CN204462022U - Dark chamber and use the vitro detection analytical equipment in this dark chamber - Google Patents
Dark chamber and use the vitro detection analytical equipment in this dark chamber Download PDFInfo
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- CN204462022U CN204462022U CN201520151092.3U CN201520151092U CN204462022U CN 204462022 U CN204462022 U CN 204462022U CN 201520151092 U CN201520151092 U CN 201520151092U CN 204462022 U CN204462022 U CN 204462022U
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- dark chamber
- barricade
- test card
- locating slot
- top cover
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Abstract
The utility model relates to a kind of dark chamber for carrying out fluoroimmunoassay in vitro detection analytical equipment to test card.Described dark chamber comprises pedestal, top cover and the sidewall dismantled capable of being combined.Described pedestal offers fluoroimmunoassay treated by locating slot test card with location.Described sidewall and top cover are combined in the accommodation space described pedestal being formed a hollow lucifuge of surrounding described locating slot successively.The utility model also relates to a kind of vitro detection analytical equipment using this dark chamber.
Description
Technical field
The utility model relates to a kind of dark chamber and uses the vitro detection analytical equipment in this dark chamber.
Background technology
The most complex structure of existing vitro detection analytical equipment, bulky, and also detecting step is comparatively loaded down with trivial details, needs the professional through training to carry out operating and is not easy to maintenance and changes parts, so be usually only arranged in hospital or community clinic.Therefore, when needs of patients carries out detecting must in person go to hospital or community clinic during auxiliary diagnosis, inconvenient in the extreme.
Utility model content
Given this, the dark chamber a kind of vitro detection analytical equipment of compact conformation being provided and being applied in this vitro detection analytical equipment is necessary.
A kind of dark chamber, for carrying out fluoroimmunoassay to test card in vitro detection analytical equipment.Described dark chamber comprises pedestal, top cover and the sidewall dismantled capable of being combined.Described pedestal offers fluoroimmunoassay treated by locating slot test card with location.Described sidewall and top cover are combined in the accommodation space described pedestal being formed a hollow lucifuge of surrounding described locating slot successively.
Preferably, after described pedestal coordinates with described sidewall, described locating slot forms the insert port in described dark chamber in the side of described pedestal, insert for described test card.
Preferably, described locating slot is along extending internally perpendicular to the side at insert port place on described pedestal.The end of described locating slot is provided with induction module.The end of described test card supports described induction module when being inserted to described locating slot.Described induction module sends signal designation test card and assigns and put in place.
Preferably, described sidewall comprises a pair first barricades and a pair second barricades.Described first barricade is arranged on the relative both sides of described locating slot in parallel to each other and extends along the length direction being parallel to locating slot.Described second barricade is arranged in parallel.Each second barricade is connected with the corresponding end of described a pair first barricades is vertical respectively.
Preferably, the two ends of each the first barricade described offer chute along the direction of vertical described first barricade end face.The relative both sides of described second barricade insert described chute and described first barricade is interconnected.
Preferably, described top cover and the first barricade are made up of high thermal conductivity materials.
Preferably, temperature-sensitive sticker is provided with in described dark chamber to monitor the temperature in dark chamber.
Preferably, be provided with temperature regulator in described dark chamber, described temperature regulator is by heating the temperature improved in dark chamber.
A kind of vitro detection analytical equipment, for coordinating test card whether to detect testing sample containing tested subject matter.Described test card is provided with the detection zone for detecting tested subject matter.Described vitro detection analytical equipment comprises image unit and dark chamber.Described dark chamber comprises pedestal, top cover and the sidewall dismantled capable of being combined.Described pedestal offers fluoroimmunoassay treated by locating slot test card with location.The locating slot that described sidewall and top cover are combined in described pedestal is successively formed the accommodation space surrounding a hollow lucifuge of described locating slot.Described image unit is arranged on described top cover to take the image of described detection zone.
