CN115778782A - Multi-air-bag neck massager and control method thereof - Google Patents
Multi-air-bag neck massager and control method thereof Download PDFInfo
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Abstract
The invention discloses a multi-airbag neck massager and a control method thereof, wherein the multi-airbag neck massager also comprises a massage airbag assembly arranged on a massager shell and an airbag inflating and deflating mechanism arranged in the massager shell, and the massage airbag assembly comprises a neck massage airbag capable of inflating and deflating and a pillow massage airbag capable of inflating and deflating; heating electrode plates are arranged on the neck massage air bag and/or the pillow massage air bag. According to the invention, through linkage cooperation between the two massage airbags, the massage airbag component can realize various massage actions and combination of the massage actions, various massage manipulations such as kneading, poking, clicking, lateral bending, poking and stretching, drafting and the like are simulated, not only can the massage part of a user be directly massaged, but also passive movement of peripheral muscle groups can be realized, so that the massage effect and the massage comfort level are improved, the massage action range is expanded, and the effects of improving blood circulation, relieving muscle spasm, adjusting joint disorder, recovering neck movement and the like are achieved on the basis of realizing massage relaxation.
Description
Technical Field
The invention relates to the technical field of neck massage instruments, in particular to a multi-airbag neck massage instrument and a control method of the multi-airbag neck massage instrument.
Background
The neck massager realizes the massage of the neck of the human body through modes of air bag massage, electric stimulation and the like. Neck massage apparatuses on the market are various at present, and neck massage apparatuses capable of supporting the head of a user are more and more favored by consumers; when the neck massager is used, a user can massage in a supine posture, the head of the user is directly and flatly placed on the massage instrument base of the neck massage instrument, and the neck massage mechanism on the neck massage instrument massages the neck of the user, so that the user can receive massage in a more relaxed posture.
The neck massage instruments on the market at present mainly massage and relax, and the massage function is single; and the air bags for massage are not matched, the linkage is poor, so that the massage mode is simple, the imitated massage techniques are less, and further more massage effects cannot be provided for users.
The patent with publication number CN114948640A of the early application of the applicant discloses a neck massage apparatus and a control method thereof. The neck massage instrument comprises a massage instrument base, a neck and back massage component and a head support component are arranged on the massage instrument base, the head support component is positioned behind the neck and back massage component, and the massage instrument further comprises a massage air bag component arranged between the neck and back massage component and the head support component; the massage air bag component comprises at least two inflatable and deflatable massage air bags, and at least one massage air bag is respectively arranged on two sides of the central connecting line of the neck and back massage component and the head support component; the massage air bag component also comprises an inflation and deflation mechanism. The massage airbag assembly is arranged on the massage apparatus base of the neck massage apparatus, the pillow of the human body is pushed through the inflation and deflation process of the massage airbag, so that the head of a user can swing left and right while neck massage is performed, neck muscles can be stretched and pulled, the neck muscles can move and relax, and the neck muscles can be massaged.
The technical scheme in the patent mainly realizes the traction of the neck of the user, but can not directly massage the neck of the user, and also can not provide more massage manipulations.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: the multi-air-bag neck massager can bring various different massage experiences to users.
In order to solve the technical problems, the invention adopts the technical scheme that: the multi-airbag neck massager comprises a massager shell, a head supporting assembly is arranged on the massager shell, a massage airbag assembly arranged on the massager shell and an airbag inflating and deflating mechanism arranged in the massager shell, wherein the massage airbag assembly comprises a neck massage airbag capable of being inflated and deflated and a pillow massage airbag capable of being inflated and deflated, at least one neck massage airbag and at least one pillow massage airbag are respectively arranged on two sides of a central connecting line of the massage airbag assembly and the head supporting assembly, and the pillow massage airbag is positioned between the head supporting assembly and the neck massage airbag; heating electrode plates are arranged on the neck massage air bag and/or the pillow massage air bag.
The massage air bag component is formed by simultaneously adopting the neck massage air bag and the pillow massage air bag, different massage actions can be realized through the linkage of the charging and discharging actions of the air bags, so that various massage effects and various massage effect combinations are achieved, the massage, the drafting and the passive activities of the pillow and the neck can be realized simultaneously, and the massage can be directly carried out on the part in contact with the human body and also the muscle regions which are difficult to directly massage can be passively relaxed. Meanwhile, the heating electrode plates are added to increase the effects of hot compress and electric stimulation for massage work, and after the massage air bags are attached to the massage parts of the human body, the massage experience of a user is improved through the hot compress or electric stimulation of the heating electrode plates.
In addition, due to individual differences of users, the contact degrees of the necks of different users to the electrode plates with the same size are often inconsistent, and particularly, the rigid electrode plates become more obvious; some people with loose skin can not well contact with the electrode plate, so that the contact with the electrode plate is insufficient in massage, the massage effect is influenced, and the adverse reactions such as stabbing pain and the like are easily caused. According to the invention, the heating electrode slice is arranged on the massage air bag, so that the heating electrode slice can be better attached to the neck of a user through the deformation of the massage air bag, and the user can more fully contact the electrode during the electrical stimulation training.
As an improvement of the above scheme, gaps are provided between two neck massage airbags and between two occipital massage airbags located at both sides of a central connecting line of the massage airbag module and the head support module, or gaps are provided between the two neck massage airbags or between the two occipital massage airbags; the gap can play a role of abdication, so that the massage air bag component avoids the cervical vertebra spinous process of the neck of the human body, and the cervical vertebra spinous process of the user is prevented from being pressed; the width of the gap is set to be 2-3 cm and is consistent with the physiological size of the cervical spine.
