CN217853796U - Massage device - Google Patents

Abstract

The application discloses massager, wherein massager includes casing and first massage head subassembly, and first massage head subassembly includes first massage head and a drive arrangement, and a drive arrangement is used for driving first massage head vibration, and first massage head subassembly includes the multiunit, and the first massage head of the first massage head subassembly of multiunit all sets up in the casing towards human one side, and the hardness and/or the material that have two sets of first massage head subassemblies first massage head are different at least. The utility model provides a massager is different through hardness and/or the material that has two sets of first massage head subassemblies's first massage head at least, can make the massage body of two at least massage heads in the massager feel differently to bring different ann's experience for the user.

Description

Massage device

Technical Field

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

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.

In the prior art, the massager comprises a shell and a plurality of massage heads arranged on one side of the shell facing the human body, and the massage heads can respectively massage the parts to be massaged of the human body. However, because the structures and functions of the massage heads are the same, when the massage devices massage the to-be-massaged part of the human body, the bodies of the massage heads to the to-be-massaged part are basically the same, and the massage experience of the user is poor.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough among the prior art, the utility model provides a massager can make the massage body of two at least massage heads in the massager feel the difference to bring different massage experiences for the user.

In order to achieve the above object, the utility model discloses a massager, this massager includes:

a housing;

first massage head subassembly, first massage head subassembly includes first massage head and a drive arrangement, a drive arrangement is used for driving first massage head vibrates, first massage head subassembly includes multiunit, multiunit first massage head subassembly first massage head all set up in the casing is towards human one side, at least two sets of existence first massage head subassembly first massage head is different with human contact site's hardness and/or material.

As an optional implementation manner, the material of the part, in contact with the human body, of the first massage head of at least one group of the first massage head assemblies is metal, and the material of the part, in contact with the human body, of the first massage head of at least one group of the first massage head assemblies is flexible.

As an optional embodiment, the first massage head comprises a cover body, the cover body is in contact with a human body, and at least two cover bodies are made of different materials and/or different in hardness;

or, one part of the first massage head comprises a cover body, the cover body is contacted with a human body, the other part of the first massage head does not comprise the cover body, and the material and/or hardness of the cover body is different from the material and/or hardness of the first massage head without the cover body.

As an optional implementation manner, the first massage head, the part of which is in contact with the human body is made of a metal material, is electrically connected with a detector or a sensor, and when the first massage head made of the metal material is in contact with the human body, a current loop of the detector or the sensor is conducted.

As an optional implementation manner, the massager further comprises an auxiliary massage device, the auxiliary massage device is disposed on at least one of the first massage heads, and the auxiliary massage device is a hot compress device, an infrared device or an electric pulse device.

As an alternative embodiment, when the auxiliary massage device is the heat application device, the heat application device is not in direct contact with the first driving device.

As an optional implementation mode, the casing includes inner shell and the shell of mutual lock and set up in the inner shell with flexible base plate between the shell, flexible base plate pass through the spliced pole with first massage head is connected, just flexible base plate the spliced pole with first massage head integrated into one piece.

As an optional implementation manner, along the axial direction of the connection column, the connection column includes a connection section and a buffer section that are connected to each other, the connection section is connected with the first massage head, the buffer section is connected with the flexible substrate, and the diameter of the connection section is smaller than the diameter of the buffer section.

As an optional implementation manner, a pressing plate is further disposed between the outer shell and the flexible substrate, the pressing plate is fixedly connected to the inner shell, a protruding rib extends from one side of the pressing plate, which faces the flexible substrate, and the protruding rib presses and fixes the flexible substrate to the inner wall of the inner shell.

As an alternative embodiment, the massager is an eye massager, and the first massage head assembly comprises a plurality of groups for massaging around the left eye and around the right eye respectively.

As an alternative embodiment, the eye massager includes a right eye region for covering the periphery of the right eye and a left eye region for covering the periphery of the left eye, the right eye region and the left eye region each including a eyebrow region and an eye pit region;

the eyebrow area is provided with three first massage head subassemblies of group, the eye pit area is provided with two sets ofly first massage head subassembly, three groups in eyebrow area first massage head subassembly with two sets ofly in eye pit area first massage head subassembly first massage head with human contact portion's hardness and/or material are different.

As an optional implementation manner, the material of the contact part of the first massage heads of the three groups of first massage head components in the eyebrow area and the human body is flexible, and the material of the contact part of the first massage heads of the two groups of first massage head components in the eye socket area and the human body is metal; and/or the presence of a gas in the atmosphere,

the first massage heads of the two groups of first massage head components in the eye pit area are provided with hot compress devices; and/or the presence of a gas in the gas,

the first massage heads of the three groups of first massage head components in the eyebrow area are distributed at intervals along the length direction of the shell, and the contact part of the first massage heads of the middle group of first massage head components and a human body is large in area; and/or the presence of a gas in the gas,

two sets of the eye nest district first massage head subassembly first massage head follows the length direction interval distribution of casing, and be the setting of falling eight characters on the length direction of casing, one in eye nest district first massage head keeps away from another the height ratio of the first one end perk of first massage head is one first massage head is close to another the one end of first massage head is high.

As an optional implementation manner, the eye massager further includes a second massage head assembly, the second massage head assembly includes a second massage head and a second driving device, the second driving device is used for driving the second massage head to vibrate, the second massage head is disposed on one side of the housing facing the human body, the second massage head assembly includes at least two groups, at least two groups of the second massage head assemblies are respectively disposed near two ends of the housing, and the second massage head assembly is used for massaging the temple;

the second massage head component is a vibration massage head component or an air bag massage head component.

As an alternative embodiment, the second massage head assembly is rotatably connected with the casing through a rotating shaft, and the second massage head assembly can rotate towards or away from the human body.

In an alternative embodiment, a preload member is disposed between the housing and the second massage head assembly, and the preload member is configured to apply a preload force to the second massage head assembly for rotation toward the body.

As an optional implementation manner, the second massage head assembly further includes a swing bracket, the swing bracket is located in the housing, the second driving device and the second massage head are disposed on the swing bracket, and the swing bracket is connected to the housing through the rotating shaft.

As an optional implementation mode, the casing includes inner shell and shell of mutual lock, mounting hole has been seted up at the both ends of inner shell, mounting hole upper cover has closed the flexonics board, the flexonics board with inner shell fixed connection, the flexonics board deviates from the direction of shell extend have with the endocentric convex part of being connected of mounting hole, just it stretches out to connect the convex part mounting hole, the diameter of connecting the convex part is less than mounting hole's diameter, the second massage head passes through connect the convex part with swing bracket connects, swing bracket with the part that the second massage head is connected is located connect the inside of convex part.

As an alternative embodiment, 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.

As an alternative embodiment, the flexible connecting plate is integrally formed with the second massage head.

As an alternative embodiment, the second massage head is rotatably connected to the swing bracket, and the rotation axis of the second massage head is offset from the geometric center of the second massage head.

As an optional implementation manner, a rotation through hole is formed in the swing bracket;

the second massage head subassembly still includes the rotating member and rotates the lid, 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 first fixed connection is massaged to the second, the rotation axis of rotating member with the axis coincidence of the rotation axis of the first massage of second, 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 the first massage of second 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.

