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CN-121975607-A - High flux microorganism growth detector

CN121975607ACN 121975607 ACN121975607 ACN 121975607ACN-121975607-A

Abstract

The invention belongs to the technical field of microorganism detection, and particularly relates to a high-flux microorganism growth detector. The mechanical shaking device comprises a mounting platform, a first driving motor, a driving wheel, a driving rod, a first driving track and a second driving track, wherein the first driving motor is arranged at the upper end of the mounting platform, the driving wheel is connected with an output shaft of the first driving motor, the lower end of the driving rod is eccentrically connected with the driving wheel, the upper end of the driving rod is rotatably connected with the mounting platform, the first driving track is vertically distributed, and the second driving track is horizontally distributed. The first driving motor is utilized to drive the driving wheel to rotate so as to drive the upper end of the driving rod to move relative to the first driving track and the second driving track, and the loading platform can be driven to shake along the vertical direction and the horizontal direction, so that the culture solution and microorganisms in the culture container are uniformly mixed.

Inventors

  • LIU WEIXIN

Assignees

  • 广州一微生物科技有限公司

Dates

Publication Date
20260505
Application Date
20240308

Claims (9)

  1. 1. A high throughput microorganism growth detector, comprising: A loading platform (1), wherein the loading platform (1) is arranged for arranging culture containers; The mechanical shaking device comprises a mounting platform (21), a first driving motor (221), a driving wheel (222), a driving rod (223), a first driving track (224) and a second driving track (225), wherein the first driving motor (221) is arranged at the upper end of the mounting platform (21), the driving wheel (222) is connected with an output shaft of the first driving motor (221), the lower end of the driving rod (223) is eccentrically connected with the driving wheel (222), the upper end of the driving rod (223) is rotationally connected with the loading platform (1), and the driving rod is in sliding connection with the first driving track (224) or the second driving track (225), the first driving track (224) and the second driving track (225) are both arranged on the mounting platform (21), the first driving track (224) is vertically distributed, and the second driving track (225) is horizontally distributed.
  2. 2. The high-throughput microorganism growth detector of claim 1, wherein the mechanical shaking device further comprises a first regulating motor (231), a first regulating screw (232), a second regulating motor (233) and a second regulating screw (234), a lower end of the first transmission rail (224) is communicated with a left end of the second transmission rail (225), the first regulating motor (231) is arranged on the first transmission rail (224), an output shaft of the first regulating motor (231) is connected with the first regulating screw (232), the first regulating screw (232) is used for limiting the upper end of the transmission rod (223) to slide along the first transmission rail (224), the second regulating motor (233) is arranged on the second transmission rail (225), an output shaft of the second regulating motor (233) is connected with the second regulating screw (234), and the second regulating screw (234) is used for limiting the upper end of the transmission rod (223) to slide along the second transmission rail (225).
  3. 3. The high throughput microorganism growth detector of claim 1, wherein the mechanical shaking device further comprises a frame (241), a second drive motor (242), a first pulley (243), a second pulley (244), a third pulley (245), a first belt (246), and a straight shaft (247), the frame (241) is arranged on the base (82), the second driving motor (242) is vertically arranged on the frame (241), and the output shaft of the second driving motor (242) is connected with the first belt pulley (243), the second belt pulley (244) and the third belt pulley (245) are both rotatably connected to the frame (241), the first belt (246) is sleeved on the first belt pulley (243), the second belt pulley (244) and the third belt pulley (245), the upper ends of the first belt pulley (243), the second belt pulley (244) and the third belt pulley (245) are respectively provided with the straight shaft (247), the straight shaft (247) is eccentrically arranged relative to the first belt pulley (243), the second belt pulley (244) and the third belt pulley (245), the axial direction of the straight shaft (247) faces to the vertical direction, and the straight shaft (247) is connected with the mounting platform (21).
  4. 4. A high throughput microorganism growth detector according to claim 3, wherein the mechanical shaking device further comprises a fourth pulley, the first (222), second (222) and third (222) pulleys are respectively located at the triangular position of the frame (241), the fourth pulley is located between the first (222), second (222) and third (222) pulleys, and the first belt (246) is sleeved on the fourth pulley.
  5. 5. The high-throughput microorganism growth detector of claim 4, further comprising a first guide rail (311), a first slider (312), a bracket (313), a second guide rail (314), a second slider (315), and a photoelectric detection module, wherein the first guide rail (311) is disposed on the base (82) and extends in a left-right direction, the first slider (312) is slidably connected to the first guide rail (311), a lower end of the bracket (313) is connected to the first slider (312), the second guide rail (314) is disposed on the bracket (313) and extends in a front-rear direction, the second slider (315) is slidably connected to the second guide rail (314), and the photoelectric detection module is disposed on the second slider (315).
  6. 6. The high-throughput microorganism growth detector of claim 5, further comprising a first stepper motor (321), a fifth belt pulley (322) and a second belt (323), wherein the first stepper motor (321) is arranged on the base (82), the fifth belt pulley (322) is provided with two, the two fifth belt pulleys (322) are respectively arranged at the left end and the right end of the first guide rail (311), the second belt (323) is sleeved on the fifth belt pulley (322), the first sliding block (312) is connected with the second belt pulley (323), and the first stepper motor (321) is in transmission connection with one fifth belt pulley (322).
  7. 7. The high-throughput microorganism growth detector according to claim 6, further comprising a second stepping motor (331), a sixth belt pulley (332) and a third belt (333), wherein the second stepping motor (331) is arranged on the support (313), two second guide rails (314) are arranged, one second guide rail (314) is arranged above the loading platform (1), the other second guide rail (314) is arranged below the mounting platform (21), the sixth belt pulley (332) is arranged at the front end and the rear end of the second guide rail (314), the third belt (333) is sleeved on the sixth belt pulley (332) and is connected with the third belt pulley (333), and the second stepping motor (331) is in transmission connection with one sixth belt pulley (332).
  8. 8. The high-throughput microorganism growth detector according to claim 1, further comprising a hydraulic cylinder (51) and a mounting box (52), wherein a plurality of mounting grooves (11) are formed in the loading platform (1), the hydraulic cylinder (51) and the mounting box (52) are sequentially arranged in the mounting grooves (11), the hydraulic cylinder (51) is vertically arranged, an output end of the hydraulic cylinder (51) is connected with the mounting box (52), and the mounting box (52) is used for setting a culture container.
  9. 9. The high-throughput microorganism growth detector of claim 3, further comprising a temperature control system comprising a first fan (61), a second fan (62), a first fan heater (63), and a second fan heater (64), wherein the first fan (61), the second fan (62), the first fan heater (63), and the second fan heater (64) are all disposed on the frame (241).

