CN219071170U - Neck massage instrument - Google Patents

Abstract

The utility model discloses a neck massager, which comprises a massager shell, an air bag massage assembly, a head supporting part and an air charging and discharging mechanism, wherein the air charging and discharging mechanism comprises a control module and an air pump communicated with the air bag massage assembly; the air bag massage assembly and the head support are both arranged on the upper cervical traction assembly. According to the utility model, the upper neck traction assembly is driven to axially lift by the inflation and deflation actions of the upper lifting air bag in the teeterboard mechanism so as to realize the traction of the upper neck of a user, and further the shoulder of the user is driven to move so as to lead the shoulder muscle to be traction, the linkage massage of the neck and the shoulder of the user is realized, and the movement degree of the cervical vertebra joint can be improved from multiple angles.

Description

Neck massage instrument

Technical Field

The utility model relates to the technical field of massage equipment, in particular to a neck massage instrument.

Background

The neck massager realizes the massage of the neck of the human body through the modes of air bag massage, electric stimulation and the like. The neck massage devices on the market are various, and the neck massage devices capable of supporting the head of a user are increasingly favored by consumers; when the user uses the massage device, the user can massage in a supine posture, the head of the user is directly placed on the base of the neck massage device, and the neck massage mechanism on the neck massage device is used for massaging the neck of the user, so that the user can receive the massage in a more relaxed posture.

At present, most of neck massage apparatuses on the market draw and massage the neck of a user in a vertical lifting and falling mode in a direction vertical to the cervical vertebra, and the massage functions are gathered in the middle section of the neck; the height of the pillow can directly influence the blood supply of the vertebral artery, and the traction mode of straight lifting has the risk of causing the stenosis of the intervertebral foramen and the insufficient blood supply of the artery; in addition, the near shoulder of the user is not easy to lift up during massage due to the large volume and mass of the shoulder, but the near head is in a state of hollow head caused by only supporting the neck, and at the moment, the traction massage with vertical lifting can aggravate the problem of insufficient blood supply of the vertebral artery, and even dizziness of the user occurs; the risk is more likely to occur for users with heavier heads due to the different head weights of users of different sizes.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: provides a neck massager which can realize shoulder and neck linkage massage to improve the cervical vertebra massage effect.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the neck massager comprises a massager shell, an air bag massage assembly, a head supporting part and an inflation and deflation mechanism, wherein the inflation and deflation mechanism comprises a control module and an air pump communicated with the air bag massage assembly, the massager shell comprises an upper neck traction assembly and a lower neck traction assembly which are connected through a teeterboard mechanism, the teeterboard mechanism comprises an upper lifting air bag on one side and an elastic piece on the other side, and the upper lifting air bag is communicated with the air pump; the air bag massage assembly and the head supporting part are arranged on the upper neck traction assembly, and the upper lifting air bag is positioned below the air bag massage assembly. The upper neck traction assembly is driven to lift relative to the lower neck traction assembly through the air charging and discharging action of the upper lifting air bag in the teeterboard mechanism, the connection between the upper neck traction assembly and the lower neck traction assembly is maintained through the elastic piece in the teeterboard mechanism, the upper lifting air bag is arranged below the air bag massage assembly, the upper lifting air bag charges to enable the part, provided with the air bag massage assembly, of the upper neck traction assembly to tilt upwards, and the part, connected with the elastic piece, of the upper neck traction assembly is depressed to enable the elastic piece to shrink, so that the swing action similar to the teeterboard principle is formed; the upper neck traction assembly is tilted upwards at the contact part of the upper neck traction assembly and the neck of the user to lift the upper neck of the user, so that the effect of stretching the upper neck is achieved, and meanwhile, the shoulder near part of the user is driven to passively move, so that the stretching of shoulder muscles of the user is realized; according to the utility model, the upper neck traction component is lifted relative to the lower neck traction component in a deflection way to drive the neck of a user to carry out traction in the axial direction, so that the neck of the user can be completely supported at the upturned part of the upper neck traction component during traction, the head of the user is supported during traction of the neck, the support of the whole neck section of the user is realized, and the effectiveness and safety of traction massage work are improved; meanwhile, the linkage massage of the neck and the shoulder of the user is realized, the mobility of the cervical vertebra joint can be improved from multiple angles, and the effects of enlarging the intervertebral space of the user, relieving the internal pressure of the intervertebral disc, increasing the stimulation and compression of intervertebral foramen and contact nerve roots and improving or recovering the normal physiological curvature of the cervical vertebra can be achieved.

