CN218247218U - Analyte detection device installation unit - Google Patents

Abstract

The utility model discloses an analyte detection device installation element is provided with the spacing groove on the casing, and is corresponding, be provided with T type structure slider in the parallel slider module, T type structure slider is located the spacing inslot, and when implementing the installation action, T type structure slider slides in the spacing inslot. The cooperation of T type structure slider and spacing groove can play limiting displacement to parallel slider module, avoids parallel slider module to take place to deflect in the casing, and the guide parallel slider module slides in the casing to make the sensor pierce subcutaneously with the vertically direction, installation element simple structure, convenient to use.

Description

Translated fromChinese

分析物检测装置安装单元Analyte detection device installation unit

技术领域technical field

本实用新型主要涉及医疗器械领域，特别涉及一种分析物检测装置安装单元。The utility model mainly relates to the field of medical equipment, in particular to an installation unit of an analyte detection device.

背景技术Background technique

正常人身体中的胰腺可自动检测人体血液中的葡萄糖含量，并自动分泌所需的胰岛素/胰高血糖素。而糖尿病患者胰腺的功能出现异常状况，无法正常分泌人体所需胰岛素。因此糖尿病是人体胰腺功能出现异常而导致的代谢类疾病，糖尿病为终身疾病。目前医疗技术尚无法根治糖尿病，只能通过稳定血糖来控制糖尿病及其并发症的发生和发展。The pancreas in a normal human body can automatically detect the glucose content in the human blood and automatically secrete the required insulin/glucagon. The function of the pancreas in diabetic patients is abnormal and cannot normally secrete the insulin needed by the human body. Therefore, diabetes is a metabolic disease caused by abnormal pancreatic function, and diabetes is a lifelong disease. At present, medical technology is still unable to cure diabetes, and the occurrence and development of diabetes and its complications can only be controlled by stabilizing blood sugar.

糖尿病患者在向体内注射胰岛素之前需要检测血糖。目前多数的检测手段可以对血糖连续检测，并将血糖数据实时发送至外界设备，便于用户查看，这种检测方法称为连续葡萄糖检测(Continuous Glucose Monitoring，CGM)。该方法需要检测装置贴在皮肤表面，将其携带的传感器刺入皮下的组织液完成检测。但是，目前的分析物检测装置安装单元结构复杂，安装过程繁琐，生产成本较高的同时，也造成用户使用不便。Diabetics need to check their blood sugar before injecting insulin into their body. At present, most detection methods can continuously detect blood glucose, and send blood glucose data to external devices in real time, which is convenient for users to view. This detection method is called Continuous Glucose Monitoring (CGM). This method requires the detection device to be attached to the skin surface, and the sensor it carries is inserted into the subcutaneous interstitial fluid to complete the detection. However, the installation unit of the current analyte detection device has a complex structure, a cumbersome installation process, high production costs, and inconvenient use for users.

因此，现有技术亟需一种结构简单、使用方便的分析物检测装置安装单元。Therefore, there is an urgent need in the prior art for an installation unit for an analyte detection device with a simple structure and easy use.

实用新型内容Utility model content

本实用新型公开了一种分析物检测装置安装单元，壳体上设置有限位槽，对应的，平行滑块模块上设置有T型结构滑块，T型结构滑块位于限位槽内，实施安装动作时，T型结构滑块在限位槽内滑动。T型结构滑块与限位槽的配合，可以对平行滑块模块起到限位作用，避免平行滑块模块在壳体内发生偏转，引导平行滑块模块在壳体内滑动，从而使传感器以垂直的方向刺入皮下。The utility model discloses an installation unit of an analyte detection device. A limiting groove is arranged on the housing. Correspondingly, a T-shaped structure slider is arranged on the parallel slider module, and the T-shaped structure slider is located in the limiting groove. During the installation action, the T-shaped structure slider slides in the limit slot. The cooperation between the T-shaped structure slider and the limit groove can limit the position of the parallel slider module, avoid the deflection of the parallel slider module in the housing, and guide the parallel slider module to slide in the housing, so that the sensor can be vertical Pierce under the skin in the direction.

本实用新型提供了一种分析物检测装置安装单元，包括：壳体，设置有限位槽；平行滑块模块，设置有T型结构，T型结构包括水平部和竖直部，水平部包括与限位槽对应的T型结构滑块，T型结构滑块位于限位槽内；设置于平行滑块模块前端的分析物检测装置，包括外壳、发射器、传感器和设置在外壳内并与传感器电耦合的内部电路；辅助针模块，用于将传感器刺入用户皮下；触发模块，相对于壳体向远端运动时，实施安装动作；和弹性模块，用于提供实施安装动作所需的弹力；实施安装动作时，T型结构滑块在限位槽内向近端滑动。The utility model provides an installation unit for an analyte detection device, which comprises: a housing with a limit slot; a parallel slider module with a T-shaped structure, the T-shaped structure includes a horizontal part and a vertical part, and the horizontal part includes a The T-shaped structure slider corresponding to the limit groove, and the T-shaped structure slider is located in the limit groove; the analyte detection device arranged at the front end of the parallel slider module includes a casing, a transmitter, a sensor, and a casing arranged in the casing and connected to the sensor. An electrically coupled internal circuit; an auxiliary needle module for piercing the sensor subcutaneously into the user's skin; a trigger module for implementing the installation action when moving distally relative to the housing; and an elastic module for providing the elastic force required to implement the installation action ; When the installation action is implemented, the T-shaped structure slider slides to the proximal end in the limit groove.

根据本实用新型的一个方面，T型结构滑块滑动到预定位置时，水平部绕竖直部弯折或者弯曲，分析物检测装置与平行滑块模块分离。According to one aspect of the present invention, when the T-shaped structure slider slides to a predetermined position, the horizontal part is bent or bent around the vertical part, and the analyte detection device is separated from the parallel slider module.

根据本实用新型的一个方面，在预定位置时，分析物检测装置与用户皮肤表面接触。According to one aspect of the present invention, the analyte detection device is in contact with the user's skin surface when in the predetermined position.

根据本实用新型的一个方面，限位槽包括至少两条相邻的肋板。According to one aspect of the present invention, the limiting slot includes at least two adjacent ribs.

根据本实用新型的一个方面，肋板凸出于壳体内壁。According to an aspect of the utility model, the rib protrudes from the inner wall of the casing.

根据本实用新型的一个方面，肋板彼此平行。According to an aspect of the present invention, the ribs are parallel to each other.

根据本实用新型的一个方面，限位槽为凹陷于壳体内壁的槽。According to one aspect of the present invention, the limiting groove is a groove recessed in the inner wall of the casing.

根据本实用新型的一个方面，限位槽在壳体上对称分布。According to one aspect of the present invention, the limiting slots are distributed symmetrically on the housing.

根据本实用新型的一个方面，限位槽的数量为三个。According to an aspect of the present utility model, the number of limiting slots is three.

根据本实用新型的一个方面，竖直部与水平部一体成型。According to one aspect of the present utility model, the vertical part and the horizontal part are integrally formed.

根据本实用新型的一个方面，竖直部与水平部通过焊接或者热熔固定连接。According to one aspect of the present invention, the vertical part and the horizontal part are fixedly connected by welding or heat fusion.

根据本实用新型的一个方面，T型结构滑块凸出于平行滑块模块外侧。According to one aspect of the present invention, the T-shaped structure slider protrudes from the outside of the parallel slider module.

根据本实用新型的一个方面，分析物检测装置还包括胶布，胶布用于将分析物检测装置固定在用户皮肤表面。According to an aspect of the present invention, the analyte detection device further includes an adhesive plaster for fixing the analyte detection device on the skin surface of the user.

与现有技术相比，本实用新型的技术方案具备以下优点：Compared with the prior art, the technical solution of the utility model has the following advantages:

本实用新型公开的分析物检测装置安装单元中，壳体上设置有限位槽，平行滑块模块上设置有T型结构，T型结构包括水平部和竖直部，水平部包括T型结构滑块，T型结构滑块位于限位槽内，实施安装动作时，T型结构滑块在限位槽内向近端滑动。限位槽通过T型结构滑块对平行滑块模块的位置和方向进行限制，避免平行滑块模块在壳体内发生偏转，引导平行滑块模块在壳体内滑动，从而使传感器以垂直的方向刺入皮下，结构简单，使用方便。In the installation unit of the analyte detection device disclosed in the utility model, a limiting groove is arranged on the housing, and a T-shaped structure is arranged on the parallel slider module. The T-shaped structure includes a horizontal part and a vertical part, and the horizontal part includes a T-shaped structure slide The block, the T-shaped structure slider is located in the limiting groove, and when the installation action is implemented, the T-shaped structure slider slides proximally in the limiting groove. The limit groove restricts the position and direction of the parallel slider module through the T-shaped structure slider, avoids the deflection of the parallel slider module in the housing, and guides the parallel slider module to slide in the housing, so that the sensor stabs in the vertical direction. Subcutaneous, simple structure, easy to use.

