CN111214232B - Erection function detection device and erection function detection system based on wireless transmission - Google Patents

Erection function detection device and erection function detection system based on wireless transmission Download PDF

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CN111214232B
CN111214232B CN202010080354.7A CN202010080354A CN111214232B CN 111214232 B CN111214232 B CN 111214232B CN 202010080354 A CN202010080354 A CN 202010080354A CN 111214232 B CN111214232 B CN 111214232B
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annular body
annular
erection
sensor
slot
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CN111214232A (en
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梁平
陈佳媛
陈佳妮
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Guangzhou Xizhixian Biotechnology Co ltd
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/103Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
    • A61B5/107Measuring physical dimensions, e.g. size of the entire body or parts thereof
    • A61B5/1072Measuring physical dimensions, e.g. size of the entire body or parts thereof measuring distances on the body, e.g. measuring length, height or thickness
    • AHUMAN NECESSITIES
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    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/0002Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
    • A61B5/0004Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network characterised by the type of physiological signal transmitted
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/0002Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
    • A61B5/0015Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network characterised by features of the telemetry system
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
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    • A61B5/4375Detecting, measuring or recording for evaluating the reproductive systems for evaluating the male reproductive system
    • A61B5/4393Sexual arousal or erectile dysfunction evaluation, e.g. tumescence evaluation
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • A61B5/0205Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
    • A61B5/02055Simultaneously evaluating both cardiovascular condition and temperature
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
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    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • A61B5/021Measuring pressure in heart or blood vessels
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/145Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue
    • A61B5/14532Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue for measuring glucose, e.g. by tissue impedance measurement
    • AHUMAN NECESSITIES
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    • A61B5/00Measuring for diagnostic purposes; Identification of persons
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    • A61B5/14542Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue for measuring blood gases
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/40Detecting, measuring or recording for evaluating the nervous system
    • A61B5/4005Detecting, measuring or recording for evaluating the nervous system for evaluating the sensory system
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/48Other medical applications
    • A61B5/4824Touch or pain perception evaluation
    • A61B5/4827Touch or pain perception evaluation assessing touch sensitivity, e.g. for evaluation of pain threshold

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Abstract

The invention discloses an erection function detection device which comprises an annular body, wherein an air bag is formed in the annular body, an inflation inlet is formed in the annular body and used for inflating the air bag, and the elastic coefficient of the annular body is gradually reduced from the inner side to the outer side; and a pressure intensity sensor is arranged on the inner side of the annular body or in the air bag. The invention also discloses an erection function detection system based on wireless transmission, which comprises the erection function detection device. The invention judges the erection degree (hardness, length, circumference, erection duration, times, frequency and the like) by the pressure variation of the gas contained in the annular body caused by the volume change of the annular body, can realize real-time uninterrupted accurate detection and does not bring discomfort.

Description

Erection function detection device and erection function detection system based on wireless transmission
Technical Field
The invention relates to a sexual function detection device, in particular to an erection function detection device and an erection function detection system based on wireless transmission.
Background
Sexual function testing, particularly male erectile testing, is involved in both medical and forensic fields. The existing male erection detection mainly comprises the following modes: 1. stamp testing: using a non-torn stamp with a joint hole to stick around the penis at the overlapping part before sleeping, if the stamp hole is torn when waking up in the morning, the effective erection is shown at night, and if the stamp is unstuck along the overlapping part, the stamp is not meaningful; this method is convenient, simple and original, but cannot estimate erection degree and night erection times. 2. Measuring the circumference of the penis: one end of a strip-shaped flexible ruler is connected with a square hasp, the strip-shaped flexible ruler is fixed on the penis by an adhesive tape before sleeping, the strip-shaped flexible ruler penetrates out of the hasp around one end of the penis, can stretch and move without resistance, and then the scale reading base number is seen. 3. Penis test ring: three colored plastic bands are arranged on the buckle in parallel, and the three bands can be respectively 2.94 (blue), 4.41 (red) and 5.88 (white). Although the method can estimate the erection degree, the erection times cannot be obtained, and the binding to people is large, so that accurate data is difficult to obtain. 4. Erection tester at night: the device for measuring the night erection is most widely applied by a RigiScan penis hardness measuring instrument, the RigiScan penis hardness measuring instrument measures and records the hardness of the head and the root of the penis and the duration and the times of swelling (circumference), a steel wire is arranged in a ring sleeve sleeved on the penis, the measurement is carried out every 15s, the steel wire in the ring sleeve is immediately released after being tightened by 114g of tensile force, the ring sleeve is restored to a no-load state, the swelling degree is measured, and the data are compared with the previous sample; the host and the recorder are large in size, and are difficult to move during sleeping, so that the data of the testee is difficult to achieve accuracy while bad experience is brought to the testee, and real-time continuous measurement is not achieved.
