CN204520641U

CN204520641U - Based on the collection disease follow-up system of intelligent mobile terminal

Info

Publication number: CN204520641U
Application number: CN201520226181.XU
Authority: CN
Inventors: 李涛; 杨思坦; 陈霞
Original assignee: Chengdu Hou Li Information Technology Co Ltd
Current assignee: Zhongke Houli Information Technology Chengdu Co ltd
Priority date: 2015-04-15
Filing date: 2015-04-15
Publication date: 2015-08-05
Anticipated expiration: 2025-04-15

Abstract

The utility model discloses a disease collection and follow-up system based on an intelligent mobile terminal, which comprises a patient mobile terminal, a doctor terminal and a disease collection follow-up cloud server, and each patient mobile terminal is connected with a human body sign collection instrument. Human body sign collection instruments include thermometers, blood glucose meters, sphygmomanometers, heart rate monitors, lung function testers, sign collection shoes, sign collection wristbands, sign collection gloves and sign collection tops. The utility model uploads the real-time collection of discharged patients' symptoms, signs, and medical service satisfaction to clinical researchers and hospital managers, so as to improve scientific research data collection and data analysis capabilities, reduce information acquisition costs and improve medical treatment. serve the purpose of improving patient satisfaction. It can automatically collect the patient's pulse, body temperature, blood pressure, breathing and other sign data, and no longer needs the patient to manually enter the disease through the mobile APP, which improves the intelligence, refinement and accuracy of the disease collection process.

Description

Based on the collection disease follow-up system of intelligent mobile terminal

Technical field

This utility model relates to a kind of collection disease follow-up system based on intelligent mobile terminal.

Background technology

" disease " is the misery performance of patient oneself Xiang doctor's statement (or others is Dai Shu), as headache, stomachache, nasal obstruction, Nausea and vomiting etc.; " sign " is the sign with diagnostic significance that doctor finds when checking to patient, as vital sign, comprises temperature pulse respiration, blood pressure etc.Sign is associated with disease to a great extent, and sign can be analyzed for doctor, diagnosis obtains patient condition.

Vital sign is just used to judge the state of an illness weight of patient and the indication of criticality.Mainly contain the change etc. of heart rate, pulse, blood pressure, body temperature, breathing, pupil and corneal reflex.Normal person is under rest state, and pulse is 60-100 beat/min (being generally 70-80 beat/min).When cardiac insufficiency, shock, high heat, serious anemia and pain, thyroid storm, myocarditis, and during the drug intoxication such as atropine, heart rate and pulse are significantly accelerated.When increased intracranial pressure, dissociation, pulse slows down.Heart rate and pulse are consistent in the ordinary course of things, but when the arrhythmia such as atrial fibrillation, frequent premature beat, pulse can be less than heart rate, is called deficient pulse.Blood pressure (referring to brachial artery pressure) is one of important indicator weighing cardiovascular function, when systolic pressure and diastolic pressure are all lower than lower limits of normal (80/60 millimetres of mercury), should consider may to be acute peripheral circulatory failure, scheming infarction, heart failure, acute heart tamponade etc.; When hypertensive encephalopathy or increased intracranial pressure, blood pressure is everlasting more than 200/120 millimetres of mercury.Normal person is when peace and quiet, and eupnea is 16-20 beat/min, if more than 24 beats/min, be tachypnea, as when serious pulmonary lesion, heart failure, hyperpyrexia, anemia; Lower than 10 beats/min, be called that breathing is excessively slow, be common in poisoning with hypnotic and increased intracranial pressure etc.Medical personnel not only will fully understand the meaning of vital sign, also will grasp the change of the vital sign of patient in time, give treatment to take effective measures in time.

Collection disease follow-up system is by symptom, sign, the check result of other hospitals, the real-time collecting of ' Satisfaction Degree of Medical Services information, the computation and analysis to discharged patient, clinical research personnel and hospital administrators is uploaded in the mode such as form, warning, thus reach the collection of raising scientific data and data analysis capabilities, reduce acquisition of information cost and the object by improving medical services raising sufferer satisfaction.Collection disease follow-up system is applicable to the medical institutions of any type, this system is by docking with hospital existing HIS system, clinical CDR data center and DW data warehouse, for medical institutions set up data acquisition center outside automatic institute, and can based on this by computational analysis for hospital provides customized clinical research and medical service quality solution, ensure that clinical research and quality of medical care reach optimum state.

