CN110269628A - A kind of dynamic glucometer connects method for implantation automatically - Google Patents

Abstract

Dynamic glucometer disclosed in the present application connects method for implantation automatically, compared with prior art, comprising: will puncture connection component and is mounted on inside implanting instrument；Emitter assemblies are fixed on human skin；Push punctures connection component to emitter assemblies, and fixed punctures on connection component to transmitter.Dynamic glucometer provided by the present application connects method for implantation automatically, change the mode that transmitter is traditionally integrally carried out to push implantation, it is mounted in emitter assemblies without will first puncture connection component, it avoids to emitter assemblies and punctures the whole push of connection component progress, compared to existing technologies, pain and vibration sense are small, simultaneously because transmitter bottom surface is located at outside implanting instrument, the fastness that transmitter can be pasted using biggish double-sided adhesive enhancing transmitter, it can overcome the problems, such as to bring larger feeling of pain when traditional implanting instrument carries out transmitter push implantation for user, mitigate user's sense of discomfort.

Description

A kind of dynamic glucometer connects method for implantation automatically

Technical field

This application involves technical field of medical treatment mechanical, and more specifically more particularly to a kind of dynamic glucometer connects automatically Method for implantation.

Background technique

As the improvement of people's living standards, also more pay close attention to physical condition, it may be noted that health and each to body The detection of kind parameter.Such as periodic detection glycemic index is needed, pay close attention to sugar content in blood.We are generally by regularly blood The effects of sugared Index Monitoring pays close attention to physical condition from side, monitors health index.

Currently, one kind is used to puncture finger collection finger tip blood using test there are mainly two types of existing blood sugar test modes Blood glucose strip and blood glucose meter cooperate, discrete blood glucose value can be collected, another kind is dynamic blood sugar monitoring system CGM, is led to It crosses and is being subcutaneously implanted blood glucose sensor, the enzyme on sensor and subcutaneous tissue liquid reaction detection blood glucose value, and cooperate transmitter will Blood glucose value is sent to terminal, can collect continuous blood glucose value, for dynamic blood sugar monitoring system CGM, is implanted into blood glucose The implanting instrument of test sensor is one of essential device.

Wherein, there are mainly two types of blood glucose meter implantations, one is sensor assemblings on the base, first by the fixed skin of pedestal On skin, the attachment device with sensor is mounted on by pedestal by implanting instrument and realizes that one section of sensor is implanted to human body skin Under, finally on the base by emitter assemblies installation, realize the connection of Sensor section and emitter assemblies；Another is dress There is the puncture attachment device of sensor to be pre-installed in emitter assemblies, is then pushed emitter apparatus by implanting instrument Onto human skin, while one section of sensor being implanted to human body is subcutaneous, traditional blood glucose meter implanting instrument is by transmitter entirety Push implantation is carried out, biggish feeling of pain can be brought for user.

Therefore, how a kind of dynamic glucometer is provided and connects method for implantation automatically, can overcome traditional implanting instrument into The problem of bringing larger feeling of pain when the push implantation of row transmitter for user, mitigates user's sense of discomfort, has become this field skill Art personnel technical problem urgently to be resolved.

Summary of the invention

In order to solve the above technical problems, the application provides a kind of dynamic glucometer connects method for implantation automatically, can gram It takes traditional implanting instrument and carries out the problem of bringing larger feeling of pain when transmitter push implantation for user, mitigate user's sense of discomfort.

Technical solution provided by the present application is as follows:

The application provides a kind of dynamic glucometer and connects method for implantation automatically, comprising: will puncture connection component and is mounted on plant Enter tool interior；Emitter assemblies are fixed on human skin；Push punctures connection component to emitter assemblies, and fixation is worn It pierces on connection component to transmitter.

Further, in a kind of preferred mode of the present invention, emitter assemblies " are fixed on skin " by step specifically: It is equipped with double-sided adhesive in transmitter bottom, through sticking double faced adhesive tape on human skin.

