CN217853838U - Eye massager with temple massaging function - Google Patents

Abstract

The utility model discloses an eye massager with temple massage function, which comprises a shell and a massage head component, wherein the shell comprises an outer shell and an inner shell, the outer shell and the inner shell are covered and connected to form an integrated shell, the massage head component is arranged on one side of the shell facing the human body and comprises a first massage head component and a second massage head component, the first massage head component is arranged close to the middle part of the shell and is used for massaging the periphery of the eye, and the second massage head component is arranged close to the end part of the shell and is used for massaging the temple; second massage head subassembly and casing elastic connection for second massage head subassembly can move with self-adaptation laminating temple towards or keep away from the temple under the atress condition, and second massage head subassembly includes drive arrangement and massage head, and drive arrangement can drive the first vibration of massage. The application can improve the adaptability and massage experience of the eye massager.

Description

Eye massager with temple massaging function

Technical Field

The application relates to the technical field of massage instruments, in particular to an eye massager with a temple massage function.

Background

With the progress of society and the improvement of living standard, people are paying attention to the maintenance of their bodies. For example, many people must watch the computer screen all day long due to their working needs, and after a long time, they may feel their eyes tired due to their dryness, soreness, etc., so people usually choose a massager to massage around their eyes to relieve their fatigue.

Among the prior art, the eye massager includes two kinds, and an eye massager can only massage around the eye, leads to the massage area of eye massager little, and user experience is poor, and another kind is that the eye massager can enough massage around the eye, can massage temple again, has improved the massage area of eye massager, but because different users 'head circumference size is different, consequently, hardly guarantee that the eye massager can closely laminate with each user's temple, adaptability is relatively poor.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough among the prior art, the utility model provides an eye massager that possesses temple massage function to the relatively poor technical problem of adaptability of eye massager among the solution prior art.

In order to solve the technical problem, the utility model provides an eye massager with temple massaging function, which comprises a shell body, wherein the shell body comprises an outer shell and an inner shell, and the outer shell and the inner shell are covered and connected to form an integrated shell body;

the massage head component is arranged on one side, facing the human body, of the shell and comprises a first massage head component and a second massage head component, the first massage head component is arranged close to the middle of the shell and used for massaging the periphery of the eyes, and the second massage head component is arranged close to the end of the shell and used for massaging the temples;

the second massage head component is elastically connected with the shell, so that the second massage head component can move towards or away from the temples under the stress condition to be adaptive to fit the temples; the second massage head component comprises a driving device and massage heads, and the driving device can drive the massage heads to vibrate.

In an alternative implementation, the second massage head assembly further comprises a swing bracket located within the housing and rotationally coupled to the housing such that the second massage head assembly can rotate toward or away from temple; the massage head is arranged on the swing bracket.

In an alternative implementation, a preload member is further disposed on the housing for providing a preload force to the second massage head assembly for rotation toward the temple.

In an alternative implementation, the preload member is a strap, and the strap is connected to the second massage head assembly.

In an optional implementation manner, the preload member is a torsion spring, the torsion spring is disposed between the housing and the second massage head assembly, one end of the torsion spring is connected to the housing, and the other end of the torsion spring is connected to the swing bracket.

In an optional implementation mode, one side of the swinging support, which is far away from the massage head, is provided with a clamping groove, and one end of the torsion spring, which is connected with the swinging support, is clamped in the clamping groove.

In an optional implementation mode, one side of the swinging support, which is far away from the massage head, is further provided with a limiting groove, and one end of the torsion spring, which is connected with the swinging support, penetrates through the limiting groove and stretches into the clamping groove.

In an optional implementation mode, the second massage head subassembly still includes the flexonics board, the flexonics board with inner shell fixed connection, mounting through hole has been seted up at the both ends of inner shell, the flexonics board deviates from the direction of shell extend have with the endocentric convex part of being connected of mounting through hole, just it stretches out to connect the convex part mounting through hole, the diameter of connecting the convex part is less than mounting through hole's diameter, the massage head passes through connect the convex part with swing leg joint, swing leg with the part that the massage head is connected is located connect the inside of convex part.

In an optional implementation manner, an edge of the flexible connecting plate is fixedly connected with an edge of the mounting through hole, and a corrugated portion is formed on the flexible connecting plate and located between an inner wall of the mounting through hole and the connecting convex portion.

In an optional implementation manner, a pressing plate is arranged between the flexible connecting plate and the outer shell, the pressing plate is fixedly connected with the inner shell, an annular protrusion extends from one side of the pressing plate, which faces the flexible connecting plate, and an annular groove is formed in the edge of the mounting through hole, which faces the outer shell, or an annular groove is formed in one side of the pressing plate, which faces the flexible connecting plate, and an annular protrusion extends from the edge of the mounting through hole, which faces the outer shell;

the annular bulge is matched with the annular groove to tightly press and fix the edge of the flexible connecting plate to the edge of the mounting through hole.

In an alternative implementation manner, a first stop control convex part is arranged inside the shell, a second stop control convex part is arranged on the swing bracket, and when the swing bracket rotates relative to the shell, the first stop control convex part and the second stop control convex part can be abutted to prevent the swing bracket from rotating relative to the shell.

In an optional implementation manner, the second massage head assembly further includes a flexible connecting plate, the flexible connecting plate is fixedly connected with the inner shell, mounting through holes are formed at two ends of the inner shell, a connecting convex part concentric with the mounting through holes extends in a direction of the flexible connecting plate departing from the outer shell, the connecting convex part extends out of the mounting through holes, the diameter of the connecting convex part is smaller than that of the mounting through holes, and the massage head is connected with the connecting convex part;

the edge of flexible coupling board with the edge fixed connection of installation through-hole, be formed with fold portion on the flexible coupling board, fold portion is located the inner wall of installation through-hole with connect between the convex part in an optional realization, massage head is relative the casing is rotatable, massage head's rotation axis is skew massage head's geometric centre line.

