CN116052836A - Laser treatment device and system based on gas analysis - Google Patents

Abstract

The invention discloses a laser treatment device and a system based on gas analysis, wherein the device comprises: the information acquisition module is used for acquiring medical information of a target treatment user; the acupoint determining module is used for determining at least one laser irradiation acupoint corresponding to the target user according to the medical information of the target user; the feedback acquisition module is used for acquiring user feedback information corresponding to at least one laser irradiation acupoint when the laser irradiation acupoint is subjected to laser irradiation; the user feedback information comprises at least one of air feedback information and air feedback generation time information; and the gas analysis module is used for determining at least one gas parameter corresponding to the laser irradiation acupuncture point according to the user feedback information. Therefore, the invention can determine the treatment acupoint according to the medical information of the user, and receive the air feedback information and the feedback time of the user to analyze the air parameters when treating the acupoint, thereby improving the treatment effect and the treatment efficiency.

Description

Laser treatment device and system based on gas analysis

Technical Field

The invention relates to the technical field of medical treatment, in particular to a laser treatment device and system based on gas analysis.

Background

The traditional Chinese medicine theory and experiment prove that the traditional Chinese medicine has good curative effect and can improve symptoms of various diseases, so that the traditional Chinese medicine is increasingly favored by medical markets. In the acupuncture theory, the theory of "qi" is an important ring, which has very important status in the clinical operation process of acupuncture, is the key of the acupuncture treatment, and is the basis for judging the abundance or insufficiency of channel qi, the accuracy of acupoint selection, the prognosis of diseases and the acupuncture curative effect.

However, the existing acupoint treatment technology does not consider the combination of the information of the air feedback and the time information generated by the air feedback of the user during treatment so as to further analyze the air parameters of the user, so that the treatment concept is behind, the treatment effect cannot be pertinently improved, the symptomatic treatment is not really realized, the treatment is flexible, the treatment is accurate, and the defects of the prior art are seen, so that the problem needs to be solved.

Disclosure of Invention

The invention aims to solve the technical problem of providing a laser treatment device and a system based on gas analysis, which can determine treatment points according to medical information of users, and receive gas feedback information and feedback time of the users to analyze gas parameters when the treatment points are treated, so that treatment effect can be determined or treatment scheme can be adjusted based on analysis results, and improvement of treatment effect and treatment efficiency is facilitated.

To solve the above technical problem, a first aspect of the present invention discloses a laser treatment device based on gas analysis, the device comprising:

the information acquisition module is used for acquiring medical information of a target treatment user;

the acupoint determining module is used for determining at least one laser irradiation acupoint corresponding to the target user according to the medical information of the target user;

the feedback acquisition module is used for acquiring user feedback information corresponding to at least one laser irradiation acupuncture point when the at least one laser irradiation acupuncture point is subjected to laser irradiation; the user feedback information comprises at least one of air feedback information and air feedback generation time information;

and the gas analysis module is used for determining at least one gas parameter corresponding to the laser irradiation acupuncture point according to the user feedback information.

As an optional implementation manner, in the first aspect of the present invention, the medical information includes one or more of past medical history information, current symptom description information, historical treatment feedback information, historical diagnosis information, historical treatment advice information, historical biological feature information, current biological feature information, and historical laser irradiation parameters of the target user; and/or the qi feedback information comprises at least one of acupuncture point sour feeling information, acupuncture point distention feeling information, acupuncture point tingling feeling information, acupuncture point heavy feeling information, acupuncture point hot feeling information, acupuncture point cool feeling information, acupuncture point itching feeling information, acupuncture point pain feeling information, acupuncture point twitch feeling information, acupuncture point ant movement feeling information, acupuncture point specific sensation conduction information and acupuncture point specific sensation diffusion information.

As an alternative embodiment, in the first aspect of the present invention, the gas analysis module includes:

the gas type analysis unit is used for determining the health state corresponding to at least one laser irradiation acupoint according to the gas feedback information;

and/or the number of the groups of groups,

the gas laser quantity analysis unit is used for determining the laser irradiation quantity which is required to reach the target gas effect and corresponds to at least one laser irradiation acupoint according to the gas feedback information and the gas feedback generation time information;

and/or the number of the groups of groups,

and the gas comparison analysis unit is used for determining the health state corresponding to at least one laser irradiation acupoint according to the comparison result between the laser irradiation quantity and the reference irradiation quantity.

As an optional implementation manner, in the first aspect of the present invention, the air feedback generation time information includes a time difference between a start time of starting laser irradiation on the laser irradiation acupoint and a generation time of the air feedback information; the gas laser quantity analysis unit determines a specific mode of at least one laser irradiation quantity required for reaching a target gas effect corresponding to the laser irradiation acupuncture point according to the gas feedback information and the gas feedback generation time information, and the specific mode comprises the following steps:

Judging whether the target laser irradiation acupuncture point is matched with the target air effect or not according to the air feedback information;

and if the judgment result is yes, determining the laser irradiation amount which corresponds to the target laser irradiation acupuncture point and is required to reach the target air effect according to the air feedback generation time information and the laser power density when the target laser irradiation acupuncture point is irradiated with laser.

As an alternative embodiment, in the first aspect of the present invention, the apparatus further includes:

the acupoint analysis module is used for determining the acupoint to be treated of the target user according to at least one qi parameter corresponding to the laser irradiation acupoint of the target user; the acupoint to be treated is used for continuously receiving laser treatment in the subsequent treatment;

and/or the number of the groups of groups,

and the parameter analysis module is used for determining the laser power density corresponding to each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts respectively corresponding to a plurality of target acupoints corresponding to the current irradiation of the target user when the new acupoint is irradiated.

As an optional implementation manner, in the first aspect of the present invention, the specific manner in which the acupoint analysis module determines the acupoint to be treated of the target user includes:

Determining that the health state of all the laser irradiation acupoints of the target user is unhealthy according to the air parameters corresponding to at least one laser irradiation acupoints of the target user;

and determining all the points to be treated of the target user as unhealthy points in the healthy state of all the laser irradiation points.

As an optional implementation manner, in the first aspect of the present invention, the specific manner in which the parameter analysis module determines the laser power density corresponding to each target acupoint when the new acupoint is irradiated includes:

for a plurality of target acupoints, acquiring the laser irradiation amount corresponding to each target acupoint;

determining the corresponding laser power density of each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts of all the target acupoints, so that the time difference between the laser irradiation times corresponding to any two target acupoints is smaller than a preset time difference threshold;

and/or the number of the groups of groups,

for a plurality of target acupoints, acquiring the air feedback generation time information corresponding to each target acupoint;

and for any one of the target acupoints, calculating time difference data between the air feedback generation time information of the target acupoints and a preset time reference value, and determining the laser power density corresponding to the target acupoints when the new acupoints are irradiated, so that the time difference between the laser irradiation time corresponding to any one of the target acupoints and the time reference value is smaller than the time difference data.

As an optional implementation manner, in the first aspect of the present invention, the feedback acquisition module includes:

the key acquisition unit is used for receiving key feedback information of the target user and determining user feedback information corresponding to at least one laser irradiation acupoint according to the key feedback information; the key feedback information is triggered by the target user through different keys on the key equipment;

and/or the number of the groups of groups,

the sound acquisition unit is used for acquiring sound information when the target user is irradiated by the laser, and determining user feedback information corresponding to at least one laser irradiation acupoint according to the sound information;

and/or the number of the groups of groups,

the biological characteristic acquisition unit is used for acquiring biological characteristic change information when the target user is irradiated by the laser, and determining user feedback information corresponding to at least one laser irradiation acupoint according to the biological characteristic change information.

As an alternative embodiment, in the first aspect of the present invention, the apparatus further includes:

and the data storage module is used for forming one or more of the medical information, the air feedback information, the health state of the acupuncture points, the laser irradiation amount and the laser power density into a medical file corresponding to the target user, storing the medical file, and/or sending the medical file to a target server for storage.

In a second aspect, the invention discloses a laser treatment system based on gas analysis, the system comprising:

a server;

a laser treatment device connected to the server;

and a laser emitting device connected to the laser treatment apparatus.

