CN202272878U - Pickup head of automatic bacterial colony picking device - Google Patents

Pickup head of automatic bacterial colony picking device Download PDF

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Publication number
CN202272878U
CN202272878U CN 201120335923 CN201120335923U CN202272878U CN 202272878 U CN202272878 U CN 202272878U CN 201120335923 CN201120335923 CN 201120335923 CN 201120335923 U CN201120335923 U CN 201120335923U CN 202272878 U CN202272878 U CN 202272878U
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needle plate
skeleton
plate
pick
nut
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Chinese (zh)
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郝玉有
汪建波
朱玉萍
蒋永新
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SHANGHAI ANGENE BIOTECH CO Ltd
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SHANGHAI ANGENE BIOTECH CO Ltd
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    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M47/00Means for after-treatment of the produced biomass or of the fermentation or metabolic products, e.g. storage of biomass
    • C12M47/04Cell isolation or sorting
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M33/00Means for introduction, transport, positioning, extraction, harvesting, peeling or sampling of biological material in or from the apparatus
    • C12M33/04Means for introduction, transport, positioning, extraction, harvesting, peeling or sampling of biological material in or from the apparatus by injection or suction, e.g. using pipettes, syringes, needles

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  • Biotechnology (AREA)
  • Biomedical Technology (AREA)
  • Sustainable Development (AREA)
  • Microbiology (AREA)
  • Biochemistry (AREA)
  • General Engineering & Computer Science (AREA)
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  • Genetics & Genomics (AREA)
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Abstract

The utility model relates to the technical field of scientific instruments, in particular to a pickup head of an automatic bacterial colony picking device; the pickup head comprises a skeleton, a three-shaft linkage structure, a clamping jaw, a high resolution camera and a needle plate, wherein the skeleton is a framework structure; one side of the framework structure is connected with a three-shaft power arm of the automatic bacterial colony picking device through a connecting plate; the three-shaft linkage structure is arranged in the middle of the skeleton; the high resolution camera is arranged on one surface of the outer side of the skeleton; the clamping jaw is arranged on the other surface of the outer side of the skeleton; the needle plate is arranged under the skeleton; the pickup head can finish movements such as uncovering a dish, covering, carrying, photographing, uncovering a pore plate, covering, carrying, picking clones, separating the needle plate, installing the needle plate, opening, closing and cleaning a cabin door and the like in the pricking process as well as movements such as imaging, picking, carrying and the like by using the external three-shaft power arm and the per se three-shaft linkage structure in combination of the clamping jaw, the high resolution camera and the needle plate; and the pickup head has the advantages of fast picking speed, high positioning accuracy and non cross contamination and can meet the operational needs of large laboratory rooms and work stations.