In an optional implementation, second massage head subassembly still includes swing support, rotating member and rotation lid, the last rotation through-hole of having seted up of swing support, the one end of rotating member is worn to locate rotate in the through-hole and can for it rotates to rotate the through-hole, the other end of rotating member with first fixed connection is massaged to the second, the rotation axis of rotating member with the axis coincidence of the rotation axis of massage head, rotate the lid with wear to locate rotate in the through-hole rotating member fixed connection, it is located to rotate the lid the swing support deviates from one side of massage head follows the axial of rotation through-hole, it is greater than to rotate the projected width of lid the diameter of through-hole.

In an optional implementation manner, a mounting hole is formed on one side of the swing bracket, which faces away from the massage head, and the rotating cover is positioned in the mounting hole;

one side of the rotating cover, which faces the swing support, is provided with a first accommodating hole, and one end of the rotating piece, which penetrates through the rotating through hole, extends out of the rotating through hole and penetrates through the first accommodating hole.

In an optional implementation manner, a first damping member is disposed between the swing bracket and the rotating cover, or a first damping member is disposed between the swing bracket and the rotating member.

In an optional implementation manner, the second massage head assembly further includes a swing bracket and a rotating member, the swing bracket is provided with a rotating through hole, one end of the rotating member passes through the rotating through hole and extends out of the rotating through hole, the other end of the rotating member is fixedly connected with the massage head, the rotating member can rotate relative to the rotating through hole, and a rotating shaft of the rotating member coincides with an axis of the rotating shaft of the massage head;

stretch out rotate the through-hole the one end of rotating member is equipped with the joint convex part, the joint convex part with the edge butt that rotates the through-hole.

In an optional implementation mode, the rotating part is provided with a groove formed in the end face of one end of the clamping convex part, the groove penetrates through the rotating part in the radial direction of the rotating part, and when the rotating part penetrates through the rotating through hole, the groove enables the rotating part to be provided with elastic deformation at one end of the clamping convex part.

In an optional implementation manner, a first stopping protrusion is arranged on an inner wall of the rotating through hole, a second stopping protrusion is arranged on the rotating piece, and when the rotating piece rotates relative to the rotating through hole, the first stopping protrusion and the second stopping protrusion can be abutted to prevent the rotating piece from rotating relative to the rotating through hole.

In an optional implementation manner, a second accommodating hole is formed in the rotating piece penetrating through the rotating through hole;

the second massage head component further comprises a connecting plate fixedly connected with the swing support, a second damping piece and a nut which are positioned in the second containing hole, and a fastener matched with the nut, wherein the fastener sequentially penetrates through the connecting plate, the rotating cover and the second damping piece and is connected with the nut, and the nut is used for compressing the second damping piece and the rotating cover.

In an optional implementation manner, a stop gasket is arranged between the rotating cover and the second damping member, a third stop protrusion is arranged on the stop gasket, a fourth stop protrusion is arranged on the rotating cover, and when the rotating member rotates relative to the rotating through hole, the third stop protrusion and the fourth stop protrusion can be abutted to prevent the rotating member from rotating relative to the rotating through hole.

Compared with the prior art, the application has at least the following beneficial effects:

this application is because the casing comprises shell and inner shell, and forms the casing that is the integral type after shell and inner shell lid close the connection, so, when the casing installation, only need with shell and inner shell each other the lid close can, need not to carry out other installation procedure, simplified the installation flow of casing, simplified the structure and the processing degree of difficulty of casing simultaneously. In addition, because the second massage head component is elastically connected with the shell, the second massage head component can move towards or away from the temples under the stress condition to be adaptive to the temples, and therefore when the eye massager is worn on the heads of different users, the second massage head component can be closely attached to the temples of each user, the adaptability of the eye massager is improved, and the massage experience of the eye massager is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of an eye massager according to an embodiment of the present invention;

fig. 2 is a schematic structural view of another view angle of the eye massager provided by the embodiment of the present invention;

FIG. 3 is one of the cross-sectional views A-A of FIG. 2;

fig. 4 is a schematic structural view illustrating a connection between a swing bracket and a preload member according to an embodiment of the present invention;

FIG. 5 isbase:Sub>A second cross-sectional view taken along line A-A of FIG. 2;

FIG. 6 isbase:Sub>A third cross-sectional view taken along line A-A of FIG. 2;

fig. 7 is a schematic partially exploded view of an eye massager according to an embodiment of the present invention;

FIG. 8 is a partial enlarged view of FIG. 3 at B;

fig. 9 is a second enlarged partial view at B in fig. 3;

fig. 10 is a third schematic view of a portion at B in fig. 3;

FIG. 11 is a fourth schematic view of the enlarged portion at B in FIG. 3;

fig. 12 is a schematic structural diagram of a rotating member according to an embodiment of the present invention;

fig. 13 is a schematic structural view of a swing bracket according to an embodiment of the present invention;

fig. 14 is a second schematic structural view of the rotating member according to the embodiment of the present invention;

fig. 15 is an exploded schematic view of a connecting plate, a rotating cover, a fastener, a nut, and the like according to an embodiment of the present invention.

Description of the reference numerals:

100-eye massager; 110-a housing; 110 a-inner shell; 110a 1-annular groove; 110 b-a housing; 111-a rotating shaft; 112-mounting through holes; 114-a platen; 115-first stop control protrusion; 116-a rotating member; 1161-a rotating part; 1162-a connecting portion; 1163-a second receiving hole; 1164-a clamping convex part; 1165-grooves; 1166-a second stop projection; 117-rotating the cover; 1171-a first receiving well; 1172-a fourth stop boss; 1181-a web; 1182-a second damping member; 1183-a nut; 1184-a fastener; 1185-a stop washer; 1185 a-a third stop projection; 119-a first damping member; 120-a first massage head assembly; 130-a second massage head assembly; 131-massage head; 132-a swing bracket; 1321-snap-fit groove; 1322-limit grooves; 1323-a second stop control projection; 1324-rotating vias; 1325-mounting holes; 1326 — a first stop projection; 133-a drive means; 134-a flexible web; 1341-a connecting boss; 1342-a fold; 1343-an annular projection; 140-a preload member; 141-torsion spring; 142-a strap;