As an alternative embodiment, in a second aspect of the present invention, the apparatus comprises:

the information acquisition module is used for acquiring medical information of a target treatment user;

the acupoint determining module is used for determining at least one laser irradiation acupoint corresponding to the target user according to the medical information of the target user;

the feedback acquisition module is used for acquiring user feedback information corresponding to at least one laser irradiation acupuncture point when the at least one laser irradiation acupuncture point is subjected to laser irradiation; the user feedback information comprises at least one of air feedback information and air feedback generation time information;

and the gas analysis module is used for determining at least one gas parameter corresponding to the laser irradiation acupuncture point according to the user feedback information.

As an alternative embodiment, in the second aspect of the present invention, the medical information includes one or more of past history information, current symptom description information, historical treatment feedback information, historical diagnosis information, historical treatment advice information, historical biometric information, current biometric information, and historical laser irradiation parameters of the target user; and/or the qi feedback information comprises at least one of acupuncture point sour feeling information, acupuncture point distention feeling information, acupuncture point tingling feeling information, acupuncture point heavy feeling information, acupuncture point hot feeling information, acupuncture point cool feeling information, acupuncture point itching feeling information, acupuncture point pain feeling information, acupuncture point twitch feeling information, acupuncture point ant movement feeling information, acupuncture point specific sensation conduction information and acupuncture point specific sensation diffusion information.

As an alternative embodiment, in a second aspect of the present invention, the gas analysis module includes:

the gas type analysis unit is used for determining the health state corresponding to at least one laser irradiation acupoint according to the gas feedback information;

and/or the number of the groups of groups,

the gas laser quantity analysis unit is used for determining the laser irradiation quantity which is required to reach the target gas effect and corresponds to at least one laser irradiation acupoint according to the gas feedback information and the gas feedback generation time information;

and/or the number of the groups of groups,

and the gas comparison analysis unit is used for determining the health state corresponding to at least one laser irradiation acupoint according to the comparison result between the laser irradiation quantity and the reference irradiation quantity.

As an optional implementation manner, in the second aspect of the present invention, the air feedback generation time information includes a time difference between a start time of starting laser irradiation on the laser irradiation acupoint and a generation time of the air feedback information; the gas laser quantity analysis unit determines a specific mode of at least one laser irradiation quantity required for reaching a target gas effect corresponding to the laser irradiation acupuncture point according to the gas feedback information and the gas feedback generation time information, and the specific mode comprises the following steps:

Judging whether the target laser irradiation acupuncture point is matched with the target air effect or not according to the air feedback information;

and if the judgment result is yes, determining the laser irradiation amount which corresponds to the target laser irradiation acupuncture point and is required to reach the target air effect according to the air feedback generation time information and the laser power density when the target laser irradiation acupuncture point is irradiated with laser.

As an alternative embodiment, in the second aspect of the present invention, the apparatus further includes:

the acupoint analysis module is used for determining the acupoint to be treated of the target user according to at least one qi parameter corresponding to the laser irradiation acupoint of the target user; the acupoint to be treated is used for continuously receiving laser treatment in the subsequent treatment;

and/or the number of the groups of groups,

and the parameter analysis module is used for determining the laser power density corresponding to each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts respectively corresponding to a plurality of target acupoints corresponding to the current irradiation of the target user when the new acupoint is irradiated.

As an optional implementation manner, in the second aspect of the present invention, the specific manner in which the acupoint analysis module determines the acupoint to be treated of the target user includes:

Determining that the health state of all the laser irradiation acupoints of the target user is unhealthy according to the air parameters corresponding to at least one laser irradiation acupoints of the target user;

and determining all the points to be treated of the target user as unhealthy points in the healthy state of all the laser irradiation points.

As an optional implementation manner, in the second aspect of the present invention, the specific manner in which the parameter analysis module determines the laser power density corresponding to each of the target acupoints when the new acupoints are irradiated includes:

for a plurality of target acupoints, acquiring the laser irradiation amount corresponding to each target acupoint;

determining the corresponding laser power density of each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts of all the target acupoints, so that the time difference between the laser irradiation times corresponding to any two target acupoints is smaller than a preset time difference threshold;

and/or the number of the groups of groups,

for a plurality of target acupoints, acquiring the air feedback generation time information corresponding to each target acupoint;

and for any one of the target acupoints, calculating time difference data between the air feedback generation time information of the target acupoints and a preset time reference value, and determining the laser power density corresponding to the target acupoints when the new acupoints are irradiated, so that the time difference between the laser irradiation time corresponding to any one of the target acupoints and the time reference value is smaller than the time difference data.

As an optional implementation manner, in the second aspect of the present invention, the feedback acquisition module includes:

the key acquisition unit is used for receiving key feedback information of the target user and determining user feedback information corresponding to at least one laser irradiation acupoint according to the key feedback information; the key feedback information is triggered by the target user through different keys on the key equipment;

and/or the number of the groups of groups,

the sound acquisition unit is used for acquiring sound information when the target user is irradiated by the laser, and determining user feedback information corresponding to at least one laser irradiation acupoint according to the sound information;

and/or the number of the groups of groups,

the biological characteristic acquisition unit is used for acquiring biological characteristic change information when the target user is irradiated by the laser, and determining user feedback information corresponding to at least one laser irradiation acupoint according to the biological characteristic change information.

As an alternative embodiment, in the second aspect of the present invention, the apparatus further includes:

and the data storage module is used for forming one or more of the medical information, the air feedback information, the health state of the acupuncture points, the laser irradiation amount and the laser power density into a medical file corresponding to the target user, storing the medical file, and/or sending the medical file to a target server for storage.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

the embodiment of the invention discloses a laser treatment device based on gas analysis, which comprises: the information acquisition module is used for acquiring medical information of a target treatment user; the acupoint determining module is used for determining at least one laser irradiation acupoint corresponding to the target user according to the medical information of the target user; the feedback acquisition module is used for acquiring user feedback information corresponding to at least one laser irradiation acupuncture point when the at least one laser irradiation acupuncture point is subjected to laser irradiation; the user feedback information comprises at least one of air feedback information and air feedback generation time information; and the gas analysis module is used for determining at least one gas parameter corresponding to the laser irradiation acupuncture point according to the user feedback information. Therefore, the invention can determine the treatment acupoint according to the medical information of the user, and receive the air feedback information and the feedback time of the user to analyze the air parameters when the acupoint is treated, thereby determining the treatment effect or adjusting the treatment scheme based on the analysis result, and being beneficial to improving the treatment effect and the treatment efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a laser treatment device based on gas analysis according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of various possible configurations of a gas analysis module 104 in accordance with an embodiment of the present invention;

FIG. 3 is a schematic diagram of various possible configurations of feedback acquisition module 103 disclosed in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a laser treatment system based on gas analysis according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Before describing the specific embodiments of the present invention, the main background art related to the present invention will be briefly described, and the term "qi" refers to "qi to" in ancient times, and the term "needle feel" refers to the fact that after a needle moxibustion device such as a millineedle penetrates a acupoint to a certain depth, a needle manipulation such as lifting, inserting or twisting is performed to make the needled part obtain "qi channel" induction, which is called qi. When acupoints are used for needling, the needled part of the patient has subjective reactions such as acid swelling and tingling, and sometimes has the feeling of heat, cool, itching, pain, convulsion, ant movement, etc., or is conducted and spread along a certain direction and position. Few patients also have leap movements and tremors of the skin along the channels, and some patients also have the phenomenon of red and white lines or skin rash along the channels at the acupoints. The 'qi' is very important in the clinical operation process of acupuncture, is the key of the acupuncture to produce the therapeutic effect, and is the basis for judging the abundance or insufficiency of the channel qi, the accurate acupoint selection, the disease prognosis and the acupuncture curative effect.

In the prior art, the technology research of acupuncture "qi" is to study the influence qi factor in the needling process, mainly including needle selection, acupuncture points, needling operation (including needle insertion force, direction, depth, speed, needle operation, auxiliary operation, etc.), needle retention time, etc., and the research is difficult to quantify, so that very systematic and reproducible research conclusion cannot be formed, and the technology research is to objectively study qi, such as parameter acquisition by means of ultrasound, fMRI (functional magnetic resonance imaging), PET (positron emission tomography) and the like, or to acquire single photon values, spectra, temperature values and skin electric values of the acupuncture points during acupuncture, and to form quantitative analysis of qi effect, but such analysis does not have the original theoretical basis of fastening qi theory, has defects of self-defining qi effect, and does not analyze qi feedback information or feedback time, so that the objectified technical research result of qi established on the needling operation or physical reaction value is difficult to reach systemization and standardization.