Description

A kind of pick-up head of robotization bacterium colony sorting plant
Technical field
The utility model relates to the scientific instrument technical field; It is a kind of high-throughput selection mechanism---a kind of pick-up head of robotization bacterium colony sorting plant of choosing the target microorganism bacterium colony from petridish microspur battle array orifice plate; Can with the supporting use of robotization bacterium colony sorting plant, be widely used in relating in the numerous areas such as biology, medicine, food, agricultural, the energy, chemical industry, weaving, mining, oil refining and the environment protection relevant with biotechnology, soil remediation that mikrobe separates, the work of screening, preservation, transfer with life science.
Background technology
Select with the conserving microorganism bacterium colony be very basis and essential work in mikrobe scientific research, teaching and the production, it carries out through manual always for a long time.Manual selection bacterium colony, the colony counts of once selecting is limited, and receives artificial factor more, lack of uniform and objective criteria for selection, the big but inefficiency of labour intensity.Since the genome science was born, because the thousands of strains of the disposable bacterium colony that will select are depended merely on the traditional hand mode and are difficult to accomplish, therefore, corresponding instrument and equipment occurred in succession.These instrument and equipments can be accomplished the automatic identification of bacterium colony, the automatic picking of accomplishing bacterium colony and the actions such as automatic cleaning of picking syringe needle.
The structural feature of existing rotating disc type mechanism for picking is (seeing accompanying drawing 1): several syringe needles are installed on the rotating disk of pick-up head; Pick-up head can move under the in the vertical direction motion and cooperate the rotation of rotating disk to combine petridish X in the plane, the motion of Y direction again through machine, makes syringe needle accomplish the action of picking up the target bacterium colony.Existing array is picked up syringe needle and is adopted the motion of pneumatic mode driving syringe needle (to see U.S. Pat 2004/0096984 A1 usually; US 2006/0164644 A1; US 2003/002962 A1).
But existing mode and the tangible deficiency of pickup technology existence of picking up: 1. the conventional artificial selection does not obviously meet the needs of high-throughput cut-and-try work, like the needs of genome scientific research; Though 2. existing rotating disc type mechanism for picking has been realized robotization, picking efficient is not high, is difficult to satisfy the needs of high-throughput scientific research equally; What 3. existing array was picked up the syringe needle employing is that pneumatic mode drives the syringe needle motion, needs outfit source of the gas and gas-cleaning installation in addition, has therefore increased maintenance cost; Again since under the pneumatic mode syringe needle stretch out with recovery movement inertia greatly, be prone to cause crossed contamination.
The utility model content
The purpose of the utility model is to improve existing robotization bacterium colony picking equipment; Provide a kind of can with a kind of pick-up head of the robotization bacterium colony sorting plant of the supporting installation of robotization bacterium colony sorting plant (having applied for patent separately), select to realize the high-throughput mono-clonal.
For realizing above-mentioned purpose, the technical scheme that the utility model adopts is:
A kind of a kind of pick-up head of robotization bacterium colony sorting plant; Contain skeleton, three-shaft linkage structure, jaw, high resolving power camera, needle plate; Said skeleton is a skeleton construction, and the one of which side can be connected with the Z shaft mechanical arm of three power arms on being arranged on robotization bacterium colony sorting plant workplatform through web plate, it is characterized in that; In the centre of skeleton the three-shaft linkage structure is set; One side (forward surface that is connected with Z shaft mechanical arm) in the skeleton outside is provided with the high resolving power camera, and another side is provided with jaw, and needle plate is set below skeleton;
Said three-shaft linkage structure is made up of x axle, y axle and down-pressed pole (z axle); On the x axle, be provided with first stepper-motor; First stepper-motor is connected with leading screw through first shaft coupling, and leading screw and nut are formed pair of nut, are connected with the guide rail slide block when first web member is connected with nut; The below of first web member is connected with the y axle through retaining plate, on the y axle, is provided with second stepper-motor, and second stepper-motor is connected with second leading screw with second web member through second shaft coupling, and second leading screw is connected with union lever through nut; Below second web member, be provided with (as the 3rd z axle) small machine installation sleeve, on the small machine installation sleeve, small machine be housed, below the small machine installation sleeve, be provided with down-pressed pole through guide pin bushing;
Said jaw comprises electronic jaw, a pair of forearm, the clamp arm that links to each other with forearm and web plate; Jaw is arranged on the outer end of skeleton through first web plate, and first web plate connects forearm through slide block, and forearm is provided with tail rod; Stepper-motor is installed on the top of tail rod; Stepper-motor connects ball-screw through shaft coupling, and ball-screw is connected with electronic jaw with nut through second web plate, is provided with clamp arm at the front end of forearm; Said second web plate with link to each other with line slideway again when nut is affixed, make the rotating of stepper-motor can drive whole jaw and move up and down;
