CN217853841U - Eye massager - Google Patents

Abstract

The utility model discloses an eye massager, which comprises a shell and a massage head component, wherein the massage head component is arranged on one side of the shell facing to a human body and comprises a first massage head component and a second massage head component, the first massage head component is arranged near the middle part of the shell and is used for massaging the periphery of the eye, and the second massage head component is arranged near the end part of the shell and is used for massaging the temple; the second massage head component comprises a driving device and a massage head, the driving device can drive the massage head to vibrate, the massage head can rotate relative to the shell, and the rotating shaft of the massage head deviates from the geometric center line of the massage head, so that the position of the massage head relative to the shell can be adjusted. The utility model provides a position that can make the massage head of second massage head subassembly match different users' temple has improved the suitability of eye massager, brings better massage experience for the user simultaneously.

Description

Eye massager

Technical Field

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

Background

With the progress of society and the improvement of living standard, people are paying attention to physical maintenance. 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 an eye massager to massage the periphery of their eyes to relieve their fatigue.

Among the prior art, the eye massager includes two kinds, one kind is that the eye massager can not massage temple, leads to the massage area of eye massager too little, influences user's massage experience, and another kind is the eye massager that can massage temple, has increased the massage area, nevertheless, because everyone temple's position is different, consequently, the eye massager can not match everyone's temple's position to lead to the suitability of eye massager to be relatively poor.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough among the prior art, the utility model provides an eye massager to the relatively poor technical problem of eye massager suitability among the solution prior art.

In order to solve the technical problem, the utility model provides an eye massager, which comprises a 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 assembly comprises a driving device and massage heads, the driving device can drive the massage heads to vibrate, the massage heads can rotate relative to the shell, and the rotating shafts of the massage heads deviate from the geometric center line of the massage heads, so that the positions of the massage heads relative to the shell can be adjusted.

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 wears to locate rotate in the through-hole and can for rotate the through-hole and rotate, the other end of rotating member with massage first fixed connection, 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, the projected width of rotation lid is greater than the diameter of rotation through-hole.

In an optional implementation manner, a mounting hole is formed in one side of the swing bracket, which faces away from the massage head, and the rotating cover is located 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 into the first accommodating hole.

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

In an optional implementation manner, an oil storage hole is formed in the first damping member, and the oil storage hole is used for storing damping oil;

or the surface of the first damping part is in a wave shape or a tooth shape.

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 of rotating 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 plurality of tooth-shaped structures are further arranged on the inner wall of the rotating through hole and arranged along the circumferential direction of the rotating through hole, and an elastic bulge is further arranged on the rotating piece and can be sequentially matched with the plurality of tooth-shaped structures when the rotating piece rotates 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.

In an alternative implementation, a second damping shim is provided between the rotating cover and the connecting plate.

In an optional implementation manner, a first wire guide hole penetrating through the rotating part is formed in the rotating part, an axial direction of the first wire guide hole is parallel to an axial direction of the rotating through hole, a second wire guide hole penetrating through the rotating cover is formed in the rotating cover, and the first wire guide hole and the second wire guide hole are coaxial.

In an optional implementation manner, the second massage head assembly is elastically connected with the shell, so that the second massage head assembly can face or be far away from the temple under a stress condition to be adaptive to fit the temple.

In an alternative implementation, a preload member is disposed between the housing and the second massage head assembly, and the preload member is configured to provide a preload force to the second massage head assembly that is rotated toward the temple.

In an optional implementation mode, the casing includes inner shell and shell of mutual lock, second massage head subassembly is still including being located the inner shell with flexonics board between the shell, mounting through hole has been seted up at the both ends of inner shell, flexonics board lid fits mounting through hole, just flexonics board's edge with mounting through hole's edge fixed connection, be formed with fold portion on the flexonics board, fold portion is located mounting through hole's inboard, the massage head pass through flexonics board with casing fixed connection.

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

in this application, because the first geometric centre line of the skew massage head of rotation axis of massage head, consequently, the massage head can eccentric rotation, when the first off-centre of massage is arrived, can adjust the position of massage head for the casing to make the massage head can match in different users' temple, improved the suitability of eye massager, bring better massage simultaneously and experience for the user.

