CN113576430A - Heart rate variability analysis system - Google Patents

Abstract

The invention discloses a heart rate variability analysis system which comprises a moving system, a lifting system and a detection analysis system, wherein the moving system comprises an equipment cabinet and a brakable universal wheel, the lifting system comprises an equipment frame, a lifting groove and a hydraulic push rod, the detection analysis system comprises a heart rate detector, a blood pressure monitor, a temperature detector and a control host, one end of the top of the equipment cabinet is mined with a containing groove, the bottom of the heart rate detector is rotatably connected with one end in the containing groove through a damping rotating shaft, and the other side of the top of the equipment cabinet is provided with the lifting groove. Guarantee the data acquisition transmission of multi-user rhythm of the heart, blood oxygen, blood pressure and temperature, accomplish large-scale service support and data collection, through being equipped with collection devices such as blood pressure, temperature, rhythm of the heart and blood oxygen to help medical personnel to contrast the screening fast, and combine together with psychological measurement, with the form analysis personnel physical and mental health of multi-parameter.

Description

Heart rate variability analysis system

Technical Field

The invention belongs to the technical field of heart rate analysis, and particularly relates to a heart rate variability analysis system.

Background

In medical treatment, data such as the rhythm of the heart of the crowd of each age bracket, blood pressure can be gathered, induction by medical unit to supply in the overall screening of medical academic, from making medical treatment, can contrast according to the data of gathering and mate, help the collection data symptom of patient to screen out fast.

The current medical heart rate and other data screening efficiency is low, a real-time interconnection and comparison analysis system is lacked, local data statistics of all medical units or nationwide overall data of months or even years are generally used for carrying out comparison and analysis, so that the data collection of medical data screening and collection is difficult, and early screening of patients is influenced. To this end, we propose a heart rate variability analysis system.

Disclosure of Invention

The present invention is directed to a heart rate variability analysis system, which solves the above problems of the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a heart rate variability analysis system comprises a moving system, a lifting system and a detection and analysis system, wherein the moving system comprises an equipment cabinet and a braked universal wheel, the lifting system comprises an equipment frame, a lifting groove and a hydraulic push rod, the detection and analysis system comprises a heart rate detector, a blood pressure monitor, a temperature detector and a control host, one end of the top of the equipment cabinet is mined with a storage groove, the bottom of the heart rate detector is rotatably connected with one end in the storage groove through a damping rotating shaft, the other side of the top of the equipment cabinet is provided with the lifting groove, the equipment frame is inserted in the lifting groove, a support plate is sequentially installed in the equipment frame through bolts, the blood pressure monitor and the temperature detector are respectively installed on the support plate of the equipment frame through bolts, the top of one side of the equipment cabinet is provided with a host room, the control host is installed in the host room through bolts, one side of the control host is connected with a blood oxygen monitor in an inserting mode, and the control host comprises a power supply module, a main processor, an a processor and a b processor.

Furthermore, the processor a and the processor b are sequentially coupled with the main processor, the control host is provided with a data interface, the output ends of the heart rate detector, the blood pressure monitor and the temperature detector are respectively in plug-in connection with the data interface of the control host, the control host further comprises a Bluetooth module and a data storage module, the input end of the hydraulic push rod and the output end of the main processor form electric connection through a lead, the blood pressure monitor is provided with an air device, the output end of the main processor forms electric connection with the input end of the air device through a lead, the air device is a servo air pump, and the blood pressure monitor is a YY-type blood pressure monitor.

Furthermore, an operating panel is installed on one side of the top of the equipment cabinet through a hinge, pull blocks corresponding to the operating panel are respectively inserted into corners of the top of one side of the equipment cabinet, and cushion blocks corresponding to the pull blocks are respectively installed on two sides of the bottom of the operating panel through bolts.