As an improvement of the proposal, the upper surfaces of the neck massage air bag and the pillow massage air bag can be further set to be cambered surfaces, so that the surface of the massage air bag, which is contacted with the human body, has a radian matched with the physiological radian of the human body, and the attaching degree of the massage air bag and the massage part is better. Meanwhile, as a preferred scheme, the heating electrode plate is a flexible heating electrode plate, and the heating electrode plate is attached to the upper surface of the neck massage air bag and/or the upper surface of the pillow massage air bag. On the basis that the upper surfaces of the neck massage air bag and the pillow massage air bag are set to be cambered surfaces, the flexible heating electrode plates are adopted to enable the heating electrode plates to be better attached to massage positions of users, so that the massage positions of the users can be fully contacted with electrodes, and the massage effects of hot compress and electric stimulation are better.
As an improvement of the proposal, the diameter of the neck massage air bag and/or the pillow massage air bag is gradually increased from one end close to the center of the massage air bag component to the other end, so that the upper surface of the massage air bag component at the corresponding position forms a U shape. The U-shaped upper surface of the massage air bag component can be matched with the physiological cambered surface of the occipital part of the user, and the occipital part of the user is covered to the maximum extent, so that the thrusts in multiple directions can be applied to the occipital part of the user, the thrusts can act on all acupuncture points and muscles of the occipital part of the neck for massage, and the thrusts applied in multiple directions can form obliquely upward resultant force to more effectively pull and stretch the neck of the user.
As an improvement of the scheme, at least two occipital massage air bags are respectively arranged on two sides of the massage air bag assembly, and the at least two occipital massage air bags positioned on the same side of the massage air bag assembly are wrapped into a whole by a wrapping layer; at least two pillow massage air bags in the same wrapping layer are arranged in an up-and-down overlapping mode. After the combination of a plurality of occipital massage air bags is adopted, the lifting heights of the two sides of the massage air bag component can be lifted, and the drafting degree of the neck muscles of a user is improved. Combine into a stable whole with a plurality of occipital massage gasbag through the parcel layer to the effect direction of thrust is restricted to a plurality of occipital massage gasbag inflation in-process, has improved the stability when occipital massage gasbag receives human head pressure simultaneously.
The invention also discloses a control method of the multi-air-bag neck massager, wherein the air bag inflating and deflating mechanism is used for controlling the inflating and deflating sequence and the inflating and deflating duration of the neck massage air bag and/or the pillow massage air bag so as to push the neck and/or the pillow of the user, so that the cervical vertebra of the user is bent forwards and/or the head of the user swings left and right. Through controlling the inflation and deflation sequence and the inflation and deflation duration of the two massage air bags, the multi-air-bag neck massager can realize different massage actions such as kneading, bending, stirring, pulling, rotating, drafting and the like, or realize linkage combination of the massage actions, and through direct realization and matching action of various massage actions, the functions of improving blood circulation, relieving muscle spasm, adjusting joint disorder, recovering neck movement and the like are achieved on the basis of massage relaxation.
Specifically, the neck massage air bags positioned at two sides of the massage air bag assembly are controlled by the air bag inflation and deflation mechanism to be inflated and deflated in a synchronous cycle, and the single duration time of inflation and deflation of the neck massage air bags is 1-2 s; the neck massage air bag is inflated to the maximum preset pressure value and is deflated after being maintained for 2 to 3 seconds; the total duration time of the neck massage air bag inflation and deflation action is 30-60 s, and the optimal value is 30s; the control step is used for massaging the neck of the user as a relaxing action when the neck enters a massage state, relaxing the neck muscles of the user when the massage work is just started as a basic action of a subsequent neck massage action, laying a foundation for a more complicated neck massage action, and enabling the neck muscles of the user to enter the massage state more quickly;
or the pillow massage air bags positioned at the two sides of the massage air bag assembly are controlled by the air bag inflation and deflation mechanism to alternately circulate for inflation and deflation, and the single duration time of inflation and deflation of the pillow massage air bags is 1-2 s; inflating the unilateral occipital massage air bag to a maximum preset pressure value and maintaining the maximum preset pressure value for 2-3 s and then beginning to deflate; the total duration time of the inflation and deflation actions of the pillow massage air bag is 30-60 s, and the preferred value is 30s; the control step is used for massaging the occiput of the user, so that the occiput of the user is relaxed, simultaneously the neck of the user can be assisted to relax, the control step is also used as a basic action of the subsequent massage action, a foundation is laid for the more complicated occiput and neck massage actions, and the neck muscles of the user can enter a massage state more quickly.
Further, the neck massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation, and meanwhile, the pillow massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation; the neck massage air bag is inflated to the maximum preset pressure value and is maintained for 2-3 s, then the air bag starts to deflate, and the pillow massage air bag starts to deflate after being inflated to the maximum preset pressure value; the single duration of the inflation and deflation of the neck massage air bag is 1-2 s, and the single duration of the inflation and deflation of the pillow massage air bag is 2-3 s; the total duration time of the inflation and deflation actions of the neck massage air bag and the pillow massage air bag is 1-2 min, and the optimal value is 1min. The control step controls the inflation and deflation actions of the pillow massage air bag on the basis of neck massaging to achieve the effect of bending and stretching the neck of the user; the neck massage pillow has the advantages that the neck massage pillow is directly massaged by controlling the synchronous inflation and deflation actions of the neck massage air bags on the two sides, and meanwhile, the synchronous inflation and deflation actions of the pillow massage air bags on the two sides are utilized to drive the pillow of a user to lift and descend, so that the neck of the user is continuously and passively bent and stretched, and the bending and stretching range of joints is improved while neck muscles are relaxed.
