CN219537648U - Diamond point mosaic structure of diamond ring - Google Patents

Abstract

The utility model belongs to the technical field of jewelry, and particularly relates to a drilling point mosaic structure of a diamond ring, which comprises a ring, wherein both sides of the ring are respectively provided with a decorative diamond chain association structure in an embedded mode, both sides of the bottom of the mosaic seat are respectively fixedly connected with a drilling point bolt, the drilling point bolts are detachably inserted into the drilling point grooves, the decorative diamond chain association structure comprises two sleeves movably installed in the drilling point grooves, the drilling point bolts penetrate through the sleeves, both outer walls of both sides of a convex clamping strip are respectively fixedly connected with edge strip bodies in a uniform mode, and two adjacent edge strip bodies are respectively arranged at both sides of one strip-shaped multi-groove chain. The utility model can convert the external force for separating the insert seat into the clamping force for the decorative precious stone, not only can weaken the external force for separating the insert seat, but also can increase the clamping force for the decorative precious stone, further improve the anti-separating effect of the insert seat, and strengthen the fixing force of the diamond ring for each precious stone.

Description

Diamond point mosaic structure of diamond ring

Technical Field

The utility model belongs to the technical field of jewelry, and particularly relates to a drilling point mosaic structure of diamond rings.

Background

The diamond ring is diamond jewelry worn on fingers. Diamond is the most rigid one of precious stones, and ancient romans have always thought that it represents life and forever, and through europe of the 15 th century, diamond rings have been more thought to represent the wedding symbolism of a Zhen Yu, forming the tradition of using diamond rings as wedding letters.

Problems of the prior art:

in the existing diamond ring with a large number of decorative stones, the more the structure is used for fixing the diamond, and the fixing effect of each stone is different due to the complicated manufacturing process, so when the mosaic structure loosens due to manufacturing errors, the stone is at risk of accidental falling, but the mosaic structure in the existing diamond ring is not provided with the effect of preventing the stone from falling off when the stone has a falling-off trend, and the connection structure which is not involved with each other is not provided between the stones, so that the falling-off preventing effect of the stone cannot be optimized.

Disclosure of Invention

The utility model aims to provide a point mosaic structure of diamond ring stones, which can convert external force for separating a diamond ring seat into clamping force for decorating the stones, not only can weaken external force for separating the diamond ring seat, but also can increase the clamping force for decorating the stones, further improve the anti-drop effect of the diamond ring seat, and enhance the fixing force of the diamond ring on each stone.

The technical scheme adopted by the utility model is as follows:

the diamond ring diamond point mosaic structure comprises a ring, wherein a mosaic seat is detachably assembled at the top end of the ring, a diamond is embedded in the mosaic seat, and decorative diamond chain association structures are embedded in two sides of the ring;

the two sides of the top of the finger ring are respectively provided with a chiseled point groove, the two sides of the finger ring are respectively symmetrically provided with a side bar groove for installing a decorative precious stone chain association structure, the two sides of the bottom of the insert seat are respectively fixedly connected with a chiseled point bolt, and the chiseled point bolts are detachably inserted into the chiseled point grooves;

the decorative gem chain association structure comprises two sleeves movably mounted in the chiseling point grooves, the chiseling point bolts penetrate through the sleeves, side grooves are fixedly formed in one side wall, close to the chiseling point bolts, of each sleeve, protruding clamping strips are integrally and fixedly arranged on one side inner wall of each sleeve, and the protruding clamping strips are embedded and connected in the side grooves;

the both sides outer wall homogeneous type fixedly connected with strake body of protruding card strip, just the strake body all extends to the inside of strake groove.

The decorative gem chain association structure further comprises a strip-shaped multi-groove chain which is embedded in the side strip groove, and decorative gems are embedded in the strip-shaped multi-groove chain at equal intervals.

