CN210355337U

CN210355337U - Air bag type ultrasonic cervical vertebra massage health care device

Info

Publication number: CN210355337U
Application number: CN201920086851.0U
Authority: CN
Inventors: 彭志军
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-01-18
Filing date: 2019-01-18
Publication date: 2020-04-21
Anticipated expiration: 2029-01-18

Abstract

The utility model relates to a gasbag formula ultrasonic wave cervical vertebra massage health care ware, including ultrasonic wave gasbag nape part, preceding chin supporting member, preceding chin gasbag body, control host computer etc, ultrasonic wave gasbag nape part comprises soft flat carrier, ultrasonic transducer, flat gasbag body, massage protruding grain portion etc. and preceding chin gasbag body sets up on the base of preceding chin supporting member, controls the host computer and comprises casing, electronic pump, operation master control electroplax, supersonic generator, power supply, electromagnetic switch valve etc.. Adopt flat gasbag body to force ultrasonic sound transduction to paste tightly and press on human muscle surface, apply high frequency ultrasonic vibration massage, high frequency ultrasonic vibration massage can be with energy deep into muscle, greatly promotes blood circulation, has alleviated cervical vertebra fatigue, makes neck muscle obtain greatly releiving and relaxing, but also has the efficiency of stretching the extension to the cervical vertebra, can further promote and improve to the physiotherapy effect of cervical vertebra dish salient, cervical vertebra hyperostosis or inflammation.

Description

Air bag type ultrasonic cervical vertebra massage health care device

Technical Field

The utility model relates to the field of massage health care instruments, in particular to a cervical vertebra massage health care device.

Background

The cervical vertebrae, generally referred to as cervical vertebrae, are located below the head and above the thoracic vertebrae. The cervical vertebra is one of two major hinges of the human body, is a connector and a key hinge of the body, and is the only channel of nerves and blood vessels. The cervical vertebrae are the joint segment with the smallest volume, the largest flexibility, the highest activity frequency and the larger load in the spine vertebrae. With the continuous development of social economy in China, people who are engaged in IT industry and Internet industry are increasing, and because body and neck muscles keep a posture for a long time and are in a long-term stiff state during working, the blood of a human body is not smooth, strain is easily caused, cervical disc protrusion is caused, cervical vertebra hyperosteogeny or inflammation is caused, and the occurrence and high incidence of cervical spondylosis are promoted. And a series of serious complications such as lassitude, memory decline, headache, nerve pain and the like are caused, great pain is brought to the spirit of people, the work and life of people are greatly influenced, and the health care of the cervical vertebra is vital.

In order to provide convenient health care massage for cervical vertebra of people and relieve cervical vertebra fatigue of people, various cervical vertebra massage health care instrument products are also available on the market. Among these cervical vertebra massage health care instrument products, their theory of operation mode, all except that, adopt the motor to drive the corresponding mechanical hand part, come the imitation hand and hold the action of holding between the fingers, come to carry on massage to the cervical vertebra; or the motor, the eccentric wheel and the like are adopted to generate rapid vibration, and the cervical vertebra and the shoulders are subjected to vibration massage or hammering massage. Due to the working principle mode adopted by the cervical vertebra massage health care instruments, the cervical vertebra massage health care instruments have the following main defects in practical application: (1) has no obvious effect on the pathological curative effect of cervical vertebra, and only has the effects of simply relaxing and preventing cervical spondylosis. (2) The massage area is small, the effect of relieving fatigue is not obvious, the massage strength is difficult to control, muscles are easy to feel painful, and the massage is uncomfortable. (3) The cervical vertebra stretching function is not provided, the cervical vertebra stretching function is only limited to hammer pinching on the surface of the cervical vertebra, the massage mode is fixed, the cervical vertebra stretching massage device cannot penetrate into muscles, and the effects of promoting blood circulation, relieving fatigue and relaxing and tightening the muscles are not obvious. (4) The equipment shake is big among the massage process, and the stationarity is poor, and the noise is big, and is bulky, and weight is heavy, wears uncomfortable, and is not light enough, makes people can't relax body and mind quietly. Therefore, in view of the above disadvantages, the applicant believes that there is a great need for an improved cervical vertebra massage health device in the prior art to better satisfy the need of cervical vertebra massage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and the defects, and provides an air bag type ultrasonic cervical vertebra massage health care device, which adopts a flat air bag body to force ultrasonic transduction to be tightly attached to the surface of muscle of a human body for applying high-frequency ultrasonic vibration massage, the high-frequency ultrasonic vibration massage can deepen energy into the muscle, thereby greatly promoting blood circulation, relieving cervical vertebra fatigue, greatly relieving and relaxing neck muscle in a tightening state, and being comfortable to wear and comfortable to massage, and the muscle can not generate pain in the massage process; meanwhile, the front chin support piece and the front chin air bag body are matched for use, so that the cervical vertebra stretching and stretching device also has the effect of stretching and stretching the cervical vertebra, and can further improve and improve the physiotherapy effect on cervical vertebra disc protrusion, cervical vertebra hyperosteogeny or inflammation; in addition, the product also has the advantages of low running noise, light and comfortable wearing and good massage and physical therapy effects.