Aiming at the defects in the prior art, the invention discloses a laser treatment device based on gas analysis, which can determine treatment points according to medical information of users and receive gas feedback information and feedback time of the users to analyze gas output parameters when the treatment points are treated, so that treatment effect can be determined or treatment scheme can be adjusted based on analysis results, and improvement of treatment effect and treatment efficiency is facilitated. The following will describe in detail.

Example 1

Referring to fig. 1, fig. 1 is a schematic diagram illustrating a laser treatment apparatus 10 based on gas analysis according to an embodiment of the invention. As shown in fig. 1, the laser treatment apparatus 10 based on the gas analysis may include an information acquisition module 101, an acupoint determination module 102, a feedback acquisition module 103 and a gas analysis module 104, where the information acquisition module 101 is configured to acquire medical information of a target treatment user, and the acupoint determination module 102 is configured to determine, according to the medical information of the target user, at least one laser irradiation acupoint corresponding to the target user, where the laser irradiation acupoint is configured to subsequently direct the laser emitting device to irradiate the laser irradiation acupoint so as to achieve an acupuncture treatment effect. Specifically, the feedback collection module 103 is configured to obtain, when performing laser irradiation on at least one laser irradiation acupoint, user feedback information corresponding to the at least one laser irradiation acupoint, where the user feedback information includes at least one of air feedback information and air feedback generation time information.

In a specific embodiment, the laser emitting device can emit laser to irradiate the laser irradiation acupoints one by one, and irradiation of each acupoint ends when user feedback information is received, or no user feedback information is forced to end within a certain time, and the information fed back by the user each time is uploaded to the central server. Optionally, after the irradiation is finished, the information acquired by the irradiation can be compared and analyzed with the database information in the central server to obtain the diagnosis conclusion, the treatment effect evaluation and the next treatment suggestion.

Specifically, the gas analysis module 104 is configured to determine, according to the user feedback information, a gas parameter corresponding to at least one laser irradiation acupoint.

Alternatively, acupoints, which are the subject of the present invention, mainly refer to specific points on the meridian line of the human body, and the traditional Chinese medicine can stimulate corresponding points on the meridian by acupuncture or massage, pressing or moxibustion to treat and prevent diseases. Specifically, in some existing theories, twelve meridian systems of the five zang-organs and six fu-organs of the human body are combined together, and a special meridian system is arranged in each of the front central "conception vessel" and the back central "governor vessel". The total of the four channels and collaterals after addition is called "fourteen channels and collaterals" or "generalized channels and collaterals", the points of the human body on which the four channels and collaterals are arranged are called "Zhengqi" and all the points are three hundred sixty five. In other existing theories, for example, 361 points in the international standard "acupuncture and moxibustion acupoint positioning" passed by the west-Tai region expansion conference of the world health organization in 2006, or the national standard "Jing Point position" established in China. There are still many hidden and remote acupoints, and if these are all included, the total number of acupoints exceeds this number. It should be noted that the above description is only for clearly describing the technical concept of the acupoints in the embodiments of the present invention, but the present invention is not limited thereto, because the number, location or concept of acupoints may change with the development of the age and the development of the theory of traditional Chinese medicine, any portion of the surface of the human body may be considered as an acupoint by the new theory, and any acupoint portion that may be stimulated to achieve the therapeutic or prophylactic effect should be considered as being included in the protection scope of the present invention.

Specifically, acupuncture is a general term of acupuncture and moxibustion, wherein acupuncture refers to a treatment method of penetrating a needle (commonly referred to as a millineedle) into a patient at a certain angle under the guidance of a traditional Chinese medicine theory, and stimulating a specific part of the human body by applying acupuncture techniques such as twisting, lifting and inserting so as to achieve the purpose of treating diseases, while moxibustion, i.e. moxibustion, abbreviated as moxibustion or moxibustion, refers to moxa sticks and moxa columns made of mugwort leaves, and the generated Ai Reci stimulates the acupuncture points or specific parts of the human body, and adjusts the physiological and biochemical functions of human body disorders by stimulating the activities of menstrual qi, so as to achieve the purpose of preventing and treating diseases, and is also related to the theory of how qi is needed to be effective for moxibustion (for example Chen Rixin, the discussion of "moxibustion can stimulate the pulse feeling as efficiently as acupuncture in 2008 in China); moxibustion must stimulate meridian sensation to improve therapeutic effect. The main points of moxibustion are the "effective" or "moxibustion is discussed in qi" (in the following, 20 days of 06 month in 2016 of clinical study of Chinese medicine) by Dong Shanjing: the "moxibustion qi is a broader experience of the patient positively correlated with the therapeutic effect, and the patient's subjective acid, tingling, heaviness, swelling, pain, electric shock reaction, feeling of flow of moxibustion or qi to the affected area, and feeling of moxibustion from pain to no pain or pain to pain are just the manifestation of qi".

The laser therapy adopted by the invention belongs to laser acupuncture, and irradiates the surface or the deep part of the acupoint area of the acupoint by using low-intensity laser beams to directly or focus or expand the beams, so as to effectively stimulate the acupoint, play roles in dredging channels and collaterals, regulating viscera, promoting qi and blood circulation, balancing yin and yang, and the like, thereby achieving the purposes of strengthening vital qi to eliminate evil, curing diseases and protecting health. The principles of laser acupuncture and its clinical application (in applied laser, 2008 01) are pointed out by the existing papers such as the Hejun et al: when the laser irradiates the acupuncture points, the acupuncture point can penetrate the skin surface, has the characteristic of acupuncture, and simultaneously, about 40 percent of energy is absorbed by the skin and converted into heat energy to play the effect of moxibustion, so that the acupuncture point has the dual functions of acupuncture and moxibustion. In addition, under the action of electromagnetic field, the positive and negative ions in the intracellular and extracellular fluids in the acupoint tissue move in opposite directions respectively, so as to generate an action potential stimulus, and the action potential electric signal also stimulates the receptor at the acupoint.

In conclusion, the acupuncture and moxibustion methods performed by laser can produce an effect of qi, and through intensive studies and repeated experiments, the applicant finds that after the laser beam with a certain intensity and a certain wavelength irradiates the acupuncture points for a certain time, the irradiated parts generally produce feeling of bloating, tingling, heavy sensation, heat, cool sensation, itching, pain, convulsion, ant and the like as acupuncture qi, or exhibit conduction and diffusion phenomena along a certain direction and part.

Therefore, the disclosed laser treatment device can determine treatment acupoints according to medical information of a user, and receive air feedback information and feedback time of the user to analyze air parameters when the acupoints are treated, so that treatment effects can be determined or treatment schemes can be adjusted based on analysis results, and improvement of treatment effects and treatment efficiency is facilitated.

Optionally, the laser treatment device of the present invention may be used in an internet platform, for example, an internet platform running on a server is provided with a diagnosis and treatment database, which establishes a diagnosis and treatment file for each acupoint, and the internet platform is provided with a plurality of stores, each store is provided with at least one laser treatment device of the present invention, and all users can enjoy the same standard diagnosis and treatment service and record in the internet platform database when carrying out laser treatment on any acupoint in any store or any laser treatment device in the internet platform.

As an alternative embodiment, the medical information acquired by the information acquisition module 101 may be a voice type, an image type or a text type of data input through a voice input device, an image input device or a text input device, for example, voice information spoken by a doctor or self-described by a user may be acquired, text information in the voice information may be recognized by a voice recognition algorithm to obtain medical information of a target user, for example, an image of a medical record of the user may be acquired, and text information in the image may be recognized by an image recognition algorithm such as an OCR recognition algorithm to obtain medical information of the target user, for example, corresponding medical information may be input directly by the doctor or the user through a human-computer interaction device such as a keyboard, a handwriting device, or the like.

Optionally, the medical information may include one or more of past medical history information, current symptom description information, historical treatment feedback information, historical diagnosis information, historical treatment advice information, historical biometric information, current biometric information, and historical laser irradiation parameters of the target user, wherein the past medical history information of the target user may include one or more of disease information, inquiry information, medication start information, and treatment result information of the target user during a historical period. Alternatively, the current symptom descriptive information may be a description of the current pathological symptoms of the target user, so as to more accurately determine the therapeutic acupoints. Optionally, the historical acupoint feedback information is acupoint feedback information when the target user receives laser treatment in the historical time period. Optionally, the historical biometric information is biometric information of the target user when the laser treatment is inscribed in the historical period of time. Optionally, the historical laser irradiation parameters are corresponding laser irradiation parameters determined by the target user in the historical time period, or laser irradiation parameters corresponding to laser treatment performed by the target user in the historical time period.

