CN210433717U - Physiotherapy equipment - Google Patents

Abstract

The utility model relates to a physiotherapy instrument, which is used for massaging the human body part and comprises a power supply component, a driving component, a massage component and a light wave component, wherein the power supply component provides electric energy for the driving component, the massage component and the light wave component; the driving component is fixedly connected with the massage component and can drive the massage component to reciprocate along one direction, and the light wave component can emit light waves with at least three different wavelength ranges to human body parts. The light wave component is arranged on the inner wall of the cylinder body and surrounds the transparent colloid structure. The structure that utilizes to set up the light wave subassembly and combine the massage subassembly carries out reciprocal massage when carrying out specific light wave irradiation to human body position organism surface, strengthens the medicine absorption effect, can effectively improve skin elasticity to improve the physiotherapy effect greatly.

Description

Physiotherapy equipment

[ technical field ] A method for producing a semiconductor device

The utility model relates to the field of massage health care, in particular to a physiotherapy instrument.

[ background of the invention ]

With the increasing demand of people on massage appliances, the existing products with single massage function can not meet the requirements of users on other functions besides massage, such as physiotherapy, health care and the like.

Therefore, it is desirable to provide a novel physiotherapy apparatus with multiple functions.

[ Utility model ] content

In order to overcome the problem of single function of the prior physiotherapy instrument, the utility model provides a physiotherapy instrument.

The utility model discloses a solve above-mentioned technical problem and provide following scheme: a physiotherapy instrument is used for massaging a human body part and comprises a power supply component, a driving component, a massage component and a light wave component, wherein the power supply component, the driving component and the light wave component are respectively and electrically connected correspondingly and supply power to the power supply component; the driving component is fixedly connected with the massage component and can drive the massage component to reciprocate along a direction, the light wave component can emit light waves with at least three different wavelength ranges to a human body part, and the light wave component is arranged on the inner wall of the cylinder body and surrounds the transparent colloid structure; the light wave component comprises a blue light LED light emitting piece, a red light LED light emitting piece and a yellow light LED light emitting piece, the blue light LED light emitting piece, the red light LED light emitting piece and the yellow light LED light emitting piece are distributed in an array mode, and the distance between the blue light LED light emitting piece, the red light LED light emitting piece and the yellow light LED light emitting piece is 2mm-15 mm.

Preferably, the yellow light LED luminous elements and the red light LED luminous elements are evenly distributed around the blue light LED luminous elements; the wavelength of the blue light LED luminous element is 410nm-480nm, the wavelength of the yellow light LED luminous element is 580nm-595nm, and the wavelength of the red light LED luminous element is 630nm-650 nm.

Preferably, the driving assembly is fixedly connected with the transparent colloid, and the driving assembly can drive the transparent colloid to slide in a reciprocating manner relative to the cylinder body; the inner wall of the transparent colloid is provided with a convex column.

Preferably, the massage subassembly is still including locating the slide rail support in the cylinder body, with slide rail support complex massage ring support slide rail and massage ring, wherein, the massage ring is located on the massage ring support slide rail, the slide rail support is followed drive assembly reciprocating motion's direction is fixed the inner wall of cylinder body, drive assembly with the one end of massage ring support slide rail is connected, drive assembly can drive in proper order the massage ring support slide rail reaches the massage ring is along the reciprocating sliding of slide rail support.

Preferably, the massage ring includes a rotating shaft and a plurality of balls rolling around the rotating shaft, and when the massage ring is driven by the massage ring support slide rail to move, the balls can roll around the rotating shaft as the central axis and move at the same time.

Preferably, the physiotherapy instrument comprises a first sensing module, and the first sensing module is arranged on the inner wall of the transparent colloid; the distance between the light wave component and the inner wall of the hollow cavity of the transparent colloid is 2mm-12 mm.

Preferably, the physiotherapy equipment still includes annotates the liquid subassembly, it includes stock solution chamber and conveyer pipe to annotate the liquid subassembly, the conveyer pipe includes both ends, and its one end inserts in the stock solution intracavity, and the other end inserts in the massage subassembly to make the liquid in stock solution chamber can pass through the conveyer pipe, the massage subassembly reaches human position skin surface.

Preferably, the physiotherapy instrument comprises a control circuit and a switch, the control circuit is connected with and controls the driving component, the massage component and the light wave component, the switch is connected with the control circuit, and the switch sends different electric signals to the control circuit to adjust the driving component or the light wave component; the physiotherapy instrument further comprises a communication module connected with the control circuit and used for realizing remote connection and control with peripheral electronic equipment.

Preferably, the control circuit includes: the function selection module is used for switching the physiotherapy instrument into a massage mode or a physiotherapy mode; the light wave control module is used for controlling the light emitting time and the light emitting wavelength of each LED light emitting piece in the light wave component; the data storage module is used for storing the identity information of the user and the light wave wavelength, the time and the massage rhythm data matched with the identity information of the user so as to form a database; and the detection data acquisition and processing module is used for acquiring and processing the operating signals of the light wave component and the driving component and storing the operating signals into the data storage module.