But the collection at present for discharged patient's symptom, sign is only confined to the mode of patient by mobile phone A PP active input, and need the cooperation of patient, intellectuality, the degree that becomes more meticulous of disease acquisition mode are undesirable.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of collection disease follow-up system based on intelligent mobile terminal is provided, the sign datas such as automatic collection patient pulse, body temperature, blood glucose, blood pressure, heart rate, blood oxygen, breathing, and the sign data collected is sent to patient's mobile phone by wireless network, no longer need patient manually to input disease by mobile phone A PP, improve the intellectuality of disease collection, the degree that becomes more meticulous and accuracy.

The purpose of this utility model is achieved through the following technical solutions: based on the collection disease follow-up system of intelligent mobile terminal, comprise some patient's mobile terminals, some doctor terminal and collection disease and follow up a case by regular visits to Cloud Server, each patient's mobile terminal is followed up a case by regular visits to Cloud Server communication respectively by internet with collection disease with doctor terminal and is connected, each patient's mobile terminal is all connected with human body physical sign acquisition instrument, and human body physical sign acquisition instrument is connected with patient's mobile terminal communication by cordless communication network.

Described human body physical sign acquisition instrument comprises clinical thermometer, blood glucose meter, sphygomanometer, heart rate measuring instrument, lung function instrument, sign gathers footwear, sign collection wrist strap, sign gathers glove and sign gathers jacket, and clinical thermometer, blood glucose meter, sphygomanometer, heart rate measuring instrument, lung function instrument, sign gather footwear, sign gathers wrist strap, sign collection glove gather jacket with sign and are connected with patient's mobile terminal respectively by cordless communication network.

Described sign gathers footwear and comprises shoes body and be arranged at the movement circuit in shoes body, and described shoes body comprises upper of a shoe and sole, and the surface of sole is provided with the accommodating layer of sensor, and the heel place of sole is provided with main circuit containing cavity; Described movement circuit comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, and human body physical sign pick-up transducers is arranged in the accommodating layer of sensor; Treatment circuit, radio communication circuit and power circuit are all arranged in main circuit containing cavity.

Described sign gathers wrist strap and comprises wrist strap body and detachable harvester, and detachable harvester comprises harvester accommodating body and is arranged at the card article of harvester accommodating body both sides; The stage casing of described wrist strap body is provided with the groove matched with detachable harvester, and described groove is made up of the collection tank matched with harvester accommodating body and the draw-in groove that matches with card article; Be provided with disease in described harvester accommodating body and gather movement circuit, disease gathers movement circuit and comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, and human body physical sign pick-up transducers is arranged at the outer surface of harvester accommodating body; Treatment circuit, radio communication circuit and power circuit are all arranged in harvester accommodating body.One end of described wrist strap body is provided with holding section, and the other end of wrist strap body is provided with adjustable snap fit portion, position.

Described sign gathers glove and comprises glove bulk and internal machine core circuit, glove bulk comprises metacarpus and wrist, metacarpus comprises thumb cover, index finger cover, middle fingerstall, unknown fingerstall and little fingerstall, and the inner side at thumb cover, index finger cover and middle fingerstall finger place is provided with breach; Described internal machine core circuit comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, and human body physical sign pick-up transducers comprises pulse transducer, body temperature trans, pressure transducer and blood oxygen transducer, and pulse transducer and pressure transducer are arranged at the side that wrist contacts with human body wrist; Body temperature trans and blood oxygen transducer are arranged at the inner side of each fingerstall of metacarpus; Described wrist is provided with containing cavity, and treatment circuit, radio communication circuit and power circuit are all arranged in the containing cavity of wrist.Described wrist is provided with magic tape, and magic tape is made up of sub-face and generatrix.

