CN116649964A - Portable oximeter based on photodynamic therapy - Google Patents

Abstract

A portable oximeter based on photodynamic therapy belongs to the technical field of oximeters, and aims to solve the problems that the existing portable oximeter is single in function and a display screen is easily scratched by hard objects when being stored in a knapsack for use; according to the invention, the operation panel is movably arranged at the convex mounting groove at the top edge of the oximeter main body through the deflection block and the movable rotating shaft, and the operation panel is rotationally regulated based on the oximeter main body, so that the power generation photovoltaic panels and the display screens at the two sides of the operation panel are rotationally switched, the display screens are isolated and protected by the yielding cavity at the top of the oximeter main body when not in use, after the oximeter main body is bound to the arm of a user through the fixing band, a plurality of groups of detection patches at the bottom of the oximeter main body are attached to the skin to detect a plurality of data simultaneously, and after detection is finished, infrared light waves are emitted based on the infrared treatment lamp to promote blood circulation and improve blood oxygen saturation, so that fatigue and pain of the user are relieved, and the oximeter is convenient and practical.

Description

Portable oximeter based on photodynamic therapy

Technical Field

The invention relates to the technical field of oximeter, in particular to a portable oximeter based on photodynamic therapy.

Background

Blood oxygen refers to oxygen in blood, and the normal blood oxygen saturation of human body is more than 95%. The higher the oxygen content in the blood, the better the metabolism of the person. Of course, high blood oxygen content is not a good phenomenon, and the blood oxygen in a human body has certain saturation, so that insufficient oxygen supply can be caused by the too low oxygen supply of the human body, and the aging of cells in the human body can be caused by the too high oxygen supply. The main measurement indexes of the oximeter are pulse rate, blood oxygen saturation and Perfusion Index (PI) respectively. Blood oxygen saturation is one of the fundamental data important in clinical medicine.

The patent with the publication number of CN210644035U discloses a wireless blood oxygen saturation detection assembly, including the instrument body, be equipped with blood oxygen saturation detection assembly on the instrument body, the bottom of instrument body is equipped with the base, the instrument body passes through locking subassembly with the base and is connected, the installation cavity has been seted up in the base, install the integrated circuit board in the installation cavity, integrated circuit board top is equipped with rechargeable battery, still include wireless charging module, be wireless charging for rechargeable battery, can detect neonate's blood oxygen saturation through blood oxygen saturation detection assembly, detect the blood oxygen saturation value at the two positions of infant, explore and draw the theoretical basis of reflective blood oxygen detection. The existing portable oximeter has the advantages that the functions are only to detect pulse rate, blood oxygen saturation and other data, the functions are single, and when the portable oximeter is stored in a knapsack to be carried, the display screen of the portable oximeter is easily scratched by hard objects, so that the subsequent use is affected.

Thus, a portable oximeter based on photodynamic therapy is proposed.

Disclosure of Invention

The invention aims to provide a portable oximeter based on photodynamic therapy, and aims to solve the problems that in the background technology, the existing portable oximeter has single function and a display screen is easily scratched by hard objects and is affected when being stored in a knapsack for use.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a portable oximeter based on photodynamic therapy, including the oximeter main part, the protruding middle part department in oximeter main part top border is provided with the mounting groove, it is provided with the deflection piece to rotate through the loose axle in the mounting groove, deflection piece keeps away from stiff end one side swing joint has the activity pivot, the terminal fixed connection of activity pivot is on the lateral wall of operating panel one end, the gomphosis is installed on one side outer wall of operating panel and is used for outdoor luminous energy power generation's electricity generation photovoltaic board, be provided with the display screen on its opposite side outer wall, be provided with operating button on the operating panel outer wall of display screen adjacent department, the chamber of stepping down has been seted up at oximeter main part top correspondence display screen and operating button department, it holds display screen and operating button and protects it, the constant head tank has been seted up in the middle part department of oximeter main part lower extreme, evenly spaced fixedly connected with is used for photodynamic therapy's infrared treatment lamp on the constant head tank roof, and evenly spaced gomphosis is provided with the detection paster in the oximeter main part bottom in the adjacent department of constant head tank both sides, the detection paster outside.

Further, one end fixed connection of fixed bandage is in detecting the oximeter main part bottom in the paster outside, and its other end runs through the casing bottom of oximeter main part and extends to its inside, and fixed bandage in the oximeter main part is convoluteed on the outer wall of rolling pole, and the rolling pole activity wears to overlap in the inner chamber of location barrel holder, and the location barrel holder is fixed in on the casing bottom plate of oximeter main part, and the one end fixedly connected with of rolling pole is spacing section of thick bamboo, and spacing section of thick bamboo links to each other with the one end activity of adjusting the member, and the adjusting member other end runs through and extends to the casing lateral wall outside of oximeter main part.