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 partial enlarged view of FIG. 3 at B;

fig. 5 is a schematic partially exploded view of an eye massager according to an embodiment of the present invention;

FIG. 6 is a second partial enlarged view of the point B in FIG. 3;

fig. 7 is a schematic structural diagram of a first damping member according to an embodiment of the present invention;

fig. 8 is a second schematic structural view of the first damping member according to the embodiment of the present invention;

FIG. 9 is a third schematic view of the portion B in FIG. 3;

FIG. 10 is a fourth partial enlarged view of the point B in FIG. 3;

fig. 11 is a schematic structural diagram of a rotating member according to an embodiment of the present invention;

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

fig. 13 is a second schematic structural view of a rotating member according to an embodiment of the present invention;

fig. 14 is an exploded view of a connection plate, fastener, rotating cover, etc. provided by an embodiment of the present invention;

fig. 15 is a second schematic structural view of the swing frame according to the embodiment of the present invention;

fig. 16 is a third schematic structural view of a rotating member according to an embodiment of the present invention;

fig. 17 is a schematic structural view of a preload member according to an embodiment of the present invention;

fig. 18 isbase:Sub>A second cross-sectional view taken along linebase:Sub>A-base:Sub>A of fig. 2.

Description of reference numerals:

100-eye massager; 110-a housing; 110 a-inner shell; 110 b-a housing; 111-a rotating shaft; 112-mounting through holes; 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; 1167-elastic projection; 1168-a first wire guide; 117-rotating the cover; 1171-a first receiving well; 1172-a fourth stop boss; 1173-a second wire guide; 1181-a web; 1182-a second damping member; 1183-a nut; 1184-fasteners; 1185-a stop washer; 1185 a-a third stop projection; 1186-a second damping shim; 119-a first damping member; 1191-oil reservoir hole; 120-a first massage head assembly; 130-a second massage head assembly; 131-massage head; 132-a swing bracket; 1321-a snap-fit groove; 1324-rotating vias; 1325-mounting holes; 1326 — a first stop projection; 1327-tooth form; 133-a drive device; 134-a flexible web; 1342-a fold; 140-a preload member; 141-torsion spring;

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 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 work 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 to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

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 skilled in the art.

Moreover, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific type and configuration may or may not be the same), 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 illustrating a structure of an eye angle of an eye massager 100 according to an embodiment of the present invention, and the embodiment of the present invention discloses an eye massager 100, wherein the eye massager 100 can massage around the eyes and temples respectively to achieve a soothing effect. Referring to fig. 2, 3 and 4, the eye massager 100 includes a housing 110 and a massage head assembly, wherein the massage head assembly is disposed on a side of the housing 110 facing a human body, the massage head assembly includes a first massage head assembly 120 and a second massage head assembly 130, the first massage head assembly 120 is disposed near a middle portion of the housing 110 for massaging around the eye, the second massage head assembly 130 is disposed near an end portion of the housing 110 for massaging the temple, the second massage head assembly 130 includes a driving device 133 and a massage head 131, the driving device 133 can drive the massage head 131 to vibrate, the massage head 131 can rotate relative to the housing 110, and a rotation axis a1 of the massage head 131 is offset from a geometric centerline a2 of the massage head 131, so that a position of the massage head 131 relative to the housing 110 can be adjusted.

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.

However, in the related art, the mounting position between the massage head 131 of the second massage head assembly 130 and the housing 110 is fixed, and therefore, when the eye massager 100 is worn on the head of a user, the massage head 131 is not necessarily able to match the temples of different users, resulting in poor applicability of the eye massager 100. Based on this, in order to match the massage heads 131 with the temples of different users, in the embodiment of the present application, 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 be eccentrically rotated, and when the massage head 131 is eccentrically rotated, the position of the massage head 131 with respect to the housing 110 can be adjusted, so that the massage head 131 can be matched with 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. Along the direction of the massage head 131 towards the casing 110, the projection pattern of the massage head 131 is a geometric figure, and the geometric centerline a2 is a straight line which passes through the center of a circumscribed circle of the geometric figure and is approximately perpendicular to the plane of the geometric figure.