Furthermore, hydraulic push rods are arranged at corners of the bottom of the equipment rack respectively, the bottoms of the hydraulic push rods are connected with equipment cabinet bolts in an installing mode, and output ends of the tops of the hydraulic push rods are connected with the bottom ends of the equipment rack bolts in an installing mode through bolts.

Further, the thermovent that corresponds with the host computer room has been seted up to equipment cabinet one side, but equipment cabinet installs the universal wheel that brakes in the bottom through the bolt, the electricity distribution room has been seted up to equipment cabinet one side bottom, power module's group battery assembles in the electricity distribution room.

Further, the control host further comprises a program storage, a random storage and an image recognition system, the a processor is coupled with the image recognition system, the program storage and the random storage are coupled with the main processor, and the image recognition system comprises an image recognition module, an image storage library, a history data storage library, an account database, an image processing module and an image transmission module.

Further, the control host further comprises a network controller, and the network controller is connected with a cloud server.

A method for using a heart rate variability analysis system comprises the following specific steps:

the method comprises the following steps: selecting at least 85 subjects and 255 (3 × 85) groups of data, if no three groups of data are provided by 85 subjects, measuring more subjects to obtain a minimum of 255 groups of data, wherein each subject has three groups of heart rate and blood pressure measurement data, one of the data in each group is used as a reference auscultation method or a measured device data, the difference between the data in each group and the data in each group is an error, and the average error of each patient is used for analyzing and processing, and respectively measuring systolic pressure and diastolic pressure, so as to ensure 255 groups of data of a test system and a comparison system;

step two: performing primary screening according to the inclusion standard and the exclusion standard; knowledge and subject interrogation: informing the subject that the heart rate and blood pressure measurement is evaluated for clinical evaluation and then performing an inquiry, wherein the inquiry contents comprise name, age, sex, height, weight, past medical history (whether the patient is diabetic, old, renal failure patient, arrhythmia patient) and the like;

step three: at least 85 subjects and 255(═ 3 × 85) group data were enrolled. If some of 85 subjects did not provide 3 sets of data, then more subjects should be measured to achieve a minimum of 255 sets of data, each with three sets of heart rate and blood pressure measurements, one for the reference auscultation (two sets) and one for the device under test (one set); heart rate of each subject is 40-240 times/min;

step four: a resource management component is built in a processor a, the pairing relationship among the equipment, the data processing process and the message queue is maintained, the coordination and cooperation of the three are ensured, the dynamic adjustment of the pairing relationship is realized so as to adapt to the user login and logout at any time under a multi-user environment, the background scheduling and management of a cloud server are realized, the data acquisition and transmission of heart rate, blood oxygen, blood pressure and temperature of multiple users are ensured, and the large-scale service support and data collection are completed;

step five: medical personnel are with the heart rate of the patient of each age stratum, the blood oxygen, the data of blood pressure and temperature are categorised, and upload to the high in the clouds server, the high in the clouds server detects the data that appointed equipment conveyed through independent process, read effectual data package, patient's heart rate to each age stratum, the blood oxygen, the data of blood pressure and temperature are analyzed, and form the oscillogram, simultaneously with oscillogram data storage as the file, screen out the image repository characteristic similarity by the high in the clouds server and provide in the user, realize that multi-user characteristic data shares and pairs with local data characteristic, in order to help medical personnel to contrast the screening fast, and combine together with psychological measurement, with the form analysis personnel physical and mental health of multi-parameter.

