CN216445336U - Meat processing is bacterium constant temperature culture apparatus for microbiological detection - Google Patents

Abstract

The utility model discloses a constant temperature culture device for detecting microorganisms in meat processing, relating to the technical field of bacteria culture equipment and comprising: the incubator comprises an incubator main body, wherein a plurality of incubation bins are arranged in the incubator main body, and a first sealing groove is formed in the side surface of the outer wall of each incubation bin; the box door is rotatably connected to one side of the incubator main body, and a bin distributing opening is formed in the side face of the outer wall of the box door. The utility model can synchronously simulate different environments by arranging the plurality of culture bins, thereby effectively improving the working efficiency of bacteria culture, the plurality of culture bins can be independently operated by the plurality of bin doors, the synchronous opening of the plurality of culture bins can be realized by the box door, the use of the main body of the culture box can be more flexible and convenient by the structure, the bin doors and the box doors can be quickly opened and closed by the matching of the rotary knob, the connecting shaft, the transmission gear block, the telescopic pipe and the fixed pipe, and the working efficiency of bacteria culture can be effectively improved by the matching of the plurality of parts.

Description

Meat processing is bacterium constant temperature culture apparatus for microbiological detection

Technical Field

The utility model relates to the technical field of bacteria culture equipment, in particular to a constant-temperature bacteria culture device for detecting microorganisms in meat processing.

Background

The processed meat products refer to any meat which is salted, air-dried, fermented, smoked or otherwise processed and used for improving the taste or prolonging the preservation time, various microbial bacteria can be generated in the meat processing process, most of the meat generating the microbial bacteria is rotten meat and can not be eaten, and in order to avoid the phenomenon, the bacterial growth conditions of the meat in different environments need to be cultured and observed, so that the optimal meat processing environment can be known and mastered, and the meat processing quality and efficiency can be improved.

Current bacteria culture device can only simulate an environment in same period of time when using, if need observe the production condition of bacterium under other environment, then can only carry out the secondary simulation after accomplishing the first simulation cultivation, and its work efficiency is low, is unfavorable for comparing of the multiple environment bacterium growth condition, very big influence meat processing microbiological detection work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: in order to solve the problem that the existing bacteria culture device is low in working efficiency, the bacteria constant-temperature culture device for detecting the microorganisms in meat processing is provided.

In order to achieve the purpose, the utility model provides the following technical scheme: a meat processing is bacterium constant temperature culture apparatus for microorganism detection includes:

the incubator comprises an incubator main body, wherein a plurality of incubation bins are arranged in the incubator main body, and a first sealing groove is formed in the side surface of the outer wall of each incubation bin;

the box door is rotatably connected to one side of the incubator main body, a bin dividing opening is formed in the side face of the outer wall of the box door, and a second sealing groove is formed in the side face of the outer wall of the bin dividing opening;

one end of the bin door is rotatably connected with the upper end and the lower end of the bin dividing port through a rotating shaft, the bin door is sleeved with the inner wall of the bin dividing port, and a transparent observation window is arranged on the side surface of the outer wall of the bin door;

the air guide pipe is arranged at one end of the outer wall of the incubator main body and penetrates into the incubator main body;

the first sealing air bag is arranged on one side of the box door, which is far away from the bin door, and penetrates into the box door;

the second sealing air bag is arranged on one side of the bin door close to the bin door and penetrates into the bin door;

the locking mechanisms are arranged in number and are respectively arranged in the box door and the chamber door and used for fast connection and fixation between the box door and the incubator main body and between the locking mechanisms and the box door;

the air guide mechanisms are arranged in the incubator main body and the locking mechanism respectively and used for providing expansion power for the first sealing air bag and the second sealing air bag.

As a still further scheme of the utility model: the locking mechanism comprises a rotating knob, a connecting shaft, a transmission gear block and a telescopic pipe, wherein the telescopic pipe is respectively provided with a box door and a bin door and penetrates through one end of the box door and one end of the bin door, the transmission gear block is positioned in the box door and the bin door and is close to the bottom end of the telescopic pipe, and the connecting shaft is positioned on one side of the transmission gear block and penetrates through the outer side surface of the box door and the bin door to be connected with the rotating knob.

As a still further scheme of the utility model: the air guide mechanism is including fixed pipe, activity post, activity stopper and reset spring, fixed pipe setting is in the inside of incubator main part, door and with flexible pipe position department of contacting, the one end of fixed pipe is provided with and stretches out flexible pipe outer wall assorted butt joint slotted hole, the inside one end that is located the butt joint slotted hole of fixed pipe is provided with the gas storehouse, the activity post is located the butt joint slotted hole inside and runs through to the gas storehouse and is connected with the activity stopper, reset spring is located the gas storehouse inside and is located the activity stopper and keeps away from the one end of activity post.