Further, the neck massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation, and meanwhile, the pillow massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be alternately circulated for inflation and deflation; the neck massage air bag is inflated to the maximum preset pressure value and maintains for 2-3 s, then the air bag starts to deflate, and the pillow massage air bag starts to deflate after being inflated to the maximum preset pressure value; the single duration time of the inflation and deflation of the neck massage air bag is 1-2 s, and the single duration time of the inflation and deflation of the pillow massage air bag is 2-3 s; the total duration time of the inflation and deflation actions of the neck massage air bag and the pillow massage air bag is 1-2 min, and the optimal value is 1min. The control step controls the inflation and deflation actions of the pillow massage air bag on the basis of neck massaging to achieve the effect of lateral bending of the neck of the user; the neck massage device has the advantages that the neck massage device directly massages the neck by controlling the synchronous inflation and deflation actions of the neck massage air bags on the two sides, the user head is pushed from one side by the alternate inflation and deflation actions of the pillow massage air bags on the two sides, the user head rotates in the left and right directions in sequence, the neck muscles are relaxed, and the joint lateral bending range is enlarged.
Further: the neck massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation, and meanwhile, the pillow massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be alternately circulated for inflation and deflation; the neck massage air bag is inflated to the maximum preset pressure value and is maintained for 2-3 s, and then the air bag starts to deflate, and the pillow massage air bag is inflated to the maximum preset pressure value and is maintained for 2-3 s, and then the air bag starts to deflate; the single duration time of the inflation and deflation of the neck massage air bag is 1-2 s, and the single duration time of the inflation and deflation of the pillow massage air bag is 1-2 s; the total duration time of the inflation and deflation actions of the neck massage air bag and the pillow massage air bag is 1-2 min, and the optimal value is 1min. The control step combines the massage actions of massaging the pillow part according to the kneading and pressing the acupuncture points on the basis of massaging the neck part, and the massage air bags on the two sides are controlled to alternately perform inflation and deflation actions and maintain the inflation state for a period of time so as to press and stimulate the acupuncture points of the neck part, the nape point, the Tianzhu point and the like of the user, thereby playing the massage effects of relaxing and relieving spasm, dredging the channels and activating the collaterals, adjusting the functions of the human body and eliminating pathogenic factors and strengthening the body resistance.
Further, the neck massage air bags positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be inflated and deflated in a synchronous cycle, the single duration time of inflation of the neck massage air bags is 2-3 s, and the single duration time of deflation is 1-2 s; the total duration time of the inflation and deflation actions of the neck massage air bag is 1-2 min, and the optimal value is 90s. The control step can realize the poking massage of the neck, the neck massage air bags on two sides are controlled to synchronously inflate and deflate to poke back and forth in the direction perpendicular to the neck muscle fibers, and the air bags act on positive reaction points of muscles, nodular objects, cord objects and the like under the distribution positions of the neck massage air bags, so that the neck massage effects of spasmolysis, pain relief, adhesion decomposition and muscle and tendon arrangement can be achieved.
Further, the pillow massage air bags positioned on two sides of the massage air bag assembly are controlled by the air bag inflation and deflation mechanism to be inflated and deflated synchronously in a circulating mode, the single duration time for inflating the pillow massage air bags is 2-3 s, and the single duration time for deflating the pillow massage air bags is 1-2 s; the total duration time of the inflation and deflation actions of the pillow massage air bag is 1-2 min, and the optimal value is 90s. The control step can realize the poking massage of the occiput, and the air bags for massaging the occiput at two sides are controlled to synchronously inflate and deflate so as to poke back and forth in the direction vertical to the occiput muscle fibers and act on positive reaction points such as muscle gaps and the initiation points of muscle ligaments at the distribution positions of the occiput massage air bags, so that the massage effects of spasmolysis, pain relieving, adhesion decomposition and muscle tendon arrangement on the occiput can be achieved.
Further, the pillow massage air bags positioned on two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be inflated synchronously, and the single duration of inflation of the pillow massage air bags is 10-15 s; the time for maintaining the inflated state after the pillow massage air bag is inflated is 10-30 s, and the preferred value is 30s. This control step can realize stirring upwards stretching of occipital portion, fills the soft tissue that pneumatic action direct action acted on occipital portion through controlling both sides occipital portion massage gasbag to fill in step, stirs that stretch the action is mitigator and go on continuously, can play good effect of relaxing the muscles and tendons spasmolysis to the accessible is stirred upwards to the occipital portion and is stretched to increase the intervertebral space, thereby can alleviate the pathological symptoms that leads to because intervertebral space is narrow.
Further, the air bag inflation and deflation mechanism controls the pillow massage air bag positioned on one side of the massage air bag component to be inflated, then the pillow massage air bag positioned on the other side of the massage air bag component is controlled to be inflated, and the inflated pillow massage air bag starts to be deflated; the single duration time of the inflation of the pillow massage air bag is 2-3 s, the total duration time of the inflation and deflation actions of the pillow massage air bag is 20-40 s, and the optimal value is 30s. The control step can act on the lateral recess of the occiput on the lateral side of the head through the inflation action of the single-side occipital massage air bag, push the occipital part of the user from the lateral side, enable the head of the user to rotate towards the other side, enable the head of the user to rotate left and right through the circular inflation and deflation actions of the two-side occipital massage air bags, and realize the massage effects of relaxing spastic muscles and recovering and keeping the joint movement range.