As an improvement of the technical scheme, the upper neck traction component comprises a head and neck supporting panel, and the teeterboard mechanism further comprises a connecting shaft, a lifting air bag fixing frame and at least one connecting shaft support; one side of the head and neck support panel is connected with the lower neck traction assembly through an elastic piece, the connecting shaft support is fixedly connected with the head and neck support panel, the bottom of the connecting shaft support is propped against the inside of the lower neck traction assembly, the connecting shaft penetrates through the connecting shaft support and is fixed on the head and neck support panel, and the lifting air bag fixing frame is rotatably connected with the connecting shaft; the lower part of the upper lifting air bag is fixed on the lifting air bag fixing frame, and the upper part of the upper lifting air bag is fixedly connected with the other side of the head and neck supporting panel. The upper neck traction assembly rotates around the connecting shaft when being lifted under the jacking action of the upper lifting air bag through the cooperation of the connecting shaft, the connecting shaft support and the lifting air bag fixing frame, so that the hinge joint between the head and neck support panel and the connecting shaft support is realized, the lifting action of the upper neck traction assembly is limited, and the traction massage on the shoulder and neck of a user in a specific direction is realized; the lifting air bag fixing frame can be used as a bearing component of the upper lifting air bag, and stable support is provided when the upper lifting air bag is inflated; the connecting shaft support can be used as a supporting part of the whole upper neck traction assembly, and the connecting shaft support is supported on the lower neck traction assembly in the lifting process of the upper neck traction assembly so as to ensure the overall stability of the neck massage instrument.

As the improvement of the technical scheme, the teeterboard mechanism further comprises at least one torsion spring sleeved on the connecting shaft, and two ends of the torsion spring are fixedly connected with the head and neck supporting panel and the lifting air bag fixing frame respectively. By adding the torsion spring on the connecting shaft, the upper neck traction assembly can pull the torsion spring to stretch when the upper neck traction assembly is lifted by the lifting air bag at the upper part, so that the torsion spring is deformed; the torsion spring is restored to be deformed to provide a return tension for the upper neck traction assembly after the upper lifting air bag is deflated, so that the upper neck traction assembly can be normally returned to the original position.

Preferably, the elastic piece adopts a spring; an elastic limit column is fixed at the bottom of the head and neck support panel, a spring is sleeved on the spring limit column, and two ends of the spring are fixedly connected with the head and neck support panel and the lower neck traction assembly respectively. The spring has the advantages of low cost and good elasticity, can provide stable pulling force for the return of the upper neck traction assembly, and has certain supporting capacity to support the upper neck traction assembly; the spring can be limited and supported through the elastic limiting column, and the spring is sleeved on the elastic limiting column, so that the spring can be prevented from being compressed in a transitional mode, and deflection of the spring when the spring is compressed can be avoided.

As an improvement of the technical proposal, the lower neck traction component comprises an upper shell, a lower shell and a lower lifting air bag; the upper shell covers the top of the lower shell to form a cavity; the lower lifting air bag is communicated with the air pump and is fixedly connected with the bottom of the lower shell; the upper shell is provided with a through hole, the connecting shaft support is propped against the lower shell after passing through the through hole, and the elastic piece is fixedly connected with the lower shell after passing through the through hole. The upper neck traction assembly is supported on the upper shell and integrally lifts the upper shell and the lower shell by arranging the lower lifting air bag, so that the upper shell can drive the upper neck traction assembly to integrally lift, the upper neck traction assembly is matched with the upper neck traction assembly to draw the upper neck of a user, and the lower neck of the user is stretched, so that the linkage massage effect on the neck and the shoulder of the user is further enhanced.

