CN206208716U - A kind of flowing counting pool for being integrated with reagent - Google Patents
A kind of flowing counting pool for being integrated with reagent Download PDFInfo
- Publication number
- CN206208716U CN206208716U CN201620682945.0U CN201620682945U CN206208716U CN 206208716 U CN206208716 U CN 206208716U CN 201620682945 U CN201620682945 U CN 201620682945U CN 206208716 U CN206208716 U CN 206208716U
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- microscopy
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- point sample
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Abstract
The utility model is related to a kind of flowing counting pool for being integrated with reagent, include counting tank main body, the upper surface for counting tank main body is provided with more than one group microscopy analytical reactions unit, every group of microscopy analytical reactions unit includes reagent reacting area, microscopy area and semi open model point sample position, reagent reacting block is provided with the reagent reacting area, the microscopy area is connected with semi open model point sample position.So, reagent can be integrated on counting chamber, microscopy analytical instrument is set to be greatly decreased in the action such as sample presentation, sampling, feeding of microscopy process, apparatus structure can be simplified, lowering apparatus production cost and reduction volume, the handling process and control flow of instrument can also be simplified simultaneously, detection speed and stability are higher, cross pollution is reduced, accuracy in detection is improved, and counting chamber is applied to various different checking function instruments, highly versatile, structure also very simple, production and processing easily, low cost, be conducive to producing in enormous quantities and popularization and application.
Description
【Technical field】
The utility model belongs to medical in-vitro diagnosis equipment sediments microscope inspection technical field, and more particularly to one kind is integrated with examination
The counting chamber of agent.
【Background technology】
At present, it is doctor in clinical treatment in-vitro diagnosis equipment light microscope microscopy analytic approach and reagent reacting analytic approach
Treat in-vitro diagnosis equipment main flow application technology, now on the market the most independent utility of microscopy analytic approach on an instrument, reagent
Response analysis method also most independent utility on an instrument;The instrument of microscopy analytic approach is mostly using reusable flowing meter
Not only there is certain cross pollution in number ponds, this quasi-instrument, and motion structure is complicated, fluid path is complicated, consumption cleaning reagent is more,
Instrument failure rate is high, instrument configurations size is big.And the instrument of reagent reacting analytic approach is mostly in the form of reagent strip, although examination
Agent bar cost is relatively low, but the shortcoming being equally embodied on instrument is also, and motion structure is complicated, fluid path is complicated, consumption cleaning reagent
Many, instrument failure rate is high, instrument configurations size is big.Extremely indivedual producers can two kinds of Technology Integrations a to instrument, custom you " one
Machine ", is the simple superposition of the function of two instrument so that equipment instrument becomes much larger, and structure is more complicated, fluid path uncontrollable factor
More, fault rate is higher.
【Utility model content】
In order to solve problems of the prior art, the utility model is integrated with reagent there is provided one kind, makes microscopy point
Analyzer device need not carry out the action such as sample presentation, sampling, feeding in microscopy analysis process, can significantly simplify apparatus structure, lowering apparatus
Production cost and reduce volume, detection speed and stability is high, improve accuracy in detection, and simple structure, production and processing easily,
The counting chamber of low cost.
The utility model solve the technical scheme that is used of existing issue for:
A kind of flowing counting pool for being integrated with reagent, includes counting tank main body, and the upper surface of the counting tank main body sets
There is more than one group microscopy unit, every group of microscopy unit includes reagent reacting area, microscopy area and semi open model point sample position, described
Reagent reacting block is provided with reagent reacting area, the microscopy area is connected with semi open model point sample position.
Further, the counting tank main body includes the transparency carrier and transparent cover plate being mutually matched, the transparent base
The upper surface of plate is provided with reagent reacting cavity, microscopy cavity and point sample cavity, and the transparent cover plate is provided with reagent reacting hole;It is described
Reagent reacting block is arranged in reagent reacting cavity, and the transparent cover plate is covered in the upper surface of transparency carrier, lid closely linkedly
Firmly microscopy cavity and part point sample cavity, the reagent reacting hole connection reagent reacting cavity, form the reagent reacting area, mirror
Inspection area and semi open model point sample position.
Further, the point sample cavity is connected with microscopy cavity, and microscopy cavity bottom surface be smooth planar surface and
Higher than the bottom surface of point sample cavity.
Further, every group of microscopy analytical reactions unit include more than one reagent reacting area, a microscopy area and
One semi open model point sample position, and fluid channel;One end of the fluid channel is connected with reagent reacting area, the other end and microscopy area
Connect and surround with semi open model point sample position and surround microscopy area.
