Ocular ion pulse treatment device wiring structure

By adopting a shielded high-voltage wire structure and a zoned wiring design, the safety hazards of high-voltage wires in eye ion pulse therapy devices have been solved, resulting in more efficient wiring and a safer user experience.

CN224474624UActive 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 existing high-voltage wiring method of eye ion pulse therapy devices poses safety hazards, and it is necessary to ensure the safety of users.

Method used

The high-voltage line adopts a shielded high-voltage line structure, with both free and fixed areas designed. The wire harness is fixed by wire clamping grooves and structural adhesive to ensure the stability and safety of the high-voltage line.

Benefits of technology

It improves the stability and integrity of the wiring harness, ensures user safety, and reduces the risk of exposure and radiation from high-voltage lines.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses eye ion pulse treatment device wiring structure, high pressure line is arranged in the inside of glasses of eye ion pulse treatment device, high pressure line adopts shielding high pressure line structure, and one end of high pressure line is connected in the nose support of frame, and the other end is connected in the butt joint socket of temple, and this shielding high pressure line structure adopts whole line distribution, wherein, the left frame and left temple of glasses have first whole line unit, and the right frame and right temple of glasses have second whole line unit, the glasses are provided with the fixed area of wire harness and the free area of wire harness, and the wire harness cannot be freely moved, the inner area of the temple main stem and the upper crossbeam of frame is the fixed area, and the area between the temple main stem and the upper crossbeam of frame, the free area between the temple main stem and butt joint socket assembly body. The utility model discloses when wiring is more efficient, and the safety of user's use is ensured simultaneously.
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Description

Technical Field

[0001] This utility model relates to the field of negative ion technology, and in particular to a wiring 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 high-voltage wires used inside the product need to ensure the safety of consumers. Utility Model Content

[0003] The purpose of this invention is to provide a wiring structure for an eye ion pulse therapy device that ensures user safety.

[0004] To solve the above-mentioned technical problems, the present invention provides a wiring structure for an eye ion pulse therapy device. The eyeglasses of the eye ion pulse therapy device are equipped with high-voltage wires. The high-voltage wires adopt a shielded high-voltage wire structure. One end of the high-voltage wire is connected to the nose pad of the frame and the other end is connected to the docking socket of the temple. The shielded high-voltage wire structure adopts a whole-line distribution. The left frame and left temple of the eyeglasses have a first whole-line unit, and the right frame and right temple of the eyeglasses have a second whole-line unit.

[0005] The eyeglasses are provided with a free area where the wire harness can move freely and a fixed area where the wire harness cannot move freely. The inner area of ​​the main temple and the upper beam of the frame are fixed areas, while the area between the main temple and the upper beam of the frame, and the area between the main temple and the docking socket assembly are free areas.

[0006] Furthermore, the free area and the fixed area are separated by a wire slot.

[0007] Furthermore, the fixed area is filled with structural adhesive for fixing the wire harness.

[0008] Compared with the prior art, the present invention has the following advantages: the present invention makes wiring more efficient while ensuring user safety.

[0009] The two wiring units of this invention make the wiring harness more concentrated, and the division into free area and fixed area can not only meet the stability requirements of the wiring harness, but also improve the overall integration of the wiring harness and the glasses end. Attached Figure Description

[0010] Figure 1 This is a schematic diagram of the wiring structure of an eye ion pulse therapy device.

[0011] Figure 2 for Figure 1 A diagram showing another direction.

[0012] Figure 3 This is a schematic diagram of the free and fixed areas in the wiring structure of an ocular ion pulse therapy device. Detailed Implementation

[0013] 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.

[0014] The embodiments of this utility model provide a wiring structure for an ocular ion pulse therapy device, see [link to documentation]. Figure 1-2 As shown, the glasses 1 of the eye ion pulse therapy device have a high-voltage wire 2 inside. The high-voltage wire adopts a shielded high-voltage wire structure. The use of shielded high-voltage wire inside ensures safety. One end of the high-voltage wire is connected to the nose pad 3 of the frame, and the other end is connected to the docking socket 4 of the temple. This shielded high-voltage wire structure adopts a whole-line distribution, so that there is no leakage radiation of high voltage, and the exposed metal points and connection points of the high-voltage wire are minimized. After adopting the whole-line layout, only the first and last two welding points of the line are exposed to facilitate the connection of the nose pad and the docking socket.

[0015] In this embodiment, the eyeglass frame is divided into a front frame shell 1a and a rear frame shell 1b, allowing the high-voltage wire to be routed between the front and rear frames. The temples are divided into an outer frame shell 1c and an inner temple shell 1d, with the high-voltage wire routed through both shells, thus fulfilling the wiring requirements for the connector 4 and nose pad 3. Figure 1 As can be seen, the left frame and left temple of the glasses have a first integrated wiring unit P1, and the right frame and right temple of the glasses have a second integrated wiring unit P2. One end of the first integrated wiring unit is connected to the docking socket of the left temple and the nose pad at the left frame, and the second integrated wiring unit is connected to the docking socket of the right temple and the nose pad at the right frame. The two integrated wiring units only expose metal wires at the docking positions of the nose pad and docking socket to facilitate the docking operation, and there are no exposed points in the middle.

[0016] It is worth mentioning that the inventors proposed a partitioned design of free and fixed regions, namely, the glasses are provided with a free region M in which the wire harness can move freely and a fixed region N in which the wire harness cannot move freely. Figure 1 and Figure 2 As can be seen, the inner regions of the main temple and the upper beam of the frame are fixed regions N, while the regions between the main temple and the upper beam of the frame, and between the main temple and the docking socket assembly, are free regions M (see [reference]). Figure 3 A hinge is provided between the temple and the frame. The hinge position is also in the free area. The free area and the fixed area are separated by wire-locking grooves. The wire-locking grooves are distributed at both ends of the fixed area so that the wire harness can be constrained and cannot move in the wire-locking groove position. The fixed area between the wire-locking grooves is filled with structural adhesive to fix the wire harness.

[0017] The free area of ​​this invention has sufficient space for wire harness movement, while the high-voltage wires in the fixed area are fixed with slots and structural adhesive.

[0018] 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 wiring structure for an eye ion pulse therapy device, wherein a high-voltage wire is installed inside the eyepiece of the eye ion pulse therapy device, characterized in that... The high-voltage line adopts a shielded high-voltage line structure. One end of the high-voltage line is connected to the nose pad of the frame and the other end is connected to the docking socket of the temple. The shielded high-voltage line structure adopts a whole-line distribution. The left frame and left temple of the glasses have a first whole-line unit, and the right frame and right temple of the glasses have a second whole-line unit. The eyeglasses are provided with a free area where the wire harness can move freely and a fixed area where the wire harness cannot move freely. The inner area of ​​the main temple and the upper beam of the frame are fixed areas, while the area between the main temple and the upper beam of the frame, and the area between the main temple and the docking socket assembly are free areas.

2. The wiring structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The free area and the fixed area are separated by a wire slot.

3. The wiring structure of the ocular ion pulse therapy device according to claim 1, characterized in that, The fixed area is filled with structural adhesive to fix the wire harness.