CN212593019U - Cervical vertebra massager - Google Patents

Abstract

The utility model discloses a cervical vertebra massager. It includes a curvature shell which is formed by relatively splicing an outer arc hard shell and an inner arc soft shell and has a similar C-shaped integral shape, a buffering neck sleeve formed on the inner arc soft shell, a physical vibrator positioned in the shell space of the curvature shell and a universal massage head arranged on the neck opening of the buffering neck sleeve. The utility model can lead the buffering neck sleeve to generate certain deformation effect when the universal massage head is extruded by the neck of the human body, thereby leading the universal massage head to form angle change which is adaptive to the curve of the neck of the human body, and enhancing the wearing comfort and adaptability of the massage instrument; meanwhile, the massage instrument can comprehensively simulate the multifunctional physical therapy effects of low-frequency electrotherapy, cupping, infrared light, vibration massage, annular traction and the like according to the actual needs of users by utilizing the effects generated by the physical vibrator and the universal massage head and matching with the structural form of the curved shell, so that the aims of promoting the blood circulation of the neck, relaxing the muscles of the neck, relieving fatigue and the like are fulfilled.

Description

Cervical vertebra massager

Technical Field

The utility model belongs to the technical field of electron physiotherapy device technique and specifically relates to a cervical vertebra massager.

Background

As is well known, a cervical vertebra massage device is a nursing product which is based on the theory of traditional Chinese medicine and massages the neck by stimulation means such as physical vibration, hot compress, magnetic therapy or low-frequency pulse, so as to achieve the physical therapy effects of promoting blood circulation of the neck, relaxing muscles of the neck, relieving fatigue and soreness, and the like.

At present, although cervical vertebra massage devices on the market are various in types and different in functions, due to the fact that most of cervical vertebra massage devices generally adopt a fixed structure, when different users use the cervical vertebra massage devices, the massage heads generally cannot be tightly attached to the necks of the users in an adaptive mode, and therefore the comfort and the massage effect of the devices can be seriously reduced, and the user experience effect is affected. Meanwhile, in consideration of factors such as the size of the product, most of the cervical vertebra massage devices generally have only a single function, such as a single physical vibration function, a single low-frequency pulse vibration simulation function, a single hot compress function, and the like, and cannot meet the requirements of diversified functions.

In view of this, there is a need to provide an improved solution for the existing cervical vertebra massage device.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects existing in the prior art, the utility model aims to provide a cervical vertebra massager.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a cervical vertebra massager, which comprises:

the curve shell is a hollow shell structure which is formed by oppositely splicing an outer arc hard shell and an inner arc soft shell inside and outside and has an overall shape similar to a C shape, and at least one buffering neck sleeve protruding towards the inner arc direction of the curve shell is formed on the inner arc soft shell;

the physical vibrator is arranged on the wall of the outer arc hard shell and is positioned in the shell space of the curved shell;

the universal massage head comprises a positioning clamp plate, a backboard seat, a contact cover, a pulse physiotherapy electrode plate and a flexible electric heating plate, wherein the positioning clamp plate is arranged in the buffer neck sleeve and covers the inner side of the neck opening of the buffer neck sleeve;

and

and the physical vibrator, the pulse physiotherapy electrode plate and the flexible electric heating plate are respectively electrically connected with the drive control assembly and controlled by the drive control assembly.

Preferably, the central axis of the buffering neck sleeve is distributed along the radial direction of the curved shell, and the physical vibrators are in one-to-one correspondence with the buffering neck sleeve and are located in the outline range of the corresponding buffering neck sleeve.

Preferably, the buffer neck sleeves are at least one pair, wherein the pair of buffer neck sleeves are symmetrically distributed on the radial center line of the curved shell.

Preferably, the physical vibrator comprises a motor protective cover locked on the wall of the outer arc hard shell and forming a vibration chamber together with the outer arc hard shell, a micro motor arranged in the vibration chamber and controlled by the driving control component, and an eccentric vibration wheel arranged on the output shaft of the micro motor and positioned in the vibration chamber.

Preferably, the left clamping handle shell is connected with the left end side of the curved shell in a plug-in mode, the right clamping handle shell is connected with the right end side of the curved shell in a plug-in mode, the driving control assembly comprises a main control board, a vibration control board, an energy storage battery, a function control button, a charging interface module and an external pulse connection module, the main control board is installed in the left clamping handle shell and is electrically connected with the pulse physiotherapy electrode piece and the flexible electric heating piece respectively, the vibration control board is installed in the curved shell and is electrically connected with the main control board and the physical vibrator simultaneously, the energy storage battery is installed in the right clamping handle shell and is electrically connected with the main control board, the function control button is embedded in the outer arc surface of the left clamping handle shell and is electrically connected with the main control board, the charging interface module is embedded in the shell wall of the right clamping handle shell and is electrically connected with the main control board and the energy storage.