The strip-shaped multi-groove chain is characterized in that side notches are formed in the positions, corresponding to the positions of each decorative precious stone, of the two sides of the strip-shaped multi-groove chain, side bumps are fixedly arranged on the outer walls of the two sides of the bottom of each decorative precious stone, and the side bumps are movably embedded into the side notches adjacent to the side bumps.

Two adjacent edge strip bodies are respectively arranged on two sides of one strip-shaped multi-groove chain, and inner embedded blocks are fixedly arranged on the inner walls of the two adjacent edge strip bodies at equal intervals.

The embedded blocks are movably embedded into the side slots adjacent to the embedded blocks, the embedded blocks are attached to the side protruding blocks, and the side walls of the embedded blocks, which are contacted with the side protruding blocks, are inclined surfaces.

The utility model has the technical effects that:

(1) According to the utility model, the chiseled point bolt at the bottom of the insert seat is aligned with the chiseled point groove and inserted, in the inserting process, the convex clamping strip on the inner wall of the sleeve is just embedded into the side groove on the side wall of the chiseled point bolt, the clamping effect on the chiseled point bolt is realized through the convex clamping strip, the insert seat is effectively prevented from being separated from the finger ring accidentally, and the stability of the insert seat and the precious stone installation can be improved through the structure.

(2) When the embedded seat has a trend of separating from the finger ring, the two side strips simultaneously have a trend of approaching to the inner side to move, so that the embedded seat has the effect of clamping the strip-shaped multi-groove chain, the clamping force on the corresponding decorative precious stone is improved, and the separation of the embedded seat is prevented in the mode, so that when the external force for separating the embedded seat is overlarge, the external force can be converted into the clamping force on the decorative precious stone through the process, the conversion of the force can weaken the external force for separating the embedded seat, the clamping force on the decorative precious stone can be increased, the anti-separation effect of the embedded seat is further improved, and the fixing force of the diamond ring on each precious stone is enhanced.

(3) When the ornamental gemstone has a tendency to separate, the side projections on both sides of the bottom of the ornamental gemstone also press against the adjacent inner inserts, thereby preventing the separation of the inner inserts.

Drawings

FIG. 1 is a front view of a ring according to an embodiment of the present utility model;

FIG. 2 is an exploded view of a ring according to an embodiment of the present utility model;

FIG. 3 is a cross-sectional block diagram of a point latch provided by an embodiment of the present utility model;

FIG. 4 is a top cross-sectional block diagram of a bar-shaped multi-channel chain provided by an embodiment of the present utility model;

fig. 5 is a schematic illustration showing the attachment of the side bump to the inner insert according to an embodiment of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. a finger ring; 101. chiseling a point groove; 102. a side bar groove; 2. setting a seat; 201. drilling a point bolt; 3. a gemstone; 4. a decorative gem chain association structure; 401. a bar-shaped multi-slot chain; 402. a side notch; 403. decorating the precious stone; 404. a side bump; 405. a side strip body; 406. an inner insert; 407. a sleeve; 408. and (5) protruding the clamping strip.

Detailed Description

The present utility model will be specifically described with reference to examples below in order to make the objects and advantages of the present utility model more apparent. It should be understood that the following text is intended to describe only one or more specific embodiments of the utility model and does not limit the scope of the utility model strictly as claimed.

As shown in fig. 1-5, a diamond ring diamond point mosaic structure comprises a ring 1, a mosaic seat 2 is detachably assembled at the top end of the ring 1, a diamond 3 is embedded in the mosaic seat 2, and decorative diamond chain association structures 4 are embedded in two sides of the ring 1.

Referring to fig. 2, the two sides of the top of the finger ring 1 are provided with the chiseling point grooves 101, the two sides of the finger ring 1 are symmetrically provided with the side bar grooves 102 for installing the ornamental gemstone chain association structure 4, the two sides of the bottom of the insert seat 2 are fixedly connected with the chiseling point pins 201, and the chiseling point pins 201 are detachably inserted into the chiseling point grooves 101.