The technical scheme of the utility model is realized like this: an air bag type ultrasonic cervical vertebra massage health care device is characterized by comprising an ultrasonic air bag back neck component, a front chin supporting piece, a front chin air bag body and a control host, wherein the ultrasonic air bag back neck component comprises a soft flat carrier, an ultrasonic transducer with a sheet structure, a flat air bag body and a massage convex particle part, the flat air bag body is arranged in the soft flat carrier, the massage convex particle part is arranged on the surface of the soft flat carrier positioned at the flat air bag body, and the ultrasonic transducer is embedded on the soft flat carrier positioned between the massage convex particle part and the flat air bag body; the two sides of the soft flat carrier are respectively provided with a connecting part, and the soft flat carrier is connected with the two sides of the front chin supporting piece through the connecting parts on the two sides of the soft flat carrier and assembled with the front chin supporting piece; the front chin air bag body is arranged on the bottom edge of the front chin supporting piece; the control host comprises a shell, and an electric inflator pump, an operation main control electric board, an ultrasonic generator or an ultrasonic generation circuit board, a power supply and an electromagnetic switch valve which are arranged in the shell, wherein the electric inflator pump is respectively provided with an air inlet port and an air outlet port, and an electric control connecting end which is respectively arranged on the electric inflator pump and the electromagnetic switch valve is electrically connected with the operation main control electric board; after the air outlet port of the electric inflator pump is connected with the electromagnetic switch valve, the electric inflator pump is respectively connected with the front chin air bag body and the flat air bag body through the air pipe so as to carry out alternate actions of inflation and deflation on the front chin air bag body and the flat air bag body under the control of the operation main control electric board; the ultrasonic generator or the ultrasonic generating circuit board and the power supply are electrically connected with the operation main control electric board, and the ultrasonic generator or the ultrasonic generating circuit board is electrically connected with the ultrasonic transducer through an electric wire.

Furthermore, the front chin supporting piece is composed of an upper supporting part with a circular arc structure, a lower supporting part with a circular arc structure and a connecting transition part which is arranged between the upper supporting part and the lower supporting part and is of an inwards concave structure, and the front chin air bag body is arranged along the bottom edge of the lower supporting part and fixed on the bottom edge of the lower supporting part.

Still further, the front chin air bag body is provided with a connecting groove on the top edge, the front chin air bag body is embedded with the bottom edge of the supporting lower part through the connecting groove, and the front chin air bag body is locked and connected together through a rivet which traverses the connecting groove and the bottom edge of the supporting lower part from the outer side surface of the connecting groove.

Furthermore, a display screen and an operation key are respectively arranged on the front surface of the shell of the control host machine.

The utility model has the advantages that: the utility model discloses a flat gasbag body forces ultrasonic transducer to paste and tightly presses human muscle on the surface, and soft flat carrier is the flat structure object of a soft form, inflate the drum at flat gasbag and play, can be along human back neck molding, paste the clothing parcel on human back neck, and carry out high-frequency ultrasonic vibration massage by ultrasonic transducer, high-frequency ultrasonic vibration massage can be with energy deep into the muscle, greatly promote blood circulation, the cervical vertebra fatigue has been alleviated, the neck muscle that makes the state of tightening has obtained greatly relaxing and relaxing. Moreover, the soft flat carrier is made of soft material, and the soft flat carrier and the control host machine are of a split structure, so that the soft flat carrier is comfortable to wear and light in weight. And moreover, the ultrasonic transducer is used for generating high-frequency ultrasonic vibration massage kinetic energy, so that the massage is comfortable, the muscles cannot generate pain in the massage process, the operation noise is low, and the vibration amplitude is small. Meanwhile, the utility model discloses a preceding chin supporting part and the cooperation application of the preceding chin gasbag body utilize to control the host computer and carry out the intermittent type formula to preceding chin gasbag body and aerify and exit, make preceding chin supporting part jack-up that makes progress for a moment, fall back downwards for a moment, make it still form the physiotherapy action that stretches the extension to the cervical vertebra, to the physiotherapy effect of cervical vertebra dish salient, cervical vertebra hyperostosis or inflammation, can obtain further promotion and improvement.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the present invention in the disassembled state.