As an improvement of the technical scheme, the lower neck traction assembly further comprises a lifting air bag stress plate arranged between the lower lifting air bag and the lower shell and a lifting air bag fixing plate for fixing the bottom of the lower lifting air bag; the lifting air bag stress plate is fixed at the bottom of the lower shell and is fixedly connected with the upper part of the lower lifting air bag. Through setting up the lifting gasbag atress board as the connection basis between lower part lifting gasbag and the lower casing to can provide stable supporting panel for lower part lifting gasbag through the lifting gasbag atress board of dull and stereotyped structure, realize being connected between soft lifting gasbag and the stereoplasm casing, be convenient for carry out the installation of lower part lifting gasbag and fix, the pressure when lower part lifting gasbag is inflated is applyed on dull and stereotyped structure simultaneously, can realize the biography power between lower part lifting gasbag and the casing better.

As an improvement of the technical scheme, the air bag massage assembly comprises an electrotherapy module, a pressing module and a swinging module; the pressing module and the swinging head module both comprise massage air bags communicated with the air pump; at least one pressing module and a swinging module are respectively arranged on two sides of a central connecting line of the air bag massage assembly and the head supporting part, and the swinging module is positioned between the head supporting part and the pressing module; the electrotherapy module is arranged on the pressing module. The pressing module and the swinging module have the same working principle, and apply force to the corresponding massage parts through the air charging and discharging actions of the massage air bags. Through the limitation to the setting positions of the pressing module and the swinging module, when the head of a user is placed on the head and neck supporting panel of the upper neck traction assembly, the two swinging modules are respectively positioned at two sides of the head of the user, and the two pressing modules are respectively positioned at two sides of the neck of the user. The head swinging modules in the air bag massage assembly push the user head from the two sides of the user head through the air charging and discharging actions of the massage air bag, and the head swinging modules at the two sides alternately work to achieve the massage effect of pushing the user head to swing left and right; the pressing module in the air bag massage assembly presses the neck of the user through the air charging and discharging actions of the massage air bag, so that the massage method of pinching the neck is simulated, and the effect of pressing and massaging the neck is achieved; through the linkage cooperation of the pressing module and the swinging module, the neck joint can be driven to perform the activities of bending, stretching, lateral bending and the like, and the neck joint is drafted to the muscles of the opposite side shoulder, so that the joint mobility of the crown surface at the top of the head is improved. Because the commonly used acupoints for treating cervical spondylosis in traditional Chinese medicine are all positioned on the neck, the electrotherapy module is arranged on the pressing module for pressing and massaging the neck, the electrotherapy module can perform hot compress or apply electric stimulation to the neck acupoints of a user, the massaging effect on the neck is enhanced, and meanwhile, the health care effect can be achieved.

As the improvement of the technical scheme, the pressing module and the head swinging module further comprise an air bag tray and a supporting soft film, the air bag tray is fixed on the upper neck traction assembly, the lower part of the massage air bag is fixed on the air bag tray, and the upper part of the massage air bag is fixedly connected with the supporting soft film. The specific structures of the pressing module and the swinging head module are the same, and the corresponding massage air bags are supported by arranging the air bag tray except for the corresponding massage air bags. The supporting soft film can prevent the head of the user from being pulled in other directions due to gravity in the axial lifting process of the neck massager, and can support irregular bone tissues at the junction of the head top bone and the occipital bone of the user, so that the effects of supporting the dead weight of the head of the user and maintaining the pulling direction are achieved, and the condition of arterial blood supply deficiency caused by suspension of the head of the user is avoided; and, support the flexible membrane and can also improve the laminating degree between gasbag massage subassembly and the user massage position.

