NL2025688B1 - Dynamic blood pressure lowering device for monitoring blood pressure in real time - Google Patents

Abstract

Discloses is a dynamic blood pressure lowering device for monitoring blood pressure in 5 real time, which comprises a blood pressure monitoring watch and an intelligent drug administrating pump. The blood pressure monitoring watch is connected to the intelligent drug administrating pump through Bluetooth wireless communication. The intelligent drug administrating pump comprises a housing, a drug administrating chamber, a graphene battery, a speaker and a control system. The surface of the housing is provided with a display screen 10 and function buttons, the interior of the housing is provided with a fixed groove, the fixed groove is provided with a drug administrating chamber, the interior of the drug administrating chamber is provided with a micro pump body, the end of the drug administrating chamber is provided with a plug-connected leather tube, the free end of the leather tube is provided with a plug-connected drug administrating head, the drug administrating chamber is provided with a 15 liquid level sensor, the right side of the fixed groove is provided with a graphite battery and a speaker, and the graphene battery and the speaker are fixed on the upper and lower ends of the housing, respectively. The blood pressure monitoring watch is used to cooperate with the intelligent drug administrating pump, which can automatically adjust the drug administrating amount according to the difference of the day and night cycle, different genders and ages, and 20 improve the efficiency and safety of antihypertensive treatment.

Description

DYNAMIC BLOOD PRESSURE LOWERING DEVICE FOR MONITORING BLOOD PRESSURE IN REAL TIME

TECHNICAL FIELD The present invention relates to the technical field of medical equipment, in particular to a dynamic blood pressure lowering device for monitoring blood pressure in real time.

BACKGROUND According to the literature published on the Lancet, there are more than 1.1 billion people with hypertension worldwide. The cardiovascular and cerebrovascular accidents resulted from hypertension have become the first killer of human beings.

At present, regular medication is mainly used as the manner of controlling hypertension, but the application of these drugs alone cannot solve the following important problems. First, the drug has a half-life period and drug resistance. If drug cannot be taken or added in time, it is easy to have a sudden rise and fall of blood pressure. Second, normal biological rhythm cannot be simulated. It is likely that the blood pressure is to low when drug is administered at a low level of blood pressure. The blood supply and the oxygen supply of the organ or tissue are insufficient. Alternatively, the blood pressure is too high when the blood pressure is not controlled in time at a peak level. Third, normal blood pressure is different due to sex and age, and it is unlikely that antihypertensive drugs alone will simulate this ideal blood pressure state.

There have been already a variety of blood pressure monitoring watches on the market, but they only monitor blood pressure, without drug administration and dynamic blood pressure lowering functions, which cannot provide effective help to patients and bring inconvenience to use. To this end, a new technical solution needs to be designed to solve the problem.

SUMMARY The object of the present invention is to provide a dynamic blood pressure lowering device for monitoring blood pressure in real time.

In order to achieve the above object, the present invention provides the following technical solution: a dynamic blood pressure lowering device for monitoring blood pressure in real time, comprising a blood pressure monitoring watch and an intelligent drug administrating pump, wherein the blood pressure monitoring watch is connected to an intelligent drug administrating pump through Bluetooth wireless communication, the intelligent drug administrating pump comprises a housing, a drug administrating chamber, a graphene battery, a speaker and a control system, the surface of the housing is provided with a display screen and a function button, the interior of the housing is provided with a fixed groove, the fixed groove is provided with a drug administrating chamber, the interior of the drug administrating chamber is provided with a micro pump body, the end of the drug administrating chamber is provided with a plug-connected leather tube, the free end of the leather tube is provided with a plug-connected drug administrating head, the drug administrating chamber is provided with a liquid level sensor, the right side of the fixed groove is provided with a graphite battery and a speaker, the graphene battery and the speaker are fixed on the upper and lower ends of the housing, respectively, and the micro pump body, the liquid level sensor, the graphene battery and the speaker are connected to the control system, respectively.

As an improvement of the above technical solution, the control system comprises a processing module, a I/O module, a storage module, a Bluetooth wireless module, a display module, an input module, an alarm module and a power management module, and the processing module is connected to the I/O module, the storage module, the Bluetooth wireless module, the display module and the input module, respectively.

As an improvement of the above technical solution, the display module is connected to the display screen, the input module is connected to the function button, the power management module is connected to the graphene battery, the I/O module is connected to the liquid level sensor, and the alarm module is connected to the speaker.

As an improvement of the above technical solution, a back clip is fixedly connected to the back of the housing.

As an improvement of the above technical solution, a charging interface is connected to the top of the graphene battery.

As an improvement of the above technical solution, the drug administrating head is in a capsule shape and is connected to the leather tube, and a fixed patch extending outward is provided at the edge of the drug administrating head.