As an alternative embodiment, a mounting hole is formed on one side of the swing bracket, which faces away from the second massage head, and the rotating cover is positioned in the mounting hole;

one side of the rotating cover facing the swing support is provided with a first containing hole, and one end of the rotating piece penetrating through the rotating through hole extends out of the rotating through hole and penetrates through the first containing hole.

As 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.

As an optional implementation manner, a rotation through hole is formed in the swing bracket;

the second massage head component also comprises a rotating piece, 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 second massage head, the rotating piece can rotate relative to the rotating through hole, and the axis of the rotating shaft of the rotating piece is superposed with the axis of the rotating shaft of the second 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.

As an optional implementation mode, the rotating member is provided with a groove in the end face of one end of the clamping convex part, the groove radially penetrates through the rotating member, and when the rotating member is arranged in the rotating through hole in a penetrating mode, the groove enables the rotating member to be provided with one end of the clamping convex part to be elastically deformed.

As an optional implementation manner, a first stopping protrusion is disposed on an inner wall of the rotation through hole, a second stopping protrusion is disposed on the rotating member, and when the rotating member rotates relative to the rotation through hole, the first stopping protrusion and the second stopping protrusion can abut against each other to prevent the rotating member from rotating relative to the rotation through hole.

As 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.

As an optional implementation manner, a stop gasket is disposed between the rotation cover and the second damping member, a third stop protrusion is disposed on the stop gasket, a fourth stop protrusion is disposed on the rotation cover, and when the rotating member rotates relative to the rotation through hole, the third stop protrusion and the fourth stop protrusion can abut against each other to stop the rotating member from rotating relative to the rotation through hole.

Compared with the prior art, the utility model discloses following beneficial effect has at least:

the embodiment of the application provides a because the first massage head that has two sets of first massage head subassemblies at least is different with human contact site's hardness and/or material among massager and the wearable massage equipment, consequently, when the first massage head of the first massage head subassembly of multiunit and human treat massage position contact and massage, hardness and/or material are different two at least first massage heads transmit to the human massage power of treating massage position different with human contact site, thereby bring different massage body sensations for the human part of treating massage, user's massage experience has been promoted.

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 a massager provided by an embodiment of the present invention;

FIG. 2 isbase:Sub>A cross-sectional view taken at A-A of FIG. 1;

fig. 3 is a front view of the massage device provided by the embodiment of the present invention;

FIG. 4 is a cross-sectional view at C-C of FIG. 3;

FIG. 5 is an enlarged partial schematic view of FIG. 4 at D;

fig. 6 is an exploded view of the massage device according to the embodiment of the present invention;

fig. 7 is a second exploded view of the massage device according to the embodiment of the present invention;

fig. 8 is a schematic structural diagram of a pressing plate according to an embodiment of the present invention;

FIG. 9 is a cross-sectional view taken at E-E of FIG. 3;

fig. 10 is a third exploded view of the massage device in accordance with the embodiment of the present invention;

fig. 11 is a schematic view of the massager provided by the embodiment of the present invention in a state where no housing is provided;

FIG. 12 is a cross-sectional view at F-F of FIG. 3;

FIG. 13 is a partial enlarged view taken at M in FIG. 12;

FIG. 14 is a second enlarged view of a portion of FIG. 12 at M;

FIG. 15 is a third enlarged view of a portion of FIG. 12 at M;

FIG. 16 is a fourth partial enlarged view taken at M in FIG. 12;

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

fig. 18 is a schematic structural view of a swing bracket according to an embodiment of the present invention;

fig. 19 is another schematic structural diagram of a rotating member according to an embodiment of the present invention;

fig. 20 is an exploded view of a fastener attachment component according to an embodiment of the present invention.

An icon: 10-a wearable massage device;

100-a massager; 110-a housing; 110 a-left eye region; 110 b-right eye area; 1101-eyebrow area; 1102-cell region; 111-a housing; 112-an inner shell; 1121-mounting through holes; 113-a flexible substrate; 120-a first massage head assembly; 121-a first drive; 122-a first massage head; 1221-cover; 124-a heat application device; 125-connecting column; 1251-buffer section; 1252-connecting segment; 126-a platen; 1261-raised ribs; 130-a second massage head assembly; 131-a second drive; 132-a second massage head; 133-a swing bracket; 1331-a snap-in groove; 1332-a limit groove; 1333-rotating the through hole; 1334-mounting holes; 1335-a first stop projection; 134-a flexible web; 1341-a fold; 1342-a connecting boss; 135-a rotating member; 1351-rotating part; 1352-a connecting part; 1353-clamping convex part; 1354-groove; 1355-a second stop projection; 1356-second housing hole; 136-a rotating cap; 1361-first containment well; 1362-fourth stop projection; 1371-a first damping member; 1372-a second damping member; 1381-fasteners; 1382-a nut; 1383-a stop washer; 1383 a-a third stop projection; 1384-a connecting plate; 140-a preload member; 141-torsion spring; 151-rotation axis; 152-geometric center.

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.

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 technical solution of the present application will be further described with reference to the following embodiments and the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a massager 100 according to an embodiment of the present invention. The application discloses a massager 100, and the massager 100 is used for massaging a part to be massaged of a human body to achieve a soothing effect. Referring to fig. 2, the massager 100 includes a housing 110 and a first massage head assembly 120, the first massage head assembly 120 includes a first massage head 122 and a first driving device 121, the first driving device 121 is configured to drive the first massage head 122 to vibrate, the first massage head assembly 120 includes a plurality of groups, the first massage heads 122 of the plurality of groups of first massage head assemblies 120 are all disposed on a side of the housing 110 facing a human body, and at least two groups of first massage heads 122 of the first massage head assembly 120 have different hardness and/or material from a portion of the human body in contact with the first massage heads 122.

When a user wears or holds the massager 100 on a part of a human body to be massaged, the first driving device 121 of the first massage head assembly 120 is activated, so that the first driving device 121 drives the first massage head 122 to vibrate to massage the part of the human body to be massaged.

The first driving device 121 may be a motor, or the like. When the first driving device 121 is a motor, the motor is disposed inside the first massage head 122 in order to make the structure of the first massage head assembly 120 more compact.

When the contact part of the first massage heads 122 of the plurality of groups of first massage head assemblies 120 with the human body is positioned at the part of the human body to be massaged and massages the part of the human body to be massaged, the massage effect of the massager 100 and the massage experience of the user can be improved.

If the structures, functions, and the like of the first massage heads 122 of the multiple groups of first massage head assemblies 120 are the same, the first massage heads 122 of the multiple groups of first massage head assemblies 120 have substantially the same body feeling of massage on the to-be-massaged portion of the human body, which may affect the massage experience of the user. Therefore, the hardness and/or the material of the contact part between the first massage heads 122 of the two groups of first massage head assemblies 120 and the human body are different, so that when the first massage heads 122 of the multiple groups of first massage head assemblies 120 contact and massage the part to be massaged of the human body, the massage force transmitted to the part to be massaged of the human body by the contact parts between the at least two first massage heads 122 with different hardness and/or material and the human body is different, thereby bringing different massage body senses to the part to be massaged of the human body, and improving the massage experience of the user.