As an alternative embodiment, the acupoint determining module 102 may be a device with computing capability, which may determine at least one acupoint to be treated directly according to the medical information through a built-in algorithm, or may be a device with data transmission capability, which may transmit the medical information to the target server, and receive the laser irradiation parameters sent by the target server. Specifically, the target server may perform diagnosis by using a preset diagnosis and treatment policy, so as to obtain the laser irradiation acupoint and the laser irradiation parameter corresponding to the user, and send the laser irradiation acupoint and the laser irradiation parameter to the acupoint determining module 102, where the acupoint determining module 102 controls the laser emitting device to perform laser treatment. Alternatively, the acupoint determination module 102 may be a hardware communication device with a communication function, or a software code integrated in a control chip. Alternatively, the manner in which the acupoint determining module 102 communicates with the target server may be wired communication or wireless communication, where the wired communication may be performed through a communication optical cable connected to each other, and the wireless communication may be performed through wireless communication electromagnetic waves such as bluetooth, WIFI, and the like.

Optionally, the laser emitting device is a laser emitting device connected with a motion control device, and can emit laser to the acupuncture points of the user according to the laser irradiation parameters or the indication of the laser irradiation acupuncture points so as to achieve the acupuncture-like effect.

Optionally, the laser irradiation parameter is used to indicate one or more of irradiation time, irradiation intensity and laser irradiation power density to be irradiated with laser, wherein the irradiation time may include a single irradiation duration, or a total duration or an intermediate pause duration of multiple irradiations, and the irradiation intensity may be used to indicate power, wavelength or light intensity of laser emission.

Optionally, the target server may be provided with a medical platform through a code manner so as to be connected with a plurality of diagnosis and treatment terminals, so that the target server may distribute medical information of a user to a corresponding diagnosis and treatment terminal, and diagnose by the diagnosis and treatment terminal to obtain a corresponding laser irradiation parameter, where the specific diagnosis and treatment terminal may be a terminal with computing capability, or may be a fixed terminal or a mobile terminal controlled by a medical staff, and have the medical staff to perform corresponding diagnosis, thereby implementing reasonable distribution and digestion for a large number of diagnosis requirements, so as to alleviate the situation of shortage of medical resources.

Optionally, a neural network algorithm, such as a convolutional neural network, may be disposed in the acupoint determining module 102 or the target server, and training is performed through a training set including medical information and laser irradiated acupoints until convergence is achieved, so as to obtain a trained algorithm module, where the algorithm module can calculate the most suitable laser irradiated acupoints under the condition of receiving the medical information, so as to achieve the best therapeutic effect, and improve therapeutic efficiency.

As an alternative embodiment, the feedback collection module 103 may be a sensing device disposed on or around the user to collect user feedback information of the target user when receiving the irradiation, and in particular, the above-mentioned air feedback information may be used to reflect subjective reactions including bloating, tingling, etc. or sensations of heat, cool, itching, pain, twitch, ant, etc. of the user's acupoints when receiving the irradiation, or to present sensations of conduction and diffusion phenomena along a certain direction and location, and in particular, it may include at least one of acupoints sour sensation information, acupoints blobbing sensation information, acupoints tingling sensation information, acupoints heavy sensation information, acupoints thermal sensation information, acupressure sensation information, acupoints pain sensation information, acupressure sensation information, acupoints ant pattern information, acupoints specific sensation conduction information, and acupoints specific sensation diffusion information.

As an alternative embodiment, as shown in fig. 2a, the gas analysis module 104 includes:

and an air type analysis unit 1041, configured to determine a health state corresponding to at least one laser irradiation acupoint according to the air feedback information.

Optionally, the qi type analysis unit 1041 may determine the health state corresponding to a certain acupoint directly according to the preset qi-acupoint health state correspondence, for example, the pain of the acupoint is stronger, for example, higher than a certain pain threshold, which means that the irradiated acupoint is stronger in positive qi, the itching of the acupoint is stronger, for example, higher than a certain itching threshold, which means that the pathogenic qi is stronger, or the pain and itching of the acupoint exist simultaneously, which means that the positive qi and the pathogenic qi in the acupoint are in a game, and according to research or data analysis, the itching of the acupoint is stronger, or the pain and the itching exist simultaneously, which means that the health state of the acupoint is worse, and along with accumulation of information collection data, the analysis of the health state of the acupoint becomes more and more accurate.

As an alternative embodiment, as shown in fig. 2b, the gas analysis module 104 includes:

the gas laser quantity analysis unit 1042 is used for determining the laser irradiation quantity required for reaching the target gas effect corresponding to at least one laser irradiation acupoint according to the gas feedback information and the gas feedback generation time information.

Alternatively, the required laser irradiation amount may be defined as the number of laser photons required to irradiate the acupoint to obtain the desired effect of qi on the target acupoint. Alternatively, the number of laser photons absorbed by the acupoint has a cumulative effect, and the laser irradiation amount required for the gas generation can be calculated by multiplying the laser power density (which represents the amount of energy irradiated on the target per unit time by the laser per unit area) irradiated on the acupoint by the irradiation time. In some other cases, the relationship between the laser power density, the irradiation time, and the laser irradiation amount required for the gas may also be described from a plurality of experimental data by a mathematical model.

As an alternative embodiment, the air feedback generation time information includes a time difference between a start time of laser irradiation to start laser irradiation to the laser irradiation acupoint and a generation time of the air feedback information. Specifically, the air laser quantity analysis unit 1042 determines, according to the air feedback information and the air feedback generation time information, a specific mode of the laser irradiation quantity required for achieving the target air effect corresponding to at least one laser irradiation point, including:

Judging whether the target laser irradiation acupuncture points are matched with the target air effect according to the air feedback information;

if the judgment result is yes, determining the laser irradiation amount which corresponds to the target laser irradiation acupuncture point and is required to reach the target air effect according to the air feedback generation time information and the laser power density when the target laser irradiation acupuncture point is irradiated with laser.

Specifically, the laser irradiation amount required for achieving the target gas effect may be determined by a pre-established mathematical relationship model between the gas feedback generation time, the laser power density and the laser irradiation amount, according to the gas feedback generation time information and the laser power density, in one possible case, the product of the gas feedback generation time and the laser power density when the target laser irradiation is performed on the target laser irradiation acupoint may be directly calculated to obtain the laser irradiation amount required for achieving the target gas effect corresponding to the target laser irradiation acupoint, in some cases, a plurality of experimental data including the gas feedback generation time, the laser power density and the laser irradiation amount corresponding to the multiple irradiation may be obtained through experiments, and a mathematical relationship analysis model may be established according to the experimental data, for example, a fitting analysis may be implemented by a polynomial relationship fitting model and a fitting algorithm, so as to establish a mathematical relationship analysis model, and in the subsequent calculation of the laser irradiation amount may be implemented by the mathematical relationship analysis model.

As an alternative embodiment, as shown in fig. 2c, the gas analysis module 104 includes:

and an air comparison analysis unit 1043, configured to determine a health state corresponding to at least one laser irradiation point according to a comparison result between the laser irradiation amount and the reference irradiation amount.

Specifically, the reference irradiation amount may be an average value of one standard laser irradiation amount or multiple laser irradiation amounts of the healthy people corresponding to the laser irradiation point, or an average value of one laser irradiation amount or multiple laser irradiation amounts of the target user corresponding to the laser irradiation point in a historical time period. For example, compared with the same acupoint of healthy people, the laser irradiation amount required by the qi of the acupoint is obviously larger, the viscera corresponding to the acupoint may be in sub-health or unhealthy state, or the laser irradiation amount required by the qi of the acupoint is reduced compared with the laser irradiation amount of the same acupoint of the previous time or the previous times, which indicates that the viscera corresponding to the acupoint has better treatment effect, otherwise, no effect or poor effect.