Further, in a kind of preferred mode of the present invention, step " fixed to puncture on connection component to transmitter " tool Body are as follows: push punctures connection component downwards, is mounted on connection component in emitter assemblies by buckle.

Further, in a kind of preferred mode of the present invention, step " push punctures connection component to emitter assemblies " Specifically: pushing pin inside implanting instrument automatically detaches mechanism and is pushed to connection component is punctured in emitter assemblies downwards, and makes Connection component is mounted in emitter assemblies by buckle.

Further, in a kind of preferred mode of the present invention, pressing double bond triggering key is further comprised the steps of:, triggering is planted Enter tool interior automatically push pin detach mechanism push downwards puncture connection component.

Further, it in a kind of preferred mode of the present invention, further comprises the steps of: puncture connection component and is mounted on transmitter After component, the ejector-seat and implant needle detached in mechanism of pushing pin automatically is resetted.

Further, in a kind of preferred mode of the present invention." reset ejector-seat and the plant detached in mechanism of pushing pin automatically Enter needle " specifically: the returning spring inside implanting instrument pushes up ejection pedestal, and ejection pedestal drives implant needle to transport upwards It is dynamic, it is detached from and punctures connection component.

Further, in a kind of preferred mode of the present invention, in step, " push punctures connection component to transmitter group Before part, and fixed puncture on connection component to transmitter ", further comprise the steps of: according to the outer of emitter assemblies and implanting instrument Shape profile is by emitter assemblies in implanting instrument bottom.

A kind of dynamic glucometer provided by the invention connects method for implantation automatically, compared with prior art, comprising: will puncture Connection component is mounted on inside implanting instrument；Emitter assemblies are fixed on human skin；Push punctures connection component to hair Emitter assemblies, and on fixed puncture connection component to transmitter；Transmitter is integrally traditionally subjected to push plant in this way, changing The mode entered is mounted in emitter assemblies without will first puncture connection component, avoid to emitter assemblies and puncture connection Component carries out whole push, therefore pain and vibration sense are small, while because transmitter bottom surface is located at outside implanting instrument, transmitter can Traditional plant can be overcome compared to existing technologies with the fastness pasted using biggish double-sided adhesive enhancing transmitter Enter tool and carry out the problem of bringing larger feeling of pain when transmitter push implantation for user, mitigates user's sense of discomfort.

Detailed description of the invention

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of application for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 be the present embodiments relate to full-automatic sensor implanted device positive cut away view；

Fig. 2 be the present embodiments relate to full-automatic sensor implanted device in the case where emitter assemblies are not loaded into state Transverse cross sectional figure；

Fig. 3 be the present embodiments relate to full-automatic sensor implanted device after emitter assemblies loading under state Transverse cross sectional figure；

Fig. 4 be the present embodiments relate to full-automatic sensor implanted device be in triggering key after implantation process shape State schematic diagram；

Fig. 5 be the present embodiments relate to full-automatic sensor implanted device be in sensor be implanted into after the completion of state Schematic diagram；

Fig. 6 be the present embodiments relate to key trigger protection structure be in the schematic diagram under non-unlocked state；

Fig. 7 be the present embodiments relate to key trigger protection structure it is in the unlocked state under schematic diagram；

Fig. 8 be the present embodiments relate to ejection mechanism condition conversion schematic diagram；

Fig. 9 be the present embodiments relate to full-automatic sensor implanted device overall structure diagram.

Specific embodiment

In order to make those skilled in the art more fully understand the technical solution in the application, below in conjunction with the application reality The technical scheme in the embodiment of the application is clearly and completely described for the attached drawing for applying in example, it is clear that described embodiment Only a part of the embodiment of the application, instead of all the embodiments.Based on the embodiment in the application, this field is common Technical staff's every other embodiment obtained without making creative work belongs to the model of the application protection It encloses.

It should be noted that it can directly exist when element is referred to as on " being fixed on " or " being set to " another element On another element or indirectly setting on the other element；When an element is known as " being connected to " another element, It can be directly to another element or be indirectly connected on another element.

