CN202433387U - Disk method or nephelometry full-automatic measurement all-in-one machine for antibiotic pipe - Google Patents

Abstract

The utility model relates to a disk method or nephelometry full-automatic measurement all-in-one machine for an antibiotic pipe. The full-automatic measurement all-in-one machine comprises an automatic constant-temperature experimental bin purification device (102), an automatic steel pipe arrangement device (103), an automatic sample injection device (104), an automatic constant-temperature culture medium water bath device (105), a plate supporting frame device (106), an automatic turbidity measurement device (107), a motion platform device (108) and a control system (109), wherein the automatic constant-temperature experimental bin purification device (102) is positioned in an experimental bin; the automatic steel pipe arrangement device (103) and the automatic sample injection device (104) are positioned on the motion platform device (108); the automatic constant-temperature culture medium water bath device (105) is positioned on the right lower part of the experimental bin; the plate supporting frame device (106) is positioned on the automatic turbidity measurement device (107) in the experimental bin; the motion platform device (108) is positioned in the middle of the experimental bin; and the control system (109) is arranged in the experimental bin on the right side. The machine integrates multiple functions, so that full-automatic operation is realized; and furthermore, complicated manual operation is eliminated, multiple error factors are avoided, and the accuracy and the reliability of an experimental result are improved.

Description

Microbiotic cylinder-plate method/nephelometry is automatically measured all-in-one

Technical field

The utility model relates to microbial antibiotic microorganism tire calibrating environment, automatic automatic on-line detection range in application of sample, cultivation and the incubation; Relate in particular to the full-automatic analyzer of microbiotic cylinder-plate method and nephelometry; Be to purify in the Laboratory Module, constant temperature, the nutrient culture media automatic constant-temperature, test automatic application of sample, put steel pipe and implement the self-reacting device of online detection to the many test tubes bacterium liquid turbidity in the even homoisothermal cultivation process of temperature altitude automatically.

Background technology

At present; The calibrating of microbiotic cylinder-plate method, nephelometry is independently to carry out manual filling nutrient culture media, placing steel tubes, filling appearance liquid and independent water bath, incubator and manual jolting, spectrophotometer detection etc. under aseptic, the constant temperature laboratory environment mostly; Because need multiple instrument and equipment and need numerous and diverse manual system dish, application of sample, add nutrient culture media, put steel pipe, operations such as jolting, measurement, its shortcoming is: on the one hand owing to need independently sterility test chamber, kinds of experiments instrument and equipment and numerous and diverse manually-operated uncertain factor to increase the probability of error of experimental result; Take one by one when turbidimetry on the other hand that spectrophotometer gets on to survey or test tube one a cover Photoelectric Detection mode, because each pipe is measured the difference of the time difference or the difference of photoelectric detector all can influence the accuracy of measuring the result; In addition; Constant incubator is in microbial cultivation process at present, and the temperature error of each test tube is bigger, and bacterial growth and environment temperature relation are very close; Therefore the inhomogeneous type of each developmental tube cultivation temperature directly has influence on the speed of growth of bacterium, thereby influences turbidity results; Moreover, Experiment on Microbiology need independently purify, isoperibol carries out, and sets up independently aseptic purification laboratory, not only need increase test space, and increase experimentation cost.

The utility model content

The utility model technical matters to be solved is the deficiency that overcomes prior art, provides a kind of and has the purification of test space automatic constant-temperature, nutrient culture media automatic constant-temperature, cylinder-plate method and make dish (comprising: add nutrient culture media, put steel pipe, Automatic Dosing liquid automatically), the automatic application of sample of nephelometry, stirring automatically, automatic constant-temperature nutrient culture media, the microbiotic cylinder-plate method of on-line automatic continuous coverage function, nephelometry all automatic measurement instrument automatically.This instrument integrates multiple function, has realized that operation is full-automatic, has removed numerous and diverse manual operations, has eliminated many error components, has improved the accuracy and the reliability of experimental result.

