CN107703310A - A kind of experimental implementation system for mouse immune antiboidy - Google Patents

Abstract

The invention discloses a kind of experimental implementation system for mouse immune antiboidy, including sampling module, experimental implementation module and operating desk, the sampling module includes detection unit, contrast judging unit, first indexing unit, sampling unit, second indexing unit and memory cell, and detection unit, contrast judging unit, first indexing unit, sampling unit, second indexing unit and memory cell are sequentially connected, the memory cell includes laying rack and is opened on laying rack to put groove, standing groove is offered at the top of the operating desk, the first sliding groove is offered on the both sides inwall of the standing groove, the second sliding groove is further opened with the both sides inwall of the standing groove.The present invention is economical and practical, the laying rack in standing groove is fixed using twin shaft telescope motor can, sampling module and experimental implementation module can is recycled to draw required result, fixed structure is stable, 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 system for mouse immune antiboidy System.

Background technology

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.

The patent document of Application No. 200580044498.0 proposes one kind and therapeutic antibodies is 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, the otherness and detection level of sample can not be determined, cause experimental result that deviation occurs, and in experiment, operation The laying rack that sample is put on platform is not fixed, and easily laying rack is moved in experiment, sample is caused to damage, institute To be used to solve problem set forth above we have proposed a kind of experimental implementation system for mouse immune antiboidy.

The content of the invention

Based on technical problem existing for background technology, the present invention proposes a kind of experimental implementation 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 operating desk, the sampling module include detection unit, contrast judging unit, the first indexing unit, sampling unit, second Indexing unit and memory cell, and detection unit, contrast judging unit, the first indexing unit, sampling unit, the second indexing unit It is sequentially connected with memory cell, the memory cell includes laying rack and the groove of putting being opened on laying rack, the operating desk Top offer standing groove, the first sliding groove, the both sides of the standing groove are offered on the both sides inwall of the standing groove The second sliding groove is further opened with inwall, and the second sliding groove is located at the lower section of the first sliding groove, is placed with the standing groove Laying rack, and the top of operating desk is extended at the top of laying rack, the both sides of laying rack offer the second neck, described to put The both sides of frame are further opened with the first neck, and the first neck is located at the lower section of the second neck.

Preferably, embedded groove is offered on side inwall of first sliding groove away from the first sliding groove notch, it is described Embedded groove is welded with spring on the side inwall away from 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 away from spring is through the first sliding groove and extends to standing groove Interior, first magnet is adapted with the first sliding groove.

Preferably, side inwall of second sliding groove away from the second sliding groove notch is provided with fixed plate, described solid Fixed board offers bolt hole close to the side corner of the second sliding groove notch, and bolt hole internal thread is connected with bolt, described Fixed plate is fixedly mounted on side inwall of second sliding groove away 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 the side of second magnet away from fixed plate is provided with The 3rd magnet being adapted with the first neck, the 3rd magnet are slidably connected with the second sliding groove, the top of the 3rd magnet The bottom in portion is welded with limited block, and limited block is located in standing groove.

Preferably, second neck and the first neck side inwall close to each other offer same through hole, described Two symmetrically arranged fixed blocks are welded with the inwall of through hole, the flexible electricity of same twin shaft is welded between two fixed blocks Machine, connecting rod is welded with the output shaft at the twin shaft telescope motor both ends, one end that two connecting rods are located remotely from each other is welded The 5th magnet is connected to, the 5th magnet is adapted with through hole, and two the 5th magnet are respectively positioned at the first neck and the second card In groove, second neck is welded with the 4th magnet on the side inwall away from the second neck notch, in the second neck 5th magnet is S poles close to the side of the 4th magnet, and the 4th magnet is S poles close to the side of the 5th magnet, the 5th magnetic Iron is N poles close to the side of the first magnet, and the first magnet is N poles, 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 N poles close to the side of the 3rd magnet, and the 3rd magnetic Iron is N poles close to the side of the second magnet, and the 5th magnet in the first neck is S poles close to the side of the 3rd magnet, institute It is S poles that the 3rd magnet, which is stated, close to the side of the 5th magnet, and the repulsion between the 5th magnet and the 3rd magnet is than the second magnet Repulsion between the 3rd magnet is big.

