Multifunctional flexible temples
By using the embedded groove structure of the stake head, connecting piece, rotating block and slingshot core, the problems of high production cost and insufficient damage resistance of existing eyeglass temples are solved, realizing multi-directional swing function and convenient replacement.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN HONGXINGCHEN GLASSES CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-30
AI Technical Summary
Existing multi-directional swing eyeglass temples rely on screws or rivets for component connection, resulting in high production costs, low efficiency, and insufficient product damage resistance.
The structure uses a pile head, connecting plate, rotating block, slingshot core and foot body connected by an embedded groove and slingshot core to achieve a movable connection, eliminating screws or rivets, and making the structure simple and stable.
It enables multi-directional swing function of the temples of the eyeglasses, reduces production costs, improves damage resistance, and simplifies the component replacement process.
Smart Images

Figure CN224436703U_ABST
Abstract
Description
[Technical Field]
[0001] This utility model relates to the field of eyeglass temples, and more particularly to a multifunctional elastic eyeglass temple. [Background Technology]
[0002] Eyeglasses are a widely used eye aid. Some existing eyeglass temples can swing in multiple directions to increase the eyeglasses' resistance to damage. However, existing multi-directional swinging eyeglass temples still have the following shortcomings: the components such as the studs and temples that make up the eyeglass temples are connected by screws or rivets. This connection structure, when applied to small objects like eyeglass temples, has problems such as high production costs, low production efficiency, and the need for specialized tools to replace damaged components. In addition, the product's resistance to damage needs to be improved. [Utility Model Content]
[0003] The purpose of this invention is to solve the aforementioned problems of current multi-directional swing eyeglass temples and to provide a multifunctional elastic eyeglass temple.
[0004] This utility model is achieved through the following technical solution: a multifunctional elastic eyeglass temple, comprising a post, a connecting piece, a rotating block, a spring core, and a temple body. The post is a connection structure between the eyeglass temple and the eyeglass frame. The front end of the post is connected to the eyeglass frame, and the end of the post has an embedding groove. The front end of the connecting piece is embedded and welded to the embedding groove at the end of the post, and the end of the connecting piece has a connecting through hole. The front end of the rotating block has a longitudinal embedding groove, and the end of the rotating block has a transverse embedding groove. The end of the connecting piece is inserted into the longitudinal embedding groove at the front end of the rotating block. The longitudinal embedding groove at the front end of the rotating block, the transverse embedding groove at the end of the rotating block, and the end of the connecting piece... The connecting through holes are interconnected in an alternating manner. The front end of the slingshot core has a hook facing the eyeglass frame, and the other side of the front end of the slingshot core has a separation protrusion. The hook at the front end of the slingshot core passes through the longitudinal embedding groove at the front end of the rotating block, the transverse embedding groove at the end of the rotating block, and the connecting through hole at the end of the connecting piece. The lower half of the slingshot core has an external thread structure or a rivet structure. The front end of the foot body has an internal thread blind hole or rivet hole corresponding to the lower half of the slingshot core. The lower half of the slingshot core is connected and fixed in the internal thread blind hole or rivet hole at the front end of the foot body through the external thread structure or rivet structure. The combined structure of the stake, connecting piece, and rotating block is movably connected to the foot body through the slingshot core.
[0005] Furthermore, the combined structure of the pile head and the connecting piece swings up and down along the longitudinal embedding groove at the front end of the rotating block, and the combined structure of the pile head, the connecting piece and the rotating block swings left and right along the transverse embedding groove at the end of the rotating block.
[0006] Furthermore, the ends of the pile heads are located on the bottom surfaces of both sides of the connecting piece, and both are in an inner arc shape to avoid rotation.
[0007] Furthermore, the corners connecting the left and right ends of the rotating block to the side of the rotating block are rounded corners that avoid interference during rotation, and the side of the rotating block facing the eyeglass frame is a flat surface.