Referring to fig. 2 and 3, the ornamental gem chain association structure 4 includes two sleeves 407 movably mounted in the chisel point grooves 101, and the chisel point bolts 201 all penetrate through the sleeves 407, a side groove is fixedly formed on a side wall of the two chisel point bolts 201, a protruding clamping strip 408 is integrally and fixedly arranged on a side inner wall of the sleeve 407, and the protruding clamping strip 408 is embedded in the side groove.

According to the structure, in the process of embedding the gem 3, the gem 3 is firstly embedded into the embedded seat 2, then the embedded seat 2 is assembled with the ring 1, the chiseling point bolt 201 at the bottom of the embedded seat 2 is aligned with the chiseling point groove 101 and inserted, in the inserting process, the convex clamping strips 408 on the inner wall of the sleeve 407 are just embedded into the side groove of the side wall of the chiseling point bolt 201, the clamping effect on the chiseling point bolt 201 is realized through the convex clamping strips 408, the embedded seat 2 can be effectively prevented from being separated from the ring 1 accidentally, and the installation stability of the embedded seat 2 and the gem 3 can be improved through the structure.

Referring to fig. 2 and 3, the side bar body 405 is fixedly connected to the outer walls of the two sides of the protruding clamping bar 408, and the side bar body 405 extends into the side bar groove 102.

Referring to fig. 4 and 5, the ornamental gem chain association structure 4 further includes a bar-shaped multi-groove chain 401 embedded inside the side bar groove 102, ornamental gems 403 are embedded inside the bar-shaped multi-groove chain 401 at equal intervals, side slots 402 are formed in positions, corresponding to each ornamental gem 403, of two sides of the bar-shaped multi-groove chain 401, side bumps 404 are fixedly arranged on outer walls of two sides of the bottom of the ornamental gem 403, and the side bumps 404 are movably embedded inside the side slots 402 adjacent to the side bumps.

Referring to fig. 4 and 5, two adjacent edge strip bodies 405 are respectively disposed at two sides of a strip multi-slot chain 401, inner inserts 406 are fixedly disposed on inner walls of the two adjacent edge strip bodies 405 at equal intervals, the inner inserts 406 are movably embedded into side slots 402 adjacent to the inner inserts 406, the inner inserts 406 are attached to side bumps 404, and side walls of the inner inserts 406, which are in contact with the side bumps 404, are inclined surfaces.

According to the above structure, when the insert 2 has a tendency to separate from the finger ring 1, since the protruding clamping strips 408 are embedded into the side grooves, the point latch 201 drives the sleeve 407 to move together, and the sleeve 407 also has a tendency to drive the edge strip bodies 405 to move together, as shown in fig. 4, since the two edge strip bodies 405 close to the sleeve 407 are bent inwards, after the edge strip bodies 405 move, the two edge strip bodies 405 have a tendency to move inwards at the same time, thereby having the effect of clamping the strip-shaped multi-groove chain 401, and the two inner inserts 406 close to the sleeve 407 move towards the decorative precious stone 403 increasingly, and the greater the pressing force of the two inner inserts 406 to the adjacent side bumps 404 is, the greater the tendency of separating the insert 2 is finally generated, the effect of increasing the clamping force to the decorative precious stone 403 is finally, and when the external force for separating the insert 2 is excessively large, the external force can be converted into the clamping force of the decorative precious stone 403 through the above process, the clamping force of the decorative precious stone 403 can be further weakened, and the effect of the diamond 2 can be further weakened when the external force is not separated from the insert 2.

