CN110897846A - Massage device - Google Patents

Abstract

The present invention provides a massager, comprising: the control mechanism comprises a shell, the shell is a hard shell, the shell is provided with a wearing groove matched with the patella of a user, and an opening of the wearing groove of the shell is abutted against the periphery of the patella; the fixing mechanism is connected with the shell and is wound and fixed on the knee area of the user together with the shell so that the patella of the user is contained in the wearing groove, and the fixing mechanism is provided with a massage air bag corresponding to the knee area. Because the opening part of the wearing groove of the casing abuts against the periphery of the patella and the casing is a hard casing, after the massage air bag expands, the fixing mechanism inevitably exerts pulling force on the two ends of the casing, the pulling force is transmitted to the peripheral region of the patella, the casing can not directly extrude the patella, and the sitting or walking of a user can not be influenced, so that the patella is prevented from being extruded improperly to generate bad massage effect.

Description

Massage device

Technical Field

The invention belongs to the technical field of health care products, and particularly relates to a massager.

Background

Along with the acceleration of the pace of life and work of people, urban life brings people not only a high-quality life, but also gradually increased body diseases, so that people pay attention to yoga maintenance.

People are easy to fatigue and damage legs in daily exercise, the legs are often required to be massaged, and the control part of the existing massager for massaging the legs needs to be operated by hands, so that the massager is very inconvenient.

Disclosure of Invention

The invention aims to provide a massager, and aims to solve the technical problem that a control part of the massager in the prior art is inconvenient to operate by being held by a hand.

The present invention is achieved as such, a massager comprising:

the control mechanism comprises a shell, the shell is a hard shell, the shell is provided with a wearing groove matched with the patella of a user, and an opening of the wearing groove of the shell is abutted against the periphery of the patella;

and the fixing mechanism is connected with the shell and is wound and fixed on the knee area of the user together with the shell so that the patella of the user is contained in the wearing groove, and the fixing mechanism is provided with a massage air bag corresponding to the knee area.

Furthermore, the fixing mechanism is a flexible strip-shaped structure, and connecting parts connected with the fixing mechanism are arranged at two ends of the casing.

Furthermore, the massager also comprises a controller connected with the shell and a control key electrically connected with the controller and used for transmitting commands to the controller, and the controller is used for controlling the massage air bag to inflate or deflate.

Further, the massager further comprises a leg massage mechanism, wherein the leg massage mechanism comprises a leg air bag structure which is made of flexible materials, surrounds the periphery of the leg and can be used for massaging the leg, and a leg inflation and deflation component which is connected to the leg air bag structure and is used for inflating or deflating the leg air bag structure so that the leg air bag structure massages the leg.

Further, shank gasbag structure has shank massage chamber, shank massage chamber include with shank fill the shank runner chamber that the gassing component is linked together, with shank runner chamber is linked together and encircles in the shank outer layer chamber of shank week side, shank gasbag structure including connect in the shank fills the gassing component and has the shank water conservancy diversion diaphragm in shank runner chamber and connect in shank water conservancy diversion diaphragm and encircle in shank week side and have the shank outer layer diaphragm in shank outer layer chamber, the shank fill the gassing component can to shank runner chamber is inflated and is got into the air current in shank runner chamber can get into shank outer layer chamber.

Furthermore, the leg massage cavity also comprises a leg inner cavity which is communicated with the leg outer cavity and is positioned between the leg outer cavity and the leg, the leg inflation and deflation component can inflate the leg flow passage cavity, and the airflow entering the leg flow passage cavity can flow through the leg outer cavity and enter the leg inner cavity;

the leg airbag structure further comprises a leg inner-layer membrane which is arranged on the inner side of the leg outer-layer membrane and is arranged at an interval with the leg outer-layer membrane, and a leg connecting piece which is used for connecting the leg outer-layer membrane and the leg inner-layer membrane, a leg outer-layer through hole communicated to the leg outer-layer cavity is formed in the inner side of the leg outer-layer membrane, the leg inner-layer membrane is provided with the leg inner-layer cavity, a leg inner-layer through hole communicated to the leg inner-layer cavity is formed in the outer side of the leg inner-layer membrane, and the leg connecting piece is used for communicating the leg inner-layer through hole with.

