CN203616325U - Full-automatic instant check meter - Google Patents
Full-automatic instant check meter Download PDFInfo
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- CN203616325U CN203616325U CN201320867494.4U CN201320867494U CN203616325U CN 203616325 U CN203616325 U CN 203616325U CN 201320867494 U CN201320867494 U CN 201320867494U CN 203616325 U CN203616325 U CN 203616325U
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- 238000012360 testing method Methods 0.000 claims abstract description 97
- 238000001514 detection method Methods 0.000 claims abstract description 50
- 239000003795 chemical substances by application Substances 0.000 claims description 39
- 239000003153 chemical reaction reagent Substances 0.000 claims description 24
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 22
- 210000004204 blood vessel Anatomy 0.000 claims description 18
- 238000010166 immunofluorescence Methods 0.000 claims description 16
- 239000002184 metal Substances 0.000 claims description 16
- 229910052751 metal Inorganic materials 0.000 claims description 16
- 230000002093 peripheral effect Effects 0.000 claims description 15
- PCHJSUWPFVWCPO-UHFFFAOYSA-N gold Chemical compound [Au] PCHJSUWPFVWCPO-UHFFFAOYSA-N 0.000 claims description 10
- 238000010438 heat treatment Methods 0.000 claims description 10
- 239000000084 colloidal system Substances 0.000 claims description 9
- 239000010931 gold Substances 0.000 claims description 9
- 229910052737 gold Inorganic materials 0.000 claims description 9
- 238000012546 transfer Methods 0.000 claims description 9
- 239000011324 bead Substances 0.000 claims description 7
- 230000006698 induction Effects 0.000 claims description 6
- 238000001816 cooling Methods 0.000 claims description 4
- 230000000694 effects Effects 0.000 claims description 4
- 230000005622 photoelectricity Effects 0.000 claims description 4
- 238000003032 molecular docking Methods 0.000 claims description 3
- 238000002558 medical inspection Methods 0.000 abstract description 2
- 230000010354 integration Effects 0.000 abstract 1
- 201000010099 disease Diseases 0.000 description 4
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 4
- 238000000034 method Methods 0.000 description 3
- 238000012123 point-of-care testing Methods 0.000 description 3
- 238000002203 pretreatment Methods 0.000 description 3
- 238000003556 assay Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000002265 prevention Effects 0.000 description 2
- 238000003908 quality control method Methods 0.000 description 2
- FGRBYDKOBBBPOI-UHFFFAOYSA-N 10,10-dioxo-2-[4-(N-phenylanilino)phenyl]thioxanthen-9-one Chemical compound O=C1c2ccccc2S(=O)(=O)c2ccc(cc12)-c1ccc(cc1)N(c1ccccc1)c1ccccc1 FGRBYDKOBBBPOI-UHFFFAOYSA-N 0.000 description 1
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- 238000000338 in vitro Methods 0.000 description 1
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Abstract
The utility model relates to the technical field of medical inspection equipment, in particular to a full-automatic instant check meter. The full-automatic instant check meter comprises a shell, a frame body, a sample frame, a sample input device, a shaking device, a detection card stack, a sample reaction device, a detection card conveying device, a detection device and a control panel, wherein the sample input device, the shaking device, the detection card stack, the sample reaction device, the detection card conveying device and the detection device are all arranged on the frame body; the sample frame is arranged in the sample input device; a sample test tube is arranged on the sample frame; the shaking device is arranged behind the sample input device; the sample reaction device, the detection card conveying device and the detection device are arranged behind the shaking device. The utility model provides the full-automatic instant check meter which is simple in structure, high in integration and degree of automation and is capable of supporting loading without halt.
Description
Technical field
The utility model relates to medical inspection equipment technical field, specifically a kind of full-automatic real-time test instrument.
Background technology
POCT product is a branch of in-vitro diagnosis industry (IVD), convenient, advantage fast that it relies on, realize patient at one's side fast fetching obtain assay and be deeply subject to clinical welcome.Real-time test instrument has been widely used in hospital, clinic and patient family at present, can carry out the detection of vast majority of conventional clinical indices.Whole world real-time test instrument market scale has exceeded 40,000,000,000 dollars.In industry generation nascent 1980 to nineteen ninety, nearly 30% average annual growth rate has been realized in American-European real-time test instrument market.Along with development and the aging population trend of China's economic are day by day serious, rheumatic arthritis, diabetes, cardio-cerebralvascular diseases incidence of disease increase year after year, real-time test instrument is in clinical also more and more widespread use.Along with the raising of universal, the diseases prevention health knowledge of the enforcement of the new medical reform of China, medical insurance, the demand of real-time test instrument in health care, prevention from suffering from the diseases monitoring can be more from now on, will bring into play larger effect.