Fig. 3 is a schematic structural view of the soft flat carrier of the present invention in an expanded state.

Fig. 4 is a schematic sectional view along the direction a-a in fig. 3 according to the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the control host of the present invention.

Fig. 6 is a schematic view of the three-dimensional structure of the control host in the disassembled state.

Fig. 7 is a schematic cross-sectional structure diagram of the composite pipeline of the present invention.

Fig. 8 is a schematic view of a partially enlarged structure of the front chin airbag of the present invention.

Detailed Description

As shown in figure 1 and figure 2, the air bag type ultrasonic cervical vertebra massage health care device comprises an ultrasonic air bag back neck part 1, a front chin supporting part 2, a front chin air bag body 3, a control host machine 4 and other parts.

Wherein, as shown in fig. 3 and fig. 4, the ultrasonic airbag back neck component 1 comprises a soft flat carrier 5, an ultrasonic transducer 6 with a sheet structure, a flat airbag body 7 and a massage convex particle part 8, the flat airbag body 7 is arranged in the soft flat carrier 5, the massage convex particle part 8 is arranged on the surface of the soft flat carrier 5 positioned at the position of the flat airbag body 7, and the ultrasonic transducer 6 is embedded on the soft flat carrier 5 positioned between the massage convex particle part 8 and the flat airbag body 7. The soft flat carrier 5 is sewn by cloth with good air tightness and water resistance, so that the soft flat carrier is soft in texture, good in wear resistance and toughness and resistant to stretching.

As shown in fig. 3, the flat airbag bodies 7 are generally formed along the soft flat carrier 5 and are disposed on the soft flat carrier 5 in a uniformly distributed manner. The soft flat carriers 5 between the flat air bag bodies 7 are further provided with or sewn with spacing lines 52, which can limit the flat air bag bodies 7 on one hand and can maintain a better flat shape when the soft flat carriers 5 are inflated. The flat air bag body 7 has two realization forms: one is to make independent flat air bags in advance, and these flat air bags can be made of soft rubber silicon material or cloth with better air tightness, and then put into the soft flat carrier 5 to be sewn together in the sewing process of the soft flat carrier 5. In the other way, in the process of manufacturing the soft flat carrier 5, the corresponding number of flat air bags are directly processed on the soft flat carrier 5, namely, the flat air bags and the soft flat carrier 5 are integrally formed.

As shown in fig. 3 or 4, the number of the massage convex particle portions 8 arranged on the soft flat carrier 5 is the same as the number of the flat airbag bodies 7. The massage convex particle parts 8 are correspondingly distributed and arranged on one side surface of the soft flat carrier 5 at the position of the flat air bag body 7, namely the surface which is attached to the back neck of the human body. The soft flat carrier 5 in fig. 1 and 2 is provided with a simplified drawing, and the massage convex portion 8 is not shown. The massage convex particle part 8 can be formed by directly processing a silica material or some natural far infrared materials on the side surface of the soft flat carrier 5 by adopting a thermoplastic calendering process. In addition, the convex massage particle portion 8 can be formed by pre-manufacturing a silica gel sheet with convex particles, cutting the silica gel sheet, and fixing the silica gel sheet on the surface of the convex massage particle portion 8, as shown in fig. 3 and 4, which is the latter form.

As shown in fig. 3, the specific number of the ultrasonic transducers 6 at each position of the corresponding flat air bag body 7 can be arranged according to the length of the flat air bag body 7 or the width of the soft flat carrier 5, and is generally about 1 to 4. Specifically, the ultrasonic transducer 6 has three mounting modes:

firstly, the ultrasonic transducer 6 is disposed inside the soft flat carrier 5, and is uniformly distributed and fixed on the surface of the flat air bag body 7, and then can be pushed outwards against the back of the massage convex particle portion 8 along with the swelling of the flat air bag body 7, and drives the massage convex particle portion 8 to perform high-frequency ultrasonic vibration.

