阅读说明：本技术 一种漏尿监测系统及方法 (Urine leakage monitoring system and method ) 是由 张黔 张耀光 苏柏宇 谭祥松 于 2019-09-09 设计创作，主要内容包括：本发明提供一漏尿监测系统及方法,涉及医疗监测技术领域,包括：漏尿监测装置以及与漏尿监测装置远程连接的云平台,漏尿检测装置设置于使用者穿戴的尿不湿上；漏尿监测装置包括：传感装置,设置于尿不湿的棉花层底部,且传感装置具有多个传感通道；处理装置,固定于尿不湿的外部,且处理装置具有与传感装置连接的数据接口,用于采集传感装置的各传感通道之间的实时电性能参数并输出；云平台用于根据预先生成的深度学习模型对实时电性能参数进行处理得到使用者的实时漏尿数据；实时漏尿数据包括漏尿量以及对应的漏尿时间。本发明能够获取日常生活中的实时漏尿情况并进行保存,方便医生根据该实时漏尿情况进行更为准确的诊断,成本低,适用性强。(The invention provides a urine leakage monitoring system and a method, which relate to the technical field of medical monitoring and comprise the following steps: the urine leakage detection device is arranged on a diaper worn by a user; urine leakage monitoring devices include: the sensing device is arranged at the bottom of the urine-proof cotton layer and is provided with a plurality of sensing channels; the processing device is fixed outside the urine absorbent pad, is provided with a data interface connected with the sensing device and is used for acquiring and outputting real-time electrical performance parameters among sensing channels of the sensing device; the cloud platform is used for processing the real-time electrical property parameters according to a pre-generated deep learning model to obtain real-time urine leakage data of the user; the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time. The invention can acquire and store the real-time urine leakage condition in daily life, is convenient for doctors to diagnose more accurately according to the real-time urine leakage condition, and has low cost and strong applicability.)

1. A urine leakage monitoring system is characterized by comprising a urine leakage monitoring device and a cloud platform remotely connected with the urine leakage monitoring device, wherein the urine leakage monitoring device is arranged on a diaper worn by a user;

the urine leakage monitoring device specifically comprises:

the sensing device is arranged at the bottom of the cotton layer of the diaper and is provided with a plurality of sensing channels;

the processing device is fixed outside the urine absorbent pad and is provided with a data interface connected with the sensing device and used for acquiring and outputting real-time electrical performance parameters among the sensing channels of the sensing device; the cloud platform is used for processing the real-time electrical property parameters according to a pre-generated deep learning model to obtain the real-time urine leakage data of the user; the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time.

2. Leakage monitoring system according to claim 1, wherein the sensing means is integrated in a flexible circuit board.

3. Leakage monitoring system according to claim 1, wherein the real-time electrical property parameter comprises a voltage value, and/or a current value, and/or a resistance value, and/or a conductivity.

4. A urine leakage monitoring system according to claim 1, further comprising a devil's sticker comprising:

the magic sticky public sticker is arranged outside the diaper;

the devil sticker mother sticker is arranged outside the processing device;

the magic sticky male sticker and the magic sticky female sticker are mutually attached to fix the treatment device outside the diaper.

5. The leakage urine monitoring system of claim 1 further comprising a securing means, said securing means comprising:

the button belt is arranged outside the diaper;

a button disposed outside the processing device;

the button belt and the button are buckled with each other to fix the processing device on the outer part of the diaper.

6. The leakage monitoring system of claim 1, further comprising a mobile terminal connected to the cloud platform for viewing the real-time leakage data.

7. The leakage urine monitoring system according to claim 1, wherein a switch is provided outside the processing device, and the processing device specifically comprises:

the signal detection module is used for detecting the state of the switch in real time, generating and outputting a starting signal when detecting that the switch generates a starting action, and generating and outputting a corresponding control signal when detecting that the switch is in a normally open state;

the first data acquisition module is connected with the signal detection module and used for acquiring an initial resistance value of the sensing device according to the starting signal and outputting the initial resistance value and the starting signal;

the second data acquisition module is connected with the signal detection module and used for acquiring the real-time electrical property parameters of the sensing device according to the control signals and outputting the real-time electrical property parameters and the control signals;

the cloud platform specifically includes:

the first data acquisition module is used for acquiring the initial resistance value according to the starting signal;

