CN107703310B - A kind of experimental implementation system for mouse immune antiboidy - Google Patents

Abstract

The invention discloses a kind of experimental implementation systems for mouse immune antiboidy, including sampling module, experimental implementation module and station, the sampling module includes detection unit, compare judging unit, first marking unit, sampling unit, second marking unit and storage unit, and detection unit, compare judging unit, first marking unit, sampling unit, second marking unit and storage unit are sequentially connected, the storage unit includes laying rack and is provided on laying rack and puts slot, placing groove is offered at the top of the station, the first sliding groove is offered on the two sides inner wall of the placing groove, the second sliding groove is also provided on the two sides inner wall of the placing groove.The present invention is economical and practical, the laying rack in placing groove can be fixed using twin shaft telescope motor, as a result, fixed structure is stablized required for recycling sampling module and experimental implementation module that can obtain, and the deviation that experimental result occurs is in controlled range.

Description

A kind of experimental implementation system for mouse immune antiboidy

Technical field

The present invention relates to Fluorescent antib field more particularly to a kind of experimental implementation systems for mouse immune antiboidy System.

Background technique

Immune antiboidy refers to body under antigenic substance stimulation, caused by the thick liquid cell that be divided into as B cell, can be with phase Answer antigen that the immunoglobulin of specific binding reaction occurs.

One kind is proposed application No. is 200580044498.0 patent document, and therapeutic antibodies are detected in experimental animal, It provides a kind of method that therapeutic antibodies can be detected in the sample that experimental animal obtains, but it is not advanced to sample Row detection, can not determine the otherness and detection level of sample, cause experimental result to will appear deviation, and in experiment, operation The laying rack that sample is put on platform is not fixed, and is easy in experiment so that laying rack movement, causes to damage, institute to sample It is set forth above for solving the problems, such as with we have proposed a kind of experimental implementation systems for mouse immune antiboidy.

Summary of the invention

Technical problems based on background technology, the invention proposes a kind of experimental implementations for mouse immune antiboidy System.

A kind of experimental implementation system for mouse immune antiboidy proposed by the present invention, including sampling module, experimental implementation Module and station, the sampling module include detection unit, comparison judging unit, the first marking unit, sampling unit, second Marking unit and storage unit, and detection unit, comparison judging unit, the first marking unit, sampling unit, the second marking unit It is sequentially connected with storage unit, the storage unit includes laying rack and the slot of putting that is provided on laying rack, the station Top offer placing groove, the first sliding groove, the two sides of the placing groove are offered on the two sides inner wall of the placing groove The second sliding groove is also provided on inner wall, and the second sliding groove is located at the lower section of the first sliding groove, is placed in the placing groove Laying rack, and the top of station is extended at the top of laying rack, the two sides of laying rack offer the second card slot, described to put The two sides of frame are also provided with the first card slot, and the first card slot is located at the lower section of the second card slot.

Preferably, embedded groove is offered on side inner wall of first sliding groove far from the first sliding groove notch, it is described For embedded groove far from spring is welded on the side inner wall of embedded groove notch, one end of the spring is welded with the first magnet, described First magnet is slidably mounted in embedded groove, and the one end of the first magnet far from spring is through the first sliding groove and extends to placing groove Interior, first magnet is adapted with the first sliding groove.

Preferably, second sliding groove is equipped with fixed plate far from the side inner wall of the second sliding groove notch, described solid Fixed board offers bolt hole close to the side quadrangle of the second sliding groove notch, and bolt hole internal screw thread is connected with bolt, described Fixed plate is fixedly mounted on side inner wall of second sliding groove far from the second sliding groove notch by bolt hole and bolt, described Fixed plate is welded with the second magnet close to the side of the second sliding groove notch, and second magnet is equipped with far from the side of fixed plate Third magnet compatible with the first card slot, the third magnet are slidably connected with the second sliding groove, the top of the third magnet The bottom in portion is welded with limited block, and limited block is located in placing groove.

