CN215288736U - Culture apparatus for food microorganism detects - Google Patents

Abstract

A culture device for detecting food microorganisms comprises a culture mechanism and an auxiliary mechanism, wherein the culture mechanism is arranged in an incubator, a transmission motor and a bevel gear set are arranged, the driving effect of a transmission belt on a culture dish is favorably and flexibly controlled, a placing groove and a fixed liquid ring are arranged, the fixed clamping effect on the culture dish is favorably improved, meanwhile, the culture speed of the culture dish is improved by the liquid oscillation when the fixed liquid ring moves, the sponge cushion and the electric push rod are arranged, so that power is provided for the culture dish to take the action of guarding, the rotating plate and the lily leaf window are arranged, the air flow flowing effect in the culture box is improved, inside at the incubator through having set up complementary unit, set up dwang and torsional spring, be favorable to making the fixed ball fix the culture dish with the help of external force, set up fixed ball and detection microscope, be favorable to improving the fixed and detection effect of culture dish.

Description

Culture apparatus for food microorganism detects

Technical Field

The utility model relates to a culture apparatus correlation field specifically is a food is culture apparatus for microbiological detection.

Background

Food microorganisms are a generic term for food-related microorganisms; including productive food microorganisms (acetobacter, yeast, etc.), food spoilage (mold, bacteria, etc.), and food-borne pathogenic microorganisms (escherichia coli, clostridium botulinum, etc.); biological detection utilizes biological individuals and the reaction generated by the pollution or change of a population community to the environment to clarify the environment pollution condition and provide biological detection basis for monitoring and evaluating the environment quality from the biological angle; the microbial culture refers to the rapid growth and propagation of some (kinds of) microorganisms by means of artificially prepared culture media and artificially created culture conditions (such as culture temperature, and the like), and is called microbial culture.

Because the time that food microorganism cultivates and detect mostly is longer, and the difficult short-term test that carries out the sample of current food microorganism detection device, detection efficiency is low, the current device carries out single cultivation work mostly simultaneously, the difficult quantity demand that satisfies the sampling of food and examine time measuring, the door need be opened to the current device when placing and detecting simultaneously, lead to outside air to drive inside dust and bacterium etc. get into the box easily, influence the effect that the microorganism was cultivateed easily, lead to phenomenons such as detection achievement inaccuracy.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned deficiency, the utility model provides a culture apparatus for food microorganism detection here.

The utility model is realized in such a way, a culture device for food microorganism detection is constructed, the device comprises an incubator, a fixed leg, a filter tank, an observation window, a culture mechanism, a spray pipe, a maintenance window, a control panel, an electric wire, a culture dish, a fan, a heating box, a wind guide pipe and a gas detector, the periphery of the bottom of the incubator is all connected with the fixed leg bolt, the left end surface of the incubator is provided with the filter tank, the left side of the top of the incubator is connected with the observation window bolt, the bottom of the incubator is fixedly connected with the spray pipe, the right side of the front end surface of the incubator is hinged with the maintenance window, the left side of the front end surface of the incubator is connected with the control panel bolt, the left end of the control panel is fixedly connected with the electric wire, the culture dish is arranged in the incubator, the right side of the inner wall of the filter tank is connected with the fan bolt, and the air outlet of the right side of the fan is connected with the heating box pipeline, the bottom of the heating box is connected with the left side of the bottom in the incubator through a bolt, an air outlet at the right end of the heating box is connected with an air guide pipe pipeline, a through hole at the bottom of the air guide pipe is connected with a water spray pipe pipeline, the inner wall of the air guide pipe is connected with a gas detector through a bolt, the culture mechanism is arranged in the incubator and comprises a transmission motor, a bevel gear set, a transmission rod, a transmission belt, a placement groove, a fixed liquid ring, a sponge mat, an electric push rod, an auxiliary mechanism, a rotating plate and a lily leaf window, the bottom in the incubator is connected with the transmission motor through a bolt, the movable end of a transmission motor is coaxially transmitted with a gear at the left end of the bevel gear set, the circle center of a gear at the right side of the bevel gear set is fixedly connected with the outer side of the transmission rod, the bottom of the transmission rod is rotatably connected with the bottom in the incubator, the top of the transmission rod is in transmission connection with the inner side of the transmission belt, and the placement groove is arranged in the transmission belt, the utility model discloses a culture box, including standing groove inner wall and the fixed liquid ring fixed connection, the fixed liquid ring inboard contacts with the culture dish outside, fixed liquid ring inboard and foam-rubber cushion sliding connection, the culture dish bottom contacts with the foam-rubber cushion, culture dish open-top contacts with the drive belt top, foam-rubber cushion and standing groove inner wall sliding connection, the carriage release lever fixed connection at foam-rubber cushion bottom and electric putter top, electric putter top carriage release lever and standing groove inner wall sliding connection, electric putter bottom and incubator bottom right side bolted connection, the inside right side top side of incubator is equipped with complementary unit, the wall is led to on the right side of incubator top is connected with the rotor plate rotation, the logical groove in rotor plate top side rotates with the lily leaf window to be connected, driving motor and electric putter all are connected with the control panel electricity.