It is to be appreciated that term " length ", " width ", "upper", under ", "front", "rear", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "top", "bottom" "inner", "outside" is that orientation based on the figure or position are closed System is merely for convenience of description the application and simplifies description, rather than the device or element of indication or suggestion meaning must have Specific orientation is constructed and operated in a specific orientation, therefore should not be understood as the limitation to the application.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.It is multiple in the description of the present application ", " several " be meant that two or Two or more, unless otherwise specifically defined.

It should be clear that structure depicted in this specification attached drawing, ratio, size etc., only to cooperate specification revealed Content is not limited to the enforceable qualifications of the application, therefore does not have so that those skilled in the art understands and reads Technical essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size are not influencing the application institute energy Under the effect of generation and the purpose that can reach, it should all still fall in techniques disclosed in this application content and obtain the range that can cover It is interior.

Dynamic glucometer provided by the embodiments of the present application connects method for implantation automatically, comprising: will puncture connection component installation Inside implanting instrument；Emitter assemblies are fixed on human skin；Push punctures connection component to emitter assemblies, and solid Surely it punctures on connection component to transmitter.

The embodiment of the present invention provides a kind of dynamic glucometer and connects method for implantation automatically, compared with prior art, comprising: will Connection component is punctured to be mounted on inside implanting instrument；Emitter assemblies are fixed on human skin；Push punctures connection component To emitter assemblies, and fixed puncture on connection component to transmitter；Traditionally transmitter is integrally pushed away in this way, changing The mode of implantation is sent, i.e., being mounted in emitter assemblies without will first puncture connection component, being avoided to emitter assemblies and puncturing Connection component carries out whole push, therefore pain and vibration sense are small, while because transmitter bottom surface is located at outside implanting instrument, transmitting The fastness that device can be pasted using biggish double-sided adhesive enhancing transmitter can overcome biography compared to existing technologies System implanting instrument carries out the problem of bringing larger feeling of pain when transmitter push implantation for user, mitigates user's sense of discomfort.

Specifically, in embodiments of the present invention, step " emitter assemblies are fixed on skin " specifically: in transmitter bottom Portion is equipped with double-sided adhesive, through sticking double faced adhesive tape on human skin.

Specifically, in embodiments of the present invention, step " fixed to puncture on connection component to transmitter " specifically: push down on Puncture connection component is sent, is mounted on connection component in emitter assemblies by buckle.

Specifically, in embodiments of the present invention, step " push punctures connection component to emitter assemblies " specifically: implantation Tool interior automatically push pin detach mechanism by puncture connection component be pushed in emitter assemblies downwards, pass through connection component Buckle is mounted in emitter assemblies.

Specifically, in embodiments of the present invention, pressing double bond triggering key is further comprised the steps of:, is triggered inside implanting instrument Automatically push pin detach mechanism push downwards puncture connection component.

Specifically, in embodiments of the present invention, it further comprises the steps of: and punctures after connection component is mounted on emitter assemblies, it is multiple The automatic ejector-seat and implant needle detached in mechanism of pushing pin in position.

Specifically, in embodiments of the present invention, " ejector-seat and implant needle detached in mechanism of pushing pin automatically is resetted " specifically Are as follows: the returning spring inside implanting instrument pushes up ejection pedestal, and ejection pedestal drives implant needle to move upwards, is detached from and punctures Connection component.

Specifically, in embodiments of the present invention, in step, " push punctures connection component to emitter assemblies, and fixation is worn Pierce on connection component to transmitter " before, further comprising the steps of: will emit according to the appearance profile of emitter assemblies and implanting instrument Device assembly is in implanting instrument bottom.

It illustrates in more detail, there are mainly two types of existing dynamic glucometer implantations, and one is sensors to be assembled in On pedestal, first by the fixed skin of pedestal, the attachment device with sensor is mounted on by pedestal by implanting instrument and is realized One section of sensor to be implanted to human body subcutaneous, finally on the base by emitter assemblies installation, realizes Sensor section and transmitter The connection of component；Another puncture attachment device for being equipped with sensor is pre-installed in emitter assemblies, is then passed through Emitter apparatus is pushed on human skin by implanting instrument, while it is subcutaneous by one section of sensor to be implanted to human body.

