makes it possible to obtain products with a biaxial (biaxial) yarn arrangement and with a triaxial (triaxial) yarn arrangement, as shown in Fig. 1. In triaxial weaving, a third yarn is added in the longitudinal direction, along the weaving axis. FIG. 2 illustrates the principle of radial braiding on a radial braiding machine. In such a machine, there are two groups of thread carriers (spindles). The spindles move along a circular wave-like trajectory, with one group moving clockwise and the other counterclockwise. This movement is carried out due to gears. Weaving is carried out in the form of a movable sleeve on a moving mandrel. The mandrel can be cylindrical, rectangular or more complex.

From the current state of the art in the field of jewelry production, there is no information about the use of radial weaving technology.

The object of the present invention is to provide a simple and economical method for manufacturing structural elements of wire jewelry with high consumer qualities. The technical result achieved by the present invention is the manufacturability of manufacturing structural elements of jewelry.

The technical result is achieved by the fact that the structural element is made in the form of a hollow sleeve by the method of radial weaving around the surface of the mandrel with a biaxial wire laying scheme.

It should be noted that a rectangular wire section is the most preferable for the manufacture of the described structural elements of jewelry. At the same time, it is obvious to a person skilled in the art that the cross-section of the wire can be made in different shapes. So, for example, in the state standard GOST 2333-80 “Steel wire. Types (with Amendment No. 1) "(Date of introduction 1982-01-01) the following wire cross-sectional shapes are indicated: round; shaped profile; square; rectangular; trapezoidal; triangular; hex; oval; segment; z-shaped; x-shaped: wedge-shaped; periodic profile; special profile.

Brief description of the drawings.

Fig. 1 explains a biaxial (biaxial) yarn stacking scheme and a triaxial (triaxial) yarn stacking scheme for radial weaving.

FIG. 2 explains the method of radial weaving.

FIG. 3 shows the braiding process before starting the braiding cycle, where the radial braiding machine 1 contains a ring 2 with the axis of rotation AX, perpendicular to the plane of the ring. On this ring there is a row of reels of wires 3, which converge at a point or area located on the axis AX and located in front of the plane of the ring. The mandrel 4 is located coaxially with the ring and can move along the axis AX.

FIG. 4 shows the braiding process after starting the braiding cycle, where the mandrel 4 moves along the axis AX in such a way that it passes through the ring 2 beyond the point of convergence of the wires.

FIG. 5 shows the braiding process at the end of the braiding cycle, the mandrel 4 is located behind the point of convergence of the wires, where 5 is the cut line of the wire layer behind the mandrel.

FIG. 6 shows a variant of the structural element 6 of the jewelry, made in the form of a hollow cylindrical sleeve, where the wires 3 are intertwined according to the biaxial arrangement.

FIG. 7 shows a variant of a structural element 7 of a piece of jewelry made in the form of a hollow cylindrical sleeve with an elliptical base, where the wires 3 are intertwined according to a biaxial arrangement.

FIG. 8 shows examples of jewelry made using structural elements made by the claimed method, where: 6 - structural elements of jewelry made in the form of a hollow cylindrical sleeve; 7 - structural elements of jewelry made in the form of a hollow cylindrical sleeve with an elliptical base.

As shown in FIG. 3, the radial braiding machine 1 contains a ring 2 with the axis of rotation AX. On the ring 2 there is a row of reels of wires 3, which converge at a point or region located on the axis AX and located in front of the plane of the ring. Mandrel 4 is located behind the wire convergence point.

After starting the weave cycle as shown in FIG. 4, the mandrel 4 moves along the axis AX in such a way that it passes through the ring 2 beyond the point of convergence of the wires. At the same time, the bobbins mounted on the ring 2 by means of movable holders with drives are brought into rotation to make a wire sleeve on the outer surface of the mandrel 4.

The sleeve covers the entire length of the mandrel after the complete passage of the mandrel through the ring, as shown in FIG. 5, that is, after it is behind the fiber convergence point.

The layer of wires is then cut behind the mandrel along line 5, the mandrel is removed and the sleeve is then removed from the mandrel.

Examples of possible variants of structural elements that can be obtained by the claimed weaving method are shown in FIG. 6 and FIG. 7. In FIG. 6 shows a variant of the structural element 6 of the jewelry, made in the form of a hollow cylindrical sleeve, where the wires 3 are intertwined according to the biaxial arrangement. FIG. 7 shows a variant of a structural element 7 of a piece of jewelry made in the form of a hollow cylindrical sleeve with an elliptical base, where the wires 3 are intertwined according to a biaxial arrangement. The geometric parameters of the structural element, including its shape, are determined by the geometric characteristics of the mandrel used.

FIG. 8 shows examples of jewelry made using structural elements manufactured by the claimed method.

It should be noted that the implementation of structural elements according to the biaxial wire laying scheme is the most optimal from the point of view of the aesthetic qualities of jewelry, in which such structural elements are used and the simplicity of setting up equipment during their manufacture. Moreover, such products have a sufficient degree of plasticity and elasticity, which makes them very convenient to use. Such structural elements can be used to make, for example, stretch bracelets, rings, rings, and other products.

The most significant advantage of such products is the simplicity of their manufacture, which excludes the use of a significant amount of manual labor. The modern level of development of machines and equipment for radial weaving, as well as the simplicity of manufacturing the used tooling (mandrels), allow you to quickly reconfigure such technological equipment depending on the required parameters of finished products and organize production with very high productivity.

Thus, the essential features of the claimed invention fully ensure the achievement of the technical result, namely, the manufacturability of manufacturing structural elements of jewelry.

Claims (4)

1. A method of manufacturing structural elements of jewelry from wire, characterized in that the structural element is made in the form of a hollow sleeve by radial weaving around the surface of a mandrel with a biaxial wire laying pattern. 2. A method of manufacturing structural elements of jewelry from wire according to claim 1, characterized in that the cross-section of the wire is rectangular. 3. A wire jewelry construction element made by weaving, characterized in that it is made in the form of a hollow sleeve with a biaxial wire laying scheme. 4. A wire jewelry constructive made by weaving according to claim 3, characterized in that the wire has a rectangular cross-section.

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