Compared with the prior art, the utility model provides a physiotherapy equipment has following beneficial effect:

the utility model provides a physiotherapy instrument, it is used for massaging the human body position, physiotherapy instrument includes power supply module, drive assembly, massage subassembly and light wave subassembly, and power supply module corresponds electric connection and supplies power for drive assembly, light wave subassembly respectively, massage subassembly includes the cylinder body and the transparent colloid who establishes in the cylinder body, be the cavity in the transparent colloid; the driving component is fixedly connected with the massage component and can drive the massage component to reciprocate along one direction, and the light wave component can emit light waves with at least three different wavelength ranges to human body parts. The light wave component is arranged on the inner wall of the cylinder body and surrounds the transparent colloid structure. The structure that utilizes to set up the light wave subassembly and combine the massage subassembly carries out reciprocal massage when carrying out specific light wave irradiation to human body position organism surface, can effectively improve skin elasticity, reinforcing medicine absorption effect to improve the physiotherapy effect greatly.

[ description of the drawings ]

Fig. 1 is a schematic view of functional modules of a physiotherapy instrument according to a first embodiment of the present invention.

Fig. 2 is a functional block schematic diagram of the control circuit shown in fig. 1.

FIG. 3 is a schematic diagram of the distribution of LED illuminators in the lightwave module of FIG. 1.

Fig. 4A is a schematic view of the internal structure of the physiotherapy apparatus according to the second embodiment of the present invention.

Fig. 4B is one of the inner structures of the physiotherapy apparatus shown in fig. 4A in a changed state.

Figure 4C is a second schematic diagram of the changed state of the physiotherapy apparatus shown in figure 4A.

Fig. 4D is a third schematic view of the changed state of the physiotherapy apparatus shown in fig. 4A.

Figure 5A is one of the movement diagrams of the powered state of the coil and magnetic cylinder of the physiotherapy instrument shown in figure 4A.

Figure 5B is a second schematic diagram illustrating the movement of the physiotherapy apparatus shown in figure 4A with the coil and magnetic column energized.

Fig. 6A is a flowchart illustrating a physiotherapy method according to a third embodiment of the present invention.

Fig. 6B is a schematic diagram illustrating the detailed steps of another embodiment of the physiotherapy method shown in fig. 6A.

The attached drawings indicate the following:

10. a physiotherapy instrument; 11. a drive assembly; 12. a power supply component; 13. a massage assembly; 14. a light wave component; 141. a blue LED light emitting element; 142. a red LED light emitting member; 143. a yellow LED emitter; 15. a control circuit; 151. a function selection module; 152. a light wave control module; 153. a data storage module; 154. a detection data acquisition and processing module; 16. a switch; 18. a communication module; 19. a sensing module;

20. a physiotherapy instrument; 21. a drive assembly; 211. a coil; 2111. a first coil; 2112. a second coil; 212. a magnetic cylinder; 2121. magnetic steel; 2122. A drive shaft; 23. a massage assembly; 231. a cylinder body; 232. transparent colloid; 2321. a convex column; 233. a hollow cavity; 234. a slide rail bracket; 235. a massage ring support slide rail; 236. a massage ring; 2361. a rotating shaft; 2362. a ball bearing; 24. a light wave component; 241. an LED light emitting member; 25. a control circuit; 251. A function selection module; 22. a power supply component; 26. a switch; 27. a housing assembly; 28. a first sensing module; 29. a liquid injection module; 291. a liquid storage cavity; 292. a delivery pipe;

b. distance between adjacently arranged LED luminous elements

h1, and the distance between the LED luminous element and the inner wall of the transparent colloid.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a first embodiment of the present invention provides a physiotherapy apparatus 10, the physiotherapy apparatus 10 includes a driving component 11, a power supply component 12, a massage component 13 and a light wave component 14, the power supply component 12, the driving component 11 and the light wave component 14 are respectively electrically connected to supply power thereto, and the driving component 11 is fixedly connected to the massage component 13.

As shown in fig. 1, the physiotherapy instrument 10 further comprises a control circuit 15 and a switch 16, the control circuit 15 is connected to and controls the driving component 11, the massage component 13 and the light wave component 14, the switch 16 is connected to the control circuit 15, and the switch 16 sends different electrical signals to the control circuit 15 to adjust the driving component 11 or the light wave component 14; the physiotherapy instrument 10 further comprises a communication module 18 connected with the control circuit 15, and is used for realizing remote connection and control with peripheral electronic equipment. Wherein the communication module can be any one of wifi signal, bluetooth signal, 2.4G signal module.

As shown in fig. 1, the physiotherapy instrument 10 further comprises a sensing module 19, wherein the sensing module 19 can sense the pressure and temperature changes of the human body part on the massage assembly 13 of the physiotherapy instrument 10 and upload the related sensing data to the control circuit 15.

As shown in fig. 2, the control circuit 15 may further include a function selection module 151, a light wave control module 152, a data storage module 153, and a detection data collecting and processing module 154.

Wherein the function selection module 151 may be used to switch the physiotherapy instrument 10 to a massage mode or a physiotherapy mode, and the function selection module 151 may be controlled based on control information input by a user based on the switch 16 or based on information fed back by the massage assembly 13.

The light wave control module 152 is configured to control the light emitting time and the light emitting wavelength of each LED light emitting element in the light wave module 14.

