CN112220170B - Jewelry mosaic assembly structure and corresponding jewelry assembly method - Google Patents

Abstract

The invention provides a jewelry inlaying and assembling structure, which comprises a main stone fixing seat and a surrounding stone fixing seat, wherein the surrounding stone fixing seat is annular and is sleeved outside the main stone fixing seat; a first bulge group for fixing the surrounding stone is arranged on the end face of one end of the surrounding stone fixing seat, and the first bulge group consists of a first bulge and a second bulge; the distance from the first protrusion to the main stone fixing seat is equal to the distance from the second protrusion to the main stone fixing seat; a first groove is formed in the side face, close to the second protrusion, of the first protrusion, and one end, close to the main stone fixing seat, of the first groove extends to the edge of the side face where the first groove is located; a second groove is formed in the side face, close to the first protrusion, of the second protrusion, and one end, close to the main stone fixing seat, of the second groove extends to the edge of the side face where the second groove is located; the second groove is mirror-symmetrical with the first groove. No special tool is needed to process in the assembling process, and no damage is caused to the claw position of the surrounding stone; the method is simple, and the assembly personnel do not need experience.

Description

Jewelry mosaic assembly structure and corresponding jewelry assembly method

Technical Field

The invention relates to the technical field of jewelry setting, in particular to a jewelry setting assembly structure and a corresponding jewelry assembly method.

Background

The technique for inlaying the surrounding stone is a traditional handicraft and is realized by combining a master with professional skills with a special tool through a process of open tapping and extrusion. The manual operation has high and low personal professional ability, and the operation is easy to generate contingency, so that the result difference among different persons is caused. The traditional inlaying method has clear edge and corner surfaces, regular parting surfaces, undamaged stone fixing claw positions and natural operation defects in batch, unification and stabilization, so that the beauty of the diamond surrounding stone combination process cannot be completely shown.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the zero threshold for the inlaying production of the surrounding stones is realized, operators do not need to have professional surrounding stone inlaying skills, the assembling effect is not influenced by the skill difference of the operators, and the efficiency improvement of the novel process can be improved by more than 5 times compared with that of the traditional process on the premise of optimal performance.

In order to solve the technical problems, the invention adopts the technical scheme that:

a jewelry inlaying and assembling structure comprises a main stone fixing seat and a surrounding stone fixing seat, wherein the surrounding stone fixing seat is annular and is sleeved outside the main stone fixing seat; a first bulge group for fixing the surrounding stone is arranged on one end face of the surrounding stone fixing seat, and the first bulge group consists of a first bulge and a second bulge; the distance from the first protrusion to the main stone fixing seat is equal to the distance from the second protrusion to the main stone fixing seat; a first groove is formed in the side face, close to the second protrusion, of the first protrusion, and one end, close to the main stone fixing seat, of the first groove extends to the edge of the side face where the first groove is located; a second groove is formed in the side face, close to the first protrusion, of the second protrusion, and one end, close to the main stone fixing seat, of the second groove extends to the edge of the side face where the second groove is located; the second groove is in mirror symmetry with the first groove.

Furthermore, a first central axis of the first groove is intersected with a second central axis of the second groove, and the intersection point and the main stone fixing seat are arranged on two sides of the first protrusion group; the first central axis is parallel to the length direction of the first groove, and the second central axis is parallel to the length direction of the second groove.

Furthermore, the first bulge groups are 2-30 and are uniformly distributed on the end surface of the surrounding stone fixing seat; the first bulges in one first bulge group are integrally formed with the second bulges in another adjacent first bulge group; the surrounding stone fixing seat is also provided with third grooves the number of which is matched with that of the first bulge groups; the third grooves are positioned between the first bulges and the second bulges and are radially arranged; and one end of the third groove, which is close to the main stone fixing seat, extends to the edge of the end face where the third groove is located.