The technical solution of the utility model is following:

Microbiotic cylinder-plate method/nephelometry is automatically measured all-in-one, comprises Laboratory Module automatic constant-temperature purification plant (102), the automatic apparatus for placing of steel pipe (103), automatic sample adding device (104), nutrient culture media automatic constant-temperature water-bath device (105), plate bracket system (106), turbidity self-operated measuring unit (107), exemplary motion stage device (108) and control system (109) eight parts; Laboratory Module automatic constant-temperature purification plant (102) is positioned at Laboratory Module; The automatic apparatus for placing of steel pipe (103), automatic sample adding device (104) are positioned on the Laboratory Module motion platform (108); Nutrient culture media automatic constant-temperature water-bath device (105) is positioned at the Laboratory Module right lower quadrant; Plate bracket system (106) is positioned on the turbidity self-operated measuring unit (107) of Laboratory Module, and motion platform (108) device is positioned at the Laboratory Module middle part, and control system (109) is installed in the Laboratory Module of right side.

Described Laboratory Module automatic constant-temperature purification plant (102) mainly is made up of air purification filter device (201), blower fan (202), constant temperature heating device (203), balanced ventilation plate (204), temperature compensation means (205), air-returning device (206); Blower fan (202) is placed in the outside of air-returning device (206); It is air cleaning filter (201) thereafter; Heating arrangement (203) is installed in the air outlet place of air cleaning filter (201), and balanced ventilation plate (204) is installed in the upper end of Laboratory Module, and air-returning device (206) is located on the Laboratory Module sidewall.

The automatic apparatus for placing of described steel pipe (103) mainly is made up of steel pipe storage cup (301), steel pipe striking gear (302), steel pipe guide piece (303), steel pipe divider (304), electromagnet (305), jacking gear (306); Steel pipe divider (304) comprises upper strata (304a), middle level (304b), middle level driving lever (304c), lower floor (304d); Four or six steel pipe guide pieces (303) are inlayed in steel pipe storage cup (301) bottom; Its lower end is embedded in respectively in the corresponding hole of steel pipe divider superstructure (304a); Electromagnet (305) is fixed on the side of steel pipe divider (304); Its magnetic core is connected with divider middle level driving lever (304c), and jacking gear (306) is fixed on below the motion platform (108), and steel pipe striking gear (302) is fixed in the bottom and cup of steel pipe storage cup (301).

Described automatic sample adding device (104) mainly is made up of sample injector jacking system (401) and sample injector system (402).Described sample injector jacking system (401) mainly is made up of jacking system fixed head (403), linear motion guide device (404), sample injector jacking gear (405), sample injector web joint (406); Linear motion guide device (404) is fixed on the back side of jacking system fixed head (403); Sample injector jacking gear (405) is fixed on the jacking system fixed head (403); Jacking system is fixed on the motion platform (108), and sample injector web joint (406) is fixed on the sample injector jacking gear (405).

Described sample injector system (402) mainly is made up of pipettor bolt jacking gear (407), pipettor bolt stationary installation (408), pipettor fixed mount (409), sample injector fixed head (410), pipettor (411); Pipettor bolt jacking gear (407) is fixed on the sample injector fixed head (410); Pipettor fixed mount (409) is stuck in sample injector fixed head (410) lower end; Pipettor (411) is embedded in the pipettor fixed mount (409); Its bolt is embedded in and moves liquid bolt stationary installation (408) lining, and sample injector fixed head (410) is fixed on the sample injector web joint (406).

Described nutrient culture media automatic constant-temperature water-bath device (105) mainly is made up of water bath (501), water bath support (502), extension plate (503), guide rail (504), heating plate (505), heat-insulation layer (506), temperature sensor sleeve (507); Heating plate (505) is fixed on the bottom of water bath (501); Temperature sensor sleeve (507) is fixed on water bath (501) inside; Nutrient culture media cup hole (508) and sample cup hole (509) are arranged respectively on water bath (501) and on the extension plate (503); Around the water bath and bottom surface is surrounded by heat-insulation layer (506); Water bath links to each other with guide rail (504) through support (502), and guide rail (504) is fixed on the base plate of whole instrument (101), and nutrient culture media automatic constant-temperature water-bath device (105) integral body can move forward and backward along guide rail (504).

