A flexible wearable monitoring device

By incorporating a through-hole and Velcro structure into the cuff, the problem of difficulty in securing the cuff is solved, achieving a stable and tight fit on the arm and improving the accuracy of blood pressure monitoring.

CN224403632UActive Publication Date: 2026-06-26YONGZHOU VOCATIONAL & TECH COLLEGE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YONGZHOU VOCATIONAL & TECH COLLEGE
Filing Date
2025-04-17
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

When the cuff of an existing flexible wearable blood pressure monitor is fitted onto the brachial artery in the upper arm, the tightening part covers the first end, making it difficult for the other hand to press the first end firmly. This results in the cuff not being able to be tightened effectively, affecting the detection results.

Method used

A through-hole is provided at one end of the cuff, and a male Velcro fastener is provided at this part and the other end. With the female Velcro fastener, the cuff is secured by pulling the end of the cuff and the through-hole with both hands respectively, using the Velcro fastener to stick together.

Benefits of technology

Ensure the cuff fits snugly around the arm to prevent it from loosening and improve detection results.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a flexible wearable monitoring equipment, including sphygmomanometer, sphygmomanometer is connected through the catheter inner air bag of cuff, the left end of cuff has the department of passing through, the right end of cuff has the through -hole for the department of passing through to pass through, be provided with first sub magic paste on the department of passing through, the right end of cuff is provided with second sub magic paste, relate to blood pressure monitoring technical field, through setting the department of passing through in the cuff one end, set the through -hole in the other end of cuff, set first sub magic paste on the department of passing through, set second sub magic paste in the cuff one end, set up first mother magic paste and second mother magic paste with first sub magic paste, second sub magic paste cooperation on the back of cuff, when cuff is worn on the arm, pass through the department of passing through through -hole, two hands are tight respectively department of passing through and cuff end, thereby can be convenient and guarantee that cuff is tightly worn on the arm, avoid the cuff and influence detection result not to be tightly worn.
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Description

Technical Field

[0001] This utility model relates to the field of blood pressure monitoring technology, specifically a flexible wearable monitoring device. Background Technology

[0002] Currently, blood pressure is typically measured using flexible wearable monitoring methods, such as the flexible cuff of a blood pressure monitor, which is placed over the brachial artery in the upper arm. However, current blood pressure monitor cuffs have the following shortcomings: (as shown in the instruction manual). Figure 5 As shown, when the cuff is placed over the brachial artery in the upper arm, the tightening part covers the first end of the cuff. When one hand applies tension to the tightening part, the other hand cannot easily press the first end firmly due to the obstruction of the tightening part. As a result, when tension is applied to the tightening part, the first end cannot adhere to the skin and moves, causing the cuff to not be effectively tightened, thus affecting the detection effect. Utility Model Content

[0003] In view of the problems existing in a flexible wearable monitoring device, this utility model is proposed.

[0004] Therefore, the purpose of this utility model is to provide a flexible wearable monitoring device that solves the problem that when the cuff is placed on the brachial artery of the upper arm, the tightening part covers the top of the cuff's first contact end. When one hand applies tension to the tightening part, the other hand cannot easily press the first contact end firmly due to the obstruction of the tightening part. As a result, when tension is applied to the tightening part, the first contact end cannot adhere to the skin and moves, causing the cuff to not be effectively tightened, thus affecting the detection effect.

[0005] To solve the above-mentioned technical problems, according to one aspect of the present invention, the present invention provides the following technical solution:

[0006] A flexible wearable monitoring device includes a blood pressure monitor, which is connected to an air bladder inside a cuff via a conduit. The left end of the cuff has a through portion, and the right end of the cuff has a through hole for the through portion to pass through. A first sub-Hook and loop fastener is provided on the through portion, and a second sub-Hook and loop fastener is provided on the right end of the cuff.

[0007] The cuff has a first female hook and loop fastener that mates with the first male hook and loop fastener and a second female hook and loop fastener that mates with the second male hook and loop fastener at the back.

[0008] In a preferred embodiment of the flexible wearable monitoring device described in this utility model, one end of the catheter is provided with a first connector for docking with the airbag interface inside the cuff, and the other end of the catheter is provided with a second connector for docking with the interface of the blood pressure monitor.

[0009] In a preferred embodiment of the flexible wearable monitoring device described in this utility model, the through portion is sewn onto the cuff, and the first sub-Hook and Velcro is sewn onto the through portion.

[0010] In a preferred embodiment of the flexible wearable monitoring device described in this utility model, the second sub-hook and the first female hook and loop fastener are both sewn onto the cuff, and the second female hook and loop fastener is sewn together onto the cuff and the through part.

