CN212213723U - Closestool type heart urine monitor - Google Patents

Abstract

The utility model discloses a heart urine monitor of closestool formula, include: the urine monitoring device comprises a closestool, a data processing module, an optical urine detection sensor and a heart sensor module; the data processing module is respectively connected with the optical urine detection sensor and the heart sensor module; the optical urine detection sensor is arranged on the upper side inside the closestool body and used for detecting relevant urine indexes; the heart sensor module is arranged in an interlayer inside a toilet seat of the toilet and is used for measuring heart blood related parameters of a user; the data processing module sends the urine related indexes and the heart blood related parameters to the mobile terminal. The utility model discloses an on integrated closestool of optical urine detection sensor and heart sensor module, reach the removal end by data processing module with the data that detect and supply user oneself and family members to look over, consequently the utility model discloses a heart urine monitor of closestool formula has easy operation, convenient to use and can be domestic characteristics.

Description

Closestool type heart urine monitor

Technical Field

The utility model relates to a family type health detection field especially relates to a heart urine monitor of closestool formula.

Background

With the improvement of living standard, people pay more and more attention to health, but most people cannot go to hospitals for comprehensive examination regularly due to time, energy, economy and the like, so that the family heart urine monitor is paid more and more attention.

Heart failure has now become the leading cause of death in developed countries, and it is statistically estimated that 960000 new cases occur annually in the united states, about 650 million people are involved, the cost of treatment due to heart failure is about $ 307 billion annually, and an increase of 127% to $ 697 billion is expected by 2030, with hospitalization accounting for about 80% of the total costs. With the continuous improvement of living standard, the number of heart failure patients in China also increases year by year, particularly in the elderly population aged 65 years and over, the hospitalization rate is obviously increased due to untimely discovery, and the secondary hospitalization rate is also obviously increased due to the fact that nursing and monitoring after primary hospitalization treatment are not in place. Heart failure often occurs in heart muscle weakness, and cannot generate enough blood flow, so that blood stasis in a venous system and insufficient blood perfusion in an arterial system cannot meet the physical requirements, and therefore, the continuous monitoring of indexes such as blood pressure, stroke volume, blood oxygen and the like is of great importance in the management and treatment of heart failure.

Urine detection is also one of the ways commonly used in medicine to detect the health condition of a human body, and is widely applied to aspects such as health screening and diagnosis, various physiological indexes of the human body can be effectively judged by using the content of each component of urine, particularly, the health of the kidney and the urinary system can be accurately judged, and diseases such as proteinuria, diabetes and the like can be timely discovered and prevented.

Most of heart monitors and urine analyzers commercially available at present are professional medical instruments of hospitals, and are high in cost and complex to operate. Moreover, because some people do not have the habit of regular physical examination, the patients often go to the hospital to check and treat too late when the body is uncomfortable; most of the household heart urine monitors on the market have the defects of low accuracy, complex operation and the like, and some families often leave the monitors idle after purchasing the monitors, so that the daily monitoring effect cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a heart urine monitor of closestool formula to solve the problem that can not be domestic, operate complicacy etc. that present most heart urine monitors exist.

In order to achieve the above object, the utility model provides a following scheme:

a toilet-style cardiac urine monitor comprising: the urine monitoring device comprises a closestool, a data processing module, an optical urine detection sensor and a heart sensor module; the data processing module is respectively connected with the optical urine detection sensor and the heart sensor module; the optical urine detection sensor is arranged on the upper side in the closestool body and used for detecting relevant urine indexes and transmitting the detected relevant urine indexes to the data processing module; the urine related indexes comprise the pH value of the urine, the glucose content, the uric acid content and the urine protein content in the urine; the heart sensor module is arranged in an interlayer inside a toilet seat of the toilet and used for measuring heart blood related parameters of a user and transmitting the heart blood related parameters to the data processing module; the cardiac blood related parameters include blood pressure data, stroke volume data, and blood oxygen data; and the data processing module sends the urine related indexes and the heart blood related parameters to a mobile terminal.

Optionally, the cardiac sensor module comprises: the system comprises an electrocardiogram sensor, a photoelectric blood vessel volume map sensor, a ballistocardiogram sensor, a first Bluetooth sensor and a first single chip microcomputer; the first single chip microcomputer is respectively connected with the first Bluetooth sensor, the electrocardiogram sensor, the photoelectric blood vessel volume diagram sensor and the ballistocardiogram sensor; and the first Bluetooth sensor is in Bluetooth communication with the second Bluetooth sensor of the data processing module.

