HEAD-MOUNTED TOOL FOR ADJUSTING FACE MUSCLE POSITION

Abstract

Head-mounted tool for adjusting face muscle position is provided. The Head-mounted tool includes a head-mounted tool body (1), a connector (2) having one end connected to the head-mounted tool body (1), and an adhesive surface (3) connected to the other end of the connector (2) and attached to the face muscle. The head-mounted tool body (1) includes a headband (101) for wearing the head-mounted tool on a head of a human body. The head-mounted tool overcomes the defects in the prior art that repositioning of the face muscle is not flexible, the firmness of the positioning is not high enough during a sitting posture, a lying posture, or different posture change, the comfort is low, or the like. The head-mounted tool can quickly pre-position a youthful position of the face muscle before the simple and convenient beauty technique, thereby meeting people's increasing needs for beauty.

Description

TECHNICAL FIELD

The present disclosure relates to the field of headbands (IPC classification No. A41D20/00), and in particular, to a head-mounted tool for adjusting face muscle position.

BACKGROUND

As people age, their face muscles inevitably undergo adverse changes such as relaxation and deformation. In order to improve others' first impressions on oneself and personal appearance, people's demand for beauty is growing. Currently, simple beauty enhancement techniques (such as relaxation massage, microcurrent electrotherapy Meridian-System patches, etc.) for face muscles can achieve the effect of restoring the youthful appearance of face skin and underlying muscles to a certain extent. Before undergoing such type of simple beauty enhancement techniques, the wearer typically needs to use his or her own hands or other devices to adjust and fix the position of the face muscles, which is conducive to enhancing the subsequent beauty enhancement techniques.

Unlike facial surgery, the simple beauty enhancement techniques do not require precise positioning of face muscles, but rely more on adjusting-flexibility, reliability in process, and wearing comfort. If the wearer uses his or her own hand for simple positioning, it may achieve similar results but requires a lot of effort and labor. If existent technologies are used for positioning, the existent technologies have significant shortcomings, which affects the performance of beauty enhancement techniques.

The Chinese Patent No. CN202437616 discloses a beauty device for removing wrinkles. If this beauty device is used for muscle positioning before undergoing simple beauty enhancement techniques, there are significant shortcomings. According to paragraph of the specification of the Chinese Patent and the accompanying figures, up-down telescopic massage boards 11 are provided at a fixed position on both left and right sides of the panel 3, and a forehead wrinkle removing device is provided at a fixed position in the middle of the panel 3, which results in this invention being unable to freely adjust the force direction of the up-down telescopic massage board 11 on the left side of the panel 3 vertically or horizontally, while also endowing the freedom to vertically or horizontally adjust the force direction of the forehead wrinkle removing device in different directions. Therefore, this invention does not have the technical effect in terms of a highly flexible adjustment force direction. In order to install the up-down telescopic massage board 11 and the forehead wrinkle removing device, the height of the panel 3 would be larger than that of a normal headband, which results in the panel 3 being unable to move flexibly on the forehead. Therefore, this invention does not have the technical effect in terms of a highly efficient position adjustment.

The Chinese Application No. CN202110131765.9 discloses a facial lifting apparatus. If this facial lifting apparatus is used for muscle positioning before undergoing simple beauty enhancement techniques, there are significant shortcomings. The elastic bands lack the positioning and flexible adjustment of the height of the connected adhesive tapes, which results in a significant reduction in the efficiency of positioning target muscles and a lack of downward adjustment function. In addition, the positioning reliability is not ideal when the wearer changes posture between sitting, lying, or other various postures.

The Chinese Application No. CN202021365682.3 discloses a distributed adjustable facial lifting patch, which also has shortcomings. The facial muscles are dragged to left or right sides by flexible ropes, reducing the effectiveness of upward lifting and lacking downward adjustment function. In addition, if the adjustment buckle is placed on one side of the head, it further affects the correctness of the push and pull directions of each dragging rope. The face is squeezed by the tensioned traction rope, which also reduces comfort, and the suppleness of the traction rope also causes the technical solution to lack positioning reliability.