Described sign gathers jacket and comprises clothing body and internal machine core circuit, described internal machine core circuit comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, human body physical sign pick-up transducers comprises pulse transducer, body temperature trans, pressure transducer and respiration pickup, pulse transducer is arranged at the inner side of clothing body cuff, body temperature trans is arranged at the inner side of clothing body axillary fossa, pressure transducer is arranged at the inner side of clothing body arm, respiration pickup is arranged at the inner side of clothing body abdominal part, and the cuff of clothing body, arm and waist are provided with fastening straps.

Described treatment circuit comprises high-frequency suppressing inductance L, first filter capacitor C1, second filter capacitor C2, first amplifying triode Q1, second amplifying triode Q2 and main process chip U1, one end of high-frequency suppressing inductance L is connected with human body physical sign pick-up transducers, the other end of high-frequency suppressing inductance L is connected with the base stage of the first amplifying triode Q1, one end of first filter capacitor C1 is connected on the points of common connection of high-frequency suppressing inductance L and the first amplifying triode Q1, the other end of the first filter capacitor C1 connects power cathode, the emitter stage of the first amplifying triode Q1 is connected with the base stage of the second amplifying triode Q2, the emitter stage of the second amplifying triode Q2 connects power cathode, first amplifying triode Q1 is connected with the sampled signal input of main process chip U1 respectively with the colelctor electrode of the second amplifying triode Q2, the power end of main process chip U1 is connected to the two ends of power circuit,

Described radio communication circuit comprises resistance R, the 3rd filter capacitor C3, wireless communication chips U2 and antenna, one end of resistance R is connected with main process chip U1, the other end is connected with wireless communication chips U2, one end of 3rd filter capacitor C3 is connected on the points of common connection of resistance R and wireless communication chips U2, the other end connects power cathode, antenna is connected with wireless communication chips U2, and the power end of wireless communication chips U2 is connected to the two ends of power circuit.

The beneficial effects of the utility model are:

1) disease follow-up system is collected by symptom, sign, the check result of other hospitals, the real-time collecting of ' Satisfaction Degree of Medical Services information, the computation and analysis to discharged patient, clinical research personnel and hospital administrators is uploaded in the mode such as form, warning, thus reach the collection of raising scientific data and data analysis capabilities, reduce acquisition of information cost and the object by improving medical services raising sufferer satisfaction.Collection disease follow-up system is applicable to the medical institutions of any type, this system is by docking with hospital existing HIS system, clinical CDR data center and DW data warehouse, for medical institutions set up data acquisition center outside automatic institute, and can based on this by computational analysis for hospital provides customized clinical research and medical service quality solution, ensure that clinical research and quality of medical care reach optimum state.

2) sign of design specialized gathers footwear, sign gathers wrist strap, sign gathers glove and sign gathers jacket, coordinate clinical thermometer, blood glucose meter, sphygomanometer, heart rate measuring instrument and lung function instrument, can automatically gather the sign datas such as patient pulse, body temperature, blood pressure, breathing, and the sign data collected is sent to patient's mobile phone by wireless network, no longer need patient manually to input disease by mobile phone A PP, improve disease and gather the intellectuality of link, the degree that becomes more meticulous and accuracy.

3) treatment circuit comprises LC filter circuit and two-stage transistor amplifier, can improve accuracy and the reliability of sampled data.

4) radio communication circuit comprises RC filter circuit, and patient condition's data that can export main process chip U1 are carried out filtering, reduced signal noise, further increase the reliability of patient condition's data acquisition.

5) sign gathers wrist strap harvester and adopts demountable structure, can change arbitrarily wrist strap color, shape, size etc., easy to use, dye-in-the-wood individual character.Snap fit position on wrist strap is adjustable, according to the position in patients wrist's girth adjustment snap fit portion, can reach the object of wrist strap and patient skin close contact, contribute to the accuracy improving the sign data collections such as pulse, body temperature, blood pressure, blood oxygen concentration.