the second data acquisition module is used for acquiring the real-time electrical property parameters according to the control signals;

the data comparison module is connected with the first data acquisition module and used for comparing the initial resistance value with a preset resistance threshold value, outputting a corresponding first comparison result when the initial resistance value is smaller than the resistance threshold value, and outputting a corresponding second comparison result when the initial resistance value is not smaller than the resistance threshold value;

the first data processing module is connected with the data comparison module and used for generating corresponding reminding information according to the first comparison result so as to remind the user that the urine leakage monitoring device works abnormally;

the second data processing module is respectively connected with the second data acquisition module and the data comparison module and is used for processing the real-time electrical performance parameters according to the second comparison result and a pre-generated deep learning model to obtain the real-time urine leakage data of the user;

and the data storage module is connected with the second data processing module and is used for storing the real-time urine leakage data.

8. The leakage monitoring system of claim 7 wherein the resistance threshold is 200 megaohms.

9. A urine leakage monitoring method applied to the urine leakage monitoring system according to any one of claims 1 to 8, the urine leakage monitoring method comprising:

step S1, the urine leakage monitoring system collects and outputs real-time electrical property parameters among the sensing channels of the sensing device;

step S2, the urine leakage monitoring system processes the real-time electrical performance parameters according to a pre-generated deep learning model to obtain the real-time urine leakage data of the user;

the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time.

10. The leakage urine monitoring system according to claim 9, before performing step S1, further comprising:

step A1, the urine leakage monitoring system detects the state of a switch arranged outside the processing device in real time, and generates and outputs a starting signal when detecting that the switch generates a starting action;

step A2, the urine leakage monitoring system collects the initial resistance value of the sensing device according to the starting signal and outputs the initial resistance value and the starting signal;

step A3, the urine leakage monitoring system compares the initial resistance value with a preset resistance threshold according to the starting signal:

if the initial resistance value is smaller than the resistance threshold value, generating corresponding reminding information to remind the user that the urine leakage monitoring device works abnormally, and then quitting;

if the initial resistance value is not less than the resistance threshold value, the process goes to step S1.

Technical Field

The invention relates to the technical field of medical monitoring, in particular to a urine leakage detection system and a method.

Background

The normal micturition function of the bladder is regulated by the micturition centers in the brain and sacral portion of the spinal cord. When a certain amount of urine in the bladder is reached, the pressure in the bladder rises, nerve impulses are generated and transmitted into cerebral cortex through a sacrum medulla micturition center to cause the desire to urinate, then the brain center sends impulses to enable bladder detrusor muscle to contract, a posterior urethral cavity is opened, and then the urine is discharged from the bladder. The bladder fails to normally control urination for some reason and urine flows involuntarily, known as urinary incontinence. In order to treat urinary incontinence patients in a targeted manner, the urine leakage condition of the urinary incontinence patients usually needs to be detected firstly, at present, the urine leakage condition and the degree of the patients are roughly estimated mainly by collecting the medical history of the patients, some patients need to go to a hospital to perform a urine leakage test, the urine leakage detection is time-consuming and labor-consuming for the patients and doctors, and meanwhile, the detection in the hospital cannot completely simulate the real urine leakage condition of the urinary incontinence patients in daily life, so that the diagnosis accuracy is reduced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a urine leakage monitoring system which comprises a urine leakage monitoring device and a cloud platform remotely connected with the urine leakage monitoring device, wherein the urine leakage monitoring device is arranged on a diaper worn by a user;

the urine leakage monitoring device specifically comprises:

the sensing device is arranged at the bottom of the cotton layer of the diaper and is provided with a plurality of sensing channels;

the processing device is fixed outside the urine absorbent pad and is provided with a data interface connected with the sensing device and used for acquiring and outputting real-time electrical performance parameters among the sensing channels of the sensing device;

the cloud platform is used for processing the real-time electrical property parameters according to a pre-generated deep learning model to obtain the real-time urine leakage data of the user;

the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time.

Preferably, the sensing device is integrated on a flexible circuit board.

Preferably, the real-time electrical property parameter comprises a voltage value, and/or a current value, and/or a resistance value, and/or a conductivity.

Preferably, the magic sticky device further comprises a magic sticky device, wherein the magic sticky device comprises:

the magic sticky public sticker is arranged outside the diaper;

the devil sticker mother sticker is arranged outside the processing device;

the magic sticky male sticker and the magic sticky female sticker are mutually attached to fix the treatment device outside the diaper.