Further, the measured systolic and diastolic pressures, when measured, satisfy the following conditions:

1) not less than 10% of subjects (9 persons) have systolic blood pressure below 100 mmHg;

2) not less than 10% of subjects (9 persons) have systolic blood pressure above 160 mmHg;

3) not less than 2% of subjects (2) have diastolic blood pressure below 60 mmHg;

4) not less than 10% of subjects (9) have diastolic pressure above 100 mmHg;

5) the upper arm circumference range is distributed, wherein the upper arm circumference of not less than 10 percent of the objects (9) is less than 25cm, and the upper arm circumference of not less than 10 percent of the objects (9) is more than 35 cm;

6) if the device is designed to use a single size cuff, at least 40% of the arm circumference in the subject should be in the upper half of the cuff range, with 40% in the lower half of the cuff range;

7) heart rate of each subject is 40-240 times/min;

8) when the cuff is inflated for one time, the pressure should exceed 30mmHg of the last blocking pressure, when the valve is opened and the deflation starts, the deflation rate cannot exceed 2 mmHg-4 mmHg/heartbeat or 3mmHg/s, if the automatic device does not meet the deflation rate, the measurement cannot be completed on the same arm with the auscultation method, under the condition, the measurement of the same limb is preferable to the measurement of both sides, the cloud server reads the heart rate RR interval difference of each person, the RR interval time limit is judged to be normal between 0.6min and 1.0min, tachycardia is judged to be tachycardia when the RR interval time limit is 0.6min to 1.0min, bradycardia is judged to be occurred when the RR intervals are unequal, and arrhythmia is judged to be occurred when the RR intervals are unequal.

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

1. the whole heart rate analysis module system is assembled through the equipment cabinet, the universal wheel capable of being braked is helpful for personnel to process the whole analysis device for flexible pushing so as to help personnel to flexibly move the whole analysis device to a place needing to be collected, the personnel can serve as an auxiliary operation board through the operation board, when in use, the personnel lift the operation board, pull out the pull block, support the bottom of the operation board through the pull block so that the operation board can be stably placed, when in collection, the personnel turn over and open the heart rate detector in the storage groove and push and lift the equipment frame through the hydraulic push rod so that the collection device in the equipment frame is effectively pushed out, when in use, after the personnel are helped to use, the personnel can turn over and cover the storage groove with the heart rate detector, the equipment frame is recovered into the lifting groove through the hydraulic push rod, and the operation board is turned and folded to cover the top of the equipment cabinet, the storage of the whole device is realized, and the use is convenient and flexible.

2. Through the heart rate of taking the patient, blood pressure, temperature, heart rate and blood oxygen numerical characteristic carry out the contrast measurement, through the resource management subassembly, the maintenance equipment, the mating relationship of data processing process and message queue, ensure the coordination cooperation of three, the mating relationship dynamic adjustment, user's login and logout that carry out at any time under the adaptation multiuser environment, dispatch and management through the high in the clouds server backstage, guarantee the data acquisition transmission of multiuser heart rate, blood oxygen, blood pressure and temperature, accomplish large-scale service support and data collection, through being equipped with blood pressure, temperature, heart rate and blood oxygen collection device such as, in order to help medical personnel to contrast the screening fast, and combine together with psychological measurement, with multi-parameter form analysis personnel physical and mental health.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a heart rate variability analysis system according to the present invention.

Fig. 2 is a schematic structural diagram of an apparatus cabinet of the heart rate variability analysis system of the present invention.

Fig. 3 is a schematic diagram of an equipment rack structure of a heart rate variability analysis system according to the present invention.

Fig. 4 is a schematic diagram of electrical connections of a heart rate variability analysis system according to the present invention.

Fig. 5 is a schematic diagram of electrical connections of a heart rate variability analysis system according to the present invention.

Fig. 6 is a schematic diagram of a heart rate variability analysis system according to the present invention.

Fig. 7 is a schematic diagram of an image recognition system of a heart rate variability analysis system according to the present invention.