Preferably, the detection unit is used for the cytoactive and health degree for detecting sample, and testing result Contrast judging unit is conveyed to, contrast judging unit is used to judge testing result, and judged result is conveyed to first Indexing unit, the first indexing unit are used to carry out key words sorting to judged result, and sampling unit is according to the mark of the first indexing unit Note chooses cytoactive and the much the same sample of health degree is sampled, and sampling result is conveyed to the second indexing unit, Sampling result is marked second indexing unit, and the sample delivery that mark is completed is to memory cell, memory cell according to Different marks is placed on sample to put in groove and stored.

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

Preferably, the materials unit is used to extract the sample of memory cell storage, and extracting Sample delivery is handled to processing unit, and processing unit is handled sample using different reagents, and section unit is used for Sample after processing is cut into slices, washing unit be used for the sample after section is washed, observation analysis unit be used for pair Sample after washing carries out observation analysis.

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

The beneficial effects of the invention are as follows：

1st, under the cooperation of operating desk, standing groove and laying rack, laying rack can be placed in standing groove, slided first Groove, embedded groove, spring, the first magnet, the second sliding groove, fixed plate, the second magnet, the 3rd magnet, limited block, the first neck, Second neck, the 4th magnet, through hole, twin shaft telescope motor, fixed block, connecting rod and the 5th magnet cooperation under, utilize twin shaft The characteristic can of telescope motor and magnet causes the first magnet and the 3rd magnet to be respectively clamped into corresponding second neck and first In neck, so that laying rack is fixed in standing groove；

2nd, detection unit, contrast judging unit and the first indexing unit cooperation under, it is possible to draw cytoactive and The all much the same sample of health degree；Under the cooperation of sampling unit, the second indexing unit and memory cell, it is possible to sample It is sampled and classification storage, utilizes unit of drawing materials, processing unit, section unit, washing unit and observation analysis unit, so that it may To handle sample, and observe, and draw required conclusion；

The present invention is economical and practical, and the laying rack in standing groove is fixed using twin shaft telescope motor can, then profit Required result is drawn with sampling module and experimental implementation module can, fixed structure is stable, and experimental result appearance Deviation is in controlled range.

Brief description of the drawings

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

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

Fig. 4 is a kind of principle frame of 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 experimental implementation system for mouse immune antiboidy proposed by the present invention Manage block diagram；

