CN209077353U - Anti-overflow device for cleaning device - Google Patents

Abstract

The utility model relates to a kind of anti-overflow devices for cleaning device comprising: body part, for the ring structure body with inner hole, body part has opposite first end and second end along the axial direction of inner hole；One or more baffle is radially formed with predetermined accommodation space towards the spiralling rotating channel of first end, and in inner hole to be formed in inner hole by wall portion the radially extending along inner hole of inner hole.Anti-overflow device provided by the utility model is capable of forming the baffle of spiralling rotating channel by being arranged in the inner hole of body part, can prevent cleaning solution from overflowing from the service sink of cleaning device, and have the advantages of simple structure and easy realization.

Description

Anti-overflow device for cleaning device

Technical field

The utility model relates to medical diagnostic equipment technical fields, more particularly to a kind of anti-overflow dress for cleaning device It sets.

Background technique

Biochemiluminescence immunoassay has many advantages, such as that high sensitivity, the range of linearity are wide and easy to operate, quick, is facing Bed inspection is widely used in field.Currently, the biochemiluminescence based on biochemiluminescence immunoassay measures Instrument has become mature medical diagnostic equipment.Biochemiluminescence measurement needs to draw sample and related reagent by specimen needle Reaction, in order to avoid carrying pollution effect testing result caused by specimen needle, it is desirable that the specimen needle of sampling must be clean 's.

In the prior art there are two solution to this problem: first is that using the disposable tip of head insulation, still This method consumptive material loss is big, at high cost, also limits the use of level detection.Second is that using the metal probe reused, Specimen needle is cleaned before every sub-sampling, for example, specimen needle is cleaned using ultrasonic cleaning equipment or cleaning solution douching technique, with Control the carrying pollution between sample.

Ultrasonic cleaning equipment higher cost, structure is more complex, is not easy to later maintenance；And current cleaning solution douching technique Used in cleaning device hydraulic pressure, flow velocity that cleaning solution is formed in service sink it is poor to the cleaning effect of specimen needle, nothing Method meets the standard requirements of residual contamination rate, and there are the risk that cleaning solution overflows service sink, reliability is lower.

Utility model content

The purpose of the utility model is to provide a kind of anti-overflow device for cleaning device, cleaning solution can be prevented from clear It is overflowed in the service sink of cleaning device.

The utility model embodiment proposes a kind of anti-overflow device for cleaning device, which includes: ontology Portion, for the ring structure body with inner hole, body part has opposite first end and second end along the axial direction of inner hole；One or Multiple baffles, baffle by inner hole wall portion radially extending along inner hole, in inner hole formed towards first end spiral Rotating channel, and be radially formed with predetermined accommodation space in inner hole.

According to the one aspect of the utility model embodiment, the quantity of baffle be it is multiple, each baffle inclines towards first end Tiltedly, multiple baffles along inner hole circumferential direction helically it is ladder-like distribution to form rotating channel.

According to the one aspect of the utility model embodiment, the value range of the helix angle β of each baffle are as follows: 15 °≤β ≤25°。

According to the one aspect of the utility model embodiment, two adjacent baffles have predetermined space in the axial direction, and It is continuously distributed in the circumferential, axially move closer to the baffle of second end and close to the baffle portion in the circumferential of first end in multiple baffles Divide overlapping.

According to the one aspect of the utility model embodiment, close to the baffle of second end along the circumferential direction of inner hole in multiple baffles Angle, θ 1 meets formula (1), remaining baffle meets formula (2) along the circumferential angle, θ 2 of inner hole:

θ1>360/n (1)

θ 2=360/n (2)

Wherein, n is the quantity of baffle.

According to the one aspect of the utility model embodiment, each baffle is formed with the side of indent far from the side of inner hole Edge, the edge of multiple baffles form predetermined accommodation space.

According to the one aspect of the utility model embodiment, predetermined accommodation space with the projection in axially vertical plane For strip-shaped hole or slotted eye.

According to the one aspect of the utility model embodiment, the quantity of baffle is four, and predetermined accommodation space includes corresponding to In the second position of the central axis of inner hole, four baffles two adjacent baffles far from the side of inner hole be respectively formed with 1/4 arc edge of female coaxial and indent, other two baffle are respectively formed with far from the side of inner hole by straightway and interior Strip-shaped hole is collectively formed in the special-shaped edge of recessed 1/4 circular arc composition, two 1/4 arc edges and two special-shaped edges.