The working principle of the utility model is as follows: in the embedding work of the precious stone 3, firstly embedding the precious stone 3 into the embedding seat 2, then assembling the embedding seat 2 and the finger ring 1, aligning the chiseling point bolt 201 at the bottom of the embedding seat 2 with the chiseling point groove 101 and inserting, in the inserting process, just embedding the convex clamping strip 408 on the inner wall of the sleeve 407 into the side groove on the side wall of the chiseling point bolt 201, and realizing the clamping effect on the chiseling point bolt 201 through the convex clamping strip 408, thereby effectively avoiding the embedding seat 2 from being separated from the finger ring 1 accidentally;

when the bezel 2 has a tendency to separate from the finger ring 1, the raised clamping strips 408 are embedded into the side grooves, so that the point latch 201 drives the sleeve 407 to move together, and the sleeve 407 also has a tendency to drive the edge strip bodies 405 to move together, as shown in fig. 4, since the two edge strip bodies 405 close to the sleeve 407 are bent inwards, when the edge strip bodies 405 move, the two edge strip bodies 405 simultaneously have a tendency to move inwards, thereby having the effect of clamping the strip-shaped multi-groove chain 401, the two embedded blocks 406 close to the sleeve 407 are increasingly moved towards the ornamental gemstone 403, and the pressing force of the two embedded blocks 406 to the adjacent side bumps 404 is higher, so that the larger the tendency of the bezel 2 to separate is finally generated, the clamping force to the ornamental gemstone 403 is increased, in addition, when the ornamental gemstone 403 has a tendency to separate, the side bumps 404 at the two sides of the bottom can also press the adjacent embedded blocks 406, and the detachment of the embedded blocks 406 can be prevented by the method.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (5)

1. The utility model provides a diamond ring's chisel point mosaic structure, includes ring (1), its characterized in that: the top end of the finger ring (1) is detachably assembled with an insert seat (2), a gemstone (3) is embedded in the insert seat (2), and two sides of the finger ring (1) are embedded with decorative gemstone chain association structures (4);

the two sides of the top of the finger ring (1) are respectively provided with a point chiseling groove (101), the two sides of the finger ring (1) are respectively symmetrically provided with a side strip groove (102) for installing a decorative precious stone chain association structure (4), the two sides of the bottom of the insert seat (2) are respectively fixedly connected with a point chiseling bolt (201), and the point chiseling bolts (201) are detachably inserted into the point chiseling grooves (101);

the decorative gem chain association structure (4) comprises two sleeves (407) movably mounted in the chiseling point grooves (101), the chiseling point pins (201) penetrate through the sleeves (407), side grooves are fixedly formed in the side walls of the two chiseling point pins (201) close to each other, protruding clamping strips (408) are integrally and fixedly arranged on one side inner wall of the sleeve (407), and the protruding clamping strips (408) are embedded and connected in the side grooves;

the two side outer walls of the protruding clamping strip (408) are uniformly and fixedly connected with the edge strip body (405), and the edge strip body (405) extends to the inside of the side strip groove (102).

2. The drill point mosaic structure of a diamond ring according to claim 1, wherein: the decorative precious stone chain association structure (4) further comprises a strip-shaped multi-groove chain (401) which is embedded in the side strip groove (102), and decorative precious stones (403) are embedded in the strip-shaped multi-groove chain (401) at equal intervals.

3. The drill point mosaic structure of a diamond ring according to claim 2, wherein: the strip-shaped multi-groove chain (401) is characterized in that side notches (402) are formed in the positions, corresponding to the positions of each decorative precious stone (403), of the two sides of the bottom of each decorative precious stone (403), side protruding blocks (404) are fixedly arranged on the outer walls of the two sides of the bottom of each decorative precious stone (403), and the side protruding blocks (404) are movably embedded into the side notches (402) adjacent to the side protruding blocks.

4. A drill point mosaic structure of diamond ring stones according to claim 3, characterized in that: two adjacent edge strip bodies (405) are respectively arranged on two sides of one strip-shaped multi-groove chain (401), and inner embedded blocks (406) are fixedly arranged on the inner walls of the two adjacent edge strip bodies (405) at equal intervals.

5. The drill point mosaic structure of a diamond ring according to claim 4, wherein: the embedded blocks (406) are movably embedded into the side slots (402) adjacent to the embedded blocks, the embedded blocks (406) are attached to the side protruding blocks (404), and side walls of the embedded blocks (406) contacted with the side protruding blocks (404) are inclined surfaces.