Secondly, the ultrasonic transducers 6 are distributed on the surface of the soft flat carrier 5 corresponding to each flat air sac body 7 and fixed on the surface of the soft flat carrier 5, the massage convex particle parts 8 adopt a sheet-shaped mode and directly cover the ultrasonic transducers 6, and the ultrasonic transducers 6 are hidden between the sheet-shaped massage convex particle parts 8 and the surface of the soft flat carrier 5. In this way, the flat air bag body 7 can be pushed outwards against the back surface of the massage convex particle part 8 along with the swelling of the flat air bag body, and the massage convex particle part 8 is driven to perform high-frequency ultrasonic vibration.

Thirdly, the ultrasonic transducers 6 are distributed and fixed on the inner cavity wall of the flat air sac body 7, namely as shown in fig. 4. In this way, the flat air bag body 7 can be pushed outwards against the back surface of the massage convex particle part 8 along with the swelling of the flat air bag body, and the massage convex particle part 8 is driven to perform high-frequency ultrasonic vibration.

Of the three methods, the two methods are preferable because they not only facilitate the connection of the wires and the routing of the ultrasonic transducer 6, but also do not affect the air tightness of the flat airbag body 7 due to the wires and the routing, and are more suitable for the implementation of the independent flat airbag body. In the third embodiment, the flat airbag body 7 is preferably formed by directly and integrally processing the soft flat carrier 5.

As shown in fig. 2 and 3, the soft flat carrier 5 is further provided with connecting portions 51 on both sides thereof, and the soft flat carrier 5 is connected to both sides of the chin support 2 through the connecting portions 51 on both sides thereof to be assembled with the chin support 2, that is, as shown in fig. 1. In addition, a magic tape structure 11 is further arranged between the connecting part 51 and the outer side surface of the front chin support 2, so that the soft flat carrier 5 and the front chin support 2 have the characteristics of convenience in disassembly and assembly and firmness in connection. Adopt magic subsides structure not the utility model discloses an only implement structure, the utility model discloses a what can also adopt, fail the connection hasp structure of other structures one by one, adopt the example scheme that the magic subsides structure is only one of them example.

As shown in fig. 1, the front chin airbag body 3 is disposed on the bottom edge of the front chin support 2. Specifically, the fitting connection structure between the two can be realized by: as shown in fig. 8, a connecting groove 31 is further provided on the top edge of the front chin airbag body 3, a position below the connecting groove 31, that is, an airbag air chamber 32, a pin hole 30 is further provided on the groove wall of the connecting groove 31, and a pin hole 30 is correspondingly provided on the bottom edge of the support lower portion 22. The front chin airbag body 3 is engaged with the bottom edge of the support lower portion 22 through its joining groove 31 and is lockingly joined by a rivet 33 that traverses the joining groove 31 and the bottom edge of the support lower portion 22 from the outer side surface of the joining groove 31, i.e., the rivet 33 is sequentially locked through the pin hole 30 in the joining groove 31 and the pin hole 30 in the bottom edge of the support lower portion 22.

In order to further optimize the structure of the chin support 2, making it more ergonomic and comfortable to wear, as shown in fig. 2, the chin support 2 is composed of an upper support portion 21 having a circular arc structure, a lower support portion 22 having a circular arc structure, and a joining transition portion 23 having a concave structure disposed between the upper support portion 21 and the lower support portion 22, and the chin airbag 3 is disposed along the bottom edge of the lower support portion 22 and fixed to the bottom edge of the lower support portion 22. In addition, as shown in fig. 1 and 2, a laryngeal prominence hole 24 is formed in the middle of the lower support portion 22 so that the laryngeal prominence is not pressed against the user during wearing.

As shown in fig. 6, the control host 4 includes a housing 41, and an electric inflator 42, an operation main control electric board 43, an ultrasonic generator or an ultrasonic wave generating circuit board 44, a power supply 45, and an electromagnetic switch valve 46, which are disposed in the housing 41. In one embodiment, the operation control panel 43 and the ultrasonic generator or ultrasonic generator circuit board 44 are integrated and designed as a one-piece circuit board. In this embodiment, two circuit boards are used, in which the operation main control circuit board 43, the ultrasonic generator, or the ultrasonic wave generating circuit board 44 are independent of each other.