The data storage module 153 is configured to store the identity information of the user and the data such as the wavelength and time of light waves, the massage frequency, and the time matched with the identity information of the user, and store and record corresponding data states in different massage modes or physical therapy modes to form a database.

The detection data collecting and processing module 154 is used for collecting and processing the operation signals of the light wave module 14 and the driving module 11, and storing the operation signals into the data storage module 153. The detection data collecting and processing module 154 can collect data such as pressure, temperature, etc. detected by the massage assembly 13. Taking the pressure sensing value as an example, the pressure sensing value can be divided into 5 steps based on the magnitude of the pressure sensing value, which are: grade 1, 0-75 mmHg; grade 2, 76-100 mmHg; level 3, 101-; level 4, 120-; the 5 th order is 140mmHg or more.

The utility model discloses in, the physiotherapy equipment corresponds different massage and the light of output according to the pressure value of monitoring, and when the pressure value was big more, the massage rhythm that corresponds was faster.

Since the pressure value of the user detected by the massage component 13 is detected and processed in real time, the physiotherapy instrument 10 can be divided into its corresponding gears based on the pressure sensing value fed back from the user's body, and output different massage rhythms through the communication module 18, control the light wave component 14 to emit light with different wavelengths through the light wave control module 152, and control the frequency at which the massage component 13 is driven by the driving component 11 through the function selection module 151. Therefore, the physical therapy instrument 10 can be automatically adjusted to obtain a physical therapy plan suitable for its own change according to the real-time status of the user.

Further, the user can also utilize the mobile device APP or the server connected with the physiotherapy instrument 10 to customize the gear range of the detected pressure value, the corresponding massage cycle number and the like, so that a physiotherapy scheme with higher personalization and matching degree can be obtained, and a better physiotherapy effect can be obtained.

Fig. 3 is a schematic diagram showing the unfolded state of the lightwave module 14, and in practical applications, the lightwave module 14 can be curled or bent according to the design requirements of the actual product. In this embodiment, the light wave component 14 includes a blue LED emitting element 141, a red LED emitting element 142, and a yellow LED emitting element 143, wherein the yellow LED emitting element 143 and the red LED emitting element 142 are evenly distributed around the blue LED emitting element 141. In other embodiments of the present embodiment, the lightwave module 14 may further comprise LED emitters emitting other lightwave wavelengths.

In one embodiment, the blue LED lighting element 141 is disposed between the yellow LED lighting element 143 and the red LED lighting element 142.

The wavelength of the blue LED emitting member 141 is 410nm to 480nm, and specifically, the wavelength of the blue LED emitting member 141 may be 410nm, 420nm, 430nm, 435nm, 440nm, 450nm, 460nm, 467nm, or 480 nm. Wherein, the blue light wave in the wavelength range has the effects of tranquilizing and diminishing inflammation and inhibiting the breeding of bacteria, and the wavelength can be 410nm-415 nm.

The wavelength of the yellow light LED illuminating part 143 is 577nm-597nm, and the wavelength of the yellow light LED illuminating part 143 can also be 577nm, 580nm, 581nm, 585nm, 588nm, 590nm, 595nm or 597 nm. The yellow light wave in the wavelength range has the function of improving the exchange rate of cell nutrients, can supplement energy to the skin of a human body part, and is beneficial to removing toxicity by lymph and improving the rough degree of the skin. The wavelength range of the yellow light LED emitting component 143 is preferably 590nm-595 nm.

The wavelength of the red LED emitter 142 is 630nm to 650 nm. The wavelength of the red LED emitting component 142 can be 630nm, 632nm, 635nm, 637nm, 640nm, 643nm, 647nm or 650 nm. The red light wave in this wavelength range can stimulate skin blood to flow, promote collagen's growth, and the stimulation cell activity promotes the growth of renewing, and the utility model discloses in further preferred ruddiness LED illuminating part 142's wavelength range be 630nm-650 nm.

As shown in fig. 3, the blue LED emitting elements 141, the red LED emitting elements 142, and the yellow LED emitting elements 143 are arranged in an array and spaced apart from each other, and a distance b between the adjacent LED emitting elements is 2mm to 15 mm. In particular, the distance b may also be 2mm, 3.5mm, 4mm, 5mm, 6.5mm, 7mm, 8.6mm, 9mm, 10mm, 11mm, 12mm, 13mm, 14mm or 15 mm. Thereby allowing the lightwave module 14 to emit a more uniform lightwave.

In some embodiments, the blue LED lighting elements 141 may be arranged in a zigzag arrangement in a specific direction, that is, when viewed from a blue LED lighting element 141, two other blue LED lighting elements 141 arranged in different columns are arranged on the upper right and upper left or the lower right and lower left.

Referring to fig. 4A-4B, a second embodiment of the present invention provides a physiotherapy instrument 20, which is different from the first embodiment in that: the driving assembly 21 can drive the massage assembly 23 to reciprocate along a direction.

Specifically, the massage assembly 23 includes a cylinder 231 and a transparent gel 232 disposed in the cylinder 231, wherein a hollow cavity 233 is disposed in the transparent gel 232, and the human body can be massaged in the hollow cavity 233. The massage assembly 23 further comprises a massage ring 236 rolling on the outer surface of the transparent gel 232. The driving assembly 21 may be fixedly connected to the massage ring 236 and may drive the massage ring 236 to reciprocate along a direction.