Furthermore, the main stone fixing seat is composed of a first part and a second part, the first part is provided with a first supporting surface for supporting the main stone and a second protrusion group for preventing the main stone from falling off, the second protrusion group is composed of at least one third protrusion, and a fourth groove is formed in the side surface, close to the main stone, of the third protrusion; the second portion is provided with a second supporting surface for supporting the main stone and a third protruding group for preventing the main stone from falling off, the third protruding group is composed of at least one fourth protrusion, and a fifth groove is formed in the side face, close to the main stone, of the fourth protrusion.

Furthermore, a fifth bulge and a sixth groove are further arranged on the side surface, close to the second portion, of the first portion, and a seventh groove matched with the fifth bulge and a sixth bulge matched with the sixth groove are further arranged on the side surface, close to the first portion, of the second portion.

Further, the first and second portions are uniform in shape and size; the main stone fixing seat is cylindrical, and the side surface of the main stone fixing seat close to the surrounding stone fixing seat is provided with first rotary surfaces the number of which is matched with that of the first bulge groups; the first revolution surface bus is perpendicular to the end face of the surrounding stone fixing seat; the axis of the first revolution surface and the main stone are arranged on two sides of the first revolution surface.

Furthermore, a second revolution surface matched with the first revolution surface is arranged on the side surface of the inner ring of the surrounding stone fixing seat, and the intersection of two adjacent second revolution surfaces is positioned beside the connection of two adjacent first bulge groups; the third bulge or the fourth bulge is positioned beside the joint of two adjacent first revolution surfaces; the fourth groove and the fifth groove are both arc-shaped grooves and are positioned on the same cylindrical curved surface, and the cylindrical curved surface is intersected with the second revolution surface.

A jewelry assembling method adopts the jewelry inlaying and assembling structure and comprises the following assembling steps:

s1: from the one side that is close to main stone fixing base, along first recess and second recess, go into the clearance between first arch and the second arch with the enclose stone card that the size matches.

S2: the surrounding stone fixing seat is sleeved outside the main stone fixing seat provided with the main stone.

Further, before executing step S2, the method further includes a main stone assembling step: and putting the main stone with the matched size on the first supporting surface of the first part, embedding the edge of the main stone into the fourth groove, and splicing and combining the second part and the first part to obtain the main stone fixing seat provided with the main stone.

Furthermore, the main stone and the surrounding stone are diamonds, the waist edges of the main stone are clamped into the fourth groove and the fifth groove, and the waist edges of the surrounding stone are clamped into the first groove and the second groove; during assembly, the diamonds are assembled manually or in a numerical control mode.

Further, before assembling the main stone and the surrounding stone, firstly, carrying out numerical control CNC modeling processing on a first groove, a second groove and a third groove in the surrounding stone fixing seat by adopting a customized cutter; the adopted cutters comprise T-shaped cutters and taper cutters.

The invention has the beneficial effects that: the first groove and the second groove can be used for clamping the surrounding stone with matched size into the gap between the first protrusion and the second protrusion, and finally the surrounding stone fixing seat is sleeved outside the main stone fixing seat. The surrounding stone can not fall off due to the blocking of the first groove, the second groove and the main stone fixing seat. The assembling process does not need special tool processing, the method is simple, and the processed surrounding stone component and the stone fixing claw position cannot be damaged.

Drawings

The following detailed description of the invention will be made with reference to the accompanying drawings

FIG. 1 is a perspective view of the exterior of a jewelry setting assembly of the present invention;

FIG. 2 is an elevational view of the exterior of a jewelry setting assembly of the present invention;

FIG. 3 is a top view of the curb mounting of the jewelry setting assembly of the present invention;

FIG. 4 is an exploded view of the stone holder of a jewelry setting assembly of the present invention;

FIG. 5 is an exploded view of a jewelry setting assembly of the present invention;

the support comprises a main stone fixing seat 1, a first revolution surface 11, a third bulge 12, a fourth groove 13, a first support surface 14, a fifth bulge 15, a sixth bulge 16, a second support surface 17, a fourth bulge 18 and a fifth groove 19; 2-a surrounding stone fixing seat, 21-a first bulge, 22-a second bulge, 23-a first groove, 24-a second groove, 25-a third groove and 26-a second revolution surface; 3-main stone; 4-surrounding stone.