Preferably, complementary unit includes working bin, air channel, dwang, torsional spring, fixed ball and inspection microscope, establish to the working bin the inside groove on the inside right side top side of incubator, the working bin left end wall is equipped with the air channel, working bin bottom opening wall rotates with the dwang to be connected, inboard and the torsional spring elastic connection of dwang, torsional spring rear end and working bin bottom opening wall elastic connection, dwang left end and fixed ball fixed connection, the bottom rotates with the inspection microscope bottom in the working bin to be connected.

Preferably, the electric wire, the fan, the heating box and the gas detector are all electrically connected with the control panel.

Preferably, the transmission belt is parallel to the bottom in the incubator, and eight groups of placing grooves and fixing liquid rings are arranged in the transmission belt.

Preferably, the specifications and sizes of the top parts of the spongy cushion and the electric push rod moving rod are the same as those of the placing groove, and the spongy cushion is parallel to the bottom of the culture dish.

Preferably, the right wall of the through groove at the top side of the rotating plate is an inclined plane with an inclination angle of 30 degrees, and the length of the blade of the lily louver is the same as that of the right wall of the through groove of the rotating plate.

Preferably, four groups of rotating rods, torsion springs and fixing balls are arranged on the inner wall of the bottom opening of the working bin, and the four groups of rotating rods are vertically distributed around the bottom opening of the working bin.

Preferably, the distance between the fixing balls on the left side and the right side of the bottom opening of the working bin is the same as the diameter of the culture dish bottle body, and the length of the bottom opening of the working bin is the same as the diameter of the culture dish bottle opening.

Preferably, the material of the fixed liquid ring is rubber.

Preferably, the fixing ball is made of rubber.

The utility model has the advantages of as follows: the utility model provides a food is culture apparatus for microbiological detection is provided here through the improvement, compares with equipment of the same type, has following improvement:

a food is culture apparatus for microbiological detection, inside at the incubator through having set up culture mechanism, set up driving motor and bevel gear group, be favorable to nimble control drive belt to the drive effect of culture dish, set up standing groove and fixed liquid ring, be favorable to improving the fixed clamp tight effect to the culture dish, liquid oscillation makes the culture speed of culture dish improve when removing through fixed liquid ring simultaneously, set up foam-rubber cushion and electric putter, be favorable to taking the action of preventing for the culture dish and provide power, set up rotor plate and lily leaf window, be favorable to improving the inside air current flow effect of incubator.

A food is culture apparatus for microbiological detection, through having set up complementary unit inside the incubator, set up dwang and torsional spring, be favorable to making the fixed ball fix the culture dish with the help of external force, set up fixed ball and detection microscope, be favorable to improving the fixed and detection effect of culture dish.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the culture mechanism of the present invention;

fig. 3 is a schematic structural diagram of the auxiliary mechanism of the present invention.