Medical science applied progress depends on laboratory inspection to a great extent.Have in the market a lot of automation equipments, its automaticity is high, measurement capacity is large, but needs more complicated sample pre-treatment flow process and longer sense cycle (TAT).And existing real-time test instrument can be accomplished the other testing requirement of miniature, instant, easy bed, but the common feature of real-time test instrument is all single detection, there is more batch sample if clinical, or it is more that emergency treatment detects the sample quantity of same project, and the little instrument of real-time test instrument of single detection is just difficult to meet its requirement.Single operation individual difference is large, and result dispersion degree is high, and quality control difficulty is unfavorable for assay unification in same medical institutions; And manual operations is required great effort, time-consuming speed is slow, has elongated the sense cycle (TAT) of average single detection, and has disperseed single detection, average unit cost is high.
Utility model content
It is a kind of simple in structure, integrated and automaticity is high, support not shut down the full-automatic real-time test instrument of loading that the utility model provides.
The utility model is achieved through the following technical solutions:
A kind of full-automatic real-time test instrument, comprise shell, support body, sample rack, sample input media, oscillating uniform device, test card storehouse, sample reaction unit, test card conveying device, pick-up unit and control panel, described sample input media, oscillating uniform device, test card storehouse, sample reaction unit, test card conveying device and pick-up unit are all located on described support body, described sample rack is located in described sample input media, on described sample rack, be placed with sample tube, described oscillating uniform device is located at described sample input media rear, described sample reaction unit, test card conveying device and pick-up unit are all located at described oscillating uniform device rear, described sample input media comprises transfer bar mechanism, position-limit mechanism and induction mechanism, described oscillating uniform device comprises Article 1 ink recorder, rotating mechanism, vacuum blood vessel uniform shaking mechanism and peripheral vessel uniform shaking mechanism, described rotating mechanism, vacuum blood vessel uniform shaking mechanism and peripheral vessel uniform shaking mechanism are all fixed on described support body, described peripheral vessel uniform shaking mechanism is located at described vacuum blood vessel uniform shaking mechanism below, and described rotating mechanism is located at described vacuum blood vessel uniform shaking mechanism one side, described test card storehouse comprises test card, detects card holder and scanning mechanism, and described test card is located in described detection card holder, and described scanning mechanism is located at described detection card holder rear, described sample reaction unit comprises reaction cup, flowing water ring, agent bin, reagent bottle, sample arm mechanism, handgrip mechanism, reaction cup stack area and metal bath district, described reagent bottle is located in agent bin, described flowing water is located on described agent bin upper surface, described reaction cup is located on described flowing water ring, described sample arm mechanism is located at described agent bin top, and be fixed on described support body, described handgrip mechanism is located at described reaction cup stack area and top, metal bath district, and is fixed on described support body, described test card conveying device comprises test card conveying arm, surge bunker and taking mechanism, and described test card conveying arm is located at described test card storehouse rear, and is fixed on described support body, and described taking mechanism slides and is located on described test card conveying arm, described pick-up unit comprises testing agency and loses test card mechanism, loses test card mechanism top described in described testing agency is located at, and described surge bunker is located between described testing agency and taking mechanism, described control panel is fixed on described support body, described transfer bar mechanism, position-limit mechanism, induction mechanism, Article 1 ink recorder, rotating mechanism, vacuum blood vessel uniform shaking mechanism, peripheral vessel uniform shaking mechanism, scanning mechanism, sample arm mechanism, handgrip mechanism, metal bath district, test card conveying arm, surge bunker, taking mechanism, testing agency and lose test card mechanism and be electrically connected respectively at described control panel.