In other embodiments of the present invention, the massage assembly 23 further comprises a sliding rail support 234 disposed in the cylinder 231 and a massage ring support sliding rail 235 engaged with the sliding rail support 234. The massage ring 236 may be disposed on the massage ring support slide 235. The massage assembly 23 may include a plurality of massage rings 236 arranged in parallel. The slide rail bracket 234 is fixed on the inner wall of the cylinder 231, the driving assembly 21 is connected with the massage ring bracket slide rail 235, and the driving assembly 21 can sequentially drive the massage ring bracket slide rail 235 and the massage ring 236 to slide along the slide rail bracket 234.

As shown in fig. 4A-4D, a portion of a human body can be placed into the hollow cavity 233 of the transparent gel 232 from the direction P.

Further, as shown in fig. 4A, the massage ring 236 is further a ball structure, which may specifically include a rotating shaft 2361 and a plurality of balls 2362 rolling around the rotating shaft 2361. When the massage ring 236 is driven by the massage ring support slide 235 to move, the balls 2362 can also move relatively and roll along the rotating shaft 2361 as a central axis.

As shown in fig. 4A and 4B, the massage ring support sliding rail 235 can be connected to the driving component 21, and when the driving component 21 drives the massage component 23 to reciprocate, the driving component drives the massage ring support sliding rail 235 to synchronously reciprocate along the sliding rail support 234. The massage ring 236 is driven by the massage ring support sliding rail 235 to reciprocate synchronously.

As shown in fig. 4A, the light wave module 24 may be specifically disposed on the inner wall of the cylinder 231 and configured to surround the transparent gel 232, and a distance h1 between the light wave module 24 and the inner wall of the hollow cavity 233 of the transparent gel 232 is 2mm to 12 mm.

Specifically, the distance h1 between the light wave component 24 and the inner wall of the hollow cavity 233 of the transparent colloid 232 may also be 2mm, 3.5mm, 4mm, 5mm, 6.5mm, 7mm, 8.6mm, 9mm, 10mm, 11mm, or 12 mm. As shown in fig. 4, the lightwave module 24 is composed of a plurality of LED light emitters 241 of different lightwaves.

In some specific embodiments of this embodiment, the driving assembly 21 includes a coil 211 and a magnetic column 212, one end of the magnetic column 212 penetrates through the coil 211, and the other end of the magnetic column 212 is fixedly connected to a massage ring support slide rail 235 in the massage assembly 23, and when power is supplied to the coil 211, the magnetic column 212 generates a pushing and pulling force on the magnetic column 212 to reciprocate the magnetic column 212 in an axial direction of the coil 211, and the magnetic column 212 carries the massage assembly 23 to reciprocate at the same time.

As shown in figure 4A, the physiotherapy instrument 20 further comprises a housing assembly 27, wherein the housing assembly 27 defines an accommodating space (not numbered) for accommodating the massage assembly 23, the power supply assembly 22 and the control circuit 25.

As shown in fig. 4A and 4B, in order to better acquire the feedback information of the human body part during the massage process and match the corresponding data based on the feedback information, in some embodiments of the present invention, a first sensing module 28 may be disposed on the inner wall of the transparent colloid 232, and the first sensing module 28 may be electrically connected to the detection data collecting and processing module (reference numeral shown in fig. 2) in the control circuit 25; the first sensing module 28 can be used for sensing the pressure, temperature and other change data of the outer surface of the transparent massage head, and transmitting the change data to the detection data acquisition and processing module (the label is shown in fig. 2) for corresponding operation processing.

Referring to fig. 4C, in other embodiments of the present invention, the massage assembly 23 may include a transparent colloid 232, wherein the transparent colloid 232 is directly and fixedly connected to the magnetic cylinder 212 of the driving assembly 21, and when the coil 211 drives the magnetic cylinder 212 to reciprocate under the power-on state, the magnetic cylinder 212 may drive the transparent colloid 232 to reciprocate along the direction P relative to the cylinder 231. In order to achieve a better massage effect, a convex column 2321 may be further disposed on the inner wall of the transparent colloid 232.

Further, in some other embodiments of the present invention, as shown in fig. 4D, the physiotherapy instrument 20 further includes a liquid injection module 29, the liquid injection module 29 further includes a liquid storage cavity 291 and a delivery pipe 292, the liquid injection module 29 is electrically connected to the control circuit 25, the delivery pipe 292 includes two ends, one end of the delivery pipe is connected to the liquid storage cavity 291, and the other end of the delivery pipe is connected to a through hole (not shown) formed in the inner wall of the transparent colloid 232. The control circuit 25 controls the liquid storage cavity 291 to provide liquid or gel such as lubricating liquid, liquid medicine and the like to the inner wall of the transparent colloid 232 through the delivery pipe 292. For example, a bactericide is filled in the liquid storage cavity 291, and the bactericide can play a role of sterilizing the surface of the skin of a human body part, so that inflammation can be prevented and treated, a health care and physical therapy effect can be realized, and the curative effect can be greatly improved by matching with light wave irradiation and massage with different wavelengths.

