CN214750360U - Blood glucose sensor shell and blood glucose sensor - Google Patents

Abstract

The utility model discloses a blood sugar sensor shell and a blood sugar sensor, wherein the blood sugar sensor shell comprises a first shell cover and a second shell cover which are connected into the blood sugar sensor shell through a clamping component; the bottom of the second shell cover is provided with a subcutaneous embedding needle. The clamping assembly comprises a first clamping structure, a second clamping structure and a positioning buckle assembly, the first clamping structure comprises a protruding portion and a cantilever, the second clamping structure comprises a clamping buckle position and a suspension buckle, and the positioning buckle assembly comprises a guide arm and a guide position. When the first shell cover moves towards the second shell cover, the guide arm is inserted along the guide position, the reliable positioning of the subsequent connection is ensured, then the first clamping hook is buckled into the first clamping groove, the buckle position is buckled into the suspension buckle, and the two shell covers are fastened together; when the separation is needed, the hand pinching position is pinched, so that the cantilever is deformed to be separated from the first clamping hook and then is obliquely pulled down, the rear-end clamping position is also separated from the suspension buckle, the separation of the two is realized, and the operation is convenient.

Description

Blood glucose sensor shell and blood glucose sensor

Technical Field

The utility model relates to a blood glucose monitoring technology field relates to a blood glucose sensor casing and blood glucose sensor especially.

Background

Blood glucose monitoring is the real-time monitoring of blood glucose values. The real-time blood sugar monitoring can better control the blood sugar change of the diabetic patient, has important guiding significance on the living rule, the activity, the movement, the diet and the reasonable medication, and can help the patient to find problems at any time and get to a hospital for medical treatment in time.

At present current blood sugar monitoring devices when using, behind sensor module and patient's skin fixed connection, need be connected transmitter subassembly and sensor module, and at this moment, the monitoring circuit intercommunication begins to monitor, and in the monitoring process, the transmitter subassembly is real-time with blood sugar data signal transmission for terminal equipment. However, in this connection process, it becomes difficult to connect the arm to the back side of the upper arm, the back of the human body, or to connect the arm to the back side of the human body. In addition, the method is especially suitable for people who are fat and have inconvenient actions.

Disclosure of Invention

The utility model provides a blood glucose sensor casing and blood glucose sensor help solving above-mentioned problem.

The utility model provides a following technical scheme:

a blood glucose sensor shell comprises a first shell cover and a second shell cover, wherein a clamping component is arranged on a butt joint part of the first shell cover and the second shell cover, and the butt joint part of the first shell cover and the butt joint part of the second shell cover are connected through the clamping component to form the blood glucose sensor shell; the bottom of the second shell cover is provided with a subcutaneous embedding needle.

Optionally, the clamping assembly has a boss and a cantilever arm, wherein: the lug boss is arranged on the butt joint part of the first shell cover, and the top end of the lug boss is provided with a first clamping hook; the cantilever is arranged at the butt joint part of the second shell cover, and the top end of the cantilever is provided with a first clamping groove; when the first shell cover is connected with the second shell cover, the first clamping hook is clamped in the first clamping groove.

Optionally, a pinch position is arranged on the cantilever and used for driving the free end of the cantilever to move when the pinch position is pinched, so that the first clamping hook and the first clamping groove are released from clamping.

Optionally, a knob is disposed on an outer sidewall of the cantilever and proximate to the fixed end of the cantilever, the knob surface having structure for increasing friction.

Optionally, the clamping assembly further comprises a clamping position and a suspension buckle, wherein: the clamping buckle is arranged on the side wall of the butting part of the first shell cover, and the suspension buckle is arranged on the butting part of the second shell cover; when the first shell cover is connected with the second shell cover, the clamping position is connected with the suspension buckle in a clamping way.

Optionally, the fastening position is a second fastening groove formed in a side wall of the abutting portion of the housing, and when the first housing cover and the second housing cover are connected, the suspension fastener is fastened into the second fastening groove.

Optionally, the clamping assembly further has a guide arm and a guide site, wherein: the guide arm is arranged at the butt joint part of the first shell cover, and the guide position is arranged at the butt joint part of the second shell cover; when the first shell cover and the second shell cover are connected, the guide arm is correspondingly connected with the guide position.

Optionally, the guiding arm is a convex structure on the abutting part where the guiding arm is located, and the guiding position is a concave structure on the abutting part where the guiding arm is located; when the first shell cover and the second shell cover are connected, the convex structures are arranged in the concave structures.