Described transfer bar mechanism comprises the first push rod, the second push rod, the 3rd push rod and the 4th push rod, and respectively by the first motor, the second motor, the 3rd motor and the 4th driven by motor, described the first push rod and the 3rd push rod are for moving in the vertical described sample rack, and described the second push rod and the 4th push rod are for moving in the horizontal described sample rack; Described position-limit mechanism comprises in the vertical the first spacing limit switch of described sample rack and second limit switch spacing to described sample rack in the horizontal; Described sample input media also comprises the spacing door for docking, and described spacing door top is provided with photoelectricity correlation inductor.
Described rotating mechanism comprises the first direct current generator and rotary friction rubbing head, and described the first direct current generator and described support body are slidably connected in vertical direction; Described vacuum blood vessel uniform shaking mechanism comprises orienting lug and handgrip, described orienting lug is fixed on described support body, and described handgrip and described support body are slidably connected in vertical direction, and described handgrip is provided with block, described block rotates under the guide effect of orienting lug, and drives handgrip to rotate; Described peripheral vessel uniform shaking mechanism comprises mounting platform, the second direct current generator, screw mandrel, fixed block, brushless electric machine and stator, described mounting platform is fixed on described support body, described fixed block is slidably connected with described mounting platform under the drive of described the second direct current generator and screw mandrel, described brushless electric machine is provided with eccentric block, drives described stator vibration in the time that described brushless electric machine rotates.
Described agent bin is located on described support body, described agent bin inside is provided with the 5th motor, described the 5th motor output end is provided with the first gear, in described agent bin, be provided with reagent tray, described reagent tray lower surface is provided with ring gear, described the first gear is meshed with described ring gear, described reagent bottle is located on described reagent tray, on described flowing water ring, be evenly equipped with four reaction cup sockets, described reaction cup is inserted in described reaction cup socket, described flowing water ring is provided with latch, described flowing water ring outside is provided with the 6th motor, described the 6th motor output end is provided with the second gear, described the second gear is meshed with described flowing water ring, described metal bath district is located at described agent bin one side, described metal bath district one side is located in described reaction cup stack area, described agent bin is provided with opening, described opening part is provided with described Article 2 ink recorder, described Article 2 ink recorder is fixed on described support body, in described agent bin, be positioned at described the 5th motor one side and be provided with heating radiator, described heating radiator top is provided with cooling piece, and described heating radiator below is provided with blower fan.
Described handgrip mechanism comprises that piece is grabbed on handgrip arm, electromagnet, slide block, a left side and piece is grabbed on the right side, described handgrip arm is provided with the 7th motor and slide rail, described slide block and described slide rail are slidably connected, and be connected with described the 7th motor by Timing Belt, described electromagnet is located on described slide block, described electromagnet lower end is provided with first connecting rod, and a described left side is grabbed piece and the right side and grabbed piece and be rotationally connected by second connecting rod and described first connecting rod respectively.
Described reagent bottle top is provided with agent bin lid, and described agent bin covers and is provided with sector notch.
Described detection module comprises one or several in immune colloid gold detection module, immunofluorescence detection module, immunomagnetic beads detection module, immunofluorescence particulate module, and described immune colloid gold detection module or immunofluorescence detection module or immunomagnetic beads detection module or immunofluorescence particulate module are located at described test card bracket top.
The beneficial effect that the utility model brings is:
In the utility model; described full-automatic real-time test instrument is incorporated into two large technology class immune colloidal gold techniques and immunofluorescence technique on an instrument; the full-automatic tachysynthesis analyser of a full-automatic, entry is provided, there is integrated, robotization, the advantages such as loading are not shut down in support.Application of sample, detection, data processing, report the test " are accomplished without any letup ", have both made up loaded down with trivial details, the slow-footed shortcoming of small-sized POCT project manual operations, overcome again large automatic instrument detect need be longer TAT and the trouble of sample pre-treatment.POCT makes quality control become more practical after realizing robotization batch detection.And we are many for domestic hospitals patient, workload is large, the feature low to cost requirement, and the instrument of exploitation, reagent, far below similar imported product, are more suitable for China's actual conditions.It is loaded down with trivial details that this full-automatic real-time test instrument has overcome the pre-treatment of large automatic instrument sample, the shortcoming that procedure links is many, simultaneously, realizing Automatic continuous detects, greatly shorten the sense cycle of average each test, can solve again single manual operations time-consuming, problem that can not batch detection.This full-automatic real-time test instrument can meet hospital outpatient individual event order or entry, single or batch pattern detection.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the utility model is described in further detail.
