CN212491146U - Pulse magnetic point eye patch - Google Patents

Abstract

The embodiment of the application discloses a pulse magnetic point eye patch, which comprises an eye patch shell, a left magnetic point massage mechanism, a right magnetic point massage mechanism and a vibration motor. The left side magnetic point massage mechanism comprises a left side conductive structure and a plurality of left side magnetic point massage components. The left conductive structure is arranged in the shell of the eye mask. The left magnetic point massage components are arranged at the inner side of the shell of the eyeshade in a protruding way and are electrically connected with the left conductive structure. The right magnetic point massage mechanism comprises a right conductive structure and a plurality of right magnetic point massage components. The right magnetic point massage components are convexly arranged on the inner side of the shell of the eyeshade and are electrically connected with the right conductive structure. When in use, the left magnetic acupoint massage mechanism and the right magnetic acupoint massage mechanism are connected with an external pulse physiotherapy instrument, and can play the roles of magnetic therapy, electrotherapy and acupoint acupuncture and moxibustion on the peripheral acupoints of the eyes; the vibration of the vibration motor plays a role in massaging acupuncture points around the eyes. Thereby playing the role of combining electrotherapy, magnetic therapy and acupuncture and moxibustion.

Description

Pulse magnetic point eye patch

Technical Field

The utility model belongs to the technical field of the relevant technique of physiotherapy apparatus and specifically relates to a pulse magnetic point eye-shade is related to.

Background

Around the eye, there are located many acupoints such as Zanzhu, Jingming, Yuyao, Sizhuo, Yintang, Tongziliao, Taiyang, Sibai and Waiqi acupoints, which belong to the meridians of bladder meridian of foot Taiyang, triple energizer meridian of hand Shaoyang, gallbladder meridian of foot Shaoyang, stomach meridian of foot Yangming, etc. Acting on the acupoints by electric and magnetic physiotherapy to restore vision and relieve eye fatigue. Currently, the most common physiotherapeutic device is a magnetic eye patch. However, the existing magnetic therapy eyeshade has single function and can only be used for single magnetic therapy, and the eyeshade can not play a role of combining electrotherapy, magnetic therapy and acupuncture point moxibustion in the working process of equipment.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a pulse magnetism acupuncture point eye-shade, it is used for solving current magnetotherapy eye-shade function singleness, can only be used for single magnetotherapy to can't play the problem of the effect that combines electrotherapy, magnetotherapy and acupuncture point acupuncture and moxibustion three through these eye-shades in equipment course of operation.

The utility model provides a pulse magnetic point eye-shade main technical scheme as follows:

a pulse magnetic point eyeshade comprises an eyeshade shell, a left magnetic point massage mechanism, a right magnetic point massage mechanism and a vibration motor. Wherein, left side magnetic point massage mechanism includes left side conducting structure and a plurality of left side magnetic point massage subassembly. The left conductive structure is disposed within the eyeshade housing. The left magnetic point massage components are arranged on the inner side of the eyeshade shell in a protruding mode and are electrically connected with the left conductive structure. Wherein, right side magnetic point massage mechanism includes right side conducting structure and a plurality of right side magnetic point massage subassembly. The right side conductive structure is arranged in the eyeshade shell. The right magnetic point massage components are arranged on the inner side of the eyeshade shell in a protruding mode and are electrically connected with the right conductive structure. Wherein the vibration motor is disposed within the eyecup housing.

According to the utility model discloses a preferred embodiment, left side conductive structure is left side conductive silica gel layer. The left side magnetic point massage subassembly includes first base, first flexible post, first magnetic bead and first spring. The first base is arranged at the inner side of the eyeshade shell in a protruding mode. And a first mounting through hole penetrating the first base and the inner case of the eyecup case is provided in the first base. One end of the first telescopic column penetrates through the first mounting through hole to form an extending end, and the other end of the first telescopic column is movably mounted in the first mounting through hole and is provided with a first limiting structure. And a second mounting through hole is formed in the first telescopic column, and the first magnetic bead is mounted in the second mounting through hole. And the second mounting through hole is tapered, so that the diameter of the second mounting through hole at the end of the protruding end is smaller than that of the first magnetic bead, and a part of the first magnetic bead can protrude from the protruding end to form a protruding part. The first spring is arranged in a channel formed by the first mounting through hole and the second mounting through hole, one end of the first spring is pressed on the first magnetic bead, and the other end of the first spring is pressed on the left conductive silica gel layer, so that the first magnetic bead is electrically connected with the left conductive silica gel layer.

