CN208429421U - RFID device, RFID component and intellegent sampling container - Google Patents

Abstract

This disclosure relates to a kind of for the RFID device of sampling container, RFID component and intellegent sampling container including the RFID device or component.RFID device includes RFID component and the loading/unloading equipment suitable for loading/unloading RFID component.RFID component includes: holder, has the through channel for receiving sampling container and is suitable for RFID component being removably retained in sampling container；Reinforcement is used to enhance RFID component；And RFID chip, it is arranged in receiving portion, receiving portion is located at end face or the outer peripheral surface of the sub-assembly of holder and reinforcement.Loading/unloading equipment includes: loading/unloading apparatus body；With at least one the loading/unloading features being arranged on loading/unloading apparatus body, loading/unloading features include receiving cavity and the stopper section in receiving cavity, wherein, receiving cavity is suitable for receiving sampling container and RFID component, and stopper section is suitable for preventing RFID component from moving upwards along vertical direction while sampling container moves upwards along vertical direction in receiving cavity.

Description

RFID device, RFID component and intellegent sampling container

Technical field

The disclosure relates generally to medical instruments.Specifically, this disclosure relates to which a kind of RFID component, one kind include RFID The RFID device and a kind of intellegent sampling container of component and the loading/unloading equipment for the loading/unloading RFID component.

Background technique

Medical industry uses radio frequency identification (RFID) technology to identify sample collected more and more.For example, By using RFID chip in vacuum blood collection tube, it is whole that blood sampling, transmission, classification, sample preparation, detection, storage etc. may be implemented The digitlization of a process.Currently, usually RFID chip is embedded into vacuum blood collection tube, and RFID chip is connected after usage It is disposed together with vacuum blood collection tube.In other words, this RFID chip is disposable.Which greatly increases RFID chips Use cost, to limit RFID chip in the popularization and application of medical industry.

Utility model content

In the disclosure in a first aspect, providing a kind of RFID device for sampling container.The RFID device includes RFID component, the RFID component include: holder, and the holder has the through channel for receiving sampling container, and And it is suitable for for RFID component being removably retained on sampling container；Reinforcement, the reinforcement is for enhancing the holder； And RFID chip, the RFID chip are arranged in receiving portion, described accommodation section is located at the holder and the reinforcement Sub-assembly end face or outer peripheral surface.The RFID device includes loading/unloading equipment, and the loading/unloading equipment is suitable for RFID component Be installed on sampling container and/or suitable for unloading RFID component from sampling container, the loading/unloading equipment include: dress/ Unload apparatus body；With at least one the loading/unloading features being arranged on the loading/unloading apparatus body, the loading/unloading features packet Including receiving cavity and the stopper section in the receiving cavity, wherein the receiving cavity is suitable for receiving sampling container and RFID component, The stopper section is suitable for while the sampling container moves upwards along vertical direction in the receiving cavity described in prevention RFID component moves upwards along vertical direction.

By means of the loading/unloading equipment in the RFID device according to the disclosure, easily RFID component can be installed to and adopted It is unloaded from sampling container on sample container or after usage.Loading/unloading equipment may be used as the transfer frame of sampling container, For shifting sampling container in each treating stations (such as blood sampling, classification, sample preparation, detection, storage etc.).From sampling container The RFID component unloaded can be with indwelling in loading/unloading equipment, and therefore, the storage that loading/unloading equipment also serves as RFID component is set It is standby.In addition, RFID component can be installed on sampling container or used in automatic system by means of loading/unloading equipment It is unloaded from sampling container later, to realize the automation of loading/unloading operation.

According to one embodiment of the disclosure, the periphery setting of the holder is fluted, and the reinforcement is located at described In groove.

According to one embodiment of the disclosure, described accommodation section is configured to the lug on the end face of the holder, The lug has the cavity for accommodating the RFID chip.

According to one embodiment of the disclosure, described accommodation section is configured to recessed on the outer peripheral surface of the reinforcement Chamber, the RFID chip are arranged in the cavity.

According to one embodiment of the disclosure, the inner circumferential setting of the reinforcement is fluted, and the holder is configured to pad Circle, the washer are located in the groove and protrude a part from the groove.

According to one embodiment of the disclosure, described accommodation section is configured to the lug on the end face of the reinforcement, The lug has the cavity for accommodating the RFID chip.

According to one embodiment of the disclosure, described accommodation section is configured to recessed on the outer peripheral surface of the reinforcement Chamber, the RFID chip are arranged in the cavity.

According to one embodiment of the disclosure, the outer peripheral surface of the reinforcement is provided with stopper section, and the reinforcement stops Stopper is suitable for rotatably matching in the circumferential with the stopper section of the loading/unloading features.

According to one embodiment of the disclosure, the stopper section of the stopper section of the reinforcement and the loading/unloading features is equal With gradually circumferentially changing cross section.

According to one embodiment of the disclosure, the cross section of the stopper section of the reinforcement from first end to second end gradually Increase, and the cross section of the stopper section of the loading/unloading features is gradually reduced from the first end to the second end.

According to one embodiment of the disclosure, the cross section of the stopper section of the reinforcement from first end to second end gradually Reduce, and the cross section of the stopper section of the loading/unloading features is gradually increased from the first end to the second end.

According to one embodiment of the disclosure, the stopper section of the reinforcement is configured to screw thread, and the loading/unloading features Stopper section be configured to the matching thread to match with the screw thread.