There are various implementations in which the hardness of the parts of the at least two first massage heads 122 that contact the human body is different, and in one possible implementation, the materials of the parts of the at least one set of first massage heads 122 of the first massage head assembly 120 that contact the human body are metals, and the materials of the parts of the at least one set of first massage heads 122 of the first massage head assembly 120 that contact the human body are flexible materials.

When the material of the contact part of the first massage head 122 and the human body is metal, the metal material can improve the hardness of the first massage head 122, and the vibration sense of the contact part of the first massage head 122 and the human body with higher hardness, which is transmitted to the part of the human body to be massaged, is stronger, so that the massage strength of the first massage head 122 to the part of the human body to be massaged is improved. When the first massage head 122 and the human body contact part are made of flexible materials, the flexible materials can reduce the hardness of the first massage head 122, the first massage head 122 with smaller hardness and the human body contact part transmit the vibration of the human body to the to-be-massaged part, so that the massage force of the first massage head 122 to the to-be-massaged part of the human body is reduced, and different massage experiences are brought to the to-be-massaged part of the human body.

Wherein, the metal can be copper, aluminum, alloy, etc., and the flexible material can be soft glue, silica gel, etc. It should be understood that the above description is only for the purpose of illustrating the metal and the flexible material, respectively, and not for limiting the scope of the present embodiment.

In another possible solution, as shown in fig. 3, 4 and 5, the first massage head 122 includes cover bodies 1221, the cover bodies 1221 are in contact with the human body, and at least two cover bodies 1221 are different in material and/or hardness; or, a part of the first massage head 122 includes the cover 1221, the cover 1221 contacts with the human body, and the material and/or hardness of the cover 1221 is different from the material and/or hardness of the first massage head 122 that does not include the cover 1221.

When one part of the first massage heads 122 includes the cover 1221, the first massage heads 122 contact with the part of the human body to be massaged through the cover 1221, and thus, the material and/or hardness of at least two covers 1221 are different, so that the touch feeling of the part of the at least two first massage heads 122 contacting with the human body is different, and further, different massage body feeling is brought to the part of the human body to be massaged. In addition, by changing the material of the cover 1221, it is possible to diversify the massage experience for the user.

Optionally, the first massage head 122, which is made of metal and contacts with the human body, is electrically connected to a detector (not shown) or a sensor (not shown), and when the first massage head 122, which is made of metal and contacts with the human body, a current loop of the detector or the sensor is turned on.

Because the human body contains a large amount of body fluid, the body fluid comprises water and various electrolytes dissolved in the water, such as various trace elements of calcium, sodium, potassium and the like, and the trace elements exist in the body fluid in the form of ions, when the human body contacts an external electric field, the ions in the body fluid move directionally to form current, so that the human body has conductivity.

Therefore, when the first massage head 122, the part of which is in contact with the human body, is made of a metal material, contacts with the human body, the detector or the sensor forms a current loop with the human body through the first massage head 122 made of the metal material, so that the massage function of the massager 100 is started, and the intelligent degree of automatic massage of the massager 100 is improved.

In order to improve the diversity of the massage modes of the massager 100, optionally, the massager 100 further comprises an auxiliary massage device, the auxiliary massage device is disposed on the at least one first massage head 122, and the auxiliary massage device is a hot compress device 124, an infrared device or an electric pulse device.

Exemplarily, the hardness of at least two first massage heads 122 is different, supplementary massage device is for hot compress device 124 (hot compress device 124 can be for heating element or heating film), hot compress device 124 sets up on the first massage head 122 that hardness is big and/or on the first massage head 122 that hardness is little, therefore, set up the difference of position through hot compress device 124, thereby make first massage head 122 have the hot compress function, can bring the diversification of massage mode for the user on the one hand, on the other hand, can make the human body treat that massage position is more obvious feel the differentiation that the massage of two at least first massage heads 122 was felt.

Wherein, the auxiliary massage device arranged on at least one massage head can be one, two or three of a hot compress device 124, an infrared device or an electric pulse device.

Optionally, the auxiliary massage devices on the at least two first massage heads 122 have different functions, for example, the at least one first massage head 122 is provided with the hot compress device 124, and the at least one first massage head 122 is provided with the infrared device and/or the electric pulse device, so that the massage functions of the at least two first massage heads 122 can be different, thereby providing the user with a variety of massage modes.

In order to make the structure of the first massage head assembly 120 more compact, the first driving device 121 is generally disposed inside the first massage head 122, and when the auxiliary massage device is the heat application device 124, heat generated by the heat application device 124 is very easily transferred to the first driving device 121, thereby affecting the life of the first driving device 121, and therefore, in order to prevent the heat application device 124 from affecting the life of the first driving device 121, optionally, as shown in fig. 5, the heat application device 124 is not in direct contact with the first driving device 121.

Therefore, the heat generated by the hot compress device 124 is difficult to be transferred to the first driving device 121, and meanwhile, the vibration force output by the first driving device 121 is also difficult to be transferred to the hot compress device 124, thereby protecting the hot compress device 124 and the first driving device 121, and further prolonging the service life of the massager 100.

The heat application device 124 is not in direct contact with the first drive 121, it being understood that there is a gap between the heat application device 124 and the first drive 121 or a thermal insulation layer between the heat application device 124 and the first drive 121.

Optionally, as shown in fig. 2 and fig. 6, the casing 110 includes an inner casing 112 and an outer casing 111 that are fastened to each other, and a flexible substrate 113 disposed between the inner casing 112 and the outer casing 111, the flexible substrate 113 is connected to the first massage head 122 through a connection column 125, and the flexible substrate 113, the connection column 125, and the first massage head 122 are integrally formed.

Because the flexible substrate 113 is arranged between the inner shell 112 and the outer shell 111, and the flexible substrate 113 is connected with the first massage head 122 through the connecting column 125, when the vibration force of the first massage head 122 is transmitted to the flexible substrate 113, the flexible substrate 113 can buffer the vibration force of the first massage head 122, thereby reducing the vibration force transmitted to the shell 110, avoiding the shell 110 from weakening the vibration of the first massage head 122 due to the vibration, improving the comfort of the massager 100 during massage, and ensuring the massage effect of the first massage head 122.

In addition, because the flexible substrate 113, the connection column 125 and the first massage head 122 are integrally formed, the number of assembly parts is reduced, the assembly difficulty and the assembly cost of the flexible substrate 113, the connection column 125 and the first massage head 122 are reduced, and the assembly efficiency is improved.

The flexible substrate 113 may be made of soft rubber, silica gel, or other flexible materials, as long as the flexible material can buffer the vibration of the first massage head 122.

The inner shell 112 is a shell facing the human body, and the outer shell 111 is a shell facing away from the human body.

Alternatively, along the axial direction of the connection column 125, the connection column 125 includes a connection section 1252 and a buffer section 1251 connected to each other, the connection section 1252 is connected to the first massage head 122, the buffer section 1251 is connected to the flexible substrate 113, and the diameter of the connection section 1252 is smaller than that of the buffer section 1251.

Since the diameter of the connecting section 1252 is smaller than that of the buffering section 1251, when a vibration force is transmitted to the connecting section 1252, at least a part of the vibration force is transmitted to the buffering section 1251 through the buffering section 1251 toward the end surface of the connecting section 1252, and during the transmission, the end surface of the buffering section 1251 toward the connecting section 1252 has a tendency to move along the axial direction of the buffering section 1251, so that the vibration force transmitted to the flexible substrate 113 is reduced, and the output force of the first driving device 121 is prevented from being weakened due to the vibration of the housing 110.