[0008] Furthermore, the separation protrusion at the front end of the slingshot core is a force-bearing structure that allows external force to pull upwards and disassemble the combined structure of the stake head, connecting piece, and rotating block from the combined structure of the slingshot core and foot body.
[0009] Furthermore, the pile head, connecting piece, rotating block, slingshot core, and foot are all metal structures.
[0010] Furthermore, the foot body is a stepped cylindrical structure with a large front end, a medium front section, and a small middle and end section.
[0011] The beneficial effects of this utility model are as follows: the components are connected and cooperated through various connecting grooves and slingshot cores to realize a multi-directional swing temple structure. There is no need to connect them with screws or rivets. The overall structure of the temple is simple and stable, and its damage resistance is significantly improved compared with traditional multi-directional swing temples. Moreover, the structure is ingenious. When the temple or frame needs to be replaced, only a small hard object such as a small iron piece is needed to pull the slingshot core upward with force. This eliminates the pulling force of the hook of the slingshot core on the combination structure of the stake, connecting piece and rotating block. The combination structure of the stake, connecting piece and rotating block can be taken out along the hook side, realizing the separation of the temple and the frame, which is convenient for replacement. [Attached Image Description]
[0012] Figure 1 This is a schematic diagram of the structure of this utility model;
[0013] Figure 2 This is an exploded view of the present invention;
[0014] Reference numerals: 1. Pile head; 2. Connecting piece; 3. Rotating block; 4. Slingshot core; 41. Hook; 42. Separating protrusion; 5. Foot.
Detailed Implementation Methods
[0015] The present invention will be further described below with reference to the accompanying drawings and specific embodiments:
[0016] like Figure 1 , Figure 2As shown, a multifunctional elastic temple of eyeglasses includes a post 1, a connecting piece 2, a rotating block 3, a slingshot core 4, and a temple body 5. The post 1 is the connection structure between the temple and the eyeglass frame. The front end of the post 1 is connected to the eyeglass frame, and the end of the post 1 has an embedding groove. The front end of the connecting piece 2 is embedded and welded to the embedding groove at the end of the post 1, and the end of the connecting piece 2 has a connecting through hole. The front end of the rotating block 3 has a longitudinal embedding groove, and the end of the rotating block 3 has a transverse embedding groove. The end of the connecting piece 2 is inserted into the longitudinal embedding groove at the front end of the rotating block 3. The longitudinal embedding groove at the front end of the rotating block 3, the transverse embedding groove at the end of the rotating block 3, and the connecting through hole at the end of the connecting piece 2 are interleaved and connected. The slingshot core 4 has a hook 41 at its front end facing the eyeglass frame, and a separation protrusion 42 at the other front end. The hook 41 at the front end of the slingshot core 4 passes through the longitudinal embedding groove at the front end of the rotating block 3, the transverse embedding groove at the end of the rotating block 3, and the connecting through hole at the end of the connecting piece 2. The lower half of the core of the slingshot core 4 has an external thread structure or a rivet structure. The front end of the foot body 5 has an internal thread blind hole or a rivet hole corresponding to the lower half of the slingshot core 4. The lower half of the slingshot core 4 is connected and fixed in the internal thread blind hole or rivet hole at the front end of the foot body 5 through the external thread structure or rivet structure. The combined structure of the stake 1, the connecting piece 2, and the rotating block 3 is movably connected to the foot body 5 through the slingshot core 4.
[0017] Preferably, the combined structure of the pile head 1 and the connecting piece 2 swings up and down along the longitudinal embedding groove at the front end of the rotating block 3, and the combined structure of the pile head 1, the connecting piece 2 and the rotating block 3 swings left and right along the transverse embedding groove at the end of the rotating block 3.
[0018] Preferably, the ends of the pile head 1 are located on the bottom surfaces of both sides of the connecting piece 2, and are in an inward arc shape to avoid rotation.
[0019] Preferably, the corners connecting the left and right ends of the rotating block 3 to the side of the rotating block 3 are rounded corners that are avoided during rotation, and the side of the rotating block 3 facing the eyeglass frame is a plane.