According to one embodiment of the disclosure, the loading/unloading features further include being located in the receiving cavity and being located at institute The anti-delinking part below the stopper section of loading/unloading features is stated, and the anti-delinking part is set as prominent from the inner surface of the receiving cavity Circumferential rib out.

According to one embodiment of the disclosure, the receiving cavity is recessed inwardly from the outer surface of the loading/unloading apparatus body.

According to one embodiment of the disclosure, the receiving cavity includes that the first receiving cavity to communicate with each other and second receive Chamber, wherein the first receiving cavity is configured so that sampling container can along the vertical direction freely in or out first together with RFID component Receiving cavity, and the second receiving cavity be configured so that sampling container can along the vertical direction freely in or out second receiving cavity and RFID component cannot pass in and out the second receiving cavity along the vertical direction.

According to one embodiment of the disclosure, the horizontal cross-section of the first receiving cavity is substantially rounded, the water of the second receiving cavity Plane section extends certain length from the first receiving cavity, and in one end basic semicircular in shape opposite with the first receiving cavity.

According to one embodiment of the disclosure, the second receiving cavity of the loading/unloading features includes undercutting, the undercutting tool There are upper and lower surfaces, wherein the upper surface of the undercutting forms the stopper section of the loading/unloading features.

According to one embodiment of the disclosure, the lower surface of the undercutting forms the anti-delinking part of the loading/unloading features.

According to one embodiment of the disclosure, the loading/unloading equipment is in the shape of cube.

According to one embodiment of the disclosure, the loading/unloading equipment is made of polyformaldehyde material.

According to one embodiment of the disclosure, the RFID chip is bonded in described accommodation section.

According to one embodiment of the disclosure, the holder is made of thermoplastic elastic material.

According to one embodiment of the disclosure, the reinforcement is made of polyamide material.

In the second aspect of the disclosure, a kind of RFID component for sampling container is provided.The RFID component includes: Holder, the holder have the through channel for receiving sampling container, and are suitable for removedly protecting RFID component It holds on sampling container；Reinforcement, the reinforcement is for enhancing the holder；And RFID chip, the RFID chip It is arranged in receiving portion, described accommodation section is located at end face or the outer peripheral surface of the sub-assembly of the holder and the reinforcement.

By the way that RFID chip to be set in RFID component, and RFID component is configured to be removably retained in sampling On container, RFID component and RFID chip can be unloaded from sampling container after usage.By cleaning and disappearing After poison, the RFID component and RFID chip can be used for new sampling container, realize the reusable of RFID chip, from And significantly reduce the use cost of RFID chip.

In the third aspect of the disclosure, a kind of intellegent sampling container is provided.The intellegent sampling container includes that sampling is held Device and RFID device according to the disclosure.

In the fourth aspect of the disclosure, a kind of intellegent sampling container is provided.The intellegent sampling container includes that sampling is held Device and RFID component according to the disclosure.

Detailed description of the invention

In order to will be readily understood that above and other feature and advantage of the disclosure, by the tool with reference to the disclosure shown in the drawings Body embodiment more specifically describes the disclosure.These attached drawings depict only the exemplary embodiments of the disclosure, therefore are not considered as It limits the scope of the present disclosure, in which:

Fig. 1 is the view according to the RFID device of first embodiment of the present disclosure；

Fig. 2 (a) is the perspective view according to the RFID component of first embodiment of the present disclosure；

Fig. 2 (b) is the exploded view of RFID component shown in Fig. 2 (a)；

Fig. 3 (a) is the perspective view according to the RFID component of the variant schemes of first embodiment of the present disclosure；

Fig. 3 (b) is the exploded view of RFID component shown in Fig. 3 (a)；

Fig. 4 is the perspective view according to the loading/unloading equipment of first embodiment of the present disclosure；

Fig. 5 is the detail view according to the loading/unloading features of the loading/unloading equipment of first embodiment of the present disclosure；

Fig. 6 is shown unloads RFID component using the loading/unloading equipment of first embodiment of the present disclosure from sampling container Step；

Fig. 7 is the view according to the RFID device of second embodiment of the present disclosure；

Fig. 8 is the perspective view according to the RFID component of second embodiment of the present disclosure；

Fig. 9 is the exploded view according to the RFID component of second embodiment of the present disclosure；

Figure 10 is the perspective view according to the loading/unloading equipment of second embodiment of the present disclosure；

Figure 11 is the detail view according to the loading/unloading features of the loading/unloading equipment of second embodiment of the present disclosure；

Figure 12 is shown unloads RFID component using the loading/unloading equipment of second embodiment of the present disclosure from sampling container Step.

Specific embodiment

The description disclosure that hereinafter reference will be made to the drawings, attached drawing therein show several embodiments of the disclosure.However it should Understand, the disclosure can show in a number of different manners, it is not limited to embodiment as described below；It is true On, embodiment as described below is intended to make the disclosure of the disclosure more complete, and absolutely proves this public affairs to those skilled in the art The protection scope opened.It is to be further understood that embodiment disclosed herein can be combined in various ways, to provide more Mostly additional embodiment.

It should be understood that in all the appended drawings, identical appended drawing reference indicates identical element.It in the accompanying drawings, is clear The size of Chu Qijian, certain features can be deformed.