Disclosure of Invention
In order to overcome the defects of the prior art, one of the objectives of the present invention is to provide an erection function detecting device, which can judge the erection degree by the pressure change of the contained gas caused by the volume change of the annular body, can realize real-time accurate detection without interruption, and does not bring discomfort.
Another object of the present invention is to provide a wireless transmission-based erectile function detection system comprising the above-mentioned erectile function detection apparatus, which can determine the degree of erection (hardness, length, circumference, erection duration, number, frequency, etc.) by the pressure variation of the gas contained therein and the size variation of the penis due to the volume variation of the ring body, and can realize accurate detection in real time without interruption, and does not bring discomfort.
One of the purposes of the invention is realized by adopting the following technical scheme:
an erection function detection device comprises an annular body, wherein an air bag is formed in the annular body, an inflation inlet is formed in the annular body and used for inflating the air bag, and the elastic coefficient of the annular body is gradually reduced from the inner side to the outer side; and a pressure sensor is arranged on the inner side of the annular body or in the air bag.
As a preferred embodiment, a human body physiological index detection sensor is further mounted on the inner side of the annular body.
In a preferred embodiment, the human body physiological index detection sensor is one or more of a temperature sensor, a blood glucose sensor, a blood pressure sensor, a pulse sensor, a touch sensor, a pain sensor, and a blood oxygen saturation sensor.
In a preferred embodiment, one or more cleats are radially disposed on the inside of the annular body.
The second purpose of the invention is realized by adopting the following technical scheme:
when one erection function detection device is adopted, the data acquisition device is connected with a pressure intensity sensor on the annular body through a bus, the data acquisition device is also in communication connection with external terminal equipment through a wireless communication module, and the inflation device inflates the annular body; when a plurality of erection function detection devices are adopted, the annular bodies are mutually inserted, the data acquisition device is connected with the pressure sensors on all the annular bodies through a bus, the data acquisition device is also in communication connection with external terminal equipment through a wireless communication module, and the inflation device inflates all the annular bodies.
As a preferred embodiment, when a plurality of the erection function detection means are employed, the annular bodies include a first annular body, a second annular body and a third annular body, respectively;
the second annular body and the third annular body are respectively provided with a first pin and a second pin, and the second pin is communicated with the inflation inlet on the corresponding annular body; a first slot and a second slot are respectively arranged on the first annular body and the second annular body, the first pin is matched with the first slot, and the second pin is matched with the second slot; the first annular body is also provided with an interface, and the interface is connected with a data acquisition device; the inflation inlet of the first annular body is communicated with the inflation device through an air pipe;
when two erection function detection devices are adopted, the erection function detection system comprises a first annular body and a third annular body, wherein a first pin of the third annular body is inserted into a first slot of the first annular body so as to connect buses of the first annular body and the third annular body to form a system bus, and the system bus is connected with an interface so that pressure and pressure sensors of the first annular body and the third annular body are connected to a data acquisition device through the system bus; the second pin of the third annular body is inserted into the second slot of the first annular body, so that the inflation ports of the first annular body and the third annular body are communicated, and the inflation device inflates the first annular body and the third annular body;
when more than two erection function detection devices are adopted, the erection function detection system comprises a first annular body, a third annular body and at least one second annular body, wherein a first pin of the third annular body is inserted into a first slot of the foremost second annular body, a first pin of the last second annular body is inserted into a first slot of the first annular body, and a first pin between adjacent second annular bodies is inserted into the first slot so as to connect buses of the first annular body, the second annular body and the third annular body to form a system bus; the second plug pin of the third annular body is inserted into the second slot of the foremost second annular body, the second plug pin of the rearmost second annular body is inserted into the second slot of the first annular body, and the second plug pin between adjacent second annular bodies is inserted into the second slot, so that the inflation ports of the first annular body, the second annular body and the third annular body are communicated, and the inflation device inflates all the annular bodies.
As a preferred embodiment, the data acquisition device includes a signal conditioning circuit, an a/D converter and a processor, the signal conditioning circuit is connected to the processor through the a/D converter, and the processor is in communication connection with an external terminal device through a wireless communication module.