In some other embodiments of the present invention, as shown in fig. 5A-5B, the number of the coils 211 can be two, the magnetic cylinder 212 is far away from one end of the massage component 23 is penetrated through the two coils 211, two current directions of the coils 211 are opposite under the power supply condition, the magnetic cylinder 212 includes a magnetic steel 2121 and a transmission shaft 2122 connected with one end of the magnetic steel 2121, the transmission shaft 2122 is far away from one end of the magnetic steel 2121 and the massage component 23, and the magnetic steel 2121 corresponds to an N pole and an S pole along two ends of the axial direction of the two coils 211.

As further shown in fig. 5A-5B, the coil 211 may be specifically divided into a first coil 2111 and a second coil 2112.

When the first coil 2111 is switched on by a forward current and the second coil 2112 is switched on by a reverse current, as shown in fig. 5A, according to a right-hand rule, the first coil 2111 generates a left S and right N magnetic force direction, the second coil 2112 generates a left N and right S magnetic force direction, and according to the same-polarity repelling and opposite-polarity attracting characteristics of magnetic forces, the magnetic steel 2121 receives the same-polarity right-repelling force of the first coil 2111 and the right opposite-polarity attracting force of the second coil 2112, so that the magnetic steel 2121 is forced to move to the right, that is, the magnetic steel 2121 moves towards the second coil 2112.

Similarly, when the second coil 2112 is switched on by a forward current and the first coil 2111 is switched on by a reverse current, as shown in fig. 5B, according to the right-hand rule, the second coil 2112 generates a left S and a right N magnetic force direction, the first coil 2111 generates a left N and a right S magnetic force direction, and at this time, the magnetic steel 2121 receives the same-polarity left repulsive force of the second coil 2112 and the left opposite attractive force of the first coil 2111, so that the magnetic steel 2121 is forced to move to the left, that is, the magnetic steel 2121 moves to the first coil 2111.

It should be noted that the terms "forward direction", "reverse direction", "left direction" and "right direction" used herein are based on the orientation shown in the drawings, and are only used for explanation and not for limitation of the orientation of the present invention.

Based on the above principle, the current direction and frequency of the first coil 2111 and the second coil 2112 are programmed by the function selection module 251 in the control circuit 25, so that the reciprocating direction and frequency of the magnetic steel 2121 can be easily and effectively controlled.

Referring to fig. 6A, a third embodiment of the present invention provides a massage health-care method, which takes the physiotherapy instrument provided in the second embodiment as an example, and the massage health-care method can be as follows:

step S11, function selection; the functions of the physiotherapy instrument can be divided into a massage function, a physiotherapy health-care function and the like, and the selection of the functions can be matched based on the input of the switch by a user or based on user information stored by the control circuit so as to switch to a proper function or be controlled based on information fed back by the massage component.

When the physiotherapy instrument enters a massage mode, the method can comprise the following steps:

step S121, entering a massage mode;

step S122, selecting a massage mode;

and step S123, outputting the vibration massage.

(II) when the physiotherapy instrument enters the health care mode, the physiotherapy instrument can further comprise the following steps:

step S111, entering a physical therapy mode;

step S112, detecting the fitness of the user and matching a corresponding physical therapy mode;

step S113, light wave irradiation and/or vibration massage;

step S114, carrying out secondary detection; and

step S115, collecting detection signals and feedback effects;

after the step S115, the health care mode corresponding to the feedback result may be further adjusted based on the collected and detected signals and the feedback result, so as to adjust the corresponding massage/health care physiotherapy mode based on the actual requirements of different users.

Specifically, in the step S112, the detection of the user fitness is based on that the pressure sensing values sent out during the operation of the physiotherapy instrument are divided into 5 steps, which are respectively: grade 1, 0-75 mmHg; grade 2, 76-100 mmHg; level 3, 101-; level 4, 120-; the 5 th order is 140mmHg or more.

In step S113, the light wave irradiation and/or the vibration massage are performed, and the control circuit controls the light wave module and/or the driving module accordingly.

In step S115, specifically, after each user uses the physiotherapy instrument, the user information storage module in the control circuit may automatically store the detected data, the corresponding light wavelength, the light irradiation time, the frequency and time of the massage, and the like, which are used this time, in a database, and when the user uses the physiotherapy instrument again, the control circuit may automatically retrieve the matched mode from the database for the user to select quickly.

In practical use, different pressure sensing value gears correspond to different reciprocating motion frequencies, reciprocating motion interval time, the corresponding cycle times for completing one treatment course and the like.

Some specific physiotherapy methods may be as shown in table 1:

TABLE 1 relationship table between pressure detection value and light wave and massage in physiotherapy method

The above relation table is only an example, and is not a limitation of the present invention, and in practical applications, there may be a custom rule.

The light based on different light wave lengths can generate different influences on human body parts, so that after entering a health care physical therapy mode, different massage cycle times and massage modes can be matched, and different light wave irradiation can be matched, so that different health care physical therapy effects can be obtained. For example, in some specific embodiments of the present invention, the physiotherapy mode may specifically include the following:

physical therapy mode 1:

when the pressure sensing value fed back by the human body part is detected to be 50mmHg, the pressure sensing value is classified into 1 gear, at the moment, the 1 gear corresponding light and massage mode can be called by the physiotherapy instrument, wherein the yellow LED luminous element emits yellow light when the physiotherapy instrument reciprocates, and the red LED luminous element emits red light when the physiotherapy instrument pauses. Yellow light can improve the exchange rate of cell nutrients, while red light can stimulate the blood flow of skin and promote the growth of collagen when muscles of human body are relaxed.