Said jaw comprises electronic jaw, a pair of forearm, the clamp arm that links to each other with forearm and web plate, and jaw is arranged on the outer end of skeleton through first web plate, and first web plate connects second web plate through slide block; Second web plate links to each other with electronic jaw, and forearm links to each other with electronic jaw, and a pair of clamp arm is connected with a pair of forearm; Fixing and the drive nut motion with nut again of second web plate, the step motor drive shaft coupling, shaft coupling transmits moment of torsion and gives ball-screw; Ball-screw and nut are formed pair of nut; Second web plate and nut are fixed, and therefore, the rotating of stepper-motor can drive whole jaw and move up and down;
Said needle plate comprises needle plate, following needle plate and picks up pin; Said both sides of going up needle plate are provided with connective slot; Last needle plate and following needle plate will pick up the centre that pin is embedded in needle plate, on the last needle plate each pick up pin directly over opened individual aperture, needle plate is installed in through connective slot below the skeleton 1 of pick-up head.
Be furnished with orienting sleeve in the pin hole on said needle plate down, be furnished with spring in the pin hole on said on the needle plate.
96 or 24 or 48 or 384 that between said needle plate down and last needle plate, are provided with rectangular are picked up pin.
The both sides of needle plate are provided with 4 " L " type connective slots on said.
The positively effect of a kind of pick-up head of the utility model robotization bacterium colony sorting plant is:
(1) have image-forming module, pickup model, electronic jaw module, can integrated picture, pick up, carry function in one;
(2) be fixed on the Z axle of triaxial connecting system, can carry out that plate is taken off lid, covers, carries, taken pictures, orifice plate is taken off lid, lid lid, carrying, clone pick up, run-bake-needle fault plate, dress needle plate, switch clean actions such as hatch door;
(3) adopt matrix form syringe needle arrangement mode (is that all pick up the target bacterium colony is transferred to microwell plate to the 12x8 matrix at a high speed like 96 pins), picking speed is fast, bearing accuracy is high; Adopt the electric motor driving needle movement, control is simple, does not need source of the gas and syringe needle movement velocity adjustable continuously, and can select suitable syringe needle movement velocity according to picking clone's bacterium colony surface property, reduces the probability of pick process crossed contamination;
(4) adopt an electric motor driving to become the ejection and the recovery of all syringe needles of rectangular array arrangement to move low cost of manufacture;
(5) very good with the effect of the supporting installation of robotization bacterium colony sorting plant; Can realize the robotization bacterium colony selection that high-throughput mono-clonal bacterium colony selects, can satisfy large-scale experiment chamber and workstation and will handle up to ten thousand to hundreds thousand of needs of work of cloning samples within one day.
Description of drawings
Fig. 1 is the structural representation of existing rotating disc type mechanism for picking;
Fig. 2 is the structural representation of a kind of pick-up head of the utility model robotization bacterium colony sorting plant;
Fig. 3 is arranged on three position views on the power arm for a kind of pick-up head of the utility model robotization bacterium colony sorting plant;
Fig. 4 is the structural representation of three-shaft linkage structure;
Fig. 5 is the structural representation of jaw;
Fig. 6 is the structural representation of needle plate;
Fig. 7 is the sectional view of Fig. 6.
Label among the figure is respectively:
1, skeleton; 2, three-shaft linkage structure; 201, first stepper-motor; 202, first shaft coupling;
203, leading screw; 204, guide rail slide block; 205, nut; 206, union lever;
207, first web member; 208, second web member; 209, second shaft coupling; 210, second stepper-motor;
211, small machine installation sleeve; 212, guide pin bushing; 213, small machine; 214, down-pressed pole;
3, jaw; 301, clamp arm; 302, ball-screw; 303, line slideway;
304, second web plate; 305, feed screw nut; 306, shaft coupling; 307, stepper-motor;
308, slide block; 309, first web plate; 310, electronic jaw; 311, forearm;
4, high resolving power camera; 5, needle plate; 501, pick up pin; 502, following needle plate;
503, go up needle plate; 504, first " L " type groove; 505, second " L " type groove;
506, the 3rd " L " type groove; 507, the 4th " L " type groove; 508, spring; 509, orienting sleeve;
6, X shaft mechanical arm; 7, Y shaft mechanical arm; 8, Z shaft mechanical arm; 9, pick-up head.
Embodiment
Provide the embodiment of a kind of pick-up head of the utility model robotization bacterium colony sorting plant below in conjunction with accompanying drawing, but be noted that the enforcement of the utility model is not limited to following embodiment.