Further, adjust the member including running through the rotary rod that oximeter main part one end casing lateral wall set up and the spacing dish of activity cutting ferrule in draw-in groove on the rotary rod outer wall, the winding is provided with reset spring on the rotary rod outer wall between spacing dish lateral wall and oximeter main part casing lateral wall, the terminal fixedly connected with spacing inserted bar of rotary rod, and fixedly connected with auxiliary ejector pin on the outer wall of spacing dish one side, in the guide chute on the wedge inclined plane of the terminal movable block of auxiliary ejector pin, the location slider activity block of wedge bottom is in the spout on oximeter main part casing bottom plate, and the terminal fixedly connected with dogtooth fixture block of wedge, the dogtooth fixture block corresponds the tight lock toothed ring setting on the spacing section of thick bamboo outer wall.

Further, the inside of oximeter main body is equipped with detection chip unit, positioning device, storage battery, transformer, memory transfer device and communication device, specifically includes:

the information processing unit is used for recording and processing the identity information of the portable oximeter by using the object, processing and archiving blood oxygen saturation, pulse rate, body temperature and blood pressure detection data of the object each time based on identity recognition during detection, and uploading the detection data after tidying and archiving;

the medical service unit is used for carrying out identity recognition matching on uploaded user detection data, establishing an uploading extraction channel, carrying out data analysis on the detection data of the detection objects after being extracted based on big data processing, evaluating the body health state of the user and carrying out rehabilitation guidance on the evaluated health state;

and the information interaction unit is used for uploading and displaying the detection data and the evaluation report of the user based on the Internet, enabling a doctor to conduct remote supervision after the data is uploaded, and receiving feedback information of the doctor.

Further, the information processing unit includes:

the information input module is used for recording and collecting identity information of a user object of the portable oximeter, and the user establishes an identity identification file of the user through voice input, wherein the identity identification file is used as a use identification basis of the object;

the identity recognition module is used for recognizing and judging identity information of a user based on tone and voice domain input by voice when the identity recognition file is established, and providing matching binding and filing basis for the follow-up input of blood oxygen saturation, pulse rate, body temperature and blood pressure detection data;

the data receiving module is used for uploading and receiving body detection data of each time of a user and transmitting the received detection data to the next processing procedure;

the data processing module is used for cleaning, removing impurities, screening and converting the received detection data, converting the detection data into electric signals and transmitting the electric signals;

and the archiving and sorting module is used for sorting and sorting the detection data after cleaning, impurity removal and screening to form complete archival data, so that the archival data is easier to access and manage, and a user can quickly find the required data.

Further, the medical service unit includes:

the information matching module is used for matching and binding the archived detection data with the user identification identity information, so that the archived detection data is automatically classified under the identified user identification information file and stored;

the data analysis module is used for carrying out calculation analysis on the detection data after the identity binding and rapidly locking abnormal data in the detection data by combining the prior case data of a user;

the risk evaluation module is used for carrying out big data analysis and evaluation on the detection data of the user, judging the current physical health state of the user, carrying out risk evaluation on the prevalence rate of the sudden disease of the user, and obtaining a corresponding evaluation risk value;

the guiding rehabilitation module is used for providing different humanized guiding rehabilitation training schemes for the user under the remote supervision of doctors under the state of discomfort of the body health assessment of the user so as to help the user to regulate the body state.

Further, the risk assessment module is further used for alarming when the assessed risk value breaks through the safety threshold value, reminding the user and relatives thereof to pay attention to the current physical state of the user in danger, preventing the user from having the danger of sudden onset, and the safety threshold value of risk assessment is set to be 5.0.

Further, the risk assessment module analyzes the detection data based on the random forest model, and the method for judging the physical health assessment risk value of the user by utilizing the Framingham risk scoring model is as follows:wherein the method comprises the steps ofX is the input sample, fi (x) is the output of the ith decision tree, N is the number of decision trees, and F (x) is the output of the random forest;

for new data, inputting the new data into each decision tree for classification, determining a final class in a majority voting mode, and performing effective and ineffective classification processing on a plurality of groups of detection data by using a random forest model;

calculating the average value of multiple groups of effective detection data, determining the baseline risk of a user based on the average value of the detection data, and determining the disease risk by combining the relative risk coefficient of the patient, wherein the calculation and determination formula is 10 years of CVD occurrence risk = baseline risk.