Preferably, the left clamping handle shell and the right clamping handle shell are formed by splicing an outer cambered surface shell and an inner cambered surface shell inside and outside relatively, and a flexible massage cushion is embedded on the shell wall of the inner cambered surface shell.

Preferably, the end of the outer arc surface shell is attached to and locked on the inner shell wall of the outer arc hard shell, the end of the inner arc surface shell is attached to the inner shell wall of the inner arc soft shell, the left end side and the right end side of the curvature shell are respectively provided with a binding hoop, and the binding hoops are sleeved and bound on a region where the left handle clamping shell and the curvature shell are inserted into each other and a region where the right handle clamping shell and the curvature shell are inserted into each other.

Preferably, a wireless communication module is further integrated on the main control board.

By adopting the scheme, the utility model can lead the buffering neck sleeve to generate certain deformation effect when the universal massage head is extruded by the neck of the human body, thereby leading the universal massage head to form angle change which is adaptive to the curve of the neck of the human body, and enhancing the wearing comfort and adaptability of the massage instrument; meanwhile, the massage instrument can comprehensively simulate the multifunctional physical therapy effects of low-frequency electrotherapy, cupping, infrared light, vibration massage, annular traction and the like according to the actual needs of a user by utilizing the effects generated by the physical vibrator and the universal massage head and matching with the structural form of the curved shell, so that the aims of promoting the blood circulation of the neck, relaxing the muscles of the neck, relieving fatigue and the like are fulfilled; the multifunctional chair has the advantages of simple and compact structure, rich functions, obvious comfort and adaptability, and very high practical value and market popularization value.

Drawings

FIG. 1 is a schematic structural assembly diagram (I) of an embodiment of the present invention;

fig. 2 is a structural assembly diagram (ii) of the embodiment of the present invention;

fig. 3 is an exploded view of an embodiment of the present invention;

fig. 4 is a schematic structural section of an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of the structure of the area A in FIG. 4;

fig. 6 is an exploded view of the curved housing portion of an embodiment of the present invention;

fig. 7 is a schematic structural exploded view (ii) of the curvature housing portion according to the embodiment of the present invention;

FIG. 8 is an exploded view of the left clamp housing portion of an embodiment of the present invention;

FIG. 9 is an exploded view of the right clip housing portion of an embodiment of the present invention;

fig. 10 is a system control principle reference diagram of an embodiment of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 10, the present embodiment provides a cervical vertebra massager, which includes:

the curvature shell 10 is a hollow shell structure which is formed by relatively splicing an outer arc hard shell 11 and an inner arc soft shell 12 inside and outside and is in a C-like shape as a whole, so that the C-like structure of the curvature shell is matched with the curve shape of the neck of a human body, the curve radian of the whole shell is fixed by the outer arc hard shell 11 and the inner arc soft shell 12 by utilizing the hardness difference of materials of the outer arc hard shell 11 and the inner arc soft shell 12 while the requirement of ergonomic design is met, and the inner arc soft shell 12 can be contacted with the skin of the neck to ensure the comfort of the massager when the massager is worn on the neck; at least one buffering neck sleeve 13 protruding towards the inner arc direction of the curvature shell 10 is formed on the inner arc soft shell 12; among them, it should be noted that: references to "C" like shapes are not limited to standard C shapes, but also include similar shapes such as semi-circular, U-shaped, and the like; the inner arc soft shell 12 can be formed by injection molding of relatively soft materials such as silica gel according to actual conditions;

the physical vibrator 20 is at least one and is arranged on the wall of the outer arc hard shell and is positioned in the shell space of the curved shell 10 (namely, in the shell space formed by the outer arc hard shell 11 and the inner arc soft shell 12 together), so that the vibration effect generated by the physical vibrator 20 is utilized to finally form the vibration massage function on the neck;

