Eyepiece ion pulse treatment device nosepiece assembly

By using a split front and rear frame structure and a conductive post design, the compatibility issue between the nose pads and existing glasses is solved, enabling convenient installation and a stable connection, while improving safety and waterproof performance.

CN224474623UActive Publication Date: 2026-07-10WOYI HEALTH TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WOYI HEALTH TECH CO LTD
Filing Date
2025-08-14
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

The nose pad structure of existing eye ion pulse therapy devices is difficult to adapt to existing eyeglasses, resulting in inconvenient installation and insufficient safety.

Method used

It adopts a front and rear split frame structure, with built-in symmetrically distributed metal nose pad supports. The conductive post extends out of the frame extension hole. The nose pad is a conductive structure, combined with triangular protrusions and stepped structure to enhance stability and water resistance. It also improves the limiting and protection through baffles and angled docking platforms.

Benefits of technology

It achieves convenient installation and secure connection of nose pads, improves safety and waterproof performance, and enhances the user experience while being compatible with existing glasses.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a nose pad assembly structure for an eye ion pulse therapy device. It includes a nose pad mounted on a glasses frame. The glasses frame has a front-to-back split structure, with symmetrically distributed metal nose pad supports built into it. The rear shell of the glasses frame has extension holes for the metal nose pad supports. A middle conductive post and a lower conductive post of the metal nose pad support extend from the extension holes, and the nose pad is inserted into the extended portions of the middle and lower conductive posts. The nose pad is a conductive structure. This utility model facilitates the perfect embedding and installation of two electrodes into the nose pad position of glasses, adapting to the structural layout requirements of eye therapy devices for teenagers.
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Description

Technical Field

[0001] This utility model relates to the field of negative ion technology, and in particular to a nose pad assembly structure for an eye ion pulse therapy device. Background Technology

[0002] The eye ion pulse therapy device developed for special groups such as teenagers aims to relieve their eye fatigue. However, the nose pad, an important component of the product, needs to be structurally compatible with existing glasses while ensuring safety and comfort. Utility Model Content

[0003] The purpose of this invention is to provide a nose pad assembly structure for an eye ion pulse therapy device that is compatible with existing eyeglasses while also being easy to install.

[0004] To solve the above-mentioned technical problems, the present invention provides a nose pad assembly structure for an eye ion pulse therapy device, which includes a nose pad mounted on a glasses frame. The glasses frame adopts a front and rear split structure, and the front and rear split structure has symmetrically distributed metal nose pad supports inside. The rear shell of the glasses frame is provided with an extension hole for the metal nose pad support. The middle conductive post and the lower conductive post of the metal nose pad support extend from the extension hole, and the nose pad is inserted into the extended portion of the extension hole of the middle conductive post and the lower conductive post. The nose pad is a conductive structure.

[0005] Furthermore, the metal nose bridge support has an inclined frame and a deflecting head disposed on the inclined frame.

[0006] Furthermore, the metal nose bridge is integrally molded.

[0007] Furthermore, the inclined frame and the deflecting head adopt a flat structure.

[0008] Furthermore, the upper and lower parts of the extension hole of the rear shell of the frame are provided with triangular protrusions.

[0009] Furthermore, a circular boss is provided between the extended holes.

[0010] Furthermore, a baffle is provided at the mating position of the rear shell of the nose pad frame.

[0011] Furthermore, the nose pad's rear shell of the lens frame is provided with an angled docking platform.

[0012] Furthermore, the front shell of the frame is provided with an embedding groove for embedding and installing a metal nose pad bracket.

[0013] Furthermore, the conductive post protruding from the extended hole has a stepped structure.

[0014] Compared with the prior art, the present invention has the following advantages: The present invention facilitates the perfect embedding and installation of two electrodes into the nose pad position of glasses, so as to adapt to the structural layout requirements of the adolescent eye treatment device. The structure is more reasonable, and the maintenance and installation of the nose pad assembly structure are more convenient. Attached Figure Description

[0015] Figure 1 A three-dimensional diagram of the nasal support assembly structure of an eye ion pulse therapy device.

[0016] Figure 2 An exploded view of the nose pad assembly structure of an eye ion pulse therapy device.

[0017] Figure 3 This is a magnified view of the nose pad assembly structure of an eye ion pulse therapy device.

[0018] Figure 4 A three-dimensional view of the nasal support assembly structure of an eye ion pulse therapy device.

[0019] Figure 5 This is a 3D diagram of a metal nose bridge support.

