CN210394380U

CN210394380U - Intelligent processing system for microbial samples

Info

Publication number: CN210394380U
Application number: CN201920919910.8U
Authority: CN
Inventors: 何林声; 吴长春
Original assignee: Chongqing Kejie Medical Technology Co Ltd
Current assignee: Chongqing Kejie Medical Technology Co Ltd
Priority date: 2019-06-18
Filing date: 2019-06-18
Publication date: 2020-04-24
Anticipated expiration: 2029-06-18

Abstract

The utility model provides a microorganism sample intelligence processing system belongs to microbiology technical field. The system solves the problems of large occupied space and high cost of the existing microorganism sample processing system. The sample processing assembly comprises a sample transmission module, a filling device, a scanning device, a weight detection device, a filling position, a vibration device and a to-be-detected position, wherein the scanning device, the weight detection device, the filling position, the vibration device and the to-be-detected position are sequentially arranged along the same straight line; the culture medium processing assembly comprises a culture medium loading turntable with a loading groove, a pushing device, a cover opening device and a culture medium scribing turntable with a station groove, the culture medium loading turntable is located in front of the sample processing assembly, and the culture medium scribing turntable is located on the side of the culture medium loading turntable. The utility model has the advantages of small occupied space, low cost, high efficiency and the like.

Description

Intelligent processing system for microbial samples

Technical Field

The utility model belongs to the technical field of the microbiology device, a little biological sample intelligence processing system is related to.

Background

The microbial sample treatment is widely used for bacterial colony inoculation, culture, separation and detection, and is an important work in the aspects of medical treatment and health, inspection and quarantine, disease control, food safety and the like. The Chinese patent discloses a microbiological sample processing and scribing system and a method [ No. CN104862215B ], which comprises a communication unit, a mechanical unit and a circuit, wherein the communication unit is in signal connection with the mechanical unit, and the communication unit and the mechanical unit are respectively and electrically connected with an external circuit; the mechanical unit comprises a sample processing assembly, a scribing assembly, a culture medium processing assembly and a culture medium storing assembly, wherein the sample processing assembly is mechanically matched with the scribing assembly to allow the scribing assembly to be capable of being stained with a sample processed by the sample processing assembly, the scribing assembly is mechanically matched with the culture medium processing assembly to allow the streaked scribing assembly to be capable of being streaked on a culture medium processed by the culture medium processing assembly, and the culture medium processing assembly is mechanically matched with the culture medium storing assembly to allow the culture medium which is subjected to streaking to be stored in the culture medium storing assembly; the sample control module is used for communicating and controlling the sample processing assembly, the scribing control module is used for communicating and controlling the scribing assembly, the culture medium control module is used for communicating and controlling the culture medium processing assembly, and the culture medium storage module is used for communicating and controlling the culture medium storage assembly.

The microorganism sample processing and scribing system solves the problems of low biological safety, incapability of standardizing operation and high manual operation randomness, but due to the fact that the structural arrangement is unreasonable, the occupied space is large, the working efficiency is reduced to a certain degree, a large number of motors are used, and the manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem of prior art existence, provide a rational in infrastructure arrangement in order to improve work efficiency's microorganism sample intelligence processing system.

The purpose of the utility model can be realized by the following technical proposal:

an intelligent processing system for a microorganism sample comprises a sample processing assembly, a scribing assembly, a culture medium processing assembly and a culture medium storage assembly, and is characterized in that the sample processing assembly comprises a sample transfer module, a filling device, a scanning device, a weight detection device, a filling position, a vibration device and a to-be-detected position, wherein the scanning device, the weight detection device, the filling position, the vibration device and the to-be-detected position are sequentially arranged along the same straight line from back to front; the culture medium processing assembly comprises a culture medium loading turntable with a loading groove, a pushing device, a cover opening device and a culture medium scribing turntable with a station groove, the culture medium loading turntable is located in front of the sample processing assembly, the culture medium scribing turntable is located on the side of the culture medium loading turntable, and the station groove is sequentially close to the culture medium loading turntable, the scribing assembly and the culture medium storage assembly when the culture medium scribing turntable rotates.

In the above intelligent processing system for microbial samples, the number of the loading grooves is N, the loading grooves are distributed on the culture medium loading turntable in an annular array, and the culture medium loading turntable rotates in a stepping manner according to an angle of 360 °/N; the number of the station grooves is n, the station grooves are distributed on the culture medium scribing turntable in an annular array, the culture medium scribing turntable rotates step by step according to an angle of 360 degrees/n, and each time the culture medium loading turntable and the culture medium scribing turntable rotate, the station groove is arranged opposite to the loading groove; the station groove which is arranged opposite to the loading groove is positioned at a feeding station, and the pushing device is used for pushing the culture medium box positioned in the loading groove into the station groove positioned at the feeding station; the uncovering device is positioned on the side part of the station groove and is used for opening the culture medium box entering the station groove.