According to the one aspect of the utility model embodiment, the quantity of baffle is four, and predetermined accommodation space includes corresponding to In the second position of the central axis of inner hole, four baffles two adjacent baffles far from the side of inner hole be respectively formed with First curved edge of female coaxial and indent, other two baffle are respectively formed with the second arc-shaped side far from the side of inner hole Slotted eye is collectively formed in edge, two the first curved edges and two the second curved edges.

According to the one aspect of the utility model embodiment, the second end of body part is provided with to be outwardly protruded around inner hole Flange, flange can extend into the opening of service sink；Alternatively, the second end of body part is provided with the groove along axial depression, clearly The opening of wash pool can extend into groove.

Anti-overflow device provided by the embodiment of the utility model for cleaning device, by being arranged in the inner hole of body part It is capable of forming the baffle of spiralling rotating channel, can prevent cleaning solution from overflowing from the service sink of cleaning device, and It has the advantages of simple structure and easy realization.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of cleaning device provided by the embodiment of the utility model；

Fig. 2 is the structural schematic diagram of one of cleaning device shown in FIG. 1 service sink；

Fig. 3 is the cross-sectional view in the direction service sink A-A shown in Fig. 2；

Fig. 4 is the effect diagram that specimen needle is cleaned in the second chamber of cleaning part；

Fig. 5 is the structural schematic diagram of another cleaning part of service sink shown in Fig. 2；

Fig. 6 is the schematic cross-sectional view of another service sink provided by the embodiment of the utility model；

Fig. 7 is the schematic top plan view of service sink shown in fig. 6；

Fig. 8 is the structure that another cleaning device provided by the embodiment of the utility model removes liquid feed device and pumping equipment Schematic diagram；

Fig. 9 is the structural schematic diagram of the anti-overflow device in cleaning device shown in Fig. 8；

Figure 10 is the longitudinal sectional view of anti-overflow device shown in Fig. 9；

Figure 11 is the top view of anti-overflow device shown in Fig. 9；

Figure 12 is the top view of another anti-overflow device provided by the embodiment of the utility model；

Figure 13 is the flow diagram of specimen needle cleaning method provided by the embodiment of the utility model；

Figure 14 is using the cleaning specimen needle of specimen needle cleaning method shown in Figure 13, and specimen needle is in the second position and the second chamber The velocity profile of the cleaning solution of the end of specimen needle when the distance between bottom surface of room h=1mm；

Figure 15 is using the cleaning specimen needle of specimen needle cleaning method shown in Figure 13, and specimen needle is in the second position and the second chamber The velocity profile of the cleaning solution of the end of specimen needle when the distance between bottom surface of room h=5mm；

Figure 16 is using the cleaning specimen needle of specimen needle cleaning method shown in Figure 13, and specimen needle is in the second position and the second chamber The velocity profile of the cleaning solution of the end of specimen needle when the distance between bottom surface of room h=7mm.

Wherein:

1- first chamber；2- second chamber；1a- first is open；The outlet 1b-；2a- second is open；3- side wall；3a- first Side wall；3b- second sidewall；4- overflow launder；11- cleaning part；12- reinforcing rib；X- first direction；α-predetermined angular；β-spiral liter Angle；The first position P1-；The second position P2-；L- preset distance；The first depth dimensions of L1-；The second depth dimensions of L2-；

10- service sink；20- liquid feed device；30- pumping equipment；40- anti-overflow device；41- body part；13,42- baffles； 41a- first end；41b- second end；41c- inner hole；C- accommodation space；Arc edge；44- abnormity edge；14,45- items Shape hole or slotted eye；The first curved edge of 46-；The second curved edge of 47-；48- flange.

In the accompanying drawings, identical component uses identical appended drawing reference.The attached drawing is not drawn according to the actual ratio.