Referring to accompanying drawing 2.A kind of a kind of pick-up head of robotization bacterium colony sorting plant; Contain skeleton 1, three-shaft linkage structure 2, jaw 3, high resolving power camera 4, needle plate 5; Said skeleton 1 is a skeleton construction, in the centre of skeleton three-shaft linkage structure 2 is set, and the one side (forward surface that is connected with Z shaft mechanical arm 8) in skeleton 1 outside is provided with high resolving power camera 4; Another side in skeleton 1 outside is provided with jaw 3, and needle plate 5 is set below skeleton 1.The pick-up head of the utility model is arranged on three power arms on the robotization bacterium colony sorting plant workplatform through the web plate of skeleton 1 one sides; Specifically, be to be connected on the Z shaft mechanical arm 8 of three power arms (referring to Fig. 3 " a kind of pick-up head of the utility model robotization bacterium colony sorting plant is arranged on three position views on the power arm ").Described three power arms that are arranged on the robotization bacterium colony sorting plant workplatform contain X shaft mechanical arm 6, Y shaft mechanical arm 7, Z shaft mechanical arm 8, are arranged on the back of workplatform through the supporting seat at X shaft mechanical arm 6 two ends; One end of Y shaft mechanical arm 7 is connected an end of X shaft mechanical arm 6 tops through web member, and the other end of Y shaft mechanical arm 7 connects the vertical Z shaft mechanical arm 8 that is provided with through web member, and pick-up head 9 is arranged on the lower end of Z shaft mechanical arm 8.
Referring to accompanying drawing 4.The three-shaft linkage structure 2 of the pick-up head of the utility model is made up of x axle, y axle and down-pressed pole 214 (z axle); On the x axle, be provided with first stepper-motor 201; First stepper-motor 201 is connected with leading screw 203 through first shaft coupling 202; Leading screw 203 is formed pair of nut with nut 205, is connected with guide rail slide block 204 when first web member 207 is connected with nut 205; The below of first web member 207 is connected with the y axle through retaining plate; On the y axle, be provided with second stepper-motor 210; Second stepper-motor 210 is connected with second leading screw with second web member 208 through second shaft coupling 209, and second leading screw is connected with union lever 206 through nut; Below second web member 208, be provided with (as the 3rd z axle) small machine installation sleeve 211, the below of small machine installation sleeve 211 is provided with down-pressed pole 214 through guide pin bushing 212, small machine 213 is housed on small machine installation sleeve 211.
The dynamic relation of three-shaft linkage structure 2 is: by first stepper-motor 201 on the x axle power is provided; First shaft coupling 202 transmits moment of torsion and gives leading screw 203; Leading screw 203 is formed pair of nut with nut 205; First web member 207 fixes with nut 205, because first web member 207 is fixed on the guide rail slide block 204, makes the web member 207 of winning do translational motion at the x direction of principal axis again; First web member 207 links to each other with the retaining plate of y axle, like this, makes that the y axle can be whole mobile at the x direction of principal axis; As a same reason; The y axle provides moment of torsion by second stepper-motor 210; Second shaft coupling 209 passes to second leading screw with torsion, and second web plate 208 is housed on the axial leading screw of y, and the axial small machine installation sleeve 211 of z is installed on second web plate 208; So just make that the z axle can be in rectangular axis x axle and the motion of y direction of principal axis; And be fixed with small machine 213 in the z direction of principal axis in the small machine installation sleeve 211, small machine 213 can drive down-pressed pole 214 and move up and down, and guide pin bushing 212 has the effect of restriction down-pressed pole 214 rotary freedoms.
Referring to accompanying drawing 5 " structural representation of jaw ".Described jaw 3 comprises electronic jaw 310, a pair of forearm 311, the clamp arm and the web plate that link to each other with forearm 311.Jaw 3 is arranged on the outer end of skeleton 1 through first web plate 309; First web plate 309 connects forearm 311 through slide block 308; Forearm 311 is provided with tail rod, and stepper-motor 307 is installed on the top of tail rod, and stepper-motor 307 connects ball-screw 305 through shaft coupling 306; Ball-screw 305 is connected with electronic jaw 310 with nut through second web plate 304, is provided with clamp arm 301 at the front end of forearm 311; Said second web plate 304 with link to each other with line slideway 303 again when nut is affixed, make the rotating of stepper-motor 307 can drive whole jaw 3 and move up and down.
Referring to accompanying drawing 5 " structural representation of jaw ".Described jaw 3 comprises electronic jaw 310, a pair of forearm 311, the clamp arm 301 and the web plate that link to each other with forearm 311; Jaw 3 is arranged on the outer end of skeleton 1 through first web plate 309; First web plate 309 connects second web plate, 304, the second web plates 304 through slide block 308 and links to each other with electronic jaw 310, and forearm 311 links to each other with electronic jaw 310; A pair of clamp arm 301 is connected with a pair of forearm 311, the fixing and drive nut motion with nut again of second web plate 304; Stepper-motor 307 drives shaft coupling 306, and shaft coupling 306 transmits moment of torsion and gives ball-screw 305, and ball-screw 305 is formed pair of nut with nut, and second web plate 304 is fixed with nut, and therefore, the rotating of stepper-motor 307 can drive whole jaw 3 and move up and down.The dynamic relation of jaw 3 is: clamp arm 301, electronic jaw 310 are fixed on second web plate 304; Second web plate 304 is installed on the line slideway 303 and slide block 308 of pair of parallel; Second web plate 304 is driven by ball-screw 302; Ball-screw 302 cooperates line slideway 303 and slide block 308 that electronic jaw 310 and a pair of forearm 311 can be moved up and down with a pair of clamp arm 301 by the moment of torsion that shaft coupling 306 transmits from stepper-motor 307; Again because electronic jaw 310 itself has the function of opening and closing, so just make jaw 3 have to open, closure and the function that moves up and down.