[0020] Figure 6 A three-dimensional view of the front shell of the lens frame in the nasal pad assembly structure of an eye ion pulse therapy device. Detailed Implementation

[0021] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0022] The embodiments of this utility model provide a nose pad assembly structure for an eye ion pulse therapy device, see [link to relevant documentation]. Figure 1-4As shown, it includes a nose pad 2 mounted on a frame 1. The frame adopts a front-to-back split structure, which is assembled from a front shell 1a and a rear shell 1b. The front-to-back split structure facilitates the distribution of wiring harnesses. The front-to-back split structure has symmetrically distributed metal nose pad supports 3. The metal nose pad supports 3 have an inclined frame body 3a and a deflecting head 3b disposed on the inclined frame body. The inclined frame body of the metal nose pad supports has a middle conductive post 3c and a lower conductive post 3d. The rear shell of the frame is provided with an extension hole 1b-1 for the metal nose pad supports. Since there are two conductive posts on each side of the metal nose pad supports, the rear shell of the frame is split on one side. The fabric also has two extension holes 1b-1, allowing the middle and lower conductive posts of the metal nose pad bracket to extend out from the extension holes. The length of the middle and lower conductive posts must be greater than the extension holes so that there is still enough length for the nose pad to be inserted after the middle and lower conductive posts extend out of the extension holes. The nose pad 2 is inserted into the extended portion of the middle and lower conductive posts. The nose pad is a conductive structure. The nose pad can be a semiconductor nose pad or a fully conductive nose pad. Of course, it is also feasible to provide a conductive coating on the nose pad. In this case, the conductive coating needs to be electrically connected to the middle and lower conductive posts that extend into the nose pad.

[0023] See Figure 3 The upper and lower parts of the extension hole of the rear shell of the eyeglass frame are provided with triangular protrusions 4. This allows the sloping structures on both sides of the conductive post to match the sloping shape of the nose pad, thus limiting the nose pad's position. The upper and lower slopes of the triangular protrusions have rounded corners at adjacent positions. The lower slope of the upper triangular protrusion can abut against the upper part of the nose pad, and the upper slope of the lower triangular protrusion can abut against the lower part of the nose pad, thus better stabilizing the nose pad. It should be noted that a stepped structure 5 is provided at the protruding position of the conductive post in the extension hole. The main functions of this stepped structure at the protruding position of the conductive post in the rear shell of the eyeglasses are as follows: First, it prevents electric creep after the nose pad is combined with the rear shell of the eyeglasses; second, it increases the friction between the nose pad and the rear shell of the eyeglasses, reducing the possibility of detachment; third, it prevents water from entering through the gap between the nose pad and the rear shell of the eyeglasses, thus achieving a waterproof effect. A circular protrusion 6 is provided between the extended holes. The additional protrusion in the middle of the conductive post increases the friction between the nose pad and the glasses, reducing the possibility of it falling off. Appropriate glue can be applied to this protrusion to ensure the nose pad is firmly in place. Correspondingly, there are three grooves on the nose pad that fit tightly with the aforementioned conductive post, step, and protrusion.

[0024] See Figure 4 The nose pad 4 has a baffle 4a at the mating position of the rear shell of the frame. This baffle serves two purposes: firstly, it increases the limiting effect, ensuring the nose pad's position; secondly, it prevents sweat from seeping into the bridge of the nose through the joint gap. The nose pad also has an angled mating platform 4b at the mating position of the rear shell of the frame, thus adapting to the slope position corresponding to the triangular protrusion. Figure 4 It can also be seen that there is a conductive post insertion hole 4c that matches the conductive post and a central docking hole 4d that mates with the circular boss.

[0025] exist Figure 5-6 In this design, the metal nose pad is integrally molded. Since the metal nose pad is manufactured through metal stamping or other methods, it is more economical in terms of processing costs, and the overall quality consistency of the frame is guaranteed. Furthermore, the angled frame body 3a and the tilting head 3b adopt a flat structure. The front shell of the frame is provided with an embedding groove 7 for installing the metal nose pad.

[0026] Those skilled in the art will understand that the above embodiments are specific examples of implementing the present invention, and in practical applications, various changes can be made to them in form and detail without departing from the spirit and scope of the present invention.

Claims

1. A nose pad assembly structure for an eye ion pulse therapy device, comprising a nose pad mounted on a glasses frame, characterized in that, The eyeglass frame adopts a front and back split structure. The front and back split structure has symmetrically distributed metal nose pad supports inside. The back shell of the eyeglass frame is provided with extension holes for the metal nose pad supports. The middle conductive post and the lower conductive post of the metal nose pad support extend from the extension holes. The nose pad is inserted into the extended part of the middle conductive post and the lower conductive post. The nose pad is a conductive structure.

2. The nasal support assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The metal nose bridge support has an inclined frame and a deflecting head disposed on the inclined frame.

3. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The metal nose bridge is integrally molded.

4. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 2, characterized in that, The inclined frame and the deflecting head adopt a flat structure.

5. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The upper and lower parts of the extension hole of the rear shell of the frame are provided with triangular protrusions.

6. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, A circular boss is provided between the extended holes.

7. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, A baffle is provided at the joint of the rear shell of the nose pad frame.

8. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The nose pad has an angled docking platform at the rear shell of the lens frame.

9. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The front shell of the eyeglass frame is provided with an embedding groove for mounting a metal nose pad bracket.

10. The nasal bridge assembly structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The conductive post protruding from the extended hole has a stepped structure.