According to the utility model discloses a preferred embodiment, right side conductive structure is right side conductive silica gel layer. The right side magnetic point massage subassembly includes second base, the flexible post of second, second magnetic bead and second spring. The second base is arranged at the inner side of the eyeshade shell in a protruding mode. And a third mounting through hole penetrating the second base and the case inside the eyecup case is provided in the second base. One end of the second telescopic column penetrates through the third mounting through hole to form an extending end, and the other end of the second telescopic column is movably mounted in the third mounting through hole and is provided with a second limiting structure. And a fourth mounting through hole is formed in the second telescopic column, and the second magnetic beads are mounted in the fourth mounting through hole. And the fourth mounting through hole is tapered, so that the diameter of the fourth mounting through hole at the end of the protruding end is smaller than that of the second magnetic bead, and a part of the second magnetic bead can protrude from the protruding end to form a protruding part. The second spring is arranged in a channel formed by the third mounting through hole and the fourth mounting through hole, one end of the second spring is pressed on the second magnetic bead, and the other end of the second spring is pressed on the right conductive silica gel layer, so that the second magnetic bead is electrically connected with the right conductive silica gel layer.

According to a preferred embodiment of the present invention, the left conductive structure comprises a left support member and a left conductive metal sheet disposed on the left support member. The left side magnetic point massage subassembly includes first base, first flexible post, first magnetic bead and first spring. One end of the first base is connected to the left side supporting piece, and the other end of the first base penetrates through the inner side shell of the eyeshade shell to form a protruding column body on the inner side of the eyeshade shell. And a first mounting through-hole penetrating the first base and the left side supporting member is provided in the first base. One end of the first telescopic column penetrates through the first mounting through hole to form an extending end, and the other end of the first telescopic column is movably mounted in the first mounting through hole and is provided with a first limiting structure. And a second mounting through hole is formed in the first telescopic column, and the first magnetic bead is mounted in the second mounting through hole. And the second mounting through hole is tapered, so that the diameter of the second mounting through hole at the end of the protruding end is smaller than that of the first magnetic bead, and a part of the first magnetic bead can protrude from the protruding end to form a protruding part. The first spring is arranged in a channel formed by the first mounting through hole and the second mounting through hole, one end of the first spring is pressed against the first magnetic bead, and the other end of the first spring is pressed against the left conductive metal sheet, so that the first magnetic bead is electrically connected with the left conductive metal sheet.

According to a preferred embodiment of the present invention, the left conductive metal piece includes an upper left conductive metal piece and a lower left conductive metal piece. And part of the left magnetic point massage components are connected with the upper left conductive metal sheet. The other part is connected with the lower left conductive metal sheet.

According to a preferred embodiment of the present invention, the right conductive structure comprises a right support member and a right conductive metal plate disposed on the right support member. The right side magnetic point massage subassembly includes second base, the flexible post of second, second magnetic bead and second spring. One end of the second base is connected to the right side supporting piece, and the other end of the second base penetrates through the inner side shell of the eyeshade shell to form a protruding column body on the inner side of the eyeshade shell. And a third mounting through-hole penetrating the second base and the right side supporter is provided in the second base. One end of the second telescopic column penetrates through the third mounting through hole to form an extending end, and the other end of the second telescopic column is movably mounted in the third mounting through hole and is provided with a second limiting structure. And a fourth mounting through hole is formed in the second telescopic column, and the second magnetic beads are mounted in the fourth mounting through hole. And the fourth mounting through hole is tapered, so that the diameter of the fourth mounting through hole at the end of the protruding end is smaller than that of the second magnetic bead, and a part of the second magnetic bead can protrude from the protruding end to form a protruding part. The second spring is arranged in a channel formed by the third mounting through hole and the fourth mounting through hole, one end of the second spring is pressed against the second magnetic bead, and the other end of the second spring is pressed against the right conductive metal sheet, so that the second magnetic bead is electrically connected with the right conductive metal sheet.

According to the utility model discloses a preferred embodiment, the right side electrically conductive sheetmetal includes upside right electrically conductive sheetmetal and downside right electrically conductive sheetmetal. A portion of the plurality of right side acupoint massage assemblies is connected to the upper right conductive sheet metal. The other part is connected with the lower right conductive metal sheet.

According to a preferred embodiment of the present invention, the eyeshade housing includes a case body and a case cover. The left side conducting structure and the right side conducting structure are arranged on the inner wall of the shell. The vibration motor is arranged on the inner wall of the shell cover. And the shell is also provided with interfaces which are electrically connected with the left side conductive structure, the right side conductive structure and the vibration motor.

According to the utility model discloses a preferred embodiment, first installation through-hole is the toper through-hole, first flexible post outside is the circular cone column. In an installation state, the conical surface outside the first telescopic column is clamped with the conical through hole to form the first limiting structure. Or a first annular bulge is arranged on the inner wall of the first mounting through hole along the circumferential direction. And a second annular bulge is arranged on the outer wall of one end of the first telescopic column, which is positioned in the first mounting through hole, along the circumferential direction. In the installation state, the second annular bulge is lapped on the first annular bulge to form the limiting structure.

According to the utility model discloses a preferred embodiment, the third installation through-hole is the toper through-hole, the flexible post outside of second is the circular cone column. In an installation state, the conical surface outside the second telescopic column is clamped with the conical through hole to form the second limiting structure. Or a third annular bulge is arranged on the inner wall of the third mounting through hole along the circumferential direction. And a fourth annular bulge is arranged on the outer wall of one end, positioned in the third mounting through hole, of the second telescopic column along the circumferential direction. In an installation state, the fourth annular protrusion is lapped on the third annular protrusion to form the limiting structure.