Preferably, second card slot and the first card slot side inner wall close to each other offer the same through-hole, described It is welded with two symmetrically arranged fixed blocks on the inner wall of through-hole, the flexible electricity of the same twin shaft is welded between two fixed blocks Machine is welded with connecting rod on the output shaft at twin shaft telescope motor both ends, and one end that two connecting rods are located remotely from each other is welded It is connected to the 5th magnet, the 5th magnet is adapted with through-hole, and two the 5th magnet are located at the first card slot and the second card In slot, second card slot is welded with the 4th magnet on the side inner wall far from the second card slot notch, in the second card slot 5th magnet is the pole S close to the side of the 4th magnet, and the 4th magnet is the pole S, the 5th magnetic close to the side of the 5th magnet Iron is the pole N close to the side of the first magnet, and the first magnet is the pole N, the first magnet and the 4th magnetic close to the side of the 5th magnet Attraction between iron is smaller than the maximum pull of spring, and second magnet is the pole N, and third magnetic close to the side of third magnet Iron is the pole N close to the side of the second magnet, and the 5th magnet in the first card slot is the pole S, institute close to the side of third magnet It is the pole S that third magnet, which is stated, close to the side of the 5th magnet, and the repulsion between the 5th magnet and third magnet is than the second magnet Repulsion between third magnet is big.

Preferably, the detection unit is used for the cell activity and health degree of test sample, and testing result It is conveyed to comparison judging unit, judging result is conveyed to first for judging testing result by comparison judging unit Marking unit, the first marking unit are used to carry out classification marker to judging result, and sampling unit is according to the mark of the first marking unit Note chooses cell activity and the much the same sample of health degree is sampled, and sampling result is conveyed to the second marking unit, Sampling result is marked in second marking unit, and the sample delivery that label is completed is to storage unit, storage unit according to Different labels is placed on sample to put in slot and be stored.

Preferably, the experimental implementation module includes materials unit, processing unit, slice unit, washing unit and observation Analytical unit, and unit of drawing materials, processing unit, slice unit, washing unit and observation analysis unit are sequentially connected.

Preferably, the materials unit is used for the sample that stores up to memory cell and extracts, and extracting Sample delivery is handled to processing unit, and processing unit is handled sample using different reagents, and slice unit is used for To treated, sample is sliced, washing unit for being washed to the sample after slice, observation analysis unit for pair Sample after washing carries out observation analysis.

Preferably, the detergent of the washing unit is PBS buffer solution, and observation analysis unit is seen using microscope Examine analysis.

The beneficial effects of the present invention are:

1, under the cooperation of station, placing groove and laying rack, laying rack can be placed in placing groove, in the first sliding Slot, embedded groove, spring, the first magnet, the second sliding groove, fixed plate, the second magnet, third magnet, limited block, the first card slot, Second card slot, the 4th magnet, through-hole, twin shaft telescope motor, fixed block, connecting rod and the 5th magnet cooperation under, utilize twin shaft The characteristic of telescope motor and magnet can be so that the first magnet and third magnet be respectively clamped into corresponding second card slot and first In card slot, so that laying rack is fixed in placing groove；

2, detection unit, comparison judging unit and the first marking unit cooperation under, so that it may obtain cell activity and The all much the same sample of health degree；Under the cooperation of sampling unit, the second marking unit and storage unit, so that it may to sample It is sampled and classification storage, utilizes materials unit, processing unit, slice unit, washing unit and observation analysis unit, so that it may It to handle sample, and observes, and obtains required conclusion；

The present invention is economical and practical, and the laying rack in placing groove can be fixed using twin shaft telescope motor, then benefit As a result, fixed structure is stablized required for being obtained with sampling module and experimental implementation module, and experimental result appearance Deviation is in controlled range.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the experimental implementation system for mouse immune antiboidy proposed by the present invention；