Detailed Description

The most key concept of the invention is as follows: 2 independent associative structures that can block out the equipment are made to enclosing stone fixing base and main stone fixing base, and the back is accomplished in the equipment, and main stone fixing base still helps enclosing the stone fixing base and will enclose the stone fixed, changes the orientation of packing into and the fixed mode of jewelry promptly, reaches the purpose that does not take place deformation because of fixed diamond, and then simplifies the diamond and inlays technology.

In order to further explain the feasibility of the inventive concept, the detailed description of the embodiments according to the technical content, the constructional features, the objectives and the effects achieved will be described in detail with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 5, a jewelry embedding assembly structure includes a main stone fixing seat 1 and a surrounding stone fixing seat 2, wherein the surrounding stone fixing seat 2 is annular and is sleeved outside the main stone fixing seat 1; a first bulge group for fixing the surrounding stone 4 is arranged on the end face of one end of the surrounding stone fixing seat 2, and the first bulge group is composed of a first bulge 21 and a second bulge 22; the distance from the first bulge 21 to the main stone fixing seat 1 is equal to the distance from the second bulge 22 to the main stone fixing seat 1; a first groove 23 is formed in the side face, close to the second protrusion 22, of the first protrusion 21, one end, close to the main stone fixing seat 1, of the first groove 23 extends to the edge of the side face where the first groove is located, namely, the end, close to the main stone fixing seat 1, of the first groove 23 is not blocked, and therefore jewels can conveniently slide in along the first groove 23 while being clamped into the first groove 23; a second groove 24 is formed in the side face, close to the first protrusion 21, of the second protrusion 22, one end, close to the main stone fixing seat 1, of the second groove 24 extends to the edge of the side face where the second groove is located, namely, the end, close to the main stone fixing seat 1, of the second groove 24 is not blocked, and therefore jewels can conveniently slide in along the second groove 24 while being clamped into the second groove 24; the second groove 24 is mirror symmetrical to the first groove 23. Firstly, the surrounding stone 4 with matched size can be clamped into the gap between the first protrusion 21 and the second protrusion 22 along the first groove 23 and the second groove 24, and finally, the surrounding stone fixing seat 2 is sleeved outside the main stone fixing seat 1. The surrounding stone 4 can not fall off under the blocking of the first groove 23, the second groove 24 and the main stone fixing seat 1. The assembling process does not need special tool processing, the method is simple, and the processed surrounding stone 4 cannot be damaged.

Example 2

On the basis of the structure, a first central axis of the first groove 23 is intersected with a second central axis of the second groove 24, and the intersection point and the main stone fixing seat 1 are arranged on two sides of the first bulge group; the first central axis is parallel to the length direction of the first groove 23, and the second central axis is parallel to the length direction of the second groove 24. At this time, the jewel is not easily dropped from the side of the first projection group away from the main stone holder 1.

Example 3

On the basis of the structure, the first bulge groups are 2-30 groups and are uniformly distributed on the end surface of the surrounding stone fixing seat 2; the first bulges 21 in one first bulge group and the second bulges 22 in another adjacent first bulge group are integrally formed, so that the attractiveness of the structure is improved; the surrounding stone fixing seat 2 is also provided with third grooves 25 the number of which is matched with that of the first bulge groups; the third grooves 25 are located between the first protrusions 21 and the second protrusions 22 and are radially arranged; one end of the third groove 25 close to the main stone fixing seat 1 extends to the edge of the end face where the third groove is located. When the jewelry of adopting is the diamond, third recess 25 is used for fixed diamond bottom most advanced, can not appear causing the problem of diamond girdle damage because of thrust is inhomogeneous when guaranteeing the equipment, has also guaranteed the stationarity of the diamond after the equipment simultaneously.