Described plate bracket system (106) mainly is made up of carrier frame plate (601), slideway (602), front apron (603), backboard (604), horizontal pearl (605), bracket support plate (606); Each fixing supporting plate slideway (602) of carrier frame plate (601) both sides; There are front apron (603) and backboard (604) in the rear and front end; About two supporting plate slideways (602) be separately fixed at the top of left and right sides bracket support plate (606); The lower end of bracket support plate (606) is connected with instrument framework (101) base plate, and horizontal pearl (605) is located at the centre of carrier frame plate (601), and plate bracket system (106) integral body can move forward and backward along slideway.Described turbidity self-operated measuring unit mainly is made up of absorption cell whirligig (702), automatic constant-temperature circulation groove device (703), stirring apparatus (704), photoelectric detection system (705) that turbidity detects in casing (701), the case automatically.

Described absorption cell whirligig (702) mainly is made up of absorption cell rotating disc (801), absorption cell swivelling chute (802), motor (803), absorption cell rotating disc support (804), turning axle (805); Absorption cell rotating disc support (804) and motor (803) are separately fixed on the automatic detection box bottom (701); Motor (803) links to each other with its turning axle (805) directly or indirectly; Thrust bearing (806) is positioned between absorption cell rotating disc (801) and the absorption cell rotating disc support (804), and 40 absorption cells (807) are inserted in respectively in the absorption cell swivelling chute (802).

Described pair of circulation automatic constant-temperature temperature equalization system (703) is positioned at the inside and outside both sides of absorption cell swivelling chute (802) rotational trajectory; Mainly form by inner bag (901), outer courage (902), circulating device (903), temperature control equipment (904), conduit (905), heat-insulation layer (906); Form the constant temperature clip slot between inner bag (901) and the outer courage (902); One end connects through conduit (905); The other end is connected with circulating device (903), and temperature control equipment (904) is installed in the lateral surface of outer courage (902), and heat-insulation layer (906) is fixed on the lateral surface and the bottom surface of inner bag (901) medial surface and outer courage (902).

Described self-poking arrangement (704) mainly is made up of motor (1001), flat thin magnet (1002), rotor (1003); Motor (1001) is installed in absorption cell swivelling chute (802) below, and flat thin magnet (1002) is fixed in the groove on motor (1001) axle, and rotor (1003) is placed in each absorption cell (807).

Described photoelectric detection system (705) is positioned at the outside of the following rotational trajectory of absorption cell swivelling chute (802); Mainly form by light source (1101), photoelectric detector (1102); Light source (1101) comprises that by luminophor, catoptron, monochromator prism or diffraction grating, optical filter, collimation lens form; Wherein said luminophor can be long Long service lamp of all-wave or the long-term durability luminous light source of single wavelength, uses wavelength-tunable.

Described motion platform (108) device mainly is made up of X axis rail (1201), Y axis rail (1202), mobile dull and stereotyped (108), X spindle motor (1203), y-axis motor (1204), front-slider plate (1205), rear slider plate (1206); Article two, X axis rail (1201) wherein one can be the leading screw secured in parallel on two walls about Laboratory Module; X spindle motor (1203) is fixed on the outside of experiment bulkhead; Link to each other with rear slider plate (1206) through leading screw (1201) or synchronous band; Front-slider plate (1205) is placed respectively on the X axle front and back guide rails (1201) with rear slider plate (1206); On two Y axis rails (1202) secured in parallel front-slider plates (1205) and the rear slider plate (1206); Move dull and stereotyped (108) through bearing fixing on two Y axis rails (1202), y-axis motor (1204) fixedly on the rear slider plate (1206), is connected with front slide (1205), mobile flat board (108) through synchronous band.

Described control system (109) mainly is made up of kinetic control system, electrical apparatus control system, temperature control system, Photoelectric Detection control system, touch-screen, supply unit.

The utility model has the following advantages with respect to prior art:

1), realized that automatic constant-temperature purifies the air-supply function, has also saved test space in the time of energy-conservation;

2), double circulation constant temperature samming turbidity culture apparatus, the temperature altitude uniformity has increased the comparability of developmental tube;

3), automaticity is high, realized sameization, the standardization of test, reduced many error components, improved accuracy, the reliability of experimental result, use manpower and material resources sparingly simultaneously and test period;

4), complete, a tractor serves several purposes of function, can be used for the calibrating of tiring of microbiotic cylinder-plate method and two kinds of methods of nephelometry simultaneously.