Fig. 2 is a kind of structural representation of the part A of the experimental implementation system for mouse immune antiboidy proposed by the present invention Figure；

Fig. 3 is a kind of partial top view of the experimental implementation system for mouse immune antiboidy proposed by the present invention；

Fig. 4 is a kind of principle frame of the experimental implementation systematic sampling module for mouse immune antiboidy proposed by the present invention Figure；

Fig. 5 is a kind of original of the experimental implementation module of the experimental implementation system for mouse immune antiboidy proposed by the present invention Manage block diagram；

Fig. 6 is a kind of connection figure of the experimental implementation system for mouse immune antiboidy proposed by the present invention.

In figure: 1 station, 2 placing grooves, 3 first sliding grooves, 4 embedded grooves, 5 springs, 6 first magnet, 7 second sliding grooves, 8 fixed plates, 9 second magnet, 10 third magnet, 11 limited blocks, 12 first card slots, 13 second card slots, 14 the 4th magnet, 15 lead to Slot is put in hole, 16 twin shaft telescope motors, 17 fixed blocks, 18 connecting rods, 19 the 5th magnet, 20 laying racks, 21.

Specific embodiment

Combined with specific embodiments below the present invention is made further to explain.

Embodiment

With reference to 1-6, a kind of experimental implementation system for mouse immune antiboidy, including sampling mold are proposed in the present embodiment Block, experimental implementation module and station 1, sampling module include detection unit, comparison judging unit, the first marking unit, sampling Unit, the second marking unit and storage unit, and detection unit, comparison judging unit, the first marking unit, sampling unit, the Two marking units and storage unit are sequentially connected, and storage unit includes laying rack 20 and is provided on laying rack 20 and puts slot 21, the top of station 1 offers placing groove 2, and the first sliding groove 3, the first sliding are offered on the two sides inner wall of placing groove 2 Slot 3 offers embedded groove 4, side of the embedded groove 4 far from 4 notch of embedded groove on the side inner wall far from 3 notch of the first sliding groove Spring 5 is welded on inner wall, one end of spring 5 is welded with the first magnet 6, and the first magnet 6 is slidably mounted in embedded groove 4, the The one end of one magnet 6 far from spring 5 is through the first sliding groove 3 and extends in placing groove 2, the first magnet 6 and the first sliding groove 3 It is adapted, the second sliding groove 7 is also provided on the two sides inner wall of placing groove 2, and the second sliding groove 7 is located at the first sliding groove 3 Lower section, the top of laying rack 20 extend to the top of station 1, and the two sides of laying rack 20 offer the second card slot 13, put The two sides of frame 20 are also provided with the first card slot 12, and the first card slot 12 is located at the lower section of the second card slot 13, and the second sliding groove 7 is separate The side inner wall of second sliding groove, 7 notch is equipped with fixed plate 8, and fixed plate 8 is equal close to the side quadrangle of 7 notch of the second sliding groove Bolt hole is offered, and bolt hole internal screw thread is connected with bolt, fixed plate 8 is fixedly mounted on second by bolt hole and bolt and slides On dynamic side inner wall of the slot 7 far from 7 notch of the second sliding groove, fixed plate 8 is welded with the close to the side of 7 notch of the second sliding groove Two magnet 9, the second magnet 9 are equipped with third magnet 10 compatible with the first card slot 12, third magnet far from the side of fixed plate 8 10 are slidably connected with the second sliding groove 7, and the bottom at the top of third magnet 10 is welded with limited block 11, and limited block 11 is located at In placing groove 2, limited block 11 is for limiting third magnet 10, so that third magnet 10 will not submerge the first card slot completely In 12, laying rack 20 is placed in placing groove 2, first with detection unit to the cell activity and health journey of sample to be tested Degree is detected, and testing result is conveyed to comparison judging unit, and comparison judging unit is recycled to carry out pair testing result Than judgement, and judging result is conveyed to the first marking unit, carries out different marks to judging result using the first marking unit Note, then sampling unit chooses cell activity according to the label of the first marking unit and the much the same sample of health degree is taken Sample, and the sample of acquirement is placed in vitro, the deviation of experimental result will be so reduced, so that the standard of experimental result True rate rises, and sampling result is then conveyed to the second marking unit, sampling result is marked in the second marking unit, is trying Different labels is sticked on pipe, to distinguish sampling as a result, the sample delivery that then test tube internal labeling is completed is single to storage Member, storage unit can be placed on the test tube equipped with sample to put in slot 21 and be stored according to different labels, in station 1, under the cooperation of placing groove 2 and laying rack 20, laying rack 20 can be placed in placing groove 2, in the first sliding groove 3, embedded groove 4, spring 5, the first magnet 6, the second sliding groove 7, fixed plate 8, the second magnet 9, third magnet 10, limited block 11, the first card slot 12, the second card slot 13, the 4th magnet 14, through-hole 15, twin shaft telescope motor 16, fixed block 17, connecting rod 18 and the 5th magnet 19 Cooperation under, can be so that the first magnet 6 and third magnet 10 block respectively using the characteristic of twin shaft telescope motor 16 and magnet Enter in corresponding second card slot 13 and the first card slot 12 so that laying rack 20 is fixed in placing groove 2, detection unit, Under the cooperation for comparing judging unit and the first marking unit, so that it may obtain all much the same sample of cell activity and health degree Product；Under the cooperation of sampling unit, the second marking unit and storage unit, so that it may sample is sampled and classification storage, Utilize materials unit, processing unit, slice unit, washing unit and observation analysis unit, so that it may sample is handled, and Observation, and obtain required conclusion, the present invention is economical and practical, can be in placing groove 2 using twin shaft telescope motor 16 Laying rack 20 is fixed, as a result, fixed structure required for recycling sampling module and experimental implementation module that can obtain Stablize, and the deviation that experimental result occurs is in controlled range.