Relative to implantation, new implantation improves traditional implantation, and implementation is as follows:

It punctures attachment device to be arranged inside implanting instrument, emitter assemblies are first now passed through the double-sided adhesive of its bottom surface by use It pastes on the skin, is then mounted on emitter assemblies on implanting instrument according to appearance profile, implantation work is triggered by key Automatic mechanism inside tool punctures attachment device by key triggering and is pushed to emitter assemblies downwards for connection component is punctured On, it is mounted on connection component in emitter assemblies by buckle.Meanwhile the front end of puncture needle and sensor piercing human body is subcutaneous In tissue, then implanting instrument interior ground resetting-mechanism is disconnected component with puncture needle, completes implantation movement.

The present embodiments relate to dynamic glucometer connect method for implantation automatically, using spring mechanism realize push puncture Connection component is mounted on transmitter while puncturing drawn needle realizing, changes tradition by needle, sensor and its connection component Transmitter integrally carries out to push implantation, therefore pain and vibration sense are small, while planting because the double-sided adhesive of transmitter bottom surface is located at Enter tool exterior, the fastness that transmitter can be pasted using biggish double-sided adhesive enhancing transmitter.

It should be noted that in the case where the technical solution implementation that the present embodiment is related to does not conflict, above-mentioned improved technology Scheme can be implemented alone or in combination.

In addition, the embodiment of the present invention further relates to a kind of connect the corresponding full-automatic biography of method for implantation automatically with dynamic glucometer Sensor implanted device, specially please as shown in Figures 1 to 9, and full-automatic sensor implanted device includes: supportive body 1；Set on institute It states inside supportive body 1, and carries the ejection mechanism 2 of implant needle 6；The ejection mechanism 2 for stress drive implant needle 6 to Lower movement；The ejection mechanism 2 is equipped with connection pushing part, and the connection pushing part punctures connection component 7 for pushing downwards To emitter assemblies 8.

The embodiment of the present invention provides a kind of full-automatic sensor implanted device, and the connection pushing part in supportive body 1 can push away It send and punctures in connection component 7 to emitter assemblies, be manually installed on transmitter it is not necessary that connection component 7 will be punctured, compared to existing For having technology, full-automatic implantation can be realized, safe and efficient in use, user experience is good.

Specifically, in embodiments of the present invention, the ejection mechanism 2 drives implant needle to move downward specifically for stress Are as follows: push spring 3 is equipped in the supportive body 1, the push spring 3 is for pushing the ejection mechanism 2 to drive implant needle 6 It moves downward.

Specifically, in embodiments of the present invention, the ejection mechanism 2 includes: the ejector-seat in the supportive body 1 21, set 22, returning spring 23 are propelled；The push spring 3 is moved downward specifically for propelling set 22 described in promotion；It is described to propel Set 22 is for driving the ejector-seat 21 to move downward；The returning spring 23 is for pushing ejector-seat 21 to move upwards.

Specifically, in embodiments of the present invention, the supportive body 1 includes: implantation housing 101；Outside the implantation Implantation inner sleeve 102 inside set 101.

Specifically, in embodiments of the present invention, the set 22 of propelling includes: set ontology 221；Set on the set ontology 221 On the first elastic spacing structure 222；The second elastic spacing structure 223 above the first elastic spacing structure 222；

Specifically as shown in Fig. 2~4 and Fig. 8, wherein the first elastic spacing structure 222 has and the implantation inner sleeve 102 The inconsistent first state of side wall, and be detached from second state inconsistent with implantation 102 side wall of inner sleeve；

Wherein, the second elastic spacing structure 223 have with 21 upper end of ejector-seat contradict, drive the ejector-seat 21 to The first state of lower movement, and disengaging is moved out in second state inconsistent with the ejector-seat 21.