Example 4

On the basis of the structure, the main stone fixing seat 1 is composed of a first portion and a second portion, and the main stone 3 is fixed together after splicing and combining, so that the main stone 3 is ensured to be assembled without being embedded by using tools. The first part is provided with a first supporting surface 14 for supporting the main stone 3 and a second bulge group for preventing the main stone 3 from falling off, the second bulge group is composed of at least one third bulge 12, and a fourth groove 13 is arranged on the side surface of the third bulge 12 close to the main stone 3; the second portion is provided with a second supporting surface 17 for supporting the main stone 3 and a third protruding group for preventing the main stone 3 from falling off, the third protruding group is composed of at least one fourth protrusion 18, and a fifth groove 19 is formed in the side surface, close to the main stone 3, of the fourth protrusion 18. The first supporting surface 14 and the second supporting surface 17 are combined together to play a role of bearing the main stone 3, and the shapes of the two can be adjusted according to the bottom shape of the jewelry; the fourth groove 13 and the fifth groove 19 are combined together to prevent the main stone 3 from falling off.

Example 5

On the basis of the structure, a fifth bulge 15 and a sixth groove are further arranged on the side surface, close to the second part, of the first part, and a seventh groove matched with the fifth bulge 15 and a sixth bulge 16 matched with the sixth groove are further arranged on the side surface, close to the first part, of the second part. The fifth bulge 15 is inserted into the seventh groove, and after the sixth bulge 16 is inserted into the sixth groove, the first part and the second part are spliced, and at the moment, the main stone 3 is fixed in the main stone fixing seat 1.

Example 6

On the basis of the structure, the first part and the second part have the same shape and size, and are machined in a standardized manner by using numerical control (CNC), so that the machining cost is reduced; the main stone fixing seat 1 is cylindrical, and the side surface of the main stone fixing seat, which is close to the surrounding stone fixing seat 2, is provided with first revolution surfaces 11, the number of which is matched with that of the first bulge groups, namely the first revolution surfaces 11 are arranged on the first part and the second part; the generatrix of the first revolution surface 11 is vertical to the end surface of the surrounding stone fixing seat 2; the axis of the first revolution surface 11 and the main stone 3 are respectively arranged at two sides of the first revolution surface 11. The used surrounding stone 4 is generally circular in outline in a plan view, and when the first circular-arc-shaped revolution surface 11 is adopted to block the surrounding stone 4, the blocking effect is better.

Example 7

On the basis of the structure, the inner ring side surface of the enclosing stone fixing seat 2 is provided with a second revolution surface 26 matched with the first revolution surface 11, and the intersection of two adjacent second revolution surfaces 26 is positioned beside the joint of two adjacent first protrusion groups. During the equipment, after first surface of revolution 11 and second surface of revolution 26 combine, can not rotate each other between enclosing stone fixing base 2 and the main stone fixing base 1, reach and protect enclosing stone 4, prevent the effect that encloses stone 4 and drop. The third bulge 12 or the fourth bulge 18 is positioned beside the joint of two adjacent first revolution surfaces 11; the fourth groove 13 and the fifth groove 19 are both arc-shaped grooves, and are located on the same cylindrical curved surface, the cylindrical curved surface is intersected with the second revolution surface 26, at the moment, the edge of the main stone 3 with a circular overlooking outline is also located on the cylindrical curved surface, and therefore after the assembly is completed, the edge of the main stone 3 can also play a role in blocking the surrounding stone from falling off.

Example 8

A jewelry assembling method adopts the jewelry mosaic assembling structure and a manual mode and comprises the following assembling steps:

s1: from the side close to the main stone fixing seat 2, along the first groove 23 and the second groove 24, the enclosing stone 4 with matched size is clamped into the gap between the first protrusion 21 and the second protrusion 22.

S2: and (3) putting the main stone 3 with the matched size on the first supporting surface 14 of the first part, embedding the edge of the main stone 3 into the fourth groove 13, and splicing and combining the second part and the first part to obtain the main stone fixing seat 1 with the main stone 3. The surrounding stone fixing seat 2 is sleeved outside the main stone fixing seat 1 provided with the main stone 3.