In the present embodiment, the second card slot 13 and the first card slot 12 side inner wall close to each other offer the same through-hole 15, two symmetrically arranged fixed blocks 17 are welded on the inner wall of through-hole 15, are welded between two fixed blocks 17 same double Axis telescope motor 16, connecting rod 18 is welded on the output shaft at 16 both ends of twin shaft telescope motor, and two connecting rods 18 are mutually remote From one end be welded with the 5th magnet 19, the 5th magnet 19 is adapted with through-hole 15, and two the 5th magnet 19 are located at In first card slot 12 and the second card slot 13, the second card slot 13 is welded with the 4th magnetic on the side inner wall far from 13 notch of the second card slot Iron 14, the 5th magnet 19 in the second card slot 13 are the pole S close to the side of the 4th magnet 14, and the 4th magnet 14 is close to the The side of five magnet 19 is the pole S, and the 5th magnet 19 is the pole N close to the side of the first magnet 6, and the first magnet 6 is close to the 5th magnetic The side of iron 16 is the pole N, and the attraction between the first magnet 6 and the 4th magnet 14 is smaller than the maximum pull of spring 5, the second magnet 9 close to the side of third magnet 10 be the pole N, and third magnet 10 close to the side of the second magnet 9 be the pole N, be located at the first card slot The 5th magnet 19 in 12 is the pole S close to the side of third magnet 10, and third magnet 10 is S close to the side of the 5th magnet 19 Pole, the repulsion between the 5th magnet 19 and third magnet 10 is bigger than the repulsion between the second magnet 9 and third magnet 10, works as twin shaft When telescope motor 16 starts, it just will drive two the 5th magnet 19 and shunk, until the 5th magnet 19 is shunk back in through-hole 15, The repulsion that the second magnet 9 generates third magnet 10 at this time will make third magnet 10 submerge in the first card slot 12, and make The outside of limited block 11 and laying rack 20 is in close contact, the first magnet 6 will because of the 4th magnet 14 attraction and submerge the In two draw-in groove 13, until attraction between the first magnet 6 and the 4th magnet 14 is equal with the tension of spring 5, laying rack at this time 20 are fixed in placing groove 2, and experimental implementation module includes materials unit, processing unit, slice unit, washing unit and observation Analytical unit, and unit of drawing materials, processing unit, slice unit, washing unit and observation analysis unit are sequentially connected, unit of drawing materials For being extracted to the sample that memory cell is stored up, and the sample delivery extracted is handled to processing unit, Processing unit is handled sample using different reagents, and slice unit is for treated, sample to be sliced, washing For washing to the sample after slice, observation analysis unit is used to carry out observation analysis to the sample after washing unit, washes The detergent for washing unit is PBS buffer solution, and observation analysis unit carries out observation analysis using microscope, in station 1, is placed Under the cooperation of slot 2 and laying rack 20, laying rack 20 can be placed in placing groove 2, in the first sliding groove 3, embedded groove 4, spring 5, the first magnet 6, the second sliding groove 7, fixed plate 8, the second magnet 9, third magnet 10, limited block 11, the first card slot 12, second The cooperation of card slot 13, the 4th magnet 14, through-hole 15, twin shaft telescope motor 16, fixed block 17, connecting rod 18 and the 5th magnet 19 Under, it can be so that the first magnet 6 and third magnet 10 be respectively clamped into correspondence using the characteristic of twin shaft telescope motor 16 and magnet The second card slot 13 and the first card slot 12 in so that laying rack 20 is fixed in placing groove 2, sentence in detection unit, comparison Under the cooperation of disconnected unit and the first marking unit, so that it may obtain all much the same sample of cell activity and health degree；It is taking Under the cooperation of sample unit, the second marking unit and storage unit, so that it may be sampled to sample and classification storage, utilize materials Unit, processing unit, slice unit, washing unit and observation analysis unit, so that it may sample is handled, and is observed, and Obtain required conclusion, the present invention is economical and practical, can be to the laying rack 20 in placing groove 2 using twin shaft telescope motor 16 It is fixed, as a result, fixed structure is stablized required for recycling sampling module and experimental implementation module that can obtain, and it is real The deviation of result appearance is tested in controlled range.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (5)