进一步的，限位槽由凸出于壳体内壁的肋板构成，充分利用壳体内部空间，结构简单。Further, the limiting groove is formed by ribs protruding from the inner wall of the housing, which makes full use of the inner space of the housing and has a simple structure.

进一步的，限位槽在壳体内壁上对称设置，使平行滑块模块受力均匀，能更好地对平行滑块模块的位置和方向进行限制。Furthermore, the limiting grooves are arranged symmetrically on the inner wall of the casing, so that the force on the parallel slider module is uniform, and the position and direction of the parallel slider module can be better restricted.

进一步的，T型结构竖直部为柔性或者弹性材料，水平部绕竖直部弯折或者弯曲时，分析物检测装置与平行滑块模块分离。通过T型结构实现分析物检测装置与平行滑块模块固定和分离，结构简单，使用方便。Further, the vertical part of the T-shaped structure is made of flexible or elastic material, and when the horizontal part is bent or bent around the vertical part, the analyte detection device is separated from the parallel slider module. The analyte detection device is fixed and separated from the parallel slider module through the T-shaped structure, and the structure is simple and easy to use.

附图说明Description of drawings

图1为根据本实用新型实施例分析物检测装置安装单元的外部结构示意图；Fig. 1 is a schematic diagram of the external structure of the installation unit of the analyte detection device according to the embodiment of the present invention;

图2a为根据本实用新型实施例壳体的外部结构示意图；Fig. 2a is a schematic diagram of the external structure of the housing according to the embodiment of the present invention;

图2b为根据本实用新型实施例保护盖的结构示意图；Fig. 2b is a schematic structural diagram of a protective cover according to an embodiment of the present invention;

图3为根据本实用新型实施例分析物检测装置安装单元的爆炸结构示意图；3 is a schematic diagram of the exploded structure of the installation unit of the analyte detection device according to the embodiment of the present invention;

图4为根据本实用新型实施例壳体的内部结构示意图；Fig. 4 is a schematic diagram of the internal structure of the housing according to the embodiment of the present invention;

图5a为根据本实用新型实施例平行滑块模块远端面的结构示意图；Fig. 5a is a schematic structural view of the distal surface of the parallel slider module according to an embodiment of the present invention;

图5b为根据本实用新型实施例平行滑块模块近端面的结构示意图；Fig. 5b is a schematic structural view of the proximal surface of the parallel slider module according to an embodiment of the present invention;

图6为根据本实用新型实施例分析物检测装置的结构示意图；6 is a schematic structural diagram of an analyte detection device according to an embodiment of the present invention;

图7为根据本实用新型实施例辅助针模块的结构示意图；Fig. 7 is a schematic structural diagram of an auxiliary needle module according to an embodiment of the present invention;

图8为根据本实用新型实施例触发模块的结构示意图；Fig. 8 is a schematic structural diagram of a trigger module according to an embodiment of the present invention;

图9为根据本实用新型实施例安装单元的俯视图；Fig. 9 is a top view of the installation unit according to the embodiment of the present utility model;

图10a为图9的A剖面结构示意图；Fig. 10a is a schematic diagram of the cross-sectional structure of A in Fig. 9;

图10b为图9的B剖面结构示意图；Fig. 10b is a schematic diagram of the cross-sectional structure of B in Fig. 9;

图10c为图9的C剖面结构示意图；Fig. 10c is a schematic diagram of the cross-sectional structure of C in Fig. 9;

图11为根据本实用新型实施例第一卡扣受力弯折示意图。Fig. 11 is a schematic diagram of bending of the first buckle under force according to an embodiment of the present utility model.

具体实施方式detailed description

如前所述，现有技术的分析物检测装置安装单元结构复杂，生产成本较高，且使用不便，用户体验较差。As mentioned above, the installation unit of the analyte detection device in the prior art has a complex structure, high production cost, inconvenient use, and poor user experience.

为了解决该问题，本实用新型提供了一种分析物检测装置安装单元，在使用时，将安装单元贴合在用户皮肤表面，在远端按压壳体，解除卡扣的耦合状态，即可将分析物检测装置安装到用户皮肤表面，同时将传感器刺入皮下。In order to solve this problem, the utility model provides an installation unit of an analyte detection device. When in use, the installation unit is attached to the skin surface of the user, and the housing is pressed at the far end to release the coupling state of the buckle, and the The analyte detection device is attached to the surface of the user's skin while the sensor is inserted subcutaneously.

现在将参照附图来详细描述本实用新型的各种示例性实施例。应理解，除非另外具体说明，否则在这些实施例中阐述的部件和步骤的相对布置、数字表达式和数值不应被理解为对本实用新型范围的限制。Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be understood that the relative arrangements of components and steps, numerical expressions and values set forth in these embodiments should not be construed as limiting the scope of the present invention unless specifically stated otherwise.

此外，应当理解，为了便于描述，附图中所示出的各个部件的尺寸并不必然按照实际的比例关系绘制，例如某些单元的厚度、宽度、长度或距离可以相对于其他结构有所放大。In addition, it should be understood that for the convenience of description, the dimensions of the various components shown in the drawings are not necessarily drawn according to the actual scale relationship, for example, the thickness, width, length or distance of some units may be enlarged relative to other structures .

以下对示例性实施例的描述仅仅是说明性的，在任何意义上都不作为对本实用新型及其应用或使用的任何限制。这里对于相关领域普通技术人员已知的技术、方法和装置可能不作详细讨论，但在适用这些技术、方法和装置情况下，这些技术、方法和装置应当被视为本说明书的一部分。The following descriptions of the exemplary embodiments are illustrative only, and are not intended to limit the utility model and its application or use in any sense. Techniques, methods and devices known to persons of ordinary skill in the related art may not be discussed in detail here, but when applicable, these techniques, methods and devices should be regarded as a part of this specification.

应注意，相似的标号和字母在下面的附图中表示类似项，因此，一旦某一项在一个附图中被定义或说明，则在随后的附图说明中将不需要对其进行进一步讨论。It should be noted that like numerals and letters denote like items in the following figures, therefore, once an item is defined or illustrated in one figure, it will not require further discussion in subsequent figure descriptions .

图1为本实用新型实施例分析物检测装置安装单元的外部结构示意图。安装单元100的外部结构包括壳体101和保护盖102，壳体101用于承载内部结构件。安装单元100在使用时，靠近用户皮肤的一端为近端，远离皮肤的一端为远端。在壳体101的近端方向设置有第一开口。保护盖102用于对壳体101的内部结构和内部结构件进行保护、密封以及防触发。Fig. 1 is a schematic diagram of the external structure of the installation unit of the analyte detection device according to the embodiment of the present invention. The external structure of theinstallation unit 100 includes acasing 101 and aprotective cover 102 , and thecasing 101 is used to carry internal structural components. When theinstallation unit 100 is in use, the end close to the user's skin is the proximal end, and the end away from the skin is the distal end. A first opening is provided in the proximal direction of thehousing 101 . Theprotective cover 102 is used to protect, seal and prevent triggering of the internal structure and internal structural components of thehousing 101 .

壳体外部Shell exterior

图2a为本实用新型实施例壳体的外部结构示意图，图2b为保护盖的结构示意图。保护盖102包括外盖体1021、卡箍1022和内盖体1023。外盖体1021远端方向设置有第二开口，第二开口面向第一开口。在第二开口，外盖体1021与卡箍1022通过可折断的立柱10211连接，立柱10211按一定的间距分布在外盖体1021和卡箍1022之间。外盖体1021相对于卡箍1022旋转时，立柱10211可被折断，外盖体1021与卡箍1022分离。Fig. 2a is a schematic diagram of the external structure of the housing of the embodiment of the present invention, and Fig. 2b is a schematic diagram of the structure of the protective cover. Theprotective cover 102 includes anouter cover 1021 , aclip 1022 and aninner cover 1023 . Theouter cover 1021 is provided with a second opening in the distal direction, and the second opening faces the first opening. At the second opening, theouter cover 1021 is connected to theclamp 1022 throughbreakable columns 10211 , and thecolumns 10211 are distributed between theouter cover 1021 and theclamp 1022 at a certain interval. When theouter cover 1021 is rotated relative to theclip 1022 , thecolumn 10211 can be broken, and theouter cover 1021 is separated from theclip 1022 .