a 1-axis of rotation; a 2-geometric centerline.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 all belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used in other meanings besides orientation or positional relationship, for example, the term "upper" may also be used in some cases to indicate a certain attaching or connecting relationship. The specific meaning of these terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The present application is illustrated in detail below by specific examples:

referring to fig. 1, fig. 1 is a schematic view of an eye massager 100 according to an embodiment of the present invention, and the embodiment of the present application discloses an eye massager 100 with a temple massaging function, wherein the eye massager 100 can massage around the eye and the temple respectively to achieve a soothing effect. As shown in fig. 1, 2 and 3, the eye massager 100 comprises a casing 110 and a massage head assembly, wherein the casing 110 comprises an outer shell 110b and an inner shell 110a, the outer shell 110b and the inner shell 110a are covered and connected to form the integrated casing 110, the massage head assembly is arranged on one side of the casing 110 facing the human body, the massage head assembly comprises a first massage head assembly 120 and a second massage head assembly 130, the first massage head assembly 120 is arranged near the middle of the casing 110 and is used for massaging the periphery of the eye, and the second massage head assembly 130 is arranged near the end of the casing 110 and is used for massaging the temple; the second massage head assembly 130 is elastically connected with the housing 110, so that the second massage head assembly 130 can move towards or away from the temple under a stress condition to be adaptive to fit to the temple, the second massage head assembly 130 comprises a driving device 133 and a massage head 131, and the driving device 133 can drive the massage head 131 to vibrate.

Because the massage head subassembly includes first massage head subassembly 120 and second massage head subassembly 130, and first massage head subassembly 120 can massage around the eye, and second massage head subassembly 130 can massage the temple to realized that eye massager 100 massages around the eye and temple comprehensively, increased eye massager 100's massage region, improved user's massage experience.

In the related art, in order to be able to adapt the eye massager 100 to users with different head circumferences, the casing 110 is generally formed by a left casing, a middle casing and a left casing, and the left casing and the right casing can rotate relative to the middle casing respectively, however, by providing the left casing, the middle casing and the left casing form the casing, on the one hand, the number of mounting parts and the mounting difficulty of the eye massager 100 are increased, on the other hand, the structure of the casing 110 is complex, and the processing difficulty of the casing 110 is improved. Based on this, in the present application, the casing 110 is composed of the outer casing 110b and the inner casing 110a, the outer casing 110b and the inner casing 110a are covered and connected to form the integrated casing 110, and the second massage head assembly 130 is elastically connected to the casing 110, so that the second massage head assembly 130 can move towards or away from the temple under the stress condition, so that the eye massager 100 is suitable for users with different head circumferences, and meanwhile, when the casing 110 is installed, only the outer casing 110b and the inner casing 110a are mutually covered and closed without performing other installation steps, thereby simplifying the installation process of the casing 110, simplifying the structure of the casing, and reducing the processing difficulty of the casing.

In the related art, when users with different head circumferences wear the eye massager 100, the massage heads 131 in the second massage head assembly 130 have difficulty in ensuring that the eye massager 100 can be closely attached to the temples of each user, and the adaptability is poor. Based on this, the second massage head assembly 130 is elastically connected to the housing 110, so that the second massage head assembly 130 can move towards or away from the temple under a stress condition to adaptively attach to the temple, and thus when the eye massager 100 is worn on the heads of different users, the second massage head assembly 130 can be closely attached to the temple of each user under a stress condition, thereby improving the adaptability of the eye massager 100 and improving the massage experience of the eye massager 100.

It should be noted that, the elastic connection between the second massage head assembly 130 and the housing 110 means that the second massage head assembly 130 can move towards or away from the temple under a force.

There are various structures in which the second massage head assembly 130 is elastically coupled to the housing 110 to move the second massage head assembly 130 toward or away from the temple under a force, for example, as shown in fig. 4, the second massage head assembly 130 is rotatably coupled to the housing 110 by a rotating shaft 111, and the second massage head assembly 130 can rotate about the rotating shaft 111 under a force applied to the second massage head assembly 130. For another example, as shown in fig. 5, the second massage head assembly 130 is connected to the housing 110 by a flexible connection plate 134, and since the flexible connection plate 134 has elasticity, when the flexible connection plate 134 is connected to the housing 110 and the second massage head assembly 130 is forced, the flexible connection plate 134 may move relative to the housing 110.

Optionally, referring to fig. 3 and 4 in combination, the second massage head assembly 130 further comprises a swing bracket 132, the swing bracket 132 is located in the housing 110 and is rotatably connected to the housing 110 such that the second massage head assembly 130 can rotate toward or away from the temple, and the massage head 131 is mounted to the swing bracket 132.

Thus, the swing bracket 132 provides a mounting carrier for the second massage head assembly 130 to the housing 110, such that the second massage head assembly 130 is mounted to the housing 110 as a unit, improving the ease of mounting of the second massage head assembly 130.

The second massage head assembly 130 can be forced by a variety of configurations, and in one possible configuration, referring to fig. 4, the housing 110 is further provided with a preload member 140, the preload member 140 being configured to provide a preload force to the second massage head assembly 130 that is directed toward the temple.

Because the second massage head assembly 130 is elastically connected with the housing 110, the housing 110 is provided with the preload element 140, and the preload element 140 can provide a preload force for rotating the massage head 131 toward the temple, when the eye massager 100 is worn on the head of the user, the preload element 140 can rotate the second massage head assembly 130 relative to the housing 110, so that the massage head 131 of the second massage head assembly 130 can be adaptive to the temple.

Therefore, the massage head 131 can be adaptive attached to the temple through the elastic connection between the second massage head assembly 130 and the housing 110 and the cooperation of the preload piece 140, and the massage head assembly is simple in structure and convenient to assemble.

Optionally, and with reference to fig. 6, the preload member 140 is a strap 142, and the strap 142 is coupled to the second massage head assembly 130.

