Lock assembly for jewelry groups

Abstract

A locking mechanism fastened at neck, ear and wrist areas with at least one male part body, includes a female part body, wherein the male part body is attached to the female part body. The locking mechanism includes a mounting opening, wherein the male part body is advanced towards a direction and placed in the mounting opening, moving jaws meeting to lock the male part body entering the mounting opening of the female part body, at least one retainer tab formed on the moving jaws, and male part teeth with tooth sockets, wherein the at least one retainer tab is seated on the tooth sockets.

Claims

1. A lock assembly for a jewellery configured to be fastened at neck, ear and wrist areas, the lock assembly comprising: at least one male part body and at least one female part body, wherein the at least one male part body is attached to the at least one female part body, wherein the at least one female part body comprises at least one centering pin and a pushing element coupled to the at least one centering pin, and wherein the at least one male part body comprises tooth slots; a mounting opening formed in the at least one female part body, wherein the at least one male part body with the tooth slots is advanced towards a direction and placed in the mounting opening; moving jaws, each of the moving jaws comprises at least one retainer tab, wherein the at least one retainer tab of the moving jaws meets to lock with the tooth slots of the at least one male part body entering the mounting opening of the at least one female part body, and a bearing center to be seated on the centering pin to provide rotational motion about the at least one centering pin, and wherein the pushing element that is provided on the centering pin is configured to apply continuous force to the moving jaws and the at least one centering pin to provide the retainer tabs to be seated in the tooth slots to lock the at least one male part body with at least one female part body.

2. The lock assembly according to claim 1, comprising V-formed angled surfaces towards a main axis of the male part teeth.

3. The lock assembly according to claim 1, wherein the moving jaws are configured to move independent of each other.

4. The lock assembly according to claim 1, wherein the at least one male part teeth are formed on a male part head and configured at a reverse angle with respect to the at least one retainer tab.

5. The lock assembly according to claim 4, wherein the male part head comprises radial surfaces.

6. The lock assembly according to claim 1, wherein the pushing element continuously exert the force motion and a pressure motion on the at least one retainer tab towards a main axis, and the at least one retainer tab is at an opposite angle with respect to the male part teeth.

7. The lock assembly according to claim 1 comprising pressure surfaces, wherein a finger action towards a direction of a pressure is applied on the pressure surfaces to open the lock assembly.

8. The lock assembly according to claim 1 comprising a two-sided female part body or a one-sided female part body and the at least one male part body depending on a jewelry to be used.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a two dimensional close-up view of the lock assembly of the invention in disassembled state.

(2) FIG. 2 is a two dimensional close-up view of the lock assembly of the invention in assembled state when the lock is active.

(3) FIG. 3 is a representational view of the lock assembly of the invention with the detaila, when it is applied to a bracelet.

(4) FIG. 4 is a representational view of the lock assembly of the invention with the detaila, when it is applied to a necklace.

PART NUMBERS

(5) 100 Lock assembly 101 Male Part Body 1011 Male part head 1012 Male part teeth 1013 Tooth slots 1014 Angled surfaces 1015 Radial surfaces 102 Moving jaws 1021 Pressure surfaces 103 Bearing center 104 Retainer tab 105 Centering pin 106 Female Part body 107 Pushing element (Spring) 108 Mounting opening 200 Bracelet 300 Earring a Mounting direction x Main axis b Print direction c lock active

Detailed Description of the Embodiments

(6) In FIGS. 1 and 2, a locking mechanism (100) which can be fastened at the neck, ear and wrist areas easily and effortlessly, with at least one male part body (101), comprising a female part body (106) to which the mentioned male part body (101) is attached. The lock assembly (100) in question contains the mounting opening (108) where the mentioned male part body (101) is moved in the direction of mounting (a) and placed and the moving jaws (102) which meet to lock the male part body (101) entering into the mounting opening (108) of the mentioned the female part body (106). In addition, it contains at least one retainer tab (104) formed on the mentioned moving jaws (102) and male part teeth (1012) with tooth sockets (1013) in which the mentioned retainer tabs (104) are seated.

(7) On the other hand, the mentioned male part teeth (1012) contain Vshaped angled surfaces (1014) towards the main axis (x) and moving jaws (102) that are moved independently from each other. Pushing elements (107) which apply continuous force to the moving jaws (102) and at least one centering pin (105) formed on the mentioned female part body (106) is integrated to the assembly. In addition, it comprises bearing center (103) seated on the centering pin (105) and providing rotational motion about this point by means of this centering area and male part teeth (1012) a plurality of which is formed on the male part head (1011) and configured at a reverse angle with respect to the retainer tab (104).

(8) Locking the lock assembly (100) is as follows; the male part body (101) is drawn or pushed in the direction of mounting (a) towards the mounting mouth (108) of the female part body (106). With this pushing motion, the radial surfaces of the male part head (1011) (1015) hit the retainer tabs (104), and the rounded surfaces of the radial surfaces (1015) allow the retainer tabs (104) to sit in the tooth sockets (1013) by making a sliding motion on this surface. The pressure elements (107) which provide the retainer tabs (104) to be seated in the tooth slots (1013) after the seating motion of the retainer tabs (104) into the tooth slots (1013) and act as springs perform compression motion by continuously applying force motion in this area. Thereby, the desired locking process is realized. If the lock is to be opened, as a result of a finger motion exerted on the pressure surfaces (1021) along the direction of pressure (b), the spring (107) force is overcome, and with the spring (107) force rendered ineffective, retainer tabs (104) of the moving jaws (102) open towards the direction (c), and the lock becomes deactivated (c). The retainer tabs (104) are opened in the direction (c) and separated from the male part teeth (1012) and thus the freed male part body (101) is pulled back and removed from the lock area completely.

(9) In FIG. 3, a representational view of the lock assembly (100) with the detaila, when it is applied to a bracelet (200), and a close-up view of the detaila are illustrated. The male part body (101) of locking device (100) applied here is single and comprises a single moving jaw (102). However, it is possible to use two-sided or one-sided female part body (106) and male part body (101) depending on the jewelry to be used.

(10) In FIG. 4, a representational view of the lock assembly (100) with the detaila, when it is applied to an earring (300), and a close-up view of the detaila are illustrated. The male part body (101) of locking device (100) applied here is single and comprises a single moving jaw (102). However, it is possible to use two-sided or one-sided female part body (106) and male part body (101) depending on the jewelry to be used.