A blood glucose sensor is a housing having any of the above features.

According to the technical scheme of the utility model, the housing of the blood sugar sensor is of a split structure and comprises a first housing cover and a second housing cover, when the first housing cover moves towards the second housing cover, the guide arm is inserted along the guide position to ensure the reliable positioning of the subsequent connection, then the first clamping hook is buckled into the first clamping groove, the buckle position is buckled into the suspension buckle, and the two housing covers are fastened together; when the first housing cover 1 needs to be detached and separated, the hand pinching position 212 is pinched inwards, so that after the first hook 11 and the first clamping groove 211 are separated, the buckling position 12 and the suspension buckle 22 have freedom degrees in the front-back direction, and after the first housing cover 1 is slightly rotated upwards, the first housing cover can be separated from the front direction. Such an operation is time-saving and labor-saving for connection when the user is not easily seen or when the user is not moving his/her arm, such as the back of the upper arm or the back of the user. It is also convenient for people with obesity and inconvenient movement.

Drawings

For purposes of illustration and not limitation, the present invention will now be described in accordance with its preferred embodiments, particularly with reference to the accompanying drawings, in which:

FIG. 1 is an exploded view of a perspective view of a blood glucose sensor housing according to an embodiment of the present application;

FIG. 2 is an exploded view of another perspective of a blood glucose sensor housing according to an embodiment of the present application;

FIG. 3 is a schematic view of an assembled configuration of a perspective of a blood glucose sensor housing according to an embodiment of the present application;

FIG. 4 is a schematic view of an alternative view of an assembly configuration of a blood glucose sensor housing according to an embodiment of the present application.

Detailed Description

When the blood glucose sensor shell in the embodiment of the application is used, the first shell cover moves towards the second shell cover, at the moment, the guide arm is inserted along the guide position to ensure the reliable positioning of subsequent connection, then the first clamping hook is buckled into the cantilever, the buckling position is buckled into the suspension buckle, and the two shell covers are fastened together; when the separation is needed, the hand pinching position is pinched, so that the suspension deformation is separated from the first clamping hook, then the suspension deformation is obliquely broken off, the rear-end clamping position is also separated from the suspension buckle, and the separation of the two is realized. The following is a detailed description.

Referring to fig. 1 to 4, the blood glucose sensor housing is a split structure, and includes a first housing cover 1 and a second housing cover 2, a clamping component is disposed on a butt-joint portion of the first housing cover 1 and the second housing cover 2, the butt-joint portion is a portion protruding from bottom surfaces of the first housing cover 1 and the second housing cover 2, and the two housing covers form a side wall in a height direction of the flat blood glucose sensor housing after being fastened tightly. The butt joint part of the first shell cover 1 and the butt joint part of the second shell cover 2 are connected through a clamping assembly to form a blood glucose sensor shell; the bottom of the second shell cover 2 is provided with a subcutaneous embedding needle which penetrates under the skin of a human body and is used for detecting the blood sugar content.

Utilize the joint subassembly to realize connecting between first cap 1 and the second cap 2, the stable connection between both can be realized to the joint subassembly, also makes things convenient for the split operation simultaneously. Specifically, the clamping assembly has a boss and a cantilever 21, wherein: the lug boss is arranged on the butt joint part of the first shell cover, and the top end of the lug boss is provided with a first clamping hook 11; the cantilever 21 is arranged at the butt joint part of the second shell cover, and the upper top end of the cantilever is provided with a first clamping groove 211; when the first shell cover 1 is connected with the second shell cover 2, the first hook 11 is clamped in the first clamping groove 211.

The clamping assembly further comprises a clamping position 12 and a suspension buckle 22, the clamping position 12 is arranged on the side wall of the butting part of the first shell cover 1, and the suspension buckle 22 is arranged on the butting part of the second shell cover 2; when the first shell cover 1 and the second shell cover 2 are connected, the buckling position 12 is connected with the suspension buckle 22 in a clamping mode.

Be equipped with on the cantilever and hold between the fingers hand position 212, when needs split separation, hold between the fingers hand position 212 and drive the free end of cantilever 21 and remove when being held between the fingers for the cantilever is out of shape and is broken away from first trip, then inclines to break off with the fingers down, and rear end buckle position also breaks away from the suspension and detains, realizes both separations. Wherein the knob position 212 is arranged on the outer side wall of the cantilever 21 and close to the fixed end of the cantilever, and the knob position surface has a structure for increasing the friction force. The clamping position is a second clamping groove formed in the side wall of the abutting portion of the shell, and when the first shell cover and the second shell cover are connected, the suspension buckle is buckled into the second clamping groove.