Preferably, described top cover comprises parallel relative the first loading end and the second loading end.Described top cover offers the installation through hole of through described first loading end and the second loading end.Described top cover is connected with described sidewall by this first loading end.
Preferably, described image unit comprises camera lens and image sensor circuit board.Described image sensor circuit board is fixed on described second loading end.Described camera lens stretches in dark chamber through installation through hole and takes.
Preferably, light source module is comprised further.Described light source module comprise substrate and multiple setting on the substrate can the light-emitting component that produces of fluorescence excitation.Described substrate is arranged on the first loading end.
Preferably, described test card is provided with the Quick Response Code for recording test item information.Image and the reading two-dimension code label in described image unit shot detection district synchronously carry out.
Relative to prior art, dark chamber provided by the utility model and use the vitro detection analytical equipment in this dark chamber adopt the dark chamber of dismounting capable of being combined and the cramped construction of image unit is set at the top cover in described dark chamber, reduce the volume of vitro detection analytical equipment and be easy to dismounting and change parts, this vitro detection analytical equipment not only can be arranged in hospital or community clinic, also be suitable for using in general family.
Accompanying drawing explanation
Fig. 1 is the structural representation of the vitro detection analytical equipment that the utility model embodiment provides.
Fig. 2 is the partial enlarged drawing of the test card in Fig. 1.
Fig. 3 is the decomposing schematic representation of the vitro detection analytical equipment in Fig. 1.
Fig. 4 is the decomposing schematic representation of the detection module in Fig. 3.
Fig. 5 is the decomposing schematic representation of the dark chamber top cover in Fig. 4.
Fig. 6 is the partial structurtes schematic diagram of another angle of vitro detection analytical equipment in Fig. 1.
Main element symbol description
Vitro detection analytical equipment | 3 |
Test card | 2 |
Test paper | 22 |
Two-dimension code label | 27 |
Detection line | 24 |
Read window | 25 |
Sampling window | 26 |
Base | 30 |
Cover plate | 31 |
Detection module | 32 |
Control button | 33 |
Display module | 34 |
Printer | 35 |
Power module | 36 |
Shooting drive circuit board | 37 |
Main control board | 38 |
Electro-magnetic shielding cover | 39 |
Single or double acting door | 302 |
Viewing area | 312 |
Non-display area | 310 |
Dark chamber | 320 |
Light source module | 322 |
Temperature-sensitive sticker | 323 |
Temperature regulator | 324 |
Image unit | 325 |
Camera lens | 3250 |
Image sensor circuit board | 3251 |
Opening | 3210 |
Pedestal | 3201 |
Sidewall | 3202 |
First barricade | 3202a |
Second barricade | 3202b |
Chute | 3202c |
Top cover | 3203 |
First loading end | 3203a |
Second loading end | 3203b |
Through hole is installed | 3203c |
First storage tank | 3203d |
Second storage tank | 3203e |
First register pin | 3208 |
Second register pin | 3209 |
Locating slot | 3204 |
Induction module | 3206 |
Touch switch | 3207 |
Circuit board | 3205 |
Light-emitting component | 3220 |
Central through hole | 3228 |
Mixed-media network modules mixed-media | 380 |
Memory module | 382 |
Central processing unit | 384 |
Interface | 386 |
Local storage | 3820 |
External memorizer | 3822 |
Commercial power interface | 3860 |
Network interface | 3861 |
Scanner interface | 3862 |
USB (universal serial bus) | 3863 |
Micro universal serial bus interface | 3864 |
Video signal interface | 3865 |
Memory card interface | 3866 |
Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.
Embodiment
As shown in Figure 1, the vitro detection analytical equipment 3 that provides of the utility model embodiment is for detecting to carry out sxemiquantitative/quantitative test to the predetermined substance in sample to be tested to the test card 2 including fluorescence labeling material.