Further, the risk classification of the risk assessment module is respectively: detecting that the estimated value is sub-health within the range of 0-2.0; the detection evaluation value is between 2.1 and 5.0, which is easy to cause physical discomfort; the incidence rate is higher when the detection evaluation value is between 5.1 and 8.0; the detection evaluation value is between 8.1 and 10, which is an outbreak, and indicates that the user is in an extremely dangerous state to be ill.

Further, a coaching rehabilitation module comprising:

the diet guidance module is used for pertinently adjusting the diet habit of the user according to the current physical health evaluation state of the user, giving a scientific and effective diet and conditioning the body of the user from the aspect of diet;

the medicine guiding module is used for giving a medicine treatment scheme under the supervision and guidance of a doctor under the condition that the body of a user is dangerous, and guiding the user to correctly purchase medicines for taking treatment;

the exercise guidance module is used for pertinently guiding a user to perform systematic exercise and strengthen physical quality of the user under the condition that the patient is at general risk, so that physical health is recovered through exercise strengthening;

the work and rest guiding module is used for scientifically guiding the patient according to the sleeping quality condition of the patient, designating a detailed work and rest time scheme, improving the constitution of the user by improving the sleeping quality, and eliminating the adverse effect caused by irregular work and rest.

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

according to the portable oximeter based on photodynamic therapy, when the oximeter is not used, the power generation photovoltaic panel on the operation panel faces upwards, so that a user carries the oximeter outdoors, and the power generation photovoltaic panel absorbs the heat energy of sunlight to perform photovoltaic power generation and store; during the use, the operation panel is overturned firstly and is deflected upwards in the mounting groove based on the deflection block, the tail end of the operation panel lifts the driving operation panel and rotates 180 degrees based on the deflection block by utilizing the movable rotating shaft, the display screen is enabled to face upwards after the operation panel is overturned, the operation panel is pressed down and attached to the top surface of the storage platform at the top of the oximeter main body, the oximeter main body is sleeved on the arm of a user by utilizing the fixing binding band, the power supply of the oximeter main body is started, the skin of the user attached to the patch is detected to detect multiple data such as blood oxygen saturation, pulse rate, body temperature and blood pressure in real time, after detection, the infrared treatment lamp emits infrared light waves to promote blood circulation and blood oxygen saturation of the arm of the user, so that fatigue and pain are relieved, the oximeter main body is closed after the light wave treatment of the infrared treatment lamp is finished, after the operation panel is controlled to reversely rotate 180 degrees again according to the method, the display screen and the operation button are suspended in the storage cavity at the top of the storage platform when the operation panel is put flat again, thereby protecting the display screen, the display screen is prevented from being easily scratched when the oximeter is carried and stored, the blood oxygen meter is integrated with the therapy, photovoltaic power generation and self-carried, and the portable, and convenient and use are convenient.

Drawings

FIG. 1 is a schematic view of an unfolding and folding structure of an oximeter body according to the present invention;

FIG. 2 is a schematic view showing the structure of the oximeter body according to the present invention in its unfolded state;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is a schematic view showing the bottom view of the oximeter body of the instant invention;

FIG. 5 is a schematic view of the mounting structure of the adjustment lever, winding lever and fixing strap of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5B according to the present invention;

FIG. 7 is a schematic diagram of a test chip unit according to the present invention;

FIG. 8 is a schematic diagram of the information interaction unit of the present invention;

FIG. 9 is a flow chart of risk assessment of the risk assessment module of the present invention;

FIG. 10 is a risk assessment level alert table of the risk assessment module of the present invention;

fig. 11 is a diagram of a rehabilitation module architecture according to the present invention.

In the figure: 1. an oximeter body; 2. a mounting groove; 3. a deflection block; 4. a movable rotating shaft; 5. an operation panel; 6. generating a photovoltaic panel; 7. a display screen; 8. operating a button; 9. a yielding cavity; 10. a positioning groove; 11. an infrared therapeutic lamp; 12. detecting a patch; 13. fixing the binding band; 14. a winding rod; 15. positioning a cylinder seat; 16. a limiting cylinder; 161. locking the toothed ring; 17. an adjusting rod piece; 171. a rotating rod; 172. a limiting disc; 173. a return spring; 174. a limit inserted link; 175. auxiliary ejector rods; 176. wedge blocks; 177. a guide chute; 178. positioning a sliding block; 179. and a convex tooth clamping block.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but 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.