It should be understood that the terminology in specification is only used for description specific embodiment, it is no intended to limit the disclosure. All terms (including technical terms and scientific terms) that specification uses unless otherwise defined, all have those skilled in the art Normally understood meaning.For the sake of concise and/or is clear, well known function or structure can be no longer described in detail.

Singular " one ", " described " and "the" that specification uses are unless clearly indicate, comprising plural form.Explanation The terminology "include", "comprise" and " containing " that book uses indicate there is claimed feature, but there are one or more for repulsion A other feature.The terminology "and/or" that specification uses includes related any and whole group for listing one or more of item It closes.The terminology " between x and y " and should be construed as including X and Y " between about X and Y " that specification uses.This specification The terminology " between about X and Y " used is meant " between about X and about Y ", and the terminology that this specification uses " from about X to Y " is meant " from about X to about Y ".

In the description, claim an element be located at another element "upper", " attachment " to another element, " connected " to another member Whens part, " connection " are to another element or " contact " another element etc., the element can on another element, be attached to Another element is connected to another element, is attached to another element or another element of contact, or may exist intermediary element.Phase Control claims an element is " direct " to be located at another element "upper", " directly attachment " extremely another element, " being directly connected to " to another One element, " directly couple " to another element or or when " directly contacting " another element, there will be no intermediary elements.Illustrating In book, a feature placement at another feature " adjacent ", can refer to a feature have the part Chong Die with adjacent feature or Person is located at the part above or below adjacent feature.

In the description, the spatial relationship of "upper", "lower", "left", "right", "front", "rear", "high", " low " etc. is used Diction can illustrate a feature and the relationship of another feature in the accompanying drawings.It should be understood that spatial relationship terminology in addition to comprising It also include the different direction of device in use or operation except orientation shown in the drawings.For example, device in the accompanying drawings reverses When, originally it was described as the feature in other feature " lower section ", was can be described as at this time in " top " of other feature.Device may be used also To orient (be rotated by 90 ° or in other orientation) in other ways, relative space relation will be interpreted accordingly at this time.

Referring to Fig.1, the RFID device 10 according to first embodiment of the present disclosure is shown.RFID device 10 can be used for adopting Sample container (such as vacuum blood collection tube etc.) 100.RFID device 10 includes the portion RFID being removably retained on sampling container 100 Part 200 and loading/unloading for RFID component 200 to be installed on sampling container 100 and/or is unloaded from sampling container 100 Equipment 300.

RFID component 200 includes RFID chip 206.In use, RFID component 200 is installed on sampling container 100；Make With rear, RFID component 200 can be unloaded together with RFID chip 206 from sampling container 100.By simply cleaning and After disinfection, RFID component 200 and RFID chip 206 can be reused for new sampling container.In this way, realizing RFID core Piece 206 it is reusable, so as to greatly reduce the use cost of RFID chip 206, be conducive to RFID chip and curing It treats the popularization and application of industry etc. and is conducive to promote the digitlization process of medical industry.

By means of loading/unloading equipment 300, easily RFID component 200 can be installed on sampling container 100 and/or It is unloaded from sampling container 100 after use.It in a preferred embodiment, can be in automatic system by means of loading/unloading equipment Middle RFID component 200 is installed on sampling container 100 and/or after usage from sampling container 100 unloads, thus Realize the automation of loading/unloading operation.Loading/unloading equipment 300 is also used as the transfer frame of sampling container 100, in each processing Stand (such as blood sampling, classification, sample preparation, detection, storage etc.) transfer sampling container 100.It is unloaded from sampling container 100 RFID component 200 can be stored in loading/unloading equipment 300, therefore, loading/unloading equipment 300 also serves as the storage of RFID component 200 Deposit equipment.

The RFID component 200 according to first embodiment of the present disclosure is described in detail referring to Fig. 2 (a) and (b).RFID component 200 include holder 202, reinforcement 204 and RFID chip 206.

Holder 202 is made of elastic material, and have for receive sampling container 100 axially through channel 220. At when sampling container 100 is inserted into channel 220, holder 202 is pushed outwardly the size configurations in channel 220.In this way, logical RFID component 200 is removably retained on sampling container 100 by the elastic force for crossing holder 202.

In some embodiments, holder 202 is made of thermoplastic elastomer (TPE) (TPE) material.The holder formed in this way 202 have high resiliency, are capable of providing desired elastic force and good retentivity, hold to reduce RFID component 200 from sampling The risk slid on device 100.In addition, TPE material is environment-protecting and non-poisonous, it is very safe in health medical treatment application.

Depending on the cross sectional shape of sampling container, the channel 220 of holder 202 can have a variety of different shapes.Such as Shown in Fig. 2 (b), the channel 220 of holder 202 is rounded, for accommodating the sampling container 100 of circular cross-section.However, if adopting Sample container 100 has such as cross sectional shape of ellipse or polygon, then holder 202 can have matches with sampling container Ellipse or polygonal shaped channels 220.

Reinforcement 204 is used to enhance certain characteristics of holder 202, for example enhances its rigidity and wearability.Reinforcement 204 It is placed on along the groove 212 of the periphery of holder 202 setting.Reinforcement 204 is by more rigid or resistance to compared to holder 202 The material of mill is made.In some embodiments, reinforcement 204 can be made of polyamide (PA) material.The enhancing formed in this way Part has high mechanical stiffness, superior wearability and good coefficient of friction.On the one hand, which can be improved RFID component 200 rigidity is easy to facilitate loading/unloading equipment 300 when needing and unloading RFID component 200 from sampling container 100 Ground carries out unloading operation；On the other hand, which can be improved the service life of RFID component, to reduce RFID component Use cost.

