CN210811008U - Wearable blood pressure monitor - Google Patents

Abstract

The utility model provides a wearable blood pressure monitor. The wearable sphygmomanometer comprises a shell, a top conducting strip, a blood pressure light-transmitting piece, a bottom conducting strip, a processor, a pressure sensor and a blood pressure measurer, wherein the shell forms an accommodating space, the shell is provided with a first opening and a second opening communicated with the accommodating space, the top conducting strip is assembled in the first opening, the blood pressure light-transmitting piece is assembled in the first opening and connected with the top conducting strip, the bottom conducting strip is assembled in the second opening, the bottom conducting strip is used for contacting with an arm of a human body, the processor is assembled in the accommodating space, the pressure sensor is assembled in the accommodating space towards the first opening, the pressure sensor is electrically connected with the processor, the blood pressure measurer is assembled in the accommodating space towards the first opening, and the blood pressure measurer is electrically connected with the processor. The utility model discloses a wearable sphygmomanometer can solve user in the past and measure the time of blood pressure, place and require the limitation, realizes the purpose of one step of measuring blood pressure anytime and anywhere.

Description

Wearable blood pressure monitor

Technical Field

The utility model relates to a technical field that intelligence was dressed especially relates to a wearable sphygmomanometer.

Background

The existing sphygmomanometer is large in size, blood pressure needs to be measured by pressurizing a wrist strap, operation steps are troublesome, and especially in winter, user experience is not good enough. The blood pressure monitor has the advantages that the blood pressure monitor has requirements on the using environment of a detector, the blood pressure detection cannot be carried out anytime and anywhere, the measurement of human body parts (generally, the wrist and the big arm) is also required, the user needs to sit stably, the arm is bent and the chest is as high as the chest, the inconvenience is greatly reduced, and when the user wants to know the blood pressure condition of the user when going out, the user can only find places with blood pressure monitors, such as a pharmacy and a hospital, so that the blood pressure monitor is very inconvenient.

Therefore, the wearable blood pressure monitor needs to be redesigned to meet the daily life needs of people.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wearable sphygmomanometer to solve the problem that current sphygmomanometer is bulky, operating procedure is loaded down with trivial details, inconvenient carrying.

The utility model provides a wearable sphygmomanometer, this wearable sphygmomanometer includes the casing, the top conducting strip, blood pressure printing opacity piece, the bottom conducting strip, the treater, pressure sensor and blood pressure measurement ware, the casing forms the accommodation space, first opening and second opening with the accommodation space intercommunication are seted up to the casing, the top conducting strip assembles in first opening, blood pressure printing opacity piece assembles in first opening and is connected with the top conducting strip, the bottom conducting strip assembles in the second opening, the bottom conducting strip is used for contacting with human arm, the treater assembles in the accommodation space, pressure sensor assembles in the accommodation space towards first opening, pressure sensor and treater electric connection, the blood pressure measurement ware assembles in the accommodation space towards first opening, blood pressure measurement ware and treater electric connection.

Optionally, the top conductive plate is made of a metal material, and the bottom conductive plate is made of a metal material.

Optionally, the body includes a housing and a back shell, the housing is connected with the periphery of the back shell to form an accommodating space, the first opening is provided on the housing, the second opening is provided on the back shell, the housing is further provided with a third opening, the back shell is used for contacting with an arm of a human body, the wearable sphygmomanometer further includes a button module, and the button module is assembled in the third opening and electrically connected with the processor.

Optionally, the wearable blood pressure monitor further comprises a charging module, the charging module is assembled in the accommodating space and electrically connected with the processor, and the charging module is used for providing electric energy.

Optionally, wearable sphygmomanometer still includes the rhythm of the heart module, and the rhythm of the heart module assembles in the accommodation space towards the second opening, rhythm of the heart module and treater electric connection to be used for detecting human rhythm of the heart.

Optionally, the charging module further includes a battery and a magnetic pin electrically connected to the battery, the battery is assembled in the accommodating space and electrically connected to the processor, the magnetic pin is assembled on the housing, and the magnetic pin is magnetically connected to the charger.

Optionally, the bottom conducting strip is provided with a fourth opening communicated with the accommodating space, the heart rate module comprises a first transparent sheet and a heart rate detector, the first transparent sheet is assembled in the fourth opening, the heart rate detector is electrically connected with the processor, and the heart rate detector is used for detecting the heart rate of the human body through the first transparent sheet.

Optionally, the material of the first transparent sheet is PC, PMMA or glass.

Optionally, the wearable blood pressure monitor further comprises a display module electrically connected with the processor, the shell is further provided with a fifth opening, and the display module is assembled in the fifth opening and used for displaying information.

Optionally, the display module includes a display screen and a second transparent sheet, the display screen is electrically connected to the processor and is assembled in the fifth opening, and the second transparent sheet covers the fifth opening.