Since the first massage head 122, the connection post 125 and the flexible substrate 113 are integrally formed, when the user pulls the first massage head 122, it is very easy to tear the flexible substrate 113 out of the housing 110. Based on this, in order to improve the stability and the firmness of the flexible substrate 113 disposed between the inner shell 112 and the outer shell 111, optionally, as shown in fig. 7 and 8, a pressing plate 126 is further disposed between the outer shell 111 and the flexible substrate 113, the pressing plate 126 is fixedly connected with the inner shell 112, a protruding rib 1261 extends from one side of the pressing plate 126 facing the flexible substrate 113, and the protruding rib 1261 tightly presses and fixes the flexible substrate 113 to the inner wall of the inner shell 112.

Since the pressing plate 126 is further disposed between the outer casing 111 and the flexible substrate 113, and the pressing plate 126 is fixedly connected to the inner casing 112, the flexible substrate 113 can be fixed between the pressing plate 126 and the inner casing 112 by fixedly connecting the pressing plate 126 to the inner casing 112. Since the flexible substrate 113 is flexible and the protruding ribs 1261 face the flexible substrate 113, when the protruding ribs 1261 press the flexible substrate 113 against the inner wall of the inner casing 112, the end portions of the protruding ribs 1261 can be pressed into the flexible substrate 113 to fix a local portion of the flexible substrate 113, so that the fixing effect of the flexible substrate 113 between the pressing plate 126 and the inner casing 112 is increased, and the flexible substrate 113 is prevented from being pulled out when the user pulls the first massage head 122.

The part of the human body to be massaged can be eyes, legs and other parts of the human body. When the part of the human body to be massaged is the eyes, as shown in fig. 1, the first massage head assembly 120 is disposed near the middle of the housing 110, and the first massage head assembly 120 is used for massaging the periphery of the eyes.

Optionally, the massager 100 is an eye massager, and the first massage head assembly 120 includes a plurality of sets of first massage head assemblies 120 for massaging around the left eye and around the right eye, respectively.

The plurality of first massage head assemblies 120 refer to two or more first massage head assemblies 120.

The user comprises a left eye and a right eye, and the left eye and the right eye can be massaged by the eye massager respectively so as to achieve the purpose of relaxing the left eye and the right eye of the user.

In addition, since the first massage head assembly 120 includes a plurality of sets, the plurality of sets of first massage head assemblies 120 can massage a plurality of acupuncture points around the left eye and around the right eye, respectively, further improving the effect of the massager 100.

Further, the plurality of groups of first massage head assemblies 120 are symmetrically arranged, and the left eye and the right eye of the user are symmetrically arranged, so that the massager 100 can generate the same massage effect on the periphery of the left eye and the periphery of the right eye by symmetrically arranging the plurality of groups of first massage head assemblies 120, and the massage experience of the massager 100 on the user is ensured.

Optionally, with reference to fig. 3, the eye massager includes a right eye region 110b and a left eye region 110a, the right eye region 110b is configured to cover the periphery of the right eye, the left eye region 110a is configured to cover the periphery of the left eye, and each of the right eye region 110b and the left eye region 110a includes an eyebrow region 1101 and a pit region 1102; the eyebrow area 1101 is provided with three sets of first massage head assemblies 120, the eye pit area 1102 is provided with two sets of first massage head assemblies 120, and the hardness and/or the material of the parts, which are in contact with the human body, of the first massage heads 122 of the three sets of first massage head assemblies 120 in the eyebrow area 1101 are different from those of the parts, which are in contact with the human body, of the first massage heads 122 of the two sets of first massage head assemblies 120 in the eye pit area 1102.

Since the eyebrows of the user are surrounded by the eyebrows, and the eyebrows have a high hardness, if the material of the portion of the first massage head 122 of the first massage head assembly 120 in the eyebrow area 1101 in contact with the human body is hard or has a high hardness, the first massage head 122 in the eyebrow area 1101 tends to massage the periphery of the eyebrows of the user. In addition, since all the surrounding of the eye socket of the user is soft tissue, and the hardness of the soft tissue is low, when the contact part of the first massage head 122 of the first massage head assembly 120 in the eye socket region 1102 with the human body is made of soft material or has low hardness, the first massage head 122 of the first massage head assembly 120 in the eye socket region 1102 does not generate obvious body feeling of vibration massage to the surrounding of the eye socket of the user. Based on the above, the present application aims to improve the feeling of massage and massage effect around the eyebrows and around the eye sockets of a user by making the hardness and/or material of the parts of the first massage heads 122 of the three sets of first massage head assemblies 120 in the eyebrow area 1101 different from the hardness and/or material of the parts of the first massage heads 122 of the two sets of first massage head assemblies 120 in the eye socket area 1102, which are in contact with the human body.

Specifically, the material of the contact part of the first massage heads 122 of the three groups of first massage head assemblies 120 in the eyebrow area 1101 and the human body is soft or has low hardness, and the material of the contact part of the first massage heads 122 of the two groups of first massage head assemblies 120 in the eye pit area 1102 and the human body is hard or has high hardness, so that the discomfort of the user in massaging around the eyebrows can be avoided, and the massage effect around the eye pits can be ensured.

In addition, since there are three main points around the eyebrow (i.e., the Zanzhu point, the Yuyao point, and the Sizhu point), three sets of the first massage head assemblies 120 are disposed at the eyebrow region 1101, so that each set of the first massage head assemblies 120 at the eyebrow region 1101 can correspond to the three main points around the eyebrow, respectively, thereby improving the massage effect around the eyebrow. Since the circumference of the eye socket is recessed and has a small area, two sets of the first massage head assemblies 120 are provided around the eye socket, so that the two sets of the first massage head assemblies 120 in the eye socket region 1102 can massage the circumference of the eye socket sufficiently.

The detailed description will be given below by taking an example of the specific arrangement of the three sets of first massage head assemblies 120 in the eyebrow area 1101 and the two sets of first massage head assemblies 120 in the eye pit area 1102.

Optionally, the contact portion between the first massage heads 122 of the three first massage head assemblies 120 in the eyebrow area 1101 and the human body is made of a flexible material, and the contact portion between the first massage heads 122 of the two first massage head assemblies 120 in the eye pit area 1102 and the human body is made of a metal material.

Because the hardness of the flexible material is smaller, when the material of the contact part of the first massage heads 122 of the three groups of first massage head assemblies 120 in the eyebrow area 1101 and the human body is the flexible material, the buffer deformation is larger when the first massage heads 122 of the three groups of first massage head assemblies 120 in the eyebrow area 1101 and the periphery of the eyebrow are contacted, and therefore, the comfort of the massage around the eyebrow is improved. Moreover, because the hardness of the metal material is relatively high, when the material of the contact part of the first massage heads 122 of the two groups of first massage head assemblies 120 in the eye socket area 1102 with the human body is metal, the buffer deformation is relatively small when the first massage heads 122 of the two groups of first massage head assemblies 120 in the eye socket area 1102 are in contact with the periphery of the eye socket, so that the massage effect on the periphery of the eye socket is ensured.