In the figure: 1. an equipment cabinet; 2. an operation panel; 3. drawing the block; 4. cushion blocks; 5. a receiving groove; 6. a heart rate detector; 7. a lifting groove; 8. an equipment rack; 9. a support plate; 10. a blood pressure monitor; 11. a temperature detector; 12. a hydraulic push rod; 13. a main machine room; 14. a control host; 15. a heat dissipation port; 16. a distribution room; 17. the universal wheel can be braked; 18. a blood oxygen monitor; 19. a gas device; 20. a main processor; 21. a, a processor; 22. b, a processor; 23. and a power supply module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

As shown in fig. 1-7, a heart rate variability analysis system comprises a moving system, a lifting system and a detection analysis system, wherein the moving system comprises an equipment cabinet 1 and a braked universal wheel 17, the lifting system comprises an equipment frame 8, a lifting groove 7 and a hydraulic push rod 12, the detection analysis system comprises a heart rate detector 6, a blood pressure monitor 10, a temperature detector 11 and a control host 14, a storage groove 5 is mined at one end of the top of the equipment cabinet 1, the bottom of the heart rate detector 6 is rotatably connected with one end in the storage groove 5 through a damping rotating shaft, the lifting groove 7 is arranged at the other side of the top of the equipment cabinet 1, an equipment frame 8 is inserted in the lifting groove 7, a support plate 9 is sequentially arranged in the equipment frame 8 through bolts, the blood pressure monitor 10 and the temperature detector 11 are respectively arranged on the support plate 9 of the equipment frame 8 through bolts, host computer room 13 has been seted up at equipment cabinet 1 one side top, install main control system 14 through the bolt in the host computer room 13, main control system 14 one side plug-in connection has blood oxygen monitor 18, main control system 14 includes power module 23, host processor 20, a treater 21 and b treater 22.

The processor a 21 and the processor b 22 are coupled with the main processor 20 in sequence, the control host 14 is provided with a data interface, the output ends of the heart rate detector 6, the blood pressure monitor 10 and the temperature detector 11 are respectively connected with the data interface of the control host 14 in an inserting manner, the control host 14 further comprises a bluetooth module and a data storage module, the input end of the hydraulic push rod 12 is electrically connected with the output end of the main processor 20 through a lead, the blood pressure monitor 10 is provided with an air device 19, the output end of the main processor 20 is electrically connected with the input end of the air device 19 through a lead, the air device 19 is a servo air pump, and the blood pressure monitor 10 is a YY 0670-2008 type blood pressure monitor.

The device comprises an operating panel 2, a drawing block 3 corresponding to the operating panel 2 is inserted into a corner at the top of one side of the equipment cabinet 1, and cushion blocks 4 corresponding to the drawing block 3 are installed on two sides of the bottom of the operating panel 2 through bolts.

The bottom corners of the equipment rack 8 are respectively provided with a hydraulic push rod 12, the bottom of the hydraulic push rod 12 is in bolt mounting connection with the equipment cabinet 1, and the top output end of the hydraulic push rod 12 is in bolt mounting connection with the bottom end of the equipment rack 8 through bolts.

The heat dissipation port 15 corresponding to the main machine room 13 is formed in one side of the equipment cabinet 1, the brakeable universal wheel 17 is installed at the bottom of the equipment cabinet 1 through a bolt, the power distribution room 16 is formed in the bottom of one side of the equipment cabinet 1, and the battery pack of the power supply module 23 is assembled in the power distribution room 16.

The control host 14 further includes a program storage, a random storage, and an image recognition system, the a processor 21 is coupled to the image recognition system, the program storage and the random storage are coupled to the main processor 20, and the image recognition system includes an image recognition module, an image storage, a history data storage, an account database, an image processing module, and an image transmission module.

The control host 14 further includes a network controller, and the network controller is connected with a cloud server.

