CN220800996U

CN220800996U - Portable sphygmomanometer

Info

Publication number: CN220800996U
Application number: CN202322110607.2U
Authority: CN
Inventors: 张薇; 骆迪; 孙宁; 罗菲
Original assignee: Jingnan Medical District Pla General Hospital
Current assignee: Jingnan Medical District Pla General Hospital
Priority date: 2023-08-08
Filing date: 2023-08-08
Publication date: 2024-04-19
Anticipated expiration: 2033-08-08

Abstract

The utility model relates to a portable sphygmomanometer, which comprises an integral cuboid-shaped cuff, wherein one side of the cuff is provided with a hook surface of a magic tape, the other side of the cuff is provided with a hook surface of the magic tape at the opposite position of the hook surface of the magic tape, and when the cuff is wound on an arm, the hook surface of the magic tape is attached to the hook surface of the magic tape; the device comprises a cuff, a plurality of powerful magnets, an air bag, an electric control part, a micro air pump and an air inflation nozzle, wherein the powerful magnets are arranged on the upper side and the lower side of the cuff at intervals, the air bag is arranged in the middle of the cuff, the electric control part is arranged on the upper part or the lower part of the cuff, and the micro air pump is provided with the air inflation nozzle and is communicated with the air bag; the portable blood pressure meter is characterized by further comprising a plurality of magnet buckles which are used for being buckled with the powerful magnets in an attractive manner, so that the blood pressure meter is locked on clothes, and the portable blood pressure meter can be carried without causing additional extrusion to a human body and discomfort under the conditions of not changing the clothes and damaging the clothes.

Description

Portable sphygmomanometer

Technical Field

The utility model relates to a sphygmomanometer, in particular to a portable sphygmomanometer.

Background

Blood pressure meters, particularly electronic blood pressure meters, are now in widespread use. The pure electronic sphygmomanometer adopts a mode of collecting human body electric signals to measure blood pressure, so that the pure electronic sphygmomanometer can be carried at any time and monitored at any time. However, such non-contact electronic sphygmomanometers are expensive and not accurate enough to measure.

The contact electronic sphygmomanometer is low in price and accurate in reading, and cannot be carried and detected for a long time, and the blood pressure measurement is carried out by means of extruding the human arms by air pressure.

At present, various strap type electronic blood pressure meters exist, the blood pressure meters are fixed on a human body through various straps, and when the blood pressure needs to be measured, the blood pressure is directly measured. Or to a specific garment, for example to be integrated in a hospital dress, in such a way that the user must endure the discomfort of the various harnesses or endure the disliked garment.

Disclosure of utility model

The utility model aims to provide a portable sphygmomanometer capable of measuring blood pressure at any time, and the portable sphygmomanometer does not cause trouble to a user.

The technical scheme adopted by the utility model is as follows: the cuff is provided with a hook surface of the magic tape on the back surface of the cuff at the opposite position of the hook surface of the magic tape, and when the cuff is wound on an arm, the hook surface of the magic tape is attached to the hook surface of the magic tape; the device comprises a cuff, a plurality of powerful magnets, an air bag, an electric control part, a micro air pump and an air inflation nozzle, wherein the powerful magnets are arranged on the upper side and the lower side of the cuff at intervals, the air bag is arranged in the middle of the cuff, the electric control part is arranged on the upper part or the lower part of the cuff, and the micro air pump is provided with the air inflation nozzle and is communicated with the air bag; the sphygmomanometer also comprises a plurality of magnet buckles which are used for being mutually attracted and buckled with the powerful magnets so as to lock the sphygmomanometer on clothes.

Further, the strong magnet is flat cylindrical and is sewn or glued to the cuff, fixed relative to the cuff.

Further, the electric control part comprises a power supply, a controller, a communication device, a pressure sensor and a micro air pump, wherein the controller and the micro air pump are connected to the power supply, and the pressure sensor, the communication device and the micro air pump are connected to the controller; the pressure sensor is used for receiving pressure signals of the air bag and transmitting the pressure signals to the controller, the controller sends signals for inflating or deflating to the micro air pump according to the pressure signals, and the power supply is used for supplying power to the controller and the micro air pump.