The flexible material includes silicone, latex, etc., and the metal includes aluminum, alloy, etc.

Optionally, the first massage heads 122 of the two sets of first massage head assemblies 120 of the orbital region 1102 are provided with a fomentation device.

Because the hot compress device has the hot compress effect, consequently, when eye massager massages around to the eye, can experience the effect of hot compress around the eye socket, further increased the massage body around the eye socket and felt the difference with the massage body around the eyebrow is felt.

Optionally, the first massage heads 122 of the three groups of first massage head assemblies 120 in the eyebrow area 1101 are spaced along the length direction of the housing 110 (i.e. the direction indicated by the arrow Y in fig. 3), and the area of the contact part of the first massage heads 122 of the middle group of first massage head assemblies 120 with the human body is larger.

Since the connecting lines of the Cuanzha, yuyao and Sizha acupoints around the eyebrows are approximately parallel to the connecting lines of the left and right eyes, when the first massage heads 122 of the three first massage head assemblies 120 of the eyebrow region 1101 are spaced along the length direction of the casing 110, the first massage heads 122 of the three first massage head assemblies 120 of the eyebrow region 1101 can accurately correspond to the Cuanzha, yuyao and Sizha acupoints, thereby ensuring the massage effect around the eyebrows. And because the area of the part of the first massage head 122 of the first massage head assembly 120 positioned in the middle, which is in contact with the human body, is large, the massage area around the eyebrow is increased.

The middle set of first massage head assembly 120 is a set of first massage head assembly 120 located at the middle of the three sets of first massage head assemblies 120 located at the eyebrow area 1101 along the length direction of the housing 110.

In addition, the outline of the eye socket is concave towards the human body near the eyeball and convex towards the eye massager far away from the eyeball, so that the first massage heads 122 of the two groups of first massage head assemblies 120 in the eye socket area 1102 are arranged in an inverted eight-character shape, and in the length direction of the shell 110, the tilting height of one end, far away from the other first massage head 122, of one first massage head 122 in the eye socket area 1102 is higher than that of one end, near to the other first massage head 122, of one first massage head 122, so that the first massage heads 122 of the two groups of first massage head assemblies 120 in the eye socket area 1102 can be better attached to the periphery of the eye socket, and the massage effect on the periphery of the eye socket is further ensured.

In order to massage the temple, optionally, as shown in fig. 1 and 9, the eye massager further includes a second massage head assembly 130, the second massage head assembly 130 includes a second massage head 132 and a second driving device 131, the second driving device 131 is configured to drive the second massage head 132 to vibrate, the second massage head 132 is disposed on one side of the casing 110 facing the human body, the second massage head assembly 130 includes at least two groups, at least two groups of the second massage head assemblies 130 are respectively disposed near two ends of the casing 110, and the second massage head assembly 130 is configured to massage the temple.

Thus, the massage area of the massager 100 is increased by providing the second massage head assembly 130 on the housing 110, and the massage experience of the user is improved.

Wherein, the second massage head assembly 130 can be a vibration massage head assembly, and also can be an air bag massage head assembly, which increases the variety of massage of the second massage head assembly 130.

When the second massage head assembly 130 is a vibrating massage head assembly, the second driving device 131 is a vibrating motor or a vibrating motor, and the second driving device 131 can drive the second massage head 132 to perform a vibrating massage on the temple. When second massage head subassembly 130 is gasbag massage head subassembly, second massage head 132 is the gasbag, and second drive arrangement 131 is the air supply, and when the gas that the air supply provided let in the gasbag, gasbag butt temple, when at least partial gas in the gasbag emits, the gasbag become flat and with the temple between the butt power diminish, so relapse for gasbag massage head subassembly vibrates the massage to the temple.

Optionally, the second massage head assembly 130 is rotatably connected to the housing 110 via a shaft, and the second massage head assembly 130 can be rotated toward or away from the human body.

When the second massage head assembly 130 is rotated toward the human body, the interval between the two second massage heads 132 becomes smaller, so that the second massage head assembly 130 can massage the temples of the user having a small head circumference. When the second massage head assembly 130 is rotated away from the human body, the interval between the two second massage heads 132 becomes large, so that the second massage head assembly 130 can massage the temples of the user with a large head circumference. Thus, the second massage head assembly 130 is rotatably connected to the housing 110, so that the massager 100 can be applied to massage temples of users with different head circumferences, and the applicability of the massager 100 is improved.

Optionally, as shown in fig. 10, the second massage head assembly 130 further includes a swing bracket 133, the swing bracket 133 is located in the housing 110, the second driving device 131 and the second massage head 132 are disposed on the swing bracket 133, and the swing bracket 133 is connected to the housing 110 through a rotating shaft.

Thus, the second massage head 132 can be rotatably connected to the housing 110 by providing the swing bracket 133.

In order to make the second massage head 132 always fit to the temple, optionally, as shown in fig. 11, a preload member 140 is provided 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 human body.

From this, the pretightning force that pretension piece 140 provided can promote second massage head 132 and rotate towards the human body, that is to say, the pretightning force can promote second massage head 132 and laminate with the temple all the time to can effectual improvement user's massage experience.

Illustratively, as shown in fig. 11, the preload member 140 is a torsion spring 141, one end of the torsion spring 141 is fixedly connected to the pressing plate 126 inside the housing 110, and the other end is connected to the swing bracket 133, specifically, a snap-fit groove 1331 is provided on the swing bracket 133, and the other end of the torsion spring 141 is snap-fit into the snap-fit groove 1331. In order to prevent the torsion spring 141 from shifting during the pre-tightening process, a limiting groove 1332 is arranged on the swing bracket 133 on the same side as the clamping groove 1331, and the other end of the torsion spring 141 penetrates through the limiting groove 1332 and extends into the clamping groove 1331.

Optionally, as shown in fig. 6, 9, and 11, two ends of the inner shell 112 are provided with mounting through holes 1121, the mounting through holes 1121 are covered with flexible connection plates 134, the flexible connection plates 134 are fixedly connected to the inner shell 112, connection protrusions 1342 concentric with the mounting through holes 1121 extend from the direction of the flexible connection plates 134 away from the outer shell 111, the connection protrusions 1342 extend out of the mounting through holes 1121, the diameter of the connection protrusions 1342 is smaller than that of the mounting through holes 1121, the second massage head 132 is connected to the swing bracket 133 through the connection protrusions 1342, and a portion of the swing bracket 133 connected to the second massage head 132 is located inside the connection protrusions 1342.

Since the second massage head 132 is connected to the swing bracket 133 through the connection protrusion 1342, when the vibration force output by the second massage head 132 is transmitted to the flexible connection board 134 through the connection protrusion 1342, the flexible connection board 134 can effectively buffer the vibration force output by the second massage head 132, so that the vibration force of the second massage head 132 is prevented from being transmitted to the housing 110, the vibration force output by the second driving device 131 is prevented from being weakened due to the vibration of the housing 110, and the massage experience of the second massage head assembly 130 is improved.