The driving component of the physiotherapy instrument can drive the massage component to carry out reciprocating massage at the speed of 2Hz for 20 seconds and then pause for 5 seconds; the cycle was 20 times.

Physical therapy mode 2:

it differs from the above physical therapy mode 1 in that: when the pressure sensing value fed back by the human body part is detected to be 90mmHg, the pressure sensing value is classified into 2 grades, and at the moment, the driving component of the physiotherapy instrument drives the massage component to perform reciprocating massage at the speed of 3.5Hz for 20 seconds and then pause for 5 seconds; the cycle was 20 times.

Physical therapy mode 3:

it differs from the above physical therapy mode 1 in that: when the pressure sensing value fed back by the human body part is detected to be 110mmHg, the pressure sensing value is classified into 3 grades, and at the moment, the driving component of the physiotherapy instrument drives the massage component to perform reciprocating massage for 15 seconds at the speed of 4.5Hz and then pause for 3 seconds; the cycle was 25 times.

Physical therapy mode 4:

it differs from the above physical therapy mode 1 in that: when the pressure sensing value fed back by the human body part is detected to be 130mmHg, the pressure sensing value is classified into 4 grades, and at the moment, the driving component of the physiotherapy instrument drives the massage component to perform reciprocating massage for 15 seconds at the speed of 6Hz and then pause for 3 seconds; the cycle was 30 times.

And a physical therapy mode 5:

it differs from the above physical therapy mode 1 in that: when the pressure sensing value fed back by the human body part is detected to be 150mmHg, the pressure sensing value is classified into 5 grades, and at the moment, the driving component of the physiotherapy instrument drives the massage component to perform reciprocating massage at the speed of 8Hz for 10 seconds and then pause for 2 seconds; the cycle was 30 times.

It can be seen that the greater the detected pressure value, the faster the massage rhythm of the physiotherapy instrument.

The detected pressure value of the user is detected and fed back in real time, so that the physical therapy instrument can divide the gear to which the user belongs based on the pressure value fed back by the body of the user and corresponds to different lighting and massage frequencies. Therefore, the physiotherapy instrument can automatically adjust to the real-time states of different users to obtain a physiotherapy scheme suitable for the change of the physiotherapy instrument.

Furthermore, the user can also utilize the mobile device APP or the server connected with the physiotherapy instrument to self-define the gear range of the detected pressure value, the corresponding massage cycle times and the like, so that a physiotherapy scheme with high personalization and matching degree can be obtained, and a better physiotherapy effect can be obtained.

The above-listed examples of the present invention are merely examples and are not intended to limit the present invention.

Further, referring to fig. 6B, in some specific embodiments of the present embodiment, the performing of health care physiotherapy by using the physiotherapy instrument may further include the following steps:

step Q11, starting up; namely, the physiotherapy instrument is started;

step Q12, sterilizing; the blue light LED luminous element in the light wave component is utilized to sterilize the cavity of the health care physical therapy equipment and the skin of the human body.

Step Q13, selecting the working mode; that is, the corresponding operation mode is selected according to the content set by the user or based on the matching information originally stored in the system, if massage is needed, the step Q21 is entered, and if a health care physiotherapy mode is needed, the step Q14 is entered.

Step Q21, entering a massage mode; the specific steps are as described in steps S121 to S123, and are not described herein again.

Step Q14, detecting pressure and temperature; the physical therapy instrument is characterized in that a first sensing component arranged on the outer surface of the transparent massage head or a second sensing component arranged on the inner wall of the transparent colloid is used for obtaining pressure detection data and temperature detection data when the physical therapy instrument is in contact with the skin of a human body.

Step Q15, uploading the detection data to the mobile device APP/server; and uploading the obtained pressure detection data and temperature detection data to a mobile device APP or a server at the mobile device end.

Step Q16, the mobile device APP/server feeds back matched medicine or treatment course signals to the user and the control circuit; that is, the mobile device APP/server may feed back matching operational information to the user and the control circuitry separately or simultaneously based on the detection data. For example, the user may know that a corresponding operation is required based on the mobile device APP on the mobile device wirelessly matched with the physiotherapy instrument.

Step Q17, the user operates according to the prompt, and the control circuit controls the driving component and/or the light wave component to adapt to the operation; in particular, the control circuit may control the drive assembly and the lightwave assembly to adapt to the operation of the user. As shown in table 1, the operation may be performed with different frequencies and times of light wave irradiation or massage corresponding to different pressure detection values.

Step Q18, detecting the pressure and the temperature again; after the step Q17 is completed, the first sensing component arranged on the outer surface of the transparent massage head or the second sensing component arranged on the inner wall of the transparent colloid is used for detecting the pressure detection data and the temperature detection data obtained by contacting the physiotherapy instrument with the skin of the human body part.

Step Q19, collecting and feeding back secondary detection data; the control circuit acquires and feeds back the obtained pressure detection data and/or temperature detection data, and then the step Q22 is carried out; and

and step Q22, uploading the secondary detection data to the mobile equipment APP/server, and ending the primary physiotherapy process.

