CN211066584U - Bedside sphygmomanometer based on Internet of things - Google Patents

Abstract

The utility model discloses a bedside sphygmomanometer based on thing networking, including the elastic component, the elastic component has first state and second state, when the patient of lying in bed is inconvenient to cooperate and wears the armlet of sphygmomanometer, can pass the armlet of this application the bottom of patient's arm, because the armlet has received the support of elastic component, so can not be like present armlet because the material is softer can't pass patient's arm by self, made things convenient for the installation of armlet, the elastic component is reliable deformation of self elasticity and is switched to the second state, namely automatic tie up patient's arm, made things convenient for the blood pressure measurement; the arm belt is provided with an opening, and after the arm belt is bound up, the elastic part can be drawn away from the opening, so that the blood pressure can be measured more accurately, and the elastic part is returned after the measurement.

Description

Bedside sphygmomanometer based on Internet of things

Technical Field

The utility model relates to the field of medical technology, in particular to bedside sphygmomanometer based on thing networking.

Background

After a patient is hospitalized, the blood pressure needs to be checked regularly to judge the physiological condition, but the difference between the patient and a healthy person is that the patient lying in bed for a long time produces sudden and drastic change of the physiological condition due to some suffering, or the measured blood pressure is inaccurate due to the physiological change produced by unstable emotion.

In addition, the operation of the sphygmomanometer is inconvenient for the patient lying in the bed, the arm of the patient needs to be lifted in a matched mode and tied to the arm of the patient in the conventional sphygmomanometer, but some patients may be in a coma state and not matched, or the arm is injured and inconvenient to lift, the arm of the sphygmomanometer is soft and needs to penetrate through the arm, and the arm of the sphygmomanometer is difficult to wear under the condition that the patient is not matched.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a bedside sphygmomanometer based on the Internet of things.

In order to achieve the above object, the technical solution of the present invention is: a bedside sphygmomanometer based on the Internet of things comprises:

blood pressure check device, blood pressure check device includes the armband that extends along first direction lengthwise, the armband including the protection body and set up in the internal air pocket that extends along first direction lengthwise of protection, this internal elastic component that sets up of protection, the elastic component includes first state and second state under the first state, the elastic component along with the direction lengthwise extension that the air pocket is parallel under the second state, the both ends orientation of elastic component with first direction vertically second direction is crooked.

Preferably, the protection body is provided with a bag body, the bag body comprises an opening, and the elastic piece is placed in the opening.

Preferably, the length of the elastic member is equal to or greater than the length of the bag body.

Preferably, a protective layer is provided in the bag body, and the protective layer is provided between the elastic member and the air bag.

Preferably, the protective body comprises an inner surface facing the arm and an outer surface, the opening being provided in the outer surface.

Preferably, the elastic member is made of a silica gel material.

Preferably, the bedside sphygmomanometer comprises a processor and a heart rate data receiving unit, the heart rate data receiving unit is connected with heart rate detection equipment to acquire heart rate data, the blood pressure detection device detects blood pressure data, and the processor processes the blood pressure data and the heart rate data.

Preferably, the bedside sphygmomanometer comprises a data communication device and a reminding device, the data communication device and the reminding device are both connected with the processor, the reminding device sends out reminding according to the heart rate data, and the data communication device transmits the heart rate data and the blood pressure data to external equipment.

Due to the application of the above technical scheme, compared with the prior art, the utility model has the following advantages

Has the advantages that:

1. when a patient lying in bed is inconvenient to wear the armband of the sphygmomanometer in a matched manner, the armband can penetrate through the bottom of the arm of the patient, and the armband is supported by the elastic piece, so that the armband cannot penetrate through the arm of the patient by the patient due to the fact that the armband is made of soft materials like the conventional armband, and the installation of the armband is facilitated;

2. after the armband penetrates through the bottom of the arm of the patient, the elastic piece is switched to a second state by means of elastic deformation of the elastic piece, namely, the arm of the patient is automatically bound, the protective body and the air bag are also bound with the arm of the patient under the support of the elastic piece, and blood pressure measurement is facilitated;

3. the arm belt is provided with an opening, after the arm belt is bound, the elastic part can be drawn out from the opening position, so that the blood pressure measurement is more accurate, and the elastic part is returned after the blood pressure measurement;

4. the heart rate data is received in an auxiliary mode, the physical sign of the current patient is judged, and whether the detection of the blood pressure is accurate or not is judged according to the heart rate abnormity or not.

Drawings

Fig. 1 is a schematic structural view of the bedside sphygmomanometer of the present embodiment in a first state.

Fig. 2 is a side view of the bedside sphygmomanometer of the present embodiment in a second state.

In the figure: 1. a protection body; 2. an elastic member; 21. an extension end; 3. a bag body; 31. an opening; 32. with a bottom.

Detailed Description

The following detailed description is made in conjunction with specific embodiments of the present invention:

a bedside sphygmomanometer based on the Internet of things comprises:

blood pressure check device, blood pressure check device includes the armband that extends along first direction lengthwise, the armband including protection body 1 and set up in along the air pocket of first direction lengthwise extension in the protection body 1, set up elastic component 2 in the protection body 1, elastic component 2 includes first state and second state under the first state, elastic component 2 along with the direction lengthwise extension that the air pocket is parallel under the second state, the both ends orientation of elastic component 2 with first direction vertically second direction is crooked.

The first state is shown in fig. 1 as the unfolded state of the elastic element 2, and the second state is shown in fig. 2 as the bent state of the elastic element, the material of the elastic element 2 is easily available, for example, a snap ruler played by children has similar properties.