SUMMARY

In view of the above-mentioned problems, the present disclosure provides a head-mounted tool for adjusting face muscle position to solve the problem of inefficient, inconvenient, uncomfortable, and unreliable of the existing technology's positioning of face muscle position before beauty enhancement techniques.

To achieve the above purpose, the present disclosure provides technical solutions as follows:

A head-mounted tool for adjusting face muscle position, comprising a head-mounted tool body, one or more connectors, and an adhesive surface. One end of the connectors is connected to the head-mounted tool body. The adhesive surface is connected to the other end of the connectors. The head-mounted tool body comprises a headband worn on a head of a human body, with a wearing direction from a front part of the head along both sides of the head to a rear part of the head.

As a further embodiment of the present disclosure, the headband comprises a first adjustment device configured to adjust an aperture of the headband.

As a further embodiment of the present disclosure, a first connection structure is provided between the headband and the connectors. The first connection structure is one or more kinds of the following connection types: melt connection, magnetic attraction, nail, rope binding, stitching, hooking, groove-sliding, clipping, snap-button structure, zipper, screw fastener, adhesive, Velcro fastener, plug-hole set, loop provided at one end of the connectors and looped over a corresponding position of the headband.

As a further embodiment of the present disclosure, the head-mounted tool body comprises a reinforced connecting member. The reinforced connecting member comprises at least two elastic bands, an end of the at least two elastic bands is connected to the headband, and the other end of the at least two elastic bands is connected together; or the reinforced connecting member comprises at least two connecting ends, which are connected to the headband. The reinforced connecting member further comprises a second adjustment device configured to adjust a force applied to the at least two elastic bands or the at least two connecting ends.

As a further embodiment of the present disclosure, the other end of the connectors is connected to an ordinary adhesive tape, and the ordinary adhesive tape is provided with the adhesive surface.

As a further embodiment of the present disclosure, an inner side of the headband is provided with one or more convex points to increase friction.

As a further embodiment of the present disclosure, the first adjustment device or the second adjustment device comprises a knob, a screw at a center of the knob, a hard rectangular pressuring cylinder, a sliding piece with compression effect, a screw hole in a middle of the hard rectangular pressuring cylinder, a sliding slot, and a cavity. The sliding piece with compression effect is assembled into the sliding slot from inside the cavity. The screw is rotated in or out of the screw hole.

As a further embodiment of the present disclosure, ear buffer pads are provided at corresponding positions on left and right sides below the headband.

As a further embodiment of the present disclosure, the adhesive surface is made of a material with a standard peel strength between 70-450 N/m and a standard hold sticky decline value of no more than 2.5 mm.

Compared with the existent technology, the advantageous effects of the present disclosure are that the head-mounted tool adopts essential technical features such as the headband worn on the head, the one or more connectors, the adhesive surface, and ingeniously combines them and makes them cooperated with each other to exert flexible adjustment in force direction and in strength, stable performance regardless of changing of the wearer's posture between sitting, lying, or other postures, and low pressure strength to the head and the ears, thereby solving the shortcomings of the existent technology, which lacks the flexibility in direction and strength of face muscle positioning, and the positioning is not reliable when the wearer's posture changes between sitting, lying, or other postures, and accordingly, improving wearer's operating efficiency and wearing comfortability. The positioning precision also meets the needs of simple beauty enhancement techniques.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front axonometric view of an embodiment 1 in the present disclosure;

FIG. 2 is a rear axonometric view of the embodiment 1 in the present disclosure;

FIG. 3 is a front view of the embodiment 1 in the present disclosure;

FIG. 4 is an axonometric view of a first adjustment device or a second adjustment device in embodiments of the present disclosure;

FIG. 5 is a front axonometric view of an embodiment 2 in the present disclosure;

FIG. 6 is a front axonometric view of an embodiment 3 in the present disclosure;

FIG. 7 is a front axonometric view of an embodiment 4 in the present disclosure; and

FIG. 8 is a front axonometric view of an embodiment 5 in the present disclosure.