Further, shank inlayer diaphragm is equipped with a plurality ofly and arranges along shank circumference, shank inlayer diaphragm is including the quadrangle portion that is parallelogram, adjacent two the quadrangle portion is axisymmetric setting.

Further, the position of the leg inner layer through hole is deviated from the central point position of the leg inner layer membrane.

Further, shank massage cavity still have with shank inlayer chamber is linked together and is located protruding chamber between shank outer layer chamber and the shank, shank inlayer diaphragm still including connect in the avris of quadrangle portion has the bellying in protruding chamber, shank inlayer through-hole is located the bellying.

Further, the fixation mechanism includes a popliteal balloon structure made of a flexible material, a popliteal inflation and deflation member connected to the popliteal balloon structure and configured to inflate or deflate the popliteal balloon structure.

Further, popliteal gasbag structure has the laminating chamber, the laminating chamber include with the popliteal runner chamber that the popliteal component was linked together fills, with the popliteal skin chamber that popliteal runner chamber is linked together, popliteal gasbag structure including connect in the popliteal fills the gassing component and has the popliteal water conservancy diversion diaphragm of popliteal runner chamber and connect in popliteal water conservancy diversion diaphragm is located popliteal department and has the outer diaphragm of popliteal skin chamber.

Further, the fit cavity further comprises a popliteal fossa inner cavity communicated with the popliteal fossa outer cavity and positioned between the popliteal fossa outer cavity and the popliteal fossa and a popliteal fossa massage cavity communicated with the popliteal fossa inner cavity and positioned between the popliteal fossa inner cavity and the popliteal fossa, the popliteal fossa inflation and deflation component can inflate the popliteal fossa flow passage cavity, air flowing into the popliteal fossa flow passage cavity can flow through the popliteal fossa outer cavity to enter the popliteal fossa inner cavity, and then enters the popliteal fossa massage cavity;

the popliteal air bag structure further comprises a popliteal inner membrane arranged on the inner side of the outer membrane of the popliteal and arranged at a distance from the outer membrane of the popliteal, a popliteal connecting piece used for connecting the outer membrane of the popliteal and the inner membrane of the popliteal, a popliteal massage membrane arranged on the inner side of the inner membrane of the popliteal and arranged at a distance from the inner membrane of the popliteal and a massage connecting piece used for connecting the outer membrane of the popliteal and the inner membrane of the popliteal, a popliteal outer through hole communicated with the outer cavity of the popliteal is arranged on the inner side of the outer membrane of the popliteal, the popliteal inner membrane is provided with the inner cavity of the popliteal, a first popliteal inner through hole communicated with the inner cavity of the popliteal is arranged on the outer side of the outer membrane of the popliteal, a second popliteal inner through hole communicated with the massage cavity is arranged on the inner side of the popliteal massage, the popliteal connection piece is used for communicating the first popliteal inner layer through hole with the popliteal outer layer through hole, and the massage connection piece is used for communicating the second popliteal inner layer through hole with the popliteal massage through hole.

Further, the control mechanism also comprises a physiotherapy sheet which is electrically connected with the controller and is used for performing physiotherapy on the knee joint, and the controller can control the physiotherapy sheet to be started or closed.

Compared with the prior art, the invention has the technical effects that: the control mechanism can be buckled at the patella by arranging the shell with the wearing groove, and is fixed at the knee area by the fixing mechanism. After the user wears the massager, the patella of the user is completely contained in the wearing groove, the opening of the shell wearing groove is abutted to the peripheral area of the patella, and the opening of the shell wearing groove is prevented from being abutted to the patella. The patella is a bone that can move freely up, down, left, and right in the knee region. When the massage air bag is in operation, the machine shell and the fixing mechanism are bound and fixed around the knees of a user, so that after the massage air bag is expanded, the fixing mechanism necessarily applies pulling force to two ends of the machine shell. Because the opening part of the wearing groove of the casing abuts against the periphery of the patella and the casing is a hard casing, after the casing is subjected to the tensile force of the fixing mechanism, the tensile force is transmitted to the peripheral area of the patella, and the casing can not directly extrude the patella, so that the sitting or walking of a user can not be influenced on one hand, and the patella can be prevented from being extruded improperly to generate a bad massage effect on the other hand.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments of the present invention or in the description of the prior art will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic perspective view of a massager provided in an embodiment of the present invention;

fig. 2 is a top view of a leg massage mechanism provided by an embodiment of the present invention;