In addition, since the diameter of the connection protrusion 1342 is smaller than the diameter of the mounting through hole 1121, and the portion of the swing bracket 133 connected to the second massage head 132 is located inside the connection protrusion 1342, a gap is formed between the outer circumferential wall of the connection protrusion 1342 and the inner wall of the mounting through hole 1121, that is, a gap is formed between the portion of the swing bracket 133 connected to the second massage head 132 and the inner wall of the mounting through hole 1121, so that when the swing bracket 133 drives the second massage head 132 to rotate towards or away from the human body, the edge of the mounting through hole 1121 can define the rotation angle of the swing bracket 133, and then the rotation angle of the second massage head 132 towards or away from the human body is defined.

In order to improve the comfort of the user wearing the massager 100, optionally, the edge of the flexible connecting plate 134 is fixedly connected to the edge of the mounting through hole 1121, and a corrugated portion 1341 is formed on the flexible connecting plate 134, and the corrugated portion 1341 is located between the inner wall of the mounting through hole 1121 and the connecting protrusion 1342.

Thus, by providing the wrinkled portion 1341, the massager 100 can be elastically deformed when worn on the head of the user, and when the massager 100 is worn on the head of the user, the wrinkled portion 1341 after being elastically deformed can be automatically restored, thereby preventing the user from feeling uncomfortable.

Alternatively, as shown in fig. 9, the flexible connecting plate 134 and the second massage head 132 are integrally formed, so that the number of assembling parts can be reduced, the assembling efficiency of the flexible connecting plate 134 and the second massage head 132 can be improved, and the assembling cost can be reduced.

In order to improve the applicability of the massage device 100, as shown in fig. 12 and 13, the second massage head 132 is optionally rotatably connected to the swing bracket 133, and the rotation axis 151 of the second massage head 132 is offset from the geometric center 152 of the second massage head 132.

Because the rotating shaft 151 of the second massage head 132 deviates from the geometric center 152 of the second massage head 132, the second massage head 132 can eccentrically rotate, and because the second massage head 132 is rotatably connected with the swing bracket 133, the arrangement position of the second massage head 132 relative to the swing bracket 133 can be adjusted through the eccentric rotation of the second massage head 132, so that the second massage head 132 can act on the temples of different users, and the applicability of the massager 100 is improved.

The rotation axis 151 is a geometric straight line that the second massage head 132 performs when rotating. In the direction of the second massage head 132 toward the swing frame 133, the projected pattern of the second massage head 132 is a geometric pattern, and the geometric center 152 refers to the center of a circumscribed circle of the geometric pattern, for example, the geometric pattern is a triangle, then the geometric center 152 of the second massage head 132 is the center of the circumscribed circle of the triangle, or, when the geometric pattern is a circle, the geometric center 152 of the second massage head 132 is the center of the circle.

In addition, there are various structures for realizing the eccentric rotation between the second massage head 132 and the swing bracket 133, and in one possible structure, as shown in fig. 13, the swing bracket 133 is provided with a rotation through hole 1333; the second massage head assembly 130 further includes a rotating element 135 and a rotating cover 136, one end of the rotating element 135 is disposed in the rotating through hole 1333 and can rotate relative to the rotating through hole 1333, the other end of the rotating element 135 is fixedly connected with the second massage head 132, the axis of the rotating shaft 151 of the rotating element 135 coincides with the axis of the rotating shaft 151 of the second massage head 132, the rotating cover 136 is fixedly connected with the rotating element 135 disposed in the rotating through hole 1333, the rotating cover 136 is disposed on a side of the swing bracket 133 facing away from the second massage head 132, and a projected width of the rotating cover 136 is greater than a diameter of the rotating through hole 1333 along an axial direction (i.e., a direction indicated by an X arrow in fig. 13) of the rotating through hole 1333.

Since the rotation axis 151 of the rotating element 135 coincides with the axis of the rotation axis 151 of the second massage head 132, and one end of the rotating element 135 is inserted into the rotation through hole 1333 and can rotate relative to the rotation through hole 1333, the geometric center 152 of the second massage head 132 is offset from the rotation axis of the rotating element 135, so that the second massage head 132 can eccentrically rotate relative to the rotation through hole 1333.

In addition, along the axial direction of the rotation through hole 1333, the projected width of the rotation cover 136 is greater than the diameter of the rotation through hole 1333, therefore, the rotation cover 136 cannot pass through the rotation through hole 1333, and because the rotating element 135 is fixedly connected with the rotation cover 136 at one end penetrating through the rotation through hole 1333, the end of the rotating element 135 penetrating through the rotation through hole 1333 is limited, the rotating element 135 is prevented from moving along the axial direction of the rotation through hole 1333, and the risk that the second massage head 132 is separated from the housing 110 is avoided.

The fixed connection of the rotating member 135 and the second massage head 132 can be achieved in various ways, for example: clamping and fixing, bonding and fixing and the like.

The structure of the rotating element 135 is not limited as long as the second massage head 132 can rotate relative to the rotation through hole 1333, for example, as shown in fig. 13, the rotating element 135 includes a rotating part 1351 and a connecting part 1352, the diameter of the rotating part 1351 is smaller than that of the connecting part 1352, the rotating part 1351 can be inserted into the rotation through hole 1333, the connecting part 1352 is provided with a first clamping element, and the first clamping element can be clamped and fixed with a second clamping element provided in the second massage head 132.

In addition, the rotating cover 136 may be circular or bar-shaped, and when the rotating cover 136 is circular, the diameter of the rotating cover 136 is larger than the diameter of the rotating through hole 1333, and when the rotating cover 136 is bar-shaped, the length of the rotating cover 136 is larger than the diameter of the rotating through hole 1333.

Wire passing holes corresponding to the positions are respectively formed in the rotating member 135 and the rotating cover 136, so that the power line is connected with the second driving device 131 through the wire passing holes, and thus the second driving device 131 is electrically connected with a power supply.

In order to reduce the set height of the swing bracket 133 and the rotating cover 136, optionally, as shown in fig. 14, a mounting hole 1334 is formed on the side of the swing bracket 133 facing away from the second massage head 132, and the rotating cover 136 is located in the mounting hole 1334; a first receiving hole 1361 is formed in one side of the rotating cover 136 facing the swing bracket 133, and one end of the rotating element 135 inserted into the rotating through hole 1333 extends out of the rotating through hole 1333 and is inserted into the first receiving hole 1361.

By positioning the rotating cover 136 in the mounting hole 1334 of the swing bracket 133, the installation height of the rotating cover 136 and the swing bracket 133 can be effectively reduced, and the installation structure of the rotating cover 136 and the swing bracket 133 can be more compact. In addition, one end of the rotary member 135 inserted into the rotary through hole 1333 is extended out of the rotary through hole 1333, so that the rotary member 135 is fixedly connected to the rotary cover 136.

In addition, since the rotating cover 136 is provided with the first receiving hole 1361 on a side facing the swing bracket 133, and the first receiving hole 1361 is used for receiving an end of the rotating member 135 extending out of the rotating through hole 1333, on one hand, the first receiving hole 1361 can limit the end of the rotating member 135 to facilitate installation, and on the other hand, the installation height of the rotating member 135 and the rotating cover 136 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 second massage head 132 is rotated with respect to the swing bracket 133, in one possible structure, as shown in fig. 13 and 14, a first damping member 1371 is provided between the swing bracket 133 and the rotating cover 136, or a first damping member 1371 is provided between the swing bracket 133 and the rotating member 135.