As an improvement of the technical scheme, the electrotherapy module comprises an adjusting air bag, an electrode slice and a conductive film; the adjusting air bag is communicated with the air pump, the adjusting air bag is fixed on the supporting soft film corresponding to the pressing module, the electrode plate is fixed on the upper part of the adjusting air bag, and the conducting film is covered on the electrode plate. The contact degree and the contact clearance between the electrotherapy module and the neck of the user can be further adjusted by arranging the adjusting air bag, so that the fitting degree of the electrotherapy module and the massaging position of the neck of the user is improved, and the conductive film can be tightly attached to the progress of the user to perform effective acupuncture point stimulation.

As an improvement of the technical scheme, the upper surface of the head and neck supporting panel consists of a plurality of cambered surface areas, and the cambered surface areas are in arc transition; the cambered surface area provided with the air bag massage assembly is upwards convex, and the cambered surface area provided with the head supporting part is downwards concave; the head support is a silica gel pad. Through optimizing the surface of head and neck support panel, make head and neck support panel's surface form the cambered surface with the adaptation of user's cervical vertebra curvature, the terminal surface of neck massage appearance can hug closely user's shoulder, goes up the neck and pulls the subassembly simultaneously and can hug closely the full neck section of user's headrest portion and neck. Can support its head when the user massages on the back through head supporting part, adopt the silica gel pad as the head supporting part can be at the in-process of user's headrest portion lifting with it, the effect of massage head is reached through the upper and lower slip between the two to can play the cushioning effect at the lifting in-process to user's head, avoid the user to appear uncomfortable at the head lifting in-process.

The beneficial effects of the utility model are as follows: according to the utility model, the neck massage instrument is improved into a split structure consisting of the upper neck traction component and the lower neck traction component, the upper neck traction component and the lower neck traction component are connected through the seesaw mechanism, the upper neck traction component is driven to axially lift by the inflation and deflation actions of the upper lifting air bag in the seesaw mechanism to realize the stretching of the upper neck of a user, and further the shoulder of the user is driven to move so as to lead shoulder muscles to be pulled, the linkage massage of the neck and the shoulder of the user is realized, the mobility of the cervical vertebra joint can be improved from multiple angles, and the effects of enlarging the intervertebral disc space of the user, relieving the internal pressure of the intervertebral disc, increasing the stimulation and compression of the intervertebral foramen and the contact nerve root and improving or recovering the normal physiological bending of the cervical vertebra can be achieved.

Drawings

Fig. 1 is a perspective view of a neck massage machine of the present utility model;

FIG. 2 is a front perspective view of the neck massager of the present utility model;

FIG. 3 is a perspective view of another view of the neck massager of the present utility model;

FIG. 4 is an exploded view of the upper cervical traction assembly of the cervical massager of FIG. 1;

FIG. 5 is an exploded view of the lower cervical traction assembly of the cervical massage apparatus shown in FIG. 1;

FIG. 6 is a diagram showing a comparative construction of the neck massage apparatus of FIG. 1 before and after inflation of the upper lifting bladder, and in FIG. 6, the fracture drawing is employed and parts are omitted;

fig. 7 is an exploded view of the structure of the air bag massage assembly of the neck massage apparatus shown in fig. 1.

Marked in the figure as: 100-upper neck traction component, 110-head and neck support panel, 120-connecting shaft, 130-lifting air bag fixing frame, 140-connecting shaft support, 150-torsion spring, 160-spring limit column, 200-lower neck traction component, 210-upper shell, 220-lower shell, 230-lower lifting air bag, 240-lifting air bag stress plate, 250-lifting air bag fixing plate, 300-elastic piece, 400-upper lifting air bag, 510-electrotherapy module, 511-adjusting air bag, 512-electrode plate, 513-conductive film, 521-pressing module, 522-swing module, 523-massage air bag, 524-air bag tray, 525-supporting soft film and 600-head support part.