Compared with the prior art, the utility model discloses pulse magnetism cave eye-shade has following beneficial effect:

the pulse magnetic acupoint eyeshade of the embodiment of the utility model adopts the left magnetic acupoint massage mechanism, the right magnetic acupoint massage mechanism and the vibration motor, when in use, the left magnetic acupoint massage mechanism and the right magnetic acupoint massage mechanism are connected with the external pulse physiotherapy instrument, thus playing the roles of magnetic therapy, electrotherapy and acupoint acupuncture moxibustion on the peripheral acupoints of eyes; in addition, through the vibration of the vibration motor, the left side magnetic point massage mechanism and the right side magnetic point massage mechanism can massage the points around the eyes. Thereby the pulse magnetic point eyeshade of the embodiment of the utility model can play the role of combining electrotherapy, magnetotherapy and acupuncture point moxibustion at the work.

Additional features of the invention will be set forth in part in the description which follows. Additional features of the invention will be set forth in part in the description which follows and in part will be apparent to those having ordinary skill in the art upon examination of the following and the accompanying drawings or may be learned from the manufacture or operation of the embodiments. The features of the present disclosure may be realized and attained by practice or use of various methods, instrumentalities and combinations of the specific embodiments described below.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. Like reference symbols in the various drawings indicate like elements. Wherein,

fig. 1 is a schematic structural view of an inner side of an eyeshade shell in a pulse-magnetic-point eyeshade according to some embodiments of the present invention;

fig. 2 is a schematic structural view of the outer side of the eyeshade shell in the pulse-magnetic-point eyeshade according to some embodiments of the present invention;

fig. 3 is a schematic view of a left conductive silicone layer and a right conductive silicone layer mounted within a housing in a pulsed-magnetic-field eye shield according to some embodiments of the present invention;

fig. 4 is a schematic view of a left side and a right side of a pulsed magnetic point eyeshade according to some embodiments of the present invention mounted on an eyeshade housing;

fig. 5 is a cross-sectional view of a left side acupoint massage assembly mounted on an eye shield housing in a pulsed acupoint eye shield according to some embodiments of the present invention;

fig. 6 is a cross-sectional view of a right side acupoint massage assembly mounted on an eyeshade housing in a pulsed acupoint eyeshade according to some embodiments of the present invention;

fig. 7 is a schematic view of a vibration motor mounted on a housing cover in a pulse-hole eyeshade according to some embodiments of the present invention;

fig. 8 is a schematic view of a left side support member, a left conductive metal sheet, a right side support member and a right conductive metal sheet mounted within a housing in a pulsed-magnetic-hole eyeshade according to some embodiments of the present invention;

FIG. 9 is a cross-sectional view of the left side massage assembly of the pulsed-magnetic-point eyeshade of the embodiment of FIG. 8 mounted on the eyeshade housing;

fig. 10 is a cross-sectional view of the right side massage unit of the pulse-acupoint eyecup of fig. 8 mounted on the eyecup housing.

List of reference numerals

100-eyeshade shell

110-through hole

120-shell

130-shell cover

140-interface

200-left side magnetic acupoint massage mechanism

210-left side conductive Structure

220-left side magnetic acupoint massage component

300-right side magnetic acupoint massage mechanism

310-Right side conductive Structure

320-Right side magnetic acupoint massage component

400-vibration motor

510-first base

511-first mounting through hole

512-first annular projection

520-first telescopic column

522-second mounting through hole

523-second annular projection

530-first magnetic bead

540-first spring

610-second base

611-third mounting through hole

612-third annular projection

620-second telescopic column

622-fourth mounting through hole

623 fourth annular projection

630-second magnetic bead

640-second spring

710 left side support

720-left conductive metal sheet

721-upper left conductive metal sheet

722-lower left conductive sheet metal

810-Right side support

820-right conductive metal sheet

821-upper right conductive metal sheet

822-lower right conductive metal sheet

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The embodiment of the utility model discloses pulse magnetic point eye-shade.

The pulse magnetic point eyeshade may include an eyeshade housing 100, a left side magnetic point massage mechanism 200, a right side magnetic point massage mechanism 300, and a vibration motor 400. The left side magnetic point massaging mechanism 200 includes a left side conductive structure 210 and a plurality of left side magnetic point massaging assemblies 220. The left conductive structure 210 is disposed within the eyewear housing 100. A plurality of left side acupoint massage assemblies 220 are protrudingly disposed on the inner side of the eyeshade housing 100 and electrically connected with the left side conductive structure 210. Wherein the right side acupoint massage mechanism 300 comprises a right side conductive structure 310 and a plurality of right side acupoint massage components 320. The right conductive structure 310 is disposed within the eyewear housing 100. A plurality of right side acupoint massage assemblies 320 are projectively disposed inside the eyeshade housing 100 and electrically connected to the right side conductive structure 310. Wherein the vibration motor 400 is provided inside the eyecup case 100.