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

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

Embodiment

The present invention is made with reference to specific embodiment 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 operating desk 1, sampling module include detection unit, contrast judging unit, the first indexing unit, sampling Unit, the second indexing unit and memory cell, and detection unit, contrast judging unit, the first indexing unit, sampling unit, the Two indexing units and memory cell are sequentially connected, and memory cell includes laying rack 20 and be opened on laying rack 20 to put groove 21, the top of operating desk 1 offers standing groove 2, and the first sliding groove 3 is offered on the both sides inwall of standing groove 2, and first slides Groove 3 offers embedded groove 4, side of the embedded groove 4 away from the notch of embedded groove 4 on the side inwall away from the notch of the first sliding groove 3 Spring 5 is welded with inwall, 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 One one end of magnet 6 away from spring 5 is through the first sliding groove 3 and extends in standing groove 2, the first magnet 6 and the first sliding groove 3 It is adapted, the second sliding groove 7 is further opened with the both sides inwall of standing 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 operating desk 1, and the both sides of laying rack 20 offer the second neck 13, put The both sides of frame 20 are further opened with the first neck 12, and the first neck 12 is located at the lower section of the second neck 13, and the second sliding groove 7 is remote The side inwall of the notch of second sliding groove 7 is provided with fixed plate 8, and fixed plate 8 is equal close to the side corner of the notch of the second sliding groove 7 Bolt hole is offered, and bolt hole internal thread is connected with bolt, fixed plate 8 is fixedly mounted on the second cunning by bolt hole and bolt On dynamic side inwall of the groove 7 away from the notch of the second sliding groove 7, fixed plate 8 is welded with the close to the side of the notch of the second sliding groove 7 Two magnet 9, the second side of the magnet 9 away from fixed plate 8 are provided with the 3rd magnet 10 being adapted with the first neck 12, the 3rd magnet 10 are slidably connected with the second sliding groove 7, and the bottom at the top of the 3rd magnet 10 is welded with limited block 11, and limited block 11 is located at In standing groove 2, limited block 11 is spacing for being carried out to the 3rd magnet 10 so that the 3rd magnet 10 will not submerge the first neck completely In 12, laying rack 20 is placed with standing groove 2, cytoactive and health journey first with detection unit to detected sample Degree is detected, and testing result is conveyed to contrast judging unit, recycles contrast judging unit to be carried out to testing result pair Than judging, and judged result is conveyed to the first indexing unit, different marks is carried out to judged result using the first indexing unit Note, then sampling unit chooses cytoactive according to the mark of the first indexing unit and the much the same sample of health degree is taken Sample, and the sample of acquirement is placed in vitro, it will so reduce the deviation of experimental result so that the standard of experimental result True rate rises, and sampling result is then conveyed to the second indexing unit, sampling result is marked the second indexing unit, is trying Different labels is sticked on pipe, it is then that the sample delivery that test tube internal labeling is completed is single to storage to distinguish the result of sampling Member, memory cell can be placed on the test tube equipped with sample to put in groove 21 and be stored according to different marks, in operating desk 1st, under the cooperation of standing groove 2 and laying rack 20, laying rack 20 can be placed in standing groove 2, in the first sliding groove 3, embedded groove 4th, spring 5, the first magnet 6, the second sliding groove 7, fixed plate 8, the second magnet 9, the 3rd magnet 10, limited block 11, the first neck 12nd, the second neck 13, the 4th magnet 14, through hole 15, twin shaft telescope motor 16, fixed block 17, the magnet 19 of connecting rod 18 and the 5th Cooperation under, using the characteristic can of twin shaft telescope motor 16 and magnet the first magnet 6 and the 3rd magnet 10 are blocked respectively In second neck 13 and the first neck 12 corresponding to entering so that laying rack 20 is fixed in standing groove 2, detection unit, Under the cooperation for contrasting judging unit and the first indexing unit, it is possible to draw all much the same sample of cytoactive and health degree Product；Under the cooperation of sampling unit, the second indexing unit and memory cell, it is possible to sample is sampled and classification storage, Utilize unit of drawing materials, processing unit, section unit, washing unit and observation analysis unit, it is possible to sample is handled, and Observation, and required conclusion is drawn, the present invention is economical and practical, using the can of twin shaft telescope motor 16 in standing groove 2 Laying rack 20 is fixed, and recycles sampling module and experimental implementation module can to draw required result, fixed structure It is stable, and the deviation that experimental result occurs is in controlled range.