Compared with the prior art, the beneficial effects of the present invention are as follows.

1. The present invention can monitor the blood pressure of a patient in real time. At the same time, the intelligent drug administrating pump adjusts the drug injecting amount during the administration, and can simulate the ideal physiological blood pressure according to the difference of the day and night cycle, different genders and ages, provide antihypertensive treatment to a patient in a targeted manner, and improve the efficiency and safety of antihypertensive treatment.

2. The present invention uses a blood pressure monitoring watch as an intermediate device and is connected to an intelligent drug administrating pump and a mobile phone, respectively. On the one hand, it is convenient to send the monitoring data of the blood pressure of the patient to the intelligent drug administrating pump, which is convenient for the intelligent drug administrating pump to control the drug administrating amount in a targeted manner; on the other hand, it is convenient to send the monitoring data of the blood pressure to the mobile phone terminal, which is convenient for the patient to check the changes of the blood pressure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural diagram of a dynamic blood pressure lowering device for monitoring blood pressure in real time according to the present invention; FIG. 2 is a schematic diagram of the overall structure of an intelligent drug administrating pump according to the present invention; FIG. 3 is a schematic diagram of an internal decomposition structure of an intelligent drug administrating pump according to the present invention; FIG. 4 is a schematic structural diagram of a control system according to the present invention; FIG. 5 is a schematic structural diagram of the workflow of an intelligent drug administrating pump according to the present invention. In the figures: a blood pressure monitoring watch-1, an intelligent drug administrating pump-2, a housing-3, a drug administrating chamber-4, a graphene battery-5, a speaker-6, a control system-7, a display screen-8, a function button-9, a fixed groove-10, a micro pump body- 11, a leather tube-12, a drug administrating head-13, a liquid level sensor-14, a processing module-15, an I/O module-16, a storage module-17, a Bluetooth wireless module-18, a display module-19, an input module-20, an alarm module-21, a power management module-22, a back clip-23, a charging interface-24, a fixed patch-25.

DESCRIPTION OF THE EMBODIMENTS Refer to FIGS. 1-5. The present invention provides a technical solution: a dynamic blood pressure lowering device for monitoring blood pressure in real time, comprising a blood pressure monitoring watch 1 and an intelligent drug administrating pump 2, wherein the blood pressure monitoring watch 1 is connected to an intelligent drug administrating pump 2 through Bluetooth wireless communication, the intelligent drug administrating pump 2 comprises a housing 3, a drug administrating chamber 4, a graphene battery 5, a speaker 6 and a control system 7, the surface of the housing 3 is provided with a display screen 8 and a function button 9, the interior of the housing 3 is provided with a fixed groove 10, the fixed groove 10 is provided with a drug administrating chamber 4, the interior of the drug administrating chamber 4 is provided with a micro pump body 11, the end of the drug administrating chamber 4 is provided with a plug- connected leather tube 12, the free end of the leather tube 12 is provided with a plug-connected drug administrating head 13, the drug administrating chamber 4 is provided with a liquid level sensor 14, the right side of the fixed groove 10 is provided with a graphite battery 5 and a speaker 6, the graphene battery 5 and the speaker 6 are fixed on the upper and lower ends of the housing 3, respectively, and the micro pump body 11, the liquid level sensor 14, the graphene battery 5 and the speaker 6 are connected to the control system 7, respectively. As a further improvement, the control system 7 comprises a processing module 15, an I/O module 16, a storage module 17, a Bluetooth wireless module 18, a display module 19, an input module 20, an alarm module 21 and a power management module 22, and the processing module 15 is connected to the I/O module 18, the storage module 17, the Bluetooth wireless module 18, the display module 19 and the input module 20, respectively. Using the cooperation among the various modules, it is convenient to control the intelligent drug administrating pump 2 to work automatically.

As a further improvement, the display module 19 is connected to the display screen 8, the input module 20 is connected to the function button 9, the power management module 22 is connected to the graphene battery 5, the I/O module 16 is connected to the liquid level sensor 14, and the alarm module 21 is connected to the speaker 6. By connecting each module to the corresponding hardware device, it is convenient for each hardware device to deliver the collected information and data to the control system 7, which is convenient for cooperation of software and hardware.

As a further improvement, a back clip 23 is fixedly connected to the back of the housing 3. The back clip 23 is integrally injection-molded with the housing 3 using plastic. By providing an integrally injection-molded back clip 23 on the back of the housing 3, it is convenient for the drug administrating pump to be fixed to the waist of trousers or the arm, which is convenient for use in the normal life of the patient and avoids inconvenience to the life of the patient.