[0020] Preferably, the separation protrusion 42 at the front end of the slingshot core 4 is a force-bearing structure that uses external force to pull upwards and disassemble the combined structure of the pile head 1, connecting piece 2 and rotating block 3 from the combined structure of the slingshot core 4 and foot body 5.
[0021] Preferably, the pile head 1, connecting piece 2, rotating block 3, slingshot core 4, and foot 5 are all metal structures.
[0022] Preferably, the foot 5 is a stepped cylindrical structure with a large front end, a medium front section, and a small middle and end section.
[0023] Based on the disclosure and teachings of the above specification, those skilled in the art can make appropriate changes and modifications to the above embodiments. Therefore, this utility model is not limited to the specific embodiments disclosed and described above, and some modifications and changes to this utility model should also fall within the protection scope of the claims of this utility model. Furthermore, although some specific terms are used in this specification, these terms are only for convenience of explanation and do not constitute any limitation on this utility model.
Claims
1. A multifunctional elastic temple for eyeglasses, characterized in that: The device includes a stake head, a connecting piece, a rotating block, a slingshot core, and a foot. The stake head is the connection structure between the temple of the eyeglasses and the eyeglass frame. The front end of the stake head is connected to the eyeglass frame, and the end of the stake head has an embedding groove. The front end of the connecting piece is embedded and welded to the embedding groove at the end of the stake head, and the end of the connecting piece has a connecting through hole. The front end of the rotating block has a longitudinal embedding groove, and the end of the rotating block has a transverse embedding groove. The end of the connecting piece is inserted into the longitudinal embedding groove at the front end of the rotating block. The longitudinal embedding groove at the front end of the rotating block, the transverse embedding groove at the end of the rotating block, and the connecting through hole at the end of the connecting piece are interleaved and connected. The front end of the slingshot core has a hook facing the eyeglass frame, and the other side of the front end of the slingshot core has a separation protrusion. The hook at the front end of the slingshot core passes through the longitudinal embedding groove at the front end of the rotating block, the transverse embedding groove at the end of the rotating block, and the connecting through hole at the end of the connecting piece. The lower half of the slingshot core has an external thread structure or a rivet structure. The front end of the foot body has an internal thread blind hole or rivet hole corresponding to the lower half of the slingshot core. The lower half of the slingshot core is connected and fixed in the internal thread blind hole or rivet hole at the front end of the foot body through the external thread structure or rivet structure. The combined structure of the stake, connecting piece, and rotating block is movably connected to the foot body through the slingshot core.
2. The multi-functional flexible eyegrip of claim 1, wherein: The combined structure of the pile head and connecting piece swings up and down along the longitudinal embedding groove at the front end of the rotating block, and the combined structure of the pile head, connecting piece and rotating block swings left and right along the transverse embedding groove at the end of the rotating block.
3. The multi-functional flexible eyegrip of claim 1, wherein: The ends of the pile heads are located on the bottom surfaces of both sides of the connecting piece, and are in an inward arc shape to avoid rotation.
4. The multi-functional flexible eyegrip of claim 1, wherein: The corners connecting the left and right ends of the rotating block to the side of the rotating block are rounded corners that avoid interference during rotation, and the side of the rotating block facing the eyeglass frame is a flat surface.
5. The multi-functional flexible eyegrip of claim 1, wherein: The separation protrusion at the front end of the slingshot core is a force-bearing structure that allows external force to pull upwards, disassembling and separating the combined structure of the pile head, connecting piece, and rotating block from the combined structure of the slingshot core and foot body.
6. The multi-functional flexible eyegrip of claim 1, wherein: The pile head, connecting plate, rotating block, slingshot core, and foot are all metal structures.
7. The multi-functional flexible eyegrip of claim 1, wherein: The foot body is a stepped cylindrical structure with a large front end, a medium front section, and a small middle and end section.