In order to solve the problems that the existing portable oximeter has single function and the display screen 7 is easily scratched by hard objects when being stored in a backpack for use, referring to fig. 1-4, the following preferred technical scheme is provided:

the utility model provides a portable oximeter based on photodynamic therapy, including oximeter main part 1 and set up in the mounting groove 2 of the protruding middle part department in oximeter main part 1 top border, be provided with deflection piece 3 through the loose axle rotation in the mounting groove 2, deflection piece 3 is kept away from stiff end one side swing joint and is had movable pivot 4, the terminal fixed connection of movable pivot 4 is on the lateral wall of operating panel 5 one end, the oximeter main part 1 top of protruding one side in border is because the difference in height forms the accommodation platform of same size with operating panel 5, when operating panel 5 operation is put down, its top is parallel and level with the protruding top in border, the gomphosis is installed on one side outer wall of operating panel 5 and is used for outdoor light energy power generation's power generation photovoltaic board 6, be provided with display screen 7 on its opposite side outer wall, be provided with operating button 8 on the operating panel 5 outer wall of the adjacent department of display screen 7, operating button 8 one side operating panel 5 outer wall is last to be provided with the sound track hole, the chamber 9 of stepping down is offered in operating button 8 department corresponding display screen 7 and operating button 8 top of oximeter main part 1, it holds display screen 7 and operating button 8 and carries out protection to it, the same size as operating panel 5, the power generation photovoltaic panel 6 is provided with the power generation photovoltaic panel 6 on the side of operating panel 5, the side is provided with the side 10 on the side wall of operating button 8, the side is provided with the side wall of operating button 3, the side wall 3, the power on the operating button 3 is provided with a bridge is provided with a sound track, on the side 10, the side of the operating panel 1 has 10, the side 3 has a 3, the device has a 3 on the operating blade, on the operating device has a 3 on the end 3, on the side 3.

Specifically, when the oximeter is not in use, the power generation photovoltaic panel 6 on the operation panel 5 faces upwards, so that a user carries the oximeter outdoors, the power generation photovoltaic panel 6 absorbs the heat energy of sunlight to perform photovoltaic power generation, and the heat energy is stored in the storage battery in the oximeter main body 1 for utilization, and the cruising ability of the oximeter in outdoor use is improved; when the oximeter is used, firstly, the operation panel 5 is turned over and deflected upwards in the mounting groove 2 based on the deflection block 3, after the tail end of the operation panel 5 is lifted by a certain height, the movable rotating shaft 4 on the operation panel 5 is driven to rotate 180 degrees based on the deflection block 3, so that the display screen 7 is upwards after the operation panel 5 is turned over, then the operation panel 5 is pressed down to be attached to the top surface of the storage platform at the top of the oximeter main body 1, the oximeter main body 1 is sleeved on the arm of a user by the fixing strap 13, the power supply of the oximeter main body 1 is started after the detection patch 12 is attached to the skin of the user, the oximeter main body 1 detects multiple data such as the blood oxygen saturation, the pulse rate, the body temperature and the blood pressure of the user in real time based on the detection patch 12, the infrared treatment lamp 11 at the bottom of the oximeter main body 1 is started after the detection, the infrared treatment lamp 11 promotes the blood circulation and the blood oxygen saturation of the arm of the user based on the infrared light wave, so that fatigue and pain are relieved, the oximeter main body 1 is closed after the treatment is finished, the operation panel 5 is controlled to rotate 180 degrees again according to the method, the operation panel 5 is carried out reversely, the display screen 7 is carried by the optical wave and the optical wave is carried by the optical wave, the portable power generator is carried by the optical wave 7, the portable electronic power generator is carried by the user, the portable electronic power generator is protected by the display screen 7, the portable is protected by the portable oxygen protector, and the portable oxygen protector is protected by the top is protected by the display screen 7, and the portable is protected by the human oxygen and the human body is protected.

In order to prevent the fixing band 13 from loosening to affect the storage and carrying of the oximeter, as shown in fig. 2 to 5, the following preferable technical scheme is provided:

one end of the fixing strap 13 is fixedly connected to the bottom of the oximeter main body 1 outside the detection patch 12, the other end of the fixing strap penetrates through the bottom of the shell of the oximeter main body 1 and extends to the inside of the oximeter main body, the fixing strap 13 in the oximeter main body 1 is wound on the outer wall of the winding rod 14, the winding rod 14 is movably sleeved in the inner cavity of the positioning cylinder seat 15, the positioning cylinder seat 15 is fixed on the shell bottom plate of the oximeter main body 1, one end of the winding rod 14 is fixedly connected with the limiting cylinder 16, the limiting cylinder 16 is movably connected with one end of the adjusting rod 17, and the other end of the adjusting rod 17 penetrates through and extends to the outer side of the shell side wall of the oximeter main body 1.