Referring to accompanying drawing 6 and 7.Described needle plate 5 comprises needle plate 503, following needle plate 502 and picks up pin 501.Configuration orienting sleeve 509 in the pin hole on following needle plate 502, configuration spring 508 in the pin hole on last needle plate 503; In orienting sleeve 509, plant and pick up pin 501; Pick up mounting spring 508 between pin 501 and the following needle plate 502 at each; Like this; 96 that rectangular just can be installed between last needle plate 503 and following needle plate 502 are picked up pin 501, and 24 or 48 or 384 that rectangular also can be installed are as required picked up pin 501.Because the effect of spring 508 and last needle plate 503, each pick up pin 501 syringe needles arrange concordant, on the last needle plate 503 each pick up pin 501 directly over opened individual aperture.4 " L " type connective slots are set in the both sides of last needle plate 403: a side is first " L " type groove 504 and second " L " type groove 505; Opposite side is the 3rd " L " type groove 506 and the 4th " L " type groove 507; Like this, needle plate 5 just can through " L " type connective slot be installed in pick-up head 9 skeleton 1 below.
The pick-up head of the utility model is fixed on just can do corresponding motion in the space of X axle Y axle Z axle three shaft mechanical arms on three power arms, the three-shaft linkage structure 2 that is made up of x axle y axle z axle of pick-up head itself is mixed jaw 3 on the pick-up head again and just can be accomplished that the plate that needs in the selection flow process to realize is taken off lid, cover, carries, taken pictures, orifice plate is taken off lid, covers, carries, clone and pick up, the run-bake-needle fault plate, adorn a series of actions such as needle plate, switch cleaning hatch door; High resolving power camera 4 on the pick-up head, needle plate 5 also can carry out such as actions such as imaging, selection, carryings.Jaw 3, high resolving power camera 4 and needle plate 5 are independently on physical construction, their mutually noninterferes, but under control of software, they can link each other, and actions such as imaging, selection, carrying are combined as a whole.
The pick-up head of the utility model process that imaging, bacterium colony are chosen that realizes taking pictures:
The high resolving power camera 4 of this device through powered attendant-controlled wheelchairs three power arms move to petridish to be chosen directly over the position bacterium colony is carried out to picture; The bacterium colony of treating selection through software system then carries out position calculation; Make each of pick-up head of the utility model pick up pin 501 and obtain corresponding position, three power arms are combined the three-shaft linkage structure 2 of the pick-up head of the utility model, make the down-pressed pole 214 of the utility model move downward; So just the position, last needle plate hole of one of 96 pin holes of the corresponding needle plate of ability 5 tops extrudes spring; Make in the needle plate 5 one pick up syringe needle and be higher than other 95 syringe needles that rely on viscous force to get a target bacterium colony in the petridish is sticking, at this moment down-pressed pole 214 moves upward to upper through z axle power; Because the effect of spring 208 makes the pin 501 that picks up that is pressed down return to original state.Identical therewith; Other 95 are picked up pin 501 and carry out such action one by one, target bacterium colony unordered in the petridish is shifted at 96 in an orderly manner pick up on the pin 501, because the matrix distribution of 96 pins and the hole on the microwell plate (96 hole) are one to one; Therefore; Needle plate 5 is aimed at 96 orifice plates, adds the vibrations program of needle plate 5, makes the target bacterium colony that picks up selection on the pin 501 more fully transfer in the microwell plate.
The pick-up head of the utility model can satisfy simultaneously but the bacterium colony that is not limited to 6 * 4,6 * 8,12 * 8,24 * 16 matrix orifice plates picks up and shifts.(or 24 or the 48 or 384) needle plate 5 that utilizes two group 96 just can form one group and select, and another group is carried out the operating mode of cleaning and sterilizing, has both improved working efficiency, also can not form cross infection.
Pickup head device needle plate 5 of the utility model and the process of tearing needle plate 5 open:
On the needle plate 503 2 groups of " L " shape grooves are being arranged on the pick-up head of the utility model, be provided with four corresponding pins in the skeleton 1 of the utility model simultaneously, its position is just in time above four grooves.In the time will tearing needle plate 5 open, pick-up head 9 moves to the top of putting needle plate 5 positions, utilizes external impetus (three power arms) that needle plate 5 is rested the needle plate position, moves in the other direction according to the direction of " L " shape groove then, and needle plate 5 and skeleton were opened in 1 minute.The process of dress needle plate 5 similarly, but reverse motion: the direction positive dirction motion according to " L " shape groove makes needle plate 5 and skeleton 1 integrator.
The above is merely the preferred implementation of the utility model; Should be understood that; For those skilled in the art; Under the prerequisite that does not break away from the utility model design, can also make some improvement and retouching, these improvement and retouching also should be regarded as in the protection domain of the utility model.