In the present embodiment, the second neck 13 and the first neck 12 side inwall close to each other offer same through hole 15, two symmetrically arranged fixed blocks 17 are welded with the inwall of through hole 15, are welded between two fixed blocks 17 same double Axle telescope motor 16, connecting rod 18 is welded with the output shaft at the both ends of twin shaft telescope motor 16, 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 respectively In first neck 12 and the second neck 13, the second neck 13 is welded with the 4th magnetic on the side inwall away from the notch of the second neck 13 Iron 14, the 5th magnet 19 in the second neck 13 is S poles close to the side of the 4th magnet 14, and the 4th magnet 14 is close to The side of five magnet 19 is S poles, and the 5th magnet 19 is N poles 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 N poles, 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 the 3rd magnet 10 be N poles, and the 3rd magnet 10 is N poles close to the side of the second magnet 9, positioned at the first neck The 5th magnet 19 in 12 is S poles close to the side of the 3rd magnet 10, and the 3rd magnet 10 is S close to the side of the 5th magnet 19 Pole, the repulsion between the 5th magnet 19 and the 3rd magnet 10 is bigger than the repulsion between the second magnet 9 and the 3rd magnet 10, works as twin shaft When telescope motor 16 starts, two the 5th magnet 19 will be driven to be shunk, until the 5th magnet 19 is shunk back in through hole 15, Now the second magnet 9 will cause the 3rd magnet 10 to submerge in the first neck 12 repulsion caused by the 3rd magnet 10, and cause The outside of limited block 11 and laying rack 20 is in close contact, and the first magnet 6 will submerge the because of the attraction of the 4th magnet 14 In two draw-in groove 13, until attraction between the first magnet 6 and the 4th magnet 14 is equal with the tension force of spring 5, now laying rack 20 are fixed in standing groove 2, and experimental implementation module includes materials unit, processing unit, section unit, washing unit and observation Analytic unit, and unit of drawing materials, processing unit, section 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 section unit is used to cut into slices to the sample after processing, washs Unit is used to wash the sample after section, and observation analysis unit is used to carry out observation analysis to the sample after washing, washes The detergent for washing unit is PBS, and observation analysis unit carries out observation analysis using microscope, in operating desk 1, is placed Under the cooperation of groove 2 and laying rack 20, laying rack 20 can be placed in standing groove 2, in the first sliding groove 3, embedded groove 4, spring 5th, the first magnet 6, the second sliding groove 7, fixed plate 8, the second magnet 9, the 3rd magnet 10, limited block 11, the first neck 12, second The cooperation of neck 13, the 4th magnet 14, through hole 15, twin shaft telescope motor 16, fixed block 17, the magnet 19 of connecting rod 18 and the 5th Under, using the characteristic can of twin shaft telescope motor 16 and magnet the first magnet 6 and the 3rd magnet 10 are respectively clamped into correspondingly The second neck 13 and the first neck 12 in so that laying rack 20 is fixed in standing groove 2, sentence in detection unit, contrast Under the cooperation of disconnected unit and the first indexing unit, it is possible to draw all much the same sample of cytoactive and health degree；Taking Under the cooperation of sample unit, the second indexing unit and memory cell, it is possible to sample is sampled and classification storage, utilizes materials Unit, processing unit, section unit, washing unit and observation analysis unit, it is possible to sample is handled, and observed, and Required conclusion is drawn, the present invention is economical and practical, using the can of twin shaft telescope motor 16 to the laying rack 20 in standing groove 2 It is fixed, recycles sampling module and experimental implementation module can to draw required result, fixed structure is stable, and real The deviation of result appearance is tested in controlled range.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (8)

1. a kind of experimental implementation system for mouse immune antiboidy, including sampling module, experimental implementation module and operating desk (1), it is characterised in that the sampling module includes detection unit, contrast judging unit, the first indexing unit, sampling unit, the Two indexing units and memory cell, and detection unit, contrast judging unit, the first indexing unit, sampling unit, the second mark are single Member and memory cell are sequentially connected, and the memory cell includes laying rack (20) and be opened on laying rack (20) to put groove (21) standing groove (2), is offered at the top of the operating desk (1), first is offered on the both sides inwall of the standing groove (2) Sliding groove (3), the second sliding groove (7) is further opened with the both sides inwall of the standing groove (2), and the second sliding groove (7) is located at The lower section of first sliding groove (3), the standing groove (2) is interior to be placed with laying rack (20), and is extended at the top of laying rack (20) The top of operating desk (1), the both sides of laying rack (20) offer the second neck (13), and the both sides of the laying rack (20) are also opened Provided with the first neck (12), and the first neck (12) is located at the lower section of the second neck (13).

2. a kind of experimental implementation system for mouse immune antiboidy according to claim 1, it is characterised in that described One sliding groove (3) offers embedded groove (4) on the side inwall away from the first sliding groove (3) notch, and the embedded groove (4) is remote Spring (5) is welded with the side inwall of embedded groove (4) notch, one end of the spring (5) is welded with the first magnet (6), institute State the first magnet (6) to be slidably mounted in embedded groove (4), the first sliding groove is run through in the one end of the first magnet (6) away from spring (5) (3) and extend in standing groove (2), first magnet (6) is adapted with the first sliding groove (3).