As shown in Figure 2, described test card 2 comprises Test paper 22 and two-dimension code label 27.Described Test paper 22 comprises at least one detection line be made up of fluorescence labeling material 24.The position at corresponding described detection line 24 place of described test card 2 offers reads window 25, and offers sampling window 26 in the position of distance reading window 25 side predetermined space.When detecting, testing sample instills from sampling window 26 and infiltrates towards the detection line 24 reading window 25 on Test paper 22.React with fluorescence labeling material to during detection line 24 when testing sample infiltrates, if contain tested subject matter in testing sample, after the fluorescence labeling material on described detection line 24 and tested subject matter react, send fluorescence.In the present embodiment, what described test card 2 adopted is fluorescence quantum point mark material, to improve the reaction efficiency with tested subject matter, shortens the stand-by period detected.Described two-dimension code label 27 is arranged on described test card 2 and offers the side of reading window 25 on the surface.Test card 2 information described in described two-dimension code label 27 comprises, but be not limited to, this test card 2 the test item, the production batch of this test card 2, the valid period of this test card 2, this batch of test card 2 that are suitable for meet about the curvilinear equation between detection line fluorescence intensity and tested subject matter concentration, minimum effective brightness.
As shown in Figure 3, described vitro detection analytical equipment 3 comprises base 30, cover plate 31, detection module 32, controls button 33, display module 34, printer 35, power module 36, shooting drive circuit board 37 and main control board 38.Be electrically connected by bus transmission and the exchange of carrying out data or signal directly or indirectly between above-mentioned multiple functional module.
Described detection module 32, printer 35, power module 36, shooting drive circuit board 37 and main control board 38 are arranged in described base 30.The position at corresponding described detection module 32 place of sidewall of described base 30 offers a single or double acting door 302 and detects to make described test card 2 can insert in detection module 32.
Described cover plate 31 is arranged on base 30 to seal described base 30.Described cover plate 31 comprises viewing area 312 and non-display area 310.Described display module 34 is provided with in described viewing area 312.Described non-display area 310 is parallel to surface level and arranges.Described viewing area 312 is inclined relative to horizontal a predetermined angle and observes display module 34 with person easy to use.A step-like zone of transition is formed between the viewing area 312 of described cover plate 31 and non-display area 310.In the present embodiment, described control button 33 is arranged on the below of described display module 34 in viewing area 312.
The light irradiating and detecting card 2 that described detection module 32 launches specific wavelength includes the Test paper 22 of fluorescence labeling material and the lower described fluorescence labeling material of shooting react the rear phosphor pattern sent with testing sample, by analyze the fluorescent brightness of phosphor pattern and the curvilinear equation combined between default fluorescent brightness and tested subject matter concentration calculates the concentration of tested subject matter.
As shown in Figures 4 and 5, described detection module 32 comprises dark chamber 320, light source module 322 and image unit 325.Described dark chamber 320 is an airtight accommodation space, for providing a lucifuge and the metastable environment of temperature improves to reduce external environment change to the impact of the luminous situation of fluorescence labeling material in testing process the accuracy detecting and analyze.Described dark chamber 320 comprises pedestal 3201, sidewall 3202, top cover 3203, temperature-sensitive sticker 323 and temperature regulator 324.Described pedestal 3201, sidewall 3202 and top cover 3203 surround the accommodation space of described sealing jointly.Being made up of the material of high thermal conductivity at least partially of described sidewall 3202, so that be distributed to outside dark chamber 320 by the heat that described light source module 322 sends in time in testing process, thus maintains temperature comparatively stable in dark chamber 320.
The surface of described pedestal 3201 offers locating slot 3204.Described test card 2 is inserted when detecting in described locating slot 3204, and makes described reading window 25 towards the top cover 3203 in dark chamber 320.Described locating slot 3204 comprises and is opened in the opening 3210 of pedestal 3201 wherein on a side.The main body of described locating slot 3204 extends along the direction perpendicular to opening 3210 place side towards the inside of pedestal 3201.The end that described locating slot 3204 is relative with opening 3210 is provided with induction module 3206.Described induction module 3206 comprises touch switch 3207 and circuit board 3205.Whether described induction module 3206 is assigned put in place for being responded to described test card 2.When described test card 2 is inserted to the end of locating slot 3203, the end of described test card 2 supports described touch switch 3203 and sends one and get out signal to trigger described circuit board 3205 and put in place to indicate described test card 2 to assign.
