CN217659844U - External connection is from inflatable blood pressure measurement equipment of smart machine - Google Patents

Abstract

The utility model relates to a blood pressure measurement technical field, concretely relates to external from inflatable blood pressure measurement equipment who connects in smart machine, include from inflating sleeve area, data transmission module and measuring module, measuring module installs in smart machine, and it is continuous with measuring module to pass through data transmission module from inflating sleeve area. The measuring module is installed on the intelligent device, and the intelligent device can be a smart phone, a computer and the like. The intelligent equipment can be connected with the plurality of self-inflating cuffs through the measuring module and the data transmission module, and the measuring data of each self-inflating cuff is collected by the intelligent equipment, so that the intelligent equipment is convenient for centralized use and monitoring in places such as hospitals and the like; and the self-inflating blood pressure measuring equipment omits main accessories such as a main control panel, a display screen, a battery and the like, greatly reduces the cost and the resource consumption, and saves the energy.

Description

External connection is from inflatable blood pressure measurement equipment of smart machine

Technical Field

The utility model relates to a blood pressure measurement technical field, concretely relates to external from inflatable blood pressure measurement equipment who connects in smart machine.

Background

The non-invasive blood pressure measuring method mainly comprises a Korotkoff sound method and an oscillometric method. The cuff is based on an inflatable air bag, the arterial blood flow of the limb is blocked by first pressurizing, then the cuff is slowly deflated, the blocked arterial blood flow is reopened, and the Korotkoff sounds or pulse oscillation signals in the cuff are detected, so that the measurement of the systolic pressure, the diastolic pressure, the average pressure and the pulse rate of the human body is realized.

The existing electronic sphygmomanometer generally needs an air pump to pump an inflatable air bag in a cuff, and also needs a battery, a main control board and a display screen to monitor various measured data in real time, and each electronic sphygmomanometer needs the components, thereby causing resource waste; and the data of each electronic sphygmomanometer are independent, which is not beneficial to the data management of places such as hospitals and the like.

Disclosure of Invention

The utility model discloses to the more resource waste and the unable centralized management scheduling problem that carries out of electronic sphygmomanometer data that cause of present electronic sphygmomanometer required part, provide an external formula blood pressure measurement equipment of aerifing certainly in smart machine.

In order to realize the purpose, the utility model discloses a technical scheme do, an external from inflatable blood pressure measurement equipment who connects in smart machine, include from aerifing sleeve area, data transmission module and measuring module, measuring module install in smart machine, from aerifing the sleeve area and passing through data transmission module with measuring module links to each other. The measurement module is arranged on the intelligent equipment, one intelligent equipment can be connected with the plurality of self-inflating cuffs through the measurement module and the data transmission module, and the measurement data of each self-inflating cuff is collected by the intelligent equipment, so that the centralized use and monitoring of places such as hospitals and the like are facilitated; and the self-inflating blood pressure measuring equipment omits main accessories such as a main control panel, a display screen, a battery and the like, greatly reduces the cost and the resource consumption, and saves the energy.

Preferably, the data transmission module is set as a wireless transmission module or a wired transmission module. When the wireless transmission module is adopted for wireless connection, remote real-time measurement and monitoring can be carried out; the wired data transmission module is adopted, namely, the intelligent equipment is directly connected with the self-inflating cuff by adopting a data line.

Preferably, from inflating the cuff and including joint sleeve area and supplementary gasbag, supplementary gasbag encircles the part joint sleeve area sets up, the joint sleeve area embeds there is the pressure measurement gasbag, supplementary gasbag is provided with first check valve, and outside air can pass through automatically first check valve gets into supplementary gasbag, supplementary gasbag with be provided with the second check valve between the pressure measurement gasbag, air in the supplementary gasbag can pass through the second check valve gets into the pressure measurement gasbag.

Preferably, one end of the clamping cuff is provided with a tensioning band, the other end of the clamping cuff is provided with a tensioning ring, and the tensioning band can penetrate through the tensioning ring and can be pulled to be close to the distance between the two ends of the clamping cuff.

Preferably, the outer side surface of the clamping cuff is provided with an air release valve communicated with the pressure measuring air bag, and air in the pressure measuring air bag can be discharged into the external environment through the air release valve.