Further, the upper surface of the transparency carrier is additionally provided with miniflow groove, one end of the miniflow groove and reagent
Reaction zone is connected, and the other end is connected and around microscopy area is surrounded with microscopy area and semi open model point sample position, when the transparent cover plate
Cover closely linkedly at the upper surface of transparency carrier, form the fluid channel.
Further, the point sample cavity is connected with microscopy cavity and miniflow groove;The bottom surface of the microscopy cavity is light
The bottom surface of sliding flat surface, its upper surface for being less than transparency carrier and the bottom surface higher than point sample cavity and miniflow groove;The point
The bottom surface of sample cavity and the bottom surface of miniflow groove are in the same plane.
Further, the reagent reacting cavity, microscopy cavity, point sample cavity and miniflow groove and transparency carrier one into
Type, the reagent reacting hole is integrally formed with transparent cover plate.
The utility model has the beneficial effect that:
The utility model is by using above-mentioned technical proposal, you can reagent is integrated on counting chamber, makes microscopy analyzer
Device is reduced in microscopy analysis process and carries out the action such as sample presentation, sampling, feeding, can significantly simplify apparatus structure, and instrument is greatly reduced
Production cost and reduction volume, while can also simplify the handling process and control flow of instrument, detection speed and stability are higher,
Cross pollution is reduced, accuracy in detection, and counting chamber simple structure is improved, production and processing is easy, low cost, is conducive to large quantities of
Amount production and popularization and application.
【Brief description of the drawings】
Fig. 1 is a kind of structural representation of the integrated counting chamber embodiment one of reagent described in the utility model;
Fig. 2 is a kind of configuration schematic diagram of the integrated counting chamber embodiment one of reagent described in the utility model;
Fig. 3 is a kind of structural representation of the integrated counting chamber embodiment two of reagent described in the utility model;
Fig. 4 is a kind of structural representation of the integrated counting chamber embodiment three of reagent described in the utility model;
Fig. 5 is a kind of structural representation of the integrated counting chamber example IV of reagent described in the utility model;
Fig. 6 is a kind of structural representation of the integrated counting chamber embodiment five of reagent described in the utility model;
Fig. 7 is a kind of structural representation of the integrated counting chamber embodiment six of reagent described in the utility model.
【Specific embodiment】
In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and implementation
Example, is further elaborated to the utility model.It should be appreciated that specific embodiment described herein is only used to explain this
Utility model, is not used to limit the utility model.
A kind of flowing counting pool for being integrated with reagent, includes counting tank main body, and the upper surface of the counting tank main body sets
There is more than one group microscopy unit, every group of microscopy unit includes reagent reacting area, microscopy area and semi open model point sample position, described
Reagent reacting block is provided with reagent reacting area, the microscopy area is connected with semi open model point sample position.
Embodiment one and two:
As shown in Figure 1 to Figure 3, the utility model embodiment one and two provides a kind of flow count for being integrated with reagent
Pond, includes counting tank main body 1, and the upper surface for counting tank main body 1 is provided with one group of microscopy analytical reactions unit, the microscopy
Analytical reactions unit includes a reagent reacting area A, a microscopy area C and a semi open model point sample position D, and fluid channel
B;Reagent reacting block 2 is provided with the reagent reacting area A, the microscopy area C is connected with semi open model point sample position D, described micro-
One end of runner B is connected with reagent reacting area A, and the other end is connected and surround and surround with microscopy area C and semi open model point sample position D
Microscopy area C.
Concrete structure can be:The counting tank main body 1 includes the transparency carrier 11 and transparent cover plate 12 being mutually matched,
The upper surface of the transparency carrier 11 is provided with reagent reacting cavity 13, microscopy cavity 14, point sample cavity 15 and miniflow groove 17, institute
Reagent reacting cavity 13, microscopy cavity 14, point sample cavity 15 and miniflow groove 17 is stated to be integrally formed with transparency carrier 11, and point sample
Cavity 15 is connected with microscopy cavity 14 and miniflow groove 17, and the bottom surface of the microscopy cavity 14 is smooth planar surface, and it is less than
The upper surface of transparency carrier 11 and the bottom surface of the bottom surface higher than point sample cavity 15 and miniflow groove 17, the point sample cavity 15
The bottom surface of bottom surface and miniflow groove 17 is in the same plane;The transparent cover plate 12 is provided with reagent reacting hole 16, the reagent
Reacting hole 16 is integrally formed with transparent cover plate 12;The reagent reacting block 2 is arranged in reagent reacting cavity 13, the transparency cover
Plate 12 is covered in the upper surface of transparency carrier 11, covers microscopy cavity 14 and part point sample cavity 15, the reagent closely linkedly
The connection reagent reacting of reacting hole 16 cavity 13, forms the reagent reacting area A, microscopy area C and semi open model point sample position D;And
One end of miniflow groove 17 is connected with reagent reacting area A, and the other end is connected and surround with microscopy area C and semi open model point sample position D
Surround microscopy area C, when the transparent cover plate 12 it is closely linked cover in the upper surface of transparency carrier 11 when, form the fluid channel
B。
So, can be integrated in reagent on counting chamber by flowing counting pool described in the utility model embodiment one and two, make
Microscopy analytical instrument acts and is greatly decreased that (type having about can be entering in sample presentation, sampling, feeding etc. of microscopy analysis process
70%) action of sample is reduced, and can significantly simplify apparatus structure (including mechanical moving structure, electric circuit construction and fluid path system
System), instrument production cost is greatly reduced and reduces volume, while can also simplify the handling process and control flow of instrument, detect
Speed and stability are higher, reduce cross pollution, improve accuracy in detection, and counting chamber is applied to various different checking functions
Instrument, highly versatile, structure also very simple, production and processing easily, low cost, be conducive to producing in enormous quantities and popularization and application.