Wherein: an incubator-1, a fixed leg-2, a filter tank-3, an observation window-4, a culture mechanism-5, a spray pipe-6, a maintenance window-7, a control panel-8, an electric wire-9, a culture dish-10, a fan-11, a heating box-12, an air guide pipe-13, a gas detector-14, a transmission motor-51 and a bevel gear set-52, the device comprises a transmission rod-53, a transmission belt-54, a placement groove-55, a fixed liquid ring-56, a spongy cushion-57, an electric push rod-58, an auxiliary mechanism-59, a rotating plate-510, a lily leaf window-511, a working bin-591, a ventilating groove-592, a rotating rod-593, a torsion spring-594, a fixed ball-595 and a detection microscope-596.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-3, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the utility model relates to a culture device for food microorganism detection, which comprises an incubator 1, a fixed leg 2, a filter tank 3, an observation window 4, a culture mechanism 5, a spray pipe 6, a maintenance window 7, a control panel 8, an electric wire 9, a culture dish 10, a fan 11, a heating box 12, a wind guide pipe 13 and a gas detector 14, wherein the periphery of the bottom of the incubator 1 is connected with the fixed leg 2 by bolts, the left end surface of the incubator 1 is provided with the filter tank 3, the left side of the top of the incubator 1 is connected with the observation window 4 by bolts, the bottom of the incubator 1 is fixedly connected with the spray pipe 6, the right side of the front end surface of the incubator 1 is hinged with the maintenance window 7, the left side of the front end surface of the incubator 1 is connected with the control panel 8 by bolts, the left end of the control panel 8 is fixedly connected with the electric wire 9, the culture dish 10 is arranged in the incubator 1, the right side of the inner wall of the filter tank 3 is connected with the fan 11 by bolts, the air outlet on the right side of the fan 11 is connected with the heating box 12 by a pipeline, the bottom of the heating box 12 is connected with the left side of the bottom in the incubator 1 through a bolt, an air outlet at the right end of the heating box 12 is connected with a duct 13, a through hole at the bottom of the duct 13 is connected with a duct 6, the inner wall of the duct 13 is connected with a gas detector 14 through a bolt, and the electric wire 9, the fan 11, the heating box 12 and the gas detector 14 are all electrically connected with the control panel 8.

Referring to fig. 2, the utility model discloses a culture apparatus for food microorganism detection, culture mechanism 5 is located inside incubator 1, improve the cultivation effect to the microorganism, culture mechanism 5 includes drive motor 51, bevel gear group 52, transmission rod 53, drive belt 54, standing groove 55, fixed liquid ring 56, foam-rubber cushion 57, electric putter 58, auxiliary mechanism 59, rotor plate 510 and lily leaf window 511, the bottom in incubator 1 is connected with drive motor 51 bolt, improve the fixed effect to drive motor 51, drive motor 51 axle moving end and bevel gear group 52 left end gear coaxial transmission, improve the transmission effect of drive motor 51, the gear centre of a circle department on bevel gear group 52 right side and the outside fixed connection of transmission rod 53, improve the transmission effect of bevel gear group 52, the bottom of transmission rod 53 is connected with the bottom in incubator 1 rotation, improve the stability when transmission rod 53 rotates, the top of the transmission rod 53 is in transmission connection with the inner side of the transmission belt 54, the transmission effect of the transmission rod 53 is improved, a placing groove 55 is arranged inside the transmission belt 54, the placing effect of the transmission belt 54 is improved, the inner wall of the placing groove 55 is fixedly connected with a fixing liquid ring 56, the fixing effect of the fixing liquid ring 56 is improved, the inner side of the fixing liquid ring 56 is in contact with the outer side of the culture dish 10, the fixing effect of the culture dish 10 is improved, the inner side of the fixing liquid ring 56 is in sliding connection with a sponge mat 57, the continuity of the sponge mat 57 during movement is improved, the bottom of the culture dish 10 is in contact with the sponge mat 57, the driving effect of the sponge mat 57 on the culture dish 10 is improved, the top opening of the culture dish 10 is in contact with the top of the transmission belt 54, the limiting effect of the culture dish 10 is improved, the sponge mat 57 is in sliding connection with the inner wall of the placing groove 55, the stability of the sponge mat 57 during movement is improved, the bottom of the sponge mat 57 is fixedly connected with a moving rod at the top of the electric push rod 58, the fixing effect of the sponge cushion 57 is improved, the moving rod at the top of the electric push rod 58 is in sliding connection with the inner wall of the placing groove 55, the moving continuity of the electric push rod 58 during working is improved, the bottom of the electric push rod 58 is in bolt connection with the right side of the bottom in the incubator 1, the fixing effect of the electric push rod 58 is improved, the right top side in the incubator 1 is provided with an auxiliary mechanism 59, the taking and placing effect and the detection effect of the culture dish 10 are improved, the through groove wall at the right side of the top of the incubator 1 is rotatably connected with the rotating plate 510, the rotating continuity of the rotating plate 510 is improved, the through groove at the top side of the rotating plate 510 is rotatably connected with the lily leaf window 511, the fixing effect of the lily leaf window 511 is improved, the transmission motor 51 and the electric push rod 58 are both electrically connected with the control panel 8, the transmission belt is in parallel relation with the bottom in the incubator 1, and the transmission belt 54 is internally provided with eight groups of placing grooves 55 and fixing liquid rings 56, which is beneficial to improving the placing and culturing effect of the culture dish 10, the specifications and sizes of the tops of the moving rods of the sponge mats 57 and the electric push rods 58 are the same as those of the placing grooves 55, the sponge mats 57 are parallel to the bottoms of the culture dishes 10, the improvement of the driving effect of the culture dishes 10 in the placing grooves 55 is facilitated, the right wall of the through groove on the top side of the rotating plate 510 is an inclined plane with an inclination angle of 30 degrees, the length of the blade of the lily leaf window 511 is the same as that of the right wall of the through groove of the rotating plate 510, and the improvement of the control effect of the lily leaf window 511 on the air flow is facilitated.