A method for using a heart rate variability analysis system comprises the following specific steps:

the method comprises the following steps: selecting at least 85 subjects and 255 (3 × 85) groups of data, if no three groups of data are provided by 85 subjects, measuring more subjects to obtain a minimum of 255 groups of data, wherein each subject has three groups of heart rate and blood pressure measurement data, one of the data in each group is used as a reference auscultation method or a measured device data, the difference between the data in each group and the data in each group is an error, and the average error of each patient is used for analyzing and processing, and respectively measuring systolic pressure and diastolic pressure, so as to ensure 255 groups of data of a test system and a comparison system;

step two: performing primary screening according to the inclusion standard and the exclusion standard; knowledge and subject interrogation: informing the subject that the heart rate and blood pressure measurement is evaluated for clinical evaluation and then performing an inquiry, wherein the inquiry contents comprise name, age, sex, height, weight, past medical history (whether the patient is diabetic, old, renal failure patient, arrhythmia patient) and the like;

step three: at least 85 subjects and 255(═ 3 × 85) group data were enrolled. If some of 85 subjects did not provide 3 sets of data, then more subjects should be measured to achieve a minimum of 255 sets of data, each with three sets of heart rate and blood pressure measurements, one for the reference auscultation (two sets) and one for the device under test (one set); heart rate of each subject is 40-240 times/min;

step four: a resource management component is built in the processor (21) a, the pairing relationship among the equipment, the data processing process and the message queue is maintained, the coordination and cooperation of the three are ensured, the dynamic adjustment of the pairing relationship is realized so as to adapt to the user login and logout at any time under a multi-user environment, the background scheduling and management of a cloud server are adopted, the data acquisition and transmission of heart rate, blood oxygen, blood pressure and temperature of multiple users are ensured, and large-scale service support and data collection are completed;

step five: medical personnel are with the heart rate of the patient of each age stratum, the blood oxygen, the data of blood pressure and temperature are categorised, and upload to the high in the clouds server, the high in the clouds server detects the data that appointed equipment conveyed through independent process, read effectual data package, patient's heart rate to each age stratum, the blood oxygen, the data of blood pressure and temperature are analyzed, and form the oscillogram, simultaneously with oscillogram data storage as the file, screen out the image repository characteristic similarity by the high in the clouds server and provide in the user, realize that multi-user characteristic data shares and pairs with local data characteristic, in order to help medical personnel to contrast the screening fast, and combine together with psychological measurement, with the form analysis personnel physical and mental health of multi-parameter.

Wherein the measured systolic and diastolic pressures, when measured, satisfy the following conditions:

1) not less than 10% of subjects (9 persons) have systolic blood pressure below 100 mmHg;

2) not less than 10% of subjects (9 persons) have systolic blood pressure above 160 mmHg;

3) not less than 2% of subjects (2) have diastolic blood pressure below 60 mmHg;

4) not less than 10% of subjects (9) have diastolic pressure above 100 mmHg;

5) the upper arm circumference range is distributed, wherein the upper arm circumference of not less than 10 percent of the objects (9) is less than 25cm, and the upper arm circumference of not less than 10 percent of the objects (9) is more than 35 cm;

6) if the device is designed to use a single size cuff, at least 40% of the arm circumference in the subject should be in the upper half of the cuff range, with 40% in the lower half of the cuff range;

7) heart rate of each subject is 40-240 times/min;

8) when the cuff is inflated for one time, the pressure should exceed 30mmHg of the last blocking pressure, when the valve is opened and the deflation starts, the deflation rate cannot exceed 2 mmHg-4 mmHg/heartbeat or 3mmHg/s, if the automatic device does not meet the deflation rate, the measurement cannot be completed on the same arm with the auscultation method, under the condition, the measurement of the same limb is preferable to the measurement of both sides, the cloud server reads the heart rate RR interval difference of each person, the RR interval time limit is judged to be normal between 0.6min and 1.0min, tachycardia is judged to be tachycardia when the RR interval time limit is 0.6min to 1.0min, bradycardia is judged to be occurred when the RR intervals are unequal, and arrhythmia is judged to be occurred when the RR intervals are unequal.