Specific embodiment

The feature and exemplary embodiment of the various aspects of the utility model is described more fully below.It is retouched in detail in following In stating, many details are proposed, in order to provide the comprehensive understanding to the utility model.But for those skilled in the art It will be apparent that the utility model can be implemented in the case where not needing some details in these details for member. Below the description of embodiment is used for the purpose of providing by showing the example of the utility model to the more preferable of the utility model Understanding.In the the accompanying drawings and the following description, at least part of known features and technology are not shown, to avoid to this reality Unnecessary obscure is caused with novel；Also, for clarity, may be exaggerated the size of part-structure.In addition, hereinafter being retouched Feature, the structure or characteristic stated can be incorporated in any suitable manner in one or more embodiments.

The noun of locality of middle appearance described below is direction shown in figure, is not the specific structure to the utility model It is defined.In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is pacified Dress ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to detachable connection, or be integrally connected； It can be directly connected, can also be indirectly connected.For the ordinary skill in the art, on visual concrete condition understands State the concrete meaning of term in the present invention.

The utility model in order to better understand, below with reference to Fig. 1 to Figure 16 to provided by the embodiment of the utility model clear Wash pool, cleaning device, anti-overflow device and specimen needle cleaning method are described in detail.

Refering to fig. 1, the utility model embodiment provides a kind of cleaning device comprising service sink 10, liquid feed device 20 With pumping equipment 30.

Liquid feed device 20 is connected to one end of the specimen needle N with inner and outer wall, to provide the cleaning of cleaning specimen needle N Liquid.The other end of specimen needle N protrudes into service sink 10, to clean the inner and outer wall of specimen needle N.Pumping equipment 30 is for receiving The waste liquid flowed out from service sink 10.

The specific structure for the service sink 10 that embodiment that according to the present invention will be described in detail below with reference to the accompanying drawings provides.

Referring to Figure 2 together and Fig. 3, what service sink 10 had first chamber 1 and be connected to first chamber 1 first is open 1a With outlet 1b, be provided with cleaning part 11 in first chamber 1, cleaning part 11 there is second chamber 2 and be connected to second chamber 2 the Two opening 2a, and the second opening 2a and the first opening 1a is arranged in the same direction.

Second chamber 2 has the side of the bottom surface 2b and connection bottom surface 2b and second opening 2a opposite with the second opening 2a Wall 3, side wall 3 include upwardly extending the first side wall 3a of preset distance by bottom surface 2b and being located at the first side wall 3a and second to be open Second sidewall 3b between 2a, second sidewall 3b are along the tapered setting of first direction X by the opening of bottom surface 2b to second 2a.

Liquid feed device 20 is provided in the cleaning solution to service sink 10 of regime flow as a result, the wall portion and cleaning of first chamber 1 Space between portion 11 is used to clean the inner wall of specimen needle N, and the second chamber 2 of cleaning part 11 is used to clean the outer wall of specimen needle N, The region of the end 3mm of general only cleaning specimen needle N, cleaning solution flow out to pumping equipment 30 by exporting 1b.

Specifically, refering to Fig. 4, cleaning solution cleans its inner wall, and liquid feed device during flowing out from specimen needle N The flow q of 20 offers is bigger, and the inner wall washing of specimen needle N must be cleaner.When specimen needle N is moved to the second chamber of cleaning part 11 When being h in 2 and at a distance from bottom surface 2b, the cleaning solution fluid flowed out from specimen needle N impacts the bottom surface of second chamber 2 first 2b, and quickly flowed to the two sides of bottom surface 2b, under the action of the first side wall 3a, cleaning solution fluid is anti-by bottom surface 2b's Bullet moves upwards, and occurs flowing commutation under the action of the second sidewall 3b of tapered setting, and guidance cleaning solution fluid cleans sample The outer wall of this needle N.

There are the losses of momentum during cleaning solution fluid moves in second chamber 2, so that flowing out from specimen needle N clear There are speed differences between cleaning solution fluid after wash fluids and the commutation of side wall 3, to form vortex at second sidewall 3b.Clearly Flow q can reduce when washing lotion flows through second sidewall 3b, and the pressure of cleaning solution is caused to increase, to be conducive to clean specimen needle N's Outer wall.Meanwhile second sidewall 3b also limits cleaning solution to a certain extent and overflows from the second opening 2a.