Referring to fig. 3, the utility model discloses a culture apparatus for food microorganism detection, the auxiliary mechanism 59 includes a working chamber 591, a ventilation slot 592, a rotation rod 593, a torsion spring 594, a fixed ball 595 and a detection microscope 596, an inner groove on the right top side inside the incubator 1 is set as the working chamber 591 to provide a closed position for detection work, the left end wall of the working chamber 591 is provided with the ventilation slot 592 to improve the fluidity of air flow, the bottom opening wall of the working chamber 591 is rotatably connected with the rotation rod 593 to improve the fixing effect of the rotation rod 593, the inner side of the rotation rod 593 is elastically connected with the torsion spring 594 to improve the driving effect of the torsion spring 594 on the rotation rod 593, the rear end of the torsion spring 594 is elastically connected with the bottom opening wall of the working chamber 591 to improve the limiting effect of the torsion spring 594, the left end of the rotation rod 593 is fixedly connected with the fixed ball 595 to improve the fixing effect of the fixed ball 595, the bottom of the working chamber 591 is rotatably connected with the bottom of the detection microscope 596, improve the fixed effect of inspection microscope 596, working bin 591 bottom opening inner wall is equipped with four groups of dwang 593, torsional spring 594 and fixed ball 595 altogether, and four groups of dwang 593 are vertical distribution around working bin 591 bottom opening, be favorable to improving the fixed effect to culture dish 10, distance between the fixed ball 595 of the left and right sides of working bin 591 bottom opening is the same with culture dish 10 body diameter, and working bin 591 bottom opening length is the same with culture dish 10 bottleneck diameter, improve the spacing effect of culture dish 10 when removing and fixing.

The utility model provides a culture device for food microorganism detection through improvement, which has the following working principle;

firstly, when the equipment is used, the equipment is placed in a working area, and then the device is connected with an external power supply, so that the power supply required by the work of the equipment can be provided;

secondly, before the culture work, after the worker controls the fan 11 to drive the outside air to pass through the filtering of the filtering tank 3 and the heating and sterilizing action of the heating box 12 through the control panel 8, the air current is sent into the interior of the incubator 1 through the air guide pipe 13 to pre-sterilize and dust-remove the interior of the incubator 1, the air current flows to the lily leaf window 511 through the ventilating groove 592, the lily leaf window 511 is pushed open by the large air pressure, the air current is exhausted through the lily leaf window 511, then the worker opens the rotating plate 510, the prepared culture dish 10 is placed among the four fixing balls 595 at the bottom opening of the working bin 591, at the moment, the torsion spring 594 is in an initial state, then the worker controls the electric push rod 58 to drive the sponge pad 57 to move upwards to the bottom of the culture dish 10 through the control panel 8, and makes the sponge pad 57 contact with the bottom of the culture dish 10, and then the worker applies downward pushing force to the culture dish 10, thereby make the culture dish 10 distribute the thrust to fixed ball 595 all around, fixed ball 595 is pressed and drives the dwang 593 to rotate the action, fan 11 and heating cabinet 12 still continue to work this moment, when the dwang 593 rotates, the torsional spring 594 follows the rotation to carry out the energy storage, after the dwang 593 rotates to certain angle, the culture dish 10 breaks away from the spacing of fixed ball 595 and moves to the top of the foam-rubber cushion 57, then control the electronic push rod 58 to shrink the action through the control panel 8, thus make the electronic push rod 58 drive the foam-rubber cushion 57 and culture dish 10 move down to the inside standing groove 55 of drive belt 54, clamp the action to the outside of the bottle body of the culture dish 10 through the stationary liquid ring 56;