Further, the pillow massage air bags positioned at two sides of the massage air bag assembly are controlled by the air bag inflation and deflation mechanism to alternately circulate for inflation and deflation, the pillow massage air bag at one side is inflated and maintains the inflation state for 10 to 15s and then is deflated, and then the pillow massage air bag at the other side of the massage air bag assembly is inflated again and maintains the inflation state for 10 to 15s and then is deflated; the whole duration of the inflation and deflation action of the pillow massage air bag is 20-40 s, and the preferred value is 30s. The control step can realize the traction of two sides of the neck of the user, the pillow massage air bags on two sides are controlled to alternately perform inflation and deflation actions, the pillow massage air bag on one side is inflated to push the head of the user to turn to the other side, the inflation state is kept, the head of the user keeps turning for a period of time and then deflates, the pillow massage air bag on the other side is inflated again to reversely push the head of the user, muscle groups such as trapezius muscles, breast papillary muscles and the like on two sides of the neck can be drawn, the massage effects of preventing soft tissues from contracture, adjusting muscle tension, preventing muscles from adhesion, improving the moving range of lateral bending of the neck and the like are achieved, meanwhile, the unbalanced stability of muscles around the neck can be improved, the body state of the user is promoted to be kept normal, and the risk of chronic pain is reduced.
Further: the step of hot compress is carried out by controlling the heating electrode plates to generate heat, the user muscles can be subjected to hot compress and electrical stimulation through the heating electrode plates arranged on the massage air bag assembly, the tension degree of the neck muscles is relieved through hot compress in the step, the neck muscles are relaxed to relieve the neck fatigue, and the blood circulation of the neck is improved, the metabolism is promoted and the recovery is promoted through hot compress; the hot compress and the massage action of the massage air bag component act simultaneously, so that better massage experience can be brought to a user; according to the optimal temperature adaptation range of a human body, the hot compress temperature of the heating electrode slice is set to be 37-43 ℃, and the hot compress duration time is 2-5 min.
The invention has the beneficial effects that: the neck massage instrument is provided with the neck massage air bag and the pillow massage air bag, and the massage air bag component can realize various massage actions and combination of the massage actions by controlling the linkage and matching of the two massage air bags, so that various massage manipulations such as kneading, poking, clicking, lateral bending, poking and stretching, drafting and the like can be simulated, the massage instrument not only can directly massage and relax the massage part of a user, but also can pull peripheral muscle groups to perform passive movement, thereby improving the massage effect and the massage comfort level, expanding the action range of the massage, and playing the effects of improving blood circulation, relieving muscle spasm, adjusting joint disorder, recovering neck movement and the like on the basis of realizing the massage and relaxation.
Drawings
FIG. 1 is a top view of the multi-bladder neck massager configuration of the present invention;
FIG. 2 is a schematic diagram of the neck massage air bags and the pillow massage air bags corresponding to the human body in the multi-air-bag neck massage apparatus shown in FIG. 1;
FIG. 3 is a schematic view of the multi-bladder neck massager of FIG. 1 in use;
FIG. 4 is a flow chart of an embodiment of a multi-balloon neck massager control method of the present invention.
Labeled as: 100-massage apparatus shell, 200-head supporting component, 310-neck massage air bag, 320-pillow massage air bag and 400-heating electrode plate.
Detailed Description
In order to facilitate understanding of the invention, the invention is further described below with reference to the drawings and the examples.
In the description of the present invention, it should be noted that the terms "front", "back", "left", "right", "upper", "lower", "inner", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description, and do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
As shown in fig. 1, the multi-airbag neck massager disclosed in the present embodiment includes a massager housing 100, and a head support assembly 200 and a massage airbag assembly disposed on the massager housing 100, wherein the massager housing 100 is used as a mounting base for the head support assembly 200 and the massage airbag assembly, the head support assembly 200 is used for supporting the head of a user during massage, and the massage airbag assembly directly acts on the pillow and neck of the user to massage the user.
As shown in fig. 1 and 2, the massage airbag assembly includes a neck massage airbag 310 and a pillow massage airbag 320, the neck massage airbag 310 and the pillow massage airbag 320 are inflated and deflated under the control of the inflation and deflation mechanism, the inflation and deflation mechanism is composed of an air pump and a control system, the air pump is disposed inside the massage apparatus casing 100 and is communicated with each massage airbag in the massage airbag assembly through an air pipeline to supply air to the massage airbag, the control system controls the inflation and deflation actions of each massage airbag by controlling the opening and closing of the air pump, the air pump and the control system are mature prior art in the neck massage apparatus, and details are not repeated here. The neck massage air bag 310 and the pillow massage air bag 320 are disposed at positions corresponding to the neck and pillow positions of the human body. Specifically, the massage airbag assembly is positioned right in front of the head support assembly 200, at least one neck massage airbag 310 and at least one pillow massage airbag 320 are respectively arranged on both sides of a center connecting line of the massage airbag assembly and the head support assembly 200, and the pillow massage airbag 320 is positioned between the head support assembly 200 and the neck massage airbag 310; as shown in fig. 1 and 2 as an example, a neck massage air bag 310 and a pillow massage air bag 320 are respectively provided at both sides of a center connecting line of the massage air bag module and the head support module 200.