Of course, the structure for achieving the position adjustment of the massage head 131 with respect to the housing 110 is not limited to the above-given structure, for example, in one possible structure, the massage head 131 is movably connected with the housing 110.

Specifically, slide rails in different directions are provided on the housing 110, and the massage heads 131 can slide on the slide rails in different directions, thereby realizing that the mounting positions of the massage heads 131 relative to the housing 110 can be changed and adjusted.

Therefore, the mounting position of the massage head 131 relative to the housing 110 can be adjusted conveniently and quickly by movably connecting the massage head 131 with the housing 110.

For another example, in another possible structure, the massage head 131 is detachably connected to the housing 110.

Specifically, a plurality of mounting positions are provided on the housing 110, and different mounting positions of the massage head 131 can be selected according to the positions of the temples of the user, so that the massage head 131 can be matched with the temples of different users.

Thus, the detachable connection of the massage head 131 to the housing 110 facilitates the replacement and maintenance of the massage head 131, and improves the stability of the attachment of the massage head 131 during the massage of the eye massager 100.

In addition, there are various structures for realizing the eccentric rotation between the massage head 131 and the housing 110, in a possible structure, referring to fig. 5 in combination, the second massage head assembly 130 further includes a swing bracket 132, a rotating member 116 and a rotating cover 117, the swing bracket 132 is provided with a rotating through hole 1324, 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 away from the massage head 131, and the projected width 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 arrow X in fig. 4).

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 direction of the rotation through hole 1324, the width of the projection of the rotation cover 117 is greater than the diameter of the rotation through hole 1324, therefore, the rotation cover 117 cannot pass through the rotation through hole 1324, and because the rotating member 116 is fixedly connected with the rotation cover 117 at the end where the rotation through hole 1324 is penetrated, the end where the rotating member 116 is penetrated in the rotation through hole 1324 is limited, the rotating member 116 is prevented from moving along the axial direction of the rotation through hole 1324, and the risk that the massage head 131 is separated from the housing 110 is avoided.

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.

The structure of the rotating member 116 is not limited, as long as the massaging head 131 can rotate relative to the rotation through hole 1324, for example, as shown in fig. 4, the rotating member 116 includes a rotating portion 1161 and a connecting portion 1162, the diameter of the rotating portion 1161 is smaller than that of the connecting portion 1162, the rotating portion 1161 can be arranged in the rotation through hole 1324 in a penetrating manner, a first clamping member is arranged on the connecting portion 1162, and the first clamping member can be clamped and fixed with a second clamping member arranged in the massaging 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. 6, a mounting hole 1325 is formed on a 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 into 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 extends out of the rotating through hole 1324, so that the rotating member 116 is fixedly connected to 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 is rotated with respect to the swing bracket 132, in one possible structure, as shown in fig. 4, a first damping member 119 is provided between the swing bracket 132 and the rotating cover 117, or, as shown in fig. 6, a first damping member 119 is provided between the swing bracket 132 and the rotating member 116.

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 in a process in which the rotating cover 117 rotates along with the rotating member 116, the frictional damping force being used to prevent the rotating cover 117 from rotating with respect to the swing bracket 132, so that a rotation process of the rotating cover 117 is gentle, and a 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 damper 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 damper 119 during the rotation of the rotary member 116, and the frictional damping force can maintain the state after the rotation of the massage head 131.

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.

Optionally, referring to fig. 7, an oil storage hole 1191 is formed in the first damping member 119, and the oil storage hole 1191 is used for storing damping oil.

The damping oil is a novel high-quality wide-temperature lubricating oil for damping, buffering and sealing, which is prepared from a high-purity inorganic thickening agent and special synthetic oil, and the damping oil cannot change along with the temperature in any environment and has stable performance.

Therefore, the first damping shim can have a good damping effect by forming the oil storage hole 1191 for storing damping oil in the first damping member 119.