The utility model has the advantages as follows: the utility model discloses a wearable sphygmomanometer, which comprises a shell, a top conducting strip, a blood pressure light-transmitting strip, a bottom conducting strip, a processor, a pressure sensor and a blood pressure measurer, wherein the shell forms an accommodating space, the shell is provided with a first opening and a second opening which are communicated with the accommodating space, the top conducting strip is assembled in the first opening, the blood pressure light-transmitting strip is assembled in the first opening and is connected with the top conducting strip, the bottom conducting strip is assembled in the second opening, the bottom conducting strip is used for contacting with the arm of a human body, the processor is assembled in the accommodating space, the pressure sensor is assembled in the accommodating space towards the first opening, the pressure sensor is electrically connected with the processor, the blood pressure measurer is assembled in the accommodating space towards the first opening, the blood pressure measurer is electrically connected with the processor, and a user can measure the blood pressure of the user only by placing a finger on the, the convenience of daily use of the user can be improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of 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 it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the wearable blood pressure monitor provided by the present invention.

Fig. 2 is a schematic structural diagram of another embodiment of the wearable blood pressure monitor provided by the present invention.

Fig. 3 is a schematic view of the working principle of an embodiment of the wearable blood pressure monitor provided by the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of an embodiment of a wearable blood pressure monitor 100 provided by the present invention, fig. 2 is a schematic structural diagram of another embodiment of a wearable blood pressure monitor 100 provided by the present invention, and fig. 3 is a schematic working principle diagram of an embodiment of a wearable blood pressure monitor 100 provided by the present invention.

Wearable sphygmomanometer 100 is used for detecting the blood pressure of a human body, and wearable sphygmomanometer 100 includes: the blood pressure sensor comprises a shell 110, a top conducting strip 120, a blood pressure light-transmitting strip 130, a bottom conducting strip 140, a processor 150, a pressure sensor 160 and a blood pressure measurer 170.

The shell 110 forms an accommodating space, the shell 110 is provided with a first opening and a second opening which are communicated with the accommodating space, the top conducting strip 120 is assembled in the first opening, the blood pressure light transmitting strip 130 is assembled in the first opening and connected with the top conducting strip 120, the bottom conducting strip 140 is assembled in the second opening, the bottom conducting strip 140 is used for contacting with an arm of a human body, the processor 150 is assembled in the accommodating space, the pressure sensor 160 is assembled in the accommodating space towards the first opening, the pressure sensor 160 is electrically connected with the processor 150, the blood pressure measurer 170 is assembled in the accommodating space towards the first opening, and the blood pressure measurer 170 is electrically connected with the processor 150.

When the blood pressure needs to be measured, the user carries a watch to make the bottom conductive sheet 140 stick to the wrist of the human body, and places fingers on the top conductive sheet 120, so that a closed loop for measuring the blood pressure is formed.

When the top conductive sheet 120 is pressed by a finger of a human body, the pressure sensor 160 is pressed, the pressure sensor 160 generates a first signal instruction, and the processor 150 generates a second signal instruction in response to the first signal instruction to control the blood pressure measurer 170 to detect the blood pressure of the human body through the blood pressure transparent sheet 130, so that the effect of measuring the blood pressure at any time and any place in one step is achieved, a detection report can be generated while measurement is performed, and the detection report is synchronized to mobile terminals such as a mobile phone, so that a user can conveniently check the blood pressure.

The top conductive sheet 120 is made of metal, the top conductive sheet 120 may be made of metal such as copper, iron, and aluminum, the bottom conductive sheet 140 is made of metal, and the bottom conductive sheet 140 may be made of metal such as copper, iron, and aluminum.

The shell 110 comprises a shell 111 and a back shell 112, the shell 111 is connected with the peripheral surface of the back shell 112 to form an accommodating space, the first opening is formed in the shell 111, the second opening is formed in the back shell 112, the shell 111 is further provided with a third opening, and the back shell 112 is used for contacting with the arm of a human body; the wearable blood pressure monitor 100 further includes a button module 180, the button module 180 is assembled in the third opening and electrically connected to the processor 150, the button module 180 may be a toggle button, the button module is rotated to perform a selection operation, the selected mode can be confirmed by pressing the button module, and when the switch 181 is pressed to close and conduct the break contact 182, the processor receives a signal to perform the selected operation.

The wearable blood pressure monitor 100 further includes a charging module 190, the charging module 190 is assembled in the accommodating space and electrically connected to the processor 150, and the charging module 190 is used for providing electric energy.

The charging module 190 further comprises a battery 191 and a magnetic needle 192 electrically connected with the battery 191, the battery 191 is assembled in the accommodating space and electrically connected with the processor 150, the magnetic needle 192 is assembled on the shell 110, the magnetic needle 192 is used for being magnetically connected with the charger, the complicated steps of plugging and unplugging the charger can be simplified by adopting magnetic charging to realize a shortcut of charging by suction, the interface can be loosened by long-term plugging, and the magnetic mode can optimize the situation.

Wearable sphygmomanometer 100 still includes heart rate module 200, and heart rate module 200 assembles in the accommodation space towards the second opening, and heart rate module 200 and treater 150 electric connection to be used for detecting human rhythm of the heart.