Detailed Description

In order to facilitate an understanding of the present utility model, the present utility model will be further described with reference to the accompanying drawings and examples.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "front", "rear", "left", "right", "upper", "lower", "inner", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description, and do not indicate or imply that the apparatus or components referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 5, the neck massage apparatus includes a massage apparatus housing, an air bag massage assembly, a head support 600, and an inflation and deflation mechanism, both the air bag massage assembly and the head support 600 being mounted on the massage apparatus housing; the massage air bag component presses the massage part of the user to massage through the air charging and discharging actions of the massage air bag; the air charging and discharging mechanism consists of a control module and an air pump, the air pump is used as an air source of the massage air bags in the massage air bag assembly, and the control module controls the on-off of the air charging and discharging work of each massage air bag; the head support 600 is used to support the head of the user while the user is massaging in the supine position. The massage device casing adopts a split structure composed of an upper neck traction component 100 and a lower neck traction component 200, and the air bag massage component and the head supporting part 600 are both arranged on the upper neck traction component 100; a teeter-totter mechanism consisting of an upper lifting air bag 400 and an elastic member 300 is installed between the upper neck traction assembly 100 and the lower neck traction assembly 200, the upper lifting air bag 400 in the teeter-totter mechanism is communicated with the air pump, and the upper lifting air bag 400 and the elastic member 300 are respectively positioned at two sides of the teeter-totter mechanism; both the upper lift bladder 400 and the elastic member 300 are connected to both the upper cervical traction assembly 100 and the lower cervical traction assembly 200. When the upper lifting air bag 400 in the teeterboard mechanism is inflated and expanded, the end of the upper neck traction assembly 100 provided with the air bag massage assembly is lifted upwards, and the end of the upper neck traction assembly 100 connected with the elastic piece 300 is pressed downwards; when the upper cervical traction assembly 400 is deflated, the elastic member 300 releases pressure energy to push the end of the upper cervical traction assembly 400 connected with the elastic member 300 upwards, and the end of the upper cervical traction assembly 400 provided with the air bag massage assembly is downwards; the upper lifting air bag 400 is circulated to perform inflation and deflation actions, so that the two ends of the upper neck traction assembly 400 form a seesaw-like mechanism which swings back and forth. While the user massages the pillow and the neck using the air bag massage assembly on the neck massage machine, the back and forth swing motion of the upper neck traction assembly 100 under the action of the upper lifting air bag 400 stretches the upper neck muscle of the user.