The electric inflator pump 42 is respectively provided with an air inlet port and an air outlet port, the electric control connecting ends respectively arranged on the electric inflator pump 42 and the electromagnetic switch valve 46 are electrically connected with the operation main control electric board 43, so that the electric inflator pump 42 operates to inflate or stop inflating under the unified and coordinated control of the operation main control electric board 43, and the electromagnetic switch valve 46 performs the inflating opening action or the inflating cutting action, and alternately and intermittently operates with inflation and air cut-off. After the air outlet port of the electric inflator 42 is connected with the electromagnetic switch valve 46, the electric inflator is respectively connected with the front chin air bag body 3 and the flat air bag body 7 through the air pipe 92, so that the front chin air bag body 3 and the flat air bag body 7 are alternately inflated and deflated under the control of the operation main control electric board 43. The electromagnetic switch valve 46 is a four-way electromagnetic switch valve, one of which is connected with the electric inflator 42, and the other two of which are connected with the flat airbag body 7. The flat air bag bodies 7 are communicated with each other. The fourth way of the four-way electromagnetic switch valve is used for exhausting. Of course, the front chin airbag body 3 may use one electromagnetic switch valve alone, and each flat airbag body 7 shares one electromagnetic switch valve as an embodiment.

The ultrasonic generator or the ultrasonic generation circuit board 44 and the power supply 45 are electrically connected with the operation main control electric board 43, and the ultrasonic generator or the ultrasonic generation circuit board 44 is electrically connected with the ultrasonic transducer 6 through an electric wire so as to switch on the working power supply of the ultrasonic transducer 6 or switch off the working power supply of the ultrasonic transducer 6 under the unified control of the operation main control electric board 43.

The power supply 45 has two implementation forms, one is a rechargeable lithium battery module, and at this time, as shown in fig. 5, a charging socket 40 connected with the lithium battery module is further provided on the housing 41; the other is to directly supply power by using 220V ac, and at this time, the power supply 45 is an ac-to-dc circuit module composed of a transformer, a rectifying circuit and a filtering circuit. The two power supplies have advantages respectively, and can be selected according to requirements during specific implementation.

In addition, in order to facilitate the intuitive operation of the product, as shown in fig. 1, fig. 2, fig. 5, and fig. 6, a display screen 47 and an operation key 48 are further respectively disposed on the front surface of the housing 41 of the operation host 4. In addition, when the lithium battery module is used as the power supply module, as shown in fig. 6, a hook 49 is further provided on the back of the housing 41 of the control main unit 4, so that the user can hang the control main unit 4 on the belt on the waist, wear the ultrasonic airbag nape part 1 on the neck, and keep fit and massage while walking or doing other things, thereby relaxing the body and mind.

In order to further optimize the structural scheme of the product, so that the product has the advantages of convenience in processing and production and convenience in assembly, as shown in fig. 6, the housing 41 is formed by covering and assembling a face shell 411 and a bottom shell 412, the display screen 47 and the operation keys 48 are arranged on the face shell 411, and the hook 49 is arranged on the back of the bottom shell 412.

In order to further simplify the connection structure of the electric wire and the air pipe between the soft flat carrier 5 and the control main machine 4, so that the connection structure is simpler and is not twisted, as shown in fig. 7, a composite pipeline 9 is further disposed between the soft flat carrier 5 and the control main machine 4, and the composite pipeline 9 is composed of an outer coating skin 91, and an air pipe 92 and an electric wire 93 disposed in the outer coating skin 91. And for the front chin air bag body 3 and the control main machine 4, as no electric wire is arranged, the front chin air bag body can be directly connected by one air pipe 92.

Additionally, the utility model discloses can also adopt to add programmable IC main control chip on the operation master control electroplax to and WIFI module communication module or bluetooth module communication module, write corresponding APP application simultaneously and install on smart mobile phone, panel computer etc. can be in order to realize remote communication and control.