In a preferred embodiment, the terminal device is any one or more of a desktop computer, a notebook computer, a server, a mobile phone and a tablet computer;
or/and
as a preferred embodiment, the bus is I 2 C. Any one or more of SPI and UART bus.
As a preferred embodiment, the terminal device receives the pressure sensor to obtain a pressure variation of each annular body; and the terminal equipment acquires the length of the penis according to the pressure variation of each annular body.
As a preferred embodiment, an analysis platform is installed in the terminal device;
the analysis platform compares the pressure variation and the penis length with a pre-stored knowledge base to obtain a comparison result; when a human body physiological index detection sensor is further installed on the inner side of the annular body, the analysis platform further compares monitoring data of the human body physiological index detection sensor with a prestored knowledge base, wherein the human body physiological index detection sensor is one or more of a temperature sensor, a blood sugar sensor, a blood pressure sensor, a pulse sensor, a touch sensor, a pain sensation sensor and a blood oxygen saturation sensor;
or alternatively
The analysis platform inputs the pressure variation and the penis length into a pre-trained neural network model to obtain an analysis result; when a human body physiological index detection sensor is further installed on the inner side of the annular body, the analysis platform further inputs monitoring data of the human body physiological index detection sensor into a pre-trained neural network model, and the human body physiological index detection sensor is one or more of a temperature sensor, a blood sugar sensor, a blood pressure sensor, a pulse sensor, a touch sensor, a pain sensation sensor and a blood oxygen saturation degree sensor.
Compared with the prior art, the invention has the beneficial effects that:
according to the invention, the inflated annular body is sleeved on the penis to realize the erection detection of the penis, and the erection quantity of the penis is obtained according to the contraction degree of the annular body corresponding to the pressure variation quantity value, so that the error is small, the requirement on the inflation quantity is not large, and the penis can be prevented from falling off from the penis, so that discomfort can not be brought to a testee, and the measurement precision is further improved.
The invention also forms a detection system by splicing a plurality of annular bodies, each annular body is an independent module and can be used independently or spliced, and the length change of the penis (the pressure value of a certain annular body or some annular bodies does not change by acquiring the number of data, so that the penis is not erected in the part) and the pressure variation of each section of annular body are further acquired, so that more accurate erection data is acquired by analyzing the length change of the penis and the pressure variation of a plurality of groups of annular bodies, and the test is more accurate.
The invention can also obtain the expanding circumference variation curve of the penis, the penis hardness variation curve, the erection times and the erection frequency as well as the duration of the erection of the penis through the pressure variation curve and the penis variation curve, and simultaneously can realize the multi-dimensional detection of the erection function by combining the detection data of the human body physiological index detection sensor, so that the detection is more accurate and comprehensive.
Drawings
FIG. 1 is a structural view of an erection function detecting apparatus according to the first embodiment;
fig. 2 is a schematic structural view of a first annular body according to a second embodiment;
fig. 3 is a schematic diagram of an annular body insertion structure according to a second embodiment;
FIG. 4 is an architectural diagram of an erectile function detection system of a second embodiment;
FIG. 5 is a graph of pressure versus time;
FIG. 6 is a graph of length over time;
FIG. 7 is a graph showing the change of the circumference of the penis with time;
FIG. 8 is a graph showing a change in the penis's firmness with time;
fig. 9 is an enlarged view of region a of fig. 8.
In the figure: 10. an annular body; 11. a first portion; 12. a second portion; 13. a pressure intensity sensor; 14. a human body physiological index detection sensor; 20. a second annular body; 21. a first pin; 22. a second pin; 23. a first slot; 24. a second slot; 30. a first annular body; 31. an interface; 32. an inflation inlet; 40. a third annular body; 50. a data acquisition device; 51. a signal conditioning circuit; 52. an A/D converter; 53. a processor; 54. a clock chip; 55. a control panel; 60. an inflator; 70. a system bus; 80. a wireless communication module; 90. and (4) terminal equipment.
Detailed description of the preferred embodiment
The present invention is further described with reference to the accompanying drawings and specific embodiments, and it should be noted that, in the case of no conflict, any combination between the embodiments or technical features described below may form a new embodiment. Except as specifically noted, the materials and equipment used in this example are commercially available.
The first embodiment is as follows:
referring to fig. 1, an erection function detecting device includes an annular body 10, an air bag is formed inside the annular body, an inflation inlet is formed on the annular body for inflating the air bag, and an elastic coefficient of the annular body is gradually reduced from an inner side to an outer side; inside the annular body or in the bladder a pressure sensor 13 is mounted.