REFERENCE NUMERALS

• • 1—Head-mounted tool body;
  • 101—Headband;
  • 102—First adjustment device;
  • 103—Tightness adjustment drawstring of headband;
  • 104—Convex point;
  • 105—Reinforced connecting member;
  • 1051—Elastic band;
  • 1052—Connecting end of reinforced connecting member;
  • 1053—Second adjustment device;
  • 106—Inner surface with high coefficient of friction;
  • 2—Connector;
  • 3—Adhesive surface;
  • 4—loop at one end of connector;
  • 5—First connection structure;
  • 501—First mating part of first connection structure;
  • 502—Second mating part of first connection structure;
  • 6—Ordinary adhesive tape;
  • 7—Ear buffer pad; 8—Knob;
  • 801—Screw;
  • 9—Hard rectangular pressure cylinder;
  • 901—Sliding piece with compression effect;
  • 902—Screw hole;
  • 903—Sliding slot;
  • 904—Cavity.

DETAILED DESCRIPTION

The first embodiment is a preferred embodiment of the present disclosure.

Embodiment Example 1: As shown in FIG. 1-FIG. 4, in this embodiment, the head-mounted tool for adjusting face muscle position includes a head-mounted tool body 1, one or more connectors 2, and an adhesive surface 3. One end of the connectors 2 is connected to the head-mounted tool body 1, and the other end of the connectors 2 is connected to the adhesive surface 3. Merely by way of example, the connectors 2 may be traction belts. The head-mounted tool body 1 includes a headband 101. Only for illustration, the headband 101 is an open sheet with a main material of elastic material. The headband 101 is worn on a human head with a wearing direction from a front part of the head along both sides of the head to a rear part of the head. Only for illustration, one end of each traction strap 2 is connected to a corresponding area of the headband 101 in the front half of the head by means of melting and integrating connection, and the other end of the traction strap 2 is connected to an ordinary adhesive tape 6. The ordinary adhesive tape 6 is provided with the adhesive surface 3 and the adhesive surface 3 is adhered to the face muscles. The headband 101 is provided with a first adjustment device 102, the first adjustment device 102 adjusts an aperture of the headband 101 by adjusting a length of a drawstring 103. The head-mounted tool body 1 is further provided with a reinforced connecting member 105. The reinforced connecting member 105 includes two elastic bands 1051, an end of the elastic bands 1051 is connected to the headband 101, and the other end of the elastic bands is connected together. The reinforced connecting member 105 further includes a second adjustment device 1053 configured to connect the elastic bands 1051 and adjust a tensile force of the reinforced connecting member 105 on the headband 101. An inner surface of the headband is provided with one or more convex points 104 for increasing friction. The first adjustment device 102 includes a knob 8, a screw 801 at a center of the knob 8, a hard rectangular pressure cylinder 9, a sliding piece with compression effect 901, a screw hole 902, a sliding slot 903, and a cavity 904. The sliding piece with compression effect 901 is mounted in the cavity 904 from inside the cavity 904, and the screw 801 is screwed into or out of the screw hole 902 to compress or loosen the drawstring 103 of the headband 101.

The special advantages of this embodiment are as follows. The head-mounted tool is worn on the human head, and by including the headband 101, it has the advantages of adjusting force direction flexibility, adjusting force strength flexibility, performance stability, reliable positioning in various human body states such as sitting, lying, or changing positions, and low pressure strength on the head. The head-mounted tool is provided with the reinforcing connection member 105, and there is one or more convex points 104 with higher friction on the inner surface of the headband 101, which further increases the stability of the headband 101 when worn on the human head. The convex points 104 can also improve the air permeability of the headband 101. The connectors 2 are connected to the headband 101 by means of melting and integrating connection, making production and molding faster and more efficient. The headband 101 is provided with the first adjustment device 102 that adjusts the aperture size and wearing tightness of the headband 101 by adjusting the length of the drawstring 103, thereby increasing the adaptability of the headband 101 to different head sizes. The other end of the connectors 2 includes the ordinary adhesive tape 6 that is provided with an adhesive surface 3, making it easier to obtain the adhesive surface 3.

The following description will further, clearly, and completely describe more technical schemes of the present disclosure with reference to the accompanying drawings. Obviously, the embodiments described herein are part of the present disclosure rather than all of them. All other embodiments obtained by a person skilled in the art based on the present disclosure and without creative effort, belong to the scope of the present disclosure. A person skilled in the art will understand that the terms used in the present disclosure generally intend to be “open” terms (e.g., the term “comprising” should be interpreted as “comprising but not limited to,” the term “having” should be interpreted as “having at least,” etc).