When in use, the left side magnetic acupoint massage mechanism 200 and the right side magnetic acupoint massage mechanism 300 are connected with an external pulse physiotherapy instrument, and can play the roles of magnetic therapy, electrotherapy and acupoint acupuncture and moxibustion on the peripheral acupoints of the eyes; in addition, the left side magnetic point massage mechanism 200 and the right side magnetic point massage mechanism 300 can massage the points around the eyes by the vibration of the vibration motor 400. Thereby the pulse magnetic point eyeshade of the embodiment of the utility model can play the role of combining electrotherapy, magnetotherapy and acupuncture point moxibustion at the work.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

The pulse magnetic point eyeshade of the present embodiment includes an eyeshade case 100, a left side magnetic point massage mechanism 200, a right side magnetic point massage mechanism 300, and a vibration motor 400.

As shown in fig. 3 and 4, the left side magnetic point massaging mechanism 200 includes a left side conductive structure 210 and a plurality of left side magnetic point massaging assemblies 220. The left conductive structure 210 is disposed within the eyewear housing 100. A plurality of left side acupoint massage assemblies 220 are protrudingly disposed on the inner side of the eyeshade housing 100 and electrically connected with the left side conductive structure 210.

In the present embodiment, the left conductive structure 210 is a left conductive silicone layer.

In this embodiment, as shown in fig. 5, the left side acupoint massage assembly 220 comprises a first base 510, a first telescopic column 520, a first magnetic bead 530 and a first spring 540.

The first base 510 is protrusively provided at the inner side of the eyecup housing 100. Further, the first chassis 510 is provided with a first mounting through hole 511 penetrating the first chassis 510 and the case inside the eyecup case 100. Preferably, the first base 510 may be provided on the inner case of the eyecup case 100 in an integrally formed manner.

One end of the first telescopic column 520 passes through the first mounting through hole 511 to form an extended end, and the other end is movably mounted in the first mounting through hole 511 and is formed with a first limit structure. Illustratively, the first mounting hole 511 is a tapered hole, and the first telescopic column 520 has a tapered cylindrical shape. In the installed state, the conical surface of the exterior of the first telescopic column 520 is engaged with the tapered through hole to form a first limit structure, as shown in fig. 5. Alternatively, a first annular protrusion 512 is provided on an inner wall of the first mounting through hole 511 in the circumferential direction. A second annular protrusion 523 is circumferentially disposed on an outer wall of one end of the first telescopic column 520 located in the first mounting through hole 511. In the installed state, the second annular protrusion 523 overlaps the first annular protrusion 512 to form a first limiting structure, as shown in fig. 5.

A second mounting through-hole 522 is provided in the first telescopic column 520, and the first magnetic bead 530 is mounted in the second mounting through-hole 522. Also, the second mounting through hole 522 is tapered such that the diameter of the second mounting through hole 522 at the protruding end is smaller than the diameter of the first magnetic bead 530, thereby allowing a portion of the first magnetic bead 530 to protrude from the protruding end to form a protrusion.

The first spring 540 is disposed in the channel formed by the first mounting hole 511 and the second mounting hole 522, and one end of the first spring abuts against the first magnetic bead 530, and the other end abuts against the left conductive silicone layer, so that the first magnetic bead 530 is electrically connected to the left conductive silicone layer.

As shown in fig. 3 and 4, the right-side magnetic massage mechanism 300 includes a right-side conductive structure 310 and a plurality of right-side magnetic massage components 320. The right conductive structure 310 is disposed within the eyewear housing 100. A plurality of right side acupoint massage assemblies 320 are projectively disposed inside the eyeshade housing 100 and electrically connected to the right side conductive structure 310.

In the present embodiment, the right conductive structure 310 is a right conductive silicone layer.

In this embodiment, as shown in fig. 6, the right-side acupoint massage assembly 320 includes a second base 610, a second telescopic column 620, a second magnetic bead 630 and a second spring 640.

The second base 610 is protrusively provided at the inner side of the eyecup housing 100. Further, a third mounting through hole 611 penetrating the second base 610 and the inner case of the eyecup case 100 is provided in the second base 610. Preferably, the second base 610 may be provided on the inner case of the eyecup case 100 in an integrally formed manner.

One end of the second telescopic column 620 passes through the third mounting through hole 611 to form an extended end, and the other end is movably mounted in the third mounting through hole 611 and forms a second limiting structure. Illustratively, the third mounting hole 611 is a tapered hole, and the second telescopic column 620 is externally tapered. In the installed state, the conical surface of the exterior of the second telescopic column 620 is engaged with the tapered through hole to form a second limit structure, as shown in fig. 6. Alternatively, a third annular protrusion 612 is provided on an inner wall of the third mounting through hole 611 in the circumferential direction. A fourth annular protrusion 623 is circumferentially disposed on an outer wall of one end of the second telescopic column 620 located in the third mounting through hole 611. In the installed state, the fourth annular protrusion 623 overlaps the third annular protrusion 612 to form a second position-limiting structure, as shown in fig. 6.