thirdly, then the electric push rod 58 continues to drive the sponge cushion 57 to move downwards to the initial position, when the culture dish 10 is separated from the fixed ball 595, the torsion spring 594 is not subjected to external force and elastically resets, the rotating rod 593 is driven to rotate, thereby the rotating rod 593 and the fixed ball 595 are reset, the worker controls the transmission motor 51 to drive the bevel gear set 52 and the transmission rod 53 to rotate through the control panel 8, thereby the transmission belt 54 drives the culture dish 11 to rotate to the next station, the worker continues to add the culture dish 11 into the placing groove 55 inside the transmission belt 54, which is beneficial to meeting the quantity requirement of food sampling detection, when the transmission belt 54 drives the culture dish 11 to rotate, the culture dish 11 extrudes the fixed liquid ring 56 outside the culture dish due to inertia factors, the culture dish 11 is horizontally oscillated by the fluidity and elasticity of the fixed liquid ring 56, so as to realize the shaking of the culture dishes 11, so as to accelerate the culture and detection experiments, and after all the culture dishes 11 are placed, the rotating plate 510 is closed;

fourthly, when the culture dish 11 needs to be detected, the electric push rod 58 is controlled by the control panel 8 to drive the sponge pad 57 to move upwards and push the culture dish 11 to move upwards, because the specifications of the sponge pad 57 and the culture dish 11 are consistent, the phenomenon of inclination when the culture dish 11 moves upwards is avoided, the electric push rod 58 drives the culture dish 11 to move upwards to push the fixed ball 595 open, the fixed ball 595 rotates upwards and enables the torsion spring 594 to store energy, when the culture dish 11 moves upwards to a certain height, the torsion spring 594 loses resistance to elastically reset, the rotating rod 593 and the fixed ball 595 are driven to reset, then the electric push rod 58 is controlled to contract to drive the culture dish 11 to be placed at the top of the fixed ball 595, then the working personnel opens the rotating plate 510, the detection microscope 596 is rotated to be above the culture dish 11 to carry out detection and observation, then the working personnel take out the culture dish 11, be favorable to avoiding the staff to switch the top cap when detecting the action and make inside outside air get into incubator 1 in a large number to when influencing the cultivation effect, increase the working strength of parts such as fan 11 and heating cabinet 12, be favorable to improving the efficiency of detection achievement.

The utility model discloses an improvement provides a food is culture apparatus for microbiological detection, set up driving motor 51 and bevel gear group 52, be favorable to nimble control drive belt 54 to the drive effect of culture dish 10, set up standing groove 55 and fixed liquid ring 56, be favorable to improving the fixed clamping effect to culture dish 10, liquid oscillation makes the culture speed of culture dish 10 improve when simultaneously removing through fixed liquid ring 56, set up foam-rubber cushion 57 and electric putter 58, be favorable to taking the prevention action for culture dish 10 and provide power, set up rotor plate 510 and lily leaf window 511, be favorable to improving the air current flow effect of 1 inside of incubator, set up dwang 593 and torsional spring 594, be favorable to making fixed ball 595 fix culture dish 10 with the help of external force, set up fixed ball 595 and detection microscope 596, be favorable to improving the fixed and detection effect of culture dish 10.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a food is culture apparatus for microbiological detection, includes incubator (1) and gas detector (14), incubator (1) bottom all around with fixed leg (2) bolted connection, incubator (1) left end face is equipped with filter tank (3), incubator (1) top left side and observation window (4) bolted connection, incubator (1) bottom and spray pipe (6) fixed connection, incubator (1) front end face right side and maintenance window (7) hinged joint, incubator (1) front end face left side and control panel (8) bolted connection, control panel (8) left end and electric wire (9) fixed connection, incubator (1) inside is equipped with culture dish (10), filter tank (3) inner wall right side and fan (11) bolted connection, fan (11) right side air outlet and heating cabinet (12) pipe connection, the bottom of the heating box (12) is connected with the left side of the bottom in the incubator (1) through a bolt, an air outlet at the right end of the heating box (12) is connected with an air guide pipe (13) through a pipeline, a through hole at the bottom of the air guide pipe (13) is connected with a water spray pipe (6) through a pipeline, and the inner wall of the air guide pipe (13) is connected with a gas detector (14) through a bolt;