Preferably, the lateral surface in joint sleeve area still is provided with taut fixed band, the one end of supplementary gasbag is passed through the second check valve with the joint sleeve area is fixed, and the other end passes through taut fixed band is fixed in the lateral surface in joint sleeve area. After the clamping cuff is fixed, the tensioning fixing belt can be loosened to inflate the auxiliary air bag if necessary, and then the tensioning fixing belt is tensioned to supplement air pressure for the pressure measuring air bag.

Preferably, in a state that the tensioning band and/or the tensioning fixing band is tensioned to enable the auxiliary air bag to be tightly attached to the clamping cuff, air in the auxiliary air bag is squeezed and enters the pressure measuring air bag through the second one-way valve; and when the tensioning bandage and/or the tensioning fixing belt are/is loosened, the auxiliary air bag is not tightly attached to the clamping cuff, and external air automatically enters the auxiliary air bag through the first one-way valve.

Preferably, the lateral surface of joint sleeve area still is provided with the measuring part, the measuring part include the casing and the inside pressure sensing module of casing.

Preferably, an overflow valve communicated with the interior of the pressure measuring air bag is arranged on the side surface of the shell.

Preferably, the side of the housing is provided with an interface.

The utility model has the advantages that:

compared with the existing electronic sphygmomanometer, the self-inflating blood pressure measuring equipment externally connected with the intelligent equipment saves main accessories such as an air pump, a main control board, a display screen, a battery and the like, greatly reduces the cost and resource consumption, and saves energy; meanwhile, the measuring module is more convenient for centralized use and monitoring in places such as hospitals and the like, and can remotely measure and monitor in real time during wireless connection.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings required for use in the description will be briefly introduced below, and it is apparent 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 that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is the embodiment of the utility model provides an external simple data transmission schematic diagram of from inflatable blood pressure measurement equipment in smart machine.

Fig. 2 is a schematic diagram of simple data transmission of the self-inflating blood pressure measuring device externally connected to the smart device according to another embodiment of the present invention.

Fig. 3 is a schematic perspective view of the self-inflating cuff of the present invention.

Fig. 4 is a schematic perspective view of another angle of the self-inflating cuff of the present invention.

Fig. 5 is a top view of the self-inflating cuff of the present invention.

Fig. 6 is a side view of the self-inflating cuff of the present invention.

Fig. 7 is another side view of the self-inflating cuff of the present invention.

In the figure: 1. the device comprises a clamping cuff, 2, an auxiliary air bag, 3, a pressure measuring air bag, 4, a first one-way valve, 5, a second one-way valve, 6, a tensioning bandage, 7, a tensioning ring, 8, a tensioning fixing belt, 9, a deflation valve, 10, a measuring part, 11, an overflow valve, 12 and a connector.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments, and obviously, the embodiments described below are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments in this patent without making creative efforts, shall fall within the protection scope of this patent.

As shown in fig. 1 and fig. 2, in this embodiment, the utility model provides an external from inflatable blood pressure measurement equipment who connects in smart machine includes from inflating sleeve area, data transmission module and measuring module, and measuring module installs in smart machine, links to each other with measuring module through data transmission module from inflating sleeve area. The measurement module is installed on the intelligent equipment, and the intelligent equipment can be smart phones, computers and the like. The measuring module can be realized by hardware and software or the combination of the hardware and the software in the prior art, the measuring module is also arranged in the prior sphygmomanometer, the invention point of the scheme is not shown here, and the specific characteristics are not described in detail here. The intelligent equipment can be connected with the plurality of self-inflating cuffs through the measuring module and the data transmission module, and the measured data of each self-inflating cuff is collected by the intelligent equipment, so that the intelligent equipment is convenient for centralized use and monitoring in places such as hospitals and the like; and the self-inflating blood pressure measuring equipment saves main accessories such as a main control panel, a display screen, a battery and the like, greatly reduces the cost and the resource consumption and saves the energy.

The data transmission module can be set as a wired transmission module, i.e. a data line. As shown in fig. 1, one end of the data line is connected to the intelligent device, the other end of the data line is connected to the self-inflating cuff, data measured by the pressure sensing module on the self-inflating cuff can be transmitted to the intelligent device through the data line, and meanwhile, the intelligent device can also supply power to the self-inflating cuff through the data line.