外盖体1021内侧设置有内螺纹10212，对应的，内盖体1023外侧设置有外螺纹10231，内螺纹10212与外螺纹10231可配合连接，以将外盖体1021与内盖体1023连接在一起并保持固定。The inner side of theouter cover 1021 is provided with aninternal thread 10212, and correspondingly, the outer side of theinner cover 1023 is provided with anexternal thread 10231, and theinternal thread 10212 and theexternal thread 10231 can be connected together to connect theouter cover 1021 and theinner cover 1023 together and keep it fixed.

卡箍1022内侧设置有凸起10221，对应的，壳体101的外侧设置有凹槽1011，凹槽1011环绕于壳体外侧形成圆周，凸起10221可嵌入凹槽1011内。外盖体1021先与内盖体1023通过螺纹配合固定后，再通过卡箍1022与壳体101连接，外盖体1021和内盖体1023可对壳体101的内部结构进行保护、密封以及防触发，这里防触发功能将在下文中进一步阐述。The inner side of theclip 1022 is provided with aprotrusion 10221 , correspondingly, the outer side of thehousing 101 is provided with agroove 1011 , thegroove 1011 forms a circle around the outer side of the housing, and theprotrusion 10221 can be inserted into thegroove 1011 . Theouter cover 1021 and theinner cover 1023 are screwed and fixed, and then connected to thehousing 101 through theclamp 1022. Theouter cover 1021 and theinner cover 1023 can protect, seal and prevent the internal structure of thehousing 101. trigger, the anti-trigger function will be further elaborated below.

在本实用新型其他实施例中，外盖体1021与内盖体1023之间也可以摩擦配合或者卡扣配合实现固定连接。In other embodiments of the present invention, theouter cover 1021 and theinner cover 1023 can also be fixedly connected by friction fit or snap fit.

在本实用新型其他实施例中，卡箍1022与壳体101之间也可以通过摩擦配合、卡扣配合或者螺纹配合实现连接。In other embodiments of the present invention, the connection between theclamp 1022 and thehousing 101 can also be realized through friction fit, snap fit or screw fit.

壳体内部Inside the shell

图3为本实用新型实施例分析物检测装置安装单元的爆炸结构示意图，图中虚线表示各结构件的安装配合关系。分析物检测装置安装单元100的内部结构件包括平行滑块模块103、分析物检测装置104、辅助针模块105、触发模块106和弹性模块107，弹性模块107包括第一弹性件1071和第二弹性件1072。Fig. 3 is a schematic diagram of the exploded structure of the installation unit of the analyte detection device according to the embodiment of the present invention, and the dotted lines in the figure indicate the installation and coordination relationship of various structural components. The internal structure of the analyte detectiondevice installation unit 100 includes aparallel slider module 103, ananalyte detection device 104, anauxiliary needle module 105, atrigger module 106 and anelastic module 107, and theelastic module 107 includes a firstelastic member 1071 and a secondelastic module 107.Part 1072.

图4为本实用新型实施例壳体101的内部结构示意图。FIG. 4 is a schematic diagram of the internal structure of thehousing 101 of the embodiment of the present invention.

在本实用新型实施例中，壳体101内设置有至少两个第一卡扣1012，第一卡扣1012与壳体101一体成型，并向壳体101的近端凸出。第一卡扣1012为柔性材料，末端可向壳体101的外侧弯折或者弯曲。In the embodiment of the present invention, at least twofirst buckles 1012 are disposed in thehousing 101 , and thefirst buckles 1012 are integrally formed with thehousing 101 and protrude toward the proximal end of thehousing 101 . Thefirst buckle 1012 is a flexible material, and the end can be bent or bent toward the outside of thehousing 101 .

在本实用新型优选实施例中，第一卡扣1012的数量为两个，对称分布在壳体101内部，彼此间的角度间隔为180°。In a preferred embodiment of the present invention, there are twofirst buckles 1012, which are symmetrically distributed inside thehousing 101, and the angular interval between them is 180°.

在本实用新型其他优选实施例中，第一卡扣1012的数量为三个或者四个，对称分布在壳体101内部，彼此间的角度间隔为120°或者90°。第一卡扣1012的数量也可以是五个或者更多，在此不作限制。In other preferred embodiments of the present utility model, the number of thefirst buckles 1012 is three or four, symmetrically distributed inside thehousing 101, and the angular interval between them is 120° or 90°. The number of thefirst buckles 1012 may also be five or more, which is not limited here.

在本实用新型实施例中，壳体101内还设置有至少两个限位槽1013、至少两个卡槽1014以及一个辅助针限位槽1015。In the embodiment of the present utility model, at least two limitinggrooves 1013 , at least two lockinggrooves 1014 and one auxiliaryneedle limiting groove 1015 are further provided in thehousing 101 .

在本实用新型实施例中，限位槽1013包括至少两条凸出于壳体101内壁的肋板。在本实用新型优选实施例中，肋板彼此平行，相邻的肋板中间形成凹槽。In the embodiment of the present invention, the limitinggroove 1013 includes at least two ribs protruding from the inner wall of thecasing 101 . In a preferred embodiment of the utility model, the ribs are parallel to each other, and grooves are formed in the middle of adjacent ribs.

在本实用新型其他实施例中，限位槽1013为凹陷于壳体101内壁的槽。In other embodiments of the present utility model, the limitinggroove 1013 is a groove recessed in the inner wall of thehousing 101 .

在本实用新型实施例中，卡槽1014包括两个卡槽位，即第一卡槽位10141和第二卡槽位10142，如图10a所示，第一卡槽位10141相对于第二卡槽位10142靠近于近端。In the embodiment of the present utility model, thecard slot 1014 includes two card slots, that is, thefirst card slot 10141 and thesecond card slot 10142, as shown in Figure 10a, thefirst card slot 10141 is opposite to the secondcard slot Slot 10142 is near the proximal end.

在本实用新型优选实施例中，限位槽1013、卡槽1014的数量为两个，对称分布在壳体101内部，彼此间的角度间隔为180°。In a preferred embodiment of the present invention, there are two limitinggrooves 1013 and two lockinggrooves 1014, which are symmetrically distributed inside thehousing 101, and the angular interval between them is 180°.

在本实用新型其他优选实施例中，限位槽1013、卡槽1014的数量为三个或者四个，对称分布在壳体101内部，彼此间的角度间隔为120°或者90°。限位槽1013、卡槽1014的数量也可以是五个或者更多，在此不作限制。In other preferred embodiments of the present invention, the number of limitinggrooves 1013 and lockinggrooves 1014 is three or four, symmetrically distributed inside thehousing 101, and the angular interval between them is 120° or 90°. The number of limitingslots 1013 and lockingslots 1014 may also be five or more, which is not limited here.

平行滑块模块Parallel Slider Module

图5a为平行滑块模块103远端面的结构示意图，图5b为平行滑块模块103近端面的结构示意图。FIG. 5 a is a schematic structural diagram of the distal surface of theparallel slider module 103 , and FIG. 5 b is a schematic structural diagram of the proximal surface of theparallel slider module 103 .

在本实用新型实施例中，平行滑块模块103的远端面1031设置有向远端凸起的圆形槽1032，圆形槽1032为内部掏空的圆柱结构，其内径为d1。在圆形槽1032的侧壁上向远端伸出至少两个滑块卡扣10321，滑块卡扣10321的卡扣部为平面或者近似平面，并与水平面呈固定夹角，其延长端m0汇聚在远端。In the embodiment of the present invention, thedistal surface 1031 of theparallel slider module 103 is provided with acircular groove 1032 protruding toward the distal end, and thecircular groove 1032 is a hollow cylindrical structure with an inner diameter of d1. At least two slider buckles 10321 protrude from the side wall of thecircular groove 1032 to the far end. The buckle parts of the slider buckles 10321 are plane or approximately plane, and form a fixed angle with the horizontal plane. The extended end m0 gathered at the far end.