3. a kind of experimental implementation system for mouse immune antiboidy according to claim 1, it is characterised in that described Side inwall of two sliding grooves (7) away from the second sliding groove (7) notch is provided with fixed plate (8), the fixed plate (8) close the The side corner of two sliding grooves (7) notch offers bolt hole, and bolt hole internal thread is connected with bolt, the fixed plate (8) it is fixedly mounted on by bolt hole and bolt on side inwall of the second sliding groove (7) away from the second sliding groove (7) notch, The fixed plate (8) is welded with the second magnet (9) close to the side of the second sliding groove (7) notch, and second magnet (9) is remote The side of fixed plate (8) is provided with the 3rd magnet (10) being adapted with the first neck (12), the 3rd magnet (10) and second Sliding groove (7) is slidably connected, and the bottom at the top of the 3rd magnet (10) is welded with limited block (11), and limited block (11) In standing groove (2).

4. a kind of experimental implementation system for mouse immune antiboidy according to claim 1, it is characterised in that described Two draw-in groove (13) offers same through hole (15) with the first neck (12) side inwall close to each other, the through hole (15) Two symmetrically arranged fixed blocks (17) are welded with inwall, the flexible electricity of same twin shaft is welded between two fixed blocks (17) Machine (16), connecting rod (18), two connecting rod (18) phases are welded with the output shaft at twin shaft telescope motor (16) both ends Mutually remote one end is welded with the 5th magnet (19), and the 5th magnet (19) is adapted with through hole (15), and two the 5th Magnet (19) is respectively in the first neck (12) and the second neck (13), and second neck (13) is away from the second neck (13) The 4th magnet (14) is welded with the side inwall of notch, the 5th magnet (19) in the second neck (13) is close to the 4th magnetic The side of iron (14) is S poles, and the 4th magnet (14) is S poles close to the side of the 5th magnet (19), the 5th magnet (19) Side close to the first magnet (6) be N poles, and the side of close 5th magnet (16) of the first magnet (6) is N poles, the first magnet (6) attraction between the 4th magnet (14) is smaller than the maximum pull of spring (5), and second magnet (9) is close to the 3rd magnetic The side of iron (10) is N poles, and the 3rd magnet (10) is N poles close to the side of the second magnet (9), in the first neck (12) The 5th magnet (19) close to the side of the 3rd magnet (10) be S poles, close 5th magnet (19) of the 3rd magnet (10) Side is S poles, and the repulsion between the 5th magnet (19) and the 3rd magnet (10) is than the second magnet (9) and the 3rd magnet (10) Between repulsion it is big.

A kind of 5. experimental implementation system for mouse immune antiboidy according to claim 1, it is characterised in that the inspection Cytoactive and health degree that unit is used to detect sample are surveyed, and testing result is conveyed to contrast judging unit, it is right It is used to judge testing result than judging unit, and judged result is conveyed to the first indexing unit, the first indexing unit For carrying out key words sorting to judged result, sampling unit chooses cytoactive and healthy journey according to the mark of the first indexing unit Spend much the same sample to be sampled, and sampling result is conveyed to the second indexing unit, the second indexing unit is to sampling result It is marked, and the sample delivery that mark is completed is placed on sample according to different marks to memory cell, memory cell Put in groove (21) and stored.

A kind of 6. experimental implementation system for mouse immune antiboidy according to claim 1, it is characterised in that the reality Testing operation module includes materials unit, processing unit, section unit, washing unit and observation analysis unit, and unit of drawing materials, place Reason unit, section unit, washing unit and observation analysis unit are sequentially connected.

7. a kind of experimental implementation system for mouse immune antiboidy according to claim 6, it is characterised in that described to take Material unit is used to extract the sample of memory cell storage, and the sample delivery extracted is carried out to processing unit Processing, processing unit are handled sample using different reagents, and section unit is used to cut into slices to the sample after processing, Washing unit is used to wash the sample after section, and observation analysis unit is used to carry out the sample after washing observation point Analysis.

8. a kind of experimental implementation system for mouse immune antiboidy according to claim 6, it is characterised in that described to wash The detergent for washing unit is PBS, and observation analysis unit carries out observation analysis using microscope.