Specifically, the straps 142 are disposed at two ends of the casing 110 and connected to the swing brackets 132 of the second massage head assembly 130, when the eye massager 100 is worn on the head of the user and the straps 142 at two ends of the casing 110 are tightened, the eyes of the user have a resisting force towards the casing 110 to the middle of the casing 110, the straps 142 have a pulling force away from the casing 110 to the swing brackets 132, and the massage heads 131 are rotatably connected to the casing 110 through the swing brackets 132, so that the swing brackets 132 drive the massage heads 131 to rotate towards the temples under the pulling force of the straps 142, so that the massage heads 131 are adaptively attached to the temples.

Therefore, when the eye massager 100 is worn on the head of the user, the second massage head assembly 130 can rotate towards the temple in the process of tensioning the strap 142, so that the massage head 131 is tightly attached to the temple, and the eye massager is simple in structure and convenient and fast to operate.

Alternatively, referring to fig. 4 in combination, the preload member 140 is a torsion spring 141, the torsion spring 141 is disposed between the housing 110 and the second massage head assembly 130, one end of the torsion spring 141 is connected to the housing 110, and the other end of the torsion spring 141 is connected to the swing bracket 132.

Therefore, the pretightening force provided by the torsion spring 141 acts on the swing bracket 132, so that the swing bracket 132 drives the second massage head assembly 130 to rotate towards the temple. In addition, the torsion spring 141 can provide pretightening force for the massage head 131 to rotate towards the temple without manual adjustment, and the massager has the advantages of simple structure, convenient installation and low cost.

The torsion spring 141 and the swing bracket 132 may be connected in various ways, for example, the torsion spring 141 and the swing bracket 132 may be welded, screwed, or snapped.

When the torsion spring 141 and the swing bracket 132 are connected by clipping, optionally, a clipping groove 1321 is provided on one side of the swing bracket 132 away from the massage head 131, and one end of the torsion spring 141 connected with the swing bracket 132 is clipped in the clipping groove 1321.

Through set up joint recess 1321 in order to realize that torsional spring 141 joint is fixed at one side that swing support 132 deviates from massage head 131, the dismantlement of torsional spring 141 and swing support 132 of being convenient for on the one hand, on the other hand has simplified the connection structure between swing support 132 and the torsional spring 141, promptly, need not to increase connection structure at the one end that torsional spring 141 and swing support 132 are connected.

During the rotation of the swing bracket 132 with respect to the housing 110, it is very easy to displace the end of the torsion spring 141 connected to the swing bracket 132, thereby affecting the stability of the connection between the torsion spring 141 and the swing bracket 132. Therefore, in order to ensure the stability of the torsion spring 141 and the swing bracket 132, optionally, as shown in fig. 4, a limit groove 1322 is further disposed on a side of the swing bracket 132 away from the massage head 131, and one end of the torsion spring 141 connected to the swing bracket 132 passes through the limit groove 1322 and extends into the catch groove 1321.

Because torsional spring 141 when the installation, the one end that torsional spring 141 and swing support 132 are connected passes spacing recess 1322 and stretches into in the joint recess 1321, consequently, spacing recess 1322 can carry on spacingly to the one end that torsional spring 141 and swing support 132 are connected to prevent the condition that the one end that torsional spring 141 and swing support 132 are connected appears shifting, has guaranteed the stability of being connected between torsional spring 141 and the swing support 132, has also guaranteed the effect that massage head 131 can the self-adaptation laminating temple simultaneously.

When the second massage head assembly 130 is elastically connected to the housing 110 through the rotating shaft 111, optionally, with reference to fig. 7, the second massage head assembly 130 further includes a flexible connecting plate 134, the flexible connecting plate 134 is fixedly connected to the inner housing 110a, the two ends of the inner housing 110a are provided with the mounting through holes 112, the flexible connecting plate 134 extends in a direction away from the outer housing 110b to form a connecting protrusion 1341 coaxial with the mounting through holes 112, the connecting protrusion 1341 extends out of the mounting through holes 112, the diameter of the connecting protrusion 1341 is smaller than that of the mounting through holes 112, the massage head 131 is connected to the swing bracket 132 through the connecting protrusion 1341, and a portion of the swing bracket 132 connected to the massage head 131 is located inside the connecting protrusion 1341.

Since the massage head 131 is connected to the swing bracket 132 through the connection protrusion 1341, when the vibration force output from the massage head 131 is transmitted to the flexible connection board 134 through the connection protrusion 1341, the flexible connection board 134 can effectively buffer the vibration force output from the massage head 131, thereby preventing the vibration force of the massage head 131 from being transmitted to the housing 110, avoiding the vibration force output from the driving device 133 from being weakened by the vibration of the housing 110, and improving the massage experience of the massage head assembly.

In addition, since the diameter of the connecting protrusion 1341 is smaller than the diameter of the mounting through hole 112, and the portion of the swing bracket 132 connected to the massage head 131 is located inside the connecting protrusion 1341, a gap is formed between the outer peripheral wall of the connecting protrusion 1341 and the inner wall of the mounting through hole 112, that is, a gap is formed between the portion of the swing bracket 132 connected to the massage head 131 and the inner wall of the mounting through hole 112, so that when the swing bracket 132 drives the massage head 131 to rotate towards or away from the temple, the edge of the mounting through hole 112 can define the rotation angle of the swing bracket 132, and further define the rotation angle of the massage head 131 towards or away from the temple.

The flexible connecting plate 134 and the swing bracket 132 may be provided separately or integrally. Specifically, the flexible connecting plate 134 is provided separately from the swing bracket 132, and the swing bracket 132 is rotatably connected to the housing 110 through the rotating shaft 111. A flexible connecting plate 134 is integrally formed with the swing bracket 132, and the flexible connecting plate 134 is connected to the housing 110.

Optionally, as shown in fig. 3, an edge of the flexible connecting plate 134 is fixedly connected to an edge of the mounting through hole 112, a corrugated portion 1342 is formed on the flexible connecting plate 134, and the corrugated portion 1342 is located between an inner wall of the mounting through hole 112 and the connecting protrusion 1341.

Thus, by providing the wrinkled portion 1342, the eye massager 100 can be elastically deformed when being worn on the head of the user, and when the eye massager 100 is worn on the head of the user, the wrinkled portion 1342 after being elastically deformed can be automatically restored, thereby preventing the user from feeling uncomfortable.