The annular body is made of materials with different elastic coefficients, the air bag can contract along with the annular body when the pressure on the inner side is increased after the annular body is inflated, and the phenomenon that the whole annular body is expanded outwards and the internal volume of the air bag is unchanged due to the materials with the same elastic coefficients is avoided, namely, the pressure change value (which can be converted into the internal pressure change value of the air bag) is converted into the volume change of the air bag according to the Keraberon equation (PV = nRT, P is the pressure, V is the volume, n is the amount of a substance, R is a gas constant, T is the absolute temperature, and the pressure change value and the volume change value are in inverse proportion).
The purpose of this is two: firstly, errors caused by various interferences during measurement are eliminated through the pressure variation value, so that the interferences are mutually counteracted, and the measurement is more accurate; secondly, the requirement on the inflation quantity is not too much, so long as the penis is sleeved with the condom and the condom does not fall off, thereby avoiding the discomfort of the testee caused by too tight.
The materials with different elastic coefficients may be the same material, and the elastic coefficients of the same material are different, or may be different materials, and have different elastic coefficients, which is not limited herein. It is within the scope of the present invention to provide that the spring constant of the annular body decreases from the inside to the outside.
The pressure sensor may be any sensor that characterizes pressure by a pressure gauge, and is not limited herein, for example, an MEMS pressure sensor may be used to monitor pressure variation of the annular body, and may be installed inside the annular body and directly contact with the penis, or may be installed inside the annular body, i.e., inside the bladder, and obtain volume variation of the bladder according to pressure variation (difference between an initial value and a real-time value), where the volume variation of the bladder may be regarded as variation of erection of the penis, and the pressure sensor is a real-time uninterrupted detection, and is more accurate compared to the prior art.
In a preferred embodiment of the invention, in order to prevent the annular body from falling off from the penis, at least one anti-slip strip is further arranged on the inner side of the annular body, the material of the anti-slip strip can be the same as that of the inner side of the annular body, and the anti-slip strip is radially distributed on the inner side of the annular body.
In the preferred embodiment of the present invention, the erection level can be further monitored by combining with the human body physiological index detection sensor 14, and the human body physiological index detection sensor 14 includes, but is not limited to, a temperature sensor, a blood glucose sensor, a blood pressure sensor, a pulse sensor, a touch sensor, a pain sensor, a blood oxygen saturation sensor, etc., which can be any one of the above sensors, or a combination of multiple sensors.
Example two
The second embodiment provides an erectile function detection system based on wireless transmission, which is shown in fig. 2-4, and includes one or more erectile function detection apparatuses of the above embodiments, in addition, a data acquisition apparatus 50, and an inflation apparatus 60.
The erection function detection device is adopted, only the annular body in the embodiment needs to be connected with the data acquisition device and the inflation device, an interface can be arranged on the annular body, the data of the corresponding sensor is transmitted to the data acquisition device through a bus, and the inflation device is connected with the inflation inlet of the annular body for inflation.
When a plurality of erection function detection devices are combined, the annular bodies are sequentially inserted, and the lengths (or called heights, namely axial lengths) of the annular bodies can be equal or unequal, which is not limited herein. After the plugging, the data acquisition device acquires the detection data of the pressure sensor and the detection data of the human body physiological index detection sensor in a unified manner, and the inflation device inflates all the annular bodies in a unified manner. In addition, the data acquisition device communicates with an external terminal device 90 through the wireless communication module 80, so as to send detection data to the terminal device for analyzing the erection function. The terminal device can be an intelligent terminal such as a mobile phone and a tablet personal computer, and can also be a desktop computer, a notebook computer, a server and the like.
The data acquisition device may include a signal conditioning circuit 51, an a/D converter 52, and a processor 53, where the signal conditioning circuit may include a filter circuit, an amplifier circuit, a follower circuit, a compensation circuit, and the like, and is configured to condition a received signal acquired by the sensor; the signal conditioning circuit receives detection data of the pressure intensity sensor and the human body physiological index detection sensor, and then the detection data are connected to the processor through the A/D converter, and the processor is in communication connection with external terminal equipment through the wireless communication module.
The A/D converter can be arranged independently or integrated in the processor. The number of the processors may be one or a plurality of processors, and when a plurality of processors are used, the processors may respectively send data of different annular bodies to different processors, or different types of sensors correspond to one processor, or of course, a part of annular bodies or a part of sensors correspond to one processor, which is not limited herein as long as it is ensured that the data is processed and transmitted in time.