Wherein, the oil storage 1191 is a plurality of, and a plurality of oil storage 1191 equipartitions set up on first damping piece 119. Through setting up a plurality of oil storage holes 1191 at first damping piece 119, can store more damping oil, increased damping oil damping's area simultaneously, in addition, through making a plurality of oil storage holes 1191 equipartition set up, can make first damping piece 119 more even to the damping force of rotating cap 117 or swing bracket 132 to the damping effect of first damping piece 119 has further been improved.

Alternatively, referring to fig. 8 in combination, the surface of the first damping member 119 is waved or toothed.

When the rotary member 116 rotates, the surface of the first damping member 119 having a wave shape or a tooth shape is elastically deformed to improve the damping effect of the first damping member 119.

In order to provide a damping effect when the massage head 131 rotates relative to the swing frame 132, in another possible structure, referring to fig. 9, a second accommodating hole 1163 is formed on the rotating member 116 passing through the rotation 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 by the interior of 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 second damping member 1182 may be a silicone ring, a soft rubber ring, or a damping elastic sheet.

In another possible structure of the eccentric rotation of the massage head 131 relative to the casing 110, referring to fig. 10, the second massage head assembly 130 further includes a swing bracket 132 and a rotating member 116, the swing bracket 132 is provided with a rotation through hole 1324, one end of the rotating member 116 passes through the rotation through hole 1324 and extends out of the rotation 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 rotation through hole 1324, and the rotation axis of the rotating member 116 coincides with the axis of the rotation axis 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, referring to fig. 11 in combination, 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, the groove 1165 penetrates through the rotating member 116 along a radial direction of the rotating member 116, and when the rotating member 116 is inserted into the rotation through hole 1324, the groove 1165 enables the end of the rotating member 116, where the clamping protrusion 1164 is formed, to be elastically deformed.

When the one end of the rotating member 116 that is equipped with the recess 1165 stretches into in rotating the through-hole 1324, the inner wall that rotates the 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 is convenient for the rotating member 116 to pass and rotates the through-hole 1324 and accomplish the installation. When the end of the rotary 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 rotary member 116 from moving axially along the rotation through hole 1324.

Optionally, referring to fig. 12 and 13 in combination, a first stopping protrusion 1326 is disposed on the inner wall of the rotation through hole 1324, and a second stopping protrusion 1166 is disposed on the rotating member 116, so that when the rotating 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 rotating 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.

When the second damping member 1182 is disposed in the second accommodating hole 1163, in order to ensure normal operation of the driving device 133, optionally, referring to fig. 14, a stopping pad 1185 is disposed between the rotating cover 117 and the second damping member 1182, a third stopping protrusion 1185a is disposed on the stopping pad 1185, a fourth stopping protrusion 1172 is disposed on the rotating cover 117, and when the rotating member 116 rotates relative to the rotating through hole 1324, the third stopping protrusion 1185a and the fourth stopping protrusion 1172 can abut against each other to prevent the rotating member 116 from rotating relative to the rotating 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.

Optionally, as shown in fig. 14, a second damping shim 1186 is disposed between the rotating cover 117 and the connecting plate 1181. Therefore, by arranging the second damping gasket 1186, direct contact between the rotating cover 117 and the connecting plate 1181 can be avoided, mutual abrasion between the rotating cover 117 and the connecting plate 1181 is prevented, and meanwhile, damping force between the rotating cover 117 and the connecting plate 1181 is improved.

In order to provide a damping effect during the rotation of the rotating element 116, optionally, referring to fig. 15 and 16, a plurality of tooth-shaped structures 1327 are further provided on the inner wall of the rotation through hole 1324, the plurality of tooth-shaped structures 1327 are arranged along the circumferential direction of the rotation through hole 1324, and an elastic protrusion 1167 is further provided on the rotating element 116, and when the rotating element 116 rotates relative to the rotation through hole 1324, the elastic protrusion 1167 can be sequentially matched with the plurality of tooth-shaped structures 1327.