FIG. 3 is a bottom view of the leg massage mechanism provided by the embodiment of the present invention;

fig. 4 is a side view of a leg massage mechanism provided by an embodiment of the present invention;

FIG. 5 is a top view of a securing mechanism provided by an embodiment of the present invention;

FIG. 6 is a side view of a securing mechanism provided by an embodiment of the present invention;

description of reference numerals:

10. a leg massage mechanism; 101. a leg runner cavity; 102. a leg outer cavity; 103. a leg inner cavity; 104. a bulge cavity; 11. a leg diversion membrane; 12. a leg air nozzle; 13. leg outer membrane; 130. outer layer through holes of the leg parts; 14. leg inner layer membrane; 140. inner layer through holes of the leg parts; 141. a quadrangular portion; 142. a boss portion; 20. a control mechanism; 201. a wearing groove; 21. a control key; 30. a fixing mechanism; 301. the popliteal channel cavity; 302. the popliteal outer cavity; 303. the popliteal cavity; 304. a popliteal massage cavity; 31. popliteal fossa flow-guiding membrane; 32. the outer membrane of the popliteal fossa; 33. the popliteal endophragm; 330. a through hole is arranged on the outer layer of the popliteal fossa; 34. a popliteal massage membrane; 340. the popliteal fossa massage through hole; 35. popliteal air nozzle

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments.

Referring to fig. 1, the present invention provides a massage apparatus including a leg massage mechanism 10 for performing leg massage, a control mechanism 20 for controlling the leg massage apparatus, and a fixing mechanism 30 for fixing the control mechanism 20 to a knee region.

The control mechanism 20 includes a casing, the casing is a bowl-shaped hard casing with an opening on one side, the casing is provided with a wearing groove 201 adapted to the patella of the user, and the opening of the wearing groove 201 abuts against the periphery of the patella. The shape and size of the wearing groove 201 are determined so as not to influence the standing and walking of people and not to scrape and grind the skin and meat of the leg.

The fixing mechanism 30 is connected to the housing and is fixed to the knee area of the user by being wound around the housing so that the patella of the user is received in the wearing groove 201, and the fixing mechanism 30 is provided with a massage airbag corresponding to the knee area. The massage air bag is provided with an air bag cavity capable of expanding. The balloon chambers may remain inflated to enable the securing mechanism 30 to tighten the sides of the housing in the worn state, making the securing mechanism 30 more adaptable to the knee area. Preferably, the fixing mechanism 30 is a flexible belt-shaped structure, the two ends of the casing are provided with connecting parts connected with the fixing mechanism 30, the fixing mechanism 30 can adjust the tightness of the fit between the casing and the knee region through the connection with the connecting parts, and the flexible belt-shaped structure increases the wearing comfort of the user and is convenient to store.

The present invention provides a housing having a wearing groove 201, so that the control mechanism 20 can be buckled at the patella and fixed at the knee region by the fixing mechanism 30. After the user wears the massager, the patella of the user is completely contained in the wearing groove 201, the opening of the casing wearing groove 201 abuts against the peripheral area of the patella, and the situation that the opening of the casing wearing groove 201 abuts against the patella to squeeze the patella is avoided. The patella is a bone that can move freely up, down, left, and right in the knee region. In operation, since the housing and the fixing mechanism 30 are bound and fixed around the knee of the user, the fixing mechanism 30 necessarily applies a pulling force to both ends of the housing after the massage airbag is inflated. Because the opening of the wearing groove 201 of the casing abuts against the periphery of the patella and the casing is a hard casing, after the casing is subjected to the pulling force of the fixing mechanism 30, the pulling force is transmitted to the peripheral area of the patella, the casing cannot directly squeeze the patella, and the sitting or walking of a user cannot be influenced, so that the patella is prevented from being extruded improperly to generate a bad massage effect.