Fig. 1 is the structural representation that full-automatic real-time test instrument described in the utility model removes shell state.
Fig. 2 is the structural representation of sample input media described in the utility model.
Fig. 3 is the structural representation of oscillating uniform device described in the utility model.
Fig. 4 is the structural representation of sample reaction unit described in the utility model.
Fig. 5 is the explosive view of agent bin described in the utility model.
Fig. 6 is the structural representation of handgrip described in the utility model mechanism.
The label that in figure, component names is corresponding is as follows:
1, support body; 2, sample rack; 3, sample tube; 4, Article 1 ink recorder; 5, test card; 6, detect card holder; 7, reaction cup; 8, flowing water ring; 9, agent bin; 10, reagent bottle; 11, reaction cup stack area; 12, metal bath district; 13, surge bunker; 14, the first push rod; 141, the first motor; 15, the second push rod; 151, the second motor; 16, the 3rd push rod; 161, the 3rd motor; 17, the 4th push rod; 171, the 4th motor; 18, the first limit switch; 19, the second limit switch; 20, spacing door; 21, photoelectricity correlation inductor; 22, the first direct current generator; 23, rotary friction rubbing head; 24, orienting lug; 25, handgrip; 26, block; 27, mounting platform; 28, the second direct current generator; 29, screw mandrel; 30, fixed block; 31, brushless electric machine; 32, stator; 33, eccentric block; 34, the 5th motor; 35, the first gear; 36, reagent tray; 37, ring gear; 38, reaction cup socket; 39, latch; 40, the 6th motor; 41, the second gear; 42, opening; 43, Article 2 ink recorder; 44, heating radiator; 45, cooling piece; 46, blower fan; 47, handgrip arm; 48, electromagnet; 49, slide block; 50, piece is grabbed on a left side; 51, piece is grabbed on the right side; 52, the 7th motor; 53, slide rail; 54, Timing Belt; 55, first connecting rod; 56, second connecting rod; 57, agent bin lid; 58, sector notch.
Embodiment
Below in conjunction with drawings and Examples, the utility model is described in further detail:
As the embodiment of full-automatic real-time test instrument described in the utility model, as Fig. 1, Fig. 2, Fig. 3, Fig. 4, shown in Fig. 5 and Fig. 6, comprise shell (not shown), support body 1, sample rack 2, sample input media, oscillating uniform device, test card storehouse, sample reaction unit, test card conveying device, pick-up unit and control panel (not shown), described sample input media, oscillating uniform device, test card storehouse, sample reaction unit, test card conveying device and pick-up unit are all located on described support body, described sample rack is located in described sample input media, on described sample rack 2, be placed with sample tube 3, described oscillating uniform device is located at described sample input media rear, described sample reaction unit, test card conveying device and pick-up unit are all located at described oscillating uniform device rear, described sample input media comprises transfer bar mechanism, position-limit mechanism and induction mechanism, described oscillating uniform device comprises Article 1 ink recorder 4, rotating mechanism, vacuum blood vessel uniform shaking mechanism and peripheral vessel uniform shaking mechanism, described rotating mechanism, vacuum blood vessel uniform shaking mechanism and peripheral vessel uniform shaking mechanism are all fixed on described support body, described peripheral vessel uniform shaking mechanism is located at described vacuum blood vessel uniform shaking mechanism below, and described rotating mechanism is located at described vacuum blood vessel uniform shaking mechanism one side, described test card storehouse comprises test card 5, detects card holder 6 and scanning mechanism, and described test card 5 is located in described detection card holder 6, and described scanning mechanism is located at described detection card holder 6 rears, described sample reaction unit comprises reaction cup 7, flowing water ring 8, agent bin 9, reagent bottle 10, sample arm mechanism, handgrip mechanism, reaction cup stack area 11 and metal bath district 12, described reagent bottle 10 is located in agent bin 9, described flowing water ring 8 is located at described agent bin 9 upper surfaces, described reaction cup 7 is located on described flowing water ring 8, described sample arm mechanism is located at described agent bin 9 tops, and be fixed on described support body 1, described handgrip mechanism is located at described reaction cup stack area 11 and 12 tops, metal bath district, and is fixed on described support body 1, described test card conveying device comprises test card conveying arm, surge bunker 13 and taking mechanism, and described test card conveying arm is located at described test card storehouse rear, and is fixed on described support body 1, and described taking mechanism slides and is located on described test card conveying arm, described pick-up unit comprises testing agency and loses test card mechanism, loses test card mechanism top described in described testing agency is located at, and described surge bunker is located between described testing agency and taking mechanism, described control panel is fixed on described support body 1, described transfer bar mechanism, position-limit mechanism, induction mechanism, Article 1 ink recorder, rotating mechanism, vacuum blood vessel uniform shaking mechanism, peripheral vessel uniform shaking mechanism, scanning mechanism, sample arm mechanism, handgrip mechanism, metal bath district, test card conveying arm, surge bunker, taking mechanism, testing agency and lose test card mechanism and be electrically connected respectively at described control panel.