Specifically, as shown in fig. 4, the upper cervical traction assembly 100 includes a head and neck support panel 110, and the teeterboard mechanism further includes a connection shaft 120, a lifting airbag holder 130, and a connection shaft support 140. The air bag massage assembly and the head support part 600 are both installed on the head and neck support panel 110, and the lower part of the head and neck support panel 110 is directly connected with the elastic member 300, and is connected with the lower neck traction assembly 200 through the elastic member 300; the connecting shaft support 140 is fixed on the head and neck support panel 110, the connecting shaft 120 passes through the connecting shaft support 140 and is fixedly connected with the head and neck support panel 110, and the lifting air bag fixing frame 130 is provided with a through hole for the connecting shaft 120 to pass through so as to realize rotatable fit between the connecting shaft 120 and the lifting air bag fixing frame 130; the lower portion of the upper lifting airbag 400 is fixed to the lifting airbag fixing frame 130, and the upper portion of the upper lifting airbag 400 is fixed to the head and neck support panel 110. As shown in fig. 6, after the upper lifting airbag 400 is inflated, one end of the head and neck support panel 110 is lifted up, and simultaneously, the other end of the head and neck support panel 110 applies downward pressure to the elastic member 300, so that the connecting shaft support 140 is pressed in the lower neck traction assembly 200, and the head and neck support panel 110 rotates around the connecting shaft 120 due to the limiting function of the hinge joint between the connecting shaft 120 and the lifting airbag fixing frame 130, so that the end of the head and neck support panel 110 provided with the airbag massage assembly is lifted up, and the end of the head and neck support panel 110 connected with the lower neck traction assembly 200 through the elastic member 300 is pressed down, so that the elastic member 300 is compressed. After the upper lifting air bag 400 is deflated, the upper cervical traction assembly 100 can return to the original position under the action of the self gravity and the elastic force of the elastic piece 300; in order to enhance the return efficiency of the upper cervical traction assembly 100, a torsion spring 150 may be added to the connecting shaft 120 to provide an elastic force, as shown in fig. 4, two torsion springs 150 are respectively sleeved at two ends of the connecting shaft 120, and two ends of the torsion springs 150 are fixedly connected with the head and neck support panel 110 and the lifting air bag fixing frame 130 respectively. When the end of the upper neck traction assembly 100 provided with the air bag massage assembly is lifted, one end of the torsion spring 150 connected with the head and neck support panel 110 is pulled to deform, and the end of the torsion spring 150 is unfolded; after the upper lifting air bag 400 is deflated, the elastic force of the torsion spring 150 for recovering the deformation can be pulled back, so that the speed of returning the other end is increased.

The elastic member 300 has good elasticity, such as a rubber member, a silicone member, a spring, etc., and the spring is selected here, so that the spring has not only good elasticity but also a certain strength, and can play a role of supporting the upper cervical traction assembly 100. When the spring is used as the elastic member 300, as shown in fig. 4, an elastic limit post 160 is fixed on the bottom surface of the head and neck support panel 110, the spring is sleeved on the elastic limit post 160, and two ends of the spring are fixedly connected with the head and neck support panel 110 and the lower neck traction assembly 200 respectively; the spring is supported and limited by the elastic limiting posts 160 to avoid deflection of the spring after being stressed to affect the traction effect of the upper cervical traction assembly 100 on the user's neck.

As shown in fig. 5, the lower cervical traction assembly 200 adopts a cavity type structure composed of an upper case 210 and a lower case 220. A lower lifting airbag 230 is installed at the bottom of the lower housing 220, the lower lifting airbag 230 communicates with an air pump in the air charging and discharging mechanism, and the upper housing 210 covers the top of the lower housing 220 to form a cavity accommodating the air charging and discharging mechanism. The upper case 210 is provided with a through hole for the connection shaft support 140 and the elastic member 300 to pass through, the connection shaft support 140 is supported on the lower case 220, and the elastic member 300 is directly and fixedly connected with the lower case 220; the head and neck support panel 110 of the upper cervical traction assembly 100 is supported on the upper case 210. The lower lifting bladder 230, when inflated, will lift the lower cervical traction assembly 200 and the upper cervical traction assembly 100 as a whole, thereby stretching the lower neck of the user.

In order to support and fix the lower lifting airbag 230 and to improve stability of the lower lifting airbag 230 in the inflation and deflation operation, as shown in fig. 5, a lifting airbag force plate 240 is added between the lower lifting airbag 230 and the lower housing 220, and a lifting airbag fixing plate 250 is added at the bottom of the lower lifting airbag 230. The lifting airbag force plate 240 is fixed to the bottom of the lower case 220 and fixedly connected to the upper portion of the lower lifting airbag 230, and the lifting airbag fixing plate 250 is fixedly connected to the lower portion of the lower lifting airbag 230.