The adjusting rod member 17 comprises a rotating rod 171 penetrating through the side wall of the shell at one end of the oximeter main body 1 and a limiting disc 172 movably clamped in a clamping groove on the outer wall of the rotating rod 171, a reset spring 173 is wound on the outer wall of the rotating rod 171 between the side wall of the limiting disc 172 and the side wall of the oximeter main body 1, the tail end of the rotating rod 171 is fixedly connected with a limiting inserted rod 174, when the reset spring 173 keeps a normal diastole state, the limiting inserted rod 174 is separated from the inner cavity of the limiting cylinder 16, an auxiliary ejector rod 175 is fixedly connected to the outer wall at one side of the limiting disc 172, the tail end of the auxiliary ejector rod 175 is movably clamped in a guide chute 177 on the inclined surface of a wedge block 176, a positioning sliding block 178 at the bottom of the wedge block 176 is movably clamped in a chute on the bottom plate of the oximeter main body 1, the chute is perpendicular to the rotating rod 171, a convex tooth clamping block 179 is fixedly connected to the tail end of the wedge block 176, the convex tooth clamping block 179 is arranged corresponding to a locking tooth ring 161 on the outer wall of the limiting cylinder 16, and at the moment, the convex tooth clamping block 179 is meshed with the convex tooth on the outer wall of the locking ring 161.

Specifically, the oximeter is held by one hand, the end of the rotary rod 171 on one end side wall of the oximeter main body 1 is pressed by fingers, the rotary rod 171 is pulled towards one end of the shell inside of the oximeter main body 1 based on the limiting disc 172, the limiting inserting rod 174 at the end of the rotary rod 171 is inserted into the limiting cylinder 16 at the end of the winding rod 14, the auxiliary ejector rod 175 on the side wall of the limiting disc 172 slides along the guiding chute 177 on the wedge block 176 when one end of the rotary rod 171 is used, the wedge block 176 is pushed to slide along the chute on the bottom plate of the shell of the oximeter main body 1 based on the positioning sliding block 178, the convex tooth clamping block 179 at the end of the wedge block 176 is separated from the locking tooth ring 161 on the outer wall of the limiting cylinder 16, at this time, the arm is sleeved into the fixing bandage 13, the fixing bandage 13 is pulled, the winding rod 14 and the rotary rod 171 are driven by pulling the fixing bandage 13, the arm is released to adapt to the arm of a user, after the arm is sleeved into the fixing bandage 13, the rotary rod 171 is slightly reversely pulled by fingers, the rotary rod 171 can be tightened up to the fixing bandage 13, the rotary rod 171 moves and reset and makes the limiting inserting rod 174 separate from the sliding along the guiding chute 177 on the wedge block 176, the positioning slider 176, the convex tooth clamping block 176 slides along the chute on the bottom plate on the side of the shell of the side of the oximeter main body 1, the oxygen sensor main body 1 is separated from the fact that the single-side of the fixing bandage is detected by the rotary bandage is detected by the user, and the fact that the oxygen is convenient to be wound by the fact that the operation of the rotary bandage is detected by the rotary bandage is wound by the special operation of the rotary bandage is detected when the rotary stretching device.

As shown in fig. 1 and fig. 7 to fig. 10, the following preferred technical solutions are provided for another embodiment of the oximeter body 1:

the inside of the oximeter main body 1 is provided with a detection chip unit, a positioning device, a storage battery, a transformer, a memory transfer device and a communication device, and specifically comprises:

the information processing unit is used for recording and processing the identity information of the portable oximeter by using the object, processing and archiving blood oxygen saturation, pulse rate, body temperature and blood pressure detection data of the object each time based on identity recognition during detection, and uploading the detection data after tidying and archiving;

the medical service unit is used for carrying out identity recognition matching on uploaded user detection data, establishing an uploading extraction channel, carrying out data analysis on the detection data of the detection objects after being extracted based on big data processing, evaluating the body health state of the user and carrying out rehabilitation guidance on the evaluated health state;

and the information interaction unit is used for uploading and displaying the detection data and the evaluation report of the user based on the Internet, enabling a doctor to conduct remote supervision after the data is uploaded, and receiving feedback information of the doctor.