Service sink 10 provided by the utility model has tapered the by being arranged in the cleaning part 11 of first chamber 1 The second chamber 2 of two side wall 3b, so that cleaning solution can form vortex in second chamber 2, to improve the cleaning effect of specimen needle N Fruit is allowed to meet the standard requirements of residual contamination rate, and at low cost, convenient for safeguarding.

Referring again to Fig. 3, as previously mentioned, second sidewall 3b along by bottom surface 2b to second be open 2a first direction X gradually Contracting setting, wherein be in predetermined angle between second sidewall 3b and the first side wall 3a.Experiment proves that the value of predetermined angle When range is 5 °≤α≤15 °, cleaning solution can effectively be inhibited to overflow from the second opening 2a.

In addition, second chamber 2 is L1 along the first depth dimensions of first direction X, the first side wall 3a is upward by bottom surface 2b Preset distance L≤0.5L1 of extension.The bottom surface 2b of second chamber 2 can be any in plane, spherical and tapered surface Person.Rebound is moved upwards after bottom surface 2b since cleaning solution fluid impacts, and the own form of spherical, tapered surface has Guiding role so that the speed loss of cleaning solution fluid relative to bottom surface 2b be plane when speed loss it is smaller.

It should be noted that when bottom surface 2b be spherical or tapered surface when, between specimen needle N and bottom surface 2b away from From the distance between the top that h refers to minimum range, i.e. specimen needle N and spherical or tapered surface h.

Second chamber 2 can be any one of round hole, elliptical aperture and strip-shaped hole along the cross section of first direction X.The One chamber 1 can be round hole or slotted eye along the cross section of first direction X, and the utility model embodiment is with first chamber 1, second chamber 2 along the cross section of first direction X be round hole for be illustrated.

Further, be further provided in first chamber 1 support cleaning part 11 reinforcing rib 12, and reinforcing rib 12, The accommodation space that can accommodate specimen needle N is formed between cleaning part 11 and first chamber 1.The quantity of reinforcing rib 12 can be one It is a or more than two, wall portion circumferentially-spaced distribution of more than two reinforcing ribs 12 along first chamber 1.Preferably, cleaning part 11 are located at the middle part of first chamber 1, so that the space between the wall portion of first chamber 1 and cleaning part 11 is all phase in either direction Deng, convenient in the inner wall of any position in space specimen needle N capable of washing.

Refering to Fig. 5, cleaning part 11 offers multiple overflows through second sidewall 3b at the position of the second opening 2a Slot 4, and overflow launder 4 is along second depth dimensions L2≤0.5L1 of first direction X.Since cleaning solution is formed in second chamber 2 Generate biggish hydraulic pressures during vortex, setting overflow launder 4 can discharge the Fluid pressure of cleaning solution, make cleaning solution from It overflows, and is flowed in the space between the wall portion of first chamber 1 and cleaning part 11 in the overflow launder 4, finally from outlet 1b discharge Into pumping equipment 30.

When the quantity of overflow launder 4 is even number, such as 4, it can be symmetrical arranged, it, can be with when the quantity of overflow launder 4 is odd number It is uniformly distributed in the circumferential direction of the second opening 2a, with the pressure of balance purge liquid.

Referring to Figure 6 together and Fig. 7, the section view of another service sink provided by the embodiment of the utility model is respectively illustrated Schematic diagram and schematic top plan view.During due to cleaning specimen needle N, cleaning solution is inevitably opened from the first of service sink 10 The reliability of test equipment is sputtered and influenced at mouthful.For this purpose, the first chamber of service sink 10 provided by the embodiment of the utility model The wall portion of room 1 is further provided with one or more baffle 13 above cleaning part 11, one or more baffle 13 Extended by wall portion towards the inner space of first chamber 1, to form the spiral towards the first opening 1a in first chamber 1 Rotating channel, and be formed in first chamber 1 and to accommodate the accommodation space that specimen needle N is moved along desired trajectory.The pre- orbit determination Mark refers to first position P1 and cleaning part of the specimen needle N between the wall portion and cleaning part 11 of the first chamber 1 of service sink 10 The track moved back and forth between the second position P2 of 11 second chamber 2, as shown in Figure 6.