A fourth mounting through-hole 622 is provided in the second telescopic column 620, and a second magnetic bead 630 is mounted in the fourth mounting through-hole 622. And, the fourth mounting through hole 622 is tapered such that the diameter of the fourth mounting through hole 622 at the protruding end is smaller than the diameter of the second magnetic bead 630, thereby allowing a portion of the second magnetic bead 630 to protrude from the protruding end to form a protrusion. The second spring 640 is disposed in the channel formed by the third mounting hole 611 and the fourth mounting hole 622, and one end of the second spring abuts against the second magnetic bead 630, and the other end abuts against the right conductive silicone layer, so that the second magnetic bead 630 is electrically connected to the right conductive silicone layer.

Wherein, as shown in fig. 7, the vibration motor 400 is provided inside the eyecup housing 100.

In the present embodiment, as shown in fig. 1 and 2, the eyecup housing 100 includes a case 120 and a case cover 130. In the mounted state, the case cover 130 may be snapped on the front end of the case 120 and fixed by screws such that a mounting space is formed between the case 120 and the case cover 130. The left conductive structure 210, the right conductive structure 310, the vibration motor 400, and the like are installed in the installation space. Specifically, the left conductive structure 210 and the right conductive structure 310 are disposed on the inner wall of the housing 120. The vibration motor 400 is disposed on an inner wall of the case cover 130.

An interface 140 electrically connected to the left conductive structure 210, the right conductive structure 310, and the vibration motor 400 is also provided on the housing 120. Specifically, in the present embodiment, the left conductive structure 210 is connected to the interface 140 through the positive electrode of the first conductive line, and the right conductive structure 310 is connected to the interface 140 through the negative electrode of the first conductive line. The vibration motor 400 may be connected to the interface 140 through a second wire, so that power may be supplied to the vibration motor 400 through the interface 140. In the present embodiment, the vibration motor 400 is a micro vibration motor.

Further, an eye cover elastic is provided on the eye cover case 100.

When the pulse magnetic point eyeshade of the embodiment is used, the pulse magnetic point eyeshade is worn on the head, so that the plurality of left magnetic point massage components 220 of the left magnetic point massage mechanism 200 respectively correspond to the acupuncture points around the left eye, and the plurality of right magnetic point massage components 320 of the right magnetic point massage mechanism 300 correspond to the acupuncture points around the right eye; the pulse magnetic point eyeshade is connected to an external pulse physiotherapy instrument through the interface 140, the pulse magnetic point eyeshade is electrified after being started, the vibration motor 400 vibrates to drive the first magnetic beads 530 in all the left magnetic point massage components 220 and the second magnetic beads 630 in all the right magnetic point massage components 320 on the eyeshade to vibrate to massage acupuncture points around eyes, so that the blood circulation of the eyes is accelerated, the fatigue of the eyes is eliminated, and the eyes feel comfortable and free of pain in the massage process because the magnetic beads are movable; meanwhile, the first magnetic beads 530 and the second magnetic beads 630 act on acupuncture points around the eyes, so that a magnetic therapy effect can be achieved; in addition, the external pulse physiotherapy instrument can output pulses to the first magnetic bead 530 and the second magnetic bead 630 through the interface 140, the left conductive structure 210, the right conductive structure 310, the first spring and the second spring, and then form a loop through the acupuncture points around the eye, so that the effects of electrotherapy and acupuncture are achieved, and then the electrotherapy, the magnetotherapy and the acupuncture point acupuncture and moxibustion are simultaneously performed on the acupuncture points around the eye. In conclusion, the pulse magnetic point eyeshade of the embodiment can stimulate all acupuncture points through electromagnetic waves and shock waves, and the magnetic beads can generate magnetic lines to permeate the meridian points of the eyes of a human body by applying the physical therapy principle and the physical magnetic field principle of traditional Chinese medicine acupuncture, so that the blood circulation of the meridians of the eyes is accelerated.

In addition, because the left side magnetic point massage component 220 and the right side magnetic point massage component 320 in the pulse magnetic point eyeshade of the embodiment can be telescopic, the pulse magnetic point eyeshade of the embodiment can be suitable for heads of different people with different sizes, and the adaptability is better.

Example 2

Compared with the pulse acupoint eyeshade of the embodiment 1, the pulse acupoint eyeshade of the embodiment has the main differences that:

in the present embodiment, as shown in fig. 8, the left conductive structure 210 includes a left supporting member 710 and a left conductive metal sheet 720 disposed on the left supporting member 710.

Further, the left conductive metal sheet 720 includes an upper left conductive metal sheet 721 and a lower left conductive metal sheet 722. A portion of the plurality of left side acupoint massage assemblies 220 are connected to an upper left conductive metal sheet 721. The other portion is connected to the lower left conductive metal sheet 722.

As shown in fig. 9, in the present embodiment, the left side acupoint massage assembly 220 comprises a first base 510, a first telescopic column 520, a first magnetic bead 530 and a first spring 540.

