CN219349286U - Magnet spectacle frame - Google Patents
Magnet spectacle frame Download PDFInfo
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- CN219349286U CN219349286U CN202320805577.4U CN202320805577U CN219349286U CN 219349286 U CN219349286 U CN 219349286U CN 202320805577 U CN202320805577 U CN 202320805577U CN 219349286 U CN219349286 U CN 219349286U
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Abstract
The utility model discloses a magnet glasses frame, which comprises a main frame and a front frame. The front frame is detachably attached to the front of the main frame. The main frame includes first layer and the second layer of moulding plastics, and first layer and the second layer of moulding plastics combine. A first magnet is disposed on the first injection molding layer. The second injection molding layer covers the first magnet, so that the first magnet is sealed between the first injection molding layer and the second injection molding layer. The front frame comprises a third injection molding layer and a fourth injection molding layer, and the third injection molding layer is combined with the fourth injection molding layer. And a second magnet is placed on the third injection molding layer. The fourth injection molding layer covers the second magnet, so that the second magnet is sealed between the third injection molding layer and the fourth injection molding layer.
Description
Technical Field
The utility model relates to the technical field of glasses, in particular to a magnet glasses frame
Background
With the improvement of the living standard of people, glasses become a living mode of many people. Glasses have been more than just in terms of their functional protection against radiation, vision correction, etc. More people are beginning to put new demands on the decorative function of the glasses when they are worn. Based on this, some glasses with replaceable glasses frames are also coming out on the market. Typically, such eyeglasses include a main frame and a front frame. The main frame is similar to a conventional spectacle frame. Most eyeglass frames consist of brow frames, eyeglass legs, connecting pieces (such as hinges) and the like; the lens is fixed in the picture frame, and the picture frame is located the eyebrow frame below, and the nose holds in the palm and installs in the picture frame inboard, and the mirror leg passes through connecting piece and eyebrow frame swing joint. The front frame is detachably connected to the main frame in a certain mode. By rapid replacement of the front frame, a variety of eyeglass frames, including patterns, colors, and the like, can be achieved. Therefore, such glasses are also required to have a relatively high aesthetic degree. However, in order to realize quick replacement of the front frame, the conventional spectacle frame mostly uses a magnet adsorption manner to realize connection between the front frame and the main frame. In the production of such magnet eyeglass frames, the prior art generally utilizes injection molding of an eyeglass frame having magnet mounting holes. The magnet assembly hole has a one-way opening through which a magnet can be manually inserted into the magnet assembly hole. Finally, the opening is polished by sealing or other means to provide a degree of uniformity between the opening and the frame body.
However, this prior art approach requires manual secondary grinding after the magnets are later inserted to ensure a good transition and uniformity between the opening and the frame. In addition, since the eyeglass frame is provided with an obvious opening, even though the eyeglass frame is manually polished in a later period, the unevenness caused by chromatic aberration, materials and the like between the eyeglass frame and the opening cannot be reduced. The abrupt assembly marks left by the magnets on the front frame and the main frame seriously damage the integrity of the glasses, and reduce the original purpose of the replaceable glasses for pursuing beauty.
Disclosure of Invention
In view of the above, the present utility model provides a magnet glasses frame. The magnet glasses frame provided by the utility model realizes the appearance of a more integrated glasses frame with more practical and low cost. The spectacle frame has no assembly trace remained, and the consistency of the appearance of the spectacle frame is well realized.
The magnet glasses frame provided by the utility model comprises a main frame and a front frame; the front frame is detachably attached to the front of the main frame.
The main frame comprises a first injection molding layer and a second injection molding layer, and the first injection molding layer is combined with the second injection molding layer. A first magnet positioning point is arranged on the first surface of the first injection molding layer, and a first magnet is placed on the first magnet positioning point. The second injection molding layer covers the first surface and the first magnet arranged on the first surface, so that the first magnet is sealed between the first injection molding layer and the second injection molding layer, and the first surface is the surface, close to the second injection molding layer, of the first injection molding layer.
The front frame comprises a third injection molding layer and a fourth injection molding layer, and the third injection molding layer is combined with the fourth injection molding layer. And a second magnet positioning point is arranged on the second surface of the third injection molding layer, and a second magnet is placed on the second magnet positioning point. The fourth injection molding layer covers the second surface and a second magnet placed on the second surface, so that the second magnet is sealed between the third injection molding layer and the fourth injection molding layer, and the second surface is a surface, close to the fourth injection molding layer, on the third injection molding layer.
In some embodiments, the first injection molding layer, the second injection molding layer, the third injection molding layer, and the fourth injection molding layer are implemented by a double-color injection molding machine.