The spiralling rotating channel that one or more baffle 13 is formed can stop cleaning solution from the first opening 1a Splashing is gone out, and remaining cleaning solution is made slowly to flow down along rotating channel under the effect of gravity and not end up at gear On piece 13.Spiralling purpose, which also resides in, makes baffle 13 have different inclined-planes, prevents cleaning solution shape in some plane At the bubble chamber film being difficult to clean off.

Preferably, the quantity of baffle 13 is multiple, and each baffle 13 is towards the first opening 1a inclination, and multiple baffles 13 are along the The circumferential direction of one chamber 1 is helically ladder-like to be distributed to form rotating channel.Baffle 13 towards first opening 1a be obliquely installed, be for By the guide functions of baffle 13, the cleaning solution under gear is made along the surface of the inclined baffle 13 to flow to first chamber 1 Wall portion avoids cleaning solution from splashing on the outer wall of specimen needle N.

The helix angle β of each baffle 13 is related with the internal diameter of first chamber 1, and internal diameter is bigger, helix angle β's Value is bigger.Preferably, the value range of the helix angle β of each baffle 13 are as follows: 15 °≤β≤25 °.

Further, two adjacent baffles 13 have predetermined space on X in a first direction, and the predetermined space is smaller more to be held The bubble chamber film of covering baffle 13 is easily formed, therefore when structure size allows, two adjacent baffles 13 should be increased as far as possible and existed Predetermined space on first direction X.In addition, two adjacent baffles 13 are in continuously distributed in the circumferential, the closing of 360 ° of formation Ring, so as to prevent cleaning solution from circumferentially overflowing.

Wherein, it is open 1a's along first direction X close to the baffle 13 of the first opening 1a in multiple baffles 13 and far from first Interval of the baffle 13 in a first direction on X is larger, and cleaning solution rebounds splashing between in order to prevent, therefore the two is in the circumferential Partly overlap setting.

In addition, the side of each wall portion of the baffle 13 far from first chamber 1 is formed with the edge of indent, multiple baffles 13 Edge forms predetermined accommodation space.Predetermined accommodation space in the plane vertical with first direction X be projected as strip-shaped hole 14 or Person's slotted eye 14, as shown in Figure 7.The predetermined accommodation space answers smaller get in the case where meeting the desired trajectory of specimen needle N It is good, to prevent cleaning solution from splashing away out of this accommodation space as much as possible.

Service sink 10 generally passes through Shooting Technique or other works using transparent plastic materials such as acrylic or polycarbonate Skill makes.The baffle 13 of the wall portion setting of the first chamber 1 of service sink 10 is actually being set due to the limitation of such as Shooting Technique In meter, first chamber 1 is assembled in by way of being clamped or being bonded after one or more baffle 13 being processed Wall portion.

As an alternative embodiment, the structure of one or more 13 part of baffle can be separately as a group Part, and be detachably connected with service sink 10.Since the wall portion of baffle 13 and first chamber 1 is possible to meeting remaining cleaning fluid, by this Component is detachably connected with service sink 10, in order to clean or replace the component at any time.

As a result, refering to Fig. 9, shows another cleaning device provided by the embodiment of the utility model and remove liquid feed device 20 With the structural schematic diagram of pumping equipment 30.The cleaning device is similar with the structure of cleaning device shown in FIG. 1, and difference exists In cleaning device further comprises the anti-overflow device 40 for being removably covered on the first opening 1a of service sink 10.Anti-overflow device 40 accommodation spaces that there is receiving specimen needle N to move along desired trajectory, and for preventing cleaning solution in the process of cleaning specimen needle N In from first opening 1a overflow.

Specifically, anti-overflow device 40 includes: body part 41 and be set in the body part 41 one or more A baffle 42.

Body part 41 is the ring structure body with inner hole 41c, and inner hole 41c can be round hole or slotted eye, sheet Utility model embodiment is illustrated by taking round hole as an example.Body part 41 has opposite first end 41a along the axial direction of inner hole 41c With second end 41b, anti-overflow device is covered on the first opening 1a of service sink 10 by second end 41b.

One or more baffle 42 by inner hole 41c wall portion radially extending along inner hole 41c, with the shape in inner hole 41c It is radially formed with predetermined accommodation space at spiralling rotating channel, and in inner hole 41c, to accommodate specimen needle N along pre- Fixed track is mobile.The desired trajectory refers to specimen needle N between the wall portion and cleaning part 11 of the first chamber 1 of service sink 10 First position P1 and cleaning part 11 second chamber 2 second position P2 between the track that moves back and forth, as shown in Figure 9.