Reinforcement 204 is in the shape of annulus, but the disclosure is not limited to this.According to the peripheral shape of holder 202, enhancing Part 204 can correspondingly have different shapes, such as ellipse, polygon or other arbitrary shapes.

Holder 202 is provided with the receiving portion for accommodating RFID chip.As shown in Fig. 2 (a) and (b), cage structure is accommodated At the lug 208 on the end face for being located at holder 202.Lug 208 can be in rectangular shape, and its short transverse is parallel to guarantor The axial direction (vertical direction in Fig. 2 (a)) of gripping member 202.It is provided on lug 208 for accommodating RFID chip 206 Cavity 210.Cavity 210 is recessed inwardly certain depth from the outer surface of lug 208.RFID chip 206 can use glue etc. It is bonded in inside cavity 210.Cavity 210 can protect RFID chip 206 and exempt to be affected by the outside factors or destroy.

Fig. 3 (a) and (b) show the RFID component 200 according to the variant schemes of first embodiment of the present disclosure.In the change In type scheme, receiving portion is configured to the cavity 210 in the outer peripheral surface of reinforcement 204.RFID chip 206 can use glue Etc. being bonded in inside cavity 210.

The loading/unloading equipment 300 according to first embodiment of the present disclosure is described in detail referring to Fig. 4 and Fig. 5.Loading/unloading equipment 300 are configured to by translating sampling container 100 with vertical direction in the horizontal direction come loading/unloading RFID component 200.

Loading/unloading equipment 300 includes ontology 302.Ontology 302 can be in the shape of cube.Be provided on ontology 302 to Few one is used for the loading/unloading features 304 of loading/unloading RFID component 200.In this embodiment, loading/unloading features 304 include from The big receiving cavity 306 and small receiving cavity 308 that the outer surface of ontology 302 is recessed inwardly.Big receiving cavity 306 and small receiving cavity 308 exist There is certain depth, so that sampling container 100 can be received in big receiving cavity 306 and small receiving cavity on vertical direction In 308.

The cross-sectional configuration of big receiving cavity 306 is at making the sampling container 100 can be along the vertical direction together with RFID component 200 Free in and out big receiving cavity 306.The cross-sectional configuration of small receiving cavity 308 at enable sampling container 100 along the vertical direction freely Pass in and out small receiving cavity 308 and RFID component 200 cannot pass in and out small receiving cavity 308 along the vertical direction.As shown in Figure 4 and Figure 5, greatly The horizontal cross-section of receiving cavity 306 diametrically biggish circle.The horizontal cross-section of small receiving cavity 308 extends one from big receiving cavity 306 Fixed length, and in one end opposite with big receiving cavity 306 diametrically lesser semicircle.It should be understood that according to adopting The horizontal cross sectional geometry of the true form of sample container 100, big receiving cavity 306 and small receiving cavity 308 can with shown in Fig. 4 and Fig. 5 Shape it is different.For example, the big horizontal cross-section of receiving cavity 306 and a part of of horizontal cross-section of small receiving cavity 308 can be in more Side shape, as long as it can be such that the sampling container 100 with RFID component 200 frees in and out.

Undercutting 310 is provided with below the top opening of small receiving cavity 308.Undercutting 310 is configured to can be by RFID component 200 are received in wherein.Undercutting 310 has upper and lower surfaces.Upper surface forms stopper section, for preventing RFID component 200 It is moved up along vertical direction in small receiving cavity 308.Lower surface forms anti-delinking part, for preventing RFID component 200 small It is fallen downwards along vertical direction in receiving cavity 308.

Loading/unloading equipment 300 shown in Fig. 4 includes six loading/unloading features 304；Loading/unloading equipment shown in fig. 5 only includes One loading/unloading feature 304.According to actual needs, the loading/unloading features 304 of other quantity can also be set.For example, loading/unloading is set Standby 300 may include two, three, four, five, or more loading/unloading features 304.

Loading/unloading equipment 300 can be made of polyformaldehyde (POM) material.Loading/unloading equipment made of in this way has good rigid Degree, lower coefficient of friction, good impact flexibility, good solvent resistance and superior creep resistance.

Next the method that description utilizes 300 loading/unloading RFID component 200 of loading/unloading equipment.It describes to utilize with reference first to Fig. 6 The method that loading/unloading equipment 300 unloads the RFID component 200 being mounted on sampling container 100.Specifically, into When row unloading operation, following operating procedure is executed:

A) sampling container 100 for being equipped with RFID component 200 is aligned to the big receiving cavity 306 of loading/unloading equipment 300；

B) sampling container 100 for being equipped with RFID component 200 is moved to vertically downwards in big receiving cavity 306；

C) sampling container 100 for being equipped with RFID component 200 is moved to small reception from big receiving cavity 306 in the horizontal direction The end of chamber 308；

D) sampling container 100 is moved up along vertical direction, due to the stopping by small receiving cavity 308 of RFID component 200 Stopper stops and cannot move up along the vertical direction, so that sampling container 100 removes loading/unloading equipment 300 and RFID component 200 are blocked in the undercutting 310 of small receiving cavity 308, so that RFID component 200 be unloaded from sampling container 100.