In addition, in order to increase the function and massage effect of the multi-air bag neck massage apparatus, a heating electrode plate 400 is added to the massage air bag assembly, and the heating electrode plate 400 can be selectively arranged on the neck massage air bag 310 or the pillow massage air bag 320, or can be arranged on both the neck massage air bag 310 and the pillow massage air bag 320. As shown in fig. 1, in this embodiment, the heating electrode pads 400 are provided on the two neck massage airbags 310. Because the neck has the physiological curvature which is convex ahead, most people in modern life work at a desk for a long time, which causes the muscle tension of the neck, the stability damage of the spine and the unbalance of a power device, leads to the physiological curvature of the neck becoming straight, the neck pain and the stiffness and then causes the cervical spondylosis for a long time; through setting up the electrode slice 400 that generates heat, can carry out electro photoluminescence and hot compress to superficial muscle such as the neck jia qianji cave and trapezius muscle, the shoulder blade levator muscle that the neck rear distributes, through to the relaxation of muscle, to the stimulation of acupuncture point accelerate blood circulation, can promote the recovery of neck, play the effect of health care on the basis that the massage is relaxed.
According to human anatomy, there are many muscle attachment points on the occipital bone of the occipital portion of the human body, wherein the sub-occipital muscle is located in the deep layer behind the head and neck region, and these short and thick muscles affect the control of the detailed actions of the atlas joint and the atlantoaxial joint, which are important for performing the functions of vision, hearing, vestibule, etc., and when these muscles are tensed or damaged, they cause symptoms such as neck pain, problems in movement, and vertigo. In this embodiment, the neck massage air bags 310 and the occipital massage air bags 320 are provided, so that when the head of the user is leaned on the multi-air-bag neck massage apparatus to perform massage, the neck massage air bags 310 and the occipital massage air bags 320 on the left and right sides can respectively correspond to the left and right depressions above the neck and on the two sides of the occipital bone of the human body, and the massage manipulation can be simulated by the inflation and deflation actions of the neck massage air bags 310 and the occipital massage air bags 320. Because there are more acupuncture points respectively above the neck, and muscle, scalp here are thinner, and the experience of pressing that traditional mechanical massage brought is not good, adopts neck massage gasbag 310 and pillow massage gasbag 320 simulation massage gimmick can improve the comfort level when the user massages.
In consideration of the distribution of muscles and acupoints on the neck of a human body and the presence of raised spinous processes of cervical vertebrae on the neck, in this embodiment, the two neck massage airbags 310 located on both sides of the central line connecting the massage airbag module and the head support module 200 are spaced apart from each other, so that the neck massage airbags 310 avoid the spinous processes of cervical vertebrae, the influence of the cervical vertebrae on the inflation of the neck massage airbags 310 due to the pressure of the cervical vertebrae on the neck massage airbags 310 is avoided, and the width of the gap between the two neck massage airbags 310 is set to be 2 to 3cm according to the physiological size range of the spinous processes of cervical vertebrae.
Because the neck and the pillow of the human body have physiological radians, in order to make the fitness between the massage airbag assembly and the massage part better, in this embodiment, the surface of the neck massage airbag 310 and the pillow massage airbag 320 which are directly contacted with the skin of the human body, i.e. the upper surface, is set to be a cambered surface, and the bag diameter of the massage airbag can be further limited, so that the bag diameters of the neck massage airbag 310 and the pillow massage airbag 320 are gradually increased from one end close to the center of the massage airbag assembly to the other end, thereby the upper surface of the massage airbag assembly forms a U-shaped surface with the middle sinking and the two ends upwarping. When the occiput and the neck of the user are contacted with the massage air bag component, the U-shaped surface of the massage air bag component can be matched with the physiological arc surface of the massage part of the user, the massage part of the user is covered to the maximum extent, so that the thrust in multiple directions can be applied to the massage part of the user, not only can all acupuncture points and muscles of the occiput and the neck be massaged, but also the thrust applied in multiple directions can form oblique upward resultant force to more effectively pull and stretch the neck of the user. Correspondingly, the heating electrode plate 400 preferably adopts a flexible heating electrode plate made of materials such as silica gel and the like as a base material, and can be matched with the surface radian of the massage airbag module. When the neck massage air bag 310 is inflated, the heating electrode plate 400 can be actively attached to the massage part of the user, so that the massage part of the user can be fully contacted with the electrode, and the massage effects of hot compress and electric stimulation are better.
The pillow massage airbags 320 at the two sides of the massage airbag module can be arranged into a plurality of layers, for example, each side is respectively provided with two pillow massage airbags 320 which are overlapped up and down, the pillow massage airbags 320 which are overlapped at the same side have the same shape and size, and the pillow massage airbags 320 at the same side are wrapped into a whole by adopting a wrapping layer; after the combination of a plurality of occipital massage airbags 320 is adopted, the lifting height of the two sides of the massage airbag assembly can be improved, and the drafting degree of the neck muscles of a user is improved. Combine into a stable whole with a plurality of occipitalia massage air bags 320 through the parcel layer to the effect direction of thrust is restricted to a plurality of occipitalia massage air bags 320 inflation in-process, stability when having improved occipitalia massage air bag 320 and receiving human head pressure has simultaneously improved occipitalia massage air bag 320, can effectively promote occipitalia massage air bag 320's work efficiency.