When the first damping member 1371 is disposed between the swing bracket 133 and the swing cover 136 rotates with the rotating member 135 on the swing bracket 133, a frictional damping force is provided between the swing cover 136 and the first damping member 1371, the frictional damping force being used to prevent the rotation of the swing cover 136 with respect to the swing bracket 133, so that the rotation process of the swing cover 136 is smooth, and the current rotation state of the swing cover 136 can be maintained after the swing cover 136 rotates by a certain angle, so that the second massage head 132 can be maintained in the current rotation state.

Similarly, when the first damper 1371 is disposed between the swing bracket 133 and the rotary member 135, when the rotary member 135 rotates, a frictional damping force is generated between the rotary member 135 and the first damper 1371, and the frictional damping force can maintain the state after the second massage head 132 rotates.

Therefore, by arranging the first damping member 1371, not only the stability of the rotation process of the second massage head 132 can be ensured, but also the state of the rotated second massage head 132 can be maintained, thereby improving the massage experience of the massager 100.

In another possible structure, as shown in fig. 15 and 20, a second accommodating hole 1356 is formed on the rotating element 135 inserted into the rotating through hole 1333; the second massage head assembly 130 further includes a connection plate 1384 fixedly connected to the swing bracket 133, a second damping member 1372 and a nut 1382 positioned in the second receiving hole 1356, and a fastening member 1381 engaged with the nut 1382, the fastening member 1381 being connected to the nut 1382 through the connection plate 1384, the rotation cover 136 and the second damping member 1372 in sequence, and the nut 1382 being for pressing the second damping member 1372 and the rotation cover 136.

By disposing the second damping member 1372 and the nut 1382 in the second receiving hole 1356, the occupied space of the interior of the housing 110 can be reduced while making the structure of the second massage head assembly 130 more compact. In addition, since the nut 1382 is engaged with the fastening member 1381 and the nut 1382 can press the second damping member 1372 and the rotation cover 136, when the rotation cover 136 rotates with the rotation member 135, there is a damping frictional force between the rotation cover 136 and the second damping member 1372, and the rotation of the second massage head 132 is smoothed by the damping frictional force, and the state after the rotation of the second massage head 132 can be maintained.

The first damping member 1371 and the second damping member 1372 may be a silica gel ring, a soft rubber ring, or a damping elastic sheet.

When the second damping member 1372 is disposed in the second receiving hole, the wire passing hole is disposed on the fastening member 1381.

In another possible structure of the second massage head 132 eccentrically rotating with respect to the swing bracket 133, as shown in fig. 16, a rotation through hole 1333 is opened on the swing bracket 133; the second massage head assembly 130 further comprises a rotating member 135, one end of the rotating member 135 passes through the rotating through hole 1333 and extends out of the rotating through hole 1333, the other end of the rotating member 135 is fixedly connected with the second massage head 132, the rotating member 135 can rotate relative to the rotating through hole 1333, and the rotating shaft 151 of the rotating member 135 coincides with the axis of the rotating shaft 151 of the second massage head 132; one end of the rotary member 135 extending out of the rotation through hole 1333 is provided with a snap-in protrusion 1353, and the snap-in protrusion 1353 abuts against the edge of the rotation through hole 1333.

One end of the rotating piece 135 extending out of the rotating through hole 1333 is provided with the clamping convex portion 1353, and the clamping convex portion 1353 abuts against the edge of the rotating through hole 1333, so that one end of the rotating piece 135 extending out of the rotating through hole 1333 is limited, the rotating piece 135 is prevented from moving along the axial direction of the rotating through hole 1333, and the structure is simple and the installation is convenient.

In order to facilitate the installation between the rotating member 135 and the swing bracket 133, optionally, as shown in fig. 17, a groove 1354 is formed on an end surface of one end of the rotating member 135 where the clamping protrusion 1353 is formed, the groove 1354 penetrates through the rotating member 135 in a radial direction of the rotating member 135, and when the rotating member 135 is inserted into the rotation through hole 1333, the end of the rotating member 135 where the clamping protrusion 1353 is formed is elastically deformed by the groove 1354.

When the one end of the rotating member 135 provided with the groove 1354 extends into the rotating through hole 1333, the inner wall of the rotating through hole 1333 has an abutting effect on the outer peripheral wall of the rotating member 135, and the width of the opening of the groove 1354 becomes smaller under the effect of the abutting effect, so that the one end of the rotating member 135 provided with the clamping convex portion 1353 is elastically deformed, and the rotating member 135 can conveniently pass through the rotating through hole 1333 to complete the installation. When the end of the rotary member 135 provided with the catching protrusion 1353 extends out of the rotation through hole 1333, the opening width of the groove 1354 is restored to the original width, that is, the elastic deformation of the end provided with the catching protrusion 1353 is restored, and the restored catching protrusion 1353 can abut against the edge of the rotation through hole 1333 to prevent the rotary member 135 from moving axially along the rotation through hole 1333.

Alternatively, as shown in fig. 18 and 19, a first stopping protrusion 1335 is provided on an inner wall of the rotation through hole 1333, and a second stopping protrusion 1355 is provided on the rotary piece 135, and when the rotary piece 135 rotates relative to the rotation through hole 1333, the first stopping protrusion 1335 and the second stopping protrusion 1355 can abut against each other to prevent the rotary piece 135 from rotating relative to the rotation through hole 1333.

Therefore, by providing the first stopping protrusion 1335 and the second stopping protrusion 1355, the rotating member 135 can be effectively prevented from continuously rotating with respect to the rotating through hole 1333, thereby preventing the second driving device 131 from being damaged due to a short circuit occurring in a power line and/or a signal line connected to the second driving device 131, and further prolonging the service life of the second massage head assembly 130.

The first catching protrusion 1335 or the second catching protrusion 1355 may be one or more, and when the first catching protrusion 1335 or the second catching protrusion 1355 is one, the rotation of the rotator 135 by 360 ° with respect to the rotation through hole 1333 can be prevented, and when the first catching protrusion 1335 or the second catching protrusion 1355 is two, the rotation of the rotator 135 by 180 ° with respect to the rotation through hole 1333 can be prevented.

When the second damping member 1372 is disposed in the second receiving hole, in order to protect the second driving device 131, optionally, as shown in fig. 15 and 20, a stopping pad 1383 is disposed between the rotating cover 136 and the second damping member 1372, a third stopping protrusion 1383a is disposed on the stopping pad 1383, a fourth stopping protrusion 1362 is disposed on the rotating cover 136, and when the rotating member 135 rotates relative to the rotating through hole 1333, the third stopping protrusion 1383a and the fourth stopping protrusion 1362 can abut against each other to prevent the rotating member 135 from rotating relative to the rotating through hole 1333.

Therefore, by providing the third stopping protrusion 1383a and the fourth stopping protrusion 1362, the rotating member 135 can be effectively prevented from continuously rotating relative to the rotating through hole 1333, thereby preventing the second driving device 131 from being damaged due to a short circuit occurring in a power line and/or a signal line connected to the second driving device 131, and further prolonging the service life of the second massage head assembly 130.

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 (28)

1. A massager, comprising:

a housing;

first massage head subassembly, first massage head subassembly includes first massage head and a drive arrangement, a drive arrangement is used for driving first massage head vibrates, first massage head subassembly includes multiunit, multiunit first massage head subassembly first massage head all set up in the casing is towards human one side, exists two sets ofly at least first massage head subassembly first massage head is different with human contact site's hardness and/or material.