1. a kind of experimental implementation system for mouse immune antiboidy, including sampling module, experimental implementation module and station (1), which is characterized in that the sampling module includes detection unit, comparison judging unit, the first marking unit, sampling unit, the Two marking units and storage unit, and detection unit, comparison judging unit, the first marking unit, sampling unit, the second label are single Member and storage unit are sequentially connected, and the storage unit includes laying rack (20) and is provided on laying rack (20) and puts slot (21), it is offered placing groove (2) at the top of the station (1), offers first on the two sides inner wall of the placing groove (2) Sliding groove (3), first sliding groove (3) far from the first sliding groove (3) notch side inner wall on offer embedded groove (4), The embedded groove (4) far from being welded with spring (5) on the side inner wall of embedded groove (4) notch, weld by one end of the spring (5) Having the first magnet (6), first magnet (6) is slidably mounted in embedded groove (4), and the one of the first magnet (6) separate spring (5) End is through the first sliding groove (3) and extends in placing groove (2), and first magnet (6) is adapted with the first sliding groove (3), It is also provided with the second sliding groove (7) on the two sides inner wall of the placing groove (2), and the second sliding groove (7) is located at the first sliding groove (3) lower section, second sliding groove (7) are equipped with fixed plate (8) far from the side inner wall of the second sliding groove (7) notch, institute It states fixed plate (8) and offers bolt hole close to the side quadrangle of the second sliding groove (7) notch, and bolt hole internal screw thread is connected with Bolt, the fixed plate (8) are fixedly mounted on the second sliding groove (7) far from the second sliding groove (7) slot by bolt hole and bolt On the side inner wall of mouth, the fixed plate (8) is welded with the second magnet (9) close to the side of the second sliding groove (7) notch, described Second magnet (9) is equipped with the first card slot (12) compatible third magnet (10), the third far from the side of fixed plate (8) Magnet (10) is slidably connected with the second sliding groove (7), and the bottom at the top of the third magnet (10) is welded with limited block (11), and limited block (11) is located in placing groove (2), is placed with laying rack (20) in the placing groove (2), and laying rack (20) Top extend to the top of station (1), the two sides of laying rack (20) offer the second card slot (13), the laying rack (20) two sides are also provided with the first card slot (12), and the first card slot (12) is located at the lower section of the second card slot (13), and described second Card slot (13) and the first card slot (12) side inner wall close to each other offer the same through-hole (15), the through-hole (15) it is interior It is welded with two symmetrically arranged fixed blocks (17) on wall, is welded with the same twin shaft telescope motor between two fixed blocks (17) (16), it is welded with connecting rod (18) on the output shaft at twin shaft telescope motor (16) both ends, two connecting rods (18) are mutual Separate one end is welded with the 5th magnet (19), and the 5th magnet (19) is adapted with through-hole (15), and two the 5th magnetic Iron (19) is located in the first card slot (12) and the second card slot (13), and second card slot (13) is far from the second card slot (13) slot It is welded with the 4th magnet (14) on the side inner wall of mouth, is located at the 5th magnet (19) in the second card slot (13) close to the 4th magnet (14) side is the pole S, and the 4th magnet (14) is the pole S close to the side of the 5th magnet (19), and the 5th magnet (19) is leaned on The side of nearly first magnet (6) is the pole N, and the first magnet (6) is the pole N, the first magnet (6) close to the side of the 5th magnet (19) Attraction between the 4th magnet (14) is smaller than the maximum pull of spring (5), and second magnet (9) is close to third magnet (10) side is the pole N, and third magnet (10) is the pole N close to the side of the second magnet (9), is located in the first card slot (12) 5th magnet (19) close to third magnet (10) side be the pole S, the third magnet (10) close to the 5th magnet (19) one Side is the pole S, repulsion between the 5th magnet (19) and third magnet (10) than the second magnet (9) and third magnet (10) it Between repulsion it is big.