6) sign gathers glove thumbs cover, the inner side at index finger cover and middle fingerstall finger place is provided with breach, does not affect patient and normally uses touch-screen mobile phone, easy to use.Wrist adopts magic tape structure, is convenient to patient's fastening glove, and pulse transducer and pressure transducer and patient skin close contact, contribute to the accuracy improving pulse, blood pressure data collection.

7) sign gathers jacket cuff, arm and waist and is provided with fastening straps, can measure pulse, blood pressure and breathing time tighten medicated clothing, pulse transducer, pressure transducer and respiration pickup are fitted patient skin more, contributes to improving the accuracy that pulse, blood pressure and breath data gather.

Accompanying drawing explanation

Fig. 1 is this utility model system structure schematic block diagram;

Fig. 2 is that this utility model sign gathers footwear structure schematic diagram;

Fig. 3 is that this utility model sign gathers wristband constructions schematic diagram;

Fig. 4 is that this utility model sign gathers glove structure schematic diagram;

Fig. 5 is that this utility model sign gathers jacket structure schematic diagram;

Fig. 6 is this utility model movement circuit structural schematic block diagram;

In figure, 1.1-upper of a shoe, 1.2-sole, the accommodating layer of 1.3-sensor, 1.4-main circuit containing cavity, 1.5-pulse transducer, 1.6-body temperature trans;

2.1-wrist strap body, 2.2-harvester accommodating body, 2.3-card article, 2.4-gathers tank, 2.5-draw-in groove;

3.1-metacarpus, 3.2-wrist, 3.3-thumb cover, 3.4-index finger cover, fingerstall in 3.5-, the unknown fingerstall of 3.6-, the little fingerstall of 3.7-, 3.8-breach, the sub-face of 3.9-, 3.10-generatrix;

4.1-fastening straps.

Detailed description of the invention

Below in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail, but protection domain of the present utility model is not limited to the following stated.

As shown in Figure 1, based on the collection disease follow-up system of intelligent mobile terminal, comprise some patient's mobile terminals, some doctor terminal and collection disease and follow up a case by regular visits to Cloud Server, each patient's mobile terminal is followed up a case by regular visits to Cloud Server communication respectively by internet with collection disease with doctor terminal and is connected, each patient's mobile terminal is all connected with human body physical sign acquisition instrument, and human body physical sign acquisition instrument is connected with patient's mobile terminal communication by cordless communication network.

As shown in Figure 2, described sign gathers footwear and comprises shoes body and be arranged at the movement circuit in shoes body, described shoes body comprises upper of a shoe 1.1 and sole 1.2, and the surface of sole 1.2 is provided with the accommodating layer 1.3 of sensor, and the heel place of sole 1.2 is provided with main circuit containing cavity 1.4; Described movement circuit comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, and human body physical sign pick-up transducers is arranged in the accommodating layer 1.3 of sensor; Treatment circuit, radio communication circuit and power circuit are all arranged in main circuit containing cavity 1.4.Human body physical sign pick-up transducers is pulse transducer 1.5 and body temperature trans 1.6 mainly.Pulse transducer 1.5 is arranged at the heel portion of the accommodating layer 1.3 of sensor, and tight with patient's heel contact, the pulse signal reliability collected is high; Body temperature trans 1.6 is arranged at the arch portion of the accommodating layer 1.3 of sensor, contacts with patient's arch of foot, can reflect patient temperature objectively.

As preferably, described pulse transducer 1.5 and the quantity of body temperature trans 1.6 are multiple, the pulse that can collect multiple pulse transducer 1.5 and body temperature trans 1.6, temperature data are averaged calculating, obtain pulse, temperature data more accurately and reliably.

As shown in Figure 3, described sign gathers wrist strap and comprises wrist strap body 2.1 and detachable harvester, and detachable harvester comprises harvester accommodating body 2.2 and is arranged at the card article 2.3 of harvester accommodating body 2.2 both sides; The stage casing of described wrist strap body 2.1 is provided with the groove matched with detachable harvester, and described groove is made up of the collection tank 2.4 matched with harvester accommodating body 2.2 and the draw-in groove 2.5 that matches with card article 2.3; Be provided with disease in described harvester accommodating body 2.2 and gather movement circuit, disease gathers movement circuit and comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, and human body physical sign pick-up transducers is arranged at the outer surface of harvester accommodating body 2.2; Treatment circuit, radio communication circuit and power circuit are all arranged in harvester accommodating body 2.2.One end of described wrist strap body 2.1 is provided with holding section, and the other end of wrist strap body 2.1 is provided with adjustable snap fit portion, position.