There are various structures for fixedly connecting the flexible connecting plate 134 to the inner shell 110a, wherein in one possible structure, referring to fig. 3 and 7, a pressing plate 114 is disposed between the flexible connecting plate 134 and the outer shell 110b, the pressing plate 114 is fixedly connected to the inner shell 110a, an annular protrusion 1343 extends from a side of the pressing plate 114 facing the flexible connecting plate 134, an annular groove 110a1 is disposed at an edge of the mounting through hole 112 facing the outer shell 110b, or an annular groove is disposed at a side of the pressing plate 114 facing the flexible connecting plate 134, an annular protrusion extends from an edge of the mounting through hole 112 facing the outer shell 110b, and the annular protrusion 1343 cooperates with the annular groove 110a1 to press and fix the edge of the flexible connecting plate 134 to the edge of the mounting through hole 112.

Since the pressure plate 114 is further disposed between the outer casing 110b and the flexible connecting plate 134, and the pressure plate 114 is fixedly connected to the inner casing 110a, the flexible connecting plate 134 can be fixed between the pressure plate 114 and the inner casing 110a by fixedly connecting the pressure plate 114 to the inner casing 110 a. In addition, by providing the annular protrusion 1343 (or the annular groove) on the side of the pressing plate 114 facing the flexible connecting plate 134, and providing the annular groove 110a1 (or the annular protrusion) on the edge of the mounting through hole 112 facing the outer shell 110b, when the annular protrusion 1343 is matched with the annular groove 110a1, the annular protrusion 1343 can press the flexible connecting plate 134 into the annular groove 110a1, so as to improve the fixing effect of the flexible connecting plate 134 between the pressing plate 114 and the inner shell 110a, and prevent the flexible connecting plate 134 from being pulled out of the outer shell 110 due to pulling the massaging head 131.

The shape of the annular protrusion 1343 or the annular groove 110a1 is similar to or the same as the shape of the flexible connecting plate 134, for example, the flexible connecting plate 134 has a circular contour, and the corresponding annular protrusion 1343 or the corresponding annular groove 110a1 has a circular shape or an approximately circular shape.

Because the pretightening force provided by the torsion spring 141 makes the massage head 131 rotate towards the temple by a large angle, in order to prevent the massage head 131 from rotating towards the temple by an excessively large angle, optionally, as shown in fig. 3, a first stop control convex part 115 is provided inside the housing 110, and a second stop control convex part 1323 is provided on the swing bracket 132, and when the swing bracket 132 rotates relative to the housing 110, the first stop control convex part 115 and the second stop control convex part 1323 can abut to prevent the swing bracket 132 from rotating relative to the housing 110.

Thus, by providing the first stopper protrusion 115 and the second stopper protrusion 1323, the continuous rotation of the rocking holder 132 with respect to the housing 110 can be effectively prevented, and the excessive rotation angle of the massage head 131 toward the temple can be avoided.

When the second massage head assembly 130 is elastically connected to the housing 110 through the flexible connection plate 134, in one possible structure, as shown in fig. 5, the massage head 131 is connected to the connection protrusion 1341, and a corrugated portion 1342 is formed on the flexible connection plate 134, wherein the corrugated portion 1342 is located between the inner wall of the installation through hole 112 and the connection protrusion 1341.

Thus, when the second massage head assembly 130 is coupled to the housing 110 by the flexible connection plate 134, the second massage head assembly 130 is elastically coupled to the housing 110 without providing the swing bracket 132. In addition, since the wrinkled portion 1342 has elasticity, when the head circumference of the user is greater than the initial distance between the two massage heads 131, the head circumference of the user can press the second massage head assembly 130 such that the two massage heads 131 float to adaptively fit the temples.

To further enhance the applicability of the eye massager 100, optionally, with reference to fig. 8, the massage head 131 is rotatable relative to the housing 110, with the rotational axis a1 of the massage head 131 offset from the geometric centerline a2 of the massage head 131.

Since the rotation axis a1 of the massage head 131 is deviated from the geometric center line a2 of the massage head 131, the massage head 131 can eccentrically rotate, and since the massage head 131 is rotatably connected to the housing 110 through the swing bracket 132, the installation position of the massage head 131 with respect to the housing 110 can be adjusted by the eccentric rotation of the massage head 131, so that the massage head 131 can be matched to the temples of different users, thereby improving the applicability of the eye massager 100.

The rotation axis a1 is a geometric straight line through which the massage head 131 performs a rotation operation. The projected pattern of the massage head 131 is a geometric pattern along the direction of the massage head 131 towards the housing 110, and the geometric center line a2 is a straight line passing through the center of a circumscribed circle of the geometric pattern and approximately perpendicular to the plane where the geometric pattern is located.

In addition, there are various structures for realizing the eccentric rotation between the massage head 131 and the housing 110, and in one possible structure, the swing bracket 132 is provided with a rotation through hole 1324; the second massage head assembly 130 further includes a rotating member 116 and a rotating cover 117, one end of the rotating member 116 is inserted into the rotating through hole 1324 and can rotate relative to the rotating through hole 1324, the other end of the rotating member 116 is fixedly connected with the massage head 131, the rotating shaft of the rotating member 116 coincides with the axis of the rotating shaft a1 of the massage head 131, the rotating cover 117 is fixedly connected with the rotating member 116 inserted into the rotating through hole 1324, the rotating cover 117 is located on the side of the swing bracket 132 facing away from the massage head 131, and the width of the projection of the rotating cover 117 is greater than the diameter of the rotating through hole 1324 along the axial direction of the rotating through hole 1324 (i.e., the direction indicated by the X arrow in fig. 8).

Since the rotation axis of the rotary member 116 coincides with the axis of the rotation axis a1 of the massage head 131, and one end of the rotary member 116 is inserted into the rotation through hole 1324 and is rotatable with respect to the rotation through hole 1324, the geometric center line a2 of the massage head 131 is offset from the rotation axis of the rotary member 116, and the massage head 131 can eccentrically rotate with respect to the rotation through hole 1324.