When the next physiotherapy process is required, the above steps Q11-Q22 may be repeated.

In order to better verify the utility model provides a physiotherapy equipment and the effect of physiotherapy method thereof, the utility model provides an experimental research to specific position massage and light wave shine

Subject: the patients who need massage and health care physical therapy are treated in 50 cases, the age is 35-50 years, and all the patients are male patients.

Evaluation standard of health care curative effect:

1. the skin tissue is thickened and the elasticity is increased; 2. the pressure value detected by the massage component is improved by more than 50% compared with the pressure value initially detected by the physiotherapy instrument;

the clinical observation results are as follows: the utility model provides a physiotherapy equipment lasts three months of use, and the observation result reaches 33 examples altogether of above-mentioned two kinds of assessment standards, wherein, can only reach 11 examples that have of one of them assessment standard, and the ineffectiveness has 6 examples, and the efficient rate can reach 88%, and is visible, the utility model provides a physiotherapy equipment has the effect of the health care that is showing and physiotherapy, and safety, no toxic and side effect.

Compared with the prior art, the utility model provides a physiotherapy equipment has following beneficial effect:

the utility model provides a physiotherapy instrument, it is used for massaging the human body position, physiotherapy instrument includes power supply module, drive assembly, massage subassembly and light wave subassembly, and power supply module corresponds electric connection and supplies power for drive assembly, light wave subassembly respectively, massage subassembly includes the cylinder body and establishes the transparent colloid in the cylinder body, be the cavity in the transparent colloid, the human body position massages in the cavity; the driving component is fixedly connected with the massage component and can drive the massage component to reciprocate along one direction, and the light wave component can emit light waves with at least three different wavelength ranges to human body parts. The light wave component is arranged on the inner wall of the cylinder body and surrounds the transparent colloid structure. The structure that utilizes to set up the light wave subassembly and combine the massage subassembly carries out reciprocal massage when carrying out specific light wave irradiation to human body position organism surface, can effectively improve skin elasticity, reinforcing medicine absorption effect to improve the physiotherapy effect greatly.

In the physiotherapy instrument provided by the utility model, the light wave component comprises a blue light LED luminous element, a red light LED luminous element and a yellow light LED luminous element, wherein the yellow light LED luminous element and the red light LED luminous element are evenly distributed around the blue light LED luminous element; the wavelength of the blue light LED luminous element is 410nm-480nm, the wavelength of the yellow light LED luminous element is 580nm-595nm, and the wavelength of the red light LED luminous element is 630nm-650 nm. The light waves with different wavelengths have different effects, for example, blue light can play a role in calming and diminishing inflammation and can inhibit the breeding of bacteria, yellow light can supplement energy to the skin of a human body part, lymph toxin removing can be facilitated, the roughness of the skin is improved, red light can stimulate the blood flow of the skin, the growth of collagen is promoted, and the activity of cells is stimulated to promote the regeneration and growth. Based on different massage states and the actual state of the user, different light waves can be selected for irradiation, so that the optimal physiotherapy effect is obtained.

The utility model discloses in, blue light LED luminous element the ruddiness LED luminous element reaches yellow light LED luminous element is the array distribution, and the distance is 2mm-15mm between the adjacent LED luminous element, and the injecing of its distance can improve the light irradiation degree of consistency and the effect of physiotherapy equipment.

The utility model discloses in, the slide rail support is followed drive assembly reciprocating motion's direction is fixed the inner wall of cylinder body, drive assembly with the one end of massage ring support slide rail is connected, drive assembly can drive in proper order massage ring support slide rail reaches the massage ring is along the reciprocating sliding of slide rail support. By the arrangement, the massage component can be connected with the driving component, so that the massage component can effectively massage the human body.

In other embodiments, the driving assembly is fixedly connected with the transparent colloid, and the driving assembly can drive the transparent colloid to slide in a reciprocating manner relative to the cylinder body; the inner wall of the transparent colloid is provided with a convex column. It can be seen that the physiotherapy instrument can provide a variety of different massage experiences.

Further, in order to enable the human body part to be uniformly irradiated by light waves while massaging, the light wave assembly is arranged on the inner wall of the cylinder body and surrounds the transparent colloid structure, and the distance between the light wave assembly and the inner wall of the hollow cavity of the transparent colloid is 2-12 mm.

The utility model discloses in, the physiotherapy equipment is still including annotating the liquid subassembly, it includes stock solution chamber and conveyer pipe to annotate the liquid subassembly, the conveyer pipe includes both ends, and its one end inserts in the stock solution chamber, and the other end inserts in the massage subassembly to make the liquid in stock solution chamber can pass through the conveyer pipe massage subassembly reachs human position skin surface. Utilize annotate the liquid subassembly, can the physiotherapy equipment can be convenient for pour into lubricating liquid or medicine into at the in-process of reciprocal massage, under the effect of light wave irradiation, reciprocal massage, can stimulate skin blood to flow to can improve the medicine by the absorptive efficiency of human position skin, reciprocal massage still can further make the medicine more even, improves the medicine absorptivity, thereby can improve its physiotherapy effect greatly.