As an alternative embodiment, as shown in fig. 3a, the feedback acquisition module 103 includes:

the key collection unit 1031 is configured to receive key feedback information of a target user, and determine user feedback information corresponding to at least one laser irradiation acupoint according to the key feedback information.

Specifically, the key feedback information is triggered by the target user through different keys on the key device.

In a specific embodiment, a remote control device may be provided, on which A, B, C, D … … keys respectively represent different air feedback information, and when the air effect is generated on the target acupoint of the user, the target user presses the corresponding key according to the air type to determine the air feedback information, and at the same time, the time difference from the start of irradiation to the pressing of the corresponding key by the target user may be calculated, so as to obtain the laser irradiation time.

As an alternative embodiment, as shown in fig. 3b, the feedback acquisition module 103 includes:

the sound collection unit 1032 is configured to obtain sound information when the target user is irradiated by the laser, and determine user feedback information corresponding to at least one laser irradiation acupoint according to the sound information.

In a specific embodiment, a voice interaction device with a voice recognition function can be provided, when the target acupoint generates the air effect, the target user speaks the air type to the device to determine the air feedback information, and meanwhile, the time difference from the beginning of irradiation to the speaking voice of the target user can be calculated to obtain the laser irradiation time.

As an alternative embodiment, as shown in fig. 3c, the feedback acquisition module 103 includes:

the biometric acquisition unit 1033 is configured to acquire biometric change information of the target user when the target user is irradiated with the laser, and determine user feedback information corresponding to at least one laser irradiation acupoint according to the biometric change information.

Alternatively, the biometric information may include one or more of blood pressure change information, blood oxygen content change information, heart rate change information, pulse condition change information, and body temperature change information of the target user. Alternatively, the biometric acquisition unit may acquire the biometric change information through an integrated acquisition device, such as a smart watch, a smart wristband or a smart probe, disposed on or around the target user, or an acquisition system composed of a plurality of separate acquisition devices, such as a biometric acquisition system including a plurality of acquisition probes. By this arrangement, the biometric information of the target user can be collected in time.

Alternatively, the biometric acquisition unit 1033 may directly determine the air feedback information through a built-in neural network algorithm and the biometric change information, for example, may collect in advance a data training set of the air feedback information types corresponding to different biometric change information, train the neural network model through the data training set to obtain a trained algorithm model, and directly determine the air feedback information according to the biometric change information through the algorithm model.

As an alternative embodiment, the apparatus further comprises:

the acupoint analysis module is used for determining the acupoint to be treated of the target user according to the qi parameters corresponding to the at least one laser irradiation acupoint of the target user.

Specifically, the acupoint to be treated is used to continue laser treatment during subsequent treatments.

As an alternative embodiment, the specific manner of determining the acupoint to be treated by the target user by the acupoint analysis module includes:

determining that the health state of all laser irradiation acupoints of the target user is unhealthy according to the qi-flowing parameters corresponding to at least one laser irradiation acupoints of the target user;

and (3) irradiating all the laser to the points, wherein the health state of the points is unhealthy, and determining the points to be treated of the target user.

Alternatively, the above-mentioned qi analysis module 104 may determine that all the laser irradiated acupoints of the target user have unhealthy or sub-healthy health states or acupoints with the same acupoints properties according to the qi parameters of the target user, so as to obtain the acupoints to be treated.

In a specific embodiment, all the determined laser irradiation points can be irradiated one by emitting laser, irradiation of each point is forcedly ended until user feedback is generated by a user or feedback information is not generated in a certain time, after all the points are irradiated, user feedback information corresponding to the collected points in the round of irradiation is analyzed, sub-health or unhealthy points are selected, for example, the points with itchy, painful or no air feedback information or the points with larger air required laser irradiation amount are selected, or the points with the same acupuncture points as the meridians are matched based on the points to obtain points to be treated, and circulation irradiation is performed on the selected points in unit time.

As an alternative embodiment, the apparatus further comprises:

and the parameter analysis module is used for determining the laser power density corresponding to each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts respectively corresponding to the plurality of target acupoints corresponding to the current irradiation of the target user when the new acupoint is irradiated.

As an alternative embodiment, the specific manner of determining the corresponding laser power density of each target acupoint when the new acupoint is irradiated by the parameter analysis module includes:

for a plurality of target acupoints, acquiring the laser irradiation amount corresponding to each target acupoint;

determining the corresponding laser power density of each target acupoint when a new acupoint is irradiated according to the laser irradiation amounts of all target acupoints, so that the time difference between the laser irradiation times corresponding to any two target acupoints is smaller than a preset time difference threshold;

and/or the number of the groups of groups,

for a plurality of target acupoints, acquiring air feedback generation time information corresponding to each target acupoint;

for any target acupoint, calculating time difference data between the air feedback generation time information of the target acupoint and a preset time reference value, and determining the laser power density corresponding to the target acupoint when a new acupoint is irradiated, so that the time difference between the laser irradiation time corresponding to any target acupoint and the time reference value is smaller than the time difference data.

Specifically, the data of the acupoints irradiated by the round can be analyzed, the laser irradiation power density is increased in the next round of irradiation for the acupoints with larger air-needed laser irradiation amount, so as to reduce the irradiation time required for obtaining the air effect, and the laser irradiation power density is reduced in the next round of irradiation for the acupoints with smaller air-needed laser irradiation amount, so as to increase the irradiation time required for obtaining the air effect, and finally, the time required for obtaining the air effect for each acupoint in the next round of irradiation is approaching.

Therefore, the improvement can lead to the improvement of the laser irradiation power density in the next round of irradiation to obtain the air effect on the target acupoint, improve the treatment effect, and lead to the improvement of the laser irradiation power density in the next round of irradiation to reduce the irradiation time required by the target acupoint to obtain the air effect, and improve the treatment efficiency of the device on the acupoint in unit time, thereby taking the effect and the efficiency into consideration and improving the final treatment effect.

Alternatively, the laser irradiation power density can be reduced for the acupoints with obviously shorter time (far less than the preset time reference value), so that the irradiation intensity of the acupoints which may cause discomfort to the target user is reduced, the target user can feel comfortable while obtaining the air feeling, the psychological acceptance degree of the target user is improved, the treatment effect is improved, or the laser irradiation power density is improved for the acupoints with obviously longer time (far greater than the preset time reference value), the irradiation intensity of the acupoints with no feeling of treatment by the target user is improved, the target user can obtain the air feeling faster, and the treatment effect is improved.

As an alternative embodiment, the apparatus further comprises:

and the data storage module is used for forming one or more of medical information, air feedback information, health state of the acupuncture points, laser irradiation amount and laser power density into a medical file corresponding to the target user, storing the medical file, and/or sending the medical file to the target server for storage.

Alternatively, the data storage module may be a device with a communication function or a hardware or software code with a storage function.

It is obvious that the treatment device described in the embodiment of the invention can utilize the characteristics of stable light source and constant power of the laser, and the laser irradiates on the acupoints, so that the acupoints can accumulate the laser irradiation along with the time, and when the acupoints absorb a certain amount of laser irradiation, the acupoints can generate the acupoints qi effect, and the diagnosis conclusion and treatment advice can be obtained by quantitatively analyzing the qi effect, so that the treatment effect is improved. And by quantitatively analyzing the laser irradiation dose and the qi type, the relationship between the acupuncture points and the qi effect can be found, so that the correspondence between the acupuncture points and the diseases can be found, and the purpose of diagnosing the diseases can be realized. Through diagnosis conclusion, selecting more specific or better therapeutic effect acupoints, and irradiating the target acupoints with laser to generate qi effect, thereby improving therapeutic effect.

Example two

Referring to fig. 4, fig. 4 is a schematic structural diagram of a laser treatment system based on acupoint feedback according to an embodiment of the present invention. As shown in fig. 4, the laser treatment system may include a server 20, a plurality of laser treatment devices 10 connected to the server, and a plurality of laser emitting apparatuses 30 connected to the laser treatment devices 10, wherein the server 20 may be a local server or a cloud server, and the connection manner between the plurality of laser treatment devices 10 and the server 20 may be a wired connection manner or a wireless connection manner. In particular, the server 20 may be configured to receive medical information uploaded by a target user and transmit the medical information to the at least one laser treatment device 10. Optionally, the laser treatment device 10 of the present invention may be used on an internet platform, for example, an internet platform running on the server 20 is provided with a diagnosis and treatment database, which establishes a diagnosis and treatment file for each acupoint, and the internet platform is provided with a plurality of shops, each shop is provided with at least one laser treatment device of the present invention, and all users can enjoy the same standard diagnosis and treatment service and record in the internet platform database when carrying out laser treatment on any one shop or any laser treatment device in the internet platform.