The wireless communication module can be but is not limited to a WIFI module, a Bluetooth module, a ZigBee module, a 4G module, a 5G module and the like.
The air charging device can be an air pump used for pumping outside atmosphere into the air bag, and the air pump can be controlled by the processor or can be directly controlled by an external control panel.
As an implementation mode, two groups of pin and slot structures can be arranged on the annular bodies, wherein one group of pin is matched with the slot to realize electric signal connection, namely detection data is sent to the data acquisition device, and the other group of pin is matched with the slot to realize a gas passage, namely all air bags between the annular bodies are communicated.
Specifically, the plurality of toroids includes a first toroid, a second toroid, and a third toroid, respectively.
Referring to fig. 2, the second annular body 20 is provided with a first pin 21, a second pin 22, a first slot 23 and a second slot 24; the third annular body 40 lacks the first slot and the second slot relative to the second annular body, and of course, the first slot and the second slot of the second annular body may be plugged to form a third annular body; the first annular body 30 is devoid of the first and second prongs with respect to the second annular body, although it could have the first and second prongs when not so much affected; the first annular body is further provided with an interface 31 which is used for connecting with a data acquisition device, and an inflation inlet 32 of the first annular body is communicated with an inflation device through an air pipe.
One end of a bus arranged on the third annular body is connected to the pressure intensity sensor and the human body physiological index detection sensor of the third annular body, and the other end of the bus is connected to a first pin arranged on the bus; the inflation inlet arranged on the third annular body is connected to the second pin arranged on the third annular body. One end of a bus arranged on the second annular body is connected to the pressure intensity sensor and the human body physiological index detection sensor of the second annular body, and the other two ends of the bus arranged on the second annular body are respectively connected to the first pin and the first slot arranged on the bus; the inflation inlet, the second plug pin and the second slot which are arranged on the second annular body are communicated; one end of a bus arranged on the first annular body is connected to the pressure intensity sensor and the human body physiological index detection sensor of the first annular body, and the other two ends of the bus arranged on the first annular body are respectively connected to a first slot and an interface arranged on the bus; the inflation inlet, the second slot and the inflation device which are arranged on the first annular body are communicated.
In summary, the electrical signal connection is formed between the plugged buses and is marked as a system bus 70; the detection data of the pressure intensity sensors and the human body physiological index detection sensors arranged on all the annular bodies can be transmitted to the data acquisition device, the inserted inflation ports are communicated with the inflation device, and all the annular bodies can be inflated through the inflation device.
When two erection function detection devices are adopted, only the first annular body and the third annular body are used, the first pin of the third annular body is inserted into the first slot of the first annular body, so that buses of the first annular body and the third annular body are connected to form a system bus, and the system bus is connected with the interface, so that the pressure sensors of the first annular body and the third annular body are connected to the data acquisition device through the system bus; the second pin of the third annular body is inserted into the second slot of the first annular body, so that the inflation openings of the first annular body and the third annular body are communicated, and the inflation device inflates the first annular body and the third annular body.
When more than two erection function detection devices are adopted, the erection function detection system comprises a first annular body, a third annular body and at least one second annular body, wherein a first pin of the third annular body is inserted into a first slot of the foremost second annular body, a first pin of the last second annular body is inserted into a first slot of the first annular body, and a first pin between adjacent second annular bodies is inserted into the first slot so as to connect buses of the first annular body, the second annular body and the third annular body to form a system bus which is connected with an interface, so that pressure sensors of the first annular body, the second annular body and the third annular body are all connected to a data acquisition device through the system bus; the second plug pin of the third annular body is inserted into the second slot of the foremost second annular body, the second plug pin of the rearmost second annular body is inserted into the second slot of the first annular body, and the second plug pin between the adjacent second annular bodies is inserted into the second slot, so that the inflation ports of the first annular body, the second annular body and the third annular body are communicated, and the inflation device inflates all the annular bodies.
The inflation is realized through the inflation device, and when the inflation is finished and the use is finished, the inflation inlet of the first annular body is plugged (for a single erection function detection device, the inflation inlet of the annular body is plugged), and when the deployment and the retraction are not used, the deployment and the retraction can be realized only by opening the inflation inlet to deflate.
Of course, in some cases, it is also possible to separately provide a data acquisition device and an inflation device for each ring body, that is, the data and inflation of each ring body are separately provided, and then each data acquisition device transmits the data to the terminal equipment through the wireless communication module, and each inflation device inflates its respective ring body.