In the process that the rotating member 116 rotates relative to the rotating through hole 1324, when the elastic protrusion 1167 moves from between two adjacent tooth-shaped structures 1327 to abut against the tooth-shaped structures 1327, elastic deformation occurs to generate a damping feeling, and therefore, when the elastic protrusion 1167 is sequentially matched with a plurality of tooth-shaped structures 1327, a plurality of damping feelings can be generated.

The elastic protrusion 1167 and the tooth structure 1327 are engaged with each other when the elastic protrusion 1167 abuts against the tooth structure 1327. The plurality of tooth structures 1327 means two or more tooth structures 1327.

Optionally, the rotating member 116 is provided with a first wire hole 1168 penetrating through the rotating member 116, an axial direction of the first wire hole 1168 is parallel to an axial direction of the rotating through hole 1324, the rotating cover 117 is provided with a second wire hole 1173 penetrating through the rotating cover 117, and the first wire hole 1168 is coaxial with the second wire hole 1173.

Therefore, the first wire hole 1168 and the second wire hole 1173 are respectively formed on the rotating member 116 and the rotating cover 117 to accommodate the power lines and the signal lines connected to the driving device 133, and the power lines and the signal lines are prevented from being exposed to the outside, so as to protect the power lines and the signal lines.

Optionally, referring to fig. 17 in combination, the second massage head assembly 130 is resiliently coupled to the housing 110 such that the second massage head assembly 130 is capable of moving toward or away from the temple under a force to adaptively fit the temple.

Therefore, when the eye massager 100 is worn on the heads of different users, the second massage head assembly 130 can be tightly attached to the temples of each user under the stress condition, so that the adaptability of the eye massager 100 is improved, and the massage experience of the eye massager 100 is also improved.

The elastic connection between the second massage head assembly 130 and the housing 110 means that the second massage head assembly 130 can rotate towards or away from the temple position under a force.

In addition, there are various structures for implementing the rotation of the second massage head assembly 130 toward or away from the temple by elastically connecting the second massage head assembly 130 to the housing 110, for example, as shown in fig. 17, the second massage head assembly 130 is rotatably connected to the housing 110 by a rotating shaft 111, and the second massage head assembly 130 can rotate about the rotating shaft 111 under the stress of the second massage head assembly 130. For another example, as shown in fig. 18, the second massage head assembly 130 is connected to the housing 110 through the 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 can rotate relative to the housing 110.

Optionally, as shown in fig. 17, a preload member 140 is disposed between the housing 110 and the second massage head assembly 130, and the preload member 140 is used to provide a preload force for the second massage head assembly 130 to rotate toward the temple.

Therefore, the pretightening force provided by the pretightening member 140 can push the second massage head assembly 130 to rotate towards the temple, that is, the pretightening force can push the massage head 131 to be adaptive to fit with the temple, so that the massage experience of the user can be effectively improved.

Illustratively, as shown in fig. 17, the preload member 140 is a torsion spring 141, one end of the torsion spring 141 is fixedly connected to the pressing plate in the housing 110, and the other end is connected to the swing bracket 132, specifically, a clamping groove 1321 is provided on the swing bracket 132, and the other end of the torsion spring 141 is clamped in the clamping groove 1321. In order to prevent the torsion spring 141 from shifting during the pre-tightening process, a limiting groove is formed in the swing bracket 132 on the same side as the clamping groove 1321, and the other end of the torsion spring 141 penetrates through the limiting groove and extends into the clamping groove 1321.

Optionally, the housing 110 includes an inner housing 110a and an outer housing 110b that are fastened to each other, the second massage head assembly 130 further includes a flexible connecting plate 134 located between the inner housing 110a and the outer housing 110b, the two ends of the inner housing 110a are provided with mounting through holes 112, the flexible connecting plate 134 covers the mounting through holes 112, an edge of the flexible connecting plate 134 is fixedly connected with an edge of the mounting through holes 112, a corrugated portion 1342 is formed on the flexible connecting plate 134, the corrugated portion 1342 is located inside the mounting through holes 112, and the massage head 131 is fixedly connected with the housing 110 through the flexible connecting plate 134.