Described sidewall 3202 is the body of both ends open and inner hollow, and the wherein one end open of described sidewall 3202 is connected to the position at locating slot 3204 place on pedestal 3201 to form described accommodation space on described locating slot 3204.After described pedestal 3201 coordinates with described sidewall 3202, described locating slot 3204 defines the insert port in described dark chamber 320 at the opening 3210 of described pedestal 3201 side, inserts for described test card 2.Described sidewall 3202 comprises a pair first barricade 3202a and a pair second barricade 3202b.Described first barricade 3202a is arranged on the relative both sides of described locating slot 3204 in parallel to each other and extends along the length direction being parallel to locating slot 3204.Described second barricade 3202b is arranged in parallel, and each second barricade 3202b is connected with the corresponding end of described a pair first barricade 3202a is vertical respectively.Therefore, described a pair first barricade 3202a and a pair second barricade 3202b intervals are connected to surround described accommodation space.In the present embodiment, the first register pin 3208 that described first barricade 3202a is arranged on the surface of the relative both sides of locating slot 3204 by pedestal 3201 is plugged on described pedestal 3201.The two ends of each the first barricade 3202a described offer chute 3202c along the direction of vertical described first barricade 3202a end face.The relative both sides of described second barricade 3202b insert described chute 3202c and described first barricade 3202a is interconnected.Described first barricade 3202a is made up of high thermal conductivity materials, and preferably, described first barricade 3202a is rectangular metal block.Described second barricade 3202b is thin plate, can be made up of plastic material.The thickness of described first barricade 3202a is greater than the thickness of described second barricade 3202b.
Described top cover 3203 comprises parallel relative the first loading end 3203a and the second loading end 3203b.Described top cover 3203 offers the installation through hole 3203c of through described first loading end 3203a and the second loading end 3203b.Described top cover 3203 is connected with described first barricade 3202a by this first loading end 3203a.The end face of each the first barricade 3202a described is provided with the second register pin 3209, and described top cover 3203 is plugged on described first barricade 3202a by this second register pin 3209.Described first loading end 3203a offers the first storage tank 3203d.Described second loading end 3203b offers the second storage tank 3203e.Described installation through hole 3203c is through to the bottom surface of the second storage tank 3203e by the bottom surface of the first storage tank 3203d.
Described light source module 322 is arranged on the top cover 3203 relative with pedestal 3201 of described dark chamber 320.Described light source module 322 comprises substrate 3221 and is arranged on the multiple light-emitting components 3220 on substrate 3221.In the present embodiment, described light source module 322 is arranged in described first storage tank 3203d to make described substrate 3221 concordant with the first loading end 3203a.Described top cover 3203 is made up of high thermal conductivity materials.The heat that described light-emitting component 3220 produces conducts to described first barricade 3202a via substrate 3221, top cover 3203, and is outwards dispersed by described first barricade 3202a.
The light-emitting area of described light-emitting component 3220 towards the locating slot 3204 on pedestal 3201, to irradiate the reading window 25 in described test card 2.The center of described substrate 3221 offers central through hole 3228.The light that described light-emitting component 3220 evenly arranges around the center of light source module 322 light-emitting component 3220 is sent, from the reading window 25 of the different directions irradiating and detecting card 2 around light source module 322 center, reduces the shade formed when irradiating.Preferably, evenly the arrange distance that refers between arranged light-emitting component 3220 of described light-emitting component 3220 is roughly the same.In the present embodiment, described light-emitting component 3220 is light emitting diode.Described light-emitting component 3220 sends ultraviolet light.