It, can be usual according to those skilled in the art after unloading RFID component 200 from sampling container 100 Known method is cleaned and is sterilized to RFID component 200, then RFID component 200 can be used for other sampling container 100, carry out next round operation.

RFID component 200 after last round of use can be stored in loading/unloading equipment 300, therefore, can directly be passed through The RFID component 200 is mounted on new sampling container 100 with method for dismounting substantially opposite step.Specifically, into When row installation operation, following steps are executed:

A ') sampling container 100 is aligned to the RFID component 200 being placed in the small receiving cavity 308 of loading/unloading equipment 300 Through channel 220；

B ') sampling container 100 is moved vertically downwards and is entered in small receiving cavity 308 and RFID component In 200 through channel 220, so that RFID component 200 is remained to sampling container by the holder 202 via RFID component 200 On 100；

C ') it sampling container 100 is moved to from small receiving cavity 308 in the horizontal direction together with RFID component 200 connects greatly It receives in chamber 306；

D ') sampling container 100 is moved up along the vertical direction together with RFID component 200, to will be mounted with The sampling container 100 of RFID component 200 is removed from loading/unloading equipment 300.

Using the disclosure RFID component 200 when, have no need to change the sampling or other processes of sampling container 100, only need RFID component 200 is installed on sampling container 100 before the use.RFID component 200 is being installed to sampling container After on 100, RFID component 200 is always held on the sampling container 100 in the entire service life of sampling container 100, is used In carrying out lasting tracking to the sample in sampling container 100.

It is first according to traditional process after RFID component 200 is installed on sampling container 100 by taking blood examination as an example First pass through RFID component 200 and veritify and be printed for the label of the sampling container 100, then using the sampling container 100 come into Row blood specimen collection, sequence executes the old process such as transmission, classification, sample preparation, test and the storage of blood sample later.At this In a little processes, RFID component 200 is always held on sampling container 100.Reader can be introduced in each different work station RFID chip 206 is written and read, to realize digitlization in each process.

Referring next to Fig. 7, the RFID device 20 according to second embodiment of the present disclosure is shown.With 10 base of RFID device This is identical, and RFID device 20 includes the RFID component 200 ' being removably retained on sampling container 100 ' and is used for RFID The loading/unloading equipment 300 ' that component 200 ' is installed on sampling container 100 ' and/or unloads from sampling container 100 '.

The RFID component 200 ' according to second embodiment of the present disclosure is described in detail referring to Fig. 8 and Fig. 9.RFID component 200 ' include reinforcement 202 ', holder 204 ' and RFID chip 206 '.

Different from the RFID component 200 of first embodiment, the reinforcement 202 ' of the RFID component 200 ' of second embodiment exists Its inner peripheral surface have groove, holder 204 ' be located in the groove of reinforcement 202 ' and from the groove towards reinforcement in The radially projecting a part of the heart 202 '.Holder 204 ' has the through channel 220 ' for receiving sampling container 100 ', and Suitable for flexibly contacting when being inserted into sampling container 100 ' with the outer surface of sampling container 100 ', pass through its elastic force for the portion RFID Part 200 ' is removably retained on sampling container 100 '.

Holder 204 ' can be made of thermoplastic elastomer (TPE) (TPE) material.The holder formed in this way has high resiliency, It is capable of providing good retentivity, to reduce the risk that RFID component 200 slides from sampling container 100.In addition, TPE material Expect it is environment-protecting and non-poisonous, health medical treatment application in it is very safe.

Reinforcement 202 ' can be made of the material more rigid or wear-resisting compared to holder 204 '.Particularly, enhance Part 202 ' can be made of polyamide (PA) material.The reinforcement formed in this way have high mechanical stiffness, superior wearability and Good coefficient of friction.On the one hand, which can be improved the rigidity of RFID component 200 ', thus needing RFID component 200 ', which facilitate loading/unloading equipment 300 when unloading from sampling container 100 ', is easy to carry out unloading operation；On the other hand, the increasing Strong part can be improved the service life of RFID component, to reduce the use cost of RFID component.

Depending on the peripheral shape of sampling container 100 ', the channel 220 ' of holder 204 ' can have a variety of different shapes Shape.In the embodiment shown in fig. 8, the channel 220 ' of holder 204 ' is rounded, for accommodating the sampling container of circular cross-section 100'.However, if sampling container 100 ' have for example ellipse or polygon shape, holder 204 ' can have with The ellipse or polygonal shaped channels 220 ' that sampling container matches.

As shown in figure 9, holder 204 ' is configured to the washer of O shape.In some embodiments, holder 204 ' can construct At the washer of other shapes (such as ellipse, polygon etc.).In addition, as shown in figure 9, the reinforcement 202 ' of RFID component 200 ' In only arrange a washer.In some embodiments, two or more washers can be arranged in reinforcement 202 ', to obtain Desired elastic force.

As shown in FIG. 8 and 9, holder 204 ' is formed as individual component, but the disclosure is not limited to this.In some realities It applies in example, holder 204 ' can be integrally formed with reinforcement 202 '.For example, holder 204 ' is configurable to be formed in RFID Protrusion on the inner surface of the reinforcement 202 ' of component 200 '.Protrusion can be in the reinforcement 202 ' of RFID component 200 ' Continuously extend on inner surface, can also discontinuously be distributed.For example, protrusion can be as washer in the interior of reinforcement 202 ' It is extended continuously on surface one week, the intermittent protuberance of hemispherical one by one can also be formed as, etc..Holder 204 ' can also configure At any other proper shape or structure.