Claims (5)

1. a kind of pick-up head of a robotization bacterium colony sorting plant; Contain skeleton (1), three-shaft linkage structure (2), jaw (3), high resolving power camera (4), needle plate (5); Said skeleton (1) is a skeleton construction, and the one of which side can be connected with the Z shaft mechanical arm (8) of three power arms on being arranged on robotization bacterium colony sorting plant workplatform through web plate, it is characterized in that; Three-shaft linkage structure (2) is set in the centre of skeleton; One side in skeleton (1) outside is provided with high resolving power camera (4), and another side is provided with jaw (3), and needle plate (5) is set below skeleton (1);
Said three-shaft linkage structure (2) is made up of x axle, y axle and down-pressed pole (214); On the x axle, be provided with first stepper-motor (201); First stepper-motor (201) is connected with leading screw (203) through first shaft coupling (202); Leading screw (203) is formed pair of nut with nut (205), and first web member (207) is connected with guide rail slide block (204) when being connected with nut (205); The below of first web member (207) is connected with the y axle through retaining plate; On the y axle, be provided with second stepper-motor (210); Second stepper-motor (210) is connected with second leading screw with second web member (208) through second shaft coupling (209), and second leading screw is connected with union lever (206) through nut; Be provided with small machine installation sleeve (211) in the below of second web member (208), small machine (213) is housed on small machine installation sleeve (211), be provided with down-pressed pole (214) through guide pin bushing (212) in the below of small machine installation sleeve (211);
Said jaw (3) comprises electronic jaw (310), a pair of forearm (311), the clamp arm (301) and the web plate that link to each other with forearm (311); Jaw (3) is arranged on the outer end of skeleton (1) through first web plate (309); First web plate (309) connects second web plate (304) through slide block (308), and second web plate (304) links to each other with electronic jaw (310), and forearm (311) links to each other with electronic jaw (310); A pair of clamp arm (301) is connected with a pair of forearm (311); Second web plate (304) the fixing and drive nut motion with nut again, stepper-motor (307) drives shaft coupling (306), and shaft coupling (306) transmits moment of torsion and gives ball-screw (305); Ball-screw (305) is formed pair of nut with nut; Second web plate (304) is fixed with nut, and therefore, the rotating of stepper-motor (307) can drive whole jaw (3) and move up and down;
Said needle plate (5) comprises needle plate (503), following needle plate (502) and picks up pin (501); Said both sides of going up needle plate (403) are provided with connective slot; Last needle plate (503) and following needle plate (502) will pick up the centre that pin (501) is embedded in needle plate (5); Last needle plate (503) go up each pick up pin (501) directly over opened individual aperture, needle plate (5) is installed in through connective slot below the skeleton (1) of pick-up head (9).
2. a kind of pick-up head of robotization bacterium colony sorting plant according to claim 1 is characterized in that, is furnished with orienting sleeve (509) in the pin hole on said needle plate (502) down, is furnished with spring (508) in the pin hole on the needle plate on said (503).
3. a kind of pick-up head of robotization bacterium colony sorting plant according to claim 1 and 2 is characterized in that, 96 that between said needle plate (502) down and last needle plate (503), are provided with rectangular are picked up pin (501).
4. a kind of pick-up head of robotization bacterium colony sorting plant according to claim 1 and 2 is characterized in that, between said down needle plate (502) and last needle plate (503), be provided with rectangular or 24 or 48 or 96 or 384 pick up pin (501).
5. a kind of pick-up head of robotization bacterium colony sorting plant according to claim 1 is characterized in that, the both sides of needle plate (503) are provided with 4 " L " type connective slots on said.
CN 201120335923 2011-09-08 2011-09-08 Pickup head of automatic bacterial colony picking device Withdrawn - After Issue CN202272878U (en)