In the present embodiment, described transfer bar mechanism comprises the first push rod 14, the second push rod 15, the 3rd push rod 16 and the 4th push rod 17, and respectively by the first motor, the second motor, the 3rd motor and the 4th driven by motor, described the first push rod 14 and the 3rd push rod 16 are for moving in the vertical described sample rack 2, and described the second push rod 15 and the 4th push rod 17 are for moving in the horizontal described sample rack 2; Described position-limit mechanism comprises in the vertical the first spacing limit switch 18 of described sample rack and second limit switch 19 spacing to described sample rack in the horizontal; Described sample input media also comprises the spacing door 20 for docking, and described spacing door 20 tops are provided with photoelectricity correlation inductor 21.
In the present embodiment, described rotating mechanism comprises the first direct current generator 22 and rotary friction rubbing head 23, and described the first direct current generator 22 is slidably connected in vertical direction with described support body 1; Described vacuum blood vessel uniform shaking mechanism comprises orienting lug 24 and handgrip 25, described orienting lug 24 is fixed on described support body 1, described handgrip 25 is slidably connected in vertical direction with described support body 1, described handgrip 25 is provided with block 26, described block 26 rotates under the guide effect of orienting lug 24, and drives handgrip 25 to rotate; Described peripheral vessel uniform shaking mechanism comprises mounting platform 27, the second direct current generator 28, screw mandrel 29, fixed block 30, brushless electric machine 31 and stator 32, described mounting platform 27 is fixed on described support body 1, described fixed block 30 is slidably connected with described mounting platform 27 under the drive of described the second direct current generator 28 and screw mandrel, described brushless electric machine 31 is provided with eccentric block 33, drives described stator 32 to vibrate in the time that described brushless electric machine 31 rotates.
In the present embodiment, described agent bin 9 is located on described support body 1, described agent bin 9 inside are provided with the 5th motor 34, described the 5th motor 34 output terminals are provided with the first gear 35, in described agent bin 9, be provided with reagent tray 36, described reagent tray 36 lower surfaces are provided with ring gear 37, described the first gear 35 is meshed with described ring gear 37, described reagent bottle 10 is located on described reagent tray 36, on described flowing water ring 8, be evenly equipped with four reaction cup sockets 38, described reaction cup 7 is inserted in described reaction cup socket 38, described flowing water ring is provided with latch 39, described flowing water ring 8 outsides are provided with the 6th motor 40, described the 6th motor 40 output terminals are provided with the second gear 41, described the second gear 41 is meshed with described flowing water ring 8, described metal bath district 12 is located at described agent bin 9 one sides, described metal bath district 12 1 sides are located in described reaction cup stack area 11, described agent bin 9 is provided with opening 42, described opening 42 places are provided with described Article 2 ink recorder 43, described Article 2 ink recorder 43 is fixed on described support body 1, in described agent bin 9, be positioned at described the 5th motor 34 1 sides and be provided with heating radiator 44, described heating radiator 44 tops are provided with cooling piece 45, and described heating radiator 44 belows are provided with blower fan 46.
In the present embodiment, described handgrip mechanism comprises that piece 50 is grabbed on handgrip arm 47, electromagnet 48, slide block 49, a left side and piece 51 is grabbed on the right side, described handgrip arm 47 is provided with the 7th motor 52 and slide rail 53, described slide block 49 is slidably connected with described slide rail 53, and be connected with described the 7th motor 52 by Timing Belt 54, described electromagnet 48 is located on described slide block 49, described electromagnet 48 lower ends are provided with first connecting rod 55, and a described left side is grabbed piece 50 and the right side and grabbed piece 51 and be rotationally connected by second connecting rod 56 and described first connecting rod 55 respectively.