In some embodiments, the first magnet and the second magnet are N52 ru-fe-b magnets.
In some embodiments, the first magnet positioning point is a cavity with a single opening formed on the first surface in a concave manner; the first magnet is placed in the cavity and forms a tight fit with the cavity.
In some embodiments, the second magnet positioning point is a cavity with a single opening formed on the second surface in a concave manner; the second magnet is placed in the cavity and forms a tight fit with the cavity.
In some embodiments, the first magnet positioning point is a cavity with a single opening formed by protruding from the first surface; the first magnet is placed in the cavity and forms a tight fit with the cavity.
In some embodiments, the second magnet positioning point is a cavity with a single opening formed by protruding from the second surface; the second magnet is placed in the cavity and forms a tight fit with the cavity.
The utility model realizes the production and assembly of the magnet spectacle frame through twice injection molding, and produces the magnet spectacle frame with more integral appearance. On the magnet glasses frame provided by the utility model, no opening remains on the front frame and the main frame. The product has good color consistency and high uniformity in the whole appearance.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic structural view of a main frame of a magnet glasses frame according to an embodiment of the present utility model.
Fig. 2 is an exploded view of a main frame of a magnet eyeglass frame according to an embodiment of the present utility model.
Fig. 3 is a schematic structural view of a front frame of a magnet glasses frame according to an embodiment of the present utility model.
Fig. 4 is an exploded view of a front frame of a magnet eyeglass frame in accordance with an embodiment of the present utility model.
Description of the embodiments
The present utility model will be described more fully hereinafter in order to facilitate an understanding of the present utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
As shown in fig. 1 to 4, the present utility model provides a magnet glasses frame. The magnet glasses frame comprises a main frame 1 and a front frame 2. Wherein the front frame 2 is detachably attached to the front of the main frame 1. In use, the front frame 1 is attached to the front of the main frame 1. It can be appreciated that the front frame can have a variety of styles, and the shape, color, etc. of the front frame can be customized. Through changing various self-defined front frames fast, the user can improve the suitability of glasses in various scenes.
More specifically, as shown in fig. 1 to 2, the main frame 1 includes a first injection-molded layer 11 and a second injection-molded layer 12. The first injection-molded layer 11 and the second injection-molded layer 12 are bonded. The first injection-molded layer 11 and the second injection-molded layer 12 are combined, being formed by two-shot injection molding. In this embodiment, the first injection layer 11 is first injection molded by a two-shot injection molding machine, and then the second injection layer 12 is injection molded on the basis of the first injection layer 11. The first injection-molded layer 11 and the second injection-molded layer 12 do not need to be combined by other connection modes.
Based on the combination of the first injection-molded layer 11 and the second injection-molded layer 12, the first injection-molded layer 11 has a surface close to the second injection-molded layer 12 and a surface far from the second injection-molded layer 12. In the present embodiment, the surface of the first injection layer 11 having the proximity to the second injection layer 12 is defined as a first surface 111. It will be appreciated that the bi-color injection molding machine continues to injection mold the second injection layer 12 onto the first surface 111 of the first injection layer 11 after injection of the first injection layer 11 is completed.
In this embodiment, a first magnet anchor point 112 is disposed on the first surface 111. The first magnet 3 is placed on the first magnet positioning point 112. The second injection molding layer 12 covers the first surface 111 and the first magnet 3 disposed on the first surface 111, so that the first magnet 3 is sealed between the first injection molding layer 11 and the second injection molding layer 12. Here, the sealing means that the first injection molding layer 11 and the second injection molding layer 12 form a closed space, and the first magnet 3 is sealed between the first injection molding layer 11 and the second injection molding layer 12. It should be noted that the first injection layer 11 and the second injection layer 12 are both injection molded once and the injection time intervals of the two are close enough to enable the two to be closely bonded together. The first injection layer 11 and the second injection layer 12 formed by one injection molding have complete surfaces. No additional openings are required to accommodate the first magnets 3.
As shown in fig. 3 to 4, the front frame 2 includes a third injection-molded layer 21 and a fourth injection-molded layer 22. The third injection-molded layer 21 and the fourth injection-molded layer 22 are combined. The third injection-molded layer 21 and the fourth injection-molded layer 22 are combined and formed by two-shot injection molding. In this embodiment, the third injection layer 21 is first injection molded by a two-shot injection molding machine, and then the fourth injection layer 22 is injection molded on the basis of the third injection layer 21. The third injection-molded layer 21 and the fourth injection-molded layer 22 do not need to be combined by other connection modes.