The physiotherapy instrument provided by the utility model comprises a control circuit and a switch, wherein the control circuit is connected with and controls the driving component, the massage component and the light wave component, the switch is connected with the control circuit, and the switch sends different electric signals to the control circuit to adjust the driving component or the light wave component; the physiotherapy instrument further comprises a communication module connected with the control circuit and used for realizing remote connection and control with peripheral electronic equipment. Through setting up switch, control circuit and communication module, can be convenient for the user to use the operation physiotherapy equipment to realize the remote control to physiotherapy equipment.

Wherein communication module can be any kind in wifi signal, bluetooth signal, 2.4G signal module, has wider suitability.

The utility model provides an in the physiotherapy equipment control circuit still includes: the physiotherapy instrument comprises a function selection module, a light wave control module, a data storage module, a detection data acquisition and processing module and a plurality of modules, and the control efficiency and accuracy of the physiotherapy instrument can be improved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, and improvements made within the principle of the present invention should be included within the protection scope of the present invention.

Claims (9)

1. A physiotherapy equipment, it is used for massaging to human body position, its characterized in that: the physiotherapy instrument comprises a power supply assembly, a driving assembly, a massage assembly and a light wave assembly, wherein the power supply assembly, the driving assembly and the light wave assembly are respectively and electrically connected and supply power to the power supply assembly, the massage assembly comprises a cylinder body and a transparent colloid arranged in the cylinder body, a hollow cavity is formed in the transparent colloid, and the human body part is massaged in the hollow cavity; the driving component is fixedly connected with the massage component and can drive the massage component to reciprocate along one direction, the light wave component can emit light waves with at least three different wavelength ranges to human body parts, and the light wave component is arranged on the inner wall of the cylinder body and surrounds the transparent colloid structure; the light wave component comprises a blue light LED luminous piece, a red light LED luminous piece and a yellow light LED luminous piece, the blue light LED luminous piece, the red light LED luminous piece and the yellow light LED luminous piece are distributed in an array mode, and the distance between the blue light LED luminous piece, the red light LED luminous piece and the yellow light LED luminous piece which are adjacently arranged is 2mm-15 mm.

2. The physiotherapy instrument of claim 1, wherein: the yellow light LED luminous elements and the red light LED luminous elements are evenly distributed around the blue light LED luminous elements; the wavelength of the blue light LED luminous element is 410nm-480nm, the wavelength of the yellow light LED luminous element is 580nm-595nm, and the wavelength of the red light LED luminous element is 630nm-650 nm.

3. The physiotherapy instrument of claim 1, wherein: the driving assembly is fixedly connected with the transparent colloid and can drive the transparent colloid to slide in a reciprocating manner relative to the cylinder body; the inner wall of the transparent colloid is provided with a convex column.

4. The physiotherapy instrument of claim 1, wherein: the massage assembly further comprises a sliding rail support arranged in the cylinder body, a massage ring support sliding rail matched with the sliding rail support and a massage ring, wherein the massage ring is arranged on the massage ring support sliding rail, the sliding rail support is fixed on the inner wall of the cylinder body along the reciprocating motion direction of the driving assembly, the driving assembly is connected with one end of the massage ring support sliding rail, and the driving assembly can sequentially drive the massage ring support sliding rail and the massage ring to slide along the sliding rail support in a reciprocating mode.

5. The physiotherapy instrument of claim 4, wherein: the massage ring comprises a rotating shaft and a plurality of balls rolling by taking the rotating shaft as a central shaft, and when the massage ring is driven by the massage ring support sliding rail to move, the balls can roll along the rotating shaft as the central shaft and move simultaneously.

6. The physiotherapy instrument of claim 1, wherein: the physiotherapy instrument comprises a first sensing module, and the first sensing module is arranged on the inner wall of the transparent colloid; the distance between the light wave component and the inner wall of the hollow cavity of the transparent colloid is 2mm-12 mm.

7. The physiotherapy apparatus of claim 1, wherein: the physiotherapy equipment still includes annotates the liquid subassembly, annotate the liquid subassembly and include stock solution chamber and conveyer pipe, the conveyer pipe includes both ends, and its one end inserts in the stock solution intracavity, the other end inserts among the massage subassembly to make the liquid in stock solution chamber can pass through the conveyer pipe massage subassembly reachs human position skin surface.

8. The physiotherapy apparatus of any one of claims 1 to 7, wherein: the physiotherapy instrument comprises a control circuit and a switch, the control circuit is connected with and controls the driving assembly, the massage assembly and the light wave assembly, the switch is connected with the control circuit, and the switch sends different electric signals to the control circuit to adjust the driving assembly or the light wave assembly; the physiotherapy instrument further comprises a communication module connected with the control circuit and used for realizing remote connection and control with peripheral electronic equipment.

9. The physiotherapy apparatus of claim 8, wherein: the control circuit includes:

the function selection module is used for switching the physiotherapy instrument into a massage mode or a physiotherapy mode;

the light wave control module is used for controlling the light emitting time and the light emitting wavelength of each LED light emitting piece in the light wave component;

the data storage module is used for storing the identity information of the user and the light wave wavelength, the time and the massage rhythm data matched with the identity information of the user so as to form a database; and

and the detection data acquisition and processing module is used for acquiring and processing the operating signals of the light wave component and the driving component and storing the operating signals into the data storage module.

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