As shown in Figure 4, described sign gathers glove and comprises glove bulk and internal machine core circuit, glove bulk comprises metacarpus 3.1 and wrist 3.2, metacarpus 3.1 comprises thumb cover 3.3, index finger cover 3.4, middle fingerstall 3.5, unknown fingerstall 3.6 and little fingerstall 3.7, and the inner side at thumb cover 3.3, index finger cover 3.4 and middle fingerstall 3.5 finger place is provided with breach 3.8; Described internal machine core circuit comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, human body physical sign pick-up transducers comprises pulse transducer, body temperature trans, pressure transducer and blood oxygen transducer, and pulse transducer and pressure transducer are arranged at the side that wrist 3.2 contacts with human body wrist; Body temperature trans and blood oxygen transducer are arranged at the inner side of each fingerstall of metacarpus 3.1; Described wrist 3.2 is provided with containing cavity, and treatment circuit, radio communication circuit and power circuit are all arranged in the containing cavity of wrist 3.2.Described wrist 3.2 is provided with magic tape, and magic tape is made up of sub-face 3.9 and generatrix 3.10.

As shown in Figure 5, described sign gathers jacket and comprises clothing body and internal machine core circuit, described internal machine core circuit comprises sample circuit, treatment circuit, radio communication circuit and power circuit, the outfan of sample circuit is connected with the input for the treatment of circuit, treatment circuit is connected with collection disease follow-up system patient intelligent terminal by radio communication circuit, and power circuit is connected with sample circuit, treatment circuit, radio communication circuit respectively; Described sample circuit is human body physical sign pick-up transducers, human body physical sign pick-up transducers comprises pulse transducer, body temperature trans, pressure transducer and respiration pickup, pulse transducer is arranged at the inner side of clothing body cuff, body temperature trans is arranged at the inner side of clothing body axillary fossa, pressure transducer is arranged at the inner side of clothing body arm, respiration pickup is arranged at the inner side of clothing body abdominal part, and the cuff of clothing body, arm and waist are provided with fastening straps 4.1.

As shown in Figure 6, above-described treatment circuit comprises high-frequency suppressing inductance L, the first filter capacitor C1, the second filter capacitor C2, the first amplifying triode Q1, the second amplifying triode Q2 and main process chip U1, one end of high-frequency suppressing inductance L is connected with human body physical sign pick-up transducers, the other end of high-frequency suppressing inductance L is connected with the base stage of the first amplifying triode Q1, one end of first filter capacitor C1 is connected on the points of common connection of high-frequency suppressing inductance L and the first amplifying triode Q1, and the other end of the first filter capacitor C1 connects power cathode.The high-frequency noise that high-frequency suppressing inductance L can suppress human body physical sign pick-up transducers to export, the first filter capacitor C1 can filtering clutter further.The emitter stage of the first amplifying triode Q1 is connected with the base stage of the second amplifying triode Q2, the emitter stage of the second amplifying triode Q2 connects power cathode, first amplifying triode Q1 is connected with the sampled signal input of main process chip U1 respectively with the colelctor electrode of the second amplifying triode Q2, effectively can amplify by two-stage amplifying triode the signal that human body physical sign pick-up transducers collects.The power end of main process chip U1 is connected to the two ends of power circuit.

Described radio communication circuit comprises resistance R, the 3rd filter capacitor C3, wireless communication chips U2 and antenna, one end of resistance R is connected with main process chip U1, the other end is connected with wireless communication chips U2, one end of 3rd filter capacitor C3 is connected on the points of common connection of resistance R and wireless communication chips U2, the other end connects power cathode, patient condition's data that RC filter circuit can export main process chip U1 are carried out filtering, are reduced signal noise, improve the reliability of patient condition's data acquisition further.Antenna is connected with wireless communication chips U2, and the power end of wireless communication chips U2 is connected to the two ends of power circuit.