The data transmission module can also be set as a wireless transmission module or a wired and wireless hybrid transmission module. As shown in fig. 2, the scheme is adopted simultaneously in a wired and wireless manner, data measured by the pressure sensing module can be transmitted to the intelligent device through a data line, or can be directly transmitted to the intelligent device through a wireless transmission module connected with the pressure sensing module, and remote real-time measurement and monitoring can be performed when wireless connection of the wireless transmission module is adopted.

As shown in fig. 3 to 7, the self-inflating cuff comprises a clamping cuff 1 and an auxiliary air bag 2, the auxiliary air bag 2 is arranged around a part of the clamping cuff 1, a pressure measuring air bag 3 is arranged in the clamping cuff 1, the auxiliary air bag 2 is provided with a first one-way valve 4, external air can automatically enter the auxiliary air bag 2 through the first one-way valve 4, a second one-way valve 5 is arranged between the auxiliary air bag 2 and the pressure measuring air bag 3, and air in the auxiliary air bag 2 can enter the pressure measuring air bag 3 through the second one-way valve 5. One end of the clamping cuff 1 is provided with a tensioning bandage 6, the other end of the clamping cuff 1 is provided with a tensioning ring 7, and the tensioning bandage 6 can penetrate through the tensioning ring 7 and can be pulled to be close to the distance between the two ends of the clamping cuff 1. The auxiliary air bag 2 is fixed mainly by the second check valve 5 and the tightening fixing band 8, the fastening fixing band 8 is arranged on the outer side face of the clamping sleeve belt 1, one end of the auxiliary air bag 2 is fixed with the clamping sleeve belt 1 through the second check valve 5, and the other end of the auxiliary air bag is fixed on the outer side face of the clamping sleeve belt 1 through the tightening fixing band 8. The outer side surface of the clamping cuff 1 is also provided with a deflation valve 9 communicated with the pressure measuring air bag 3, and air in the pressure measuring air bag 3 can be exhausted into the external environment through the deflation valve 9. The outer side surface of the clamping cuff 1 is further provided with a measuring part 10, and the measuring part 10 comprises a shell and a pressure sensing module inside the shell. The side surface of the shell is provided with an overflow valve 11 communicated with the interior of the pressure measuring air bag 3. The side of the housing is provided with an interface 12 for plugging a data line.

Under the condition that the auxiliary air bag 2 is tightly clamped with the cuff 1 by tensioning the tensioning bandage 6 and/or the tensioning fixing belt 8, the air in the auxiliary air bag 2 is extruded and enters the pressure measuring air bag 3 through the second one-way valve 5; in a state where the tightening band 6 and/or the tightening band 8 are loosened so that the auxiliary air bag 2 is not tightly clamped to the cuff 1, the external air automatically enters the auxiliary air bag 2 through the first check valve 4.

The working process and the working principle of the self-inflating blood pressure measuring equipment externally connected with the intelligent equipment are as follows:

the self-inflating cuff is connected with intelligent equipment provided with a measuring module through a data line, a software interface is opened, the self-inflating cuff can automatically expand the auxiliary air bag 2 and the pressure measuring air bag 3 when being opened before measurement is prepared, air can sequentially enter and fill the auxiliary air bag 2 and the pressure measuring air bag 3 from two one-way valves, namely a first one-way valve 4 and a second one-way valve 5, the self-inflating cuff is clamped to a proper position of an upper arm with the same height as the heart and tensions and strains the binding band 6, the air in the auxiliary air bag 2 of the self-inflating cuff can enter the pressure measuring air bag 3 through the second one-way valve 5 after being extruded, the tensioning fixing band 8 is completely or partially loosened, and the auxiliary air bag 2 can automatically expand again, external air continuously enters the auxiliary air bag 2 through the first one-way valve 4, the tightening fixing band 8 is tightened again after the auxiliary air bag 2 is expanded, air in the auxiliary air bag 2 is extruded and enters the pressure measuring air bag 3 through the second one-way valve 5 again to inflate the pressure measuring air bag 3, the tightening fixing band 8 needs to be tightened or loosened for 1 time or a plurality of times of operation because the arm circumference of different personnel is different from the required pressure measuring pressure, when the air pressure in the pressure measuring air bag 3 reaches the pressure required by blood pressure measurement (generally, the air pressure can be blocked for improving the comfort level), the pressurization is stopped through software prompting, the air release valve 9 starts to slowly release air to the pressure measuring air bag 3, and the blood pressure measurement is started; along with the deflation and pressure reduction process, the intelligent device calculates and outputs the blood pressure value and the heart rate according to the data transmitted by the pressure sensing module in the measuring part 10 through a data line or wireless by a pressure reduction measuring method. After the measurement is finished, operating the overflow valve 11 to quickly deflate, and unfastening the cuff; if the pressure exceeds a certain threshold value in the pressurizing process, the over-high pressure is prompted, and the overflow valve 11 is automatically opened to release air.