在本实用新型实施例中，滑块卡扣10321为柔性材料，因此可向圆形槽1032的外侧弯曲或者弯折。In the embodiment of the present invention, theslider buckle 10321 is a flexible material, so it can be bent or bent toward the outside of thecircular groove 1032 .

在本实用新型其他实施例中，滑块卡扣10321可直接设置在平行滑块模块103的远端面，而不需要圆形槽结构。In other embodiments of the present utility model, theslider buckle 10321 can be directly arranged on the distal surface of theparallel slider module 103 without the circular groove structure.

在本实用新型实施例中，圆形槽1032内靠近远端面1031的一端还设置有一段凸台10322，凸台10322为内部掏空的圆柱体结构，其内径为d2，可以理解的是d1＞d2。内部掏空结构的圆形槽1032和凸台10322形成一个通孔10323，从平行滑块模块的远端面1031贯穿到近端面1034。In the embodiment of the present utility model, aboss 10322 is provided at the end of thecircular groove 1032 close to thedistal surface 1031. Theboss 10322 is a cylindrical structure hollowed out inside, and its inner diameter is d2, which can be understood as d1 > d2. Thecircular groove 1032 and theboss 10322 of the inner hollow structure form a throughhole 10323 , which penetrates from thedistal surface 1031 to theproximal surface 1034 of the parallel slider module.

在本实用新型优选实施例中，滑块卡扣10321的数量为两个，对称分布在圆形槽1032的侧壁上，两个滑块卡扣10321彼此间的角度间隔为180°。In a preferred embodiment of the present invention, there are two slider buckles 10321, which are symmetrically distributed on the side wall of thecircular groove 1032, and the angular interval between the two slider buckles 10321 is 180°.

在本实用新型其他优选实施例中，滑块卡扣10321的数量可以为三个或者四个，对称分布在圆形槽1032的侧壁上，滑块卡扣10321彼此间的角度间隔为120°或者90°。滑块卡扣10321的数量也可以是五个或者更多，在此不作限制。In other preferred embodiments of the present utility model, the number of slider buckles 10321 can be three or four, symmetrically distributed on the side wall of thecircular groove 1032, and the angular interval between the slider buckles 10321 is 120° or 90°. The number of slider buckles 10321 may also be five or more, which is not limited here.

继续参照图5a，在本实用新型实施例中，平行滑块模块103的远端面1031侧边设置有至少两个第二卡扣1033，第二卡扣1033对称分布在远端面1031侧边，彼此间的角度间隔为180°。Continuing to refer to FIG. 5 a , in the embodiment of the present invention, at least twosecond buckles 1033 are arranged on the side of thedistal surface 1031 of theparallel slider module 103 , and thesecond buckles 1033 are symmetrically distributed on the side of thedistal surface 1031 , with an angular separation of 180° from each other.

在本实用新型其他实施例中，第二卡扣1033的数量为三个或者四个，对称分布在远端面1031侧边，彼此间的角度间隔为120°或者90°。第二卡扣1033的数量也可以是五个或者更多，在此不做限制。在安装单元100中，第二卡扣1033与第一卡扣1012耦合。第二卡扣1033的位置和数量与第一卡扣1012一致。In other embodiments of the present invention, the number of thesecond buckles 1033 is three or four, symmetrically distributed on the side of thedistal end surface 1031, and the angular interval between them is 120° or 90°. The number of thesecond buckles 1033 may also be five or more, which is not limited here. In theinstallation unit 100 , thesecond buckle 1033 is coupled with thefirst buckle 1012 . The position and quantity of thesecond buckle 1033 are consistent with thefirst buckle 1012 .

参照图5b，在本实用新型实施例中，平行滑块模块103的近端面1034侧边设置有至少两个T型结构1035，T型结构1035的竖直部连接于近端面1034，水平部包括T型结构滑块10351和T型结构卡扣10352，T型结构滑块10351朝向平行滑块模块103的外侧，并且凸出于平行滑块模块103的外圈；T型结构卡扣10352朝向平行滑块模块103的内侧，并且凸出于平行滑块模块103的内圈。Referring to Fig. 5b, in the embodiment of the present invention, at least two T-shapedstructures 1035 are arranged on the side of theproximal surface 1034 of theparallel slider module 103, and the vertical part of the T-shapedstructure 1035 is connected to theproximal surface 1034, and the horizontal The part includes a T-shapedstructure slider 10351 and a T-shapedstructure buckle 10352. The T-shapedstructure slider 10351 faces the outside of theparallel slider module 103 and protrudes from the outer ring of theparallel slider module 103; the T-shapedstructure buckle 10352 It faces the inner side of theparallel slider module 103 and protrudes from the inner ring of theparallel slider module 103 .

在安装单元100中，T型结构滑块10351位于限位槽1013内，以限制平行滑块模块103的位置，并防止平行滑块模块103在安装单元100内发生转动。T型结构滑块10351的数量及位置与限位槽1013一致。平行滑块模块103向近端运动过程中，T型结构滑块10351在限位槽1013内滑动。In theinstallation unit 100 , the T-shapedstructure slider 10351 is located in the limitinggroove 1013 to limit the position of theparallel slider module 103 and prevent theparallel slider module 103 from rotating in theinstallation unit 100 . The quantity and position of the T-shapedstructure sliders 10351 are consistent with the limitingslots 1013 . During the movement of theparallel slider module 103 toward the proximal end, the T-shapedstructure slider 10351 slides in the limitinggroove 1013 .

在本实用新型优选实施例中，T型结构1035的竖直部为柔性材料，竖直部与水平部一体成型，水平部可绕竖直部弯折或者弯曲。In a preferred embodiment of the present invention, the vertical part of the T-shapedstructure 1035 is made of flexible material, the vertical part and the horizontal part are integrally formed, and the horizontal part can be bent or bent around the vertical part.

在本实用新型其他优选实施例中，T型结构1035的竖直部为弹性材料，例如弹簧、弹片等，水平部通过焊接或者热熔等工艺与竖直部固定连接，水平部也可绕竖直部弯折或者弯曲。In other preferred embodiments of the present invention, the vertical part of the T-shapedstructure 1035 is made of elastic materials, such as springs, shrapnel, etc., and the horizontal part is fixedly connected with the vertical part by welding or hot melting, and the horizontal part can also be wound around the vertical part. Straight bent or curved.

分析物检测装置Analyte detection device

图6为本实用新型实施例分析物检测装置的结构示意图。Fig. 6 is a schematic structural diagram of an analyte detection device according to an embodiment of the present invention.

结合参照图3，在本实用新型实施例中，分析物检测装置104包括外壳1041、发射器(图中未示出)、传感器1042和设置在外壳1041内并与传感器电耦合的内部电路(图中未示出)。传感器1042用于检测用户体液分析物参数信息，通过内部电路将上述分析物参数信息传递至发射器，再由发射器发送至外界设备200。3, in an embodiment of the present invention, theanalyte detection device 104 includes ahousing 1041, a transmitter (not shown in the figure), asensor 1042 and an internal circuit (figure not shown). Thesensor 1042 is used to detect the analyte parameter information of the user's body fluid, transmit the analyte parameter information to the transmitter through the internal circuit, and then send it to theexternal device 200 by the transmitter.

在本实用新型优选实施例中，在分析物检测装置104安装到用户皮肤表面前，以第一频率f₁向外界设备200发射信号，安装到用户皮肤表面后，以第二频率f₂向外界设备200发射信号，第二频率f₂大于第一频率f₁。在本实用新型进一步优选实施例中，第一频率f₁为0～12次/小时，第二频率f₂为12～3600次/小时。In a preferred embodiment of the present invention, before theanalyte detection device 104 is installed on the user's skin surface, it transmits a signal to theexternal device 200 at the_first frequency f1, and after it is installed on the user's skin surface, it transmits a signal to theexternal device 200 at the_second frequency f2 Thedevice 200 transmits a signal, the second frequency f₂ being greater than the first frequency f₁ . In a further preferred embodiment of the present invention, the first frequency f₁ is 0-12 times/hour, and the second frequency f₂ is 12-3600 times/hour.

在本实用新型更优选实施例中，第一频率f₁为0次/小时，即在分析物检测装置104安装到用户皮肤表面前，不向外界设备200发射信号，这样可以节省安装前分析物检测装置104的电量消耗。In a more preferred embodiment of the present invention, the_first frequency f1 is 0 times/hour, that is, before theanalyte detection device 104 is installed on the user's skin surface, no signal is transmitted to theexternal device 200, which can save the analyte before installation. Detecting power consumption of thedevice 104 .