In addition, along the axial of rotating through-hole 1324, the width of the projection of rotating cover 117 is greater than the diameter of rotating through-hole 1324, therefore, rotating cover 117 can not pass through rotating through-hole 1324, and because the one end that revolving part 116 wore to locate rotating through-hole 1324 is fixed connection with rotating cover 117, thereby limit the one end that revolving part 116 wore to locate in rotating through-hole 1324, prevent revolving part 116 along the axial displacement of rotating through-hole 1324, and then avoided the risk that massage head 131 breaks away from casing 110.

The rotating member 116 is fixedly connected to the massage head 131 in various ways, such as: clamping and fixing, bonding and fixing and the like.

For example, as shown in fig. 8, the rotating member 116 includes a rotating portion 1161 and a connecting portion 1162, a diameter of the rotating portion 1161 is smaller than a diameter of the connecting portion 1162, the rotating portion 1161 can be inserted into the rotating through hole 1324, the connecting portion 1162 is provided with a first clamping member, and the first clamping member can be clamped and fixed with a second clamping member arranged in the massage head 131.

Further, the shape of the rotary cover 117 may be circular or bar-shaped, and when the rotary cover 117 is circular, the diameter of the rotary cover 117 is larger than the diameter of the rotary through-hole 1324, and when the rotary cover 117 is bar-shaped, the length of the rotary cover 117 is larger than the diameter of the rotary through-hole 1324.

In order to reduce the setting height of the swing bracket 132 and the rotating cover 117, optionally, referring to fig. 9 in combination, a mounting hole 1325 is formed on the side of the swing bracket 132 facing away from the massage head 131, and the rotating cover 117 is located in the mounting hole 1325; a first containing hole 1171 is formed in one side of the rotating cover 117 facing the swing bracket 132, and one end of the rotating element 116 passing through the rotating through hole 1324 extends out of the rotating through hole 1324 and passes through the first containing hole 1171.

By positioning the rotating cover 117 in the mounting hole 1325 of the swing bracket 132, the installation height of the rotating cover 117 and the swing bracket 132 can be effectively reduced, and the installation structure of the rotating cover 117 and the swing bracket 132 can be made more compact. In addition, one end of the rotating member 116 inserted into the rotating through hole 1324 is extended out of the rotating through hole 1324, so that the rotating member 116 is fixedly connected with the rotating cover 117.

In addition, since the first accommodating hole 1171 is formed in the side of the rotating cover 117 facing the swing bracket 132, and the first accommodating hole 1171 is used for accommodating the end of the rotating member 116 extending out of the rotating through hole 1324, on one hand, the first accommodating hole 1171 can limit the end of the rotating member 116 to facilitate installation, and on the other hand, the installation height of the rotating member 116 and the rotating cover 117 can be reduced, so that the occupation of the internal space of the housing 110 is reduced.

In order to provide a damping effect when the massage head 131 rotates relative to the swing bracket 132, optionally, a first damping member 119 is provided between the swing bracket 132 and the rotating cover 117 as shown in fig. 8, or a first damping member 119 is provided between the swing bracket 132 and the rotating member 116 as shown in fig. 9.

When the first damping member 119 is disposed between the swing bracket 132 and the rotating cover 117, a frictional damping force is provided between the rotating cover 117 and the first damping member 119 during the rotation of the rotating cover 117 with the rotating member 116, the frictional damping force is used to prevent the rotation of the rotating cover 117 with respect to the swing bracket 132, so that the rotation process of the rotating cover 117 is smooth, and the current rotation state of the rotating cover 117 can be maintained after the rotating cover 117 rotates by a certain angle, so that the massage head 131 can be maintained in the current rotation state.

Similarly, when the first damping member 119 is provided between the swing bracket 132 and the rotary member 116, a frictional damping force is generated between the rotary member 116 and the first damping member 119 during the rotation of the rotary member 116, and the frictional damping force can maintain the state of the massage head 131 after the rotation.

Therefore, by arranging the first damping member 119, not only can the stability of the rotation process of the massage head 131 be ensured, but also the state of the rotated massage head 131 can be maintained, thereby improving the massage experience of the eye massager 100.

In order to provide the damping effect when the massage head 131 rotates relative to the swing frame 132, optionally, referring to fig. 10, a second accommodating hole 1163 is formed on the rotating element 116 penetrating through the rotating through hole 1324; the second massage head assembly 130 further includes a connecting plate 1181 fixedly connected to the swing frame 132, a second damping member 1182 and a nut 1183 located in the second receiving hole 1163, and a fastening member 1184 engaged with the nut 1183, wherein the fastening member 1184 sequentially passes through the connecting plate 1181, the rotating cover 117 and the second damping member 1182 to be connected to the nut 1183, and the nut 1183 is used for pressing the second damping member 1182 and the rotating cover 117.

By disposing the second damping member 1182 and the nut 1183 in the second receiving hole 1163, the space occupied inside the housing 110 can be reduced, and the structure of the second massage head assembly 130 can be made more compact. In addition, since the nut 1183 is engaged with the fastening member 1184 and the nut 1183 can press the second damping member 1182 and the rotating cover 117 tightly, when the rotating cover 117 rotates along with the rotating member 116, there is a damping frictional force between the rotating cover 117 and the second damping member 1182, and the rotation of the massage head 131 is smoothed by the damping frictional force, and the state after the rotation of the massage head 131 can be maintained.

The first damping member 119 and the second damping member 1182 may be a silica gel ring, a soft rubber ring, or a damping elastic sheet.

In another possible structure in which the massage head 131 eccentrically rotates with respect to the housing 110, as shown in fig. 11, a rotation through hole 1324 is formed in the swing bracket 132; the second massage head assembly 130 further comprises a rotating member 116, one end of the rotating member 116 passes through the rotating through hole 1324 and extends out of the rotating through hole 1324, the other end of the rotating member 116 is fixedly connected with the massage head 131, the rotating member 116 can rotate relative to the rotating through hole 1324, and the rotating shaft of the rotating member 116 is overlapped with the axis of the rotating shaft a1 of the massage head 131; one end of the rotating member 116 extending out of the rotation through hole 1324 is provided with a clamping convex part 1164, and the clamping convex part 1164 abuts against the edge of the rotation through hole 1324.