In the present embodiment, described reagent bottle 10 tops are provided with agent bin lid 57, and described agent bin lid 57 is provided with sector notch 58.
In the present embodiment, described testing agency comprises an immune colloid gold detection module (not shown) and an immunofluorescence detection module (not shown), and described immune colloid gold detection module and immunofluorescence detection module are all located at described test card 5 tops.
Certainly, described testing agency also can comprise one or two immune colloid gold detection modules, or also can comprise one or two immunofluorescence detection modules, or also can comprise that one or two immunomagnetic beads detection modules also can comprise one or two immunofluorescence particulate modules, or also can comprise an immune colloid gold detection module, an immunofluorescence detection module and an immunomagnetic beads detection module, or also can comprise an immune colloid gold detection module, an immunofluorescence detection module, immunomagnetic beads detection module and immunofluorescence particulate module.So, also all within the utility model protection domain, repeat no longer one by one here.
Claims (7)
1. a full-automatic real-time test instrument, it is characterized in that comprising shell, support body, sample rack, sample input media, oscillating uniform device, test card storehouse, sample reaction unit, test card conveying device, pick-up unit and control panel, described sample input media, oscillating uniform device, test card storehouse, sample reaction unit, test card conveying device and pick-up unit are all located on described support body, described sample rack is located in described sample input media, on described sample rack, be placed with sample tube, described oscillating uniform device is located at described sample input media rear, described sample reaction unit, test card conveying device and pick-up unit are all located at described oscillating uniform device rear, described sample input media comprises transfer bar mechanism, position-limit mechanism and induction mechanism, described oscillating uniform device comprises Article 1 ink recorder, rotating mechanism, vacuum blood vessel uniform shaking mechanism and peripheral vessel uniform shaking mechanism, described rotating mechanism, vacuum blood vessel uniform shaking mechanism and peripheral vessel uniform shaking mechanism are all fixed on described support body, described peripheral vessel uniform shaking mechanism is located at described vacuum blood vessel uniform shaking mechanism below, and described rotating mechanism is located at described vacuum blood vessel uniform shaking mechanism one side, described test card storehouse comprises test card, detects card holder and scanning mechanism, and described test card is located in described detection card holder, and described scanning mechanism is located at described detection card holder rear, described sample reaction unit comprises reaction cup, flowing water ring, agent bin, reagent bottle, sample arm mechanism, handgrip mechanism, reaction cup stack area and metal bath district, described reagent bottle is located in agent bin, described flowing water is located on described agent bin upper surface, described reaction cup is located on described flowing water ring, described sample arm mechanism is located at described agent bin top, and be fixed on described support body, described handgrip mechanism is located at described reaction cup stack area and top, metal bath district, and is fixed on described support body, described test card conveying device comprises test card conveying arm, surge bunker and taking mechanism, and described test card conveying arm is located at described test card storehouse rear, and is fixed on described support body, and described taking mechanism slides and is located on described test card conveying arm, described pick-up unit comprises testing agency and loses test card mechanism, loses test card mechanism top described in described testing agency is located at, and described surge bunker is located between described testing agency and taking mechanism, described control panel is fixed on described support body, described transfer bar mechanism, position-limit mechanism, induction mechanism, Article 1 ink recorder, rotating mechanism, vacuum blood vessel uniform shaking mechanism, peripheral vessel uniform shaking mechanism, scanning mechanism, sample arm mechanism, handgrip mechanism, metal bath district, test card conveying arm, surge bunker, taking mechanism, testing agency and lose test card mechanism and be electrically connected respectively at described control panel.
2. full-automatic real-time test instrument as claimed in claim 1, it is characterized in that described transfer bar mechanism comprises the first push rod, the second push rod, the 3rd push rod and the 4th push rod, and respectively by the first motor, the second motor, the 3rd motor and the 4th driven by motor, described the first push rod and the 3rd push rod are for moving in the vertical described sample rack, and described the second push rod and the 4th push rod are for moving in the horizontal described sample rack; Described position-limit mechanism comprises in the vertical the first spacing limit switch of described sample rack and second limit switch spacing to described sample rack in the horizontal; Described sample input media also comprises the spacing door for docking, and described spacing door top is provided with photoelectricity correlation inductor.