在本实用新型实施例中，外壳1041包括上外壳体10411和下外壳体10413，上外壳体10411和下外壳体10413拼接形成内部空间。传感器1042包括体外部分(图中未示出)和体内部分(图中未示出)，体外部分、发射器和内部电路设置在内部空间中，体外部分与内部电路电耦合。体内部分上设置有电极、膜层等结构，刺入用户皮下可以对分析物参数信息进行检测。体内部分刺入皮下时，需要有正确的角度，例如垂直于皮肤表面刺入。在分析物检测装置104寿命终止后，将其从用户皮肤表面取下，整体抛弃。In the embodiment of the present utility model, thehousing 1041 includes anupper housing 10411 and alower housing 10413, and theupper housing 10411 and thelower housing 10413 are spliced to form an inner space. Thesensor 1042 includes an extracorporeal part (not shown in the figure) and an intracorporeal part (not shown in the figure). The extracorporeal part, the transmitter and the internal circuit are arranged in the internal space, and the extracorporeal part is electrically coupled with the internal circuit. The body part is equipped with structures such as electrodes and membrane layers, which can detect analyte parameter information by piercing the user's skin. When piercing the subcutaneous part of the body, it needs to have the correct angle, such as piercing perpendicular to the skin surface. After theanalyte detection device 104 has expired, it is removed from the user's skin surface and discarded as a whole.

在本实用新型实施例中，下外壳体10413包括贯穿的第一通孔10414，对应的，在第一通孔10414的轴线上，上外壳体10411包括贯穿的第二通孔(图中未示出)，体内部分穿过第一通孔10414到外壳外部，以便于刺入用户皮下。In the embodiment of the present utility model, thelower casing 10413 includes a first throughhole 10414 that passes through, and correspondingly, on the axis of the first throughhole 10414, theupper casing 10411 includes a second through hole (not shown in the figure) Out), the body part passes through the first throughhole 10414 to the outside of the shell, so as to penetrate the user's subcutaneous.

在本实用新型实施例中，上外壳体10411的侧边包括对应于T型结构卡扣10352的卡孔10412，这里“对应”是指卡孔10412的位置、数量与T型结构卡扣10352一致。在安装单元100中，上外壳体10411与近端面1034贴合，T型结构卡扣10352与卡孔10412形成卡扣连接，分析物检测装置104被固定在平行滑块模块103上。当T型结构的水平部绕竖直部弯折或者弯曲时，T型结构卡扣10352与卡孔10412的卡扣连接解除，分析物检测装置104与平行滑块模块103分离。因此在安装单元100中，分析物检测装置104与平行滑块模块103为可释放连接。In the embodiment of the present utility model, the side of theupper shell 10411 includes acard hole 10412 corresponding to the T-shapedstructure buckle 10352, where "corresponding" means that the position and number of thecard hole 10412 are consistent with the T-shapedstructure buckle 10352 . In theinstallation unit 100 , theupper shell 10411 is attached to theproximal surface 1034 , the T-shapedbuckle 10352 forms a buckle connection with thebuckle hole 10412 , and theanalyte detection device 104 is fixed on theparallel slider module 103 . When the horizontal part of the T-shaped structure is bent or bent around the vertical part, the buckle connection between thebuckle 10352 of the T-shaped structure and thebuckle hole 10412 is released, and theanalyte detection device 104 is separated from theparallel slider module 103 . Therefore, in theinstallation unit 100 , theanalyte detection device 104 is releasably connected to theparallel slider module 103 .

辅助针模块Auxiliary Needle Module

图7为本实用新型实施例辅助针模块的结构示意图。Fig. 7 is a schematic structural diagram of the auxiliary needle module of the embodiment of the present invention.

在本实用新型实施例中，辅助针模块105包括辅助针固定结构1051和辅助针1052。在安装单元100中，辅助针固定结构1051位于远端，辅助针1052位于近端。In the embodiment of the present invention, theauxiliary needle module 105 includes an auxiliaryneedle fixing structure 1051 and anauxiliary needle 1052 . In theinstallation unit 100, the auxiliaryneedle fixing structure 1051 is located at the distal end, and theauxiliary needle 1052 is located at the proximal end.

在本实用新型实施例中，辅助针固定结构1051包括辅助针滑块10511和辅助针固定块10512，辅助针滑块10511的直径或者宽度大于辅助针固定块10512的直径或者宽度，形成一个朝向近端的凸面10513。In the embodiment of the present invention, the auxiliaryneedle fixing structure 1051 includes anauxiliary needle slider 10511 and an auxiliaryneedle fixing block 10512. The diameter or width of theauxiliary needle slider 10511 is larger than the diameter or width of the auxiliaryneedle fixing block 10512, forming aConvex 10513 on end.

在本实用新型实施例中，辅助针1052包括全包围针体10521和半包围针体10522，全包围针体10521位于辅助针固定块10512和半包围针体10522之间，并与辅助针固定块10512固定连接。半包围针体10522的中空结构可用于容纳传感器1042的体内部分，半包围针体10522刺入用户皮下时，可将体内部分一并刺入皮下，并且在针体缩回时，不影响体内部分在皮下的状态。In the embodiment of the present utility model, theauxiliary needle 1052 includes a fully-enclosedneedle body 10521 and a half-enclosed needle body 10522. The fully-enclosedneedle body 10521 is located between the auxiliaryneedle fixing block 10512 and the half-enclosingneedle body 10522, and is connected with the auxiliary needle fixing block. 10512 fixed connection. The hollow structure that half surrounds theneedle body 10522 can be used to accommodate the internal body part of thesensor 1042. When the half surroundedneedle body 10522 penetrates into the user's skin, the internal body part can also be pierced into the subcutaneous area, and the internal body part is not affected when the needle body is retracted. subcutaneous state.

在本实用新型其他实施例中，辅助针1052仅包括半包围针体10522，即半包围针体10522与辅助针固定块10512固定连接，这样可以减少辅助针1052的用料，节省成本，但同时也减小了辅助针1052的刚性。In other embodiments of the present utility model, theauxiliary needle 1052 only includes the half-enclosed needle body 10522, that is, the half-enclosed needle body 10522 is fixedly connected with the auxiliaryneedle fixing block 10512, which can reduce the materials used for theauxiliary needle 1052 and save costs, but at the same time The rigidity of theauxiliary needle 1052 is also reduced.

在安装单元100中，辅助针1052依次穿过第二通孔和第一通孔10414，从而贯穿分析物检测装置104，传感器1042的体内部分位于半包围针体10522中。In theinstallation unit 100 , theauxiliary needle 1052 passes through the second through hole and the first throughhole 10414 sequentially, thereby penetrating through theanalyte detection device 104 , and the internal part of thesensor 1042 is located in thesemi-enclosed needle body 10522 .

触发模块trigger module

图8为本实用新型实施例触发模块的结构示意图。Fig. 8 is a schematic structural diagram of a trigger module according to an embodiment of the present invention.

在本实用新型实施例中，触发模块106上设置有至少两个与第一卡扣1012对应的固定卡扣1061。在安装单元100中，固定卡扣1061与第一卡扣1012接触，以阻止第一卡扣1012向壳体外侧弯曲或者弯折。固定卡扣1061与第一卡扣1012的接触可以是点接触、线接触或者面接触，当接触为面接触时，固定卡扣1061与第一卡扣1012接触面与水平面呈固定夹角，并汇聚在安装单元100的近端。固定卡扣1061的数量及位置与第一卡扣1012一致。In the embodiment of the present invention, at least two fixingbuckles 1061 corresponding to thefirst buckles 1012 are arranged on thetrigger module 106 . In theinstallation unit 100 , the fixingbuckle 1061 is in contact with thefirst buckle 1012 to prevent thefirst buckle 1012 from bending or bending toward the outside of the housing. The contact between the fixedbuckle 1061 and thefirst buckle 1012 can be point contact, line contact or surface contact. When the contact is surface contact, the contact surface of the fixedbuckle 1061 and thefirst buckle 1012 forms a fixed angle with the horizontal plane, and converge at the proximal end of the mountingunit 100. The number and position of the fixing buckles 1061 are consistent with thefirst buckles 1012 .