Reinforcement 202 ' is provided with the receiving portion for accommodating RFID chip.As shown in Figure 8 and Figure 9, receiving portion is configured to Lug 208 ' on the end face of reinforcement 202 '.Lug 208 ' can be in rectangular shape as shown in Figure 8 and Figure 9, and Its short transverse is parallel to the axial direction (vertical direction in Fig. 8) of reinforcement 202 '.It is provided with and is used on lug 208 ' Accommodate the cavity 210 ' of RFID chip 206 '.Cavity 210 ' is recessed inwardly from the outer surface of lug 208 ' extends certain depth. RFID chip 206 ' can use glue etc. and be bonded in 210 ' inside of cavity.Cavity 210 ' can protect RFID chip 206 ' from The influence or destruction of external factor.

In some embodiments, it can be also configured to for accommodating the receiving portion of RFID chip located immediately at reinforcement 202 ' Outer peripheral surface in cavity.RFID chip can use glue etc. and be bonded in inside cavity.

Different from the RFID component 200 of first embodiment, the RFID component 200 ' of second embodiment is in reinforcement 202 ' Periphery is also set up there are two opposite stopper section 212 '.Stopper section 212 ' is from the outer periphery of reinforcement 202 ' perpendicular to reinforcement The direction of 202 ' axial direction extends outwardly.Stopper section 212 ' with according to the loading/unloading of second embodiment of the present disclosure for setting Stopper section on standby 300 ' cooperates to unloading RFID component 200 ', will be described below in detail.

The loading/unloading equipment 300 ' according to second embodiment of the present disclosure is described in detail referring next to Figure 10 and Figure 11. Different from the loading/unloading equipment 300 of first embodiment, the loading/unloading equipment 300 ' of second embodiment uses the rotation of sampling container 100 ' Transhipment is dynamic to carry out loading/unloading RFID component 200 ' with translational motion along the vertical direction.

Loading/unloading equipment 300 ' includes ontology 302 '.Ontology 302 ' can be in the shape of cube.It is arranged on ontology 302 ' There is at least one loading/unloading features 304 ' for loading/unloading RFID component 200 '.In this embodiment, loading/unloading features 304 ' Including the receiving cavity 310 ' for receiving sampling container 100 '.There are two opposite for setting near the upper end of receiving cavity 310 ' Stopper section 306 '.Stopper section 306 ' prevents RFID component 200 ' for matching with the stopper section 212 ' in RFID component 200 ' It moves upwards along vertical direction, in order to unload RFID component 200 ' from sampling container 100 '.In stopper section 306 ' lower sections are provided with anti-delinking part 308 ', for preventing RFID component 200 ' from falling vertically downwards, thus by the portion RFID Part 200 ' is maintained between stopper section 306 ' and anti-delinking part 308 '.In this embodiment, anti-delinking part 308 ' is configured to circumferential rib.

The stopper section 306 ' of loading/unloading equipment 300 ' and the stopper section 212 ' of RFID component 200 ' in structure circumferentially from one another Matching.(c) in 1 referring to Fig.1, in one embodiment, the stopper section 212 ' of RFID component 200 ' is configured with circumferentially The cross section gradually changed, the cross section of stopper section 212 ', which can pass through, is gradually increased (or reduction).Correspondingly, Stopper section 306 ' is also constituted with the cross section gradually changed, but variation tendency is opposite with stopper section 212 ', it may be assumed that stopper section 306 ' Cross section pass through and be gradually reduced (or increase).In this way, when stopper section 212 ' is rotated relative to stopper section 306 ' It cannot be further continued for rotating after to the position of exact matching, so that RFID device 200 ' is locked in latched position (see Figure 11 In (d)).

In another embodiment, the stopper section 212 ' of RFID component 200 ' is it is so structured that screw thread.Correspondingly, loading/unloading The stopper section 306 ' of equipment 300 ' is configured to the matching thread to match with the screw thread of stopper section 212 ', to make stopper section 212 ' It is formed and is threadedly engaged with stopper section 306 '.

Different come loading/unloading RFID component 200 by translational motion from the loading/unloading equipment 300 of first embodiment, second implements The translational motion of the loading/unloading equipment 300 ' of example by rotary motion and along the vertical direction is come loading/unloading RFID component 200 '.Referring to figure 12 describe to unload the RFID component 200 ' being mounted on sampling container 100 ' using loading/unloading equipment 300 ' first Method.Specifically, executing following operating procedure when carrying out unloading operation:

A) sampling container 100 ' that will be equipped with RFID component 200 ' is directed at the receiving cavity 310 ' of loading/unloading equipment 300 '；

B) sampling container 100 ' for being equipped with RFID component 200 ' is moved in receiving cavity 310 ' vertically downwards；

C) sampling container 100 ' is rotated along a first direction, until stopper section 212 ' and the loading/unloading of RFID component 200 ' are set Until standby 300 ' stopper section 306 ' is fully locked；

D) sampling container 100 ' is moved up along vertical direction, since RFID component 200 ' is hindered by stopper section 306 ' Gear and cannot move up along the vertical direction so that sampling container 100 ' removes loading/unloading equipment 300 ' and 200 ' quilt of RFID component It is blocked between stopper section 306 ' and circumferential rib 308 ', so that RFID component 200 ' be unloaded from sampling container 100 '.