Described temperature-sensitive sticker 323 is arranged on the inside surface in dark chamber 320 or pedestal 3201 is positioned on the surface of inside, dark chamber 320.Described temperature-sensitive sticker 323 is monitored the temperature in dark chamber 320 and is fed back to main control board 38, so that main control board 38 start detection when dark chamber 320 temperature reaches the temperature range that suitable fluorescence labeling material and tested subject matter react.In the present embodiment, described temperature-sensitive sticker 323 is a pair, is separately positioned on the pedestal 3201 of locating slot 3204 both sides on the surface.
Described temperature regulator 324 is arranged on the inside surface in dark chamber 320 or pedestal 3201 is positioned on the surface of inside, dark chamber 320.The temperature of described main control board 38 in dark chamber 320 react lower than suitable fluorescence quantum point mark material and tested subject matter temperature range time start described temperature regulator 324 and carry out heating to improve the temperature in dark chamber 320.In the present embodiment, described temperature regulator 324 is light-emitting component.Preferably, described temperature regulator 324 is infrared light-emitting diode.
Be understandable that, light-emitting component 3220 on described light source module 322 also can send a large amount of heats in testing process, so detect analytical equipment 3 in vitro mainly carry out preheating by the light-emitting component 3220 lighted on light source module 322 when opening, described temperature regulator 324 for the temperature in the dark chamber 320 of auxiliary raising to shorten the time of preheating of starting shooting.
In addition, described temperature regulator 324 generate heat face towards regulating.When the heating face of described temperature regulator 324 is adjusted to the direction pointing to image unit 325, the camera lens of the described image unit 325 of described temperature regulator 324 orientation heating is to eliminate the fog of knot on camera lens.
Described image unit 325 is arranged on described top cover 3203 and aims at the basic parameter that the test card 2 that has the been inserted into locating slot 3204 end two-dimension code label 27 with the phosphor pattern take detection line 24 that reads fluorescence labeling material in window 25 and send and in the described test card 2 of synchronous reading detects to the essential information and will carrying out obtaining test card 2.In the present embodiment, described image unit 325 is a camera, and it comprises camera lens 3250 and image sensor circuit board 3251.Described image unit 325 is fixed on described second loading end 3203b by described image sensor circuit board 3251.Described camera lens 3250 stretches in dark chamber 320 through the central through hole 3228 installing supporting part 3225 on through hole 3203c and substrate 3221 and takes.
The essential information of the test card 2 that described vitro detection analytical equipment 3 obtains according to described image unit 325 can judge that whether the test card 2 inserted is expired, and whether qualified, and the tested subject matter that will detect if producing.Described vitro detection analytical equipment 3 draws the testing result about tested subject matter according to the phosphor pattern analysis of detected parameters to shooting that reading two-dimension code label 27 obtains.Particularly, the digital photograph of phosphor pattern of described vitro detection analytical equipment 3 to picked-up carries out GTG process and can obtain the fluorescent brightness of phosphor pattern after analyzing, then according to reading the curvilinear equation between fluorescent brightness and tested subject matter concentration that in test card 2, two-dimension code label 27 obtains and calculate the concentration of detected tested subject matter.
Described control button 33 operates for responding to pressing of user with the mode of operation switching described vitro detection analytical equipment 3.The mode of operation of described vitro detection analytical equipment 3 includes, but not limited to shutdown mode, standby mode and power on mode.Also Fingerprint Identification Unit is provided with in described control button 33.Described Fingerprint Identification Unit is by identifying that the fingerprint of user is to differentiate user identity thus to set up personal information data bank for user.
Described display module 34 operation display interface and user carry out interaction.In the present embodiment, described display module 34 comprises a contact panel.The described contact panel display vitro detection default operation interface of analytical equipment 3 according to the touch operation recorded information of user or trigging control instruction.