Preferably, the device further comprises a fixing device, and the fixing device comprises:

the button belt is arranged outside the diaper;

a button disposed outside the processing device;

the button belt and the button are buckled with each other to fix the processing device on the outer part of the diaper.

Preferably, the system further comprises a mobile terminal connected with the cloud platform and used for checking the real-time urine leakage data.

Preferably, a switch is disposed outside the processing device, and the processing device specifically includes:

the signal detection module is used for detecting the state of the switch in real time, generating and outputting a starting signal when detecting that the switch generates a starting action, and generating and outputting a corresponding control signal when detecting that the switch is in a normally open state;

the first data acquisition module is connected with the signal detection module and used for acquiring an initial resistance value of the sensing device according to the starting signal and outputting the initial resistance value and the starting signal;

and the second data acquisition module is connected with the signal detection module and used for acquiring the real-time electrical property parameters of the sensing device according to the control signals and outputting the real-time electrical property parameters and the control signals.

The cloud platform specifically includes:

the first data acquisition module is used for acquiring the initial resistance value according to the starting signal;

the second data acquisition module is used for acquiring the real-time electrical property parameters according to the control signals;

the data comparison module is connected with the first data acquisition module and used for comparing the initial resistance value with a preset resistance threshold value, outputting a corresponding first comparison result when the initial resistance value is smaller than the resistance threshold value, and outputting a corresponding second comparison result when the initial resistance value is not smaller than the resistance threshold value;

the first data processing module is connected with the data comparison module and used for generating corresponding reminding information according to the first comparison result so as to remind the user that the urine leakage monitoring device works abnormally;

the second data processing module is respectively connected with the second data acquisition module and the data comparison module and is used for processing the real-time electrical performance parameters according to the second comparison result and a pre-generated deep learning model to obtain the real-time urine leakage data of the user;

and the data storage module is connected with the second data processing module and is used for storing the real-time urine leakage data.

Preferably, the resistance threshold is 200 mega ohms.

A urine leakage monitoring method applied to the urine leakage monitoring system described in any one of the above, the urine leakage monitoring method specifically comprising:

step S1, the urine leakage monitoring system collects and outputs real-time electrical property parameters among the sensing channels of the sensing device;

step S2, the urine leakage monitoring system processes the real-time electrical performance parameters according to a pre-generated deep learning model to obtain the real-time urine leakage data of the user;

the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time.

Preferably, before executing step S1, the method further includes:

step A1, the urine leakage monitoring system detects the state of a switch arranged outside the processing device in real time, and generates and outputs a starting signal when detecting that the switch generates a starting action;

step A2, the urine leakage monitoring system collects the initial resistance value of the sensing device according to the starting signal and outputs the initial resistance value and the starting signal;

step A3, the urine leakage monitoring system compares the resistance value with a preset resistance threshold value according to the starting signal:

if the initial resistance value is smaller than the resistance threshold value, generating corresponding reminding information to remind the user that the urine leakage monitoring device works abnormally, and then quitting;

if the initial resistance value is not less than the resistance threshold value, the process goes to step S1.

The technical scheme has the following advantages or beneficial effects:

1) the multi-channel sensing device and the processing device are respectively arranged, and the multi-channel sensing device is disposable, so that the processing device can be repeatedly used for many times, sanitation is guaranteed, and cost is effectively saved;

2) the applicability is strong, and the diaper can be suitable for any one of the diapers sold in the market;

3) the real-time urine leakage condition in daily life can be obtained and stored, and doctors can conveniently and accurately diagnose the urine leakage condition in real time.

Drawings

FIG. 1 is a schematic diagram of a urine leakage monitoring system according to a preferred embodiment of the present invention;

FIG. 2 is a schematic diagram of the location of a urine leakage monitoring device according to a preferred embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a sensing device according to a preferred embodiment of the present invention;

FIG. 4 is a schematic diagram of a processing apparatus according to a preferred embodiment of the present invention;

FIG. 5 is a flow chart of a method for monitoring urine leakage according to a preferred embodiment of the present invention;