Description

High flux microorganism growth detector Technical Field The invention belongs to the technical field of microorganism detection, and particularly relates to a high-flux microorganism growth detector. Background The research of microorganisms is closely related to the daily life of human beings, and relates to harmful and beneficial aspects, such as the fields of industry and agriculture, environmental protection, food, medicine and the like, and the detection of the microorganisms is often needed to obtain a great amount of valuable information such as the growth condition of the microorganisms, the adaptation degree to the environment and the like. In the process of detecting microorganisms, batch culture of microorganisms is an important premise and basis for researching the microorganisms. Meanwhile, in the process of culturing microorganisms, a shaking device is required to shake the culture container, so that the culture solution and the microorganisms are uniformly mixed. However, the conventional shaking device generally only drives the culture container to shake in a horizontal direction, and the shaking mode of the culture container is single, which makes it difficult to uniformly mix the culture solution and the microorganism. Disclosure of Invention Aiming at the problems that the shaking mode of a culture container in the prior art is single and the culture solution and microorganisms are difficult to mix uniformly, the invention provides the following technical scheme: a high throughput microorganism growth detector comprising: A loading platform, which is arranged for setting a culture container; The mechanical shaking device comprises a mounting platform, a first driving motor, a driving wheel, a driving rod, a first driving track and a second driving track, wherein the first driving motor is arranged at the upper end of the mounting platform, the driving wheel is connected with an output shaft of the first driving motor, the lower end of the driving rod is eccentrically connected with the driving wheel, the upper end of the driving rod is rotationally connected with the loading platform and is used for being in sliding connection with the first driving track or the second driving track, the first driving track and the second driving track are all arranged on the mounting platform, the first driving tracks are vertically distributed, and the second driving tracks are horizontally distributed. As the preference of above-mentioned technical scheme, machinery sways the device still includes first regulation and control motor, first adjusting screw, second regulation and control motor and second adjusting screw, first transmission orbital lower extreme with second transmission orbital left end intercommunication, first regulation and control motor sets up on the first transmission orbit, first regulation and control motor's output shaft with first adjusting screw connects, first adjusting screw is used for restricting the upper end of transfer line is followed first transmission orbit slides, the second regulation and control motor sets up on the second transmission orbit, the output shaft of second regulation and control motor with second adjusting screw connects, second adjusting screw is used for restricting the upper end of transfer line is followed second transmission orbit slides. As the preference of above-mentioned technical scheme, machinery sways the device still includes frame, second driving motor, first belt pulley, second belt pulley, third belt pulley, first belt and straight axle, the frame sets up on the base, the vertical setting of second driving motor is in the frame, just the output shaft of second driving motor with first belt pulley connection, the second belt pulley with the third belt pulley all rotate connect in the frame, first belt sleeve is established first belt pulley second belt pulley and on the third belt pulley, first belt pulley second belt pulley and the upper end of third belt pulley all is provided with the straight axle, the straight axle is relative first belt pulley second belt pulley and the third belt pulley all eccentric setting, the axial direction of straight axle is towards vertical direction, the straight axle with the mounting platform is connected. As an optimization of the technical scheme, the mechanical shaking device further comprises a fourth belt pulley, the first driving wheel, the second driving wheel and the third driving wheel are respectively located at the triangular position of the frame, the fourth belt pulley is located between the first driving wheel, the second driving wheel and the third driving wheel, and the first belt is sleeved on the fourth belt pulley. As the preference of above-mentioned technical scheme, high flux microorganism growth detector still includes first guide rail, first slider, support, second guide rail, second slider and photoelectric detection module, first guide rail sets up on the base, and extend along