In the embodiment, the control method of the multi-airbag neck massage apparatus is adopted, and the airbag inflation and deflation mechanism is used for controlling the inflation and deflation sequence and the inflation and deflation duration time of the neck massage airbag 310 and the pillow massage airbag 320, so that the neck massage airbag 310 and the pillow massage airbag 320 are linked to realize different massage actions, simulate different massage techniques and achieve different massage effects; specifically, the following massage methods can be realized:
1. pressing and kneading the neck
The neck massage air bags 310 positioned at the two sides of the massage air bag assembly are controlled to be synchronously and slowly inflated and deflated, the single duration time of the inflation action and the deflation action is 1-2 s, and the neck massage air bags 310 are inflated to the maximum preset pressure value and are deflated after being maintained for 2-3 s; when the multi-air bag neck massager is started and enters a massage state, the actions are circularly carried out, and the total duration time of the process is 30s.
2. Pressing and kneading the occiput
Controlling the pillow massage air bags 320 positioned at the two sides of the massage air bag component to alternately and circularly inflate and deflate, wherein the single duration time of the inflation action and the deflation action is 1-2 s; the unilateral occipital massage air bag 320 is inflated to the maximum preset pressure value and is deflated after being maintained for 2 to 3 seconds; when the air is discharged, the pressure cannot be released immediately, the air bag 320 for massaging the pillow part on the opposite side needs to keep supporting the head so as to discharge air within 1-2 s, and then the air bag 320 for massaging the pillow part on the other side repeats the actions; the overall duration of the link is 30s.
3. Pressing and kneading the neck in coordination with the flexion and extension of the neck
Controlling the neck massage air bags 310 positioned at the two sides of the massage air bag assembly to synchronously and slowly inflate and deflate, wherein the single duration time of the inflating action and the deflating action of the neck massage air bags 310 is 1-2 s, and the neck massage air bags 310 begin to deflate after being inflated to the maximum preset pressure value and maintained for 2-3 s;
meanwhile, the pillow massage air bags 320 positioned at the two sides of the massage air bag assembly are controlled to be synchronously and slowly inflated and deflated, the pillow massage air bags 320 are inflated to the maximum preset pressure value and then immediately deflated without stopping, and the single duration of the inflation action and the deflation action of the pillow massage air bags 320 is 2-3 s;
the above-described actions of the neck massage air bag 310 and the pillow massage air bag 320 are circulated, and the overall duration of the process is 1min.
4. Pressing and kneading the neck in coordination with lateral bending of the neck
Controlling the neck massage air bags 310 positioned at the two sides of the massage air bag assembly to synchronously and slowly inflate and deflate, wherein the single duration of the inflating action and the deflating action of the neck massage air bags 310 is 1-2 s, and the neck massage air bags 310 begin to deflate after being inflated to the maximum preset pressure value and maintained for 2-3 s;
meanwhile, the pillow massage air bags 320 positioned at the two sides of the massage air bag assembly are controlled to alternately inflate and deflate, the single duration time of the inflating action and the deflating action of the pillow massage air bags 320 is 2-3 s, and when the pillow massage air bags 320 at one side are inflated, the deflating time of the pillow massage air bags 320 at the other side is consistent with the time;
the above-described actions of the neck massage air bag 310 and the pillow massage air bag 320 are circulated, and the overall duration of the process is 1min.
5. Kneading the neck with the pillow
Controlling the neck massage air bags 310 positioned at the two sides of the massage air bag assembly to synchronously and slowly inflate and deflate, wherein the single duration time of the inflating action and the deflating action of the neck massage air bags 310 is 1-2 s, and the neck massage air bags 310 begin to deflate after being inflated to the maximum preset pressure value and maintained for 2-3 s;
meanwhile, the pillow massage air bags 320 positioned at the two sides of the massage air bag assembly are controlled to alternately inflate and deflate, the single duration time of the inflating action and the deflating action of the pillow massage air bags 320 is 2-3 s, the single-side pillow massage air bags 320 begin to deflate after being inflated to the maximum preset pressure value, the pressure cannot be immediately released during deflation, the side pillow massage air bags 320 need to keep supporting the head to deflate in 1-2 s, and then the other side pillow massage air bags 320 repeat the actions;
the above-described actions of the neck massage air bag 310 and the pillow massage air bag 320 are circulated, and the overall duration of the process is 1min.
6. Cervical poking method
The neck massage air bags 310 positioned at the two sides of the massage air bag assembly are controlled to be synchronously and slowly inflated and deflated, the single duration time of the inflation action of the neck massage air bags 310 is 2-3 s, the single duration time of the deflation action is 1-2 s, and the total duration time of the inflation and deflation actions of the neck massage air bags 310 is 90s.
7. Dial the occiput
The pillow massage air bags 320 positioned at the two sides of the massage air bag assembly are controlled to be synchronously and slowly inflated and deflated, the single duration time of the inflation action of the pillow massage air bags 320 is 2-3 s, the single duration time of the deflation action is 1-2 s, and the total duration time of the inflation and deflation actions of the pillow massage air bags 320 is 90s.
8. Is pulled upwards
Controlling the pillow massage air bags 320 positioned at the two sides of the massage air bag assembly to synchronously inflate and deflate, wherein the single duration time of the inflation action of the pillow massage air bags 320 is 10-15 s; the overall duration of the inflation action of the pillow massage bladder 320 was 30s.
9. Head capable of rotating left and right
Controlling the pillow massage air bag 320 positioned at one side of the massage air bag assembly to be inflated, then controlling the pillow massage air bag 320 positioned at the other side of the massage air bag assembly to be inflated, and simultaneously beginning to deflate the inflated pillow massage air bag 320; the single duration of the inflation action of the pillow massage air bag 320 is 2-3 s, and the total duration of the inflation and deflation action of the pillow massage air bag 320 is 30s.