The first base 510 has one end connected to the left side supporting member 710 and the other end formed as a protruded column inside the eyecup case 100 through the inner case of the eyecup case 100. Also, a first mounting through-hole 511 penetrating the first base 510 and the left side supporter 710 is provided in the first base 510.

One end of the first telescopic column 520 passes through the first mounting through hole 511 to form an extended end, and the other end is movably mounted in the first mounting through hole 511 and is formed with a first limit structure. Illustratively, the first mounting hole 511 is a tapered hole, and the first telescopic column 520 has a tapered cylindrical shape. In the installed state, the conical surface of the exterior of the first telescopic column 520 is engaged with the tapered through hole to form a first limit structure, as shown in fig. 9. Alternatively, a first annular protrusion 512 is provided on an inner wall of the first mounting through hole 511 in the circumferential direction. A second annular protrusion 523 is circumferentially disposed on an outer wall of one end of the first telescopic column 520 located in the first mounting through hole 511. In the installed state, the second annular protrusion 523 overlaps the first annular protrusion 512 to form a first limiting structure, as shown in fig. 9.

A second mounting through-hole 522 is provided in the first telescopic column 520, and the first magnetic bead 530 is mounted in the second mounting through-hole 522. Also, the second mounting through hole 522 is tapered such that the diameter of the second mounting through hole 522 at the protruding end is smaller than the diameter of the first magnetic bead 530, thereby allowing a portion of the first magnetic bead 530 to protrude from the protruding end to form a protrusion.

The first spring 540 is disposed in the channel formed by the first mounting through hole 511 and the second mounting through hole 522, and one end of the first spring abuts against the first magnetic bead 530, and the other end abuts against the left conductive metal sheet 720, so that the first magnetic bead 530 is electrically connected to the left conductive metal sheet 720.

As shown in fig. 8, in the present embodiment, the right conductive structure 310 includes a right support 810 and a right conductive metal sheet 820 disposed on the right support 810.

Further, the right conductive metal piece 820 includes an upper right conductive metal piece 821 and a lower right conductive metal piece 822. A portion of the plurality of right side acupoint massage assemblies 320 are connected to the upper right conductive metal sheet 821. The other portion is connected to the lower right conductive metal plate 822.

As shown in fig. 10, in the present embodiment, the right-side acupoint massage assembly 320 includes a second base 610, a second telescopic column 620, a second magnetic bead 630 and a second spring 640.

One end of the second base 610 is connected to the right side supporting member 810 and the other end passes through the inner case of the eyecup case 100 to form a protruded cylinder inside the eyecup case 100. Also, a third mounting through-hole 611 penetrating the second base 610 and the right side supporter 810 is provided in the second base 610.

One end of the second telescopic column 620 passes through the third mounting through hole 611 to form an extended end, and the other end is movably mounted in the third mounting through hole 611 and forms a second limiting structure. Illustratively, the third mounting hole 611 is a tapered hole, and the second telescopic column 620 is externally tapered. In the installed state, the conical surface of the exterior of the second telescopic column 620 engages with the tapered through hole to form a second limit structure, as shown in fig. 10. Alternatively, a third annular protrusion 612 is provided on an inner wall of the third mounting through hole 611 in the circumferential direction. A fourth annular protrusion 623 is circumferentially disposed on an outer wall of one end of the second telescopic column 620 located in the third mounting through hole 611. In the installed state, the fourth annular protrusion 623 overlaps the third annular protrusion 612 to form a second position-limiting structure, as shown in fig. 10.

A fourth mounting through-hole 622 is provided in the second telescopic column 620, and a second magnetic bead 630 is mounted in the fourth mounting through-hole 622. And, the fourth mounting through hole 622 is tapered such that the diameter of the fourth mounting through hole 622 at the protruding end is smaller than the diameter of the second magnetic bead 630, thereby allowing a portion of the second magnetic bead 630 to protrude from the protruding end to form a protrusion.

The second spring 640 is disposed in the channel formed by the third mounting through hole 611 and the fourth mounting through hole 622, and one end of the second spring abuts against the second magnetic bead 630, and the other end abuts against the right conductive metal sheet 820, so that the second magnetic bead 630 is electrically connected to the right conductive metal sheet 820.

In this embodiment, the upper left conductive metal piece 721 of the left conductive metal pieces 720 is connected to the interface 140 through the positive electrode of the third wire, and the lower left conductive metal piece 722 of the left conductive metal pieces 720 is connected to the interface 140 through the negative electrode of the third wire, so that all the left magnetic massage components 220 connected to the upper left conductive metal piece 721 and all the left magnetic massage components 220 connected to the lower left conductive metal piece 722 can form a loop when being powered on; an upper right conductive metal sheet 821 of the right conductive metal sheets 820 is connected to the interface 140 through a positive electrode of a fourth wire, and a lower right conductive metal sheet 822 of the right conductive metal sheets 820 is connected to the interface 140 through a negative electrode of the fourth wire, so that all right conductive structures 310 connected to the upper right conductive metal sheet 821 and all right conductive structures 310 connected to the lower right conductive metal sheet 822 can form a loop when being electrified; the vibration motor 400 may be connected to the interface 140 through a fifth wire so that power may be supplied to the vibration motor 400 through the interface 140. In the present embodiment, the vibration motor 400 is a micro vibration motor.