Based on the combination of the third injection-molded layer 21 and the fourth injection-molded layer 22, the third injection-molded layer 21 has a surface close to the fourth injection-molded layer 22 and a surface distant from the fourth injection-molded layer 22. In the present embodiment, the surface of the third injection layer 21 having the surface close to the fourth injection layer 22 is defined as a second surface 211. It will be appreciated that the bi-color injection molding machine continues to injection mold the fourth injection molded layer 22 onto the second surface 211 of the third injection molded layer 21 after injection and completion of the injection molding of the third injection molded layer 21.
In this embodiment, a second magnet anchor point 212 is disposed on the second surface 211. The second magnet 4 is placed on the second magnet positioning point 212. The fourth injection molding layer 22 covers the second surface 211 and the second magnet 4 disposed on the second surface 211, so that the second magnet 4 is sealed between the third injection molding layer 21 and the fourth injection molding layer 22. The sealing here means that the third injection-molded layer 21 and the fourth injection-molded layer 22 form a closed space, and the second magnet 4 is sealed between the third injection-molded layer 21 and the fourth injection-molded layer 22. It should be noted that the third injection layer 21 and the fourth injection layer 22 are each injection molded once and the injection molding time intervals of the two are close enough to enable the two to be closely bonded together. The third injection layer 21 and the fourth injection layer 22 formed by one injection molding have complete surfaces. No additional openings are required to accommodate the second magnets 4.
It should be appreciated that in the present embodiment, the first magnet anchor point 112 and the second magnet anchor point 212 may have a plurality to increase the number of the first magnet 3 and the second magnet 4 that can be placed. By increasing the number of magnets, the connection strength and stability between the front frame and the main frame can be enhanced. In some embodiments, the first magnet 3 and the second magnet 4 are N52 ru-fe-b magnets.
In some embodiments, the first magnet anchor 112 may be a cavity with a single opening formed in the first surface 111. The first magnet 3 is placed in the cavity and forms a tight fit with the cavity. Likewise, the second magnet anchor point 212 may be a cavity with a single opening formed in the second surface 211. The second magnet 4 is placed in the cavity and forms a tight fit with the cavity.
In some other embodiments, the first magnet positioning point 112 may also be a cavity with a single opening formed protruding from the first surface 111. The first magnet 3 is placed in the cavity and forms a tight fit with the cavity. The second magnet positioning point 212 is a cavity with a single opening formed protruding from the second surface 211. The second magnet 4 is placed in the cavity and forms a tight fit with the cavity.
As shown in fig. 1 to 2, the two-shot injection molding machine performs injection molding at one time to complete the first injection molding layer 11 when the main frame 1 is produced and manufactured. The first injection layer 11 has a first magnet anchor point 112. The first magnet 3 is placed in the first magnet anchor point 112. The first magnet 3 and the first magnet anchor point 112 form a tight fit ensuring that the first magnet 3 does not move when the bi-injection machine is injecting the second injection layer 12. After the first magnet 3 is placed, the two-shot injection molding machine then begins to injection mold the second injection layer 12 onto the first surface 111 of the first injection layer 11. The second injection-molded layer 12 is formed to cover the first surface 111 and the first magnet 3 to enclose the first magnet 3 between the first injection-molded layer 11 and the second injection-molded layer 12. It should be noted that the second injection molded layer is also one shot so that the second injection molded layer forms a complete appearance. When the first magnet 3 is placed at the first magnet positioning point 112, the first magnet 3 is a magnet having no magnetism. After the second injection molding layer 12 is completed, the first magnet 3 is magnetized, so that the influence of high-temperature injection molding on the magnetic size of the magnet is avoided.
As shown in fig. 3 to 4, the two-shot molding machine is shot at a time to complete the third injection molding layer 21 when the front frame 2 is produced and manufactured. The third injection layer 21 has a second magnet anchor point 212 thereon. The second magnet 4 is placed in the second magnet anchor point 212. The second magnet 4 and the second magnet anchor point 212 form a tight fit ensuring that the second magnet 4 does not move when the bi-injection machine is injecting the fourth injection layer 22. After the placement of the second magnet 4 is completed, the two-shot injection molding machine then begins to injection mold the fourth injection layer 22 onto the second surface 211 of the third injection layer 21. The fourth injection-molded layer 22 is formed to cover the second surface 211 and the second magnet 4 to enclose the second magnet 4 between the third injection-molded layer 21 and the fourth injection-molded layer 22. It should be noted that the second injection molded layer is also one shot so that the second injection molded layer forms a complete appearance. When the second magnet 4 is placed at the second magnet positioning point 212, the second magnet 4 is a magnet having no magnetism. After the fourth injection molding layer 22 is completed, the second magnet 4 is magnetized, so that the influence of high-temperature injection molding on the magnetic size of the magnet is avoided.