The working principle and the using process of the invention are as follows: the personnel can assemble the whole heart rate analysis module system through the equipment cabinet 1, and can help the personnel to process the whole analysis device to flexibly push through the universal wheel 17 which can be braked so as to help the personnel to flexibly move the whole analysis device to a place which needs to be collected, the personnel can be used as the auxiliary operation board 2 through the operation board 2, when in use, the personnel can lift the operation board 2, then pull out the drawing block 3, support the bottom of the operation board 2 through the drawing block 3 so that the operation board 2 can be stably placed, when in collection, the personnel can turn over and open the heart rate detector 6 in the storage groove 5 and push and lift the equipment frame 8 through the hydraulic push rod 12, so that the collection device in the equipment frame 8 can be effectively pushed out, when in use, after the use, the personnel can reversely cover the storage groove 5 through the heart rate detector 6, and the equipment frame 8 is recovered to the lifting groove 7 through the hydraulic push rod 12, the operation board 2 is turned and folded to cover the top of the equipment cabinet 1, so that the whole device is accommodated, and the use is convenient and flexible; selecting at least 85 subjects and 255 (3 × 85) groups of data, if no three groups of data are provided by 85 subjects, measuring more subjects to obtain a minimum of 255 groups of data, wherein each subject has three groups of heart rate and blood pressure measurement data, one of the data in each group is used as a reference auscultation method or a measured device data, the difference between the data in each group and the data in each group is an error, and the average error of each patient is used for analyzing and processing, and respectively measuring systolic pressure and diastolic pressure, so as to ensure 255 groups of data of a test system and a comparison system; performing primary screening according to the inclusion standard and the exclusion standard; knowledge and subject interrogation: informing the subject that the heart rate and blood pressure measurement is evaluated for clinical evaluation and then performing an inquiry, wherein the inquiry contents comprise name, age, sex, height, weight, past medical history (whether the patient is diabetic, old, renal failure patient, arrhythmia patient) and the like; at least 85 subjects and 255(═ 3 × 85) group data were enrolled. If some of 85 subjects did not provide 3 sets of data, then more subjects should be measured to achieve a minimum of 255 sets of data, each with three sets of heart rate and blood pressure measurements, one for the reference auscultation (two sets) and one for the device under test (one set); heart rate of each subject is 40-240 times/min; a resource management component is built in the processor 21 a, the pairing relationship among the equipment, the data processing process and the message queue is maintained, the coordination and cooperation of the three are ensured, the dynamic adjustment of the pairing relationship is realized, the method is suitable for the user login and login at any time under the multi-user environment, the background scheduling and management of the cloud server ensure the data acquisition and transmission of heart rate, blood oxygen, blood pressure and temperature of multiple users, complete large-scale service support and data collection, when the blood pressure monitoring device is used, a person sleeves the arm of a person to be detected with a binding band of the blood pressure monitoring device 10, the detection end of the temperature detection device 11 is arranged at the forehead, the main electrode plate and the reference electrode plate of the heart rate detection device 6 are respectively attached to the chest and the pulse of the person to realize heart rate acquisition, and the blood oxygen monitoring device 18 is arranged on the finger of the person to realize acquisition of blood pressure, heart rate, temperature and blood oxygen; medical personnel are with the heart rate of the patient of each age stratum, the blood oxygen, the data of blood pressure and temperature are categorised, and upload to the high in the clouds server, the high in the clouds server detects the data that appointed equipment conveyed through independent process, read effectual data package, patient's heart rate to each age stratum, the blood oxygen, the data of blood pressure and temperature are analyzed, and form the oscillogram, simultaneously with oscillogram data storage as the file, screen out the image repository characteristic similarity by the high in the clouds server and provide in the user, realize that multi-user characteristic data shares and pairs with local data characteristic, in order to help medical personnel to contrast the screening fast, and combine together with psychological measurement, with the form analysis personnel physical and mental health of multi-parameter.