在本实用新型实施例中，触发模块106上还设置有至少两个卡耳1062，在安装单元100中，卡耳1062与卡槽1014卡扣配合，以固定触发模块106。卡耳1062的数量及位置与卡槽1014一致。结合参照图10a，在安装单元100使用前，卡耳1062位于第一卡槽位10141，此时，固定卡扣1061与第一卡扣1012接触。In the embodiment of the present invention, at least twolugs 1062 are provided on thetrigger module 106 , and in theinstallation unit 100 , thelugs 1062 snap fit with theslot 1014 to fix thetrigger module 106 . The number and position of thelugs 1062 are consistent with those of theslot 1014 . Referring to FIG. 10 a , before theinstallation unit 100 is used, thelug 1062 is located in thefirst slot 10141 , and at this time, the fixingbuckle 1061 is in contact with thefirst buckle 1012 .

在本实用新型实施例中，触发模块106还包括一个外圈1063，外圈1063将上述固定卡扣1061和卡耳1062连接成一个整体。在安装单元100中，外圈1063相对于卡耳1062靠近于近端，位于第一开口且凸出于第一开口，在使用安装单元100时，外圈1063贴合用户皮肤表面。In the embodiment of the present invention, thetrigger module 106 further includes anouter ring 1063, and theouter ring 1063 connects the above-mentionedfixing buckle 1061 and thelug 1062 into a whole. In theinstallation unit 100 , theouter ring 1063 is close to the proximal end relative to thelug 1062 , located at the first opening and protruding from the first opening. When theinstallation unit 100 is used, theouter ring 1063 is close to the user's skin surface.

弹性模块Elastic module

参照图3，弹性模块107包括第一弹性件1071和第二弹性件1072。Referring to FIG. 3 , theelastic module 107 includes a firstelastic member 1071 and a secondelastic member 1072 .

在本实用新型实施例中，第一弹性件1071位于平行滑块模块103和壳体101之间，即第一弹性件1071的一端位于平行滑块模块103的远端面，另一端位于壳体101内，在安装单元100中，第一弹性件1071处于压缩状态，可提供弹力。In the embodiment of the present utility model, the firstelastic member 1071 is located between theparallel slider module 103 and thehousing 101, that is, one end of the firstelastic member 1071 is located on the distal surface of theparallel slider module 103, and the other end is located on the housing In 101, in theinstallation unit 100, the firstelastic member 1071 is in a compressed state and can provide elastic force.

在本实用新型实施例中，第二弹性件1072位于平行滑块模块103和辅助针模块105之间，即第二弹性件1072的一端位于平行滑块模块103的凸台10322上，另一端位于辅助针模块105的凸面10513上，在安装单元100中，第二弹性件1072处于压缩状态，可提供弹力。In this utility model embodiment, the secondelastic member 1072 is located between theparallel slider module 103 and theauxiliary needle module 105, that is, one end of the secondelastic member 1072 is located on theboss 10322 of theparallel slider module 103, and the other end is located on the On theconvex surface 10513 of theauxiliary needle module 105, in theinstallation unit 100, the secondelastic member 1072 is in a compressed state and can provide elastic force.

在本实用新型优选实施例中，第一弹性件1071或者第二弹性件1072为金属弹簧。In a preferred embodiment of the present invention, the firstelastic member 1071 or the secondelastic member 1072 is a metal spring.

在本实用新型实施例中，第一弹性件1071的内圈直径大于圆形槽1032和辅助针滑块10511的外圈直径，在安装单元100中，第一弹性件1071包围在辅助针滑块10511和圆形槽1032外侧，可以充分利用安装单元100的内部空间。In the embodiment of the present utility model, the diameter of the inner ring of the firstelastic member 1071 is greater than the diameter of the outer ring of thecircular groove 1032 and theauxiliary needle slider 10511. In theinstallation unit 100, the firstelastic member 1071 is surrounded by the auxiliary needle slider. 10511 and the outside of thecircular groove 1032 can make full use of the internal space of theinstallation unit 100 .

在本实用新型实施例中，第二弹性件1072的外圈直径大于辅助针固定块10512的外径和凸台10322的内径，而小于辅助针滑块10511的外径和圆形槽1032的内径，因此第二弹性件1072的一端放置在圆形槽1032内，另一端包围在辅助针固定块10512外侧，可以充分利用安装单元100的内部空间。In this utility model embodiment, the diameter of the outer ring of the secondelastic member 1072 is larger than the outer diameter of the auxiliaryneedle fixing block 10512 and the inner diameter of theboss 10322, but smaller than the outer diameter of theauxiliary needle slider 10511 and the inner diameter of thecircular groove 1032 Therefore, one end of the secondelastic member 1072 is placed in thecircular groove 1032 , and the other end surrounds the outside of the auxiliaryneedle fixing block 10512 , so that the internal space of theinstallation unit 100 can be fully utilized.

安装单元使用方法How to use the installation unit

图9为本实用新型实施例安装单元的俯视图。Fig. 9 is a top view of the installation unit of the embodiment of the present invention.

图10a为图9的A剖面结构示意图；图10b为图9的B剖面结构示意图；图10c为图9的C剖面结构示意图；图11为第一卡扣受力弯折示意图。10a is a schematic diagram of the cross-sectional structure of FIG. 9; FIG. 10b is a schematic diagram of the cross-sectional structure of FIG. 9; FIG. 10c is a schematic diagram of the cross-sectional structure of FIG. 9; FIG.

结合参照图10a和图10b，在本实用新型实施例中，卡槽1014设置有两个卡槽位，第一卡槽位10141和第二卡槽位10142。在安装单元100使用前，触发模块106通过卡耳1062与第一卡槽位10141的卡扣配合固定在壳体101上，此时，固定卡扣1061与第一卡扣1012接触，阻止第一卡扣1012向壳体101外侧弯曲或者弯折，固定卡扣1061、第一卡扣1012和第二卡扣1033位于同一水平线上。在本实用新型优选实施例中，由壳体101内向外，依次为第二卡扣1033、第一卡扣1012和固定卡扣1061。Referring to FIG. 10 a and FIG. 10 b together, in the embodiment of the present utility model, thecard slot 1014 is provided with two card slot positions, a firstcard slot position 10141 and a secondcard slot position 10142 . Before theinstallation unit 100 is used, thetrigger module 106 is fixed on thehousing 101 through the buckle fit between thebuckle 1062 and thefirst buckle 10141. At this time, the fixingbuckle 1061 is in contact with thefirst buckle 1012 to prevent the first Thebuckle 1012 is bent or bent toward the outside of thehousing 101 , and the fixedbuckle 1061 , thefirst buckle 1012 and thesecond buckle 1033 are located on the same horizontal line. In a preferred embodiment of the present invention, from the inside of thehousing 101 to the outside, there are thesecond buckle 1033 , thefirst buckle 1012 and the fixedbuckle 1061 in sequence.

在本实用新型实施例中，固定卡扣1061与第一卡扣1012的接触为点接触、线接触或者面接触中的一种，当上述接触为面接触时，接触面的延长线m1汇聚在近端，这种结构设计可以使得固定卡扣1061相对于第一卡扣1012向远端运动。In the embodiment of the present utility model, the contact between the fixedbuckle 1061 and thefirst buckle 1012 is one of point contact, line contact or surface contact. When the above-mentioned contact is surface contact, the extension line m1 of the contact surface converges at At the proximal end, this structural design can make thefixing buckle 1061 move distally relative to thefirst buckle 1012 .

在本实用新型优选实施例中，第二卡扣1033与第一卡扣1012的耦合面为平面，该平面与水平面呈固定夹角，其延长端m2汇聚在近端。In a preferred embodiment of the present invention, the coupling surface of thesecond buckle 1033 and thefirst buckle 1012 is a plane, and the plane forms a fixed angle with the horizontal plane, and the extended end m2 thereof converges at the proximal end.

结合参照图11，这种结构设计可以使得第二卡扣1033相对于第一卡扣1012向近端运动时，将第一卡扣1012向壳体101外侧推开，从而解除第一卡扣1012与第二卡扣1033间的耦合状态。Referring to FIG. 11 , this structural design can push thefirst buckle 1012 to the outside of thehousing 101 when thesecond buckle 1033 moves proximally relative to thefirst buckle 1012 , thereby releasing thefirst buckle 1012 The coupling state with thesecond buckle 1033 .