Specifically, in embodiments of the present invention, the first elastic spacing structure has and 102 side wall of implantation inner sleeve Inconsistent first state, and be detached from second state inconsistent with implantation 102 side wall of inner sleeve specifically: the plant Enter inner sleeve 102 equipped with spacing block set 103, limits the first elastic spacing structure 222, first elastic spacing for contradicting Structure 222 has the first state contradicted with the spacing block set 103 and is detached from second constrained in the spacing block set 103 State.

Specifically, in embodiments of the present invention, the second elastic spacing structure 223 has and 21 upper end of ejector-seat It contradicts, the first state for driving the ejector-seat 21 to move down, and flicks disengaging outward and offset in the ejector-seat 21 Second state of touching specifically: 102 side wall of implantation inner sleeve, which offers, accommodates inside groove 103, for accommodating second elasticity Position limiting structure 223, the second elastic spacing structure has to be contradicted with 102 side wall of implantation inner sleeve, constrains the ejector-seat 21 first states moved down；And move outward at the receiving inside groove 103, it is detached from mobile in limiting the ejector-seat 21 The second state.

Wherein, the compression in advance of returning spring 23, which is placed on, propels between set 22 and ejector-seat 21；It is transported when puncturing connection component 7 When moving to bottom designated position, puncture connection component 7 mounted thereto is pushed in emitter assemblies 8, punctures connection group Buckle on part 7 buckles into 8 shell of emitter assemblies, while the cantilever for propelling 22 tops of set is detached from the constraint of inner sleeve, beats outward It opens, 21 bottom protrusion of ejector-seat for protruding into cantilever aperture originally is made to be detached from the constraint for the aperture being arranged on cantilever, final ejector-seat 21 under the action of 23 power of returning spring far from propelling set 22；Meanwhile the implant needle 6 being fixed on ejector-seat 21 follows it together It moves upwards, implant needle 6, which is detached from, at this time punctures connection component 7, completes implantation movement.

Specifically, in embodiments of the present invention, the first elastic spacing structure 222 with it is described propel 22 one of set at Type；The second elastic spacing structure 223 is integrally formed with the set 22 of propelling.

Specifically, in embodiments of the present invention, it pushes pin automatically and detaches mechanism further include: trigger mechanism 4, the trigger mechanism 4 drive implant needle 6 to move downward for triggering the ejection mechanism 2.

Specifically, in embodiments of the present invention, the trigger mechanism 4 includes: the triggering being arranged at the supportive body 1 Key 41；Be set to triggering key 41 and supportive body 1 between by key spring 42；The triggering key 41 is described for pushing First elastic spacing structure 222 is to offset at the center of the implantation inner sleeve 102, so that the first elastic spacing structure 222 are detached from the limit constraint in the spacing block set 103.

Specifically, in embodiments of the present invention, triggering key 41 include: push column 411 and with the promotion column 411 1 Body formed promotion cap 412；The triggering key 41 is specially two, and is oppositely arranged.

Specifically, in embodiments of the present invention, full-automatic sensor implanted device further includes key trigger protection structure 5, The key trigger protection structure 5 includes: the protection main structure body 51 in the supportive body 1；It is tied set on the protection Locking closure 52 in structure main body 51；On the protection main structure body 51, and it is located at the position limiting structure 53 of 52 lower section of locking closure； Set on the implanting instrument enclosure interior, cooperate with the position limiting structure 53, for limiting the bullet for constraining the position limiting structure 53 Property constraint block 9；The locking closure 52 has the lock state for contacting at key end and is detached from the unlocked state of key end.

Specifically, in embodiments of the present invention, the position limiting structure 53 includes: the first detent portion 531 and the second detent portion 532, the second detent portion 532 is located at the lower section in the first detent portion 531；Elastic spacing convex block 9 on constraint locking closure 52 by opening up First detent portion 531 and the second detent portion 532 limit constraint locking closure 52；

The elastic restraint block 103 is under 531 state of the first detent portion, and the locking closure 52 is in key end, constraint Limit movement of the key to implanting instrument case inside；The elastic restraint block 103 is under 532 state of the second detent portion, institute Stating locking closure 52, to move to key top in the unlocked state.