The pulse magnetic point eye patch of the embodiment can simultaneously perform electrotherapy, magnetic therapy and acupuncture point moxibustion on acupuncture points around the eyes of the left eye or the right eye.

The remaining parts of the pulse magnetic point eyeshade of this embodiment are the same as or similar to those of embodiment 1, and therefore are not described herein again.

It should be noted that all of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

In addition, the above embodiments are exemplary, and those skilled in the art can devise various solutions in light of the disclosure, which are also within the scope of the disclosure and the protection scope of the present invention. It should be understood by those skilled in the art that the present specification and drawings are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (10)

1. A pulse magnetic point eyeshade is characterized by comprising an eyeshade shell (100), a left magnetic point massage mechanism (200), a right magnetic point massage mechanism (300) and a vibration motor (400);

wherein the left side magnetic point massage mechanism (200) comprises a left side conductive structure (210) and a plurality of left side magnetic point massage components (220); the left conductive structure (210) is disposed within the eyewear housing (100); the left magnetic point massage components (220) are arranged at the inner side of the eyeshade shell (100) in a protruding mode and are electrically connected with the left conductive structure (210);

wherein the right side acupoint massage mechanism (300) comprises a right side conductive structure (310) and a plurality of right side acupoint massage components (320); the right side conductive structure (310) is disposed within the eyewear housing (100); the right magnetic point massage components (320) are arranged on the inner side of the eyeshade shell (100) in a protruding mode and are electrically connected with the right conductive structure (310);

wherein the vibration motor (400) is disposed within the eyecup housing (100).

2. The pulse acupuncture mask of claim 1, wherein the left conductive structure (210) is a left conductive silicone layer;

the left side acupoint massage assembly (220) comprises a first base (510), a first telescopic column (520), a first magnetic bead (530) and a first spring (540);

the first base (510) is protrudingly provided inside the eyecup case (100); a first mounting through hole (511) penetrating the first base (510) and an inner case of the eyecup case (100) is provided in the first base (510);

one end of the first telescopic column (520) penetrates through the first mounting through hole (511) to form an extending end, and the other end of the first telescopic column is movably mounted in the first mounting through hole (511) and is provided with a first limiting structure;

a second mounting through hole (522) is provided in the first telescopic column (520), and the first magnetic bead (530) is mounted in the second mounting through hole (522); and, the second mounting through hole (522) is tapered such that a diameter of the second mounting through hole (522) at the protruding end port is smaller than a diameter of the first magnetic bead (530), thereby allowing a portion of the first magnetic bead (530) to protrude from the protruding end to form a protrusion;

the first spring (540) is arranged in a channel formed by the first installation through hole (511) and the second installation through hole (522), one end of the first spring is pressed against the first magnetic bead (530), and the other end of the first spring is pressed against the left conductive silica gel layer, so that the first magnetic bead (530) is electrically connected with the left conductive silica gel layer.

3. The pulse magnetic point eyeshade of claim 2, characterized in that said right conductive structure (310) is a right conductive silicone layer;

the right magnetic point massage component (320) comprises a second base (610), a second telescopic column (620), a second magnetic bead (630) and a second spring (640);

the second base (610) is protrudingly provided inside the eyecup case (100); a third mounting through hole (611) penetrating the second base (610) and the inner case of the eyecup case (100) is provided in the second base (610);

one end of the second telescopic column (620) penetrates through the third mounting through hole (611) to form an extending end, and the other end of the second telescopic column is movably mounted in the third mounting through hole (611) and forms a second limiting structure;

a fourth mounting through hole (622) is provided in the second telescopic column (620), and the second magnetic bead (630) is mounted in the fourth mounting through hole (622); and the fourth mounting through hole (622) is tapered such that the diameter of the fourth mounting through hole (622) at the protruding end port is smaller than the diameter of the second magnetic bead (630), thereby allowing a portion of the second magnetic bead (630) to protrude from the protruding end to form a protrusion;

the second spring (640) is arranged in a channel formed by the third mounting through hole (611) and the fourth mounting through hole (622), one end of the second spring is pressed against the second magnetic bead (630), and the other end of the second spring is pressed against the right conductive silica gel layer, so that the second magnetic bead (630) is electrically connected with the right conductive silica gel layer.