Description of drawings

Fig. 1 is that microbiotic cylinder-plate method/nephelometry is automatically measured the all-in-one synoptic diagram

Fig. 2 is a Laboratory Module automatic constant-temperature purification plant synoptic diagram

Fig. 3 is the automatic apparatus for placing synoptic diagram of steel pipe

Fig. 4 is automatic sample adding device synoptic diagram

Fig. 5 is a nutrient culture media automatic constant-temperature water-bath device synoptic diagram

Fig. 6 is a plate bracket system synoptic diagram

Fig. 7 is a turbidity self-operated measuring unit synoptic diagram

Fig. 8 is an absorption cell whirligig synoptic diagram

Fig. 9 is two circulation automatic constant-temperature temperature equalization system synoptic diagram

Figure 10 is the stirring apparatus synoptic diagram

Figure 11 is a photoelectric detection system

Figure 12 is the exemplary motion stage device synoptic diagram

Embodiment

According to accompanying drawing and embodiment the utility model is described below

As shown in Figure 1, this microbiotic cylinder-plate method/nephelometry is automatically measured all-in-one by the automatic apparatus for placing of Laboratory Module automatic constant-temperature purification plant 102, steel pipe 103, sample adding device 104, nutrient culture media automatic constant-temperature water-bath device 105, plate bracket system 106, turbidity self-operated measuring unit 107, exemplary motion stage device 108 are formed with control system 109 8 parts automatically.

As shown in Figure 2, Laboratory Module automatic constant-temperature purification plant 102 is positioned at Laboratory Module, mainly is made up of air purification filter device 201, blower fan 202, heating arrangement 203, balanced ventilation plate 204, temperature compensation means 205, air-returning device 206.Blower fan 202 is placed between air cleaning filter 201 outlet air ends and the balanced ventilation plate 204, and heating arrangement 203 is installed in the air outlet place of blower fan 202, and balanced ventilation plate 204 is installed in the upper end of Laboratory Module, and air-returning device 206 is located on the Laboratory Module sidewall;

After blower fan 202 is opened the air in the Laboratory Module is filtered after-blow to heating arrangement 203 through air-returning device 206 air purification filter devices 201; Purify air and after heating mixes, get into Laboratory Module through balanced ventilation plate 204 again; Low temperature contaminated air in the Laboratory Module makes air maintenance constant-temperature purification state in the Laboratory Module again through 201 filtrations of air-returning device 206 filtration units, the circulation of heating.

As shown in Figure 3; The automatic apparatus for placing 103 of steel pipe is positioned on the Laboratory Module motion platform 108; Mainly form by steel pipe storage cup 301, steel pipe striking gear 302, steel pipe guide piece 303, steel pipe divider 304 (comprising 304a, 304b, 304c, 304d), electromagnet 305, jacking gear 306; Four (or six) steel pipe guide pieces 303 are inlayed in steel pipe storage cup 301 bottoms; Its lower end is embedded in the respective aperture of steel pipe divider superstructure 304a, and electromagnet 305 is fixed on the side of steel pipe divider 304, jacking gear 306 be fixed on motion platform 108 below; Steel pipe is stirred 302 unlatchings makes the steel pipe in the storage cup 301 arrive divider upper strata 304a along guide piece 303; When the hole of divider middle level 304b overlapped with the hole of conduit 303, steel pipe fell into the hole of divider middle level 304b automatically, when jacking gear starts; Drive the steel pipe divider move down back, location electromagnet 305 the electric hole that driving lever 304c adhesive is driven steel pipe divider middle layer 304b then turns to when overlapping the position with the hole of divider bottom 304d, steel pipe drops into automatically to be tested in the dish.

As shown in Figure 4, sample adding device 104 is positioned on the Laboratory Module motion platform 108 automatically, mainly is made up of with sample injector system 402 sample injector jacking system 401.