The bottom conductive sheet 140 is provided with a fourth opening communicated with the accommodating space; heart rate module 200 includes first transparency 201 and heart rate detector 202, and first transparency 201 assembles in the fourth opening, heart rate detector 202 and processor 150 electric connection, and heart rate detector 202 is used for detecting the heart rate of human body through first transparency 201.

Specifically, the heart rate detector 202 may employ the principle of the photoelectric transmission measurement method, and the heart rate detector 202 emits a beam of light through the first transparent sheet 201 to impinge on the skin to measure the reflected/transmitted light. Because blood absorbs light of a particular wavelength, the heart beat can be determined by the large absorption of that wavelength each time the heart pumps blood.

The heart rate detector 202 may also measure the heart rate by using the principle of testing the electrical cardiac signal method, and the heart rate detector 202 may determine the heart rate of the user by measuring the electrical signal of the myocardial contraction.

Of course, the heart rate detector 202 can also adopt the principle of vibration type measurement method to measure the heart rate, because each heartbeat can cause the vibration of the body, the vibration can be captured by a high-precision sensor, and the heart rate can be obtained through signal processing.

The first transparent sheet 201 is made of Polycarbonate (PC), polymethyl methacrylate (PMMA) or glass, and the main component of the glass is silicon dioxide (SiO 2).

Wearable sphygmomanometer 100 still includes display module 210 with treater 150 electric connection, and the fifth opening has still been seted up to shell 111, and display module 210 assembles in the fifth opening to be used for showing information, this part is responsible for showing the information that measures, and wherein include blood pressure, heart rate, step number, calorie etc..

The display module 210 includes a display screen 211 and a second transparent sheet 212, the display screen 211 is electrically connected to the processor 150 and is disposed in the fifth opening, the second transparent sheet 212 covers the fifth opening, and the second transparent sheet 212 is used for separating the display screen 211 from glass to form a sealed environment, so as to form a better protection effect for the display screen 211, and prevent water or sweat from entering the display screen 211 to cause a short circuit of the display screen 211.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A wearable blood pressure monitor for detecting blood pressure of a human body, the wearable blood pressure monitor comprising:

the shell forms an accommodating space, and is provided with a first opening and a second opening which are communicated with the accommodating space;

a top conductive tab mounted in the first opening;

the blood pressure light-transmitting sheet is assembled in the first opening and connected with the top conducting sheet;

the bottom conducting strip is assembled in the second opening and is used for being in contact with the arm of the human body;

the processor is assembled in the accommodating space;

the pressure sensor is assembled in the accommodating space towards the first opening and is electrically connected with the processor;

the blood pressure measurer is assembled in the accommodating space towards the first opening and is electrically connected with the processor;

when the top conducting strip is pressed by a finger of a human body, the pressure sensor generates a first signal instruction, and the processor responds to the first signal instruction to generate a second signal instruction so as to control the blood pressure measurer to detect the blood pressure of the human body through the blood pressure light-transmitting strip.

2. The wearable blood pressure monitor of claim 1, wherein the top conductive sheet is made of metal, and the bottom conductive sheet is made of metal.

3. The wearable blood pressure monitor of claim 1, wherein the housing comprises a shell and a back shell, the shell is connected with the peripheral surface of the back shell to form the accommodating space, the first opening is formed in the shell, the second opening is formed in the back shell, the shell is further formed with a third opening, and the back shell is used for contacting with the arm of the human body; the wearable blood pressure monitor also comprises a button module, wherein the button module is assembled in the third opening and electrically connected with the processor.

4. The wearable blood pressure monitor of claim 1, further comprising a charging module, wherein the charging module is assembled in the accommodating space and electrically connected to the processor, and the charging module is used for providing electric energy.

5. The wearable blood pressure monitor of claim 1, further comprising a heart rate module, wherein the heart rate module is assembled in the accommodating space towards the second opening, and the heart rate module is electrically connected to the processor for detecting the heart rate of the human body.

6. The wearable blood pressure monitor of claim 4, wherein the charging module further comprises a battery and a magnetic pin electrically connected to the battery, the battery is disposed in the accommodating space and electrically connected to the processor, the magnetic pin is disposed on the housing, and the magnetic pin is magnetically connected to a charger.

7. The wearable blood pressure monitor of claim 5, wherein the bottom conductive sheet is provided with a fourth opening communicated with the accommodating space; the heart rate module comprises a first transparent sheet and a heart rate detector, the first transparent sheet is assembled in the fourth opening, the heart rate detector is electrically connected with the processor, and the heart rate detector is used for detecting the heart rate of the human body through the first transparent sheet.

8. The wearable blood pressure monitor of claim 7, wherein the first transparent sheet is made of PC, PMMA or glass.

9. The wearable blood pressure monitor of claim 3, further comprising a display module electrically connected to the processor, wherein the housing further defines a fifth opening, and the display module is disposed in the fifth opening for displaying information.

10. The wearable blood pressure monitor of claim 9, wherein the display module comprises a display screen and a second transparent sheet, the display screen is electrically connected to the processor and fits in the fifth opening, and the second transparent sheet covers the fifth opening.

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