It can be understood that, in this embodiment, the case is a hard case, which means that the portion of the case located at the opening of the wearing groove 201 is made of a rigid hard material, and other portions of the case may be made of other materials as long as the opening of the wearing groove 201 can bear the tensile force of the fixing mechanism 30 without deformation.

It will be appreciated that in addition to the popliteal bladder configuration, the fixation mechanism 30 may also include massage bladders positioned opposite the sides of the knee or other locations. If desired, the fixation mechanism 30 may be provided with no such popliteal bladder structure, but only with massage bladders corresponding to other locations of the knee.

Referring to fig. 2 to 4, the leg massage mechanism 10 includes a leg air bag structure made of a flexible material and surrounding the leg and capable of massaging the leg, and a leg inflation/deflation member connected to the leg air bag structure and configured to inflate or deflate the leg air bag structure so that the leg air bag structure massages the leg. The air inflation and deflation of the leg air bag structure are used for simulating the action of pressing the fingers of a person, so that the massage user can relieve the muscle pressure and the muscle fatigue. The leg inflating and deflating component can be an air supply device such as an air pump, an air valve is arranged on the air pump, and a leg air bag structure is provided with a leg air nozzle 12 connected with the air valve. The leg air bag structure is made of flexible material, so that after the leg air bag structure is inflated by the leg inflation and deflation component through the leg air nozzle 12, the leg air bag structure is expanded to generate extrusion force on the legs, thereby obtaining the massage effect.

Referring to fig. 1, the control mechanism 20 further includes a controller connected to the housing, a physiotherapeutic sheet electrically connected to the controller for performing a physiotherapy on the knee region, and a control key 21 electrically connected to the controller for transmitting a command to the controller. The controller is electrically connected with the leg inflation and deflation component and is used for controlling the leg inflation and deflation component to inflate or deflate the leg air bag structure. The controller can control the physiotherapy piece and carry out the physiotherapy to the knee region, and the physiotherapy piece will have the function of generating heat at least to alleviate the injury of patella. The controller is located inside the casing, and the control keys 21 may be keys or touch screen keys. The user can operate the control keys 21 by operating the controller, and the user transmits a command to the controller by operating the control keys 21, thereby achieving the massage of the leg portion by the leg massage mechanism 10 and the activation or deactivation of the physio-therapy sheet. Specifically, the controller includes electrical components such as circuit board, lithium cell, and the physiotherapy piece passes through the connecting wire and links to each other with the circuit board.

Referring to fig. 1, the fixing mechanism 30 may be a strap-shaped winding around the knee region, or a hoop-shaped pressing against the popliteal fossa, and may be made of an elastic material so as to adapt to the stretching of the human body during walking, and the knee region refers to the patella around the knee joint and the peripheral region of the popliteal fossa on the back side thereof. The casing is connected to the fixing mechanism 30, and the casing may be opened with a through hole so that the binding band-shaped fixing mechanism 30 can be wound and fixed and the tightness can be adjusted in time, specifically, the inner wall of the wearing groove 201 is provided with a plastic sheet or a silica gel sheet to adapt to the patella of different sizes and shapes. The fixing mechanism 30 may further include a cloth bag for wrapping the popliteal air bag structure and the silica gel sheet or the plastic sheet, so that the plastic sheet or the silica gel sheet can be firmly connected with the casing by the cloth cover.

Wherein, the leg massage mechanism 10 can be worn on the thigh of the human body and also can be worn on the calf of the human body, the fixing mechanism 30 is positively buckled on the patella or reversely buckled on the patella to enable the wearing groove 201 to be matched with the patella, and the fixing mechanism 30 can rotate according to the position of the leg massage mechanism 10. Preferably, the inner wall of the wearing groove 201 is provided with a silica gel sheet to adapt to wearing of knee joints with different sizes and shapes.

The control mechanism 20 of the invention can control the inflation and deflation components of the legs to inflate or deflate the leg air bag structure, thereby realizing the massage of the legs. The leg massage mechanism realizes the matching connection of the control mechanism 20 and the legs, avoids the inconvenience of holding the legs by hands of a user, does not occupy two hands, enables the user to rise and walk or sit and stand still and the like while massaging the legs by the leg massage mechanism 10, and realizes the carrying of the control mechanism 20 at any time.

