Convenient blood sampling structure and blood glucose detector
By designing a convenient blood collection structure and integrating storage components for the blood collection needle and test strip, the problem of inconvenience in carrying portable blood glucose meters has been solved, achieving convenience and portability in blood collection operations.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YJYH MEDICAL TECH CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-19
Smart Images

Figure CN224369864U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of blood glucose meter technology, and more specifically, to a convenient blood collection structure and a blood glucose meter. Background Technology
[0002] Portable blood glucose meters are medical devices designed to allow users to monitor their blood glucose anytime, anywhere, and are especially suitable for diabetic patients to use at home, while traveling, or when out and about.
[0003] Currently available portable blood glucose meters require a separate box to carry matching lancets and test strips, which can easily lead to omissions and make storing and carrying the lancets, test strips, and blood glucose meter inconvenient. Utility Model Content
[0004] To overcome the above shortcomings, this application provides a convenient blood collection structure and blood glucose meter, which aims to improve the problems of needing to use a separate box to carry matching blood collection needles and test strips, which is prone to omissions and the inconvenience of storing and carrying blood collection needles, test strips and blood glucose meter.
[0005] This application provides a convenient blood collection structure, including a storage component.
[0006] The storage assembly includes a storage box, a front convex shell, a box cover, a connector, and an elastic connecting part. One end of the front convex shell is fixedly disposed to the side wall of the storage box, and the other end of the front convex shell is open. The box cover is detachably disposed on top of the storage box and the front convex shell. The connector is located inside the front convex shell. The elastic connecting part is disposed on the back of the connector to connect the front convex shell and the connector.
[0007] In one specific implementation, the connector includes a plug and a lever, the lever being fixedly disposed on the back of the plug and slidably disposed against the inner bottom wall of the front convex shell.
[0008] In one specific implementation, the upper surface of the lever is provided with anti-slip texture.
[0009] In one specific implementation, the elastic connection includes a guide rod, a spring, and a limiting block. The guide rod connects the limiting block and the toggle block, and the guide rod slides through the connecting wall between the front convex shell and the storage box. The spring is sleeved on the outside of the guide rod.
[0010] In one specific implementation, a through hole is provided at the connection wall between the storage box and the front convex shell, which is slidably through the guide rod.
[0011] In one specific implementation, the storage component further includes a protective shell located outside the limiting block and spring and connected to the inner wall of the storage box.
[0012] In one specific implementation, a magnet is provided at the connection wall between the storage box and the front convex shell, and a metal block is provided on the inner wall of the box cover to cooperate with the magnetic attraction of the magnet. Grooves that cooperate with the magnet and the metal block are respectively provided at the connection wall between the storage box and the front convex shell and on the inner wall of the box cover. The box cover and the storage box are rotatably connected on the side away from the front convex shell.
[0013] This application also provides a blood glucose meter, including the aforementioned convenient blood collection structure and the blood glucose meter body.
[0014] One end of the blood glucose meter body includes a test strip insertion port, and the bottom of the blood glucose meter body away from the test strip insertion port is provided with an installation slot for installing and storing components.
[0015] Beneficial Effects: This application provides a convenient blood collection structure and blood glucose meter. The lancet is installed in front of a connector inside the front convex housing. After cleaning the finger with a sterile wipe, the connector is pushed forward, causing the lancet inside the front convex housing to protrude and pierce the finger. The blood from the finger is then transferred to a test strip to complete the blood collection operation. This convenient blood collection structure is installed on the back of the blood glucose meter, making it particularly convenient to carry and use for blood collection. Attached Figure Description
[0016] To more clearly illustrate the technical solutions of the embodiments of this application, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this application and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained from these drawings without creative effort.
[0017] Figure 1 This is a schematic diagram of the convenient blood collection structure and blood glucose meter provided in the embodiments of this application;
[0018] Figure 2 A schematic diagram of the storage component opening structure provided in the embodiments of this application;
[0019] Figure 3 A schematic diagram of the connector and elastic connection provided for embodiments of this application;
[0020] Figure 4 This is a schematic diagram of the structure of the blood glucose meter body provided in the embodiments of this application.