Through be equipped with joint convex part 1164 in the one end of the rotating member 116 that stretches out rotation through-hole 1324, and joint convex part 1164 and the edge butt that rotates through-hole 1324 to the one end of the rotating member 116 that will stretch out rotation through-hole 1324 is injectd, prevents rotating member 116 along the axial displacement who rotates through-hole 1324, simple structure, simple to operate.

In order to facilitate the installation between the rotating member 116 and the swing bracket 132, optionally, as shown in fig. 12, a groove 1165 is formed on an end surface of one end of the rotating member 116, where the clamping protrusion 1164 is formed on the end surface, where the groove 1165 penetrates through the rotating member 116 along a radial direction of the rotating member 116, and when the rotating member 116 penetrates through the rotation through hole 1324, the groove 1165 enables the end of the rotating member 116, where the clamping protrusion 1164 is formed on the end surface, to be elastically deformed.

When the one end of the rotating member 116 that is equipped with recess 1165 stretches into in rotating through-hole 1324, the inner wall that rotates through-hole 1324 has the butt effect to the periphery wall of rotating member 116, and under the effect of butt force, the open-ended width of recess 1165 diminishes to the one end that makes the rotating member 116 be equipped with joint convex part 1164 takes place elastic deformation, and then the rotating member 116 of being convenient for passes and rotates through-hole 1324 and accomplish the installation. When the end of the rotating member 116 with the latch protrusion 1164 extends out of the rotation through hole 1324, the opening width of the groove 1165 recovers to the original width, that is, the elastic deformation of the end with the latch protrusion 1164 is reset, and the reset latch protrusion 1164 can abut against the edge of the rotation through hole 1324 to prevent the rotating member 116 from moving axially along the rotation through hole 1324.

Optionally, referring to fig. 13 and 14 in combination, a first stopping protrusion 1326 is disposed on an inner wall of the rotation through hole 1324, and a second stopping protrusion 1166 is disposed on the rotary member 116, so that when the rotary member 116 rotates relative to the rotation through hole 1324, the first stopping protrusion 1326 and the second stopping protrusion 1166 can abut against each other to prevent the rotary member 116 from rotating relative to the rotation through hole 1324.

Thus, by providing the first stopping protrusion 1326 and the second stopping protrusion 1166, the first stopping protrusion 1326 and the second stopping protrusion 1166 can abut against each other to prevent the rotating member 116 from continuously rotating relative to the rotating through hole 1324 during the rotation of the rotating member 116 relative to the rotating through hole 1324, thereby preventing the power line and/or the signal line connected to the driving device 133 from being short-circuited or broken.

One or more first stopping protrusions 1326 or second stopping protrusions 1166 may be provided, and when one first stopping protrusion 1326 or second stopping protrusion 1166 is provided, the rotation of the rotation member 116 with respect to the rotation through hole 1324 may be prevented from rotating 360 °, and when a plurality of first stopping protrusions 1326 or second stopping protrusions 1166 are provided, the rotation of the rotation member 116 with respect to the rotation through hole 1324 may be prevented from rotating by a smaller angle, for example, 180 °, 90 °, and the like.

Optionally, referring to fig. 15 in combination, a stop gasket 1185 is disposed between the rotation cover 117 and the second damping member 1182, a third stop protrusion 1185a is disposed on the stop gasket 1185, and a fourth stop protrusion 1172 is disposed on the rotation cover 117, wherein when the rotating member 116 rotates relative to the rotation through hole 1324, the third stop protrusion 1185a and the fourth stop protrusion 1172 can abut against each other to prevent the rotating member 116 from rotating relative to the rotation through hole 1324.

Therefore, by providing the third stopping protrusion 1185a and the fourth stopping protrusion 1172, the third stopping protrusion 1185a and the fourth stopping protrusion 1172 can be abutted against each other in the process that the rotating member 116 rotates relative to the rotating through hole 1324, so that the rotating member 116 is prevented from continuously rotating relative to the rotating through hole 1324, and the situation that a power line and/or a signal line connected to the driving device 133 is short-circuited or broken is avoided.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (21)

1. An eye massager with a temple massage function, comprising:

the shell comprises an outer shell and an inner shell, and the outer shell and the inner shell are covered and connected to form the integrated shell;

the massage head component is arranged on one side, facing the human body, of the shell and comprises a first massage head component and a second massage head component, the first massage head component is arranged close to the middle of the shell and used for massaging the periphery of the eyes, and the second massage head component is arranged close to the end of the shell and used for massaging the temples;

the second massage head component is elastically connected with the shell, so that the second massage head component can move towards or away from the temples under the stress condition to be adaptive to fit the temples; the second massage head component comprises a driving device and a massage head, and the driving device can drive the massage head to vibrate.

2. The eye massager with temple massage function of claim 1, wherein the second massage head assembly further comprises a swing bracket positioned within the housing and rotatably connected to the housing such that the second massage head assembly can be rotated toward or away from temple; the massage head is arranged on the swing bracket.

3. The eye massager with temple massage function of claim 2, wherein the housing further comprises a preload member for providing a preload force to the second massage head assembly for rotating toward the temple.

4. The temple massage eye massager of claim 3 wherein the preload member is a strap, the strap being connected to the second massage head assembly.

5. The eye massager with temple massage function of claim 3, wherein the preload member is a torsion spring disposed between the housing and the second massage head member, one end of the torsion spring is connected to the housing, and the other end of the torsion spring is connected to the swing bracket.

6. The eye massager with the temple massaging function of claim 5, wherein a clamping groove is formed in one side of the swing bracket, which is away from the massaging head, and one end of the torsion spring, which is connected with the swing bracket, is clamped in the clamping groove.

7. The eye massager with the temple massaging function of claim 6, wherein a limiting groove is further formed in one side of the swing bracket, which is away from the massaging head, and one end of the torsion spring, which is connected with the swing bracket, penetrates through the limiting groove and extends into the clamping groove.