[0011] In a preferred embodiment of the flexible wearable monitoring device described in this utility model, the blood pressure monitor control unit inside the blood pressure monitor is connected to the smart medicine box control unit of the smart medicine box via Bluetooth technology; the smart medicine box control unit is electrically connected to a display screen.

[0012] In a preferred embodiment of the flexible wearable monitoring device described in this utility model, the blood pressure monitor control unit integrates a first Bluetooth module, the smart medicine box control unit integrates a second Bluetooth module, and the blood pressure monitor control unit and the smart medicine box control unit establish communication through the first Bluetooth module and the second Bluetooth module.

[0013] Compared with existing technologies:

[0014] By setting a through part at one end of the cuff and a through hole at the other end of the cuff, a first sub-Hook and loop fastener is set on the through part, a second sub-Hook and loop fastener is set on one end of the cuff, and a first female hook and loop fastener and a second female hook and loop fastener that cooperate with the first and second sub-Hook and loop fasteners are set on the back of the cuff; when the cuff is put on the arm, the through part is passed through the through hole, and the through part and the end of the cuff are tightened by both hands respectively, so as to facilitate and ensure that the cuff is tightened on the arm and avoid the cuff not being tightened and affecting the test results. Attached Figure Description

[0015] Figure 1 This is a structural schematic diagram of Embodiment 1 of the present utility model;

[0016] Figure 2 Provided for Embodiment 1 of this utility model Figure 1 Top view of the mid-length sleeve;

[0017] Figure 3 This is a structural schematic diagram of Embodiment 2 of the present invention;

[0018] Figure 4 A schematic diagram illustrating the communication established between the blood pressure monitor and the smart medicine box according to Embodiment 2 of this utility model;

[0019] Figure 5 A schematic diagram of the cuff of a conventional blood pressure monitor provided by this utility model when it is fitted onto the brachial artery of the upper arm.

[0020] In the diagram: 1. Cuff; 2. Through-hole; 3. First sub-hook and loop; 4. Through hole; 5. Second sub-hook and loop; 6. Airbag interface; 7. Tube; 7. First connector; 71. Second connector; 72. Blood pressure monitor; 8. Blood pressure monitor control unit; 81. First Bluetooth module; 82. Second female hook and loop; 9. First female hook and loop; 10. Smart medicine box; 11. Smart medicine box control unit; 111. Second Bluetooth module; 112. Display screen; 113. Detailed Implementation

[0021] To make the objectives, technical solutions, and advantages of this utility model clearer, the embodiments of this utility model will be described in further detail below with reference to the accompanying drawings. Example

[0022] This utility model provides a flexible wearable monitoring device. Please refer to [link / reference]. Figure 1-2 The device includes a blood pressure monitor 8, which is connected to the inner air bladder of a cuff 1 via a conduit 7. The left end of the cuff 1 has a through-hole 2, and the right end of the cuff 1 has a through hole 4 for the through-hole 2 to pass through. A first sub-hook and loop fastener 3 is provided on the through-hole 2, and a second sub-hook and loop fastener 5 is provided on the right end of the cuff 1. A first female hook and loop fastener 10 that mates with the first sub-hook and loop fastener 3 and a second female hook and loop fastener 9 that mates with the second sub-hook and loop fastener 5 are provided at the back of the cuff 1. The cuff 1 is placed below the brachial artery in the upper arm, and the through-hole 4 is passed through the through-hole 2. At this time, the cuff 1 is put on the arm. At this time, both hands pull the end of the cuff 1 and the through-hole 2 respectively. Both hands exert force together to tighten the cuff 1, and the first sub-hook and loop fastener 3 and the first female hook and loop fastener 10 are glued together. Then the second sub-hook and loop fastener 5 and the second female hook and loop fastener 9 are glued together.

[0023] One end of the catheter 7 is provided with a first connector 71 that connects to the airbag interface 6 inside the cuff 1, and the other end of the catheter 7 is provided with a second connector 72 that connects to the interface of the blood pressure monitor 8. The cuff 1 can be worn on the monitor's arm for a long time. When blood pressure needs to be measured, the catheter 7 is used to connect the cuff 1 and the blood pressure monitor 8. Of course, in cold winter weather, after putting the cuff 1 on the arm, the catheter 7 is connected to the cuff 1, and then the catheter 7 is placed inside the sleeve of the clothing. By setting the length of the catheter 7 so that the second connector 72 of the catheter 7 is close to the wrist but does not go beyond the wrist, when measuring blood pressure, the sleeve of the clothing is rolled up slightly to connect the second connector 72 of the catheter 7 to the blood pressure monitor 8. Thus, the cuff 1 and the catheter 7 are in a constant wearing state, avoiding the need to frequently take off the clothing when putting on the cuff 1.

[0024] The through part 2 is sewn onto the sleeve 1, and the first sub-hook and loop fastener 3 is sewn onto the through part 2.