It should be noted that the leg massage mechanism 10 can also be used for massaging the arms of the upper limbs, in which case the housing can be worn on the shoulders or elbows, but is not limited thereto.

Referring to fig. 2, further, the leg airbag structure has a leg massage cavity, the leg massage cavity includes a leg flow passage cavity 101 communicated with the leg inflation and deflation member, and a leg outer cavity 102 communicated with the leg flow passage cavity 101 and surrounding the leg, the leg airbag structure includes a leg flow guiding membrane 11 connected to the leg inflation and deflation member and having the leg flow passage cavity 101, and a leg outer membrane 13 connected to the leg flow guiding membrane 11 and surrounding the leg, and having the leg outer cavity 102, the leg membrane flow passage and the leg outer membrane 13 can be formed by hot pressing the inner and outer membrane sheets through the side, the leg inflation and deflation member can inflate the leg flow passage cavity 101, and the air flow entering the leg flow passage cavity 101 can enter the leg outer cavity 102. After the airflow enters the leg outer layer cavity 102, the leg outer layer membrane 13 is bulged and pressed against the leg, so that the pressing effect is achieved, and the leg fatigue is relieved.

Referring to fig. 3 to 4, further, the leg massage cavity further includes a leg inner cavity 103 communicating with the leg outer cavity 102 and located between the leg outer cavity 102 and the leg, the leg inflation and deflation component can inflate the leg channel cavity 101, and the airflow entering the leg channel cavity 101 can flow through the leg outer cavity 102 and enter the leg inner cavity 103;

the leg airbag structure further comprises a leg inner-layer membrane 14 arranged on the inner side of the leg outer-layer membrane 13 and spaced from the leg outer-layer membrane 13 and a leg connecting piece used for connecting the leg outer-layer membrane 13 and the leg inner-layer membrane 14, the inner side of the leg outer-layer membrane 13 is provided with a leg outer-layer through hole 130 communicated to the leg outer-layer cavity 102, the leg inner-layer membrane 14 is provided with a leg inner-layer cavity 103, the outer side of the leg inner-layer through hole 140 communicated to the leg inner-layer cavity 103 is provided with a leg inner-layer through hole 140, and the leg connecting piece is used for communicating the leg inner.

Like this the outer diaphragm 13 of shank just stacks up the setting with shank inlayer diaphragm 14, and outer diaphragm 13 of shank can support shank inlayer diaphragm 14 to press in the shank, and shank inlayer chamber 103 is inflated the back and is bloated to the inboard, has increased the thickness of shank gasbag structure for shank massage structure laminates in shank week side more, and is better to the extrusion effect of shank, and is more powerful to pressing of acupuncture point.

Referring to fig. 2 to 4, preferably, the leg inner layer membrane 14 is provided in plurality and arranged along the circumferential direction of the leg, the leg inner layer membrane 14 includes parallelogram-shaped portions 141, and two adjacent quadrangle-shaped portions 141 are arranged in axial symmetry. The parallelogram structure is used for simulating the squeezing direction of the thumbs of two hands when the human fingers press for massage, so that the massage feeling of a user is more real, and the comfort is increased. In the embodiment of the invention, four leg inner-layer membranes 14 are arranged at equal intervals along the circumferential direction of the legs, four leg outer-layer membranes 13 are arranged and stacked with the leg inner-layer membranes 14 respectively, and the shapes and the sizes of the leg outer-layer membranes are consistent with those of the leg inner-layer membranes 14 stacked with the leg outer-layer membranes.

Referring to fig. 2 to 4, preferably, the position of the leg inner through hole 140 is offset from the center point of the leg inner membrane 14. The leg inner layer through hole 140 is disposed at a position offset so as to prevent the leg airbag structure from being folded and air leakage or damage due to frequent bending of the leg connector. Preferably, the leg inner layer through hole 140 is located at one-third of the lateral width of the leg inner layer airbag. On the other hand, the leg inner layer through hole 140 with the eccentric design makes the eccentric position of the leg inner layer membrane 14 swell first when the airflow from the leg outer layer cavity 102 enters the leg inner layer cavity 103, when the leg inner layer cavity 103 is full of air, the swollen position moves to the central point of the parallelogram, namely the highest point position of the inner layer membrane moves, so that the leg inner layer membrane 14 moves to the massage position of the leg, the action of kneading and pushing the massage by the fingers of a person is simulated, and the leg massage mechanism 10 can simultaneously perform pressing and kneading actions, so that the massage is comfortable and powerful, the massage mode is enriched, and the blood circulation of the user is promoted. The user can obtain better massage effect.