The above is only preferred implementation of the present utility model, be to be understood that this utility model is not limited to the form disclosed by this paper, should not regard the eliminating to other embodiments as, and can be used for other combinations various, amendment and environment, and can in contemplated scope described herein, changed by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change do not depart from spirit and scope of the present utility model, then all should in the protection domain of this utility model claims.

Claims

1. The disease collection follow-up system based on the intelligent mobile terminal is characterized in that: it includes several patient mobile terminals, several doctor terminals and the collection disease follow-up cloud server, and each patient mobile terminal and doctor terminal communicates with the collection disease follow-up cloud server through the Internet respectively Connection, each patient mobile terminal is connected with a human body sign collection instrument, and the human body sign collection instrument communicates with the patient mobile terminal through a wireless communication network.

2. The disease collection and follow-up system based on an intelligent mobile terminal according to claim 1, wherein the human body sign collection instrument includes a thermometer, a blood glucose meter, a sphygmomanometer, a heart rate detector, a pulmonary function detector, and a sign collection instrument. Shoes, sign collection wristbands, sign collection gloves and sign collection tops, thermometers, blood glucose meters, sphygmomanometers, heart rate monitors, lung function testers, sign collection shoes, sign collection wristbands, sign collection gloves and sign collection tops respectively The wireless communication network is connected with the patient's mobile terminal.

3. The disease collection system based on an intelligent mobile terminal according to claim 2, characterized in that: said sign collection shoes include a shoe body and a core circuit arranged in the shoe body, and said shoe body includes a shoe upper (1.1) and the sole (1.2), the surface of the sole (1.2) is provided with a sensor accommodating layer (1.3), and the heel of the sole (1.2) is provided with a main circuit accommodating cavity (1.4);

The core circuit includes a sampling circuit, a processing circuit, a wireless communication circuit and a power supply circuit, the output end of the sampling circuit is connected to the input end of the processing circuit, the processing circuit is connected to the patient intelligent terminal of the collection disease follow-up system through the wireless communication circuit, and the power supply The circuit is respectively connected with the sampling circuit, the processing circuit and the wireless communication circuit;

The sampling circuit is a sensor for collecting human body signs, and the sensor for collecting human body signs is arranged in the sensor accommodation layer (1.3); the processing circuit, wireless communication circuit and power supply circuit are all arranged in the main circuit accommodation chamber (1.4).

4. The disease collection follow-up system based on an intelligent mobile terminal according to claim 2, characterized in that: the wristband for collecting signs includes a wristband body (2.1) and a detachable collector, and the detachable collector includes a collector The containing body (2.2) and the clip strips (2.3) arranged on both sides of the collector containing body (2.2); the middle section of the wristband body (2.1) is provided with a groove matching the detachable collector, so The groove is composed of a collector slot (2.4) matching with the collector container (2.2) and a card slot (2.5) matching with the clip (2.3);

The collecting body (2.2) is provided with a disease collection core circuit, which includes a sampling circuit, a processing circuit, a wireless communication circuit and a power supply circuit, the output end of the sampling circuit and the input end of the processing circuit connected, the processing circuit is connected to the patient intelligent terminal of the collection disease follow-up system through the wireless communication circuit, and the power supply circuit is respectively connected to the sampling circuit, the processing circuit and the wireless communication circuit;

The sampling circuit is a human body sign collection sensor, and the human body sign collection sensor is arranged on the outer surface of the collector container (2.2); the processing circuit, wireless communication circuit and power supply circuit are all arranged in the collector container (2.2) .

5. The disease collection follow-up system based on an intelligent mobile terminal according to claim 4, characterized in that: one end of the wristband body (2.1) is provided with a locking part, and the other end of the wristband body (2.1) is provided with a Position adjustable snap fit.