the universal massage head 30 corresponds to the buffering neck sleeve 13 one by one, the universal massage head 30 comprises a positioning clamp plate 31 which is arranged in the buffering neck sleeve 13 and covers the inner side of the neck opening of the buffering neck sleeve 13, a back plate seat 32 which is overlapped and covers the outer side of the neck opening of the buffering neck sleeve 13, a contact cover 33 (which is mainly used as a component for contacting the universal massage head 30 with acupuncture points of the neck of a human body and can be preferably made of a metal material with electric conduction and thermal conduction performance) which is oppositely spliced with the back plate seat 32 into a whole and forms a containing chamber (not marked in the figure) together with the back plate seat 32, a pulse physiotherapy electrode plate 34 which is arranged in the containing chamber and the surface of which is attached to the inner wall surface of the contact cover 33, and a flexible electric heating plate 35 (namely, an FPC (printed circuit board) which is clamped between the pulse physiotherapy electrode plate 34 and the contact cover 33, wherein a positioning back sleeve 36 which is distributed through the neck opening of the buffering neck sleeve 13 is formed on, the positioning sleeve 36 and the positioning splint 31 are locked into a whole through a locking connecting piece (not shown in the figure); thus, the positioning splint 31 and the backboard seat 32 can be used for clamping the neck opening edge of the buffering neck sleeve 13 and locking the neck opening edge of the buffering neck sleeve 13 through the locking relation between the positioning sleeve 36 and the positioning splint 31, so that the whole universal massage head 30 is assembled on the curvature shell 10; meanwhile, based on the convex structure form formed by the buffering neck sleeve 13 and the flexibility characteristics of the inner arc soft shell 12 and the buffering neck sleeve 13, the universal massage head 30 can contact with the acupuncture points of the neck of the human body to form adaptive angle change, so that the contact comfort of the universal massage head 30 and the skin of the human body is improved, and the universal massage head is suitable for the physiological structures of the neck of different users; in addition, the pulse physiotherapy electrode sheet 34 can transmit the low-frequency pulse current signal to the human body through the contact cover 33 so as to simulate the functions of acupuncture, electrical stimulation, massage, beating and the like; the flexible electric heating sheet 34 can generate heat and conduct the heat to the human body through the contact cover 33, so that the massage effects of infrared massage, hot compress and the like can be simulated;

and

the physical vibrator 20, the pulse physiotherapy electrode sheet 34 and the flexible electric heating sheet 35 are respectively electrically connected with the drive control assembly and controlled by the drive control assembly, specific components and system circuit structures can be selected by referring to the control principle of the existing massager in specific implementation, and the structural space of the curvature shell 10, the accommodating cavity, the buffering neck sleeve 13 and the like is used as the wiring (routing) space of connecting wires between the execution components such as the physical vibrator 20, the pulse physiotherapy electrode sheet 34, the flexible electric heating sheet 35 and the drive control assembly.

Therefore, by utilizing the structural assembly relationship between the universal massage head 30 and the buffering neck sleeve 13, when the universal massage head 30 is in contact with the acupuncture points of the neck of a human body, the buffering neck sleeve 13 generates a certain deformation effect based on the force application and extrusion of the neck of the human body on the universal massage head 30, so that the universal massage head 30 forms an angle change adaptive to the curve of the neck of the human body, and the massage effect of the massage instrument is ensured while the wearing comfort and the adaptability of the massage instrument are enhanced; meanwhile, by utilizing the effects generated by the physical vibrator 20, the pulse physiotherapy electrode sheet 34 and the flexible electric heating sheet 35 and matching with the structural shape of the curved shell 10, the whole massager can comprehensively simulate the multifunctional physiotherapy effects of low-frequency electrotherapy, cupping, infrared light, vibration massage, annular traction and the like according to the actual needs of users, so that the aims of promoting blood circulation of the neck, relaxing muscles of the neck, relieving fatigue and the like are achieved.

In order to optimize the structure of the whole massage apparatus to the maximum extent, especially to make the universal massage heads 30 fit the physiological curve of the human neck structurally, the central axis of the buffering neck sleeve 13 (i.e. the central axis of the universal massage heads 30) of the present embodiment is distributed along the radial direction of the curved shell 10, and the physical vibrators 30 are in one-to-one correspondence with the buffering neck sleeves 13 and located within the outline range of the corresponding buffering neck sleeve 13, so that the universal massage heads 30 can be distributed vertically as much as possible with the contact points of the human neck, and the physical vibrators 30 can exert the maximum physical vibration function in the region where the universal massage heads 30 are located, so as to transmit the vibration effect to the human neck when the universal massage heads 30 are in contact with the human neck.