Sample injector jacking system 401 mainly is made up of jacking system fixed head 403, linear motion guide device 404, sample injector jacking gear 405, sample injector up-down web joint 406.Linear motion guide device 404 is fixed on the back side of sample injector jacking gear fixed head 403; Sample injector jacking gear 405 is fixed on the upper end of fixed head 403, and sample injector up-down web joint 406 is fixed on the jacking gear, jacking gear fixed head 403 is fixed on the motion platform 108; 2), sample injector system 402 mainly is made up of pipettor bolt jacking gear 407, pipettor bolt stationary installation 408, pipettor fixed mount 409, sample injector fixed head 410, pipettor 411; Pipettor bolt jacking gear 407 is fixed on sample injector fixed head 410 upper ends; Pipettor bolt stationary installation 408 is fixed on the pipettor bolt jacking gear; Pipettor fixed mount 409 is stuck in the lower end of sample injector fixed head 410; Pipettor 411 is embedded in the pipettor fixed mount 409, and sample injector fixed head 410 is fixed on the sample injector web joint 406.

Open drive sample injector web joint 406 when jacking gear 405 and go up and down, drive the sample injector system then and go up and down along guide piece 404; Open drive pipettor clip fixing 408 when pipettor bolt jacking gear 407 and go up and down, drive the relative pipettor 411 of pipettor bolt then and move back and forth, realize suction, tapping action.

As shown in Figure 5; Nutrient culture media automatic constant-temperature water-bath device 105 is positioned at the Laboratory Module right lower quadrant; Mainly form by water bath 501, water bath support 502, extension plate 503, guide rail 504, heating plate 505, heat-insulation layer 506, temperature sensor sleeve 507; Heating plate 505 is fixed on the bottom of water bath 501, and temperature sensor sleeve 507 is fixed on water bath 501 middle parts, and nutrient culture media cup hole 508 and sample cup hole 509 are arranged respectively on water bath 501 and on the extension plate 503; Around the water bath and bottom surface is surrounded by heat-insulation layer 507; Water bath links to each other with guide rail 504 through support 502, and guide rail 504 is fixed on the base plate of whole instrument 101, and nutrient culture media automatic constant-temperature water-bath device 105 integral body can move forward and backward.

As shown in Figure 6, plate bracket system 106 is positioned on the turbidity self-operated measuring unit 107 of Laboratory Module, mainly is made up of carrier frame plate 601, slideway 602, front apron 603, backboard 604, horizontal pearl 605, bracket support plate 606.Each fixing supporting plate slideway 602 of carrier frame plate 601 both sides; There are front apron 603 and backboard 604 in the rear and front end; About two supporting plate slideways 602 be separately fixed on the left and right sides bracket support plate 606; The lower end of bracket support plate 606 is connected with instrument framework 101 base plates, and horizontal pearl 605 is located at the centre of carrier frame plate 601, and plate bracket system 106 integral body can move forward and backward.

As shown in Figure 7; The turbidity self-operated measuring unit is positioned at the below of Laboratory Module plate carriage 106, and the absorption cell whirligig 702, two circulation automatic constant-temperature temperature equalization system 703, self-poking arrangement 704, the photoelectric detection system 705 that are mainly detected automatically in casing 701, the case by turbidity are formed.

As shown in Figure 8, absorption cell whirligig 702 is made up of absorption cell rotating disc 801, absorption cell swivelling chute 802, motor 803, absorption cell rotating disc support 804, turning axle 805, thrust bearing 806, absorption cell 807.Motor 803 is separately fixed on the automatic detection box bottom 701 with absorption cell rotating disc support 804; Thrust bearing 806 is between absorption cell rotating disc 801 and absorption cell rotating disc support 804; The centre is embedded with turning axle 805; 803 in motor links to each other with turning axle 805 directly or indirectly, and 40 absorption cells 807 are inserted in respectively in 40 absorption cell swivelling chutes 802; When motor 803 is opened, drive absorption cell rotating disc 801 and swivelling chute 802 rotations, drive 40 absorption cells rotations then through turning axle 805.