FIG. 6 is a flow chart illustrating a method for detecting the operation status of the urine leakage monitoring device according to the preferred embodiment of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In the preferred embodiment of the present invention, based on the above problems in the prior art, there is provided a urine leakage monitoring system, as shown in fig. 1, 2 and 3, comprising a urine leakage monitoring device 1 and a cloud platform 2 remotely connected to the urine leakage monitoring device 1, wherein the urine leakage monitoring device 1 is disposed on a diaper 3 worn by a user;

the urine leakage monitoring device 1 specifically includes:

the sensing device 11 is arranged at the bottom of the cotton layer of the diaper 3, and the sensing device 11 is provided with a plurality of sensing channels 111;

the processing device 12 is fixed outside the diaper 3, and the processing device 12 is provided with a data interface 13 connected with the sensing device 11 and used for acquiring and outputting real-time electrical performance parameters among the sensing channels 111 of the sensing device 11;

the cloud platform 2 is used for processing the real-time electrical performance parameters according to a pre-generated deep learning model to obtain real-time urine leakage data of the user;

the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time.

Specifically, in this embodiment, the sensing device 11 and the processing device 12 are connected through a data interface, and the connection between the sensing device 11 and the processing device 12 can be realized by plugging and unplugging. Furthermore, the sensing device 11 is a multi-channel disposable flexible sensor, the sensing device 11 is based on a flexible circuit board, the production cost is low, the sensing device 11 can be placed at the bottom of the cotton layer of the diaper 3 when in use, the sensing device 11 can be integrated in the diaper 3 in the production process of the diaper 3, and an opening for connecting the sensing device 11 with a data interface of the processing device 12 is reserved on the diaper 3. Since the sensing device 11 has the characteristics of being soft and thin and the sensing device 11 is disposed at the bottom of the cotton layer of the diaper 3, the sensing device 11 does not directly contact the skin to cause discomfort to the user.

Meanwhile, the processing device 12 can be a circuit board with data acquisition and data transmission functions, the circuit board is fixed inside a box-packed object with the size of a belt buckle in a screw, glue or a special shape inside the box, a data interface connected with the sensing device 11 is arranged outside the box-packed object, and a device fixedly connected with the diaper 3 is further arranged, the device can be sticky for devil, one end of the device is arranged on the diaper 3, one end of the device is arranged outside the processing device 12, and the processing device 12 is fixed through fitting.

For hygienic reasons it is preferred that the sensing means 11 is disposable, i.e. disposable like the diaper 3. Meanwhile, the sensing device 11 and the processing device 12 are disconnected from the data interface, and the processing device 12 can be repeatedly used, so that the cost is effectively saved.

Further, the processing device 12 is further provided with a switch 14, after the connection between the sensing device 11 and the processing device 12 is completed, the switch 14 is turned on, the processing device 12 automatically establishes a communication connection with the cloud platform 2, the processing device 12 measures real-time electrical performance parameters including, but not limited to, electrical conductivity and/or resistance values and the like among different channels of the sensing device 11 in real time, and transmits the real-time electrical performance parameters to the cloud platform 2 in a real-time or semi-real-time manner, and when the cloud platform 2 receives the real-time electrical performance parameters, the real-time electrical performance parameters are processed according to a pre-generated deep learning model including a convolutional neural network, a deep neural network and a long-short time memory unit, so as to obtain corresponding real-time urine leakage data. The user can check the real-time urine leakage data through a mobile terminal 4 connected with the cloud platform 2.

Further, in this embodiment, leak urine data storage in real time is on cloud platform 2, and the user can also keep historical information of seeking medical advice through this cloud platform 2 to construct user's complete personal electronic medical record, this personal electronic medical record can let the user when seeking medical advice in the future, provides the doctor, lets the doctor make more accurate diagnosis, and can not lead to the doctor can't master complete information when seeking medical advice because personal medical record disperses in different hospitals.

In the preferred embodiment of the present invention, the sensing device 11 is integrated on a flexible circuit board.

In a preferred embodiment of the present invention, the real-time electrical property parameter comprises a voltage value, and/or a current value, and/or a resistance value, and/or a conductivity.

In a preferred embodiment of the present invention, the apparatus further comprises a magic stick, the magic stick comprises:

the devil sticky public sticker is arranged outside the diaper 3;

the devil sticker is arranged outside the processing device 12;

the velcro male sticker and the velcro female sticker are attached to each other to fix the disposal device 12 to the outside of the diaper 3.