In order to ensure that the first housing cover and the second housing cover are better connected, the clamping assembly is also provided with a guide arm 13 and a guide position 23, the guide arm 13 is arranged at the butting part of the first housing cover 1, and the guide position 23 is arranged at the butting part of the second housing cover 2; when the first housing cover 1 and the second housing cover 2 are connected, the guide arm 13 is correspondingly connected with the guide position 23. The guide arm 13 is a convex structure on the butt joint part where the guide arm is located, and the guide position 23 is a concave structure on the butt joint part where the guide arm is located; when the first shell cover 1 and the second shell cover 2 are connected, the convex structures are arranged in the concave structures. The protruding structure is a U-shaped groove formed by sinking towards the center direction of the shell where the protruding structure is located.

When the blood glucose sensor in the embodiment of the utility model is used, the first shell cover 1 moves towards the second shell cover 2, and the guide arm 13 is inserted along the guide position 23 at the moment to ensure the reliable positioning of the subsequent connection, then the first clamping hook 11 is buckled into the first clamping groove 211, the clamping position 12 is buckled into the suspension buckle 22, and the two shells are fastened together; when the first housing cover 1 needs to be detached and separated, the hand pinching position 212 is pinched inwards, so that after the first hook 11 and the first clamping groove 211 are separated, the buckling position 12 and the suspension buckle 22 have freedom degrees in the front-back direction, and after the first housing cover 1 is slightly rotated upwards, the first housing cover can be separated from the front direction. Such an operation is time-saving and labor-saving for connection when the user is not easily seen or when the user is not moving his/her arm, such as the back of the upper arm or the back of the user. Provides convenience for people with obesity and inconvenient movement.

The above-described embodiments should not be construed as limiting the scope of the present application. Those skilled in the art will appreciate that various modifications, combinations, sub-combinations, and substitutions can occur, depending on design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (7)

1. A housing of a blood glucose sensor comprises a first housing cover and a second housing cover, and is characterized in that,

the butting part of the first shell cover and the butting part of the second shell cover are connected through a clamping component to form the blood glucose sensor shell;

second cap bottom is provided with the subcutaneous needle of burying, and the joint subassembly includes bellying and cantilever, wherein: the lug boss is arranged on the butt joint part of the first shell cover, and the top end of the lug boss is provided with a first clamping hook; the cantilever is arranged at the butt joint part of the second shell cover, and the top end of the cantilever is provided with a first clamping groove; when first cap and second cap are connected, first trip joint is in first draw-in groove, is equipped with on the cantilever and holds between the fingers the hand position, and the hand position of holding between the fingers is used for driving the free end of cantilever to remove when being held between the fingers to make first trip and first draw-in groove remove the joint.

2. The blood glucose sensor housing of claim 1,

the knob position is arranged on the outer side wall of the cantilever and is close to the fixed end of the cantilever, and the surface of the knob position is provided with a structure for increasing friction force.

3. The blood glucose sensor housing of claim 1, wherein the clip assembly further comprises a clip location and a suspension clip, wherein:

the clamping buckle is arranged on the side wall of the butting part of the first shell cover, and the suspension buckle is arranged on the butting part of the second shell cover;

when the first shell cover is connected with the second shell cover, the clamping position is connected with the suspension buckle in a clamping way.

4. The blood glucose sensor housing of claim 3,

the clamping position is a second clamping groove formed in the side wall of the abutting portion of the shell, and when the first shell cover and the second shell cover are connected, the hanging buckle is buckled into the second clamping groove.

5. The blood glucose sensor housing of any of claims 1-4, wherein the snap assembly further comprises a guide arm and a guide site, wherein:

the guide arm is arranged at the butt joint part of the first shell cover, and the guide position is arranged at the butt joint part of the second shell cover;

when the first shell cover and the second shell cover are connected, the guide arm is correspondingly connected with the guide position.

6. The blood glucose sensor housing of claim 5,

the guide arm is a convex structure on the butt joint part where the guide arm is located, and the guide position is a concave structure on the butt joint part where the guide arm is located;

when the first shell cover and the second shell cover are connected, the convex structures are arranged in the concave structures.

7. A blood glucose sensor having the blood glucose sensor housing of any one of claims 1-6.

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