Described printer 35 is for being printed on paper by testing result.User inputs print command to main control board 38 by described display module 34, controls described printer 35 and print testing result after described main control board 38 receiving printing orders.
Described power module 36 comprises battery 360 and external feed circuit 362.Described vitro detection analytical equipment 3 directly uses electric main by described external feed circuit 362 in the ordinary course of things.When need work under the environment not having commercial power interface time, described power module 36 by battery 360 for above-mentioned multiple functional modules provide standby power supply.
See also Fig. 3 and Fig. 6, described main control board 38 comprises mixed-media network modules mixed-media 380, memory module 382, central processing unit 384 (Central Processing Unit, CPU) and multiple interface 386.Described vitro detection analytical equipment 3 is connected to carry out the mutual of data with internet by described mixed-media network modules mixed-media 380.Described memory module 382 comprises local storage 3820 and external memorizer 3822.Described memory module 382 is for storing the detected parameters of trace routine and correspondence.Described detected parameters includes, but not limited to detection reaction time corresponding to tested subject matter, the curvilinear equation between detection line fluorescence intensity and tested subject matter concentration, minimum effective brightness.Described trace routine and detected parameters can be pre-set in memory module 382, also can be obtained by the two-dimension code label 27 read in test card 2.Described central controller 384 controls detection module 32 according to described trace routine and detected parameters and carries out detection analysis to the test card 2 inserted.Described interface 386 comprises, but be not limited to, commercial power interface 3860, network interface 3861, scanner interface 3862, USB (universal serial bus) (Universal Serial Bus, USB) interface 3863, micro universal serial bus (Micro Universal Serial Bus, Micro USB) interface 3864, video signal interface 3865, memory card interface 3866.Vitro detection analytical equipment 3 is connected from different external units the function expanding vitro detection analytical equipment 3 by described interface 386.
Described vitro detection analytical equipment 3 adopts and arranges light source module 322 at top, dark chamber 320 and in conjunction with the cramped construction of image unit, reduce the volume of vitro detection analytical equipment 3, this vitro detection analytical equipment 3 not only can be arranged in hospital or community clinic, also be suitable for using in general family.In addition, while carrying out detecting, detected parameters can be obtained by the two-dimension code label 27 in test card 2 in the lump by the image unit arranged at top, dark chamber 320, thus described vitro detection analytical equipment 3 can be detected automatically according to obtained detected parameters, simplify the operation steps of user.
Although the utility model discloses as above with embodiment; so itself and be not used to limit the utility model; have in any art and usually know the knowledgeable; not departing from the spirit and scope of the utility model; when doing a little change and retouching, thus the protection domain of the utility model when depending on after the attached claim person of defining be as the criterion.
Claims (13)
1. a dark chamber, for carrying out fluoroimmunoassay to test card in vitro detection analytical equipment, described dark chamber comprises pedestal, top cover and the sidewall dismantled capable of being combined, described pedestal offers fluoroimmunoassay treated by locating slot test card with location, described sidewall and top cover are combined in the accommodation space described pedestal being formed a hollow lucifuge of surrounding described locating slot successively.
2. dark chamber as claimed in claim 1, it is characterized in that: after described pedestal coordinates with described sidewall, described locating slot forms the insert port in described dark chamber in the side of described pedestal, insert for described test card.
3. dark chamber as claimed in claim 2, it is characterized in that: described locating slot is along extending internally perpendicular to the side at insert port place on described pedestal, the end of described locating slot is provided with induction module, the end of described test card supports described induction module when being inserted to described locating slot, and described induction module sends signal designation test card and assigns and put in place.
4. dark chamber as claimed in claim 1, it is characterized in that: described sidewall comprises a pair first barricades and a pair second barricades, described first barricade is arranged on the relative both sides of described locating slot in parallel to each other and extends along the length direction being parallel to locating slot, described second barricade is arranged in parallel, and each second barricade is connected with the corresponding end of described a pair first barricades is vertical respectively.