Referring to fig. 2 to 3, further, the leg massage cavity further has a protruding cavity 104 communicating with the leg inner cavity 103 and located between the leg outer cavity 102 and the leg, the leg inner membrane 14 further includes a protruding portion 142 connected to the side of the quadrilateral portion 141 and having the protruding cavity 104, the protruding cavity 104 is inflated to swell the protruding portion 142, and the protruding portion 142 is used for simulating the shape of a human finger, so that the massage effect is closer to the real human hand massage effect. More preferably, the leg inner through-holes 140 are formed in the protrusions 142, so that the moving distance of the bulging position of the leg inner membrane 14 is increased, and the range of kneading the leg is increased, so that the user can feel a more comfortable massage experience.

Referring to fig. 5, further, the fixing mechanism 30 includes a popliteal balloon structure made of a flexible material, and a popliteal inflation/deflation member connected to the popliteal balloon structure and configured to inflate or deflate the popliteal balloon structure, the controller is electrically connected to the popliteal inflation/deflation member and configured to control the popliteal inflation/deflation member to inflate or deflate the popliteal balloon structure, and the popliteal balloon structure and the control mechanism 20 jointly encircle the knee region. The popliteal air bag structure is made of flexible materials, so the popliteal air bag structure is bulged to generate extrusion force to the popliteal through the popliteal air nozzle 35 after the popliteal air bag structure is inflated by the popliteal air bag structure, so that the pressing effect of the fixing structure and the knee region is increased, and the control mechanism 20 is prevented from dropping.

Referring to fig. 5, further, the popliteal balloon structure has a fitting cavity, the fitting cavity includes a popliteal flow passage cavity 301 communicated with the popliteal inflation and deflation component and a popliteal outer cavity 302 communicated with the popliteal flow passage cavity 301, and the popliteal balloon structure includes a popliteal flow guide membrane 31 connected to the popliteal inflation and deflation component and having the popliteal flow passage cavity 301, and a popliteal outer membrane 32 connected to the popliteal flow guide membrane 31 and located at the popliteal and having the popliteal outer cavity 302. The popliteal channel diaphragm and the popliteal outer-layer diaphragm 32 can be formed by hot pressing of an inner air sac membrane and an outer air sac membrane through the lateral side, the popliteal air charging and discharging component can charge air to the popliteal channel cavity 301, and air flow entering the popliteal channel cavity 301 can enter the popliteal outer-layer cavity 302. Airflow enters the outer cavity 302 of the popliteal fossa, and the outer membrane 32 of the popliteal fossa swells and is pressed against the popliteal fossa, and the air sac structure of the popliteal fossa can play a limiting effect relative to the depression of the legs, so that the position of the control mechanism 20 is fixed, and the muscle at the popliteal fossa can also play a role in relieving and massaging to a certain extent.

Referring to fig. 5 to 6, preferably, the fitting cavity further includes a popliteal inner cavity 303 communicated with the popliteal outer cavity 302 and located between the popliteal outer cavity 302 and the popliteal, and a popliteal massage cavity 304 communicated with the popliteal inner cavity 303 and located between the popliteal inner cavity 303 and the popliteal, wherein the popliteal inflation and deflation component can inflate the popliteal flow passage cavity 301, and the airflow entering the popliteal flow passage cavity 301 can flow through the popliteal outer cavity 302, enter the popliteal inner cavity 303 and enter the popliteal massage cavity 304;