The utility model has the advantages that:

compared with the existing electronic sphygmomanometer, the self-inflating blood pressure measuring equipment externally connected with the intelligent equipment saves main accessories such as an air pump, a main control board, a display screen, a battery and the like, greatly reduces the cost and resource consumption, and saves energy; meanwhile, the measuring module is adopted, so that centralized use and monitoring of places such as hospitals and the like are facilitated, and remote real-time measurement and monitoring can be realized during wireless connection.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The self-inflating blood pressure measuring device externally connected with intelligent equipment is characterized by comprising a self-inflating cuff, a data transmission module and a measuring module, wherein the measuring module is installed on the intelligent equipment, and the self-inflating cuff is connected with the measuring module through the data transmission module.

2. The self-inflating blood pressure measuring device externally connected to an intelligent device as claimed in claim 1, wherein the data transmission module is a wired transmission module.

3. The self-inflating blood pressure measuring device externally connected to an intelligent device according to claim 1, wherein the self-inflating cuff comprises a clamping cuff and an auxiliary air bag, the auxiliary air bag surrounds part of the clamping cuff, a pressure measuring air bag is arranged in the clamping cuff, the auxiliary air bag is provided with a first one-way valve, external air can automatically enter the auxiliary air bag through the first one-way valve, a second one-way valve is arranged between the auxiliary air bag and the pressure measuring air bag, and air in the auxiliary air bag can enter the pressure measuring air bag through the second one-way valve.

4. The self-inflating blood pressure measuring device external to a smart device as recited in claim 3, wherein the snap-fit cuff has a tightening strap at one end and a tightening ring at the other end, the tightening strap being capable of passing through the tightening ring and drawing the snap-fit cuff closer to the ends of the snap-fit cuff.

5. The self-inflating blood pressure measuring device externally connected with intelligent equipment as claimed in claim 3, wherein a deflation valve communicated with the pressure measuring air bag is arranged on the outer side surface of the clamping cuff, and air in the pressure measuring air bag can be exhausted to the external environment through the deflation valve.

6. The self-inflating blood pressure measuring device externally connected to an intelligent device according to claim 4, wherein a tensioning fixing band is further arranged on the outer side face of the clamping cuff, one end of the auxiliary air bag is fixed to the clamping cuff through the second one-way valve, and the other end of the auxiliary air bag is fixed to the outer side face of the clamping cuff through the tensioning fixing band.

7. The self-inflating blood pressure measuring device externally connected with an intelligent device according to claim 6, wherein in a state that the tensioning band and/or the tensioning fixing band is tensioned to enable the auxiliary air bag to be tightly attached to the clamping cuff, air in the auxiliary air bag is squeezed and enters the pressure measuring air bag through the second one-way valve; and when the tensioning bandage and/or the tensioning fixing belt are/is loosened to enable the auxiliary air bag not to be tightly attached to the clamping cuff, the external air automatically enters the auxiliary air bag through the first one-way valve.

8. The self-inflating blood pressure measuring device externally connected to an intelligent device according to claim 3, wherein a measuring part is further arranged on the outer side surface of the clamping cuff, and the measuring part comprises a shell and a pressure sensing module inside the shell.

9. The self-inflating blood pressure measuring device externally connected with an intelligent device according to claim 8, wherein an overflow valve communicated with the inside of the pressure measuring air bag is arranged on the side surface of the shell.

10. The self-inflating blood pressure measuring device external to a smart device as recited in claim 8, wherein the housing has an interface disposed on a side thereof.

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