It, can be logical according to those skilled in the art after unloading RFID component 200 ' from sampling container 100 ' Often known method is cleaned and is sterilized to RFID component 200 ', then RFID component 200 ' can be used for other sampling Container 100 ' carries out next round operation.

RFID component 200 ' after last round of use can be stored in loading/unloading equipment 300 ', therefore, can directly be led to The step substantially opposite with method for dismounting is crossed to be mounted on the RFID component 200 ' on new sampling container 100 '.Specifically, When carrying out installation operation, following steps are executed:

A ') sampling container 100 ' is aligned to the RFID component 200 ' being placed in the receiving cavity 310 ' of loading/unloading equipment 300 ' Through channel 220 '；

B ') sampling container 100 ' is moved vertically downwards and is entered in receiving cavity 310 ' and RFID component In 200 ' through channel 220 ', so that RFID component 200 ' is attached to sampling by the holder 204 ' via RFID component 200 ' On container 100 '；

C ') along the second direction rotation sampling container 100 ' opposite with first direction, until stopping for RFID component 200 ' Until stopper 212 ' is rotated away from the stopper section 306 ' of loading/unloading equipment 300 '；

D ') sampling container 100 ' is moved up along the vertical direction together with RFID component 200 ', to will be mounted with The sampling container 100 ' of RFID component 200 ' is removed from loading/unloading equipment 300 '.

In addition, although in a second embodiment, RFID component 200 ' is used cooperatively with loading/unloading equipment 300 ', still The RFID component 200 ' of second embodiment can also be used cooperatively with the loading/unloading equipment 300 of first embodiment, as long as by loading/unloading The big receiving cavity 306 and small receiving cavity 308 of equipment 300 are designed to be suitable for the size of RFID component 200 '.

Similarly, although in the first embodiment, RFID component 200 is used cooperatively with loading/unloading equipment 300, the The RFID component 200 of one embodiment can also be used cooperatively with the loading/unloading equipment 300 ' of second embodiment, as long as in RFID component The stop part similar with stop part 212 ' is set on 200 reinforcement 204.

Although it have been described that the example embodiment of the disclosure, it will be understood by those skilled in the art that at this A variety of variations can be carried out in the case where not departing from spirit and scope of the present disclosure in matter to the example embodiment of the disclosure and are changed Become.Therefore, all changes and change are all contained in the protection scope of the disclosure defined by claim.The disclosure is by adding Claim limit, and the equivalent of these claims is also included.

Claims (40)

1. a kind of RFID device, the RFID device is used for sampling container, which is characterized in that the RFID device includes:

RFID component, the RFID component include:

Holder, the holder have the through channel for receiving sampling container, and are suitable for can be removed RFID component Ground is maintained on sampling container；

Reinforcement, the reinforcement is for enhancing the holder；And

RFID chip, the RFID chip are arranged in receiving portion, and described accommodation section is located at the holder and the reinforcement Sub-assembly end face or outer peripheral surface；

Loading/unloading equipment, the loading/unloading equipment are suitable for that RFID component is installed on sampling container and/or is suitable for RFID component It is unloaded from sampling container, the loading/unloading equipment includes:

Loading/unloading apparatus body；With

At least one loading/unloading features on the loading/unloading apparatus body are set, and the loading/unloading features include receiving cavity With the stopper section being located in the receiving cavity, wherein the receiving cavity is suitable for receiving sampling container and RFID component, the backstop Portion is suitable for preventing the RFID component while sampling container moves upwards along vertical direction in the receiving cavity It moves upwards along vertical direction.

2. RFID device as described in claim 1, which is characterized in that fluted, the increasing is arranged in the periphery of the holder Strong part is located in the groove.

3. RFID device as claimed in claim 2, which is characterized in that described accommodation section is configured to positioned at the end of the holder Lug on face, the lug have the cavity for accommodating the RFID chip.

4. RFID device as claimed in claim 2, which is characterized in that described accommodation section is configured to positioned at the outer of the reinforcement Cavity on circumferential surface, the RFID chip are arranged in the cavity.

5. RFID device as described in claim 1, which is characterized in that fluted, the guarantor is arranged in the inner circumferential of the reinforcement Gripping member is configured to washer, and the washer is located in the groove and protrudes a part from the groove.

6. RFID device as claimed in claim 5, which is characterized in that described accommodation section is configured to positioned at the end of the reinforcement Lug on face, the lug have the cavity for accommodating the RFID chip.

7. RFID device as claimed in claim 5, which is characterized in that described accommodation section is configured to positioned at the outer of the reinforcement Cavity on circumferential surface, the RFID chip are arranged in the cavity.

8. RFID device as described in claim 1, which is characterized in that the outer peripheral surface of the reinforcement is provided with stopper section, institute The stopper section for stating reinforcement is suitable for rotatably matching in the circumferential with the stopper section of the loading/unloading features.

9. RFID device as claimed in claim 8, which is characterized in that the stopper section of the reinforcement and the loading/unloading feature The stopper section in portion all has gradually circumferentially changing cross section.

10. RFID device as claimed in claim 9, which is characterized in that the cross section of the stopper section of the reinforcement is from first Second end is held to be gradually increased, and the cross section of the stopper section of the loading/unloading features is from the first end to the second end It is gradually reduced.