In foretell microbial sample intelligence processing system, the subassembly of ruling place the platform including dipping in liquid module, inoculation disinfection module, degassing unit, ruling module and ruling pen, foretell sample transmission module still is used for waiting to wait to locate and dip in the liquid module and remove the sample box between, inoculation disinfection module be used for placing the platform at degassing unit and ruling pen and remove the ruling pen between, culture medium rule carousel on have a plurality of marking off stations, the marking off module be used for placing the platform at the ruling pen, dip in the liquid module and be in the marking off station culture medium box between remove the ruling pen, be equipped with the mechanism of picking up that is used for picking up the marking off pen on the marking off module.

In the above-mentioned microbial sample intelligent processing system, the culture medium storage assembly includes a label printer, a culture medium storage box and a boxing module, a station slot arranged opposite to the label printer is located at a label printing station, the culture medium storage box is located between a scribing station and the label printing station and partially extends to the upper side of a culture medium scribing turntable, a cover opening mechanism is arranged on the culture medium storage box and used for enabling a culture medium box moving from the scribing station to the label printing station to be closed, and the boxing module is used for moving the culture medium box between the label printing station and the culture medium storage box.

In the above-mentioned intelligent processing system for microbial samples, a sample input device extending to the other side of the sample processing assembly is arranged on the other side of the culture medium loading turntable, a sample input track and an abnormal sample output track are arranged on the sample input device, and the sample transfer module is further used for moving the sample box among the scanning device, the weight detection device, the sample input track and the abnormal sample output track.

Compared with the prior art, the intelligent processing system for the microbial samples has the following advantages:

the culture medium loading rotary disc is provided with the plurality of loading grooves, so that a plurality of culture mediums can be conveyed at the same time, the working efficiency is improved, the occupied space is reduced, and the feeding station, the scribing station and the label printing station are distributed on the culture medium scribing rotary disc, so that the occupied space is further saved; meanwhile, the use of the motor is reduced, so that the cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

In the figure, 1, a sample transfer module; 2. a filling device; 3. a scanning device; 4. a weight detecting device; 5. filling positions; 6. an oscillating device; 7. a position to be detected; 8. a culture medium loading turntable; 9. a pushing device; 10. a cap opening device; 11. a culture medium scribing turntable; 12. a liquid dipping module; 13. an inoculation disinfection module; 14. a sterilizing device; 15. a scribing module; 16. a marking pen placing table; 17. a label printer; 18. a culture medium storage box; 19. a boxing module; 20. a sample input device; 21. a sample input track; 22. an abnormal sample output track.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

The intelligent processing system for the microbial samples comprises a sample processing assembly, a scribing assembly, a culture medium processing assembly and a culture medium storage assembly. The components in the present embodiment adopt the same or similar structure as in patent CN 104862215B.

As shown in fig. 1, the sample processing assembly comprises a sample transfer module 1, a filling device 2, a scanning device 3 which is sequentially arranged from right to left along the same straight line, a weight detection device 4, a filling position 5, an oscillating device 6 and a to-be-detected position 7, wherein the scanning device 3 is used for scanning a mark code arranged outside a sample box, the weight detection device 4 is used for measuring the weight of the sample box, the filling device 2 is used for filling a sample treatment agent into the sample box positioned at the filling position 5, the oscillating device 6 is used for oscillating the treatment agent and a sample in a uniformly-mixed sample box, the to-be-detected position 7 is used for placing the sample box after oscillating and mixing, and the sample transfer module 1 moves the sample box between the scanning device 3, the weight detection device 4, the filling position 5, the oscillating device 6 and the to-be-detected position.

As shown in FIG. 1, the medium processing module includes a medium loading turntable 8 having a loading slot, a push device 9, a lid opening device 10, and a medium streaking turntable 11 having a station slot. The pushing device 9 is arranged above the culture medium loading turntable 8 and is used for pushing the culture medium box in the loading groove into the station groove at the feeding station; the cover opening device 10 is positioned at the side part of the station tank and is used for opening the culture medium box entering into the station tank. The medium loading turntable 8 is driven by a servo motor and the medium streaking turntable 11 is driven by another servo motor.

As shown in fig. 1, a sample input device 20 extending to the right side of the sample processing assembly is provided on the right side of the culture medium loading turntable 8, a sample input rail 21 and an abnormal sample output rail 22 are provided on the sample input device 20, and the sample transfer module 1 is further configured to move the sample cartridge between the scanning device 3, the weight detection device 4, the sample input rail 21, and the abnormal sample output rail 22.