An information processing unit comprising:

the information input module is used for recording and collecting identity information of a user object of the portable oximeter, and the user establishes an identity identification file of the user through voice input, wherein the identity identification file is used as a use identification basis of the object;

the identity recognition module is used for recognizing and judging identity information of a user based on tone and voice domain input by voice when the identity recognition file is established, and providing matching binding and filing basis for the follow-up input of blood oxygen saturation, pulse rate, body temperature and blood pressure detection data;

the data receiving module is used for uploading and receiving body detection data of each time of a user and transmitting the received detection data to the next processing procedure;

the data processing module is used for cleaning, removing impurities, screening and converting the received detection data, converting the detection data into electric signals and transmitting the electric signals;

and the archiving and sorting module is used for sorting and sorting the detection data after cleaning, impurity removal and screening to form complete archival data, so that the archival data is easier to access and manage, and a user can quickly find the required data.

A medical service unit comprising:

the information matching module is used for matching and binding the archived detection data with the user identification identity information, so that the archived detection data is automatically classified under the identified user identification information file and stored;

the data analysis module is used for carrying out calculation analysis on the detection data after the identity binding and rapidly locking abnormal data in the detection data by combining the prior case data of a user;

the risk evaluation module is used for carrying out big data analysis and evaluation on the detection data of the user, judging the current physical health state of the user, carrying out risk evaluation on the prevalence rate of the sudden disease of the user, and obtaining a corresponding evaluation risk value;

the guiding rehabilitation module is used for providing different humanized guiding rehabilitation training schemes for the user under the remote supervision of doctors under the state of discomfort of the body health assessment of the user so as to help the user to regulate the body state.

The risk assessment module is also used for giving an alarm when the assessment risk value breaks through the safety threshold value, reminding the user and relatives thereof of noticing that the current physical state of the user is in danger, preventing the user from having the danger of sudden onset, and the safety threshold value of risk assessment is set to be 5.0.

The risk assessment module analyzes the detection data based on the random forest model, and the method for judging the physical health assessment risk value of the user by utilizing the Framingham risk scoring model is as follows:where x is the input sample, fi (x) represents the output of the ith decision tree, N is the number of decision trees, and F (x) is the output of the random forest;

the user detects multiple groups of data, inputs the new data into each decision tree for classification, adopts a majority voting mode to determine the final class, and utilizes a random forest model to carry out effective and ineffective classification treatment on the multiple groups of detection data, thereby improving the calculation accuracy of the detection data;

calculating the average value of multiple groups of effective detection data, determining the baseline risk of a user based on the average value of the detection data, and determining the disease risk by combining the relative risk coefficient of the patient, wherein the calculation and determination formula is 10 years of CVD occurrence risk = baseline risk.

The risk classification of the risk assessment module is respectively as follows: detecting that the estimated value is sub-health within the range of 0-2.0; the detection evaluation value is between 2.1 and 5.0, which is easy to cause physical discomfort; the incidence rate is higher when the detection evaluation value is between 5.1 and 8.0; the detection evaluation value is between 8.1 and 10, which is an outbreak, and indicates that the user is in an extremely dangerous state to be ill.

Specifically, establish the identity recognition archives of different users of family based on information input module, after identity recognition module confirms identity information based on speech recognition, with the information such as blood oxygen saturation that detects, pulse rate, body temperature and blood pressure carry out archives arrangement, and utilize information matching module to match information and detect data and integrate data and carry out archives storage, realize the accurate automatic archives of data when detecting the different members of family use oximeter and store processing, avoid the confusion appearing when the information interaction unit uploads the detected data, carry out big data analysis to the detected data of user simultaneously, carry out the risk assessment of morbidity to the current health state of user's health by combining risk evaluation module, through the contrast to evaluation risk value and safety threshold, thereby trigger the warning when the user is in the high morbidity period when detecting, thereby warn user and its family members and notice the current health state of user, the prevention and treatment of pertinence have been further enriched blood oxygen meter, the function of use, convenience and practicability.

As shown in fig. 7 and 11, in order to promote recovery of unhealthy people, the following preferred technical scheme is provided:

a coaching rehabilitation module comprising:

the diet guidance module is used for pertinently adjusting the diet habit of the user according to the current physical health evaluation state of the user, giving a scientific and effective diet and conditioning the body of the user from the aspect of diet;

the medicine guiding module is used for giving a medicine treatment scheme under the supervision and guidance of a doctor under the condition that the body of a user is dangerous, and guiding the user to correctly purchase medicines for taking treatment;

the exercise guidance module is used for pertinently guiding a user to perform systematic exercise and strengthen physical quality of the user under the condition that the patient is at general risk, so that physical health is recovered through exercise strengthening;

the work and rest guiding module is used for scientifically guiding the patient according to the sleeping quality condition of the patient, designating a detailed work and rest time scheme, improving the constitution of the user by improving the sleeping quality, and eliminating the adverse effect caused by irregular work and rest.