Specifically, as shown in fig. 1, the laser treatment apparatus 10 may include an information acquisition module 101, an acupoint determining module 102, a feedback acquisition module 103 and an air analysis module 104, where the information acquisition module 101 is configured to acquire medical information of a target treatment user, and the acupoint determining module 102 is configured to determine, according to the medical information of the target user, at least one laser irradiation acupoint corresponding to the target user, where the laser irradiation acupoint is configured to subsequently direct the laser emitting device to irradiate the laser irradiation acupoint so as to achieve an acupuncture treatment effect. Specifically, the feedback collection module 103 is configured to obtain, when performing laser irradiation on at least one laser irradiation acupoint, user feedback information corresponding to the at least one laser irradiation acupoint, where the user feedback information includes at least one of air feedback information and air feedback generation time information.

In a specific embodiment, the laser emitting device can emit laser to irradiate the laser irradiation acupoints one by one, and irradiation of each acupoint ends when user feedback information is received, or no user feedback information is forced to end within a certain time, and the information fed back by the user each time is uploaded to the central server. Optionally, after the irradiation is finished, the information acquired by the irradiation can be compared and analyzed with the database information in the central server to obtain the diagnosis conclusion, the treatment effect evaluation and the next treatment suggestion.

Specifically, the gas analysis module 104 is configured to determine, according to the user feedback information, a gas parameter corresponding to at least one laser irradiation acupoint.

Therefore, the disclosed laser treatment system can determine treatment acupoints according to medical information of users, and receive air feedback information and feedback time of users to analyze air parameters when the acupoints are treated, so that treatment effects can be determined or treatment schemes can be adjusted based on analysis results, and improvement of treatment effects and treatment efficiency is facilitated

As an alternative embodiment, the medical information acquired by the information acquisition module 101 may be a voice type, an image type or a text type of data input through a voice input device, an image input device or a text input device, for example, voice information spoken by a doctor or self-described by a user may be acquired, text information in the voice information may be recognized by a voice recognition algorithm to obtain medical information of a target user, for example, an image of a medical record of the user may be acquired, and text information in the image may be recognized by an image recognition algorithm such as an OCR recognition algorithm to obtain medical information of the target user, for example, corresponding medical information may be input directly by the doctor or the user through a human-computer interaction device such as a keyboard, a handwriting device, or the like.

Optionally, the medical information may include one or more of past medical history information, current symptom description information, historical treatment feedback information, historical diagnosis information, historical treatment advice information, historical biometric information, current biometric information, and historical laser irradiation parameters of the target user, wherein the past medical history information of the target user may include one or more of disease information, inquiry information, medication start information, and treatment result information of the target user during a historical period. Alternatively, the current symptom descriptive information may be a description of the current pathological symptoms of the target user, so as to more accurately determine the therapeutic acupoints. Optionally, the historical acupoint feedback information is acupoint feedback information when the target user receives laser treatment in the historical time period. Optionally, the historical biometric information is biometric information of the target user when the laser treatment is inscribed in the historical period of time. Optionally, the historical laser irradiation parameters are corresponding laser irradiation parameters determined by the target user in the historical time period, or laser irradiation parameters corresponding to laser treatment performed by the target user in the historical time period.

As an alternative embodiment, the acupoint determining module 102 may be a device with computing capability, which may determine at least one acupoint to be treated directly according to the medical information through a built-in algorithm, or may be a device with data transmission capability, which may transmit the medical information to the target server, and receive the laser irradiation parameters sent by the target server. Specifically, the target server may perform diagnosis by using a preset diagnosis and treatment policy, so as to obtain the laser irradiation acupoint and the laser irradiation parameter corresponding to the user, and send the laser irradiation acupoint and the laser irradiation parameter to the acupoint determining module 102, where the acupoint determining module 102 controls the laser emitting device to perform laser treatment. Alternatively, the acupoint determination module 102 may be a hardware communication device with a communication function, or a software code integrated in a control chip. Alternatively, the manner in which the acupoint determining module 102 communicates with the target server may be wired communication or wireless communication, where the wired communication may be performed through a communication optical cable connected to each other, and the wireless communication may be performed through wireless communication electromagnetic waves such as bluetooth, WIFI, and the like.

Optionally, the laser emitting device is a laser emitting device connected with a motion control device, and can emit laser to the acupuncture points of the user according to the laser irradiation parameters or the indication of the laser irradiation acupuncture points so as to achieve the acupuncture-like effect.

Optionally, the laser irradiation parameter is used to indicate one or more of irradiation time, irradiation intensity and laser irradiation power density to be irradiated with laser, wherein the irradiation time may include a single irradiation duration, or a total duration or an intermediate pause duration of multiple irradiations, and the irradiation intensity may be used to indicate power, wavelength or light intensity of laser emission.

Optionally, the target server may be provided with a medical platform through a code manner so as to be connected with a plurality of diagnosis and treatment terminals, so that the target server may distribute medical information of a user to a corresponding diagnosis and treatment terminal, and diagnose by the diagnosis and treatment terminal to obtain a corresponding laser irradiation parameter, where the specific diagnosis and treatment terminal may be a terminal with computing capability, or may be a fixed terminal or a mobile terminal controlled by a medical staff, and have the medical staff to perform corresponding diagnosis, thereby implementing reasonable distribution and digestion for a large number of diagnosis requirements, so as to alleviate the situation of shortage of medical resources.

Optionally, a neural network algorithm, such as a convolutional neural network, may be disposed in the acupoint determining module 102 or the target server, and training is performed through a training set including medical information and laser irradiated acupoints until convergence is achieved, so as to obtain a trained algorithm module, where the algorithm module can calculate the most suitable laser irradiated acupoints under the condition of receiving the medical information, so as to achieve the best therapeutic effect, and improve therapeutic efficiency.

As an alternative embodiment, the feedback collection module 103 may be a sensing device disposed on or around the user to collect user feedback information of the target user when receiving the irradiation, and in particular, the above-mentioned air feedback information may be used to reflect subjective reactions including bloating, tingling, etc. or sensations of heat, cool, itching, pain, twitch, ant, etc. of the user's acupoints when receiving the irradiation, or to present sensations of conduction and diffusion phenomena along a certain direction and location, and in particular, it may include at least one of acupoints sour sensation information, acupoints blobbing sensation information, acupoints tingling sensation information, acupoints heavy sensation information, acupoints thermal sensation information, acupressure sensation information, acupoints pain sensation information, acupressure sensation information, acupoints ant pattern information, acupoints specific sensation conduction information, and acupoints specific sensation diffusion information.

As an alternative embodiment, as shown in fig. 2a, the gas analysis module 104 includes:

and an air type analysis unit 1041, configured to determine a health state corresponding to at least one laser irradiation acupoint according to the air feedback information.

Optionally, the qi type analysis unit 1041 may determine the health state corresponding to a certain acupoint directly according to the preset qi-acupoint health state correspondence, for example, the pain of the acupoint is stronger, for example, higher than a certain pain threshold, which means that the irradiated acupoint is stronger in positive qi, the itching of the acupoint is stronger, for example, higher than a certain itching threshold, which means that the pathogenic qi is stronger, or the pain and itching of the acupoint exist simultaneously, which means that the positive qi and the pathogenic qi in the acupoint are in a game, and according to research or data analysis, the itching of the acupoint is stronger, or the pain and the itching exist simultaneously, which means that the health state of the acupoint is worse, and along with accumulation of information collection data, the analysis of the health state of the acupoint becomes more and more accurate.

As an alternative embodiment, as shown in fig. 2b, the gas analysis module 104 includes:

the gas laser quantity analysis unit 1042 is used for determining the laser irradiation quantity required for reaching the target gas effect corresponding to at least one laser irradiation acupoint according to the gas feedback information and the gas feedback generation time information.