Wherein, the number of the loading grooves is N (N is more than or equal to 2), the loading grooves are distributed on the culture medium loading turntable 8 in an annular array, and the culture medium loading turntable 8 rotates step by step according to the angle of 360 degrees/N; the number of the station grooves is n (n is more than or equal to 2), the station grooves are distributed on the culture medium scribing rotary disc 11 in an annular array, the culture medium scribing rotary disc 11 rotates step by step according to an angle of 360 degrees/n, the culture medium loading rotary disc 8 and the culture medium scribing rotary disc 11 are provided with one station groove which is arranged opposite to the loading groove every time the culture medium loading rotary disc and the culture medium scribing rotary disc 11 rotate, and the station groove which is arranged opposite to the loading groove is positioned at a feeding station.

As shown in fig. 1, the culture medium loading turntable 8 is located in front of the sample processing assembly, the front of the culture medium loading turntable 8 is a system operation surface, a worker operates the system at the system operation surface, the culture medium scribing turntable 11 is located at the left side of the culture medium loading turntable 8, and when the culture medium scribing turntable 11 rotates, the station groove sequentially passes through the feeding station, the scribing station and the label printing station.

As shown in fig. 1, the streaking assembly includes a dip-tank module 12, an inoculation sterilization module 13, a sterilization device 14 for sterilizing the streaking pen, a streaking module 15 and a streaking pen placing table 16, and the sample transfer module 1 is used for moving the sample box between the inspection position 7 and the dip-tank module 12 and for removing the streaked sample box from the dip-tank module 12 to the medical waste recovery device. Dip in liquid module 12 and be located the left side of sample processing subassembly and be located the rear of culture medium marking off carousel 11, and inoculation disinfection module 13, degassing unit 14, marking off module 15 and marking off pen place the platform 16 and are located dip in liquid module 12 and keep away from the left side department that the culture medium loaded carousel 8. Inoculation disinfection module 13 is used for placing the platform 16 at degassing unit 14 and marking pen and remove the marking pen between, has a plurality of marking stations on culture medium marking off carousel 11, and marking off module 15 is used for placing platform 16, dip in liquid module 12 and is in the marking off station at the marking off pen and removes the marking pen between the culture medium box, is equipped with the mechanism of picking up that is used for picking up the marking off pen on the marking off module 15.

As shown in fig. 1, the medium storage assembly includes a label printer 17, a medium storage box 18 and a packing module 19, a station slot disposed opposite to the label printer 17 is located at a label printing station, the label printer 17 is used for marking a label on a medium box, the medium storage box 18 is used for placing the medium box, and the packing module 19 is used for moving the medium box between the label printing station and the medium storage box 18. Wherein the culture medium storage box 18 is positioned between the scribing station and the label printing station and partially extends to the upper part of the culture medium scribing turntable 11, and the culture medium storage box 18 is provided with a cover opening mechanism for enabling the culture medium box moving from the scribing station to the label printing station to close the cover.

Wherein, the sample transfer module 1, the inoculation sterilization module 13, the scribing module 15 and the boxing module 19 are cantilever structures, and realize the designated action under the control of a program.

As shown in fig. 1, each structural component may be disposed on the same work platform.

The working steps of the intelligent processing system for the microbial samples are as follows:

① starting the system, manually/automatically placing the sample boxes on the sample input track 21, and the sample boxes move in place under the transmission of the sample input track 21;

② the sample transfer module 1 grabs the sample box from the sample input track 21 to the scanning device 3, the scanning device 3 scans the mark code on the sample box, if the mark code is incorrect, the sample transfer module 1 grabs the sample box to the abnormal sample output guide rail, and the abnormal sample output guide rail outputs the sample box;

③, the sample box with the correct code in the step ② moves to the weight detection device 4 under the action of the sample transfer module 1, the weight of the sample box is measured, if the weight is not qualified, the sample box is grabbed to the abnormal sample output guide rail through the sample transfer module 1 and is output through the abnormal sample output guide rail, and the sample box with the qualified weight is transported to the filling position 5 through the sample transfer module 1;

④ filling the sample cartridge at filling position 5 with the sample processing agent by the filling device 2;

⑤, sending the sample box obtained in the step ④ into a vibration device 6, and vibrating and uniformly mixing the treating agent and the sample in the sample box;

⑥, the sample box obtained in the step ⑤ is sent to the position 7 to be detected, and the sample box positioned at the position 7 to be detected is sent to the dipping liquid module 12 through the sample transfer module 1;