Further, the power supply adopts a charging power supply.

Further, the pressure sensor collects pressure signals of the air bag in real time and transmits the pressure signals to the controller, and the controller processes the pressure signals and outputs the processed pressure signals to the mobile equipment through the communication device.

Further, the magnet buckle is made of steel or made of magnet, so that the magnet buckle can be attracted and buckled with the powerful magnet.

Further, a temperature sensor is further arranged on the sphygmomanometer and used for measuring the temperature of a human body, and the sphygmomanometer can automatically start to measure the blood pressure of the human body according to the temperature of the human body and send a measurement result to mobile equipment of a user.

According to the utility model, the sphygmomanometer is buckled on the clothes, so that the sphygmomanometer can be carried about without changing the clothes or damaging the clothes, and meanwhile, the sphygmomanometer cannot cause additional extrusion to a human body, so that discomfort is caused. Can be suitable for any clothes, and can start blood pressure measurement at any time.

Drawings

FIG. 1 is a schematic diagram of the front structure of a portable sphygmomanometer according to the present utility model;

FIG. 2 is a schematic diagram showing the constitution of an electric control part of the portable blood pressure meter according to the present utility model;

FIG. 3 is a schematic view showing a use state of the portable sphygmomanometer and the clothing according to the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

As shown in fig. 1 to 3, a cuff-type sphygmomanometer according to the present utility model comprises a cuff portion 5 having an overall rectangular parallelepiped shape, wherein a hook-and-loop fastener is provided on both sides of the cuff portion 5, one side of the cuff portion is provided with a hook-and-loop fastener surface 1, and the other side of the cuff portion is provided with a hook-and-loop fastener surface 2 on the back of the cuff opposite to the hook-and-loop fastener surface 1, and of course, positions of the hook-and-loop fastener surface 1 and the hook-and-loop fastener surface 2 are interchangeable, and when the cuff portion 5 is wound around an arm, the hook-and-loop fastener surface 2 and the hook-and-loop fastener surface 1 are adhered, thereby enabling the cuff portion 5 to be adhered to the arm.

A plurality of strong magnets 6 are provided at intervals on both upper and lower sides of the cuff 5, and preferably, the strong magnets 6 are flat cylindrical and are sewn or adhered to the inside of the cuff 5 to be fixed with respect to the cuff 5.

An air bag 3 is arranged in the middle of the cuff 5, an electric control part 4 is also arranged at the upper part or the lower part of the cuff 5, a micro air pump 44 is arranged in the electric control part 4, and the micro air pump 44 is provided with an air inflation nozzle and is communicated with the air bag.

Referring to fig. 2, there is shown an electrical control section 4 of the present utility model, which includes a power source 41, a controller 45, a communication device 42, a pressure sensor 43, and a micro air pump 44, the controller 45 and the micro air pump 44 being connected to the power source 41, and the pressure sensor 43, the communication device 42, and the micro air pump 44 being connected to the controller 45. The pressure sensor 43 is used for receiving a pressure signal of the air bag and transmitting the pressure signal to the controller 45, the controller 45 sends a signal for inflating or deflating the micro air pump 44 according to the pressure signal, and the power supply 41 is used for supplying power to the controller 45 and the micro air pump 44.

The power supply 41 may be a charging power supply.

The pressure sensor 43 collects the pressure signal of the air bag 3 in real time and transmits the pressure signal to the controller 45, and the controller 45 processes the pressure signal and then outputs the processed pressure signal to the outside through the communication device 42, for example, to a mobile device such as a mobile phone, a pad, etc., so that the user can receive the blood pressure signal in real time.

Referring to fig. 1 and 3, a plurality of strong magnets 6 are arranged at intervals on both the upper and lower sides of the cuff, and magnet buckles 8 attracted to the strong magnets 6 are also arranged, wherein the magnet buckles 8 are made of steel or made of magnets, so that attraction with the strong magnets 6 is ensured.