As shown in fig. 1 and 3, the air bag massage assembly is composed of an electrotherapy module 510, a pressing module 521 and a swinging module 522, wherein the pressing module 521 and the swinging module 522 are respectively arranged at two sides of the central connecting line of the air bag massage assembly and the head support part 600, the swinging module 522 is positioned between the head support part 600 and the pressing module 521, and each pressing module 521 is respectively provided with an electrotherapy module 510. As shown in fig. 7, the pressing module 521 and the swing module 522 have the same structural composition, and are composed of a massage air bag 523, an air bag tray 524 and a supporting soft film 525, the air bag tray 524 is fixed on the upper neck traction assembly 100, the lower portion of the massage air bag 523 is fixed on the air bag tray 524, and the upper portion of the massage air bag 523 is fixedly connected with the supporting soft film 525. The air bag tray 524 is used as a fixing and mounting foundation of the massage air bag 523, and the massage air bag 523 drives the supporting soft film 525 to move through self inflation and deflation actions, so that the head of a user is pushed and the neck of the user is pressed; by the alternate action of the two-side head swing modules 522, the head of the user is pushed to the opposite side, and the effect of pushing the head of the user to swing left and right is achieved. The supporting soft membrane 525 is used as a direct supporting component for the head of a user, and can prevent the head of the user from being pulled in other directions due to the influence of dead weight in the lifting process of the neck massager; the supporting soft films 525 in the pressing module 521 and the swing module 522 may be connected together to form an integrated structure to cover and wrap the massage airbag 523 in the pressing module 521 and the swing module 522 at the same time. As shown in fig. 7, the electrotherapy module 510 provided on the pressing module 521 is composed of a conditioning balloon 511, an electrode sheet 512, and a conductive film 513; the adjusting air bag 511 is fixed on the supporting soft film 525 corresponding to the pressing module 521, the adjusting air bag 511 is communicated with the air pump, the electrode plate 512 is fixed on the upper part of the adjusting air bag 511, and the conductive film 513 covers the electrode plate 512. The electrode plate 512 and the conductive film 513 are matched to perform hot compress and electric stimulation on the acupuncture points of the massage part, the conductive film 513 is tightly attached to the massage part of a user by the air inflation of the adjusting air bag 511, and the hot compress and electric stimulation effects are improved.

In order to enable the neck massager to support the shoulder of the user during neck massage, and simultaneously to pull the shoulder of the user, as shown in fig. 1 to 3, a plurality of arc areas are formed on the upper surface of the head and neck support panel 110, the arc areas provided with the air bag massage assembly are raised upwards, the arc areas provided with the head support 600 are recessed downwards, and arc transitions are formed between the arc areas, so that the head and neck support panel 110 has an arc surface conforming to the physiological curvature of the human body, and can be better attached to the shoulder, the neck and the head of the user.

Because the user is constantly lifted at the in-process of using the neck massage appearance to massage, there is relative effort between user's head and the neck massage appearance by head dead weight influence, adopts the silica gel pad as head supporting part 600 can be on the basis of supporting the head, cushions user's head through the silica gel pad to reduce the impact force of user's head to the neck massage appearance, weaken the uncomfortable sense of user's head.

Claims (10)

1. The neck massage instrument comprises a massage instrument shell, an air bag massage assembly, a head supporting part (600) and an inflation and deflation mechanism, wherein the inflation and deflation mechanism comprises a control module and an air pump communicated with the air bag massage assembly, and is characterized in that: the massage instrument shell comprises an upper neck traction component (100) and a lower neck traction component (200) which are connected through a teeterboard mechanism, wherein the teeterboard mechanism comprises an upper lifting air bag (400) on one side and an elastic piece (300) on the other side, and the upper lifting air bag (400) is communicated with an air pump; the air bag massage assembly and the head support (600) are both disposed on the upper cervical traction assembly (100).