在本实用新型实施例中，第一弹性件1071处于压缩状态，具备弹性势能，其自身弹力给予平行模块滑块103向近端的推力Fr，该推力Fr通过第二卡扣1033和第一卡扣1012的耦合面作用在第一卡扣1012上，并产生垂直于第一卡扣1012平面的分力Fsin，该分力Fsin可将第一卡扣1012向壳体101外侧推动而弯曲或者弯折，从而解除第一卡扣1012与第二卡扣1033的耦合状态。In the embodiment of the present utility model, the firstelastic member 1071 is in a compressed state and has elastic potential energy. Its own elastic force gives the parallel module slider 103 a thrust Fr towards the proximal end, and the thrust Fr passes through thesecond buckle 1033 and the first buckle. The coupling surface of thebuckle 1012 acts on thefirst buckle 1012, and generates a component force Fsin perpendicular to the plane of thefirst buckle 1012. The component force Fsin can push thefirst buckle 1012 to the outside of thehousing 101 to bend or bend Fold, so as to release the coupling state of thefirst buckle 1012 and thesecond buckle 1033 .

在本实用新型实施例中，使用安装单元100时，旋转外盖体1021，使立柱10211折断，保护盖102与壳体101分离，将安装单元100的近端靠近用户皮肤，直到触发模块106的外圈1063贴合在皮肤表面，用户在远端按压壳体101，壳体101朝向皮肤运动，触发模块106保持不动，因此触发模块106相对于壳体101向远端运动，卡耳1062脱离第一卡槽位10141，进入到第二卡槽位10142，同时固定卡扣1061不再与第一卡扣1012接触，第一卡扣1012因分力Fsin向壳体101外侧弯曲或者弯折，第一卡扣1012与第二卡扣1033的耦合状态解除。In the embodiment of the present utility model, when using theinstallation unit 100, rotate theouter cover 1021 to break thecolumn 10211, separate theprotective cover 102 from thehousing 101, and put the proximal end of theinstallation unit 100 close to the skin of the user until thetrigger module 106 Theouter ring 1063 fits on the skin surface, the user presses thehousing 101 at the distal end, thehousing 101 moves toward the skin, and thetrigger module 106 remains still, so thetrigger module 106 moves distally relative to thehousing 101, and thelug 1062 is disengaged Thefirst slot 10141 enters thesecond slot 10142, and at the same time, the fixedbuckle 1061 is no longer in contact with thefirst buckle 1012, and thefirst buckle 1012 bends or bends toward the outside of thehousing 101 due to the component force Fsin, The coupled state of thefirst buckle 1012 and thesecond buckle 1033 is released.

在本实用新型实施例中，解除耦合状态后，平行滑块模块103在第一弹性件1071的弹力推动下继续向近端运动，同时带动分析物检测装置104向近端运动，直至分析物检测装置104的下外壳体10413与用户皮肤表面接触。In the embodiment of the present invention, after the decoupling state, theparallel slider module 103 continues to move proximally under the elastic force of the firstelastic member 1071, and at the same time drives theanalyte detection device 104 to move proximally until the analyte detection The lowerouter housing 10413 of thedevice 104 is in surface contact with the user's skin.

参照图10c，在本实用新型实施例中，滑块卡扣10321与辅助针滑块10511卡扣连接，第一弹性件1071推动平行滑块模块103向近端运动时，带动辅助针模块105一起向近端运动。Referring to Fig. 10c, in the embodiment of the present invention, theslider buckle 10321 is snap-connected with theauxiliary needle slider 10511, and when the firstelastic member 1071 pushes theparallel slider module 103 to move proximally, it drives theauxiliary needle module 105 together. Move proximally.

在本实用新型实施例中，滑块卡扣10321与辅助针滑块10511的连接处为平面或者近似平面，该平面与水平面呈固定夹角，其延长线m3汇聚在远端。第二弹性件1072对辅助针滑块10511的推力朝向远端，因此辅助针滑块10511可将滑块卡扣10321向壳体101外侧推开，而使得滑块卡扣10321发生弯曲或者弯折，其原理等同于图11。In the embodiment of the present invention, the connection between theslider buckle 10321 and theauxiliary needle slider 10511 is a plane or an approximate plane, the plane forms a fixed angle with the horizontal plane, and its extension line m3 converges at the distal end. The pushing force of the secondelastic member 1072 on theauxiliary needle slider 10511 is toward the distal end, so theauxiliary needle slider 10511 can push theslider buckle 10321 to the outside of thehousing 101, so that theslider buckle 10321 is bent or bent , the principle is the same as that in Figure 11.

在本实用新型实施例中，在安装单元100中，辅助针限位槽1015的侧壁阻止滑块卡扣10321发生弯折或者弯曲，滑块卡扣10321与辅助针滑块10511卡扣连接状态不发生变化。随着平行滑块模块103和辅助针模块105向近端运动，直到滑块卡扣10321脱离辅助针限位槽1015，辅助针限位槽1015的内壁不再阻止滑块卡扣10321发生弯折或者弯曲，第二弹性件1072向远端推动辅助针滑块10511，同时辅助针滑块10511推动滑块卡扣10321向外侧弯折或者弯曲，滑块卡扣10321与辅助针滑块10511的卡扣连接解除，第二弹性件1072继续推动辅助针滑块10511向远端运动，最终辅助针模块105回到初始位置，辅助针1052缩回到壳体101内，防止辅助针1052暴露在壳体101外面，避免造成不必要的伤害。In the embodiment of the present utility model, in theinstallation unit 100, the side wall of the auxiliarypin limit groove 1015 prevents theslider buckle 10321 from bending or bending, and theslider buckle 10321 and theauxiliary needle slider 10511 are in a snap-connected state No change occurs. As theparallel slider module 103 and theauxiliary needle module 105 move proximally until theslider buckle 10321 disengages from the auxiliaryneedle limiting groove 1015, the inner wall of the auxiliaryneedle limiting groove 1015 no longer prevents theslider buckle 10321 from bending Or bent, the secondelastic member 1072 pushes theauxiliary needle slider 10511 to the distal end, and at the same time, theauxiliary needle slider 10511 pushes theslider buckle 10321 to bend or bend outward, theslider buckle 10321 and theauxiliary needle slider 10511 The buckle connection is released, the secondelastic member 1072 continues to push theauxiliary needle slider 10511 to move distally, and finally theauxiliary needle module 105 returns to the initial position, and theauxiliary needle 1052 is retracted into thehousing 101, preventing theauxiliary needle 1052 from being exposed to the shell.body 101 to avoid unnecessary injury.

在本实用新型实施例中，滑块卡扣10321脱离辅助针限位槽1015时，辅助针的半包围针体10522刺入用户皮下。In the embodiment of the present invention, when theslider buckle 10321 disengages from the auxiliaryneedle limiting groove 1015, the half-enclosed needle body 10522 of the auxiliary needle penetrates into the user's skin.

在本实用新型实施例中，在安装单元100中，T型结构滑块10351位于限位槽1013内，限位槽1013通过T型结构滑块10351对平行滑块模块103的位置、方向进行限制，以保证平行滑块模块103与其滑动方向保持垂直，从而使设置在平行滑块模块103前端的分析物检测装置104与其运动方向保持垂直，同时辅助针1052与其运动方向保持平行，这样可以使辅助针1052及其包络的传感器体内部分以垂直角度刺入用户皮下，减轻用户的疼痛感。In the embodiment of the present utility model, in theinstallation unit 100, the T-shapedstructure slider 10351 is located in thelimit groove 1013, and thelimit groove 1013 limits the position and direction of theparallel slider module 103 through the T-shapedstructure slider 10351 , to ensure that theparallel slider module 103 is kept perpendicular to its sliding direction, so that theanalyte detection device 104 arranged at the front end of theparallel slider module 103 is kept perpendicular to its moving direction, and at the same time, theauxiliary needle 1052 is kept parallel to its moving direction, so that the auxiliary Theneedle 1052 and its enveloping sensor body part penetrate the user's skin at a vertical angle, relieving the user's pain.