2. a kind of experimental implementation system for mouse immune antiboidy according to claim 1, which is characterized in that the inspection Cell activity and health degree that unit is used for test sample are surveyed, and testing result is conveyed to comparison judging unit, it is right Than judging unit for judging testing result, and judging result is conveyed to the first marking unit, the first marking unit For carrying out classification marker to judging result, sampling unit chooses cell activity and healthy journey according to the label of the first marking unit It spends much the same sample to be sampled, and sampling result is conveyed to the second marking unit, the second marking unit is to sampling result It is marked, and the sample delivery that label is completed, to storage unit, storage unit is placed on sample according to different labels It puts in slot (21) and is stored.

3. a kind of experimental implementation system for mouse immune antiboidy according to claim 1, which is characterized in that the reality It tests operation module to include materials unit, processing unit, be sliced unit, washing unit and observation analysis unit, and unit of drawing materials, place Reason unit, slice unit, washing unit and observation analysis unit are sequentially connected.

4. a kind of experimental implementation system for mouse immune antiboidy according to claim 3, which is characterized in that described to take The sample that material unit is used to store up memory cell extracts, and the sample delivery extracted is carried out to processing unit Processing, processing unit handled sample using different reagents, slice unit for treated, sample to be sliced, For washing to the sample after slice, observation analysis unit is used to carry out the sample after washing observation point washing unit Analysis.

5. a kind of experimental implementation system for mouse immune antiboidy according to claim 3, which is characterized in that described to wash The detergent for washing unit is PBS buffer solution, and observation analysis unit carries out observation analysis using microscope.