Claims

1. The utility model provides a gasbag formula ultrasonic wave cervical vertebra massage health care ware which characterized in that: comprises an ultrasonic airbag back neck part (1), a front chin supporting part (2), a front chin airbag body (3) and a control host (4), wherein

The ultrasonic air bag back neck component (1) comprises a soft flat carrier (5), an ultrasonic transducer (6) with a sheet structure, a flat air bag body (7) and a massage convex particle part (8), wherein the flat air bag body (7) is arranged in the soft flat carrier (5), the massage convex particle part (8) is arranged on the surface of the soft flat carrier (5) positioned at the flat air bag body (7), and the ultrasonic transducer (6) is embedded on the soft flat carrier (5) positioned between the massage convex particle part (8) and the flat air bag body (7);

the two sides of the soft flat carrier (5) are respectively provided with a connecting part (51), and the soft flat carrier (5) is connected with the two sides of the front chin supporting piece (2) through the connecting parts (51) on the two sides of the soft flat carrier and assembled with the front chin supporting piece (2);

the front chin air bag body (3) is arranged on the bottom edge of the front chin supporting piece (2);

the control host (4) comprises a shell (41), an electric inflator pump (42), an operation main control electric board (43), an ultrasonic generator or ultrasonic generation circuit board (44), a power supply (45) and an electromagnetic switch valve (46), wherein the electric inflator pump (42) is provided with an air inlet port and an air outlet port respectively, and electric control connecting ends respectively arranged on the electric inflator pump (42) and the electromagnetic switch valve (46) are electrically connected with the operation main control electric board (43);

after an air outlet port of the electric inflator pump (42) is connected with the electromagnetic switch valve (46), the electric inflator pump is respectively connected with the front chin air bag body (3) and the flat air bag body (7) through air pipes so as to carry out alternate actions of inflation and deflation on the front chin air bag body (3) and the flat air bag body (7) under the control of the operation main control electric board (43);

the ultrasonic generator or the ultrasonic generating circuit board (44) and the power supply (45) are electrically connected with the operation main control electric board (43), and the ultrasonic generator or the ultrasonic generating circuit board (44) is electrically connected with the ultrasonic transducer (6) through an electric wire.

2. The air bag type ultrasonic cervical vertebra massage health care device according to claim 1, characterized in that: the front chin supporting piece (2) is composed of a supporting upper portion (21) with an arc-shaped structure, a supporting lower portion (22) with an arc-shaped structure and a connecting transition portion (23) which is arranged between the supporting upper portion (21) and the supporting lower portion (22) and is of an inwards concave structure, and the front chin air bag body (3) is arranged and fixed on the bottom edge of the supporting lower portion (22) along the bottom edge of the supporting lower portion (22).

3. The air bag type ultrasonic cervical vertebra massage health care device according to claim 2, characterized in that: the top edge of the front chin air bag body (3) is also provided with a connecting groove (31), the front chin air bag body (3) is embedded with the bottom edge of the supporting lower part (22) through the connecting groove (31) and is locked and connected together through a rivet which traverses the connecting groove (31) from the outer side surface of the connecting groove (31) and the bottom edge of the supporting lower part (22).

4. The air bag type ultrasonic cervical vertebra massage health care device according to claim 1, characterized in that: a magic tape structure (11) is arranged between the connecting part (51) of the soft flat carrier (5) and the outer side surface of the front chin support piece (2).

5. The air bag type ultrasonic cervical vertebra massage health care device according to claim 1, characterized in that: the power supply (45) is a rechargeable lithium battery module, and a charging socket (40) connected with the lithium battery module is further arranged on the shell (41).

6. The air bag type ultrasonic cervical vertebra massage health care device according to claim 1, characterized in that: the power supply (45) is an alternating current-to-direct current circuit module composed of a transformer, a rectifying circuit and a filter circuit.

7. The air bag type ultrasonic cervical vertebra massage health care device according to claim 1, characterized in that: the front surface of the shell (41) of the control host (4) is also provided with a display screen (47) and an operation key (48) respectively.

8. The air bag type ultrasonic cervical vertebra massage health care device according to claim 7, characterized in that: and a hook (49) is also arranged on the back surface of the shell (41) of the control host (4).

9. The air bag type ultrasonic cervical vertebra massage health care device according to claim 8, characterized in that: the shell (41) is formed by covering and assembling a face shell (411) and a bottom shell (412), the display screen (47) and the operation keys (48) are arranged on the face shell (411), and the hook (49) is arranged on the back of the bottom shell (412).

10. The air bag type ultrasonic cervical vertebra massage health care device according to claim 1, characterized in that: and a composite pipeline (9) is also arranged between the soft flat carrier (5) and the control host (4), and the composite pipeline (9) is composed of an outer coating skin (91), an air pipe (92) arranged in the outer coating skin (91) and an electric wire (93).