10. Bilateral neck stretching
Controlling the pillow massage air bag 320 positioned at the left side or the right side of the massage air bag component to inflate, inflating the pillow massage air bag 320 at one side and maintaining the inflated state for 10-15 s and then deflating, and then inflating the pillow massage air bag 320 positioned at the other side of the massage air bag component and maintaining the inflated state for 10-15 s and then deflating; the pillow massage air bags 320 on both sides alternately perform the inflation and deflation actions, and the total duration of the inflation and deflation actions of the pillow massage air bags 320 is 30s.
11. Hot compress
Covering the upper surfaces of the neck massage air bags 310 positioned at the two sides of the massage air bag assembly with heating electrode plates 400, starting the heating electrode plates 400 to heat, wherein the hot compress temperature of the heating electrode plates 400 is 37-43 ℃, and the hot compress duration time is 2min.
The massage method realized by the control method of the multi-air-bag neck massage instrument can be selected alternatively according to the requirements of users, and can also be combined and used in a linkage manner, and as shown in fig. 4, the massage steps are sequentially carried out by the massage flow of the multi-air-bag neck massage instrument.
The whole massage process is designed into three major stages according to the principle of traditional Chinese medicine massage, namely a relaxation manipulation, an adjustment manipulation and an ending manipulation.
Specifically, in the relaxing technique, the user is positioned in the position of neck relaxation, and the neck and the occiput of the user are treated by neck and occiput respectively by neck and occiput according to the kneading method, and the passive movement of neck flexion and extension and neck lateral flexion is simultaneously matched for 3-5 min; kneading Fengchi acupoint, tianzhu acupoint, ashi acupoint, etc. with an kneading method for 30s, and flicking spasm muscle with a flicking method for 3min.
Specifically, in the adjustment technique, the user naturally relaxes the muscles of the neck and neck, slowly extends the neck and neck upwards, and rotates the head of the user 5 times left and right respectively to move the small joints of the cervical vertebrae.
Specifically, in the ending of the manipulations, the user slightly pushes the muscles on the occiput and the two sides of the cervical vertebra for 1-2 min; then, carrying out hot compress on the neck pillow part of the user; after the user finishes massaging, the user can perform point kneading on the stiff neck points between the metacarpals of the user, and the effects of point pressing and meridian dredging are achieved by matching with neck movement.
Claims (16)
1. Many gasbags neck massager, including massager casing (100), be provided with head supporting component (200) on massager casing (100), still fill gassing mechanism, its characterized in that with the gasbag that sets up in massager casing (100) on massage gasbag subassembly and the setting on massager casing (100): the massage air bag components are a neck massage air bag (310) capable of being inflated and deflated and an occipital massage air bag (320) capable of being inflated and deflated, two sides of a central connecting line of the massage air bag components and the head support component (200) are respectively provided with at least one neck massage air bag (310) and at least one occipital massage air bag (320), and the occipital massage air bag (320) is located between the head support component (200) and the neck massage air bag (310); the neck massage air bag (310) and/or the pillow massage air bag (320) are/is provided with a heating electrode plate (400).
2. The multi-balloon neck massager of claim 1 wherein: gaps are arranged between the two neck massage air bags (310) and/or between the two pillow massage air bags (320) which are positioned at the two sides of the central connecting line of the massage air bag assembly and the head support assembly (200), and the width of the gap is 2-3 cm.
3. The multi-balloon neck massager of claim 1 wherein: the upper surfaces of the neck massage air bag (310) and the pillow massage air bag (320) are cambered surfaces; the heating electrode plates (400) are flexible heating electrode plates, and the heating electrode plates (400) are attached to the upper surfaces of the neck massage air bags (310) and/or the pillow massage air bags (320).
4. The multi-balloon neck massager of claim 3 wherein: the diameter of the neck massage air bag (310) and/or the pillow massage air bag (320) is gradually increased from one end close to the center of the massage air bag component to the other end, so that the upper surface of the massage air bag component at the corresponding position forms a U shape.
5. The multi-balloon neck massager of claim 1 wherein: at least two occipital massage air bags (320) are respectively arranged on two sides of the massage air bag assembly, and the at least two occipital massage air bags (320) positioned on the same side of the massage air bag assembly are wrapped into a whole by a wrapping layer; at least two pillow massage air bags (320) in the same wrapping layer are arranged in an up-and-down overlapping mode.
6. The control method of the multi-air-bag neck massager, which adopts the multi-air-bag neck massager of any one of claims 1 to 5, is characterized in that: the inflation and deflation sequence and the inflation and deflation duration of the neck massage air bag (310) and/or the pillow massage air bag (320) are controlled by the air bag inflation and deflation mechanism to push the neck and/or the pillow of the user, so that the cervical vertebra of the user is anteverted and/or the head of the user swings left and right.
7. The control method of the multi-balloon neck massager of claim 6 wherein: the neck massage air bags (310) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be inflated and deflated in a synchronous cycle, and the single duration time of inflation and deflation of the neck massage air bags (310) is 1-2 s; the neck massage air bag (310) is inflated to the maximum preset pressure value and is deflated after being maintained for 2 to 3 seconds; the total duration time of the inflation and deflation actions of the neck massage air bag (310) is 30-60 s;
or the pillow massage air bags (320) positioned at the two sides of the massage air bag assembly are controlled by the air bag inflation and deflation mechanism to alternately circulate for inflation and deflation, and the single duration time of inflation and deflation of the pillow massage air bags (320) is 1-2 s; the unilateral occipital massage air bag (320) is inflated to the maximum preset pressure value and is deflated after being maintained for 2 to 3 seconds; the total duration time of the inflation and deflation actions of the pillow massage air bag (320) is 30 to 60 seconds.