When the sleeve belt 5 is used, the sleeve belt 5 is sleeved on an arm, the rough surface 1 of the magic tape is attached to the hook surface 2 of the magic tape, the sleeve is put down and sleeved on the outer side of the sleeve belt 5, and the magnet buckle 8 is used for buckling aiming at the powerful magnet 6 on the sleeve belt 5, so that the sleeve belt 5 is firmly locked on the sleeve of the clothes. When a person walks or sleeps, the sphygmomanometer cannot fall off from clothes, and because the sphygmomanometer is integrally locked to the clothes, the human arm cannot be squeezed, and a user can wear the sphygmomanometer for a long time without discomfort to the arm.

In another embodiment, the sleeve 5 is sleeved outside the sleeve of the garment, and the magnet buckle 8 is buckled with the powerful magnet 6 from the inside of the sleeve.

Because the sphygmomanometer is locked on clothes, a user can carry the sphygmomanometer at any time, and the controller can collect the blood pressure of the human body at any time according to the state of the human body, for example, collect the blood pressure of the human body at regular time.

Or the sphygmomanometer is provided with a temperature sensor, when the temperature fluctuation of the human body accords with a certain range, the sphygmomanometer automatically starts to measure the blood pressure of the human body, and then sends a measurement result to mobile equipment of a user, so that the requirements of remote monitoring and follow-up are met.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims

1. A portable sphygmomanometer, characterized in that: the sleeve comprises a sleeve belt in an integral cuboid shape, wherein one side of the sleeve belt is provided with a hook surface of the magic tape, the other side of the sleeve belt is provided with a hook surface of the magic tape at the opposite position of the hook surface of the magic tape, and when the sleeve belt is wound on an arm, the hook surface of the magic tape is attached to the hook surface of the magic tape; the device comprises a cuff, a plurality of powerful magnets, an air bag, an electric control part, a micro air pump and an air inflation nozzle, wherein the powerful magnets are arranged on the upper side and the lower side of the cuff at intervals, the air bag is arranged in the middle of the cuff, the electric control part is arranged on the upper part or the lower part of the cuff, and the micro air pump is provided with the air inflation nozzle and is communicated with the air bag; the sphygmomanometer also comprises a plurality of magnet buckles which are used for being mutually attracted and buckled with the powerful magnets so as to lock the sphygmomanometer on clothes.

2. A portable blood pressure monitor as claimed in claim 1, wherein: the strong magnet is flat cylindrical and is sewn or glued to the cuff, fixed relative to the cuff.

3. A portable blood pressure monitor according to claim 1 or 2, wherein: the electric control part comprises a power supply, a controller, a communication device, a pressure sensor and a miniature air pump, wherein the controller and the miniature air pump are connected to the power supply, and the pressure sensor, the communication device and the miniature air pump are connected to the controller; the pressure sensor is used for receiving pressure signals of the air bag and transmitting the pressure signals to the controller, the controller sends signals for inflating or deflating to the micro air pump according to the pressure signals, and the power supply is used for supplying power to the controller and the micro air pump.

4. A satellite belt sphygmomanometer according to claim 3, wherein: the power supply adopts a charging power supply.

5. The portable sphygmomanometer of claim 4, wherein: the pressure sensor collects pressure signals of the air bag in real time and transmits the pressure signals to the controller, and the controller processes the pressure signals and outputs the processed pressure signals to the mobile equipment through the communication device.

6. The portable sphygmomanometer of claim 5, wherein: the magnet buckle is made of steel or made of magnet, so that the magnet buckle can be attracted and buckled with the powerful magnet.

7. The portable sphygmomanometer of claim 6, wherein: the blood pressure meter is also provided with a temperature sensor for measuring the temperature of a human body, and the blood pressure meter can automatically start to measure the blood pressure of the human body according to the temperature of the human body and send the measurement result to mobile equipment of a user.