Alternatively, the required laser irradiation amount may be defined as the number of laser photons required to irradiate the acupoint to obtain the desired effect of qi on the target acupoint. Alternatively, the number of laser photons absorbed by the acupoint has a cumulative effect, and the laser irradiation amount required for the gas generation can be calculated by multiplying the laser power density (which represents the amount of energy irradiated on the target per unit time by the laser per unit area) irradiated on the acupoint by the irradiation time. In some other cases, the relationship between the laser power density, the irradiation time, and the laser irradiation amount required for the gas may also be described from a plurality of experimental data by a mathematical model.

As an alternative embodiment, the air feedback generation time information includes a time difference between a start time of laser irradiation to start laser irradiation to the laser irradiation acupoint and a generation time of the air feedback information. Specifically, the air laser quantity analysis unit 1042 determines, according to the air feedback information and the air feedback generation time information, a specific mode of the laser irradiation quantity required for achieving the target air effect corresponding to at least one laser irradiation point, including:

Judging whether the target laser irradiation acupuncture points are matched with the target air effect according to the air feedback information;

if the judgment result is yes, determining the laser irradiation amount which corresponds to the target laser irradiation acupuncture point and is required to reach the target air effect according to the air feedback generation time information and the laser power density when the target laser irradiation acupuncture point is irradiated with laser.

Specifically, the laser irradiation amount required for achieving the target gas effect may be determined by a pre-established mathematical relationship model between the gas feedback generation time, the laser power density and the laser irradiation amount, according to the gas feedback generation time information and the laser power density, in one possible case, the product of the gas feedback generation time and the laser power density when the target laser irradiation is performed on the target laser irradiation acupoint may be directly calculated to obtain the laser irradiation amount required for achieving the target gas effect corresponding to the target laser irradiation acupoint, in some cases, a plurality of experimental data including the gas feedback generation time, the laser power density and the laser irradiation amount corresponding to the multiple irradiation may be obtained through experiments, and a mathematical relationship analysis model may be established according to the experimental data, for example, a fitting analysis may be implemented by a polynomial relationship fitting model and a fitting algorithm, so as to establish a mathematical relationship analysis model, and in the subsequent calculation of the laser irradiation amount may be implemented by the mathematical relationship analysis model.

As an alternative embodiment, as shown in fig. 2c, the gas analysis module 104 includes:

and an air comparison analysis unit 1043, configured to determine a health state corresponding to at least one laser irradiation point according to a comparison result between the laser irradiation amount and the reference irradiation amount.

Specifically, the reference irradiation amount may be an average value of one-time standard laser irradiation amount or multiple laser irradiation amounts of the healthy people corresponding to the laser irradiation point, or an average value of one-time laser irradiation amount or multiple laser irradiation amounts of the target user corresponding to the laser irradiation point in a historical time period. For example, compared with the same acupoint of healthy people, the laser irradiation amount required by the qi of the acupoint is obviously larger, the viscera corresponding to the acupoint may be in sub-health or unhealthy state, or the laser irradiation amount required by the qi of the acupoint is reduced compared with the laser irradiation amount of the same acupoint of the previous time or the previous times, which indicates that the viscera corresponding to the acupoint has better treatment effect, otherwise, no effect or poor effect.

As an alternative embodiment, as shown in fig. 3a, the feedback acquisition module 103 includes:

the key collection unit 1031 is configured to receive key feedback information of a target user, and determine user feedback information corresponding to at least one laser irradiation acupoint according to the key feedback information.

Specifically, the key feedback information is triggered by the target user through different keys on the key device.

In a specific embodiment, a remote control device may be provided, on which A, B, C, D … … keys respectively represent different air feedback information, and when the air effect is generated on the target acupoint of the user, the target user presses the corresponding key according to the air type to determine the air feedback information, and at the same time, the time difference from the start of irradiation to the pressing of the corresponding key by the target user may be calculated, so as to obtain the laser irradiation time.

As an alternative embodiment, as shown in fig. 3b, the feedback acquisition module 103 includes:

the sound collection unit 1032 is configured to obtain sound information when the target user is irradiated by the laser, and determine user feedback information corresponding to at least one laser irradiation acupoint according to the sound information.

In a specific embodiment, a voice interaction device with a voice recognition function can be provided, when the target acupoint generates the air effect, the target user speaks the air type to the device to determine the air feedback information, and meanwhile, the time difference from the beginning of irradiation to the speaking voice of the target user can be calculated to obtain the laser irradiation time.

As an alternative embodiment, as shown in fig. 3c, the feedback acquisition module 103 includes:

the biometric acquisition unit 1033 is configured to acquire biometric change information of the target user when the target user is irradiated with the laser, and determine user feedback information corresponding to at least one laser irradiation acupoint according to the biometric change information.

Alternatively, the biometric information may include one or more of blood pressure change information, blood oxygen content change information, heart rate change information, pulse condition change information, and body temperature change information of the target user. Alternatively, the biometric acquisition unit may acquire the biometric change information through an integrated acquisition device, such as a smart watch, a smart wristband or a smart probe, disposed on or around the target user, or an acquisition system composed of a plurality of separate acquisition devices, such as a biometric acquisition system including a plurality of acquisition probes. By this arrangement, the biometric information of the target user can be collected in time.

Alternatively, the biometric acquisition unit 1033 may directly determine the air feedback information through a built-in neural network algorithm and the biometric change information, for example, may collect in advance a data training set of the air feedback information types corresponding to different biometric change information, train the neural network model through the data training set to obtain a trained algorithm model, and directly determine the air feedback information according to the biometric change information through the algorithm model.

As an alternative embodiment, the apparatus further comprises:

the acupoint analysis module is used for determining the acupoint to be treated of the target user according to the qi parameters corresponding to the at least one laser irradiation acupoint of the target user.

Specifically, the acupoint to be treated is used to continue laser treatment during subsequent treatments.

As an alternative embodiment, the specific manner of determining the acupoint to be treated by the target user by the acupoint analysis module includes:

determining that the health state of all laser irradiation acupoints of the target user is unhealthy according to the qi-flowing parameters corresponding to at least one laser irradiation acupoints of the target user;

and (3) irradiating all the laser to the points, wherein the health state of the points is unhealthy, and determining the points to be treated of the target user.

Alternatively, the above-mentioned qi analysis module 104 may determine that all the laser irradiated acupoints of the target user have unhealthy or sub-healthy health states or acupoints with the same acupoints properties according to the qi parameters of the target user, so as to obtain the acupoints to be treated.

In a specific embodiment, all the determined laser irradiation points can be irradiated one by emitting laser, irradiation of each point is forcedly ended until user feedback is generated by a user or feedback information is not generated in a certain time, after all the points are irradiated, user feedback information corresponding to the collected points in the round of irradiation is analyzed, sub-health or unhealthy points are selected, for example, the points with itchy, painful or no air feedback information or the points with larger air required laser irradiation amount are selected, or the points with the same acupuncture points as the meridians are matched based on the points to obtain points to be treated, and circulation irradiation is performed on the selected points in unit time.

As an alternative embodiment, the apparatus further comprises:

and the parameter analysis module is used for determining the laser power density corresponding to each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts respectively corresponding to the plurality of target acupoints corresponding to the current irradiation of the target user when the new acupoint is irradiated.

As an alternative embodiment, the specific manner of determining the corresponding laser power density of each target acupoint when the new acupoint is irradiated by the parameter analysis module includes:

for a plurality of target acupoints, acquiring the laser irradiation amount corresponding to each target acupoint;

determining the corresponding laser power density of each target acupoint when a new acupoint is irradiated according to the laser irradiation amounts of all target acupoints, so that the time difference between the laser irradiation times corresponding to any two target acupoints is smaller than a preset time difference threshold;

and/or the number of the groups of groups,

for a plurality of target acupoints, acquiring air feedback generation time information corresponding to each target acupoint;

for any target acupoint, calculating time difference data between the air feedback generation time information of the target acupoint and a preset time reference value, and determining the laser power density corresponding to the target acupoint when a new acupoint is irradiated, so that the time difference between the laser irradiation time corresponding to any target acupoint and the time reference value is smaller than the time difference data.

Specifically, the data of the acupoints irradiated by the round can be analyzed, the laser irradiation power density is increased in the next round of irradiation for the acupoints with larger air-needed laser irradiation amount, so as to reduce the irradiation time required for obtaining the air effect, and the laser irradiation power density is reduced in the next round of irradiation for the acupoints with smaller air-needed laser irradiation amount, so as to increase the irradiation time required for obtaining the air effect, and finally, the time required for obtaining the air effect for each acupoint in the next round of irradiation is approaching.