Optionally, an electrocardiogram test point of the electrocardiogram sensor is led out from an interlayer inside the toilet seat and is arranged on the front side of the toilet seat; photoelectric blood vessel volume map test points of the photoelectric blood vessel volume map sensor are led out from an interlayer in the toilet seat and are arranged on the front surface of the toilet seat; the ballistocardiogram test point of the ballistocardiogram sensor is led out from the interlayer in the toilet seat and is arranged on the back of the toilet seat.

Optionally, the electrocardiogram test point and the periphery of the photoelectric blood vessel volume map test point are sealed by transparent rubber rings; the ballistocardiogram test point is sealed by a transparent rubber ring.

Optionally, a fingerprint identification module is further arranged on the toilet cover of the toilet; the fingerprint identification module is connected with the data processing module and used for collecting the fingerprint data of the user and sending the fingerprint data to the data processing module.

Optionally, the data processing module includes: the second singlechip is connected with the second Bluetooth sensor; the second single chip microcomputer is connected with the second Bluetooth sensor; the second single chip microcomputer compresses the fingerprint data, the heart blood related parameters and the urine related indexes which are respectively detected by the fingerprint identification module, the heart sensor module and the optical urine detection sensor to generate compressed data, and the compressed data is transmitted to the mobile terminal through the second Bluetooth sensor.

Optionally, the data processing module further includes an SD card, and the SD card is connected to the second single chip microcomputer and is used for storing the compressed data.

Optionally, a bluetooth sensing device is further arranged on the water storage barrel of the toilet; the Bluetooth sensing device is connected with the data processing module; the data processing module is also connected with a flushing valve of the water storage barrel.

Optionally, a power module is further arranged on the toilet seat of the toilet; the power module is respectively connected with the heart sensor module, the optical urine sensor and the data processing module to supply power.

According to the utility model provides a concrete embodiment, the utility model discloses a following technological effect:

a toilet-style cardiac urine monitor comprising: the urine monitoring device comprises a closestool, a data processing module, an optical urine detection sensor and a heart sensor module; the data processing module is respectively connected with the optical urine detection sensor and the heart sensor module; the optical urine detection sensor is arranged on the upper side in the closestool body and used for detecting relevant urine indexes and transmitting the detected relevant urine indexes to the data processing module; the urine related indexes comprise the pH value of the urine, the glucose content, the uric acid content and the urine protein content in the urine; the heart sensor module is arranged in an interlayer inside a toilet seat of the toilet and used for measuring heart blood related parameters of a user and transmitting the heart blood related parameters to the data processing module; the cardiac blood related parameters include blood pressure data, stroke volume data, and blood oxygen data; data processing module will urine relevant index and heart blood relevant parameter sends to and supplies user oneself and family members to look over to remove the end, consequently the utility model discloses a heart urine monitor of closestool formula has easy operation, convenient to use and can domestic characteristics.

Furthermore, the utility model discloses an on integrated closestool of optics urine detection sensor and heart sensor module, will by data processing module optics urine detection sensor reaches reach the removal end is uploaded to the data that heart sensor module sensor detected, and the removal end health data can be looked over to user oneself and family members, and then judges this user's health to decide whether it needs to see a doctor or reexamine at the very first time, convenient to use and monitoring data have higher rate of accuracy.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic view of the overall structure of a toilet-type heart urine monitor provided by the present invention;

fig. 2 is a side view of a toilet-type heart urine monitor provided by the present invention;

fig. 3 is a schematic view of a toilet seat back of the toilet bowl type heart urine monitor provided by the present invention;

fig. 4 is a schematic view of an interlayer inside a toilet seat of the toilet bowl type heart urine monitor provided by the present invention;

description of the symbols:

in the figure, a water storage barrel 1, a toilet lid 2, a connecting buckle 3, an electrocardiogram test point 4, a photoelectric blood vessel volume map test point 5, a toilet seat 6, an ballistocardiogram test point 7, a power supply module 8, a heart sensor module 9, a DuPont line 10, a fingerprint identification module 11, a toilet body 12, an optical urine detection sensor 13 and a data processing module 14 are arranged.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing a heart urine monitor of closestool formula to solve the problem that can not be domestic, operate complicacy etc. that present most heart urine monitors exist.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Fig. 1 is the utility model provides a heart urine monitor's of toilet bowl formula overall structure schematic diagram, fig. 2 is the utility model provides a heart urine monitor's of toilet bowl formula side view, fig. 3 is the utility model provides a toilet seat back schematic diagram of heart urine monitor of toilet bowl formula, fig. 4 is the utility model provides a toilet seat inside intermediate layer schematic diagram of heart urine monitor of toilet bowl formula. As shown in fig. 1 to 4, the utility model provides a toilet bowl type heart urine monitor, which comprises: a toilet, a data processing module 14, an optical urine detection sensor 13, and a heart sensor module 9. The data processing module 14 is connected to the optical urine detection sensor 13 and the heart sensor module 9 respectively. The water storage barrel 1 is arranged at the rear side of the toilet body 12. The toilet cover 2 is connected with the toilet seat 6 through the connecting buckle 3. The toilet seat 6 is arranged on the toilet body 12. The connecting buckle 3 is used for connecting the toilet cover 2 and the toilet seat 6. The optical urine detection sensor 13 is disposed at an upper side inside the toilet bowl 12, and is configured to detect relevant indexes of urine and transmit the detected relevant indexes of urine to the data processing module 14. The urine related indexes comprise the pH value of the urine, the glucose content, the uric acid content and the urine protein content in the urine. The heart sensor module 9 is arranged in an interlayer inside a toilet seat 6 of the toilet and used for measuring heart blood related parameters of a user and transmitting the heart blood related parameters to the data processing module 14. The cardiac blood related parameters include blood pressure data, stroke volume data, and blood oxygen data. The data processing module 14 sends the urine related indexes and the heart blood related parameters to a mobile terminal for the user and the family members to check, and the operation is simple, the use is convenient, and the device can be used at home.

Specifically, the connecting buckle 3 connects the toilet cover 2 and the toilet seat 6 in a hinged manner, and when a user sits on the toilet seat 6, the toilet seat 6 bears all the force generated by the user, so that the toilet can be opened and closed conveniently without affecting the use of the heart sensor module 9.

Specifically, the water storage barrel 1 of the closestool is also provided with a Bluetooth induction device. The bluetooth sensing device is connected with the data processing module 14. The data processing module 14 is further connected with a flushing valve of the water storage barrel 1 and is used for receiving a signal of the Bluetooth sensing device to control the flushing valve to automatically flush water. The automatic flushing control of the data processing module 14 can be realized by using the existing program, and is not described herein again.

Specifically, the optical urine detection sensor 13 performs qualitative and semi-quantitative analysis on important parameters in urine, such as glucose, PH, uric acid, and protein, based on a method combining raman spectroscopy, infrared absorption spectroscopy, and fluorescence spectroscopy, and directly transmits data to the data processing module 14.

Fig. 4 is a schematic view of the toilet seat inner interlayer of the toilet bowl type heart urine monitor provided by the present invention. As shown in fig. 4, a power module 8 is further arranged in the interlayer of the toilet seat 6 of the toilet. The power module 8 adopt common dry batteries to provide direct current for the heart sensor module 9, the optical urine sensor 13 and the data processing module 14, and is safe, efficient and convenient to replace. The power supply module 8 is arranged on the upper part of the interlayer of the toilet seat 6; the heart sensor modules 9 are arranged on the left side and the right side of the middle interlayer of the toilet seat 6; the dupont line 10 is used to connect the power module 8 and the heart sensor module 9. The fingerprint identification module 11 is arranged at the front part of the toilet cover 2, the toilet 12 is arranged in front of the water storage tank 1 and below the toilet seat 6, and the optical urine detection sensor 13 is arranged at the upper side inside the toilet 12. The data processing module 14 is arranged behind the closestool 12 and is connected with the optical urine detection sensor 13 through the DuPont wire 10.