[0025] The second female hook and loop fastener 5 and the first female hook and loop fastener 10 are both sewn onto the sleeve 1, and the second female hook and loop fastener 9 is sewn together onto the sleeve 1 and the through part 2.

[0026] In practical use, place the cuff 1 below the brachial artery in the upper arm, and pass the through part 2 through the through hole 4. At this time, the cuff 1 is on the arm. Then, pull the end of the cuff 1 and the through part 2 with both hands respectively, and tighten the cuff 1 with both hands together. Attach the first sub-hook and loop fastener 3 to the first female hook and loop fastener 10, and then attach the second sub-hook and loop fastener 5 to the second female hook and loop fastener 9 to ensure that the cuff 1 is tightly wrapped around the arm. Blood pressure is then measured through the blood pressure monitor 8. Example

[0027] See attached document Figure 3-4 Unlike Embodiment 1, the blood pressure monitor control unit 81 inside the blood pressure monitor 8 is connected to the smart medicine box control unit 111 of the smart medicine box 11 via Bluetooth technology; the smart medicine box control unit 111 is electrically connected to the display screen 113.

[0028] The blood pressure monitor control unit 81 integrates a first Bluetooth module 82, and the smart medicine box control unit 111 integrates a second Bluetooth module 112. The blood pressure monitor control unit 81 and the smart medicine box control unit 111 establish communication through the first Bluetooth module 82 and the second Bluetooth module 112.

[0029] In practical use:

[0030] Place the cuff 1 below the brachial artery in the upper arm, and pass the through part 2 through the through hole 4. At this time, the cuff 1 is on the arm. Pull the end of the cuff 1 and the through part 2 with both hands respectively, and tighten the cuff 1 by pulling with both hands together. Attach the first sub-hook and loop fastener 3 to the first female hook and loop fastener 10, and then attach the second sub-hook and loop fastener 5 to the second female hook and loop fastener 9 to ensure that the cuff 1 is tightly wrapped around the arm. Measure the blood pressure through the blood pressure monitor 8.

[0031] Through the first Bluetooth module 82 and the second Bluetooth module 112, the blood pressure control unit 81 of the blood pressure monitor 8 transmits the detected blood pressure data to the smart medicine box control unit 111 of the smart medicine box 11, and displays the data on the display screen 113.

[0032] Although the present invention has been described above with reference to embodiments, various modifications can be made and components can be replaced with equivalents without departing from the scope of the present invention. In particular, as long as there is no structural conflict, the features in the embodiments disclosed in this invention can be combined with each other in any way. The lack of an exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, the present invention is not limited to the specific embodiments disclosed herein, but includes all technical solutions falling within the scope of the claims.

Claims

1. A flexible wearable monitoring device, comprising a blood pressure monitor (8), wherein the blood pressure monitor (8) is connected to an air bladder inside a cuff (1) via a conduit (7), characterized in that: The left end of the cuff (1) has a through part (2), the right end of the cuff (1) has a through hole (4) for the through part (2) to pass through, the through part (2) is provided with a first sub-hook and loop fastener (3), and the right end of the cuff (1) is provided with a second sub-hook and loop fastener (5). The sleeve (1) is provided with a first female hook and loop fastener (10) that mates with the first female hook and loop fastener (3) and a second female hook and loop fastener (9) that mates with the second female hook and loop fastener (5).

2. The flexible wearable monitoring device according to claim 1, characterized in that, One end of the catheter (7) is provided with an interface (6) for connecting to the air bladder inside the cuff (1), and the other end of the catheter (7) is provided with a second connector (72) for connecting to the interface of the blood pressure monitor (8).

3. The flexible wearable monitoring device according to claim 2, characterized in that, The through part (2) is sewn onto the sleeve (1), and the first sub-hook and loop fastener (3) is sewn onto the through part (2).

4. The flexible wearable monitoring device according to claim 2, characterized in that, The second sub-hook and hook and loop fastener (5) and the first female hook and loop fastener (10) are both sewn onto the sleeve (1), and the second female hook and loop fastener (9) is sewn together onto the sleeve (1) and the through part (2).

5. The flexible wearable monitoring device according to claim 3, characterized in that, The blood pressure monitor (8) contains a blood pressure monitor control unit (81) which is connected to the smart medicine box control unit (111) of the smart medicine box (11) via Bluetooth technology; the smart medicine box control unit (111) is electrically connected to a display screen (113).

6. The flexible wearable monitoring device according to claim 5, characterized in that, The blood pressure monitor control unit (81) integrates a first Bluetooth module (82), and the smart medicine box control unit (111) integrates a second Bluetooth module (112). The blood pressure monitor control unit (81) and the smart medicine box control unit (111) establish communication through the first Bluetooth module (82) and the second Bluetooth module (112).