In the description of the present disclosure, it should be explained that a directional or positional relationship indicated by the terms “central,” “upper,” “lower,” “left,” “right,” “vertical,” “horizontal,” “inner,” “outer,” or the like, is a directional or positional relationship based on the directions or positions shown in the drawings for ease of describing the present disclosure and simplifying the description, rather than indicating or implying that the corresponding elements or components must have specific directions or be constructed and operated in specific directions. Therefore, they cannot be understood as limiting this application. In addition, the terms “first” and “second” are only used for descriptive purposes and cannot be construed as indicating or implying relative importance.

In the description of the present disclosure, it should be explained that unless otherwise specified or defined, terms such as “installation,” “connection,” and “attachment” should be interpreted in a broad sense, for example, can be a fixed connection or a detachable connection, or an integral connection; can be a mechanical connection or an electrical connection; can be directly connected, or indirectly connected through an intermediate medium, or internally connected in two elements. For a person skilled in the art, the specific meaning of these terms can be understood according to the specific situation.

The second embodiment as shown in FIG. 1-FIG. 5, has a similar structure to the first embodiment above except for the following differences. The headband 101 is a closed annular structure which is mainly made of supple elastic material. As an example, in this embodiment, a first mating part 501 of the first connection structure 5 is one separable part of a Velcro, has a second mating part 502 of the first connection structure 5 provided in front of the headband 101 is the other separable part of the Velcro, and the connectors 2 can be connected to the headband using the Velcro. The head-mounted tool body 1 doesn't comprise the reinforcing connecting part 105. The inner surface 106 of the headband 101 is made of a material having friction coefficient value of at least 0.042. The head-mounted tool does not comprise the ordinary adhesive tape 6, and the connectors 2 are directly connected to the adhesive surface 3.

The advantages of this embodiment are as follows. Connecting the connectors 2 to the headband 101 using the Velcro can further increase the adjustment flexibility of the head-mounted tool. Using the elastic closed annular structure for the headband 101, and selecting the high friction coefficient material for the inner surface 106 of the headband 101, and not comprising the reinforcing connecting part 105, can achieve more portability and enhance adjustment flexibility of the tool body 1 without significant loss in wearing stability. Subtracting the ordinary adhesive tape 6 from the head-mounted tool can reduce production costs.

The third embodiment as shown in FIG. 1-FIG. 4 and FIG. 6 has a similar structure to the first embodiment above except for the following differences. As an example, the first connection structure 5 between the headband 101 and the connector 2 is a snap-button structure, and the first mating part 501 of the snap-button structure connects to the second mating part 502. The inner surface 106 of the headband 101 is made of a material having friction coefficient value of at least 0.042. The head-mounted tool does not comprise the ordinary adhesive tape 6, and the connectors 2 are directly connected to the adhesive surface 3.

The advantages of this embodiment are as follows. Connecting the connectors 2 to the headband 101 using the snap-button structure can also increase the adjustment flexibility of the head-mounted tool. Using the high friction coefficient material for the inner surface 106 can improve wearing stability. Subtracting the ordinary adhesive tape 6 from the head-mounted tool can reduce production costs.

The fourth embodiment as shown in FIG. 1-FIG. 4 and FIG. 7 has a similar structure to the first embodiment except for the following differences. The first connection structure 5 is loop that is arranged at one end of the connectors 2 and looped over a corresponding position of the headband 101 at the front half. The head-mounted tool doesn't comprise the ordinary adhesive tape 6, and the connectors 2 are directly connected to the adhesive surface 3.

The advantages of this embodiment are as follows. Connecting the connectors 2 to the headband 101 using the loop 4 can reduce construction complexity and maintain adjustment flexibility of the head-mounted tool. Subtracting the ordinary adhesive tape 6 from the head-mounted tool can reduce production costs.