Specifically, after the data analysis module and the risk assessment module detect the physical health state and the morbidity risk of the user, different guiding and recovering schemes are respectively given out from aspects of diet, work and rest, physical exercise, drug treatment and the like of the user through the diet guiding module, the drug guiding module, the exercise guiding module and the work and rest guiding module, and the system scientific prevention training and recovering treatment are carried out under the remote supervision of doctors, so that the sudden diseases of the user are effectively prevented, and the physical health of the user is greatly ensured

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Portable oximeter based on photodynamic therapy, including oximeter main body (1), its characterized in that: the middle part of the bulge at the top edge of the oximeter main body (1) is provided with a mounting groove (2), a deflection block (3) is rotatably arranged in the mounting groove (2) through a movable shaft, one side of the deflection block (3) away from the fixed end is movably connected with a movable rotating shaft (4), the tail end of the movable rotating shaft (4) is fixedly connected with the side wall of one end of an operation panel (5), a power generation photovoltaic panel (6) for generating outdoor light energy is embedded and arranged on the outer wall of one side of the operation panel (5), a display screen (7) is arranged on the outer wall of the other side of the oximeter, an operation button (8) is arranged on the outer wall of an operation panel (5) adjacent to the display screen (7), a yielding cavity (9) is arranged at the position, corresponding to the display screen (7) and the operation button (8), of the top of the oximeter main body (1), the yielding cavity (9) accommodates the display screen (7) and the operation button (8) and protects the display screen and the operation button (8), a positioning groove (10) is arranged at the middle part of the lower end of the oximeter main body (1), infrared treatment lamps (11) for photodynamic treatment are uniformly and fixedly connected on the top plate of the positioning groove (10) at intervals, and detecting patches (12) are uniformly embedded at intervals at the bottoms of the oximeter main bodies (1) at the adjacent positions of the two sides of the positioning groove (10), and fixing straps (13) are fixedly connected to the bottoms of the oximeter main bodies (1) at the outer sides of the detecting patches (12).

2. A portable photodynamic therapy based oximeter as defined in claim 1, wherein: one end fixed connection of fixed bandage (13) is in the oximeter main part (1) bottom in the detection paster (12) outside, its other end runs through the casing bottom of oximeter main part (1) and extends to its inside, fixed bandage (13) in oximeter main part (1) is convoluteed on the outer wall of rolling pole (14), rolling pole (14) activity wears the cover in the inner chamber of location barrel holder (15), location barrel holder (15) are fixed in on the casing bottom plate of oximeter main part (1), and the one end fixedly connected with spacing section of thick bamboo (16) of rolling pole (14), spacing section of thick bamboo (16) link to each other with the one end activity of adjusting member (17), the other end of adjusting member (17) runs through and extends to the casing lateral wall outside of oximeter main part (1).

3. A portable photodynamic therapy based oximeter as defined in claim 2, wherein: the adjusting rod piece (17) comprises a rotating rod (171) penetrating through the side wall of a shell at one end of the oximeter main body (1) and a limiting disc (172) movably sleeved in a clamping groove on the outer wall of the rotating rod (171), a reset spring (173) is wound on the outer wall of the rotating rod (171) between the side wall of the limiting disc (172) and the side wall of the oximeter main body (1), a limiting inserting rod (174) is fixedly connected to the tail end of the rotating rod (171), an auxiliary ejector rod (175) is fixedly connected to the outer wall at one side of the limiting disc (172), the tail end of the auxiliary ejector rod (175) is movably clamped in a guiding chute (177) on the inclined surface of a wedge block (176), a positioning sliding block (178) at the bottom of the wedge block (176) is movably clamped in a chute on the bottom plate of the shell of the oximeter main body (1), and a convex tooth clamping block (179) is fixedly connected to the tail end of the wedge block (176), and the convex tooth clamping block (179) is arranged corresponding to a locking tooth ring (161) on the outer wall of the limiting cylinder (16).

4. A portable photodynamic therapy based oximeter as defined in claim 1, wherein: the inside of the oximeter main body (1) is provided with a detection chip unit, a positioning device, a storage battery, a transformer, a memory transfer device and a communication device, and the inside of the oximeter main body specifically comprises:

the information processing unit is used for recording and processing the identity information of the portable oximeter by using the object, processing and archiving blood oxygen saturation, pulse rate, body temperature and blood pressure detection data of the object each time based on identity recognition during detection, and uploading the detection data after tidying and archiving;

the medical service unit is used for carrying out identity recognition matching on uploaded user detection data, establishing an uploading extraction channel, carrying out data analysis on the detection data of the detection objects after being extracted based on big data processing, evaluating the body health state of the user and carrying out rehabilitation guidance on the evaluated health state;

and the information interaction unit is used for uploading and displaying the detection data and the evaluation report of the user based on the Internet, enabling a doctor to conduct remote supervision after the data is uploaded, and receiving feedback information of the doctor.