the method is characterized in that: the cultivation device is characterized by further comprising a cultivation mechanism (5), the cultivation mechanism (5) is arranged inside the cultivation box (1), the cultivation mechanism (5) comprises a transmission motor (51), a bevel gear set (52), a transmission rod (53), a transmission belt (54), a placement groove (55), a fixed liquid ring (56), a sponge mat (57), an electric push rod (58), an auxiliary mechanism (59), a rotating plate (510) and a lily leaf window (511), the bottom of the cultivation box (1) is in bolt connection with the transmission motor (51), the axial moving end of the transmission motor (51) is in coaxial transmission with a gear at the left end of the bevel gear set (52), the circle center of the gear at the right side of the bevel gear set (52) is fixedly connected with the outer side of the transmission rod (53), the bottom of the transmission rod (53) is in rotary connection with the bottom of the cultivation box (1), and the top of the transmission rod (53) is in transmission connection with the inner side of the transmission belt (54), a placing groove (55) is arranged in the transmission belt (54), the inner wall of the placing groove (55) is fixedly connected with a fixed liquid ring (56), the inner side of the fixed liquid ring (56) is contacted with the outer side of the culture dish (10), the inner side of the fixed liquid ring (56) is in sliding connection with a sponge mat (57), the bottom of the culture dish (10) is contacted with the sponge mat (57), the top opening of the culture dish (10) is contacted with the top of the transmission belt (54), the sponge mat (57) is in sliding connection with the inner wall of the placing groove (55), the bottom of the sponge mat (57) is fixedly connected with a moving rod at the top of an electric push rod (58), the moving rod at the top of the electric push rod (58) is in sliding connection with the inner wall of the placing groove (55), the bottom of the electric push rod (58) is in bolt connection with the right side of the bottom in the incubator (1), and an auxiliary mechanism (59) is arranged at the right side in the incubator (1), the wall of the right side through groove at the top of the incubator (1) is rotationally connected with the rotating plate (510), the top side through groove of the rotating plate (510) is rotationally connected with the lily leaf window (511), and the transmission motor (51) and the electric push rod (58) are electrically connected with the control panel (8).

2. The culture apparatus for food microorganism detection according to claim 1, wherein: auxiliary mechanism (59) include working bin (591), draft groove (592), dwang (593), torsional spring (594), fixed ball (595) and detection microscope (596), the inside groove of incubator (1) inside right side top side is established to working bin (591), working bin (591) left end wall is equipped with draft groove (592), working bin (591) bottom opening wall rotates with dwang (593) to be connected, dwang (593) inboard and torsional spring (594) elastic connection, torsional spring (594) rear end and working bin (591) bottom opening wall elastic connection, dwang (593) left end and fixed ball (595) fixed connection, bottom and detection microscope (596) bottom rotate to be connected in working bin (591).

3. The culture apparatus for food microorganism detection according to claim 1, wherein: the electric wire (9), the fan (11), the heating box (12) and the gas detector (14) are all electrically connected with the control panel (8).

4. The culture apparatus for food microorganism detection according to claim 1, wherein: the transmission belt is parallel to the bottom in the incubator (1), and eight groups of placing grooves (55) and fixed liquid rings (56) are arranged in the transmission belt (54).

5. The culture apparatus for food microorganism detection according to claim 1, wherein: the specifications and sizes of the top parts of the spongy cushion (57) and the moving rod of the electric push rod (58) are the same as those of the placing groove (55), and the spongy cushion (57) is parallel to the bottom part of the culture dish (10).

6. The culture apparatus for food microorganism detection according to claim 1, wherein: the right wall of the through groove at the top side of the rotating plate (510) is an inclined plane with an inclination angle of 30 degrees, and the length of the blade of the lily leaf window (511) is the same as that of the right wall of the through groove of the rotating plate (510).

7. The culture apparatus for food microorganism detection according to claim 2, wherein: four groups of rotating rods (593), torsion springs (594) and fixing balls (595) are arranged on the inner wall of the bottom opening of the working bin (591), and the four groups of rotating rods (593) are vertically distributed around the bottom opening of the working bin (591).

8. The culture apparatus for food microorganism detection according to claim 2, wherein: the distance between the fixing balls (595) on the left side and the right side of the bottom opening of the working bin (591) is the same as the diameter of the bottle body of the culture dish (10), and the length of the bottom opening of the working bin (591) is the same as the diameter of the bottle opening of the culture dish (10).

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