In a preferred embodiment of the present invention, the present invention further comprises a fixing device, the fixing device comprises:

the button belt is arranged outside the diaper 3;

a button disposed outside the treatment device 12;

the button strips and buttons snap together to secure the disposal device 12 to the exterior of the diaper 3.

In a preferred embodiment of the invention, the urine leakage monitoring system further comprises a mobile terminal 4 connected with the cloud platform 2 and used for checking real-time urine leakage data.

In the preferred embodiment of the present invention, a switch 14 is disposed outside the processing device 12, and the processing device 12 specifically includes:

the signal detection module 121 is configured to detect a state of the switch 14 in real time, generate and output an opening signal when detecting that the switch 14 generates an opening motion, and generate and output a corresponding control signal when detecting that the switch 14 is in a normally open state;

the first data acquisition module 122 is connected to the signal detection module 121, and is configured to acquire an initial resistance value of the sensing device 11 according to the start signal, and output the initial resistance value and the start signal;

and the second data acquisition module 123 is connected to the signal detection module 121, and is configured to acquire the real-time electrical performance parameters of the sensing device 11 according to the control signal and output the real-time electrical performance parameters and the control signal.

The cloud platform 2 specifically includes:

the first data acquisition module 21 is configured to acquire an initial resistance value according to the start signal;

the second data acquisition module 22 is used for acquiring real-time electrical property parameters according to the control signals;

the data comparison module 23 is connected to the first data acquisition module 21, and is configured to compare the initial resistance value with a preset resistance threshold, and output a corresponding first comparison result when the initial resistance value is smaller than the resistance threshold, and output a corresponding second comparison result when the initial resistance value is not smaller than the resistance threshold;

the first data processing module 24 is connected to the data comparison module 23 and configured to generate corresponding reminding information according to the first comparison result so as to remind a user that the urine leakage monitoring device 1 is abnormal in operation;

the second data processing module 25 is respectively connected with the second data acquisition module 22 and the data comparison module 23, and is used for processing the real-time electrical performance parameters according to the second comparison result and the pre-generated deep learning model to obtain the real-time urine leakage data of the user;

and the data storage module 26 is connected with the second data processing module 25 and is used for storing the real-time urine leakage data.

Specifically, in the present embodiment, before the urine leakage detection device 1 of the present invention is used, it is necessary to detect the connection condition between the sensing device 11 and the processing device 12 to avoid the influence on the monitoring result due to the abnormal connection between the sensing device 11 and the processing device 12. Specifically, since each sensing channel of the sensing device 11 should be in an open state when the sensing device 11 and the processing device 12 are just connected, since the user is not wearing the device and there is no urine leakage, the resistance of the sensing device 11 measured by the processing device 12 should be greater than a preset resistance threshold value, preferably 200 mega ohms, just connected. If the resistance of the sensing device 11 measured by the processing device 12 is smaller than the resistance threshold value just after connection, it may be that the sensing device 11 fails, or that the connection between the sensing device 11 and the processing device 12 is abnormal, and at this time, the cloud platform 2 generates corresponding reminding information to remind the user to restart the processing device 12, or reconnect the sensing device 11 and the processing device 12.

In a preferred embodiment of the present invention, the resistance threshold is 200 mega ohms.

A urine leakage monitoring method applied to any one of the urine leakage monitoring systems described above, as shown in fig. 5, specifically includes:

step S1, the urine leakage monitoring system collects and outputs real-time electrical performance parameters among all sensing channels of the sensing device;

step S2, the urine leakage monitoring system processes the real-time electrical performance parameters according to the pre-generated deep learning model to obtain the real-time urine leakage data of the user;

the real-time urine leakage data comprises urine leakage amount and corresponding urine leakage time.

In a preferred embodiment of the present invention, before performing step S1, as shown in fig. 6, the method further includes:

step A1, the urine leakage monitoring system detects the state of a switch arranged outside the processing device in real time, and generates and outputs a starting signal when detecting that the switch generates a starting action;

step A2, the urine leakage monitoring system collects the initial resistance value of the sensing device according to the starting signal and outputs the initial resistance value and the starting signal;

step A3, the urine leakage monitoring system compares the initial resistance value with a preset resistance threshold value according to the starting signal:

if the initial resistance value is smaller than the resistance threshold value, generating corresponding reminding information to remind a user that the urine leakage monitoring device works abnormally, and then quitting;

if the initial resistance value is not less than the resistance threshold value, the process goes to step S1.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.