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Application Number Priority Date Filing Date Title
CN 201120335923 CN202272878U (en) 2011-09-08 2011-09-08 Pickup head of automatic bacterial colony picking device

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Application Number Priority Date Filing Date Title
CN 201120335923 CN202272878U (en) 2011-09-08 2011-09-08 Pickup head of automatic bacterial colony picking device

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Publication Number Publication Date
CN202272878U true CN202272878U (en) 2012-06-13

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102321530A (en) * 2011-09-08 2012-01-18 上海炎景生物工程有限公司 A kind of pick-up head of robotization bacterium colony sorting plant
CN113201446A (en) * 2021-05-10 2021-08-03 北京化工大学 Automatic bacterial colony of high flux picks device
CN113667588A (en) * 2021-07-26 2021-11-19 中国科学院深圳先进技术研究院 Picking needle automatic reset mechanism and automatic bacterial colony selecting instrument

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102321530A (en) * 2011-09-08 2012-01-18 上海炎景生物工程有限公司 A kind of pick-up head of robotization bacterium colony sorting plant
CN113201446A (en) * 2021-05-10 2021-08-03 北京化工大学 Automatic bacterial colony of high flux picks device
CN113667588A (en) * 2021-07-26 2021-11-19 中国科学院深圳先进技术研究院 Picking needle automatic reset mechanism and automatic bacterial colony selecting instrument

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