Because the massage head 131 is connected with the housing 110 through the flexible connection board 134, when the vibration force output by the massage head 131 passes through the flexible connection board 134, the flexible connection board 134 can effectively buffer the vibration force output by 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 by the driving device 133 from being weakened due to the vibration of the housing 110, and improving the massage experience of the second massage head assembly 130.

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

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 or substitutions do not depart from the scope of the invention in its corresponding aspects.

Claims (16)

1. An eye massager, comprising:

a housing;

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 eyes, and the second massage head component is arranged close to the end of the shell and used for massaging temples;

the second massage head component comprises a driving device and a massage head, the driving device can drive the massage head to vibrate, the massage head can rotate relative to the shell, and a rotating shaft of the massage head deviates from a geometric center line of the massage head, so that the position of the massage head relative to the shell can be adjusted.

2. The eye massager of claim 1,

the second massage head subassembly still includes swing bracket, rotating member and rotates the lid, the last rotation through-hole of having seted up of swing bracket, 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 massage, 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 bracket deviates from one side of massage head is followed the axial of rotating the through-hole, it is greater than to rotate the projected width of lid the diameter of rotating the through-hole.

3. The eye massager of claim 2 wherein the swing bracket is formed with a mounting hole on a side facing away from the massage head, the rotary cover being located 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 into the first accommodating hole.

4. The eye massager of claim 2, wherein 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.

5. The eye massager of claim 4, wherein the first damping member is provided with an oil storage hole for storing damping oil;

or the surface of the first damping part is in a wave shape or a tooth shape.

6. The eye massager of claim 2,

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.

7. The eye massager of claim 6, wherein a stop pad is disposed between the rotatable cover and the second damping member, a third stop protrusion is disposed on the stop pad, and a fourth stop protrusion is disposed on the rotatable cover, wherein when the rotatable member rotates relative to the rotatable through hole, the third stop protrusion and the fourth stop protrusion can abut to prevent the rotatable member from rotating relative to the rotatable through hole.

8. The eye massager of claim 7, wherein a second damping pad is disposed between the rotary cap and the connecting plate.

9. The eye massager of claim 2, wherein the rotary member is provided with a first wire guide hole penetrating through the rotary member, an axial direction of the first wire guide hole is parallel to an axial direction of the rotary through hole, the rotary cap is provided with a second wire guide hole penetrating through the rotary cap, and the first wire guide hole and the second wire guide hole are coaxial.

10. The eye massager of claim 1,

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

11. The eye massager of claim 10, wherein the end surface of the rotating member having the clamping protrusion is provided with a groove, the groove penetrates through the rotating member along the radial direction of the rotating member, and when the rotating member is inserted into the rotating through hole, the groove enables the end of the rotating member having the clamping protrusion to be elastically deformed.

12. The eye massager of claim 2 or 10, 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.

13. The eye massager of claim 12, wherein the inner wall of the rotary through hole further comprises a plurality of tooth-shaped structures arranged along the circumferential direction of the rotary through hole, and the rotary member further comprises an elastic protrusion, wherein the elastic protrusion is sequentially engaged with the plurality of tooth-shaped structures when the rotary member rotates relative to the rotary through hole.

14. The eye massager of claim 1, wherein the second massage head assembly is resiliently coupled to the housing such that the second massage head assembly is capable of moving toward or away from the temple under a force to adaptively fit over the temple.

15. The eye massager of claim 14 wherein a preload member is provided between the housing and the second massage head assembly, the preload member being adapted to provide a preload force to the second massage head assembly for rotation toward the temple.

16. The eye massager of claim 1,

the casing includes the inner shell and the shell of mutual lock, second massage head subassembly is still including being located the inner shell with flexonics board between the shell, mounting through hole has been seted up at the both ends of inner shell, flexonics board lid fits mounting through hole, just flexonics board's edge with mounting through hole's edge fixed connection, be formed with fold portion on the flexonics board, fold portion is located mounting through hole's inboard, the massage head passes through flexonics board with casing fixed connection.

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