Preferably, the pair of the buffer neck sleeves 13 of the embodiment is at least one pair, wherein the pair of the buffer neck sleeves 13 are symmetrically distributed on the radial center line of the curvature housing 10 (i.e. corresponding to at least two of the wireless massage heads 30 are symmetrically distributed on the radial center line of the curvature housing 10), so that the acupuncture points on both sides of the central line of the neck can be massaged in a bilateral symmetry manner when two universal massage heads 30 are present. Of course, the pair of universal massage heads 30 can also be arranged up and down along the radial center line of the curvature housing 10 to directly massage the acupuncture points on the center line of the neck; or two pairs of universal massage heads 30 are simultaneously arranged to realize massage contact on the acupuncture points at the same time.

In order to enhance the stability of the physical vibrator 20, especially in view of the difference in softness or hardness between the outer arc hard shell 11 and the inner arc soft shell 12, which causes the physical vibrator 20 to move away from the original assembly position, the physical vibrator 20 of this embodiment includes a motor protection cover 21 locked on the wall of the outer arc hard shell 11 and forming a vibration chamber (not shown) together with the outer arc hard shell 11, a micro motor 22 installed in the vibration chamber and controlled by a driving control component, and an eccentric vibration wheel 23 installed on the output shaft of the micro motor 22 and located in the vibration chamber (which may be a semicircular block structure and coaxially connected to the micro motor 22 or a full circle block structure and eccentrically connected to the micro motor 22). Thus, the micro motor 22 can be enclosed in the vibration chamber by the motor protection cover 21 and provide structural support for locking the position of the micro motor 22, and when the micro motor 22 is started, the eccentric vibration wheel 23 can be driven to rotate, so as to generate a vibration effect, thereby driving the entire curvature housing 10 to perform synchronous vibration.

In order to optimize the practical performance of the whole massage apparatus to the maximum, the massage apparatus of this embodiment further includes a left grip shell 40 connected to the left end of the curvature housing 10 in a plugged manner and a right grip shell 50 connected to the right end of the curvature housing 10 in a plugged manner, and the driving control module includes a main control board 41 installed in the left grip shell 40 and electrically connected to the pulse therapy electrode sheet 34 and the flexible electric heating sheet 35, a vibration control board 14 installed in the curvature housing 10 and electrically connected to the main control board 41 and the physical vibrator 20, an energy storage battery 51 installed in the right grip shell 50 and electrically connected to the main control board 41, a function control button 42 embedded in the outer arc surface of the left grip shell 40 and electrically connected to the main control board 41, a charging interface module 52 embedded in the wall of the right grip shell 50 and electrically connected to the main control board 41 and the energy storage battery 51, and an external control board embedded in the left grip shell 40 and electrically connected to the main control board 41 And a pulse connection module 43. Therefore, the left and right clamping handle shells can provide an assembly space for the main body part of the drive control assembly, and can be in contact with the chin area of the head of a human body to ensure that the curved shell 10 can be in stable contact with the neck of the human body, so that the wearing stability of the whole massage apparatus is ensured; the selection of the system circuit of the components such as the main control panel 41 and the like can realize the switching regulation and control of functional modes such as low-frequency electrotherapy, cupping jar, infrared light, vibration massage, annular traction and the like by using the function regulation and control key 42, and the use flexibility of the massager can be enhanced by using the energy storage battery 51 so that the massager is not limited by the arrangement place of a power supply; in addition, the external pulse connection module 43 can be used as an expansion interface to connect and control other pulse physical therapy sheets independent of the massage apparatus, so that the user can massage the acupuncture points of other parts of the human body by using the expanded pulse physical therapy sheets.

In order to enhance the comfort of the contact between the left and right grip shells and the skin of the human body and to generate a certain massage effect, the left grip shell 40 and the right grip shell 50 of the present embodiment are formed by joining an outer arc shell a and an inner arc shell b, and a flexible massage pad c (which may be integrally injection-molded from a material such as silicone rubber, etc. according to the actual situation, and has a plurality of protrusions or lines formed on the surface thereof) is embedded in the wall of the inner arc shell b. Therefore, the convenience of assembling and disassembling related devices can be greatly enhanced by utilizing the outer arc surface shell a and the inner arc surface shell b, and the comfort of contacting with the skin of a human body can be enhanced by the flexible characteristic of the flexible massage cushion c.