11. RFID device as claimed in claim 9, which is characterized in that the cross section of the stopper section of the reinforcement is from first Second end is held to be gradually reduced, and the cross section of the stopper section of the loading/unloading features is from the first end to the second end It is gradually increased.

12. RFID device as claimed in claim 8, which is characterized in that the stopper section of the reinforcement is configured to screw thread, and institute The stopper section for stating loading/unloading features is configured to the matching thread to match with the screw thread.

13. RFID device as claimed in claim 8, which is characterized in that the loading/unloading features further include being located at the reception Anti-delinking part below stopper section that is intracavitary and being located at the loading/unloading features, and the anti-delinking part is set as from the reception The inner surface of chamber circumferential rib outstanding.

14. RFID device as described in claim 1, which is characterized in that the receiving cavity is outside the loading/unloading apparatus body Surface is recessed inwardly.

15. RFID device as described in claim 1, which is characterized in that the receiving cavity includes that first to communicate with each other receives Chamber and the second receiving cavity, wherein the first receiving cavity is configured so that sampling container can along the vertical direction certainly together with RFID component First receiving cavity is passed in and out by ground, and the second receiving cavity is configured so that sampling container can along the vertical direction freely in or out second Receiving cavity and RFID component cannot pass in and out the second receiving cavity along the vertical direction.

16. RFID device as claimed in claim 15, which is characterized in that the horizontal cross-section of the first receiving cavity is substantially rounded, The horizontal cross-section of second receiving cavity extends a segment length from the first receiving cavity, and basic in one end opposite with the first receiving cavity Semicircular in shape.

17. RFID device as claimed in claim 15, which is characterized in that the second receiving cavity of the loading/unloading features includes Undercutting, the undercutting have upper and lower surfaces, wherein the upper surface of the undercutting forms stopping for the loading/unloading features Stopper.

18. RFID device as claimed in claim 17, which is characterized in that it is special that the lower surface of the undercutting forms the loading/unloading The anti-delinking part in sign portion.

19. the RFID device as described in any one of claim 1-18, which is characterized in that the loading/unloading equipment is in cube Shape.

20. the RFID device as described in any one of claim 1-18, which is characterized in that the loading/unloading equipment is by polyformaldehyde Material is made.

21. the RFID device as described in any one of claim 1-18, which is characterized in that the RFID chip is bonded in described In receiving portion.

22. the RFID device as described in any one of claim 1-18, which is characterized in that the holder is by thermoplastic elastic Body material is made.

23. the RFID device as described in any one of claim 1-18, which is characterized in that the reinforcement is by polyamide material It is made.

24. a kind of RFID component, the RFID component is used for sampling container, which is characterized in that the RFID component includes:

Holder, the holder have the through channel for receiving sampling container and are suitable for RFID component removedly It is maintained on sampling container；

Reinforcement, the reinforcement is for enhancing the holder；And

RFID chip, the RFID chip are arranged in receiving portion, and described accommodation section is located at the holder and the reinforcement Sub-assembly end face or outer peripheral surface.

25. RFID component as claimed in claim 24, which is characterized in that the periphery setting of the holder is fluted, described Reinforcement is located in the groove.

26. RFID component as claimed in claim 25, which is characterized in that described accommodation section is configured to positioned at the holder Lug on end face, the lug have the cavity for accommodating the RFID chip.

27. RFID component as claimed in claim 25, which is characterized in that described accommodation section is configured to positioned at the reinforcement Cavity on outer peripheral surface, the RFID chip are arranged in the cavity.

28. RFID component as claimed in claim 24, which is characterized in that the inner circumferential setting of the reinforcement is fluted, described Holder is configured to washer, and the washer is located in the groove and protrudes a part from the groove.

29. RFID component as claimed in claim 28, which is characterized in that described accommodation section is configured to positioned at the reinforcement Lug on end face, the lug have the cavity for accommodating the RFID chip.

30. RFID component as claimed in claim 28, which is characterized in that described accommodation section is configured to positioned at the reinforcement Cavity on outer peripheral surface, the RFID chip are arranged in the cavity.

31. RFID component as claimed in claim 24, which is characterized in that the periphery of the reinforcement is provided with stopper section.

32. RFID component as claimed in claim 31, which is characterized in that the stopper section of the reinforcement has circumferentially gradually The cross section of variation.

33. RFID component as claimed in claim 32, which is characterized in that the cross section of the stopper section of the reinforcement is from first Second end is held to be gradually increased.

34. RFID component as claimed in claim 32, which is characterized in that the cross section of the stopper section of the reinforcement is from first Second end is held to be gradually reduced.

35. RFID component as claimed in claim 31, which is characterized in that the stopper section of the reinforcement is configured to screw thread.

36. the RFID component as described in any one of claim 24-35, which is characterized in that the RFID chip is bonded in institute It states in receiving portion.

37. the RFID component as described in any one of claim 24-35, which is characterized in that the holder is by thermoplastic elastomehc Elastomer material is made.

38. the RFID component as described in any one of claim 24-35, which is characterized in that the reinforcement is by polyamide material Material is made.

39. a kind of intellegent sampling container, which is characterized in that the intellegent sampling container includes:

Sampling container；With

RFID device as described in any one in claim 1-23.

40. a kind of intellegent sampling container, which is characterized in that the intellegent sampling container includes:

Sampling container；With

RFID component as described in any one in claim 24-38.