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

Claims (9)

1. The heart rate variability analysis system comprises a moving system, a lifting system and a detection and analysis system, and is characterized in that the moving system comprises an equipment cabinet (1) and a brakeable universal wheel (17), the lifting system comprises an equipment frame (8), a lifting groove (7) and a hydraulic push rod (12), the detection and analysis system comprises a heart rate detector (6), a blood pressure monitor (10), a temperature detector (11) and a control host (14), a storage groove (5) is mined at one end of the top of the equipment cabinet (1), the bottom of the heart rate detector (6) is rotatably connected with one end in the storage groove (5) through a damping rotating shaft, the lifting groove (7) is formed in the other side of the top of the equipment cabinet (1), the equipment frame (8) is inserted in the lifting groove (7), and support plates (9) are sequentially installed in the equipment frame (8) through bolts, install blood pressure monitor (10) and temperature detector (11) through the bolt on backup pad (9) of equipment rack (8) respectively, host computer room (13) have been seted up at equipment cabinet (1) one side top, install main control system (14) through the bolt in host computer room (13), main control system (14) one side plug-in connection has blood oxygen monitor (18), main control system (14) include power module (23), host processor (20), a treater (21) and b treater (22).

2. A heart rate variability analysis system according to claim 1, wherein: the blood pressure monitor is characterized in that the processor a (21) and the processor b (22) are sequentially coupled with the main processor (20), the control host (14) is provided with a data interface, the output ends of the heart rate detector (6), the blood pressure monitor (10) and the temperature detector (11) are respectively in plug-in connection with the data interface of the control host (14), the control host (14) further comprises a Bluetooth module and a data storage module, the input end of the hydraulic push rod (12) is electrically connected with the output end of the main processor (20) through a lead, the blood pressure monitor (10) is provided with an air device (19), the output end of the main processor (20) is electrically connected with the input end of the air device (19) through a lead, the air device (19) is a servo air pump, and the blood pressure monitor (10) is a YY 0670-2008 type blood pressure monitor.

3. A heart rate variability analysis system according to claim 1, wherein: the equipment cabinet is characterized in that an operating plate (2) is installed on one side of the top of the equipment cabinet (1) through a hinge, drawing blocks (3) corresponding to the operating plate (2) are inserted into corners of the top of one side of the equipment cabinet (1) respectively, and cushion blocks (4) corresponding to the drawing blocks (3) are installed on two sides of the bottom of the operating plate (2) through bolts respectively.

4. A heart rate variability analysis system according to claim 1, wherein: the bottom corners of the equipment rack (8) are respectively provided with a hydraulic push rod (12), the bottom of the hydraulic push rod (12) is connected with the equipment cabinet (1) through bolts, and the top output end of the hydraulic push rod (12) is connected with the bottom end of the equipment rack (8) through bolts.

5. A heart rate variability analysis system according to claim 1, wherein: the heat dissipation opening (15) that correspond with host computer room (13) are seted up to equipment cabinet (1) one side, but equipment cabinet (1) bottom is installed through the bolt and is brakied universal wheel (17), distribution room (16) have been seted up to equipment cabinet (1) one side bottom, the group battery of power module (23) assembles in distribution room (16).

6. A heart rate variability analysis system according to claim 1, wherein: the control host (14) further comprises a program storage, a random storage and an image recognition system, the a processor (21) is coupled with the image recognition system, the program storage and the random storage are coupled with the main processor (20), and the image recognition system comprises an image recognition module, an image storage library, a history data storage library, an account database, an image processing module and an image transmission module.

7. A heart rate variability analysis system according to claim 1, wherein: the control host (14) further comprises a network controller, and the network controller is connected with a cloud server.