2. The neck massager of claim 1, wherein: the upper neck traction assembly (100) comprises a head and neck support panel (110), and the teeterboard mechanism further comprises a connecting shaft (120), a lifting air bag fixing frame (130) and at least one connecting shaft support (140); one side of the head and neck support panel (110) is connected with the lower neck traction assembly (200) through an elastic piece (300), the connecting shaft support (140) is fixedly connected with the head and neck support panel (110), the bottom of the connecting shaft support (140) is propped against the inside of the lower neck traction assembly (200), the connecting shaft (120) passes through the connecting shaft support (140) and is then fixed on the head and neck support panel (110), and the lifting air bag fixing frame (130) is rotatably connected with the connecting shaft (120); the lower part of the upper lifting air bag (400) is fixed on the lifting air bag fixing frame (130), and the upper part of the upper lifting air bag (400) is fixedly connected with the other side of the head and neck supporting panel (110).

3. The neck massager of claim 2, wherein: the teeterboard mechanism further comprises at least one torsion spring (150) sleeved on the connecting shaft (120), and two ends of the torsion spring (150) are fixedly connected with the head and neck supporting panel (110) and the lifting air bag fixing frame (130) respectively.

4. The neck massager of claim 2, wherein: the elastic piece (300) is a spring, a spring limiting column (160) is fixed on the bottom surface of the head and neck supporting panel (110), the spring is sleeved on the spring limiting column (160), and two ends of the spring are fixedly connected with the head and neck supporting panel (110) and the lower neck traction assembly (200) respectively.

5. The neck massager of claim 2, wherein: the lower cervical traction assembly (200) comprises an upper housing (210), a lower housing (220) and a lower lifting bladder (230); the upper shell (210) covers the top of the lower shell (220) to form a cavity; the lower lifting air bag (230) is communicated with the air pump, and the lower lifting air bag (230) is fixed at the bottom of the lower shell (220); the upper shell (210) is provided with a through hole, the connecting shaft support (140) is abutted against the lower shell (220) after penetrating through the through hole, and the elastic piece (300) is fixedly connected with the lower shell (220) after penetrating through the through hole.

6. The neck massager of claim 5, wherein: the lower neck traction assembly (200) further comprises a lifting air bag stress plate (240) arranged between the lower lifting air bag (230) and the lower shell (220) and a lifting air bag fixing plate (250) fixed at the bottom of the lower lifting air bag (230); the lifting air bag stress plate (240) is fixed at the bottom of the lower shell (220) and is fixedly connected with the upper part of the lower lifting air bag (230).

7. The neck massager of claim 2, wherein: the air bag massage assembly comprises an electrotherapy module (510), a pressing module (521) and a swinging module (522); the pressing module (521) and the swinging head module (522) comprise massage air bags (523) communicated with the air pump; at least one pressing module (521) and a swinging module (522) are respectively arranged at two sides of the central connecting line of the air bag massage assembly and the head support part (600), and the swinging module (522) is positioned between the head support part (600) and the pressing module (521); the electrotherapy module (510) is disposed on the compression module (521).

8. The neck massager of claim 7, wherein: the pressing module (521) and the head swinging module (522) further comprise an air bag tray (524) and a supporting soft film (525), the air bag tray (524) is fixed on the upper neck traction assembly (100), the lower part of the massage air bag (523) is fixed on the air bag tray (524), and the upper part of the massage air bag (523) is fixedly connected with the supporting soft film (525).

9. The neck massager of claim 8, wherein: the electrotherapy module (510) comprises an adjustment balloon (511), an electrode sheet (512) and a conductive film (513); the adjusting air bag (511) is communicated with the air pump, the adjusting air bag (511) is fixed on a supporting soft film (525) corresponding to the pressing module (521), the electrode plate (512) is fixed on the upper portion of the adjusting air bag (511), and the conductive film (513) covers the electrode plate (512).

10. The neck massager according to any one of claims 2 to 9, wherein: the upper surface of the head and neck support panel (110) consists of a plurality of cambered surface areas, and the cambered surface areas are in arc transition; the cambered surface area provided with the air bag massage component is upwards convex, and the cambered surface area provided with the head supporting part (600) is downwards concave; the head support (600) is a silicone pad.

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