In particular, the cardiac sensor module 9 comprises: the device comprises an electrocardiogram sensor, a photoelectric blood vessel volume map sensor, a ballistocardiogram sensor, a first Bluetooth sensor and a first single chip microcomputer. The first single chip microcomputer is respectively connected with the first Bluetooth sensor, the electrocardiogram sensor, the photoelectric blood vessel volume diagram sensor and the ballistocardiogram sensor. The first bluetooth sensor is in bluetooth communication with a second bluetooth sensor of the data processing module 14. As shown in fig. 1 and 3, the ecg test point 4 of the ecg sensor is led out from the inner layer of the toilet seat 6 and is arranged on the front surface of the toilet seat 6. Photoelectric blood vessel volume map test points 5 of the photoelectric blood vessel volume map sensor are led out from an internal interlayer of the toilet seat 6 and are arranged on the front surface of the toilet seat 6. The ballistocardiogram test point 7 of the ballistocardiogram sensor is led out from the interlayer inside the toilet seat 6 and is arranged on the back of the toilet seat 6.

Specifically, the electrocardiogram test point 4 is led out from the middle interlayer of the toilet seat 6, penetrates through the toilet seat 6, is led out from three positions at the front rear part of the toilet seat 6, and is sealed by a transparent rubber ring to keep the same height with the seat, so that a user can not feel uncomfortable, and required blood pressure data can be measured. The photoelectric blood vessel volume map test point 5 is led out from the interlayer of the toilet seat 6, passes through the toilet seat 6, is led out from one position of the front part of the front surface of the toilet seat 6, seals the periphery of the photoelectric blood vessel volume map test point 5 by transparent rubber, keeps the same height with the seat, does not cause discomfort for a user, and can measure the required stroke volume data. The ballistocardiogram test point 7 is led out from the middle interlayer of the intelligent toilet seat 6, passes through the toilet seat 6, is led out from the back of the toilet seat 6, is sealed by a transparent rubber ring, protrudes downwards to ensure that the toilet seat 6 is stably connected with the toilet body 12, and is subjected to all forces applied by a user to measure the required blood oxygen data.

The toilet cover 2 of the toilet is also provided with a fingerprint identification module. The fingerprint identification module is connected with the data processing module 14, and is configured to collect fingerprint data of the user and send the fingerprint data to the data processing module 14, so as to identify the current user identity.

The data processing module 14 includes: the second singlechip, second bluetooth sensor, SD card. The second single chip microcomputer is connected with the second Bluetooth sensor and the SD card respectively. The second single chip microcomputer compresses the fingerprint data, the heart blood related parameters and the urine related indexes which are respectively detected by the fingerprint identification module, the heart sensor module 9 and the optical urine detection sensor 13 to generate compressed data, stores the compressed data in an SD card, and transmits the compressed data to the mobile terminal through the second Bluetooth sensor. The mobile terminal can generate a body data change curve of a user within a period of time according to the compressed data, so that the user and family members can conveniently check the body condition of the user in real time, find problems and see a doctor or review in time at the first time, and after the data are transmitted to the mobile terminal, the flushing valve is started through a second singlechip command, and automatic flushing is realized.

In practical application, the data processing module 14 may adopt an STM32F1 series single chip microcomputer. The cardiac sensor module 9 may employ MAX 86150. The fingerprint identification module 11 can adopt a Waveshare Capacitive finger pr Reader. The Bluetooth sensor can adopt an HC-06 master-slave integrated Bluetooth module. The mobile terminal can be mobile equipment such as a mobile phone and a tablet personal computer.

The utility model provides a toilet type heart urine monitor, when the user opens toilet lid 2, through the fingerprint identification module 11 that sets up on it discerns its identity, and transmit its identity information to data processing module 14 through bluetooth sensor, when the user sits on toilet seat 6, heart sensor module 9 begins work, measure user's blood pressure, stroke volume and blood oxygen data through electrocardiogram sensor, photoelectricity blood vessel volume map sensor, impact map sensor respectively, and transmit data to data processing module 14 through bluetooth sensor, simultaneously, optics urine detection sensor 13 detects user's urine composition, and transmit data to data processing module 14, data processing module 14 gathers behind all data that fingerprint identification module 11, heart sensor module 9 and optics urine detection sensor 13 detected, the health data of the user and the family members can be checked at the mobile terminal to form a body condition change trend graph, the body condition of the user can be judged through the trend graph and the expected implanted standard data, and whether the user needs to see a doctor or review at the first time is determined.

