A JEWELRY MODULE

Abstract

Disclosed is a jewelry module in which each core module is formed by connecting each other in jewelry produced by processing precious metals. The jewelry module has a rotation bed having an axis of rotation formed so as to be centered on the joining axis of each core module. Additionally, an angle of rotation with a reduced distance away from the rotational movement of each core module by the presence of said axis of rotation is provided, and a connection bracket is centered on the axis of rotation, which grasps the rotation bed and enables one core module to be connected with the other core module.

Claims

1. A jewelry module in which each core module is formed by connecting each other in jewelry produced by processing precious metals, used as ornaments, especially in jewelry worn on the hand and neck area, and the jewelry module comprising: a rotation bed having a rotation axis formed to center the joining axis of each said core module; an angle of rotation with reduced distance away from the rotational movement of each core module with the presence of said axis of rotation; a semicircular pin space in which the outer semicircular part of the said rotation bed will be positioned; and a connection bracket centered on the axis of rotation, which allows one core module to be connected to the other core module by gripping said rotation bed.

2. The jewelry module according to claim 1, wherein the axis of rotation has a full length equal to a half length and an other half length, configured to be in the middle of each core module by juxtaposition of two core modules.

3. The jewelry module according to claim 1, wherein said core module comprises a monolithic rotation bed which ensures a balanced movement of said core module in the x-x1 direction of rotation and prevents the jewelry from wobbling in case of external force application.

4. The jewelry module according to claim 1, comprising a joining space which allows the connection bracket to be bent and welded into it during the joining of each core module.

5. The jewelry module according to claim 1, comprising a mounting gap allowing circular movement of said connecting bracket in the x-x1 direction of rotation.

6. The jewelry module according to claim 1, comprising a fixer formed in a monolithic structure with said core module, for fixing precious stones worn on the jewelry module.

7. The jewelry module according to claim 1, comprising a bending end which, after being inserted into the rotation bed, is bent with a bending technique so as to make a rotational movement.

Description

DESCRIPTION OF THE FIGURES

[0024] FIG. 1 is the perspective view of the general assembly and disassembly of the jewelry module, which is the subject of the invention.

[0025] FIG. 2 is the three-dimensional individual perspective view of the jewelry module, which is the subject of the invention.

[0026] FIG. 3 is the two-dimensional view of the jewelry module, which is the subject of the invention, from the A direction.

[0027] FIG. 4 is a two-dimensional representative view of the core modules that make up the jewelry module, showing the axis of rotation, with the bending end open

[0028] FIG. 4.1 is another representative view showing the axis of rotation of the core modules that make up the jewelry module with the bending end bent

[0029] FIG. 4.2 is a representative two-dimensional view showing the angle of rotation.

[0030] FIG. 4.3 is a cross-sectional representative two-dimensional view showing the angle of rotation.

[0031] FIG. 4.4 is a representative view of the core modules that make up the jewelry module, with the bending end open and closed.

PART NUMBERS

[0032] 10Jewelry module [0033] 20Core module [0034] 21Rotation bed [0035] 22Connection bracket [0036] 22.1 Bending end [0037] 23Pin space [0038] 24Joining space [0039] 25Fixer [0040] 26Mounting gap [0041] 30Precious stone [0042] AViewing direction [0043] BCenter of rotation [0044] CJoining axis [0045] DAngle of rotation [0046] x, x1Direction of rotation [0047] tFull length [0048] t1Half length [0049] t2Other half length

DETAILED DESCRIPTION OF THE INVENTION

[0050] FIG. 1 illustrates a jewelry module (10) in which each core module (20) is connected to each other in jewelry produced by processing precious metals.

[0051] FIGS. 4, 4.1 and 4.2 shows the rotation bearing (21) with a rotation axis (B) formed to be centered at the junction axis (C) of each core module (20) and with the presence of the said rotation axis (B), the rotation angle (D) of each core module (20) is obtained with a reduced distance of departure is obtained by the rotational movement. Thus, the rotation angle (D) between both core modules (20) is reduced. Due to the fact that this rotation angle (D) is much higher than the acceptable dimensions in the present technique, an appearance is formed in the axial rotation of the core modules (20) that disturbs the aesthetic appearance.

[0052] The semicircular pin space (23) in which the semi-circular part of the said rotation bearing (21) will be positioned, and the rotation bearing (21) centered on the rotation axis (B) that enables a core module (20) to be connected with the other core module (20) by grasping the said rotation bearing (21) includes the connecting bracket (22). Likewise, it comprises a rotation axis (B) with half length (t1) and other half length (t2) equal to each other, configured to be exactly in the middle of each core module (20) by placing two core modules (20) side by side. (see FIG. 4.1).

[0053] In case an external force is applied, jewelry wobble (off-axis movements) is prevented by means of the rotation bed (21) by ensuring the balanced movement of the jewelry module (10) in the x-x1 direction of rotation in a monolithic structure with the said core module (20). However, the said core module (20) contains a pin space (23), which is formed in the inner part of the core module (20) in such a way that the adjacent jewelry modules (10), which are formed in such dimensions that the rotation bed (21) can be placed, are rigidly joined in such a way as to ensure their movement in the x-x1 direction of rotation. In addition, the jewelry module (10) includes a connection bracket (22), which grasps the said rotation bed (21) and enables one jewelry module (10) to be joined with another jewelry module (10) in such a way that they cannot be separated from each other, and a joining space (24), which enables the connection bracket (22) to be placed and welded into it by bending during the joining of the jewelry modules (10). In addition, it has a center of rotation (B), which is positioned as a common balance point of adjacent jewelry modules (10) side by side in the combination of jewelry modules (10) and enables the movement of jewelry modules (10) in x-x1 directions without damaging each other.

[0054] On the other hand, the jewelry module (10) is formed in a monolithic structure with the core module (20) in such a way that the aforementioned connection bracket (22) can pass through it and the mounting gap (26) is formed to allow the jewelry module (10) to move in the x-x1 directions. This core module (20) is formed in a monolithic structure with the module (10), and includes a fixer (25) for fixing the precious stones (30) mounted on the jewelry module (10).

[0055] The inventive jewelry module (10) includes a core module (20), and comprises a rotation bed (21), a connection bracket (22), a pin space (23). The connection bracket (22) of one said jewelry module (10) is passed through the mounting gap (26) so as to engage the rotation bed (21) of another jewelry module (10). The connection bracket (22) is bent by means of a force, inserted into the joining space (24) of its own jewelry module (10) and welded. Simultaneously with this process, the rotation bed (21) of the first jewelry module (10) is inserted into the pin space (23) of the other jewelry module (10). Moreover, this connection is made especially thanks to the center of rotation (B) so that both jewelry modules (10) are balanced and can rotate freely in the x-x1 directions of rotation. After the bending end (22.1) is inserted into the rotation bed (21), it is bent into a rotational movement.

[0056] Thus, when a force is applied to a piece of jewelry made of the aforementioned jewelry modules (10) to twist the jewelry, there is no twisting or wobbling of the jewelry due to the combination of the rotation bed (21) and the pin space (23) at the center of rotation (B).