Further, the protection body 1 is provided with a bag body 3, the bag body 3 comprises an opening 31, and the elastic member 2 is placed in the opening 31.

Further, when the length of the elastic member 2 is greater than or equal to the length of the bag body 3.

The bottom of the bag body 3 is arranged to be the bag bottom, the distance between the bag bottom and the opening 31 is smaller than the length of the elastic part 2, the elastic part 2 is always provided with the extending end 21 extending out of the opening 31, when the elastic part 2 is switched to the second state, the extending end 21 is conveniently pulled from the opening 31, the elastic part 2 is pulled out, and the blood pressure measurement data are more accurate.

Furthermore, a protective layer is arranged in the bag body 3, and the protective layer is arranged between the elastic piece 2 and the air bag to protect the air bag.

Further, the protection body 1 comprises an inner surface and an outer surface, the inner surface faces the arm, and the opening 31 is arranged on the outer surface, so that the elastic member 2 can be conveniently drawn out from the outside, and the elastic member 2 is prevented from being arranged between the air bag and the arm to influence the measurement.

In addition, elastic component 2 sets up to the silica gel material, avoids sharp-pointed material to puncture the air pocket, makes the sphygmomanometer damaged.

Further, bedside sphygmomanometer includes treater and heart rate data receiving unit, heart rate data receiving unit is connected with heart rate check out test set, acquires heart rate data, blood pressure check out test set detects blood pressure data, the treater is handled blood pressure data with heart rate data.

By acquiring the heart rate data, when the physical signs of the patient are continuously unstable, the heart rate data and the blood pressure data are recorded together, and meanwhile, the conditions of the heart rate and the blood pressure can be compared to obtain a reference value.

Furthermore, the bedside sphygmomanometer comprises a data communication device and a reminding device, the data communication device and the reminding device are both connected with the processor, the reminding device sends out reminding according to the heart rate data, and the data communication device transmits the heart rate data and the blood pressure data to external equipment.

Uploading the measured blood pressure data, heart rate data and time data to external equipment through a data communication module; the reminding module sends out the warning according to heart rate data, reminds the patient that the data that record this moment is probably inaccurate, perhaps reminds doctor patient's condition critical, in addition, because the data of surveying at different time in the middle of every day are generally different, it has more reference value to preferably measure at the same time every day, can remind the user to measure the blood pressure regularly every day like this.

The utility model discloses an innovation part is:

1. when a patient lying in bed is inconvenient to wear the armband of the sphygmomanometer in a matched manner, the armband can penetrate through the bottom of the arm of the patient, and the armband is supported by the elastic piece 2, so that the armband cannot penetrate through the arm of the patient by the patient due to the fact that the armband is made of soft materials like the conventional armband, and the installation of the armband is facilitated;

2. after the armband penetrates through the bottom of the arm of the patient, the elastic piece 2 can be switched to a second state by elastic deformation of the elastic piece, namely the arm of the patient is automatically bound, the protection body 1 and the air bag also bind the arm of the patient under the support of the elastic piece 2, and the blood pressure measurement is facilitated;

3. the opening 31 is arranged on the arm belt, when the arm belt is bound, the elastic part 2 can be drawn out from the position of the opening 31, so that the blood pressure measurement is more accurate, and the elastic part 2 is returned after the blood pressure measurement;

4. the heart rate data is received in an auxiliary mode, the physical sign of the current patient is judged, and whether the detection of the blood pressure is accurate or not is judged according to the heart rate abnormity or not.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. The utility model provides a bedside sphygmomanometer based on thing networking which characterized in that includes:

blood pressure check device, blood pressure check device includes the armband that extends along first direction lengthwise, the armband including the protection body and set up in the internal air pocket that extends along first direction lengthwise of protection, this internal elastic component that sets up of protection, the elastic component includes first state and second state under the first state, the elastic component along with the direction lengthwise extension that the air pocket is parallel under the second state, the both ends orientation of elastic component with first direction vertically second direction is crooked.

2. The bedside sphygmomanometer based on the internet of things as claimed in claim 1, wherein: the protection body sets up the bag body, the bag body includes the opening, place in the opening the elastic component.

3. The bedside sphygmomanometer based on the internet of things as claimed in claim 2, wherein: when the length of the elastic piece is more than or equal to that of the bag body.

4. The bedside sphygmomanometer based on the internet of things as claimed in claim 2, wherein: the protective layer is arranged in the bag body and is arranged between the elastic piece and the air bag.

5. The bedside sphygmomanometer based on the internet of things as claimed in claim 2, wherein: the protection body includes internal surface and surface, the internal surface is towards the arm, the opening set up in the surface.

6. The bedside sphygmomanometer based on the internet of things as claimed in claim 1, wherein: the elastic piece is made of silica gel.

7. The bedside sphygmomanometer based on the internet of things as claimed in claim 1, wherein: bedside sphygmomanometer includes treater and heart rate data receiving unit, heart rate data receiving unit is connected with heart rate check out test set, acquires heart rate data, blood pressure check out test set detects blood pressure data, the treater is handled blood pressure data with heart rate data.

8. The bedside sphygmomanometer based on the internet of things as claimed in claim 7, wherein: the bedside sphygmomanometer comprises a data communication device and a reminding device, wherein the data communication device and the reminding device are both connected with the processor, the reminding device sends out reminding according to the heart rate data, and the data communication device transmits the heart rate data and the blood pressure data to external equipment.

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