4. The pulsed-magnetic-point eyeshade of claim 1, characterized in that said left conductive structure (210) comprises a left side support (710) and a left conductive sheet metal (720) disposed on said left side support (710);

the left side acupoint massage assembly (220) comprises a first base (510), a first telescopic column (520), a first magnetic bead (530) and a first spring (540);

one end of the first base (510) is connected to the left side supporting piece (710), and the other end passes through the inner shell of the eyeshade shell (100) to form a protruding column inside the eyeshade shell (100); and a first mounting through-hole (511) penetrating the first base (510) and the left side support (710) is provided in the first base (510);

one end of the first telescopic column (520) penetrates through the first mounting through hole (511) to form an extending end, and the other end of the first telescopic column is movably mounted in the first mounting through hole (511) and is provided with a first limiting structure;

a second mounting through hole (522) is provided in the first telescopic column (520), and the first magnetic bead (530) is mounted in the second mounting through hole (522); and, the second mounting through hole (522) is tapered such that a diameter of the second mounting through hole (522) at the protruding end port is smaller than a diameter of the first magnetic bead (530), thereby allowing a portion of the first magnetic bead (530) to protrude from the protruding end to form a protrusion;

the first spring (540) is arranged in a channel formed by the first mounting through hole (511) and the second mounting through hole (522), one end of the first spring is pressed against the first magnetic bead (530), and the other end of the first spring is pressed against the left conductive metal sheet (720), so that the first magnetic bead (530) is electrically connected with the left conductive metal sheet (720).

5. The pulse-acupoint eye shield of claim 4, wherein the left conductive sheet of metal (720) comprises an upper left conductive sheet of metal (721) and a lower left conductive sheet of metal (722);

a part of the plurality of left side acupoint massage assemblies (220) is connected with the upper side left conductive metal sheet (721); the other part is connected with the lower left conductive metal sheet (722).

6. The pulsed magnetophoretic eyewear of claim 4, wherein the right conductive structure (310) comprises a right support (810) and a right conductive metal sheet (820) disposed on the right support (810);

the right magnetic point massage component (320) comprises a second base (610), a second telescopic column (620), a second magnetic bead (630) and a second spring (640);

one end of the second base (610) is connected to the right side supporting piece (810), and the other end penetrates through the inner shell of the eyeshade shell (100) to form a protruding column inside the eyeshade shell (100); and a third mounting through hole (611) penetrating the second base (610) and the right side supporter (810) is provided in the second base (610);

one end of the second telescopic column (620) penetrates through the third mounting through hole (611) to form an extending end, and the other end of the second telescopic column is movably mounted in the third mounting through hole (611) and forms a second limiting structure;

a fourth mounting through hole (622) is provided in the second telescopic column (620), and the second magnetic bead (630) is mounted in the fourth mounting through hole (622); and the fourth mounting through hole (622) is tapered such that the diameter of the fourth mounting through hole (622) at the protruding end port is smaller than the diameter of the second magnetic bead (630), thereby allowing a portion of the second magnetic bead (630) to protrude from the protruding end to form a protrusion;

the second spring (640) is arranged in a channel formed by the third mounting through hole (611) and the fourth mounting through hole (622), one end of the second spring is pressed against the second magnetic bead (630), and the other end of the second spring is pressed against the right conductive metal sheet (820), so that the second magnetic bead (630) is electrically connected with the right conductive metal sheet (820).

7. The pulsed magneto-cavernous eye shield of claim 6, wherein the right conductive metal sheet (820) comprises an upper right conductive metal sheet (821) and a lower right conductive metal sheet (822);

a portion of the plurality of right side acupoint massage assemblies (320) is connected to the upper right conductive metal sheet (821); the other part is connected with the lower right conductive metal sheet (822).

8. The pulse-magnetic-point eyeshade of one of claims 1 to 7, characterized in that said eyeshade housing (100) comprises a shell (120) and a shell cover (130);

the left side conductive structure (210) and the right side conductive structure (310) are arranged on the inner wall of the shell (120);

the vibration motor (400) is arranged on the inner wall of the shell cover (130);

and an interface (140) electrically connected with the left conductive structure (210), the right conductive structure (310) and the vibration motor (400) is also arranged on the shell (120).

9. The pulse magnetic point eyeshade of claim 2 or 4, characterized in that said first mounting through hole (511) is a tapered through hole, and said first telescopic column (520) is externally in the shape of a conical cylinder; in the mounting state, a conical surface on the outer part of the first telescopic column (520) is clamped with the conical through hole to form the first limiting structure;

or a first annular bulge (512) is arranged on the inner wall of the first mounting through hole (511) along the circumferential direction; a second annular bulge (523) is arranged on the outer wall of one end, located in the first mounting through hole (511), of the first telescopic column (520) along the circumferential direction; in the installation state, the second annular bulge (523) is lapped on the first annular bulge (512) to form the first limiting structure.

10. The pulse magnetic point eyeshade of claim 3 or 6, characterized in that said third mounting through hole (611) is a tapered through hole, and said second telescopic column (620) is externally in the shape of a conical cylinder; in the installation state, a conical surface on the outer part of the second telescopic column (620) is clamped with the conical through hole to form the second limiting structure;

or a third annular bulge (612) is arranged on the inner wall of the third mounting through hole (611) along the circumferential direction; a fourth annular bulge (623) is arranged on the outer wall of one end, located in the third mounting through hole (611), of the second telescopic column (620) along the circumferential direction; in the mounting state, the fourth annular protrusion (623) is lapped on the third annular protrusion (612) to form a second limiting structure.

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