the popliteal air bag structure further comprises a popliteal inner membrane 33 which is arranged at the inner side of the popliteal outer membrane 32 and is arranged at a distance from the popliteal outer membrane 32, a popliteal connecting piece for connecting the popliteal outer membrane 32 and the popliteal inner membrane 33, a popliteal massage membrane 34 which is arranged at the inner side of the popliteal inner membrane 33 and is arranged at a distance from the popliteal inner membrane 33, and a massage connecting piece for connecting the popliteal outer membrane 32 and the popliteal inner membrane 33, wherein a popliteal outer through hole 330 communicated with the popliteal outer cavity 302 is formed at the inner side of the popliteal outer membrane 32, the popliteal inner membrane 33 is provided with a popliteal inner cavity 303, a first popliteal inner through hole communicated with the popliteal inner cavity 303 is formed at the outer side of the popliteal inner membrane 33, a second massage nest inner through hole communicated with the popliteal massage cavity 304 is formed at the inner side of the popliteal membrane 34, the, the popliteal connection piece is used for communicating the first popliteal inner layer through hole with the popliteal outer layer through hole 330, and the massage connection piece is used for communicating the second popliteal inner layer through hole with the popliteal massage through hole 340. The popliteal air inflation and deflation component inflates air to the popliteal outer cavity 302 through the popliteal flow channel cavity 301, air flow enters the popliteal inner cavity 303 through the first popliteal inner through hole, and enters the popliteal massage cavity 304 through the second popliteal inner through hole, and the popliteal massage membrane 34 is enabled to be bulged. Preferably, the first popliteal inner layer through hole and the second popliteal inner layer through hole are staggered, so that the popliteal inner layer membrane 33 is fully bulged to heighten the height of the popliteal massage membrane 34.

Like this the outer diaphragm 32 of popliteal, the equal range upon range of setting of popliteal inlayer diaphragm 33 and popliteal massage diaphragm 34, the height of popliteal massage piece has been heightened to popliteal inlayer diaphragm 33 pad for the popliteal gasbag structure laminates with popliteal department more, and the outer diaphragm 32 of popliteal can support popliteal massage diaphragm 34 and press in popliteal department, and popliteal massage chamber 304 is inflated to the inboard drum play, has played the squeezing action to the popliteal, thereby can massage the acupuncture point of popliteal department. When the fit cavity is inflated to massage the popliteal fossa by the popliteal fossa air bag structure, the fixing mechanism 30 inevitably applies pulling force to the two ends of the machine shell, so that the machine shell is more tightly fitted with the knee region, and the machine shell is prevented from falling off.

In the embodiment of the invention, one outer membrane and one inner membrane of the popliteal fossa are respectively arranged and are in a long strip shape so as to be matched with the shape of the popliteal fossa, and the two massaging membranes of the popliteal fossa are used for matching with the concave position of the popliteal fossa after the massaging cavity of the popliteal fossa is inflated.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A massager, comprising:

the control mechanism comprises a shell, the shell is a hard shell, the shell is provided with a wearing groove matched with the patella of a user, and an opening of the wearing groove of the shell is abutted against the periphery of the patella;

and the fixing mechanism is connected with the shell and is wound and fixed on the knee area of the user together with the shell so that the patella of the user is contained in the wearing groove, and the fixing mechanism is provided with a massage air bag corresponding to the knee area.

2. The massager of claim 1, wherein said fixing means is a flexible band-like structure, and both ends of said housing are provided with connecting portions connected to said fixing means.

3. The massager of claim 1, further comprising a controller coupled to said housing and a control electrically connected to said controller for transmitting commands to said controller, said controller for controlling said massage bladder to inflate or deflate.

4. The massager of claim 1, further comprising a leg massage mechanism, said leg massage mechanism comprising a leg bladder structure made of a flexible material and surrounding a periphery of a leg and operable to massage the leg, a leg inflation and deflation member connected to said leg bladder structure and operable to inflate or deflate said leg bladder structure so that said leg bladder structure massages the leg.

5. The massager of claim 4, wherein said leg air bag structure has a leg massage cavity, said leg massage cavity comprises a leg flow passage cavity communicated with said leg inflation/deflation member, a leg outer layer cavity communicated with said leg flow passage cavity and surrounding around the leg, said leg air bag structure comprises a leg flow guiding membrane connected to said leg inflation/deflation member and having said leg flow passage cavity, and a leg outer layer membrane connected to said leg flow guiding membrane and surrounding around the leg and having said leg outer layer cavity, said leg inflation/deflation member is capable of inflating said leg flow passage cavity and the air flow entering said leg flow passage cavity is capable of entering said leg outer layer cavity.