The surrounding stone 3 can not fall off under the blocking of the first groove 23, the second groove 24 and the main stone fixing seat 1; the main stone 3 cannot fall off due to the blocking of the fourth groove 13 and the fifth groove 19. The assembling process does not need special tool processing, and the method is simple, and the processed surrounding stone and main stone can not be damaged.

Example 9

A jewelry assembly method adopts the jewelry mosaic assembly structure and the numerical control mode, the main stone 3 and the surrounding stone 4 are round diamonds with matched sizes after being screened, and the jewelry assembly method comprises the following assembly steps:

s0: according to the size of the surrounding stone 4, firstly, CNC machining is carried out on a first groove 23, a second groove 24 and a third groove 25 in the surrounding stone fixing seat 2 by using a customized cutter, so that the surrounding stone 4 is attached to the groove position; the adopted cutters comprise T-shaped cutters and taper cutters.

S1: from one side close to the main stone fixing seat 1, the waist edges of the surrounding stones 4 are clamped into the first grooves 23 and the second grooves 24; along the first groove 23 and the second groove 24, a surrounding stone 4 of a matching size is snapped into the gap between the first protrusion 21 and the second protrusion 22.

S2: and (3) putting the main stone 3 with the matched size on the first supporting surface 14 of the first part, clamping the waist edge of the main stone 3 into the fourth groove 13, simultaneously clamping the waist edge of the main stone 3 into the fifth groove 19 when splicing the second part, and completing splicing and combining the second part and the first part to obtain the main stone fixing seat 1 with the main stone 3. Enclose stone fixing base 2 and place in main stone fixing base 1 below, main stone fixing base 1 moves down until will enclose stone fixing base 2 cover outside main stone fixing base 1 that is equipped with main stone 3.

After CNC processing, first recess 23, second recess 24 and third recess 25 and enclose stone 4 laminating for enclose stone 4's size and trench matching degree higher, can guarantee that after the manual equipment, the equipment precision control is within 0.02 mm. In addition, the enclosing stone fixing seat 2 manufactured by the same die can ensure that the slot position can be suitable for being filled with the enclosing stone 4 with certain size difference after being processed by CNC. The surrounding stone 3 can not fall off under the blocking of the first groove 23, the second groove 24 and the main stone fixing seat 1; the main stone 3 cannot fall off due to the blocking of the fourth groove 13 and the fifth groove 19. The assembling process does not need special tool processing, the method is simple, and the processed surrounding stone 3 and the main stone 4 can not be damaged.

In the embodiment, through the application of an innovative structure principle, the combined form of the surrounding stone 4 tends to be perfect, the defect that the traditional method cannot achieve nondestructive production is fundamentally overcome, and through the breakthrough of a new process method, ordinary people can operate on duty through simple training, so that zero-threshold production and assembly and high-quality products can be manufactured efficiently.

In summary, in the jewelry inlaying and assembling structure and the corresponding jewelry assembling method provided by the invention, the surrounding stones cannot fall off due to the blockage of the first groove, the second groove, the edge of the main stone and the main stone fixing seat; the main stone can not fall off due to the blocking of the fourth groove and the fifth groove. The jewelry assembling method does not need special tools for processing in the assembling process, is simple, cannot damage processed surrounding stones and main stones, and cannot touch the shape of the surrounding stone claws, fundamentally overcomes the defect that the traditional method cannot achieve nondestructive production, has no work experience requirement on assembling personnel, can perform standard automatic production through numerical control equipment, has high assembling precision and stable and controllable quality, and reduces the dependence on human skills.