8. Use of a heart rate variability analysis system according to claims 1-7, characterized in that: the method comprises the following specific steps:

the method comprises the following steps: selecting at least 85 subjects and 255 (3 × 85) groups of data, if no three groups of data are provided by 85 subjects, measuring more subjects to obtain a minimum of 255 groups of data, wherein each subject has three groups of heart rate and blood pressure measurement data, one of the data in each group is used as a reference auscultation method or a measured device data, the difference between the data in each group and the data in each group is an error, and the average error of each patient is used for analyzing and processing, and respectively measuring systolic pressure and diastolic pressure, so as to ensure 255 groups of data of a test system and a comparison system;

step two: performing primary screening according to the inclusion standard and the exclusion standard; knowledge and subject interrogation: informing the subject that the heart rate and blood pressure measurement is evaluated for clinical evaluation and then performing an inquiry, wherein the inquiry contents comprise name, age, sex, height, weight, past medical history (whether the patient is diabetic, old, renal failure patient, arrhythmia patient) and the like;

step three: at least 85 subjects and 255(═ 3 × 85) group data were enrolled. If some of 85 subjects did not provide 3 sets of data, then more subjects should be measured to achieve a minimum of 255 sets of data, each with three sets of heart rate and blood pressure measurements, one for the reference auscultation (two sets) and one for the device under test (one set); heart rate of each subject is 40-240 times/min;

step four: a resource management component is built in a processor (21) a, the pairing relationship among equipment, a data processing process and a message queue is maintained, the coordination and cooperation of the three are ensured, the dynamic adjustment of the pairing relationship is realized so as to adapt to the login and the logout of a user at any time under a multi-user environment, the background scheduling and management of a cloud server are adopted, the data acquisition and transmission of heart rate, blood oxygen, blood pressure and temperature of multiple users are ensured, and large-scale service support and data collection are completed;

step five: medical personnel are with the heart rate of the patient of each age stratum, the blood oxygen, the data of blood pressure and temperature are categorised, and upload to the high in the clouds server, the high in the clouds server detects the data that appointed equipment conveyed through independent process, read effectual data package, patient's heart rate to each age stratum, the blood oxygen, the data of blood pressure and temperature are analyzed, and form the oscillogram, simultaneously with oscillogram data storage as the file, screen out the image repository characteristic similarity by the high in the clouds server and provide in the user, realize that multi-user characteristic data shares and pairs with local data characteristic, in order to help medical personnel to contrast the screening fast, and combine together with psychological measurement, with the form analysis personnel physical and mental health of multi-parameter.

9. A heart rate variability analysis system according to claim 8, wherein: the measured systolic pressure and diastolic pressure, when measured, satisfy the following conditions:

1) not less than 10% of subjects (9 persons) have systolic blood pressure below 100 mmHg;

2) not less than 10% of subjects (9 persons) have systolic blood pressure above 160 mmHg;

3) not less than 2% of subjects (2) have diastolic blood pressure below 60 mmHg;

4) not less than 10% of subjects (9) have diastolic pressure above 100 mmHg;

5) the upper arm circumference range is distributed, wherein the upper arm circumference of not less than 10 percent of the objects (9) is less than 25cm, and the upper arm circumference of not less than 10 percent of the objects (9) is more than 35 cm;

6) if the device is designed to use a single size cuff, at least 40% of the arm circumference in the subject should be in the upper half of the cuff range, with 40% in the lower half of the cuff range;

7) heart rate of each subject is 40-240 times/min;

8) when the cuff is inflated for one time, the pressure should exceed 30mmHg of the last blocking pressure, when the valve is opened and the deflation starts, the deflation rate cannot exceed 2 mmHg-4 mmHg/heartbeat or 3mmHg/s, if the automatic device does not meet the deflation rate, the measurement cannot be completed on the same arm with the auscultation method, under the condition, the measurement of the same limb is preferable to the measurement of both sides, the cloud server reads the heart rate RR interval difference of each person, the RR interval time limit is judged to be normal between 0.6min and 1.0min, tachycardia is judged to be tachycardia when the RR interval time limit is 0.6min to 1.0min, bradycardia is judged to be occurred when the RR intervals are unequal, and arrhythmia is judged to be occurred when the RR intervals are unequal.

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