在本实用新型实施例中，在平行滑块模块103向近端滑动过程中，T型结构滑块10351在限位槽1013内滑动，直至接触到触发模块106的外圈1063，在第一弹性件1071的推动下，平行滑块模块103继续向近端运动，而外圈1063阻挡T型结构滑块10351继续向近端运动，因此T型结构滑块10351绕竖直部弯曲或者弯折，T型结构卡扣10352与卡孔10412的卡扣连接解除，分析物检测装置104脱离平行滑块模块103，从而可以安装在用户皮肤表面。In the embodiment of the present invention, during the sliding process of theparallel slider module 103 to the proximal end, the T-shapedstructure slider 10351 slides in thelimit groove 1013 until it touches theouter ring 1063 of thetrigger module 106. Pushed by thecomponent 1071, theparallel slider module 103 continues to move proximally, while theouter ring 1063 blocks the T-shapedstructure slider 10351 from continuing to move proximally, so the T-shapedstructure slider 10351 bends or bends around the vertical part, The buckle connection between the T-shapedstructure buckle 10352 and thebuckle hole 10412 is released, and theanalyte detection device 104 is detached from theparallel slider module 103, so that it can be installed on the user's skin surface.

在本实用新型实施例中，T型结构滑块10351与外圈1063接触时，平行滑块模块103所处的位置为预定位置，此时，分析物检测装置的下外壳体10413与用户皮肤表面接触。In the embodiment of the present utility model, when the T-shapedstructure slider 10351 is in contact with theouter ring 1063, the position of theparallel slider module 103 is a predetermined position. touch.

在本实用新型实施例中，辅助针1052依次穿过第二通孔和第一通孔10414，而贯穿分析物检测装置104，同时，辅助针的半包围针体10522包络传感器1042。在平行滑块模块103和辅助针模块105向近端运动过程中，半包围针体10522携带传感器1042刺入皮下，辅助针1052缩回后，传感器1042体内部分保持在皮下，针体缩回时不影响传感器1042体内部分所处状态。In the embodiment of the present invention, theauxiliary needle 1052 passes through the second through hole and the first throughhole 10414 in order to penetrate theanalyte detection device 104 , and at the same time, the half of theauxiliary needle 10522 envelops thesensor 1042 . During the proximal movement of theparallel slider module 103 and theauxiliary needle module 105, thesemi-surrounding needle body 10522 carries thesensor 1042 and penetrates into the subcutaneous area. After theauxiliary needle 1052 is retracted, the internal part of thesensor 1042 remains under the skin. Does not affect the state of thesensor 1042 inside the body.

在本实用新型实施例中，实施安装动作时，需要用户在远端按压壳体101，向壳体101施加向近端的力F，触发模块106的外圈1063接触用户皮肤表面，用户皮肤给予外圈1063与力F反向的力F’，从而实现触发模块106与壳体101的相对运动。在实际安装过程中，触发模块106的绝对位置保持不变，壳体101向近端运动。In the embodiment of the present utility model, when implementing the installation action, the user needs to press thehousing 101 at the far end, and apply a force F to the proximal end to thehousing 101, theouter ring 1063 of thetrigger module 106 contacts the surface of the user's skin, and the user's skin gives Theouter ring 1063 is opposite to the force F' to realize the relative movement between thetrigger module 106 and thehousing 101 . During the actual installation process, the absolute position of thetrigger module 106 remains unchanged, and thehousing 101 moves proximally.

在实施安装动作之前，为防止触发模块106相对于壳体101发生运动，在壳体101的近端安装保护盖102，保护盖102包围在触发模块的外圈1063外侧，可以防止因误碰外圈1063而在不正确的位置实施安装动作，起到防触发的作用。Before implementing the installation action, in order to prevent thetrigger module 106 from moving relative to thehousing 101, aprotective cover 102 is installed on the proximal end of thehousing 101. Theprotective cover 102 surrounds theouter ring 1063 of the trigger module, which can prevent accidental contact with theouter ring 1063.Circle 1063 is installed in an incorrect position to prevent triggering.

内盖体1023的远端面10232与分析物检测装置104接触，同时辅助针1052和传感器1042伸入到内盖体凹槽10233，可以起到密封的作用，防止外界灰尘、颗粒等脏污与针体和传感器接触，造成污染。Thedistal surface 10232 of theinner cover 1023 is in contact with theanalyte detection device 104, and at the same time, theauxiliary needle 1052 and thesensor 1042 extend into theinner cover groove 10233, which can play a role of sealing and prevent external dust, particles, etc. The needle body is in contact with the sensor, causing contamination.

在本实用新型实施例中，分析物检测装置的下外壳体10413上还设置有胶布(图中未示出)，用于将分析物检测装置104固定在用户皮肤表面。In the embodiment of the present utility model, an adhesive plaster (not shown in the figure) is also provided on thelower casing 10413 of the analyte detection device for fixing theanalyte detection device 104 on the user's skin surface.

综上所述，本实用新型实施例公开了一种分析物检测装置安装单元，壳体上设置有限位槽，对应的，平行滑块模块上设置有T型结构滑块，T型结构滑块位于限位槽内，实施安装动作时，T型结构滑块在限位槽内滑动。T型结构滑块与限位槽的配合，可以对平行滑块模块起到限位作用，避免平行滑块模块在壳体内发生偏转，引导平行滑块模块在壳体内滑动，从而使传感器以垂直的方向刺入皮下，安装单元结构简单，便于使用。To sum up, the embodiment of the utility model discloses an installation unit for an analyte detection device. The housing is provided with a limiting slot. Correspondingly, the parallel slider module is provided with a T-shaped structure slider. The T-shaped structure slider It is located in the limit groove, and the T-shaped structure slider slides in the limit groove when the installation action is implemented. The cooperation between the T-shaped structure slider and the limit groove can limit the position of the parallel slider module, avoid the deflection of the parallel slider module in the housing, and guide the parallel slider module to slide in the housing, so that the sensor can be vertical The direction of piercing into the skin, the installation unit has a simple structure and is easy to use.

虽然已经通过示例对本实用新型的一些特定实施例进行了详细说明，但是本领域的技术人员应该理解，以上示例仅是为了进行说明，而不是为了限制本实用新型的范围。本领域的技术人员应该理解，可在不脱离本实用新型的范围和精神的情况下，对以上实施例进行修改。本实用新型的范围由所附权利要求来限定。Although some specific embodiments of the present utility model have been described in detail through examples, those skilled in the art should understand that the above examples are only for illustration, rather than limiting the scope of the present utility model. It should be understood by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present invention. The scope of the invention is defined by the appended claims.

Claims (14)

1. An analyte detection device mounting unit, comprising:

the shell is provided with a limiting groove;

the parallel sliding block module is provided with a T-shaped structure, the T-shaped structure comprises a horizontal part and a vertical part, the horizontal part comprises a T-shaped structure sliding block corresponding to the limiting groove, and the T-shaped structure sliding block is positioned in the limiting groove;

an analyte detection device disposed at a front end of the parallel slider module, the analyte detection device comprising a housing, an emitter, a sensor, and an internal circuit disposed within the housing and electrically coupled to the sensor;

a sub-needle module for inserting the sensor subcutaneously into a user;

a trigger module that performs an installation action when the trigger module moves distally relative to the housing; and

the elastic module is used for providing elastic force required by implementation of installation action;

when the installation action is implemented, the T-shaped structure sliding block slides towards the near end in the limiting groove.

2. The analyte detection device mounting unit of claim 1, wherein the horizontal portion bends or curves around the vertical portion when the T-shaped structure slider slides to a predetermined position, and the analyte detection device is separated from the parallel slider module.

3. The analyte detection device mounting unit of claim 2, wherein the analyte detection device is in contact with a skin surface of a user at the predetermined location.

4. The analyte detection device mounting unit of claim 1, wherein the restraint slot comprises at least two adjacent ribs.

5. The analyte detection device mounting unit of claim 4, wherein the ribs protrude from the housing inner wall.

6. The analyte detection device mounting unit of claim 4, wherein the ribs are parallel to one another.

7. The analyte detection device mounting unit of claim 1, wherein the retention groove is a groove recessed in an inner wall of the housing.

8. The analyte detection device mounting unit of claim 7, wherein the retention slots are symmetrically distributed on the housing.

9. The analyte detection device mounting unit of claim 8, wherein the number of retention slots is three.

10. The analyte detection device mounting unit of claim 1, wherein the upright portion is a flexible or resilient material.

11. The analyte detection device mounting unit of claim 1, wherein the vertical portion is integrally formed with the horizontal portion.

12. The analyte detection device mounting unit of claim 1, wherein the vertical portion and the horizontal portion are fixedly connected by welding or heat fusion.

13. The analyte detection device mounting unit of claim 1, wherein the T-shaped structure slider protrudes outside the parallel slider module.

14. The analyte detection device mounting unit of any one of claims 1-13, wherein the analyte detection device further comprises a patch for securing the analyte detection device to a skin surface of a user.

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