The first … … and the second … … are only used for name differentiation and do not represent how different the importance and position of the two are.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (7)

1. A jewelry inlaying and assembling structure comprises a main stone fixing seat and a surrounding stone fixing seat, wherein the surrounding stone fixing seat is annular and is sleeved outside the main stone fixing seat; the distance from the first protrusion to the main stone fixing seat is equal to the distance from the second protrusion to the main stone fixing seat; a first groove is formed in the side face, close to the second protrusion, of the first protrusion, and one end, close to the main stone fixing seat, of the first groove extends to the edge of the side face where the first groove is located; a second groove is formed in the side face, close to the first protrusion, of the second protrusion, and one end, close to the main stone fixing seat, of the second groove extends to the edge of the side face where the second groove is located; the second groove is in mirror symmetry with the first groove;

a first central axis of the first groove is intersected with a second central axis of the second groove, and the intersection point and the main stone fixing seat are divided at two sides of the first bulge group; the first central axis is parallel to the length direction of the first groove, and the second central axis is parallel to the length direction of the second groove;

the first bulge groups are 2-30 and are uniformly distributed on the end surface of the surrounding stone fixing seat; the first bulges in one first bulge group are integrally formed with the second bulges in another adjacent first bulge group; the surrounding stone fixing seat is also provided with third grooves the number of which is matched with that of the first bulge groups; the third grooves are positioned between the first bulges and the second bulges and are radially arranged; one end of the third groove close to the main stone fixing seat extends to the edge of the end face where the third groove is located;

the main stone fixing seat is composed of a first part and a second part, the first part is provided with a first supporting surface for supporting the main stone and a second bulge group for preventing the main stone from falling off, the second bulge group is composed of at least one third bulge, and a fourth groove is formed in the side surface, close to the main stone, of each third bulge; the second portion is provided with a second supporting surface for supporting the main stone and a third protruding group for preventing the main stone from falling off, the third protruding group is composed of at least one fourth protrusion, and a fifth groove is formed in the side face, close to the main stone, of the fourth protrusion.

2. The jewelry setting assembly of claim 1, wherein said first portion is further provided with a fifth projection and a sixth recess on a side of said first portion adjacent to said second portion, and said second portion is further provided with a seventh recess matching said fifth projection and a sixth projection matching said sixth recess on a side of said second portion adjacent to said first portion.

3. The jewelry setting assembly of claim 2, wherein said first portion and said second portion are of uniform shape and size; the main stone fixing seat is cylindrical, and the side surface of the main stone fixing seat close to the surrounding stone fixing seat is provided with first rotary surfaces the number of which is matched with that of the first bulge groups; the first revolution surface bus is perpendicular to the end face of the surrounding stone fixing seat; the axis of the first revolution surface and the main stone are arranged on two sides of the first revolution surface.

4. The jewelry setting assembly structure of claim 3, wherein the inner ring side of said enclosing stone fixing seat is provided with a second revolution surface matching with said first revolution surface, and the intersection of two adjacent said second revolution surfaces is positioned beside the connection of two adjacent first protrusion sets; the third bulge or the fourth bulge is positioned beside the joint of two adjacent first revolution surfaces; the fourth groove and the fifth groove are both arc-shaped grooves and are positioned on the same cylindrical curved surface, and the cylindrical curved surface is intersected with the second revolution surface.

5. A method of assembling jewelry, using the jewelry setting assembly of any one of claims 1 to 4, comprising the steps of:

s1: from one side close to the main stone fixing seat, along the first groove and the second groove, the surrounding stone with the matched size is clamped into a gap between the first protrusion and the second protrusion;

s2: the surrounding stone fixing seat is sleeved outside the main stone fixing seat provided with the main stone.

6. The jewelry assembling method according to claim 5, further comprising, before performing step S2, a stone main assembling step of: putting the main stone with the matched size on the first supporting surface of the first part, embedding the edge of the main stone into the fourth groove, and splicing and combining the second part and the first part to obtain the main stone fixing seat provided with the main stone; the main stone and the surrounding stone are diamonds, the waist edges of the main stone are clamped into the fourth groove and the fifth groove, and the waist edges of the surrounding stone are clamped into the first groove and the second groove; during assembly, the diamonds are assembled manually.

7. The jewelry assembly method according to claim 6, wherein, before assembling the main stone and the surrounding stone, the first groove, the second groove and the third groove in the surrounding stone fixing seat are subjected to CNC modeling processing by using a customized cutter; the adopted cutters comprise T-shaped cutters and taper cutters.

Images