As shown in Figure 9; Two circulation automatic constant-temperature temperature equalization systems 703 are positioned at the inside and outside both sides of absorption cell whirligig 702 following absorption cell groove 802 rotational trajectories; Mainly form by inner bag 901, outer courage 902, circulating device 903, temperature control equipment 904, conduit 905, heat-insulation layer 906; Form the constant temperature clip slot between inner bag 901 and the outer courage 902, an end connects through conduit 905, and the other end is connected with circulating device 903; Temperature control equipment 903 is installed in the lateral surface of outer courage 902, and heat-insulation layer 906 is fixed on the lateral surface and the bottom surface of inner bag 901 medial surfaces and outer courage 902; After temperature control equipment 904 was opened, outer courage 901 heated media circulated through the medium in circulating device 903 and the inner bag, made the air themperature in its inside and outside courage interlayer reach a homogeneous steady state.

Shown in figure 10, self-poking arrangement 704 mainly is made up of motor 1001, flat thin magnet 1002, rotor 1003; Motor 1001 is installed in absorption cell swivelling chute 802 belows, and flat thin magnet 1002 is fixed in the groove on 1001 in the motor, and rotor 1003 is placed in each absorption cell 807; Open through its axle drive flat thin magnet 1002 rotations when motor 1001, form rotating magnetic field, drive stirring rotator 1003 rotations in the absorption cell that goes so far then, to play the effect of solution in the stirring absorption cell.

Shown in figure 11; Photoelectric detection system 705 is positioned at the outside of the following rotational trajectory of absorption cell swivelling chute 802; Mainly be made up of light source 1101, photoelectric detector 1102, light source 1101 is made up of luminophor, catoptron, monochromator (prism or diffraction grating), optical filter, collimation lens.

Shown in figure 12, motion platform 108 devices are positioned at the Laboratory Module middle part, mainly are made up of X axis rail 1201, Y axis rail 1202, mobile flat board 108, X spindle motor 1203, y-axis motor 1204, front-slider plate 1205, rear slider plate 1206.Article two, X axis rail 1201 (wherein can be leading screw) secured in parallel is on two walls about Laboratory Module; X spindle motor 1203 is fixed on the outside of experiment bulkhead; Link to each other with rear slider plate 1206 through leading screw 1201 (or being with synchronously); Front-slider plate 1205 and rear slider plate 1206 are placed respectively before and after the X axle on the guide rail 1201, on two Y axis rail 1202 secured in parallel front-slider plates 1205 and the rear slider plate 1206, move dull and stereotyped 108 through bearing fixing on two Y axis rails 1202; Y-axis motor 1204 is fixed on the rear slider plate 1206, is connected with front slide 1205, mobile dull and stereotyped 108 through synchronous band; When X spindle motor 1203 is opened, drive rear slider plate 1206 and move flat board 108,1205 side-to-side movements of front-slider plate; When y-axis motor 1204 is opened, driving mobile dull and stereotyped 108 through synchronous band moves forward and backward; Through X spindle motor 1203 coordination rotation with y-axis motor 1204, make that moving dull and stereotyped 108 moves along X axle and/or Y axle, drive steel pipe placer 103, sample injector jacking system 401 and sample injector system 402 then and move as the plane.

Described control system 109 is installed in the Laboratory Module of right side, mainly is made up of kinetic control system, electrical apparatus control system, temperature control system, Photoelectric Detection control system, touch-screen, supply unit.

Above embodiment is used for the utility model of explaining; Rather than the utility model limited; In the protection domain of the spirit of the utility model and claim, any modification and change to the utility model is made all fall in the protection domain of the utility model.

Claims (15)

1. a microbiotic cylinder-plate method/nephelometry is automatically measured all-in-one; It is characterized in that, comprise Laboratory Module automatic constant-temperature purification plant (102), the automatic apparatus for placing of steel pipe (103), automatic sample adding device (104), nutrient culture media automatic constant-temperature water-bath device (105), plate bracket system (106), turbidity self-operated measuring unit (107), exemplary motion stage device (108) and control system (109) eight parts; Laboratory Module automatic constant-temperature purification plant (102) is positioned at Laboratory Module; The automatic apparatus for placing of steel pipe (103), automatic sample adding device (104) are positioned on the Laboratory Module motion platform (108); Nutrient culture media automatic constant-temperature water-bath device (105) is positioned at the Laboratory Module right lower quadrant; Plate bracket system (106) is positioned on the turbidity self-operated measuring unit (107) of Laboratory Module, and motion platform (108) device is positioned at the Laboratory Module middle part, and it is indoor that control system (109) is installed in the side case.

2. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one, it is characterized in that described Laboratory Module automatic constant-temperature purification plant (102) mainly is made up of air purification filter device (201), blower fan (202), constant temperature heating device (203), balanced ventilation plate (204), temperature compensation means (205), air-returning device (206); Blower fan (202) is placed in the outside of air-returning device (206); It is air cleaning filter (201) thereafter; Heating arrangement (203) is installed in the air outlet place of air cleaning filter (201), balanced ventilation plate (204), is installed in the upper end of Laboratory Module, and air-returning device (206) is located on the Laboratory Module sidewall.

3. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one; It is characterized in that the automatic apparatus for placing of described steel pipe (103) mainly is made up of steel pipe storage cup (301), a steel pipe striking gear (302), steel pipe guide piece (303), steel pipe divider (304), electromagnet (305), jacking gear (306); Steel pipe divider (304) comprises upper strata (304a), middle level (304b), middle level driving lever (304c), lower floor (304d); Four or six steel pipe guide pieces (303) are inlayed in steel pipe storage cup (301) bottom; Its lower end is embedded in respectively in the corresponding hole of steel pipe divider superstructure (304a); Electromagnet (305) is fixed on the side of steel pipe divider (304); Its magnetic core is connected with divider middle level driving lever (304c), and jacking gear (306) is fixed on below the motion platform (108), and steel pipe striking gear (302) is fixed in the bottom and cup of steel pipe storage cup (301).

4. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one, it is characterized in that described automatic sample adding device (104) mainly is made up of sample injector jacking system (401) and sample injector system (402).

5. a kind of microbiotic cylinder-plate method/nephelometry according to claim 4 is automatically measured all-in-one; It is characterized in that described sample injector jacking system (401) mainly is made up of jacking system fixed head (403), linear motion guide device (404), sample injector jacking gear (405), sample injector web joint (406); Linear motion guide device (404) is fixed on the back side of jacking system fixed head (403); Sample injector jacking gear (405) is fixed on the jacking system fixed head (403); Jacking system is fixed on the motion platform (108), and sample injector web joint (406) is fixed on the sample injector jacking gear (405).

6. a kind of microbiotic cylinder-plate method/nephelometry according to claim 4 is automatically measured all-in-one; It is characterized in that described sample injector system (402) mainly is made up of pipettor bolt jacking gear (407), pipettor bolt stationary installation (408), pipettor fixed mount (409), sample injector fixed head (410), pipettor (411); Pipettor bolt jacking gear (407) is fixed on the sample injector fixed head (410); Pipettor fixed mount (409) is stuck in sample injector fixed head (410) lower end; Pipettor (411) is embedded in the pipettor fixed mount (409), and its bolt is embedded in and moves liquid bolt stationary installation (408) lining, on sample injector fixed head (410) and the sample injector web joint (406).

7. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one; It is characterized in that described nutrient culture media automatic constant-temperature water-bath device (105) mainly is made up of water bath (501), water bath support (502), extension plate (503), guide rail (504), heating plate (505), heat-insulation layer (506), temperature sensor sleeve (507); Heating plate (505) is fixed on the bottom of water bath (501); Temperature sensor sleeve (507) is fixed on water bath (501) inside; Nutrient culture media cup hole (508) and sample cup hole (509) are arranged respectively on water bath (501) and on the extension plate (503); Around the water bath and bottom surface is surrounded by heat-insulation layer (507); Water bath links to each other with guide rail (504) through support (502), and guide rail (504) is fixed on the base plate of whole instrument (101), and nutrient culture media automatic constant-temperature water-bath device (105) integral body can move forward and backward.

8. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one, it is characterized in that described plate bracket system (106) mainly is made up of carrier frame plate (601), slideway (602), front apron (603), backboard (604), horizontal pearl (605), bracket support plate (606); Each fixing supporting plate slideway (602) of carrier frame plate (601) both sides; There are front apron (603) and backboard (604) in the rear and front end; About two supporting plate slideways (602) be separately fixed at the top of left and right sides bracket support plate (606); The lower end of bracket support plate (606) is connected with instrument framework (101) base plate, and horizontal pearl (605) is located at the centre of carrier frame plate (601), and plate bracket system (106) integral body can move.

9. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one, it is characterized in that described turbidity self-operated measuring unit mainly is made up of absorption cell whirligig (702), automatic constant-temperature circulation groove device (703), stirring apparatus (704), photoelectric detection system (705) that turbidity detects in the casing (701), case automatically.

10. a kind of microbiotic cylinder-plate method/nephelometry according to claim 9 is automatically measured all-in-one; It is characterized in that described absorption cell whirligig (702) mainly is made up of absorption cell rotating disc (801), absorption cell swivelling chute (802), motor (803), absorption cell rotating disc support (804), turning axle (805), thrust bearing (806); Absorption cell rotating disc support (804) and motor (803) are separately fixed on the automatic detection box bottom (701); Motor (803) links to each other with its turning axle (805) directly or indirectly; Thrust bearing (806) is positioned between absorption cell rotating disc (801) and the absorption cell rotating disc support (804); Turning axle (805) runs through wherein, and 40 absorption cells (807) are inserted in respectively in the absorption cell swivelling chute (802).

11. a kind of microbiotic cylinder-plate method/nephelometry according to claim 9 is automatically measured all-in-one; It is characterized in that described pair of circulation automatic constant-temperature temperature equalization system (703) is positioned at the inside and outside both sides of absorption cell swivelling chute (802) rotational trajectory; Mainly form by inner bag (901), outer courage (902), circulating device (903), temperature control equipment (904), conduit (905), heat-insulation layer (906); Form the constant temperature clip slot between inner bag (901) and the outer courage (902); One end connects through conduit (904); The other end is connected with circulating device (903), and temperature control equipment (903) is installed in the lateral surface of outer courage (902), and heat-insulation layer (906) is fixed on the lateral surface and the bottom surface of inner bag (901) medial surface and outer courage (902).

12. a kind of microbiotic cylinder-plate method/nephelometry according to claim 9 is automatically measured all-in-one, it is characterized in that described self-poking arrangement (704) mainly is made up of motor (1001), flat thin magnet (1002), rotor (1003); Motor (1001) is installed in absorption cell swivelling chute (802) below, and flat thin magnet (1002) is fixed in the groove on motor (1001) axle, and rotor (1003) is placed in each absorption cell (807).

13. a kind of microbiotic cylinder-plate method/nephelometry according to claim 9 is automatically measured all-in-one; It is characterized in that described photoelectric detection system (705) is positioned at the outside of the following rotational trajectory of absorption cell swivelling chute (802); Mainly form by light source (1101), photoelectric detector (1102); Light source (1101) comprises that by luminophor, catoptron, monochromator prism or diffraction grating, optical filter, collimation lens form; Wherein said luminophor can be long Long service lamp of all-wave or the long-term durability luminous light source of single wavelength, uses wavelength-tunable.

14. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one; It is characterized in that described motion platform (108) device mainly by X axis rail (1201), Y axis rail (1202), move dull and stereotyped (108), X spindle motor (1203), y-axis motor (1204), front-slider plate (1205), rear slider plate (1206) is formed; Article two, X axis rail (1201) wherein one can be the leading screw secured in parallel on two walls about Laboratory Module; X spindle motor (1203) is fixed on the outside of experiment bulkhead; Link to each other with rear slider plate (1206) through leading screw (1201) or synchronous band; Front-slider plate (1205) and rear slider plate (1206) are placed respectively on the X axle front and back guide rails (1201), on two Y axis rails (1202) secured in parallel front-slider plates (1205) and the rear slider plate (1206), move dull and stereotyped (108) and pass through bearing fixing on two Y axis rails (1202); Y-axis motor (1204) is fixedly on the rear slider plate (1206), through synchronous band with front slide (1205), move dull and stereotyped (108) and be connected.

15. a kind of microbiotic cylinder-plate method/nephelometry according to claim 1 is automatically measured all-in-one, it is characterized in that described control system (109) mainly is made up of kinetic control system, electrical apparatus control system, temperature control system, Photoelectric Detection control system, touch-screen, supply unit.

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