The fifth embodiment as shown in FIG. 1-FIG. 4 and FIG. 8 has a similar structure to the third embodiment except for the following differences. The first mating part 501 of the first connection structure 5 is a traction strip sliding groove arranged at one end of the connectors 2, the second mating part 502 is a screw fastener arranged at a corresponding position on the front half of the headband 101, and the connector sliding groove is connected to the screw fastener. Ear buffer pads 7 are provided at corresponding positions under the headband 101. The adhesive surface 3 is made of a material with the standard peel strength value between 70-450 N/m and a standard hold sticky decline value of no more than 2.5 mm.

The advantages of this embodiment are as follows. Connecting the connectors 2 to the headband 101 using the connector sliding groove and the screw fastener can further increase the adjustment flexibility of the connector 2. Providing the ear buffer pads 7 at the corresponding positions on both left and right sides below the headband 101 can reduce pressure strength on the ears. Selecting the material with appropriate standard peel strength value and appropriate standard hold sticky decline value for the adhesive surface 3 can improve the easy-removal property of the adhesive surface 3 after beauty enhancement works, reducing stretching force and pain during this step, while ensuring reliability of the adhesive surface 3 during use.

Practicability: This head-mounted tool greatly meets the flexibility, reliability requirements during use, and wearing comfort requirements for preliminary fixed operation to face muscles before the simple beauty enhancement techniques (such as relaxation massage, microcurrent electrotherapy meridian-system patches, etc.) are carried out.

Claims

1. A head-mounted tool for adjusting face muscle position, comprising: a head-mounted tool body,one or more connectors having one end connected to the head-mounted tool body, and an adhesive surface connected to the other end of the connectors, wherein the head-mounted tool body comprises a headband worn on a head of a human body, with a wearing direction from a front part of the head along both sides of the head to a rear part of the head.

2. The head-mounted tool of claim 1, wherein the headband comprises a first adjustment device configured to adjust an aperture of the headband.

3. The head-mounted tool of claim 1, wherein a first connection structure is provided between the headband and the connectors, the first connection structure being one or more types of the following connection types: melt connection, magnetic attraction, nail, rope binding, stitching, hooking, groove-sliding, clipping, snap-button structure, zipper, screw fastener, adhesive, Velcro fastener, plug-hole set, loop provided at one end of the connectors and looped over a corresponding position of the headband.

4. The head-mounted tool of claim 1, wherein the head-mounted tool body comprises a reinforced connecting member, the reinforced connecting member comprises at least two elastic bands, an end of the at least two elastic bands being connected to the headband, and the other end of the at least two elastic bands being connected together; or the reinforced connecting member comprises at least two connecting ends, which are connected to the headband.

5. The head-mounted tool of claim 4, wherein the reinforced connecting member further comprises a second adjustment device configured to adjust a force applied to the at least two elastic bands or the at least two connecting ends.

6. The head-mounted tool of claim 1, wherein the other end of the connectors is connected to an ordinary adhesive tape, and the ordinary adhesive tape is provided with the adhesive surface.

7. The head-mounted tool of claim 1, wherein an inner side of the headband is provided with one or more convex points to increase friction.

8. The head-mounted tool of claim 2, wherein the first adjustment device comprises a knob, a screw at a center of the knob, a hard rectangular pressuring cylinder, a sliding piece with compression effect, a screw hole in a middle of the hard rectangular pressuring cylinder, a sliding slot, and a cavity,the sliding piece with compression effect is assembled into the sliding slot from inside the cavity, andthe screw is rotated in or out of the screw hole.

9. The head-mounted tool of claim 5, wherein the second adjustment device comprises a knob, a screw at a center of the knob, a hard rectangular pressuring cylinder, a sliding piece with compression effect, a screw hole in a middle of the hard rectangular pressuring cylinder, a sliding slot, and a cavity,the sliding piece with compression effect is assembled into the sliding slot from inside the cavity;the screw is rotated in or out of the screw hole.

10. The head-mounted tool of claim 1, wherein ear buffer pads are provided at corresponding positions on left and right sides below the headband.

11. The head-mounted tool of claim 1, wherein the adhesive surface is made of a material with a standard peel strength between 70-450 N/m and a standard hold sticky decline value of no more than 2.5 mm.