6. The massager of claim 5, wherein said leg massage cavity further comprises a leg inner cavity in communication with said leg outer cavity and located between said leg outer cavity and a leg, said leg inflation and deflation member being capable of inflating said leg runner cavity and allowing airflow entering said leg runner cavity to flow through said leg outer cavity into said leg inner cavity;

the leg airbag structure further comprises a leg inner-layer membrane which is arranged on the inner side of the leg outer-layer membrane and is arranged at an interval with the leg outer-layer membrane, and a leg connecting piece which is used for connecting the leg outer-layer membrane and the leg inner-layer membrane, a leg outer-layer through hole communicated to the leg outer-layer cavity is formed in the inner side of the leg outer-layer membrane, the leg inner-layer membrane is provided with the leg inner-layer cavity, a leg inner-layer through hole communicated to the leg inner-layer cavity is formed in the outer side of the leg inner-layer membrane, and the leg connecting piece is used for communicating the leg inner-layer through hole with.

7. The massager according to claim 6, wherein the leg inner layer membrane is provided in plurality and arranged along the circumference of the leg, and the leg inner layer membrane comprises quadrilateral portions in the shape of a parallelogram, and two adjacent quadrilateral portions are arranged in axial symmetry.

8. The massager of claim 6, wherein said leg inner through hole is located offset from a center point of said leg inner membrane.

9. The massager of claim 6, wherein said leg massage cavity further has a convex cavity communicating with said leg inner cavity and located between said leg outer cavity and the leg, said leg inner membrane further includes a convex portion connected to a side of said quadrilateral portion and having said convex cavity, said leg inner through hole being located in said convex portion.

10. The massager of claim 1, wherein said securing mechanism comprises a popliteal balloon structure formed of a flexible material, a popliteal inflation and deflation member connected to said popliteal balloon structure and configured to inflate or deflate said popliteal balloon structure.

11. The massager of claim 10, wherein the popliteal air bag structure has a fitting cavity, the fitting cavity comprises a popliteal flow passage cavity communicated with the popliteal inflation and deflation component, a popliteal outer cavity communicated with the popliteal flow passage cavity, and the popliteal air bag structure comprises a popliteal flow guide membrane connected with the popliteal inflation and deflation component and provided with the popliteal flow passage cavity and a popliteal outer membrane connected with the popliteal flow guide membrane and positioned at the popliteal position and provided with the popliteal outer cavity.

12. The massager of claim 11, wherein the fitting cavity further comprises a popliteal inner cavity communicated with the popliteal outer cavity and positioned between the popliteal outer cavity and the popliteal and a popliteal massage cavity communicated with the popliteal inner cavity and positioned between the popliteal inner cavity and the popliteal, the popliteal inflation and deflation component can inflate the popliteal flow passage cavity, and the airflow entering the popliteal flow passage cavity can flow through the popliteal outer cavity, enter the popliteal inner cavity and enter the popliteal massage cavity;

the popliteal air bag structure further comprises a popliteal inner membrane arranged on the inner side of the outer membrane of the popliteal and arranged at a distance from the outer membrane of the popliteal, a popliteal connecting piece used for connecting the outer membrane of the popliteal and the inner membrane of the popliteal, a popliteal massage membrane arranged on the inner side of the inner membrane of the popliteal and arranged at a distance from the inner membrane of the popliteal and a massage connecting piece used for connecting the outer membrane of the popliteal and the inner membrane of the popliteal, a popliteal outer through hole communicated with the outer cavity of the popliteal is arranged on the inner side of the outer membrane of the popliteal, the popliteal inner membrane is provided with the inner cavity of the popliteal, a first popliteal inner through hole communicated with the inner cavity of the popliteal is arranged on the outer side of the outer membrane of the popliteal, a second popliteal inner through hole communicated with the massage cavity is arranged on the inner side of the popliteal massage, the popliteal connection piece is used for communicating the first popliteal inner layer through hole with the popliteal outer layer through hole, and the massage connection piece is used for communicating the second popliteal inner layer through hole with the popliteal massage through hole.

13. The massager of claim 1, wherein said control mechanism further comprises a physio-patch for performing physio-therapy on the patella, said physio-patch being secured within said wear groove and in contact with the patella.

Images