It will be appreciated that in use, the front frame 2 can be easily attached to the main frame 1 due to the attraction of the first magnet 3 and the second magnet 4 to each other. Therefore, the first magnet 3 and the second magnet 4 are disposed so as to correspond to each other at the positions of the main frame 1 and the front frame 2, respectively, and the first magnet 3 and the second magnet 4 can be attracted to each other more favorably. Referring to fig. 1 to 4, the main frame 1 has four first magnets 3. Four second magnets 4 are provided on the front frame 2. The first magnet 3 and the second magnet 4 are positioned to correspond to each other. In fig. 1 to 4, the first magnets are located on the cross frame of the main frame and distributed at four positions relatively stable on the main frame structure. The second magnets are arranged on the transverse frame of the front frame and distributed at four positions which are relatively stable on the front frame structure. The positions and the numbers of the first magnets 3 and the second magnets 4 correspond to each other, so that the attractive force between the main frame 1 and the front frame 2 is increased, the matching degree of the main frame 1 and the front frame 2 is better, and the matching of the main frame 1 and the front frame 2 cannot be lost due to the action of a user when the main frame is worn.
The utility model realizes the production and assembly of the magnet spectacle frame through twice injection molding, and produces the magnet spectacle frame with more integral appearance. On the magnet spectacle frame provided by the utility model, no opening remains on the front frame and the main frame, and the uniformity is high. The magnet spectacle frame provided by the utility model does not need to be manually polished for the second time in the later period. The whole appearance of the product is consistent, and the problems of opening, chromatic aberration, height difference and the like which influence the appearance of the product are avoided due to materials, processes or structures.
Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted equally without departing from the spirit and scope of the technical solution of the present utility model.
Claims (7)
1. A magnet glasses frame comprises a main frame and a front frame; the front frame is detachably attached to the front of the main frame; the method is characterized in that:
the main frame comprises a first injection molding layer and a second injection molding layer, and the first injection molding layer and the second injection molding layer are combined; a first magnet positioning point is arranged on the first surface of the first injection molding layer, and a first magnet is placed on the first magnet positioning point; the second injection molding layer covers the first surface and a first magnet arranged on the first surface, so that the first magnet is sealed between the first injection molding layer and the second injection molding layer; wherein the first surface is a surface of the first injection molding layer close to the second injection molding layer;
the front frame comprises a third injection molding layer and a fourth injection molding layer, and the third injection molding layer and the fourth injection molding layer are combined; a second magnet positioning point is arranged on the second surface of the third injection molding layer, and a second magnet is placed on the second magnet positioning point; the fourth injection molding layer covers the second surface and a second magnet placed on the second surface, so that the second magnet is sealed between the third injection molding layer and the fourth injection molding layer; wherein the second surface is a surface of the third injection molding layer close to the fourth injection molding layer.
2. The magnet glasses frame according to claim 1, wherein the first, second, third and fourth injection layers are realized by a two-shot injection molding machine; and the first injection molding layer, the second injection molding layer, the third injection molding layer and the fourth injection molding layer are all formed by one-time injection molding.
3. The magnet holder according to claim 1, wherein the first magnet and the second magnet are N52 ru-fe-b magnets.
4. The magnet holder according to claim 1, wherein the first magnet anchor point is a cavity with a single opening formed in the first surface in a concave manner; the first magnet is placed in the cavity and forms a tight fit with the cavity.
5. The magnet holder according to claim 1, wherein the second magnet anchor point is a cavity with a single opening formed in the second surface in a concave manner; the second magnet is placed in the cavity and forms a tight fit with the cavity.
6. The magnet holder according to claim 1, wherein the first magnet anchor point is a cavity with a single opening formed protruding from the first surface; the first magnet is placed in the cavity and forms a tight fit with the cavity.
7. The magnet holder according to claim 1, wherein the second magnet anchor point is a cavity with a single opening formed protruding from the second surface; the second magnet is placed in the cavity and forms a tight fit with the cavity.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320805577.4U CN219349286U (en) | 2023-04-12 | 2023-04-12 | Magnet spectacle frame |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320805577.4U CN219349286U (en) | 2023-04-12 | 2023-04-12 | Magnet spectacle frame |
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CN219349286U true CN219349286U (en) | 2023-07-14 |
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CN202320805577.4U Active CN219349286U (en) | 2023-04-12 | 2023-04-12 | Magnet spectacle frame |
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- 2023-04-12 CN CN202320805577.4U patent/CN219349286U/en active Active
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