The invention preferably uses a data acquisition device to acquire all detection data, and an inflation device inflates all airbags, and aims to: the overall size of the detection system is reduced, the burden on the sleep of the detected person is avoided, the test accuracy can be improved, and meanwhile, the cost is saved.
The system bus may be I 2 C. SPI, UART, etc. buses, it being understood that the interface corresponds to the system bus.
The data acquisition device also comprises a clock chip 54 and a control panel 55, the clock chip can be independently arranged or integrated in the processor, the clock chip is used for clock control, on one hand, the data acquisition time can be controlled in a timing mode through the clock chip, of course, the data acquisition can also be finished at one time, namely, each device is started at night during testing, then all data are sent to the processor at one time during testing, and then the data are sent to the terminal equipment by the processor, the one-time acquisition can be realized through the control panel (touch keys or mechanical keys and the like) of the data acquisition device, or the timing function of the clock chip can be realized, for example, the data are automatically sent after eight hours; on the other hand, the detection data and the time can be correlated by a timing function of the clock to form a corresponding graph after statistics, for example, fig. 5 and fig. 6 respectively show the variation curves of the pressure and the length with the data, wherein the variation curve of the pressure can be a variation curve of the pressure (P2-P1, i.e. the varied pressure value P2 minus the initial pressure value P) or a relative variation curve of the pressure ((P2-P1)/P2); the length profile can be similar to this, for example, the change in length or the relative change in length. Fig. 5 shows a pressure versus change curve, and fig. 6 shows a change curve of the length.
The amounts of change mentioned hereinafter may be actual values of change or relative values of change.
The variation curve of the pressure variation and the variation curve of the penis length with time can be obtained through the variation curve, and further a preliminary analysis result can be obtained, for example, the variation of the circumference of the penis, the variation of the hardness of the penis, the erection times and the erection frequency can be obtained according to fig. 5; also, the number of erections and the frequency of erections can be obtained from fig. 6, and fig. 7 and 8 show the variation curve of the enlarged circumference of the penis and the variation curve of the hardness of the penis, respectively, obtained from the pressure variation curve of fig. 5, from which it can be seen that the pressure variation, the length variation of the penis, the circumference variation of the penis and the variation of the hardness of the present invention can be collected without interruption, and the number of erections and the frequency of erections can be obtained from their variation curves. If more detailed analysis results are needed, the analysis results can be determined through an analysis platform or the clinical judgment of a doctor, and the clinical judgment of the doctor can be the current diagnosis in the process of visiting a doctor or the remote diagnosis, which is not limited herein.
The change in penis firmness is shown in figure 8 as a relative change in penis firmness from which the duration of erection can be obtained (of course, this is also true in relation to figures 5 and 7).
As shown in fig. 8, one erection duration can be obtained based on the baseline, which is the basic value of the initial period of the test, for example, when the initial periods are all around 18%, 18% can be used as the baseline, and each erection duration is the time corresponding to two consecutive intersections with the baseline and located on the upper side of the baseline (hardness exceeding the baseline), and fig. 8 includes four erection durations. FIG. 9 is an enlarged view of erection 2 of FIG. 8, in which FIG. 9 a-f are one erection and t1+ t2+ t3+ t4+ t5 is the duration of one erection. In the one-time erection, effective erection and ineffective erection are included, the definition of effective erection and ineffective duration can be manually set as a reference according to needs, and the reference can also be set according to big data, in the one-time erection, the duration time of erection exceeding the reference is effective erection, the erection not exceeding the reference is ineffective erection, the duration time of effective erection is recorded as effective erection time, the duration time of ineffective erection is recorded as ineffective erection time, for example, when the reference is 40%, the interval between b-c-d-e is effective erection, and t2+ t3+ t4 is effective erection time; the interval between a-b and e-f is ineffective erection, and t1 and t5 are ineffective erection time; if the standard is 60%, the interval between c and d is effective erection, t3 is effective erection time, the intervals before a-b-c and d-e-f are ineffective erection, and t1, t2, t4 and t5 are all ineffective erection time.
Preliminary analysis results can be obtained from the duration of erection, such as mild erectile dysfunction, normal erectile function, and the like. During the analysis, the duration of erection used may be the total duration of one erection or the duration of both effective and ineffective erections.
The control panel may be a touch screen or a mechanical key, and the processor may be controlled by the control panel to execute corresponding actions, such as setting a timing acquisition time, and the like, and if the touch screen is adopted, corresponding parameters may be displayed on the touch screen, and if the mechanical key is adopted, the processor may be matched with a display screen, such as an LCD display screen or an LED display screen, and the display screen is used to display the corresponding parameters, and of course, in some cases, a corresponding change curve graph may also be displayed.