[0021] In the diagram: 1. Blood glucose meter body; 11. Test strip socket; 2. Storage component; 21. Storage box; 22. Front protruding shell; 23. Box cover; 24. Connector component; 241. Plug; 242. Toggle block; 243. Anti-slip texture; 25. Elastic connection part; 251. Guide rod; 252. Spring; 253. Limiting block; 27. Protective shell; 28. Magnet block; 29. Metal block. Detailed Implementation
[0022] The technical solutions in the embodiments of this application will now be described with reference to the accompanying drawings.
[0023] Please see Figures 1-4 This application provides a convenient blood collection structure, including a storage component 2.
[0024] The storage component 2 can store the lancet and test strip. The storage component 2 is installed on the back of the blood glucose meter, so that the lancet and test strip can be carried and used together when carrying the blood glucose meter.
[0025] Storage component 2 includes a storage box 21, a front protruding shell 22, a box cover 23, a connector 24, and a resilient connecting part 25. One end of the front protruding shell 22 is fixedly disposed to the side wall of the storage box 21, and the other end of the front protruding shell 22 is open. The box cover 23 is detachably disposed on top of the storage box 21 and the front protruding shell 22. The connector 24 is located inside the front protruding shell 22. The resilient connecting part 25 is disposed on the back of the connector 24 to connect the front protruding shell 22 and the connector 24.
[0026] The lancet, test strip, and disinfectant wipe are pre-placed inside the storage box 21. When blood collection is required, the box lid 23 is opened to retrieve the lancet, test strip, and disinfectant wipe stored inside the storage box 21. The lancet is then inserted into the connector 24 inside the front convex shell 22. The finger is cleaned with the disinfectant wipe, and the connector 24 is pushed forward so that the needle protrudes from inside the front convex shell 22 to the outside of the shell, piercing the finger. The blood from the finger is then transferred to the test strip to complete the blood collection operation. This convenient blood collection structure is installed on the back of the blood glucose meter, making it particularly convenient to carry and use.
[0027] In the above specific embodiment, the connector 24 includes a plug 241 and a lever 242. The lever 242 is fixedly disposed on the back of the plug 241 and is slidably disposed against the inner bottom wall of the front convex shell 22. The plug 241 is inserted into the tail end of the blood collection needle, and pushing the lever 242 causes the end of the blood collection needle to move out of the front convex shell 22. The upper surface of the lever 242 is provided with anti-slip texture 243, which provides greater friction when the finger pushes the lever 242, thus playing a good anti-slip role.
[0028] In a specific configuration, the elastic connecting part 25 includes a guide rod 251, a spring 252, and a limiting block 253. The guide rod 251 connects the limiting block 253 and the toggle block 242, and slides through the connecting wall between the front convex shell 22 and the storage box 21. The spring 252 is sleeved on the outside of the guide rod 251. After the blood collection needle moves forward and punctures the finger, the spring force of the spring 252 drives the plug 241 and the toggle block 242 to reset via the guide rod 251, after which the used blood collection needle can be removed.
[0029] Furthermore, a through hole is provided at the connection wall between the storage box 21 and the front protruding shell 22, which slides through and engages with the guide rod 251. The storage assembly 2 also includes a protective shell 27, which is located outside the limiting block 253 and the spring 252 and connected to the inner wall of the storage box 21. The protective shell 27 is used to protect the limiting block 253, the guide rod 251 and the spring 252, and can separate the objects placed inside the storage box 21 from other components.
[0030] Furthermore, a magnet 28 is provided at the connection wall between the storage box 21 and the front convex shell 22, and a metal block 29 is provided on the inner wall of the lid 23 to magnetically engage with the magnet 28. Grooves are provided at the connection wall between the storage box 21 and the front convex shell 22, and on the inner wall of the lid 23, respectively, to engage with the magnet 28 and the metal block 29. The lid 23 is rotatably connected to the side of the storage box 21 away from the front convex shell 22. The magnet 28 and the metal block 29 make opening and closing the lid 23 more convenient.