The spiralling rotating channel that one or more baffle 42 is formed can stop cleaning solution from the first opening 1a It overflows, and remaining cleaning solution is made slowly to flow down along rotating channel under the effect of gravity and not end up at baffle 42 On.Make baffle 42 that there is different inclined-planes in addition, spiralling purpose also resides in, prevents cleaning solution shape in some plane At the bubble chamber film being difficult to clean off.

Anti-overflow device 40 provided by the utility model is capable of forming spiral by being arranged in the inner hole 41c of body part 41 The baffle 42 of the rotating channel of rising, can prevent cleaning solution from overflowing from the service sink of cleaning device, and structure is simple, easily In realization.

The specific structure of anti-overflow device 40 is further described with reference to the accompanying drawing.

Also referring to Fig. 9 and Figure 10, it is preferable that the quantity of baffle 42 be it is multiple, each baffle 42 is towards first end 41a Inclination, multiple baffles 42 along inner hole 41c circumferential direction helically it is ladder-like be distributed to form rotating channel.Baffle 42 axially towards First end 41a is obliquely installed, and is the guide functions in order to pass through baffle 42, is made the cleaning solution under gear along the inclined baffle 42 Surface flow to the wall portion of inner hole 41c, avoid cleaning solution from splashing on the outer wall of specimen needle N.

The helix angle β of each baffle 42 is related with the internal diameter of first chamber 1, and internal diameter is bigger, helix angle β's Value is bigger.Preferably, the value range of the helix angle β of each baffle 13 are as follows: 15 °≤β≤25 °.

Further, two adjacent baffles 42 have predetermined space, the smaller easier shape of the predetermined space in the axial direction At the bubble chamber film of covering baffle 42, therefore when structure size allows, two adjacent baffles 42 should be increased as far as possible in axial direction On predetermined space.In addition, two adjacent baffles 42 are continuously distributed in the circumferential, 360 ° of closed-loop is formed, so as to Prevent cleaning solution from circumferentially overflowing.

Wherein, exist axially move closer to the baffle 42 of second end 41b in multiple baffles 42 and close to the baffle 42 of first end 41a Interval in axial direction is larger, and cleaning solution rebounds splashing between in order to prevent, the setting therefore the two partly overlaps in the circumferential.

Specifically, the baffle 42 in multiple baffles 42 close to second end 41b meets formula along the circumferential angle, θ 1 of inner hole (1), remaining baffle meets formula (2) along the circumferential angle, θ 2 of inner hole:

θ1>360/n (1)

θ 2=360/n (2)

Wherein, n is the quantity of multiple baffles 42.

The cleaning solution to splash out of service sink 10 as a result, is when by the baffle 42 of close second end 41b, by the baffle The cleaning solution of 42 circumferential one end can be blocked by adjacent baffle 42 and be rebounded back in service sink 10, by the week of the baffle 42 It is directly rebounded back in service sink 10 to the cleaning solution of the other end.

Further, each baffle 42 is formed with the edge of indent, the edge of multiple baffles 42 far from the side of inner hole 41c Form predetermined accommodation space.The predetermined accommodation space is being projected as strip-shaped hole 45 or ellipse in axially vertical plane Hole 45.Predetermined accommodation space answered in the case where meeting the desired trajectory of specimen needle N it is the smaller the better, to prevent from cleaning as much as possible Liquid splashes away out of this accommodation space.

Refering to fig. 11, it is preferable that the quantity of baffle 42 is four, and predetermined accommodation space includes corresponding in inner hole 41c The second position P2 of mandrel line, in four baffles 42 two adjacent baffles 42 far from the side of inner hole 41c be respectively formed with Inner hole 41c is coaxial and 1/4 arc edge 43 of indent, other two baffle 42 far from the side of inner hole 41c be respectively formed with by The special-shaped edge 44 of straightway and 1/4 circular arc of indent composition, two 1/4 arc edges 43 and two common shapes in special-shaped edge 44 It is in strip hole 45.