5. chamber as claimed in claim 4 dark, is characterized in that: the two ends of each the first barricade described offer chute along the direction of vertical described first barricade end face, and the relative both sides of described second barricade insert described chute and described first barricade is interconnected.
6. dark chamber as claimed in claim 4, is characterized in that: described top cover and the first barricade are made up of high thermal conductivity materials.
7. dark chamber as claimed in claim 1, is characterized in that: be provided with temperature-sensitive sticker in described dark chamber to monitor the temperature in dark chamber.
8. dark chamber as claimed in claim 1, is characterized in that: be provided with temperature regulator in described dark chamber, and described temperature regulator is by heating the temperature improved in dark chamber.
9. a vitro detection analytical equipment, for coordinating test card whether to detect testing sample containing tested subject matter, described test card is provided with the detection zone for detecting tested subject matter, described vitro detection analytical equipment comprises image unit and the dark chamber as any one in claim 1-8, and described image unit is arranged on described top cover to take the image of described detection zone.
10. vitro detection analytical equipment as claimed in claim 9, it is characterized in that: described top cover comprises parallel relative the first loading end and the second loading end, described top cover offers the installation through hole of through described first loading end and the second loading end, and described top cover is connected with described sidewall by this first loading end.
11. vitro detection analytical equipments as claimed in claim 10, it is characterized in that: described image unit comprises camera lens and image sensor circuit board, described image sensor circuit board is fixed on described second loading end, and described camera lens stretches in dark chamber through installation through hole and takes.
12. vitro detection analytical equipments as claimed in claim 10, it is characterized in that: comprise light source module further, described light source module comprise substrate and multiple setting on the substrate can the light-emitting component that produces of fluorescence excitation, described substrate is arranged on the first loading end.
13. vitro detection analytical equipments as claimed in claim 12, is characterized in that: described test card is provided with the Quick Response Code for recording test item information, and image and the reading two-dimension code label in described image unit shot detection district synchronously carry out.
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CN201520151092.3U CN204462022U (en) | 2015-03-17 | 2015-03-17 | Dark chamber and use the vitro detection analytical equipment in this dark chamber |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104713861A (en) * | 2015-03-17 | 2015-06-17 | 深圳市海王英特龙生物技术股份有限公司 | Dark cavity and in-vitro detection and analysis device using dark cavity |
CN105259148A (en) * | 2015-11-02 | 2016-01-20 | 深圳市锦瑞电子有限公司 | Fluorescence immunoassay quantitative analyzer |
CN108444968A (en) * | 2018-06-05 | 2018-08-24 | 北京勤邦生物技术有限公司 | A kind of fluorescent test paper bar detection device |
CN109557121A (en) * | 2018-12-12 | 2019-04-02 | 深圳市福瑞康科技有限公司 | A kind of detection module and detection device |
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2015
- 2015-03-17 CN CN201520151092.3U patent/CN204462022U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104713861A (en) * | 2015-03-17 | 2015-06-17 | 深圳市海王英特龙生物技术股份有限公司 | Dark cavity and in-vitro detection and analysis device using dark cavity |
CN105259148A (en) * | 2015-11-02 | 2016-01-20 | 深圳市锦瑞电子有限公司 | Fluorescence immunoassay quantitative analyzer |
CN105259148B (en) * | 2015-11-02 | 2019-05-14 | 深圳市锦瑞生物科技有限公司 | A kind of fluorescence immunoassay quantitative analysis instrument |
CN108444968A (en) * | 2018-06-05 | 2018-08-24 | 北京勤邦生物技术有限公司 | A kind of fluorescent test paper bar detection device |
CN109557121A (en) * | 2018-12-12 | 2019-04-02 | 深圳市福瑞康科技有限公司 | A kind of detection module and detection device |
CN109557121B (en) * | 2018-12-12 | 2024-02-27 | 深圳市福瑞康科技有限公司 | Detection module and detection equipment |
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