In order to facilitate the rapid disassembly and assembly maintenance of the whole massage apparatus, the end of the outer arc-shaped shell a of the present embodiment is attached and locked to the inner shell wall of the outer arc-shaped hard shell 11, the end of the inner arc-shaped shell b is attached to the inner shell wall of the inner arc-shaped soft shell 12, and meanwhile, the left and right end sides of the curvature shell 10 are respectively provided with a binding hoop 15, and the binding hoops 15 are sleeved and bound to the region where the left handle clamping shell 40 and the curvature shell 10 are inserted into each other and the region where the right handle clamping shell 50 and the curvature shell 10 are inserted into each other.

In addition, in order to improve the intelligent degree of the whole massage apparatus and facilitate the user to control, the main control panel 41 is further integrated with a wireless communication module 44 (which can select a bluetooth module, a WIFI module, etc. according to the actual situation), so that the user can utilize the portable communication device such as a smart phone to remotely or non-contactingly switch and regulate the functional mode of the massage apparatus. Of course, auxiliary accessories such as a buzzer, a loudspeaker, an indicator light and the like can be arranged in the massage instrument so as to realize practical functions such as light voice prompt and the like when the massage instrument is switched in functions or is executed in functions. In specific implementation, the system design can be performed according to the system schematic diagram provided in fig. 10, and the functional circuit of the existing massage apparatus can be selected to be configured into a complete control system, which is not described herein again.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (8)

1. A cervical vertebra massager is characterized in that: it comprises

The curve shell is a hollow shell structure which is formed by oppositely splicing an outer arc hard shell and an inner arc soft shell inside and outside and has an overall shape similar to a C shape, and at least one buffering neck sleeve protruding towards the inner arc direction of the curve shell is formed on the inner arc soft shell;

the physical vibrator is arranged on the wall of the outer arc hard shell and is positioned in the shell space of the curved shell;

the universal massage head comprises a positioning clamp plate, a backboard seat, a contact cover, a pulse physiotherapy electrode plate and a flexible electric heating plate, wherein the positioning clamp plate is arranged in the buffer neck sleeve and covers the inner side of the neck opening of the buffer neck sleeve;

and

and the physical vibrator, the pulse physiotherapy electrode plate and the flexible electric heating plate are respectively electrically connected with the drive control assembly and controlled by the drive control assembly.

2. The cervical vertebra massager as claimed in claim 1, wherein: the axis of buffering neck cover is along the radial distribution of curvature casing, the physics electromagnetic shaker corresponds one-to-one with the buffering neck cover and is located the profile range of the buffering neck cover that corresponds.

3. The cervical vertebra massager as claimed in claim 2, wherein: the buffer neck sleeves are at least one pair, wherein the pair of buffer neck sleeves are symmetrically distributed along the radial center line of the curved shell.

4. The cervical vertebra massager as claimed in claim 1, wherein: the physical vibrator comprises a motor protection cover which is locked on the shell wall of the outer arc hard shell and forms a vibration cavity together with the outer arc hard shell, a micro motor which is arranged in the vibration cavity and controlled by a driving control component, and an eccentric vibration wheel which is arranged on an output shaft of the micro motor and is positioned in the vibration cavity.

5. The cervical vertebra massager as claimed in any one of claims 1 to 4, wherein: the driving control assembly comprises a main control panel, a vibration control panel, an energy storage battery, a function control button, a charging interface module and an external pulse connection module, wherein the main control panel and the energy storage battery are arranged in the right clamping handle shell, the function control button is embedded on the outer arc surface of the left clamping handle shell and is electrically connected with the main control panel, the charging interface module is embedded on the shell wall of the right clamping handle shell and is electrically connected with the main control panel and the energy storage battery, and the external pulse connection module is embedded on the shell wall of the left clamping handle shell and is electrically connected with the main control panel.

6. The cervical vertebra massager as claimed in claim 5, wherein: the left clamping handle shell and the right clamping handle shell are formed by splicing an outer cambered surface shell and an inner cambered surface shell inside and outside relatively, and a flexible massage cushion is embedded on the shell wall of the inner cambered surface shell.

7. The cervical vertebra massager as claimed in claim 6, wherein: the end part of the outer arc surface shell is attached to and locked on the inner shell wall of the outer arc hard shell, the end part of the inner arc surface shell is attached to the inner shell wall of the inner arc soft shell, the left end side and the right end side of the curvature shell are respectively provided with a binding hoop, and the binding hoops are sleeved and bound on a region where the left handle clamping shell and the curvature shell are inserted and a region where the right handle clamping shell and the curvature shell are inserted.

8. The cervical vertebra massager as claimed in claim 5, wherein: and the main control panel is also integrated with a wireless communication module.

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