[0031] This application also provides a blood glucose meter, including the aforementioned convenient blood collection structure and the blood glucose meter body 1.
[0032] One end of the blood glucose meter body 1 includes a test strip insertion port 11, and the bottom of the blood glucose meter body 1, away from the test strip insertion port 11, has a mounting slot for installing and storing the component 2. That is, the storage component 2 is pre-installed as a whole with the blood glucose meter body 1, and the component's orientation occupies more space more rationally.
[0033] The working principle of this convenient blood collection structure and blood glucose meter is as follows: When in use, the lancet, test strip, and disinfectant wipe are pre-placed inside the storage box 21. When blood collection is required, the box lid 23 is opened to remove the lancet, test strip, and disinfectant wipe stored inside the storage box 21. The lancet is then installed in front of the connector 24 inside the front convex shell 22. The finger is cleaned with the disinfectant wipe, and the connector 24 is pushed forward so that the needle protrudes from inside the front convex shell 22 to the outside, piercing the finger. The blood from the finger is then transferred to the test strip to complete the blood collection operation. This convenient blood collection structure is installed on the back of the blood glucose meter, making it particularly convenient to carry and use for blood collection.
[0034] The above description is merely an embodiment of this application and is not intended to limit the scope of protection of this application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the scope of protection of this application. It should be noted that similar reference numerals and letters in the following figures indicate similar items; therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.
Claims
1. A convenient blood sampling structure, characterized by, include Storage component (2), the storage component (2) includes storage box (21), front convex shell (22), box cover (23), plug-in component (24) and elastic connecting part (25). One end of the front convex shell (22) is fixedly disposed with the side wall of the storage box (21), and the other end of the front convex shell (22) is open. The box cover (23) is detachably closed on the storage box (21) and the front convex shell (22). The plug-in component (24) is located inside the front convex shell (22). The elastic connecting part (25) is disposed on the back of the plug-in component (24) to connect the front convex shell (22) and the plug-in component (24).
2. The convenient blood collection structure according to claim 1, characterized in that, The connector (24) includes a plug (241) and a lever (242). The lever (242) is fixedly disposed on the back of the plug (241) and is slidably disposed with the bottom wall inside the front convex shell (22).
3. The convenient blood sampling structure according to claim 2, wherein, The upper surface of the lever (242) is provided with anti-slip texture (243).
4. The convenient blood sampling structure according to claim 2, wherein, The elastic connecting part (25) includes a guide rod (251), a spring (252) and a limiting block (253). The guide rod (251) connects the limiting block (253) and the lever (242), and the guide rod (251) slides through the connecting wall between the front convex shell (22) and the storage box (21). The spring (252) is sleeved on the outside of the guide rod (251).
5. The convenient blood sampling structure according to claim 4, wherein, The storage box (21) and the front convex shell (22) are connected by a through hole that slides through the guide rod (251).
6. The convenient blood sampling structure according to claim 2, wherein, The storage component (2) also includes a protective shell (27), which is located outside the limiting block (253) and the spring (252) and connected to the inner wall of the storage box (21).
7. The convenient blood sampling structure according to claim 1, wherein, A magnet (28) is provided at the connection wall between the storage box (21) and the front convex shell (22). A metal block (29) is provided on the inner wall of the box cover (23) to cooperate with the magnetic adsorption of the magnet (28). The connection wall between the storage box (21) and the front convex shell (22) and the inner wall of the box cover (23) are respectively provided with grooves that cooperate with the magnet (28) and the metal block (29). The box cover (23) and the storage box (21) are rotatably connected on the side away from the front convex shell (22).
8. A blood glucose meter, characterized by, Including a convenient blood collection structure as described in any one of claims 1-7 above, and The blood glucose meter body (1) has a test strip socket (11) at one end and an installation slot for installing and storing components (2) is provided on the bottom side of the blood glucose meter body (1) away from the test strip socket (11).