5. A portable photodynamic therapy based oximeter of claim 4 wherein: an information processing unit comprising:

the information input module is used for recording and collecting identity information of a user object of the portable oximeter, and the user establishes an identity identification file of the user through voice input, wherein the identity identification file is used as a use identification basis of the object;

the identity recognition module is used for recognizing and judging identity information of a user based on tone and voice domain input by voice when the identity recognition file is established, and providing matching binding and filing basis for the follow-up input of blood oxygen saturation, pulse rate, body temperature and blood pressure detection data;

the data receiving module is used for uploading and receiving body detection data of each time of a user and transmitting the received detection data to the next processing procedure;

the data processing module is used for cleaning, removing impurities, screening and converting the received detection data, converting the detection data into electric signals and transmitting the electric signals;

and the archiving and sorting module is used for sorting and sorting the detection data after cleaning, impurity removal and screening to form complete archival data, so that the archival data is easier to access and manage, and a user can quickly find the required data.

6. A portable photodynamic therapy based oximeter of claim 5, wherein: a medical service unit comprising:

the information matching module is used for matching and binding the archived detection data with the user identification identity information, so that the archived detection data is automatically classified under the identified user identification information file and stored;

the data analysis module is used for carrying out calculation analysis on the detection data after the identity binding and rapidly locking abnormal data in the detection data by combining the prior case data of a user;

the risk evaluation module is used for carrying out big data analysis and evaluation on the detection data of the user, judging the current physical health state of the user, carrying out risk evaluation on the prevalence rate of the sudden disease of the user, and obtaining a corresponding evaluation risk value;

the guiding rehabilitation module is used for providing different humanized guiding rehabilitation training schemes for the user under the remote supervision of doctors under the state of discomfort of the body health assessment of the user so as to help the user to regulate the body state.

7. A portable photodynamic therapy based oximeter of claim 6, wherein: the risk assessment module is also used for giving an alarm when the assessment risk value breaks through the safety threshold value, reminding the user and relatives thereof of noticing that the current physical state of the user is in danger, preventing the user from having the danger of sudden onset, and the safety threshold value of risk assessment is set to be 5.0.

8. A portable photodynamic therapy based oximeter of claim 6, wherein: the risk assessment module analyzes the detection data based on the random forest model, and the method for judging the physical health assessment risk value of the user by utilizing the Framingham risk scoring model is as follows:where x is the input sample, fi (x) represents the output of the ith decision tree, N is the number of decision trees, and F (x) is the output of the random forest;

for new data, inputting the new data into each decision tree for classification, determining a final class in a majority voting mode, and performing effective and ineffective classification processing on a plurality of groups of detection data by using a random forest model;

calculating the average value of multiple groups of effective detection data, determining the baseline risk of a user based on the average value of the detection data, and determining the disease risk by combining the relative risk coefficient of the patient, wherein the calculation and determination formula is 10 years of CVD occurrence risk = baseline risk.

9. A portable photodynamic therapy-based oximeter as defined in claim 8, wherein: the risk classification of the risk assessment module is respectively as follows: detecting that the estimated value is sub-health within the range of 0-2.0; the detection evaluation value is between 2.1 and 5.0, which is easy to cause physical discomfort; the incidence rate is higher when the detection evaluation value is between 5.1 and 8.0; the detection evaluation value is between 8.1 and 10, which is an outbreak, and indicates that the user is in an extremely dangerous state to be ill.

10. A portable photodynamic therapy based oximeter of claim 6, wherein: a coaching rehabilitation module comprising:

the diet guidance module is used for pertinently adjusting the diet habit of the user according to the current physical health evaluation state of the user, giving a scientific and effective diet and conditioning the body of the user from the aspect of diet;

the medicine guiding module is used for giving a medicine treatment scheme under the supervision and guidance of a doctor under the condition that the body of a user is dangerous, and guiding the user to correctly purchase medicines for taking treatment;

the exercise guidance module is used for pertinently guiding a user to perform systematic exercise and strengthen physical quality of the user under the condition that the patient is at general risk, so that physical health is recovered through exercise strengthening;

the work and rest guiding module is used for scientifically guiding the patient according to the sleeping quality condition of the patient, designating a detailed work and rest time scheme, improving the constitution of the user by improving the sleeping quality, and eliminating the adverse effect caused by irregular work and rest.