In addition, sample liquid drop in semi open model point sample position D when, in the presence of liquid tension, first can from gap compared with
Small microscopy cavity 14 is penetrated into microscopy area C, gas in microscopy area C can be extruded into fluid channel B during infiltration, then along fluid channel
Gas is extruded counting chamber by B, it is ensured that hydraulically full in counting chamber, without gas residue in microscopy area C;So can further improve
The degree of accuracy of microscopy detection.
Embodiment three:
As shown in Figure 4, the utility model embodiment three provides a kind of flowing counting pool for being integrated with reagent, its structure
It is essentially identical with embodiment one and two, counting tank main body 1 is included, it is differed only in:The upper surface for counting tank main body 1
It is provided with two groups of (also can be more than two) microscopy analytical reactions units.So, you can once carry out multigroup microscopy detection, detection efficiency
It is higher, also can further reduce production cost and testing cost.
Example IV:
As shown in Figure 5, the utility model example IV provides a kind of flowing counting pool for being integrated with reagent, its structure
It is essentially identical with embodiment one and two, counting tank main body 1 is included, the upper surface for counting tank main body 1 is provided with one group of microscopy
Analytical reactions unit, it is differed only in:Microscopy analytical reactions unit can also only include a reagent reacting area A, a mirror
Inspection area C and semi open model point sample position D, an i.e. reagent reacting area A and microscopy area C and semi open model point sample position D are mutually not attached to, and
And the point sample cavity 15 of semi open model point sample position D is connected with the microscopy cavity 14 of microscopy area C;The bottom surface of the microscopy cavity 4 is
Smooth planar surface, its upper surface for being less than transparency carrier 11 and higher than the bottom surface of point sample cavity 15;Independence point sample is i.e. when using
Can.Flowing counting pool described in the utility model example IV is equally integrated with reagent, and microscopy analyzer can be equally reduced when using
Device analyzes the action such as sample presentation, sampling, feeding of process in microscopy, so as to apparatus structure can significantly be simplified, lowering apparatus is produced into
Originally with reduction volume, while can also simplify the handling process and control flow of instrument, detection speed and stability are high, reduce and intersect
Pollution, improves accuracy in detection, and counting chamber is equally applicable to various different checking function instruments, highly versatile, and structure is more
Simply, production and processing be easier, cost it is lower, be conducive to produce in enormous quantities and popularization and application.
Embodiment five and six:
As shown in figures 6 and 7, the utility model embodiment five and six provides a kind of flow count for being integrated with reagent
Pond, its structure is essentially identical with embodiment one and two, includes counting tank main body 1, and the upper surface for counting tank main body 1 is provided with
More than one group microscopy analytical reactions unit, differs only in:Every group of microscopy analytical reactions unit includes more than one reagent
Reaction zone A, a microscopy area C and a semi open model point sample position D, and fluid channel B;Examination is provided with the reagent reacting area A
Agent reaction block 2, the microscopy area C is connected with semi open model point sample position D;One end of the fluid channel B connects with reagent reacting area A
Connect, the other end is connected and surround and surround microscopy area C with microscopy area C and semi open model point sample position D.So, you can in same counting
Pond completes the detection of differential responses project, completes different pathological item detection, and using more flexible, more convenient, range of application is wider.
The above is preferred embodiment of the present utility model, it is noted that for the ordinary skill of the art
For personnel, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made, these improve and moisten
Decorations are also considered as protection domain of the present utility model.
Claims (7)
1. a kind of flowing counting pool for being integrated with reagent, it is characterised in that:Include counting tank main body (1), the counting chamber master
The upper surface of body (1) is provided with more than one group microscopy unit, and every group of microscopy unit includes reagent reacting area (A), microscopy area (C)
With semi open model point sample position (D), reagent reacting block (2) is provided with the reagent reacting area (A), the microscopy area (C) and half-open
Formula point sample position (D) is put to be connected.