2. The massager of claim 1, wherein at least a portion of said first massage head assembly in said set contacting the human body is made of metal, and at least a portion of said first massage head assembly in said set contacting the human body is made of flexible material.

3. The massager of claim 1, wherein the first massage heads each comprise a cover body, the cover bodies are in contact with a human body, and at least two of the cover bodies are made of different materials and/or have different hardness;

or, one part of the first massage head comprises a cover body, the cover body is contacted with a human body, the other part of the first massage head does not comprise the cover body, and the material and/or hardness of the cover body is different from the material and/or hardness of the first massage head which does not comprise the cover body.

4. The massager of claim 2, wherein the first massage head with the human body contact part made of metal is electrically connected with a detector or a sensor, and when the first massage head with the human body contact part made of metal is in contact with the human body, a current loop of the detector or the sensor is conducted.

5. The massager of claim 1,

the massager further comprises an auxiliary massaging device, the auxiliary massaging device is arranged on at least one of the first massaging heads, and the auxiliary massaging device is a hot compress device, an infrared device or an electric pulse device.

6. The massager of claim 5, wherein when said auxiliary massaging device is said fomentation device, said fomentation device is not in direct contact with said first driving means.

7. The massager of claim 1, wherein the housing comprises an inner shell and an outer shell fastened to each other and a flexible substrate disposed between the inner shell and the outer shell, the flexible substrate is connected to the first massage head through a connection post, and the flexible substrate, the connection post and the first massage head are integrally formed.

8. The massager of claim 7, wherein the connecting column comprises a connecting section and a buffer section which are connected with each other along the axial direction of the connecting column, the connecting section is connected with the first massage head, the buffer section is connected with the flexible substrate, and the diameter of the connecting section is smaller than that of the buffer section.

9. The massager of claim 7, wherein a pressing plate is further disposed between the outer housing and the flexible substrate, the pressing plate is fixedly connected to the inner housing, and a protruding rib extends from a side of the pressing plate facing the flexible substrate, and the protruding rib presses and fixes the flexible substrate to an inner wall of the inner housing.

10. The massager of any one of claims 1 to 9,

the massager is an eye massager, and the first massage head assembly is used for massaging the periphery of the left eye and the periphery of the right eye respectively.

11. The massager of claim 10, wherein said eye massager comprises a right eye region for covering a periphery of said right eye and a left eye region for covering a periphery of said left eye, said right eye region and said left eye region each comprising a eyebrow region and an eye pit region;

the eyebrow area is provided with three first massage head components of three groups, the eye nest area is provided with two sets of first massage head components, the three groups in eyebrow area first massage head component with the eye nest area two sets of first massage head component first massage head with human contact part's hardness and/or material are different.

12. The massager as claimed in claim 11, wherein the three sets of first massage head assemblies in the eyebrow area are made of flexible material, and the two sets of first massage head assemblies in the eye area are made of metal material; and/or the presence of a gas in the gas,

the first massage heads of the two groups of first massage head components in the eye pit area are provided with hot compress devices; and/or the presence of a gas in the atmosphere,

the first massage heads of the three groups of first massage head components in the eyebrow area are distributed at intervals along the length direction of the shell, and the contact part of the first massage heads of the middle group of first massage head components and the human body is larger in area; and/or the presence of a gas in the gas,

two sets of the eye nest district first massage head subassembly first massage head follows the length direction interval distribution of casing, and be the setting of falling eight characters on the length direction of casing, one in eye nest district first massage head keeps away from another the height ratio of the first one end perk of first massage head is one first massage head is close to another the one end of first massage head is high.

13. The massager of claim 10, further comprising a second massage head assembly, wherein the second massage head assembly comprises a second massage head and a second driving device, the second driving device is used for driving the second massage head to vibrate, the second massage head is arranged on one side of the housing facing the human body, the second massage head assembly comprises at least two groups, at least two groups of the second massage head assemblies are respectively arranged near two ends of the housing, and the second massage head assembly is used for massaging temple points;

the second massage head component is a vibration massage head component or an air bag massage head component.

14. The massager of claim 13, wherein said second massage head assembly is rotatably coupled to said housing by a shaft, said second massage head assembly being rotatable toward and away from the body.

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

16. The massager of claim 14,

the second massage head assembly further comprises a swing support, the swing support is located in the shell, the second driving device and the second massage head are arranged on the swing support, and the swing support is connected with the shell through the rotating shaft.

17. The massager of claim 16,

the casing includes the inner shell and the shell of mutual lock, the mounting hole has been seted up at the both ends of inner shell, the mounting hole upper cover has closed the flexonics board, the flexonics board with inner shell fixed connection, the flexonics board deviates from the direction of shell extend have with the endocentric convex part of being connected of mounting hole, just it stretches out to connect the convex part the mounting hole, the diameter of connecting the convex part is less than the diameter of mounting hole, the second massage head passes through connect the convex part with swing bracket connects, swing bracket with the part that the second massage head is connected is located connect the inside of convex part.

18. The massager of claim 17, 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 between the inner wall of the mounting through hole and the connecting protrusion.

19. The massager of claim 17, wherein said flexible web is integrally formed with said second massage head.

20. The massager of claim 17,

the second massage head is rotatably connected with the swing bracket, and the rotating shaft of the second massage head deviates from the geometric center of the second massage head.

21. The massager of claim 20,

a rotating through hole is formed in the swinging bracket;

the second massage head subassembly still includes the rotating member and rotates the lid, 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 first fixed connection is massaged to the second, the rotation axis of rotating member with the axis coincidence of the rotation axis of the first massage of second, 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 the first massage of second 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.

22. The massager of claim 21,

a mounting hole is formed in one side of the swing bracket, which is far away from the second massage head, and the rotating cover is positioned in the mounting hole;

one side of the rotating cover facing the swing support is provided with a first containing hole, and one end of the rotating piece penetrating through the rotating through hole extends out of the rotating through hole and penetrates through the first containing hole.

23. The massager of claim 21, wherein a first damping member is disposed between said swing bracket and said rotating cover or a first damping member is disposed between said swing bracket and said rotating member.

24. The massager of claim 20, wherein the swing bracket is provided with a rotation through hole;

the second massage head component also comprises a rotating piece, 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 second 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 second 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.

25. The massager of claim 24, wherein the end surface of the rotary member having the end with the clamping protrusion is provided with a groove, the groove penetrates through 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 make the end of the rotary member having the clamping protrusion elastically deform.

26. The massage apparatus as claimed in claim 21, wherein a first stopping projection is provided on an inner wall of the rotation through hole, and a second stopping projection is provided on the rotary member, and when the rotary member rotates relative to the rotation through hole, the first stopping projection and the second stopping projection can abut to prevent the rotary member from rotating relative to the rotation through hole.

27. The massager of claim 21,

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.

28. The massager of claim 27, wherein a stop pad is disposed between said rotatable cover and said second damping member, a third stop protrusion is disposed on said stop pad, a fourth stop protrusion is disposed on said rotatable cover, and when said rotatable member rotates relative to said rotatable through hole, said third stop protrusion and said fourth stop protrusion can abut to prevent said rotatable member from rotating relative to said rotatable through hole.

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