As a further improvement, a charging interface 24 is connected to the top of the graphene battery 5. The charging port 24 penetrates the housing 3 and is fixedly connected to the housing

3. The charging interface 24 connected to the graphene battery 5 is fixedly connected to the surface of the housing 3, which is convenient to charge the graphene battery 5. Using the graphene battery 5 for power supply, the lifetime of the intelligent drug administrating pump 2 is improved, the number of charging times is reduced, and the convenience of use is improved.

As a further improvement, the drug administrating head 13 is in a capsule shape and is connected to the leather tube 12, and a fixed patch 25 extending outward is provided at the edge of the drug administrating head 13. A fixing glue covers the back of the fixed patch 25. A fixed patch 25 extending is provided at the edge of the drug administrating head 13 to tightly combine the drug administrating head 13 with the skin, so as to achieve the purpose of antisepsis and anti-infection.

As a further improvement, the storage module 17 stores the data about the gender, age, and blood pressure adjustment in different time periods of the patient. By storing the information corresponding to the patient in the storage module 17, it is convenient to customize different treatment schemes with more targeted treatment.

As a specific improvement, the blood pressure monitoring watch 1 is connected to the mobile phone through Bluetooth wireless communication. By connecting the blood pressure monitoring watch 1 to the mobile phone, it is convenient to remind the patient to use auxiliary treatment means such as control diet, exercise, or maintain a comfortable mood when the patient takes too much drug, so as to perform combined antihypertensive treatment.

Embodiment one When the present invention is used, the antihypertensive drug is injected into the drug administrating chamber 4 under the guidance of a doctor, and then the gender and age 5 information of the patient is input into the intelligent drug administrating pump 2. The drug administrating head 13 is connected to the drug administrating chamber 4 through the leather tube 12. The drug administrating head 13 is fixed to the skin surface of the patient through the fixing patch 25 at the edge of the drug administrating tube.

The intelligent drug administrating pump 2 is fixed to the waist of trousers by the back clip 23 on the back of the housing 3. The patient wears the blood pressure monitoring watch 1, connecting the blood pressure monitoring watch 1 to the intelligent drug administrating pump 2 via Bluetooth to complete the installation and wearing of the dynamic blood pressure lowering device for monitoring blood pressure in real time.

Claims (6)

CONCLUSIONS A dynamic blood pressure lowering device for real-time monitoring of blood pressure, comprising a blood pressure monitoring meter (1) and an intelligent drug delivery pump (2), the blood pressure monitoring meter (1) being connected to an intelligent drug delivery pump (2) by means of wireless Bluetooth communications; wherein the intelligent drug delivery pump (2) comprises a housing (3), a drug delivery chamber (4), a graphene battery (5), a speaker (6) and a control system (7); wherein the surface of the housing (3) is provided with a display (8) and a function button (9); wherein the inside of the housing (3) is provided with a fixed groove (10); wherein the fixed groove (10) is provided with a drug delivery chamber (4); wherein the inside of the drug delivery chamber (4) is provided with a micropump unit (11), wherein the end of the drug delivery chamber (4) is provided with a plug-connected leather tube (12), the free end of the leather tube (12) includes a drug delivery head (13) connected with a plug; wherein the drug delivery chamber (4) includes a liquid level sensor (14); wherein the right side of the fixed groove (10) is provided with a graphite battery (5) and a loudspeaker (6 }; wherein the graphene battery (5) and the loudspeaker (6) are respectively attached to the top and bottom of the housing ( 3); and wherein the micropump unit (11), the liquid level sensor (14), the graphene battery (5) and the loudspeaker (6) are connected to the control system (7). The dynamic blood pressure lowering device for real-time monitoring of blood pressure according to claim 1, wherein the control system (7) comprises a processing module (15), an I/O module (16), a storage module (17), a Bluetooth wireless module (18), a display module (19), an input module (20), an alarm module (21) and a power management module (22); and wherein the processing module (15) is connected to the I/O module (16), the storage module (17), the Bluetooth wireless module (18), the display module (19), and the input module (20). The dynamic blood pressure lowering device for real-time monitoring of blood pressure according to claim 2, wherein the display module (19) is connected to the display screen (8); the input module (20) is connected to the function button (9); the power management module (22) is connected to the graphene battery (5); the I/O module (16) is connected to the liquid level sensor (14); and the alarm module (21) is connected to the loudspeaker (6). The dynamic blood pressure lowering device for real-time monitoring of blood pressure according to claim 1, wherein a back clip (23) is fixedly connected to the back of the housing (3). The dynamic blood pressure lowering device for real-time monitoring of blood pressure according to claim 1, wherein a charging interface (24) is connected to the top of the graphene battery (5). The dynamic blood pressure lowering device for real-time monitoring of blood pressure according to claim 1, wherein the drug administration head (13) is capsule-shaped and connected to the leather tube (12); and a fixed patch (25) extending outwardly is provided on the edge of the drug delivery head (13).