2. the flowing counting pool of reagent is integrated with according to claim 1, it is characterised in that:Counting tank main body (1) bag
The transparency carrier (11) and transparent cover plate (12) being mutually matched are included, the upper surface of the transparency carrier (11) is provided with reagent reacting
Cavity (13), microscopy cavity (14) and point sample cavity (15), the transparent cover plate (12) are provided with reagent reacting hole (16);The examination
Agent reaction block (2) in reagent reacting cavity (13), cover in transparency carrier closely linkedly by the transparent cover plate (12)
(11) upper surface, microscopy cavity (14) and part point sample cavity (15) are covered, reagent reacting hole (16) the connection reagent is anti-
Cavity (13) is answered, the reagent reacting area (A), microscopy area (C) and semi open model point sample position (D) is formed.
3. the flowing counting pool of reagent is integrated with according to claim 2, it is characterised in that:The point sample cavity (15) and mirror
Inspection cavity (14) connection;The bottom surface of the microscopy cavity (14) is smooth planar surface, its upper table for being less than transparency carrier (11)
Face, the bottom surface of microscopy cavity (14) are smooth planar surfaces and higher than the bottom surface of point sample cavity (15).
4. the flowing counting pool of reagent is integrated with according to Claims 2 or 3, it is characterised in that:Every group of microscopy unit
Including more than one reagent reacting area (A), a microscopy area (C) and semi open model point sample position (D), and fluid channel (B);
One end of the fluid channel (B) is connected with reagent reacting area (A), and the other end is with microscopy area (C) and semi open model point sample position (D) even
Connect and surround and surround microscopy area (C).
5. the flowing counting pool of reagent is integrated with according to claim 4, it is characterised in that:The transparency carrier (11) it is upper
Surface is additionally provided with miniflow groove (17), and one end of the miniflow groove (17) is connected with reagent reacting area (A), the other end and microscopy
Area (C) and semi open model point sample position (D) are connected and around microscopy area (C) is surrounded, when the closely linked ground of the transparent cover plate (12)
Cover at the upper surface of transparency carrier (11), form the fluid channel (B).
6. the flowing counting pool of reagent is integrated with according to claim 5, it is characterised in that:The point sample cavity (15) and mirror
Inspection cavity (14) and miniflow groove (17) connection;The bottom surface of the microscopy cavity (14) is smooth planar surface, and it is less than transparent
The upper surface of substrate (11) and the bottom surface of the bottom surface higher than point sample cavity (15) and miniflow groove (17);The point sample cavity
(15) bottom surface and the bottom surface of miniflow groove (17) is in the same plane.
7. the flowing counting pool of reagent is integrated with according to claim 6, it is characterised in that:The reagent reacting cavity
(13), microscopy cavity (14), point sample cavity (15) and miniflow groove (17) are integrally formed with transparency carrier (11), and the reagent is anti-
Hole (16) is answered to be integrally formed with transparent cover plate (12).
Priority Applications (1)
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CN201620682945.0U CN206208716U (en) | 2016-06-29 | 2016-06-29 | A kind of flowing counting pool for being integrated with reagent |
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CN201620682945.0U CN206208716U (en) | 2016-06-29 | 2016-06-29 | A kind of flowing counting pool for being integrated with reagent |
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CN201620682945.0U Withdrawn - After Issue CN206208716U (en) | 2016-06-29 | 2016-06-29 | A kind of flowing counting pool for being integrated with reagent |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105973787A (en) * | 2016-06-29 | 2016-09-28 | 珠海科域生物工程有限公司 | Flowing counting cell integrated with reagent |
CN107356513A (en) * | 2017-07-26 | 2017-11-17 | 湖南欧杰生物科技发展有限公司 | A kind of primary-secondary type decrement counting chamber and its reducing type thin layer tiling detection method |
-
2016
- 2016-06-29 CN CN201620682945.0U patent/CN206208716U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105973787A (en) * | 2016-06-29 | 2016-09-28 | 珠海科域生物工程有限公司 | Flowing counting cell integrated with reagent |
CN105973787B (en) * | 2016-06-29 | 2018-12-11 | 珠海科域生物工程股份有限公司 | A kind of flowing counting pool being integrated with reagent |
CN107356513A (en) * | 2017-07-26 | 2017-11-17 | 湖南欧杰生物科技发展有限公司 | A kind of primary-secondary type decrement counting chamber and its reducing type thin layer tiling detection method |
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AV01 | Patent right actively abandoned |
Granted publication date: 20170531 Effective date of abandoning: 20181211 |
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