Therefore, the improvement can lead to the improvement of the laser irradiation power density in the next round of irradiation to obtain the air effect on the target acupoint, improve the treatment effect, and lead to the improvement of the laser irradiation power density in the next round of irradiation to reduce the irradiation time required by the target acupoint to obtain the air effect, and improve the treatment efficiency of the device on the acupoint in unit time, thereby taking the effect and the efficiency into consideration and improving the final treatment effect.

Alternatively, the laser irradiation power density can be reduced for the acupoints with obviously shorter time (far less than the preset time reference value), so that the irradiation intensity of the acupoints which may cause discomfort to the target user is reduced, the target user can feel comfortable while obtaining the air feeling, the psychological acceptance degree of the target user is improved, the treatment effect is improved, or the laser irradiation power density is improved for the acupoints with obviously longer time (far greater than the preset time reference value), the irradiation intensity of the acupoints with no feeling of treatment by the target user is improved, the target user can obtain the air feeling faster, and the treatment effect is improved.

As an alternative embodiment, the apparatus further comprises:

and the data storage module is used for forming one or more of medical information, air feedback information, health state of the acupuncture points, laser irradiation amount and laser power density into a medical file corresponding to the target user, storing the medical file, and/or sending the medical file to the target server for storage.

Alternatively, the data storage module may be a device with a communication function or a hardware or software code with a storage function.

Obviously, the treatment system described in the embodiment of the invention can utilize the characteristics of stable light source and constant power of the laser, and the laser irradiates on the acupuncture points, so that the acupuncture points can accumulate laser irradiation along with the time, and when the acupuncture points absorb a certain amount of laser irradiation, the acupuncture points can generate the characteristic of acupuncture qi effect, and the diagnosis conclusion and treatment suggestion can be obtained by quantitatively analyzing the qi effect, so that the treatment effect is improved. And by quantitatively analyzing the laser irradiation dose and the qi type, the relationship between the acupuncture points and the qi effect can be found, so that the correspondence between the acupuncture points and the diseases can be found, and the purpose of diagnosing the diseases can be realized. Through diagnosis conclusion, selecting more specific or better therapeutic effect acupoints, and irradiating the target acupoints with laser to generate qi effect, thereby improving therapeutic effect.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the embodiment of the present invention is disclosed only in the preferred embodiment of the present invention, and is only used for illustrating the technical scheme of the present invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A laser treatment device based on gas analysis, the device comprising:

the information acquisition module is used for acquiring medical information of a target treatment user;

the acupoint determining module is used for determining at least one laser irradiation acupoint corresponding to the target user according to the medical information of the target user;

the feedback acquisition module is used for acquiring user feedback information corresponding to at least one laser irradiation acupuncture point when the at least one laser irradiation acupuncture point is subjected to laser irradiation; the user feedback information comprises at least one of air feedback information and air feedback generation time information;

And the gas analysis module is used for determining at least one gas parameter corresponding to the laser irradiation acupuncture point according to the user feedback information.

2. The gas analysis-based laser therapy apparatus of claim 1, wherein the medical information includes one or more of past medical history information, current symptom description information, historical therapy feedback information, historical diagnostic information, historical therapy advice information, historical biometric information, current biometric information, and historical laser irradiation parameters of the target user; and/or the qi feedback information comprises at least one of acupuncture point sour feeling information, acupuncture point distention feeling information, acupuncture point tingling feeling information, acupuncture point heavy feeling information, acupuncture point hot feeling information, acupuncture point cool feeling information, acupuncture point itching feeling information, acupuncture point pain feeling information, acupuncture point twitch feeling information, acupuncture point ant movement feeling information, acupuncture point specific sensation conduction information and acupuncture point specific sensation diffusion information.

3. The gas analysis-based laser therapy apparatus of claim 1, wherein the gas analysis module comprises:

the gas type analysis unit is used for determining the health state corresponding to at least one laser irradiation acupoint according to the gas feedback information;

And/or the number of the groups of groups,

the gas laser quantity analysis unit is used for determining the laser irradiation quantity which is required to reach the target gas effect and corresponds to at least one laser irradiation acupoint according to the gas feedback information and the gas feedback generation time information;

and/or the number of the groups of groups,

and the gas comparison analysis unit is used for determining the health state corresponding to at least one laser irradiation acupoint according to the comparison result between the laser irradiation quantity and the reference irradiation quantity.

4. The laser therapy apparatus based on gas analysis according to claim 3, wherein the gas feedback generation time information includes a time difference between a start time of laser irradiation to the laser irradiation acupoint and a generation time of the gas feedback information; the gas laser quantity analysis unit determines a specific mode of at least one laser irradiation quantity required for reaching a target gas effect corresponding to the laser irradiation acupuncture point according to the gas feedback information and the gas feedback generation time information, and the specific mode comprises the following steps:

judging whether the target laser irradiation acupuncture point is matched with the target air effect or not according to the air feedback information;

and if the judgment result is yes, determining the laser irradiation amount which corresponds to the target laser irradiation acupuncture point and is required to reach the target air effect according to the air feedback generation time information and the laser power density when the target laser irradiation acupuncture point is irradiated with laser.

5. The gas analysis-based laser therapy apparatus of claim 3, further comprising:

the acupoint analysis module is used for determining the acupoint to be treated of the target user according to at least one qi parameter corresponding to the laser irradiation acupoint of the target user; the acupoint to be treated is used for continuously receiving laser treatment in the subsequent treatment;

and/or the number of the groups of groups,

and the parameter analysis module is used for determining the laser power density corresponding to each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts respectively corresponding to a plurality of target acupoints corresponding to the current irradiation of the target user when the new acupoint is irradiated.

6. The laser therapy apparatus based on gas analysis according to claim 5, wherein the acupoint analysis module determines a specific manner of the target user's acupoint to be treated, comprising:

determining that the health state of all the laser irradiation acupoints of the target user is unhealthy according to the air parameters corresponding to at least one laser irradiation acupoints of the target user;

and determining all the points to be treated of the target user as unhealthy points in the healthy state of all the laser irradiation points.

7. The gas analysis-based laser therapy apparatus of claim 5, wherein the parameter analysis module determines a specific manner of laser power density corresponding to each of the target acupoints at the time of the new acupoint irradiation, comprising:

for a plurality of target acupoints, acquiring the laser irradiation amount corresponding to each target acupoint;

determining the corresponding laser power density of each target acupoint when the new acupoint is irradiated according to the laser irradiation amounts of all the target acupoints, so that the time difference between the laser irradiation times corresponding to any two target acupoints is smaller than a preset time difference threshold;

and/or the number of the groups of groups,

for a plurality of target acupoints, acquiring the air feedback generation time information corresponding to each target acupoint;

and for any one of the target acupoints, calculating time difference data between the air feedback generation time information of the target acupoints and a preset time reference value, and determining the laser power density corresponding to the target acupoints when the new acupoints are irradiated, so that the time difference between the laser irradiation time corresponding to any one of the target acupoints and the time reference value is smaller than the time difference data.

8. The gas analysis-based laser therapy apparatus of claim 1, wherein the feedback acquisition module comprises:

the key acquisition unit is used for receiving key feedback information of the target user and determining user feedback information corresponding to at least one laser irradiation acupoint according to the key feedback information; the key feedback information is triggered by the target user through different keys on the key equipment;

and/or the number of the groups of groups,

the sound acquisition unit is used for acquiring sound information when the target user is irradiated by the laser, and determining user feedback information corresponding to at least one laser irradiation acupoint according to the sound information;

and/or the number of the groups of groups,

the biological characteristic acquisition unit is used for acquiring biological characteristic change information when the target user is irradiated by the laser, and determining user feedback information corresponding to at least one laser irradiation acupoint according to the biological characteristic change information.

9. The gas analysis-based laser therapy apparatus of claim 1, further comprising:

and the data storage module is used for forming one or more of the medical information, the air feedback information, the health state of the acupuncture points, the laser irradiation amount and the laser power density into a medical file corresponding to the target user, storing the medical file, and/or sending the medical file to a target server for storage.

10. A laser treatment system based on gas analysis, the system comprising:

a server;

a laser treatment device based on gas analysis as claimed in any one of claims 1-9 connected to the server;

and a laser emitting device connected to the laser treatment apparatus.

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