6. The disease collection follow-up system based on an intelligent mobile terminal according to claim 2, characterized in that: the sign collection glove includes a glove body and an internal core circuit, and the glove body includes a palm (3.1) and a wrist ( 3.2), the palm (3.1) includes the thumb cover (3.3), the index finger cover (3.4), the middle finger cover (3.5), the ring finger cover (3.6) and the little finger cover (3.7), the thumb cover (3.3), the index finger cover ( 3.4) and the inner side of the finger of the middle finger sleeve (3.5) is provided with a gap (3.8);

The internal core circuit includes a sampling circuit, a processing circuit, a wireless communication circuit and a power supply circuit, the output end of the sampling circuit is connected to the input end of the processing circuit, and the processing circuit is connected to the patient intelligent terminal of the collection disease follow-up system through the wireless communication circuit, The power supply circuit is respectively connected with the sampling circuit, the processing circuit and the wireless communication circuit;

The sampling circuit is a sensor for collecting human body signs. The sensor for collecting human body signs includes a pulse sensor, a body temperature sensor, a blood pressure sensor and a blood oxygen sensor. The pulse sensor and the blood pressure sensor are arranged on the side of the wrist (3.2) in contact with the human wrist; The sensor and the blood oxygen sensor are arranged on the inner side of each finger cuff of the palm (3.1); the wrist (3.2) is provided with an accommodating cavity, and the processing circuit, wireless communication circuit and power supply circuit are all arranged in the wrist (3.2) inside the chamber.

7. The disease collection follow-up system based on an intelligent mobile terminal according to claim 6, characterized in that: the wrist (3.2) is provided with a Velcro, and the Velcro is composed of a child surface (3.9) and a mother surface ( 3.10) Composition.

8. The disease collection follow-up system based on an intelligent mobile terminal according to claim 2, characterized in that: the sign collection coat includes a clothing body and an internal core circuit, and the internal core circuit includes a sampling circuit, a processing Circuit, wireless communication circuit and power supply circuit, the output terminal of the sampling circuit is connected with the input terminal of the processing circuit, the processing circuit is connected with the patient intelligent terminal of the disease collection follow-up system through the wireless communication circuit, the power supply circuit is respectively connected with the sampling circuit, processing circuit, wireless communication circuit circuit connection;

The sampling circuit is a sensor for collecting human body signs. The sensor for collecting human body signs includes a pulse sensor, a body temperature sensor, a blood pressure sensor and a respiration sensor. It is arranged on the inner side of the arm of the clothing body, the breathing sensor is arranged on the inner side of the abdomen of the clothing body, and the cuffs, arms and waist of the clothing body are all provided with tightening belts (4.1).

9. The intelligent mobile terminal-based disease follow-up system according to any one of claims 3-8, characterized in that: the processing circuit includes a high-frequency suppression inductor L, a first filter capacitor C1, a second filter capacitor Capacitor C2, the first amplifying transistor Q1, the second amplifying transistor Q2 and the main processing chip U1, one end of the high-frequency suppressing inductor L is connected to the human body sign collection sensor, the other end of the high-frequency suppressing inductor L is connected to the base of the first amplifying transistor Q1 One end of the first filter capacitor C1 is connected to the common connection point between the high-frequency suppressing inductance L and the first amplifying transistor Q1, the other end of the first filter capacitor C1 is connected to the negative pole of the power supply, and the emitter of the first amplifying transistor Q1 is connected to the The base of the second amplifying transistor Q2 is connected, the emitter of the second amplifying transistor Q2 is connected to the negative pole of the power supply, the collectors of the first amplifying transistor Q1 and the second amplifying transistor Q2 are respectively connected with the sampling signal input end of the main processing chip U1, and the main The power terminals of the processing chip U1 are respectively connected to the two ends of the power circuit;

The wireless communication circuit includes a resistor R, a third filter capacitor C3, a wireless communication chip U2 and an antenna, one end of the resistor R is connected to the main processing chip U1, the other end is connected to the wireless communication chip U2, and one end of the third filter capacitor C3 Connected to the common connection point of the resistor R and the wireless communication chip U2, the other end is connected to the negative pole of the power supply, the antenna is connected to the wireless communication chip U2, and the power supply terminals of the wireless communication chip U2 are respectively connected to both ends of the power supply circuit.