⑦ when detecting that a sample box is arranged on the liquid dipping module 12, the pushing device 9 pushes the culture medium box into the feeding station, the cover opening device 10 opens the cover of the culture medium box during pushing, the culture medium scribing turntable 11 rotates anticlockwise, and the culture medium box is carried to the scribing station;

⑧ the scribing module 15 picks up the scribing pen on the scribing pen placing table 16 to scribe in the sample box on the dip module 12, and then carries the scribing pen dipped with the sample to the culture medium box moving to the scribing station for scribing;

in step ⑧, the streaking pen streaked in the culture medium box enters the disinfection device 14 for disinfection under the action of the inoculation disinfection module 13;

⑨ the streaked culture medium box rotates along with the culture medium streaking rotary disc 11, the cover is closed under the action of the culture medium preservation box 18, the label printing station is moved, the label printer 17 marks the culture medium box, and the marked culture medium box is transferred into the culture medium preservation box 18 through the boxing module 19.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims

1. An intelligent processing system for a microorganism sample comprises a sample processing assembly, a scribing assembly, a culture medium processing assembly and a culture medium storage assembly, and is characterized in that the sample processing assembly comprises a sample transfer module (1), a filling device (2), a scanning device (3), a weight detection device (4), a filling position (5), a vibration device (6) and a to-be-detected position (7), wherein the scanning device (3), the weight detection device (4), the filling position (5), the vibration device (6) and the to-be-detected position (7) are sequentially arranged along the same straight line, and a sample box is moved among the scanning device (3), the weight detection device (4), the filling position (5), the vibration device (6) and the to-be-detected position (7; the culture medium processing assembly comprises a culture medium loading turntable (8) with a loading groove, a pushing device (9), a cover opening device (10) and a culture medium scribing turntable (11) with a station groove, the culture medium loading turntable (8) is located in front of the sample processing assembly, the culture medium scribing turntable (11) is located on the side of the culture medium loading turntable (8), and the station groove is sequentially close to the culture medium loading turntable (8), the scribing assembly and the culture medium storage assembly when the culture medium scribing turntable (11) rotates.

2. The intelligent processing system for the microbial samples according to claim 1, wherein the number of the loading slots is N, the loading slots are distributed on the culture medium loading turntable (8) in an annular array, and the culture medium loading turntable (8) rotates in steps of 360 degrees/N; the number of the station grooves is n, the station grooves are distributed on the culture medium scribing rotary disc (11) in an annular array, the culture medium scribing rotary disc (11) rotates step by step according to an angle of 360 degrees/n, and each time the culture medium loading rotary disc (8) and the culture medium scribing rotary disc (11) rotate once, one station groove is arranged opposite to the loading groove; the station groove which is opposite to the loading groove is positioned at a feeding station, and the pushing device (9) is used for pushing the culture medium box positioned in the loading groove into the station groove positioned at the feeding station; the uncovering device (10) is located on the side of the station groove and used for opening the culture medium box entering the station groove.

3. The intelligent processing system for microorganism samples as claimed in claim 2, the marking assembly comprises a liquid dipping module (12), an inoculation disinfection module (13), a disinfection device (14), a marking module (15) and a marking pen placing table (16), the sample transfer module (1) is also used for moving the sample box between the to-be-detected position (7) and the liquid dipping module (12), the inoculation disinfection module (13) is used for moving the marking pen between the disinfection device (14) and the marking pen placing platform (16), culture medium marking off carousel (11) on have a plurality of marking off stations, marking off module (15) be used for placing platform (16), dip in liquid module (12) and be in the marking off station the culture medium box between the removal marking off pen at the marking off pen, be equipped with the mechanism of picking up that is used for picking up the marking off pen on marking off module (15).

4. The intelligent microbial sample processing system according to claim 3, wherein the culture medium storage assembly comprises a label printer (17), a culture medium storage box (18) and a packing module (19), a station slot arranged opposite to the label printer (17) is arranged at a label printing station, the culture medium storage box (18) is arranged between a scribing station and the label printing station and partially extends to the upper part of the culture medium scribing turntable (11), a cover opening mechanism is arranged on the culture medium storage box (18) and used for enabling the culture medium box moved from the scribing station to the label printing station to be closed, and the packing module (19) is used for moving the culture medium box between the label printing station and the culture medium storage box (18).

5. An intelligent processing system for samples of microorganisms according to claim 4, wherein the other side of the culture medium loading turntable (8) is provided with a sample input device (20) extending to the other side of the sample processing assembly, the sample input device (20) is provided with a sample input track (21) and an abnormal sample output track (22), and the sample transfer module (1) is further configured to move the sample cartridge between the scanning device (3), the weight detection device (4), the sample input track (21) and the abnormal sample output track (22).