8. The eye massager with temple massage function of any one of claims 2-7, wherein the second massage head assembly further comprises a flexible connecting plate fixedly connected to the inner shell, wherein mounting through holes are formed at both ends of the inner shell, a connecting protrusion concentric with the mounting through holes extends in a direction away from the outer shell of the flexible connecting plate, the connecting protrusion extends out of the mounting through holes, the diameter of the connecting protrusion is smaller than that of the mounting through holes, the massage head is connected to the swing bracket through the connecting protrusion, and the part of the swing bracket connected to the massage head is located inside the connecting protrusion.

9. The eye massager with temple massage function of claim 8, wherein the edge of the flexible connecting plate is fixedly connected with the edge of the mounting through hole, and the flexible connecting plate is formed with a corrugated portion, and the corrugated portion is located between the inner wall of the mounting through hole and the connecting convex portion.

10. The eye massager with temple massage function of claim 8, wherein a pressing plate is arranged between the flexible connecting plate and the outer shell, the pressing plate is fixedly connected with the inner shell, an annular protrusion extends from one side of the pressing plate facing the flexible connecting plate, and an annular groove is arranged at the edge of the mounting through hole facing the outer shell, or an annular groove is arranged at one side of the pressing plate facing the flexible connecting plate, and an annular protrusion extends from the edge of the mounting through hole facing the outer shell;

the annular bulge is matched with the annular groove to tightly press and fix the edge of the flexible connecting plate to the edge of the mounting through hole.

11. The eye massager with temple massage function of any of claims 2-7, wherein a first stop protrusion is provided inside the housing, a second stop protrusion is provided on the swing bracket, and when the swing bracket rotates relative to the housing, the first stop protrusion and the second stop protrusion can abut to prevent the swing bracket from rotating relative to the housing.

12. The eye massager with temple massage function of claim 1, wherein the second massage head assembly further comprises a flexible connecting plate, the flexible connecting plate is fixedly connected with the inner shell, mounting through holes are formed at two ends of the inner shell, a connecting convex part concentric with the mounting through holes extends in a direction of the flexible connecting plate deviating from the outer shell, the connecting convex part extends out of the mounting through holes, the diameter of the connecting convex part is smaller than that of the mounting through holes, and the massage head is connected with the connecting convex part;

the edge of the flexible connecting plate is fixedly connected with the edge of the mounting through hole, a corrugated part is formed on the flexible connecting plate, and the corrugated part is located between the inner wall of the mounting through hole and the connecting convex part.

13. The eye massager with temple massage function of claim 1, wherein the massage head is rotatable relative to the housing, and the rotation axis of the massage head is offset from the geometric centerline of the massage head.

14. The eye massager with temple massage function of claim 13,

the second massage head subassembly still includes swing support, rotating member and rotates the lid, the last rotation through-hole of having seted up of swing support, the one end of rotating member is worn to locate rotate in the through-hole and can for rotate the through-hole and rotate, the other end of rotating member with the first fixed connection of second massage, the rotation axis of rotating member with the axis coincidence of the rotation axis of massage head, rotate the lid and wear to locate rotate in the through-hole rotating member fixed connection, it is located to rotate the lid the swing support deviates from one side of massage head follows the axial of rotation through-hole, it is greater than to rotate the projected width of lid the diameter of rotation through-hole.

15. The eye massager with temple massage function of claim 14, wherein a mounting hole is formed at a side of the swing bracket facing away from the massage head, and the rotary cover is positioned in the mounting hole;

one side of the rotating cover, which faces the swing support, is provided with a first accommodating hole, and one end of the rotating piece, which penetrates through the rotating through hole, extends out of the rotating through hole and penetrates through the first accommodating hole.

16. The eye massager with temple massage function of claim 14, wherein a first damping member is provided between the swing bracket and the rotating cover, or a first damping member is provided between the swing bracket and the rotating member.

17. The eye massager with temple massage function of claim 13,

the second massage head component also comprises a swing bracket and a rotating piece, wherein the swing bracket is provided with a rotating through hole, one end of the rotating piece penetrates through the rotating through hole and extends out of the rotating through hole, the other end of the rotating piece is fixedly connected with the massage head, the rotating piece can rotate relative to the rotating through hole, and the rotating shaft of the rotating piece is superposed with the axis of the rotating shaft of the massage head;

stretch out rotate the through-hole the one end of rotating member is equipped with the joint convex part, the joint convex part with the edge butt of rotating the through-hole.

18. The eye massager with temple massage function of claim 17, wherein the end surface of the rotary member having the end with the clamping protrusion is provided with a groove, the groove penetrates the rotary member along the radial direction of the rotary member, and when the rotary member is inserted into the rotation through hole, the groove can elastically deform the end of the rotary member having the clamping protrusion.

19. The eye massager with temple massaging function of claim 14, wherein the inner wall of the rotation through hole is provided with a first stopping protrusion, the rotating member is provided with a second stopping protrusion, and when the rotating member rotates relative to the rotation through hole, the first stopping protrusion and the second stopping protrusion can abut to prevent the rotating member from rotating relative to the rotation through hole.

20. The eye massager with temple massage function as claimed in claim 14,

a second accommodating hole is formed in the rotating piece penetrating through the rotating through hole;

the second massage head component further comprises a connecting plate fixedly connected with the swing support, a second damping piece and a nut which are positioned in the second accommodating hole, and a fastener matched with the nut, wherein the fastener sequentially penetrates through the connecting plate, the rotating cover and the second damping piece are connected with the nut, and the nut is used for compressing the second damping piece and the rotating cover.

21. The eye massager with temple massage function of claim 20, wherein a stop pad is disposed between the rotary cover and the second damping member, a third stop protrusion is disposed on the stop pad, a fourth stop protrusion is disposed on the rotary cover, and when the rotary member rotates relative to the rotary through hole, the third stop protrusion and the fourth stop protrusion can abut to prevent the rotary member from rotating relative to the rotary through hole.

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