8. The control method of the multi-balloon neck massager of claim 7 wherein: the neck massage air bags (310) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation, and meanwhile, the pillow massage air bags (320) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation; the neck massage air bag (310) is inflated to the maximum preset pressure value and is deflated after being maintained for 2-3 s, and the pillow massage air bag (320) is inflated to the maximum preset pressure value and is deflated; the single duration time of the inflation and deflation of the neck massage air bag (310) is 1-2 s, and the single duration time of the inflation and deflation of the pillow massage air bag (320) is 2-3 s; the total duration of the inflation and deflation actions of the neck massage air bag (310) and the pillow massage air bag (320) is 1-2 min.
9. The control method of the multi-balloon neck massager of claim 7 wherein: the neck massage air bags (310) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation, and meanwhile, the pillow massage air bags (320) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be alternately circulated for inflation and deflation; the neck massage air bag (310) is inflated to the maximum preset pressure value and is deflated after being maintained for 2-3 s, and the pillow massage air bag (320) is inflated to the maximum preset pressure value and is deflated; the single duration time of the inflation and deflation of the neck massage air bag (310) is 1-2 s, and the single duration time of the inflation and deflation of the pillow massage air bag (320) is 2-3 s; the total duration of the inflation and deflation actions of the neck massage air bag (310) and the pillow massage air bag (320) is 1-2 min.
10. The control method of the multi-airbag neck massager as claimed in claim 7, wherein: the neck massage air bags (310) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be synchronously circulated for inflation and deflation, and meanwhile, the pillow massage air bags (320) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be alternately circulated for inflation and deflation; the neck massage air bag (310) is inflated to the maximum preset pressure value and is maintained for 2-3 s, then the air release is started, and the pillow massage air bag (320) is inflated to the maximum preset pressure value and is maintained for 2-3 s, then the air release is started; the single duration of the inflation and deflation of the neck massage air bag (310) is 1-2 s, and the single duration of the inflation and deflation of the pillow massage air bag (320) is 1-2 s; the total duration of the inflation and deflation actions of the neck massage air bag (310) and the pillow massage air bag (320) is 1-2 min.
11. The control method of the multi-airbag neck massager as claimed in claim 6, wherein: the neck massage air bags (310) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be inflated and deflated synchronously and circularly, the single duration of inflation of the neck massage air bags (310) is 2-3 s, and the single duration of deflation is 1-2 s; the total duration time of the inflation and deflation actions of the neck massage air bag (310) is 1-2 min.
12. The control method of the multi-balloon neck massager of claim 6 wherein: the pillow massage air bags (320) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to be inflated and deflated in a synchronous cycle, the single duration time of inflation of the pillow massage air bags (320) is 2-3 s, and the single duration time of deflation of the pillow massage air bags (320) is 1-2 s; the total duration time of the inflation and deflation actions of the pillow massage air bag (320) is 1-2 min.
13. The control method of the multi-balloon neck massager of claim 6 wherein: the pillow massage air bags (320) positioned at the two sides of the massage air bag component are controlled to be inflated synchronously through the air bag inflation and deflation mechanism, and the single duration time of inflation of the pillow massage air bags (320) is 10-15 s; the time for maintaining the inflated state after the pillow massage air bag (320) is inflated is 10-30 s.
14. The control method of the multi-balloon neck massager of claim 6 wherein: the pillow massage air bag (320) positioned at one side of the massage air bag component is controlled to be inflated through the air bag inflation and deflation mechanism, then the pillow massage air bag (320) positioned at the other side of the massage air bag component is controlled to be inflated, and the inflated pillow massage air bag (320) begins to deflate; the single duration of the inflation of the pillow massage air bag (320) is 2 to 3s, and the total duration of the inflation and deflation actions of the pillow massage air bag (320) is 20 to 40s.
15. The control method of the multi-balloon neck massager of claim 6 wherein: the pillow massage air bags (320) positioned at the two sides of the massage air bag component are controlled by the air bag inflation and deflation mechanism to alternately circulate for inflation and deflation, the pillow massage air bag (320) at one side is inflated and maintains the inflation state for 10 to 15s and then is deflated, and then the pillow massage air bag (320) at the other side of the massage air bag component is inflated again and maintains the inflation state for 10 to 15s and then is deflated; the total duration time of the inflation and deflation actions of the pillow massage air bag (320) is 20 to 40s.
16. The control method of the multi-balloon neck massager of any one of claims 6 to 15 wherein: the method also comprises the step of controlling the heating electrode plates (400) to generate heat for hot compress, wherein the hot compress temperature of the heating electrode plates (400) is 37-43 ℃, and the hot compress duration time is 2-5 min.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114587957A (en) * | 2022-03-07 | 2022-06-07 | 中国人民解放军西部战区总医院 | Cervical spondylosis therapeutic machine based on manual rehabilitation and using method thereof |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114587957A (en) * | 2022-03-07 | 2022-06-07 | 中国人民解放军西部战区总医院 | Cervical spondylosis therapeutic machine based on manual rehabilitation and using method thereof |
CN114587957B (en) * | 2022-03-07 | 2024-02-23 | 中国人民解放军西部战区总医院 | Cervical spondylosis therapeutic machine based on manual rehabilitation |
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