When the inflatable device is used, firstly, a single annular body or an inserting structure of a plurality of annular bodies (specifically, the number of the annular body structures is selected according to needs, preferably, at least one annular body does not have data output in a test result) is arranged on the penis of a testee when the penis is soft, then, the inflation of the inflatable device is controlled through the control panel based on the processor, and the fixation on the penis is realized on the basis of finishing the identification and correction of the basic or reference pressure. Then, in the detection time, the timing or one-time data acquisition is realized through the control panel based on the processor, the acquired detection time is sent to the processor and is sent to the terminal equipment by the processor, and then the terminal equipment can obtain a change curve based on statistical data or an analysis platform completes a corresponding analysis result.
The analysis platform can be installed in the terminal device, and the analysis result can be obtained through the analysis platform, and the analysis result can be intermediate data or the result of erection degree, which is not limited herein. And giving an analysis result of the analysis platform, wherein the analysis platform can give guidance to the tested person or a doctor or a judicial appraiser. The instruction to the subject may be: the determination of the analysis results is used to guide the subject, for example, whether or not the erectile function is normal. If the erection abnormality exists, the tested person is recommended to go to a hospital or an identification institution or be subjected to further judgment or diagnosis and treatment in a remote mode. Guidance to the physician and judicial appraiser may be: the obtained analysis result provides objective judgment basis for clinical diagnosis and treatment and judicial appraisal.
The analysis platform can compare the pressure variation and the penis length with a pre-stored knowledge base to obtain a comparison result; when the inner side of the annular body is also provided with a human body physiological index detection sensor, the analysis platform also compares the monitoring data of the human body physiological index detection sensor with a prestored knowledge base. The human body physiological index detection sensor can be one or more of a temperature sensor, a blood sugar sensor, a blood pressure sensor, a pulse sensor, a touch sensor, a pain sensation sensor and a blood oxygen saturation sensor.
Besides the detection data, the analysis platform can also compare the change of the circumference of the penis, the change of the hardness, the erection duration, the erection times and the erection frequency with a pre-stored knowledge base, so that the erection function is detected in multiple dimensions, and the aim of accurate detection is fulfilled.
The knowledge base can be stored in terminal equipment, also can be in the high in the clouds server, and the analysis platform can be compared above that, also can send pressure variation and penis length to the high in the clouds, compares through the knowledge base with prestoring by the high in the clouds, acquires the comparison result.
The knowledge base can be divided according to different regions, ages and the like, if the comparison result is an intermediate result, the data of the knowledge base corresponding to the pressure variation, the detection data of the human body physiological index detection sensor, the penis length data, the change data of the circumference of the penis, the change data of the penis hardness, the erection frequency data and the erection frequency data can be similar to the result of blood detection; if the comparison result is an identification result, the pressure variation, the data detected by the human body physiological index detection sensor, the penis length data, the change data of the circumference of the penis, the change data of the hardness of the penis, the erection duration, the erection frequency data and the erection frequency data can be classified according to the knowledge base to obtain the classification result, such as mild erection dysfunction, moderate erection dysfunction, severe erection dysfunction, normal erection function and the like.
In addition, a neural network model can be created, a plurality of normal person samples and different degrees of erectile dysfunction person samples (which can only comprise pressure variation and penis length data, and for more accurate test, can also comprise human body physiological index detection sensor detection data, and can also comprise penis circumference variation data, penis hardness variation data, erection duration, erection frequency data and erection frequency data) are obtained, the neural network model is trained, so that the erection function detection model is obtained, when the neural network model is used in the later period, the analysis result can be obtained only by inputting the corresponding detection data into the erection function detection model, and similarly, the analysis result can also be intermediate data or an identification result.
The neural network model may be located in the cloud, or may be located in the terminal device, that is, the analysis result may be calculated in the terminal device, or may be calculated in the cloud, which is not limited herein.
In some household cases, the testee may also perform preliminary judgment on the erection function by himself, that is, the terminal device provides basic erection data for the testee to refer to, for example, set a length value, an erection size, and the like, so that the testee may determine whether to go to a hospital or an authentication institution or perform remote diagnosis for further detailed erection function detection according to the preliminary judgment result.