Refering to fig. 12, as an alternative embodiment, two baffles 42 adjacent in four baffles 42 are far from inner hole The side of 41c is respectively formed with the first curved edge 46 coaxial with inner hole 41c and indent, other two baffle 42 is far from inner hole The side of 41c is respectively formed with the second curved edge 47, and two the first curved edges 46 and two the second curved edges 47 are common Form slotted eye 45.

It is understood that second position P2, that is, cleaning part 11 position in the desired trajectory of specimen needle N can also position In the other positions of first chamber, so that the edge of four sides of the baffle 42 far from inner hole 41c of anti-overflow device 40 be made to distinguish With other shapes, and it is not limited to Fig. 9 or structure shown in Fig. 10.

In addition, the second end 41b of body part 41 is provided with the groove 48 along axial depression, the first opening 1a energy of service sink It enough protrudes into groove 48, as shown in Figure 10.

As an alternative embodiment, the second end 41b of body part 41 is provided with and outwardly protrudes around inner hole 41c Flange 48, flange 48 can extend into the first opening of service sink.

Refering to fig. 13, the utility model embodiment additionally provides a kind of sample using foregoing any cleaning device This needle cleaning method, the specimen needle cleaning method include the following steps:

Step S1: specimen needle N is protruded into the first position between the wall portion and cleaning part 11 of the first chamber 1 of service sink 10 P1。

Step S2: supply cleaning solution to specimen needle N flows out cleaning solution from specimen needle N, to clean the inner wall of specimen needle N. The time for cleaning the inner wall of specimen needle N can be such as 1s.

Step S3: specimen needle N is moved to the second position P2 of the second chamber 2 of cleaning part 11 from first position P1.

Step S4: supply cleaning solution to specimen needle N makes the cleaning solution flowed out from specimen needle N in the bottom surface of second chamber 2 Vortex is formed between 2b and side wall 3, to clean the outer wall of specimen needle N.The flow velocity of cleaning solution is less than cleaning when due to cleaning outer wall The flow velocity of inner wall, therefore the time for cleaning outer wall can be more slightly longer than the time of inner wall, such as can be 3s.

Specimen needle N distance h, second sidewall 3b and first between bottom surface 2b of the second position P2 with second chamber 2 Predetermined angle and liquid feed device 20 between side wall 3a have an impact for flow velocity of the flow quantity q to cleaning solution, and flow velocity Bigger, the cleaning effect of specimen needle N is better.The internal diameter of specimen needle N is generally taken as 0.8~1.2mm, it is contemplated that fluid path pressure is negative It carries, the sample residual of probe inner wall can be effectively cleaned when the actual flow q of specimen needle N meets the condition of formula (3).

252mL/min < q < 320mL/min (3)

Below at a predetermined angle α=8 °, liquid feed device 30 flow q meet the requirement of formula (3) under conditions of, analyze sample Influence of height h of the needle N in the second chamber 2 of service sink 10 to the flow velocity of cleaning solution.

Also referring to Figure 14,15 and 16, the end region 3mm of specimen needle N when respectively illustrating h=1mm, 5mm and 7mm The distribution map of the flow velocity of interior cleaning solution.As can be seen that the flow rates are 1~2m/s when h=1mm；Flow velocity when h=5mm Range is 1.5~2.0m/s, and more evenly, variable gradient is smaller for velocity flow profile when relative to h=1；Flow velocity model when h=7mm It encloses for 0.02~0.5m/s, flow velocity is obviously reduced, and cleaning effect is bad.By experimental verification, second position P2 and second chamber 2 The distance between bottom surface 2b h value range are as follows: 3mm≤h≤5mm.At this time the flow rates of cleaning solution be 1.5~ 2.0m/s, the cleaning solution flow q for meeting this flow velocity also can achieve the requirement of formula (3).

By taking h=4mm as an example, cleaning solution is supplied according to the requirement of above-mentioned flow q, the clinical trial specified using manufacturing enterprise The reagent of project, using enriched sample and zero-dose sample as sample, according to enriched sample, enriched sample, high concentration Sample, zero-dose sample, zero-dose sample, zero-dose sample sequence be one group, be measured on analyzer, carry out 5 altogether Group measurement, and according to every group of formula (4) calculating of residual contamination rate K.Test data is as shown in table 1.