Wherein, when transmitter is not loaded into, the triangular hill being set in implantation inner sleeve 102 is buckling into 52 bottom of locking closure In " V " shape slot, the baffle on 52 top of locking closure blocks the triangle button bit of key at this time, move key can not, key is in spring Safe condition is kept under the action of power；

Key triggering state: emitter assemblies 8 push locking closure 52 to move up after being packed into, and the baffle of 52 top of locking closure setting leaves Triangle button bit on key, release tab.

When pushing key mobile to center, make that the resistance that the cantilever bending for propelling 22 bottoms of set is detached from implantation inner sleeve is arranged in It is downward under the action of push spring 3 to puncture the implant needle 6 and puncture connection component 7 propelling component and being fixed thereon for gear Movement.

Specifically, in embodiments of the present invention, the protection main structure body 51 is equipped with sliding limit body, is implanted into shell It is equipped with the sliding slot for the limit restraining structure vertical shift；51 bottom of protection main structure body is equipped with and signal projector The detent end being engaged.

Specifically, in embodiments of the present invention, the protection main structure body 51, the locking closure 52, the position limiting structure 53 It is an integral molding structure；First detent portion 531 and second detent portion 532 are an integral molding structure.

Specifically, in embodiments of the present invention, full-automatic sensor implanted device includes 2 key trigger protection structures, And 2 key trigger protection structures are oppositely arranged.

In conclusion the present embodiments relate to full-automatic sensor implanted device, triggered using two sides key, it is complete from Dynamic implantation, safe and efficient in use, user experience is good, and the size of the fixed adhesive plaster of transmitter is not by implanting instrument Limitation, transmitter can use biggish bond area, be more firmly mounted.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (8)

1. a kind of dynamic glucometer connects method for implantation automatically characterized by comprising

Connection component will be punctured to be mounted on inside implanting instrument；

Emitter assemblies are fixed on human skin；

Push punctures connection component to emitter assemblies, and fixed punctures on connection component to transmitter.

2. dynamic glucometer according to claim 1 connects method for implantation automatically, which is characterized in that step is " by transmitter Component is fixed on skin " specifically: it is equipped with double-sided adhesive in transmitter bottom, through sticking double faced adhesive tape on human skin.

3. dynamic glucometer according to claim 1 connects method for implantation automatically, which is characterized in that step is " fixed to puncture On connection component to transmitter " specifically: push punctures connection component downwards, and connection component is made to be mounted on transmitter by buckle On component.

4. dynamic glucometer according to claim 3 connects method for implantation automatically, which is characterized in that " push punctures step Connection component is to emitter assemblies " specifically: pushing pin inside implanting instrument automatically detaches mechanism, and will to puncture connection component downward It is pushed in emitter assemblies, is mounted on connection component in emitter assemblies by buckle.

5. dynamic glucometer according to claim 4 connects method for implantation automatically, which is characterized in that further comprise the steps of: by Double bond is pressed to trigger key, pushing pin inside triggering implanting instrument automatically detaches mechanism and push puncture connection component downwards.

6. dynamic glucometer according to claim 5 connects method for implantation automatically, which is characterized in that further comprise the steps of: and wear After thorn connection component is mounted on emitter assemblies, the ejector-seat and implant needle detached in mechanism of pushing pin automatically is resetted.

7. dynamic glucometer according to claim 6 connects method for implantation automatically, which is characterized in that " reset is pushed pin automatically Detach the ejector-seat and implant needle in mechanism " specifically: the returning spring inside implanting instrument pushes up ejection pedestal, ejection Pedestal drives implant needle to move upwards, and is detached from and punctures connection component.

8. connecting method for implantation automatically to dynamic glucometer described in 7 any one according to claim 1, which is characterized in that It further include step before step " push puncture connection component to emitter assemblies, and on fixed puncture connection component to transmitter " It is rapid: according to the appearance profile of emitter assemblies and implanting instrument by emitter assemblies in implanting instrument bottom.