The utility model discloses following beneficial effect has:

1. the utility model discloses based on the closestool setting, do not need other equipment, the daily monitoring of being convenient for reduces the conflict mood of user to professional apparatus.

2. The utility model discloses be provided with fingerprint identification module 11 at toilet lid front end, be convenient for distinguish different users' health, it is more targeted.

3. The utility model discloses be provided with bluetooth sensor, the accessible removes the health of end real time monitoring user and family to the accessible removes the end and monitors the trend of change of different user health, discovers the problem and in time sees a doctor or the reexamination in the very first time.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principle and the implementation of the present invention are explained herein by using specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (9)

1. The utility model provides a heart urine monitor of closestool formula which characterized in that includes: the urine monitoring device comprises a closestool, a data processing module, an optical urine detection sensor and a heart sensor module; the data processing module is respectively connected with the optical urine detection sensor and the heart sensor module; the optical urine detection sensor is arranged on the upper side in the closestool body and used for detecting relevant urine indexes and transmitting the detected relevant urine indexes to the data processing module; the urine related indexes comprise the pH value of the urine, the glucose content, the uric acid content and the urine protein content in the urine; the heart sensor module is arranged in an interlayer inside a toilet seat of the toilet and used for measuring heart blood related parameters of a user and transmitting the heart blood related parameters to the data processing module; the cardiac blood related parameters include blood pressure data, stroke volume data, and blood oxygen data; and the data processing module sends the urine related indexes and the heart blood related parameters to a mobile terminal.

2. The toilet-style cardiac urine monitor according to claim 1, wherein the heart sensor module comprises: the system comprises an electrocardiogram sensor, a photoelectric blood vessel volume map sensor, a ballistocardiogram sensor, a first Bluetooth sensor and a first single chip microcomputer; the first single chip microcomputer is respectively connected with the first Bluetooth sensor, the electrocardiogram sensor, the photoelectric blood vessel volume diagram sensor and the ballistocardiogram sensor; and the first Bluetooth sensor is in Bluetooth communication with the second Bluetooth sensor of the data processing module.

3. The toilet bowl type heart urine monitor according to claim 2, wherein an electrocardiogram test point of the electrocardiogram sensor is led out from the inner interlayer of the toilet bowl ring and is arranged on the front surface of the toilet bowl ring; photoelectric blood vessel volume map test points of the photoelectric blood vessel volume map sensor are led out from an interlayer in the toilet seat and are arranged on the front surface of the toilet seat; the ballistocardiogram test point of the ballistocardiogram sensor is led out from the interlayer in the toilet seat and is arranged on the back of the toilet seat.

4. The toilet bowl type heart urine monitor according to claim 3, wherein the electrocardiogram test point and the photoelectric blood vessel volume map test point are sealed by transparent rubber rings; the ballistocardiogram test point is sealed by a transparent rubber ring.

5. The toilet bowl type heart urine monitor according to claim 1, wherein a fingerprint identification module is further arranged on a toilet bowl cover of the toilet bowl; the fingerprint identification module is connected with the data processing module and used for collecting the fingerprint data of the user and sending the fingerprint data to the data processing module.

6. The toilet-style cardiac urine monitor according to claim 5, wherein the data processing module comprises: the second singlechip is connected with the second Bluetooth sensor; the second single chip microcomputer is connected with the second Bluetooth sensor; the second single chip microcomputer compresses the fingerprint data, the heart blood related parameters and the urine related indexes which are respectively detected by the fingerprint identification module, the heart sensor module and the optical urine detection sensor to generate compressed data, and the compressed data is transmitted to the mobile terminal through the second Bluetooth sensor.

7. The toilet-type cardiac urine monitor according to claim 6, wherein the data processing module further comprises an SD card, and the SD card is connected with the second single chip microcomputer and used for storing the compressed data.

8. The toilet bowl type heart urine monitor according to claim 1, wherein a Bluetooth sensing device is further arranged on the water storage barrel of the toilet bowl; the Bluetooth sensing device is connected with the data processing module; the data processing module is also connected with a flushing valve of the water storage barrel.

9. The toilet-type cardiac urine monitor according to claim 1, wherein a power module is further disposed on a toilet seat of the toilet; the power module is respectively connected with the heart sensor module, the optical urine detection sensor and the data processing module to supply power.

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