In formula (4), A₄For the measured value of the 4th sample in every group；A₆For the measured value of the 6th sample in every group；A_{It is former}For height Concentration samples.

Test data is as shown in table 1, from the test data in table 1 it is found that residual contamination rate is respectively less than 10ppm, meets doctor Medicine professional standard YY/T1155-2009 " full-automatic illumination immunity analysis instrument " is about residual contamination rate≤10ppm test request.

1 residual contamination rate test data of table (residual contamination rate unit: ppm)

Specimen needle cleaning method provided by the embodiment of the utility model improves sample using foregoing cleaning device The cleaning effect of this needle N is allowed to meet the standard requirements of residual contamination rate, and at low cost, convenient for safeguarding.

Although the present utility model has been described by reference to the preferred embodiments, but in the model for not departing from the utility model In the case where enclosing, various improvement can be carried out to it and can replace component therein with equivalent.Especially, as long as not depositing In structural conflict, items technical characteristic mentioned in the various embodiments be can be combined in any way.The utility model It is not limited to specific embodiment disclosed herein, but is included all technical solutions falling within the scope of the claims.

Claims (10)

1. a kind of anti-overflow device for cleaning device, which is characterized in that the anti-overflow device includes:

Body part, for the ring structure body with inner hole, the body part has opposite first end along the axial direction of the inner hole And second end；

One or more baffle, by wall portion the radially extending along the inner hole of the inner hole, to be formed in the inner hole Predetermined accommodation space is radially formed with towards the spiralling rotating channel of the first end, and in the inner hole.

2. anti-overflow device according to claim 1, which is characterized in that the quantity of the baffle is multiple, each gear Piece is tilted towards the first end, multiple baffles along the inner hole circumferential direction helically it is ladder-like distribution to form the rotation Turn channel.

3. anti-overflow device according to claim 2, which is characterized in that the value model of the helix angle β of each baffle It encloses are as follows: 15 °≤β≤25 °.

4. anti-overflow device according to claim 3, which is characterized in that two adjacent baffles have in the axial direction There is predetermined space, and continuously distributed in the circumferential direction, along the institute axially adjacent to the second end in multiple baffles Baffle is stated to partly overlap in the circumferential direction with the baffle close to the first end.

5. anti-overflow device according to claim 4, which is characterized in that close to the institute of the second end in multiple baffles It states baffle and meets formula (1) along the circumferential angle, θ 1 of the inner hole, remaining described baffle meets along the circumferential angle, θ 2 of the inner hole Formula (2):

θ1>360/n (1)

θ 2=360/n (2)

Wherein, n is the quantity of the baffle.

6. anti-overflow device according to claim 2, which is characterized in that side shape of each baffle far from the inner hole At the edge for having indent, the edge of multiple baffles forms the predetermined accommodation space.

7. anti-overflow device according to claim 6, which is characterized in that the predetermined accommodation space with it is described axially vertical Plane on be projected as strip-shaped hole or slotted eye.

8. anti-overflow device according to claim 7, which is characterized in that the quantity of the baffle is four, the pre- constant volume Receive the second position of central axis that space includes corresponding to the inner hole, two adjacent baffles in four baffles Side far from the inner hole is respectively formed with 1/4 arc edge with the female coaxial and indent, other two described gear Piece is respectively formed with the special-shaped edge being made of 1/4 circular arc of straightway and indent far from the side of the inner hole, described in two The strip-shaped hole is collectively formed in 1/4 arc edge and two special-shaped edges.

9. anti-overflow device according to claim 7, which is characterized in that the quantity of the baffle is four, the pre- constant volume Receive the second position of central axis that space includes corresponding to the inner hole, two adjacent baffles in four baffles Side far from the inner hole is respectively formed with the first curved edge with the female coaxial and indent, other two described gear Piece is respectively formed with the second curved edge far from the side of the inner hole, two first curved edges and two described second The slotted eye is collectively formed in curved edge.

10. anti-overflow device according to claim 1, which is characterized in that the second end of the body part, which is provided with, encloses The flange outwardly protruded around the inner hole；Alternatively, the second end of the body part is provided with along the recessed of the axial depression Slot.