The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention should not be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. An erection function detection system based on wireless transmission is characterized by comprising a data acquisition device, an inflation device and more than one erection function detection device, wherein the erection function detection device comprises an annular body, an air bag is formed in the annular body, an inflation inlet is formed in the annular body and used for inflating the air bag, and the elastic coefficient of the annular body is gradually reduced from the inner side to the outer side; the pressure sensors are arranged on the inner sides of the annular bodies or in the air bags, the annular bodies are mutually inserted, the data acquisition device is connected with the pressure sensors on all the annular bodies through a bus, the data acquisition device is also in communication connection with external terminal equipment through a wireless communication module, and the inflation device inflates all the annular bodies;
the terminal equipment receives detection data of the pressure sensor to obtain the pressure variation of each annular body; the terminal equipment obtains the length of the penis according to the pressure variation of each annular body, and the length of the annular body with the pressure variation is used as the length of the penis.
2. The wireless transmission based erectile function detection system according to claim 1, wherein a human body physiological index detection sensor is further installed inside the annular body.
3. The wireless transmission-based erectile function detection system of claim 2, wherein the human physiological index detection sensor is one or more of a temperature sensor, a blood glucose sensor, a blood pressure sensor, a pulse sensor, a tactile sensor, a pain sensation sensor, and a blood oxygen saturation sensor.
4. A wireless transmission based detection system for an erectile function according to any one of the claims 1 to 3 wherein the annular body is provided with one or more cleats radially on the inside.
5. The wireless transmission based erectile function detection system according to claim 1, wherein when a plurality of the erectile function detection apparatuses are employed, the annular bodies include a first annular body, a second annular body, and a third annular body, respectively;
the second annular body and the third annular body are respectively provided with a first pin and a second pin, and the second pins are communicated with the inflation ports on the corresponding annular bodies; the first annular body and the second annular body are respectively provided with a first slot and a second slot, the first pin is matched with the first slot, and the second pin is matched with the second slot; the first annular body is also provided with an interface, and the interface is connected with a data acquisition device; the inflation inlet of the first annular body is communicated with the inflation device through an air pipe;
when two erection function detection devices are adopted, the erection function detection system comprises a first annular body and a third annular body, wherein a first pin of the third annular body is inserted into a first slot of the first annular body so as to connect buses of the first annular body and the third annular body to form a system bus, and the system bus is connected with an interface so that pressure and pressure sensors of the first annular body and the third annular body are connected to a data acquisition device through the system bus; the second plug pin of the third annular body is inserted into the second slot of the first annular body, so that the inflation ports of the first annular body and the third annular body are communicated, and the inflation device inflates the first annular body and the third annular body;
when more than two erection function detection devices are adopted, the erection function detection system comprises a first annular body, a third annular body and at least one second annular body, wherein a first pin of the third annular body is inserted into a first slot of the foremost second annular body, a first pin of the last second annular body is inserted into a first slot of the first annular body, and a first pin between adjacent second annular bodies is inserted into the first slot so as to connect buses of the first annular body, the second annular body and the third annular body to form a system bus; the second plug pin of the third annular body is inserted into the second slot of the foremost second annular body, the second plug pin of the rearmost second annular body is inserted into the second slot of the first annular body, and the second plug pin between adjacent second annular bodies is inserted into the second slot, so that the inflation ports of the first annular body, the second annular body and the third annular body are communicated, and the inflation device inflates all the annular bodies.
6. The system according to claim 1 or 5, wherein the data acquisition device comprises a signal conditioning circuit, an A/D converter and a processor, the signal conditioning circuit is connected to the processor through the A/D converter, and the processor is in communication connection with an external terminal device through the wireless communication module.
7. The wireless transmission-based erectile function detection system according to claim 1 or 5, wherein the terminal device is any one or more of a desktop computer, a notebook computer, a server, a mobile phone and a tablet computer;
or/and
the bus is I 2 C. Any one or more of SPI and UART bus.
8. The wireless transmission-based erectile function detection system of claim 1, wherein an analysis platform is installed in the terminal device;
the analysis platform compares the pressure variation and the penis length with a pre-stored knowledge base to obtain a comparison result; when one or more human body physiological index detection sensors are further installed on the inner side of the annular body, the analysis platform further compares monitoring data of the human body physiological index detection sensors with a pre-stored knowledge base;
or
The analysis platform inputs the pressure variation and the penis length into a pre-trained neural network model to obtain an analysis result; when a human body physiological index detection sensor is further installed on the inner side of the annular body, the analysis platform further inputs monitoring data of the human body physiological index detection sensor into a pre-trained neural network model.
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