3. full-automatic real-time test instrument as claimed in claim 2, is characterized in that described rotating mechanism comprises the first direct current generator and rotary friction rubbing head, and described the first direct current generator and described support body are slidably connected in vertical direction; Described vacuum blood vessel uniform shaking mechanism comprises orienting lug and handgrip, described orienting lug is fixed on described support body, and described handgrip and described support body are slidably connected in vertical direction, and described handgrip is provided with block, described block rotates under the guide effect of orienting lug, and drives handgrip to rotate; Described peripheral vessel uniform shaking mechanism comprises mounting platform, the second direct current generator, screw mandrel, fixed block, brushless electric machine and stator, described mounting platform is fixed on described support body, described fixed block is slidably connected with described mounting platform under the drive of described the second direct current generator and screw mandrel, described brushless electric machine is provided with eccentric block, drives described stator vibration in the time that described brushless electric machine rotates.
4. full-automatic real-time test instrument as claimed in claim 3, it is characterized in that described agent bin is located on described support body, described agent bin inside is provided with the 5th motor, described the 5th motor output end is provided with the first gear, in described agent bin, be provided with reagent tray, described reagent tray lower surface is provided with ring gear, described the first gear is meshed with described ring gear, described reagent bottle is located on described reagent tray, on described flowing water ring, be evenly equipped with four reaction cup sockets, described reaction cup is inserted in described reaction cup socket, described flowing water ring is provided with latch, described flowing water ring outside is provided with the 6th motor, described the 6th motor output end is provided with the second gear, described the second gear is meshed with described flowing water ring, described metal bath district is located at described agent bin one side, described metal bath district one side is located in described reaction cup stack area, described agent bin is provided with opening, described opening part is provided with Article 2 ink recorder, described Article 2 ink recorder is fixed on described support body, in described agent bin, be positioned at described the 5th motor one side and be provided with heating radiator, described heating radiator top is provided with cooling piece, and described heating radiator below is provided with blower fan.
5. full-automatic real-time test instrument as claimed in claim 4, it is characterized in that described handgrip mechanism comprises that piece is grabbed on handgrip arm, electromagnet, slide block, a left side and piece is grabbed on the right side, described handgrip arm is provided with the 7th motor and slide rail, described slide block and described slide rail are slidably connected, and be connected with described the 7th motor by Timing Belt, described electromagnet is located on described slide block, described electromagnet lower end is provided with first connecting rod, and a described left side is grabbed piece and the right side and grabbed piece and be rotationally connected by second connecting rod and described first connecting rod respectively.
6. full-automatic real-time test instrument as claimed in claim 5, is characterized in that described reagent bottle top is provided with agent bin lid, and described agent bin covers and is provided with sector notch.
7. full-automatic real-time test instrument as claimed in claim 6, it is characterized in that described detection module comprises one or several in immune colloid gold detection module, immunofluorescence detection module, immunomagnetic beads detection module, immunofluorescence particulate module, described immune colloid gold detection module or immunofluorescence detection module or immunomagnetic beads detection module or immunofluorescence particulate module are located at described test card bracket top.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320867494.4U CN203616325U (en) | 2013-12-26 | 2013-12-26 | Full-automatic instant check meter |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320867494.4U CN203616325U (en) | 2013-12-26 | 2013-12-26 | Full-automatic instant check meter |
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| CN203616325U true CN203616325U (en) | 2014-05-28 |
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| CN201320867494.4U Expired - Lifetime CN203616325U (en) | 2013-12-26 | 2013-12-26 | Full-automatic instant check meter |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103760372A (en) * | 2013-12-26 | 2014-04-30 | 杭州中翰盛泰生物技术有限公司 | Full-automatic immediate check meter |
| CN104280374A (en) * | 2014-10-29 | 2015-01-14 | 广州蓝勃生物科技有限公司 | Rotating disc type multi-project dry fluorescence detector |
| CN104535782A (en) * | 2014-12-29 | 2015-04-22 | 基蛋生物科技股份有限公司 | Full-automatic immuno-fluorescence quantitative analysis device and implementation method |
| CN104655605A (en) * | 2015-03-11 | 2015-05-27 | 厦门为正生物科技有限公司 | Detection card based intelligent detection liquid detector and method |
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2013
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