As a still further scheme of the utility model: the air duct is connected with the fixed pipe inside the incubator main body, the telescopic pipe inside the chamber door is connected with a plurality of fixed pipes inside the locking mechanism and a sealing air bag through connecting hoses, the telescopic pipe inside the chamber door is connected with a sealing air bag No. two through connecting hoses, the sealing air bag is mutually clamped with a sealing groove, and the sealing air bag No. two is mutually clamped with a sealing groove.

As a still further scheme of the utility model: the number of the culture bins is provided with a plurality of doors, the number of the bins is matched with the number of the culture bins, and the culture bins are provided with independent temperature control systems.

As a still further scheme of the utility model: the bottom end of the telescopic pipe is provided with a tooth socket, and the transmission tooth block is meshed with the tooth socket at the bottom end of the telescopic pipe.

As a still further scheme of the utility model: the gas storehouse is the toper structure, just the inner wall diameter that butt joint slotted hole one end was kept away from to the gas storehouse is greater than the inner wall diameter that is close to butt joint slotted hole one end, the outer wall diameter of activity stopper and the minimum inner wall diameter phase-match of gas storehouse, the inner wall terminal surface of butt joint slotted hole is provided with the venthole groove that runs through to the gas storehouse is inside, the outer wall terminal surface of flexible pipe) is provided with the air guide hole corresponding with the venthole groove.

Compared with the prior art, the utility model has the beneficial effects that:

1. different environments can be synchronously simulated by arranging the plurality of culture bins, so that the working efficiency of bacteria culture is effectively improved, the plurality of culture bins can be independently operated through the plurality of bin doors, the plurality of culture bins can be synchronously opened through the bin doors, the use of the main body of the culture box can be more flexible and convenient through the structure, the bin doors and the bin doors can be quickly opened and closed through the matching of the rotary knob, the connecting shaft, the transmission gear block, the telescopic pipes and the fixed pipes, and the working efficiency of the bacteria culture can be effectively improved through the matching of the plurality of parts;

2. through setting up the air duct external high-pressure air of joinable, high-pressure air passes through in the air chamber of air duct entering fixed intraduct, and through the vent groove, the air guide hole, coupling hose gets into the fixed pipe of chamber door inside and a sealed gasbag, the inner wall that a sealed gasbag can expand and a seal groove is closely laminated, thereby the leakproofness between chamber door and the incubator main part has been improved, and the high-pressure air that gets into the inside fixed pipe of chamber door can further carry to the inside sealed gasbag of No. two of door, make No. two sealed gasbags inflation closely laminate with No. two seal grooves, thereby the leakproofness between door and the chamber door has been improved, can effectively improve culture apparatus's overall leakproofness through the cooperation of a plurality of parts above.

Drawings

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

FIG. 2 is a schematic view of the connection between the door and the bin door according to the present invention;

FIG. 3 is a side view of the structure of the door and bin door of the present invention;

FIG. 4 is a cross-sectional view of the internal structure of the door of the present invention;

FIG. 5 is a structural cross-sectional view of the air guide mechanism of the present invention.

In the figure: 1. an incubator main body; 101. a culture bin; 102. a first sealing groove; 2. a box door; 201. a bin dividing port; 202. a second sealing groove; 3. a bin gate; 301. a transparent viewing window; 4. a locking mechanism; 401. rotating a knob; 402. a connecting shaft; 403. a transmission gear block; 404. a telescopic pipe; 5. an air guide mechanism; 501. a fixed tube; 5011. butt-jointing the slotted holes; 5012. a gas bin; 502. a movable post; 503. a movable plug; 504. a return spring; 6. an air duct; 7. a first sealing air bag; 8. and a second sealed air bag.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention based on its overall structure.

Referring to fig. 1 to 5, in an embodiment of the present invention, a constant temperature bacteria culture apparatus for detecting microorganisms in meat processing includes:

the incubator comprises an incubator body 1, wherein a plurality of incubation bins 101 are arranged in the incubator body 1, and a first sealing groove 102 is formed in the side surface of the outer wall of each incubation bin 101;

the incubator door 2 is rotatably connected to one side of the incubator main body 1, a bin dividing opening 201 is formed in the side face of the outer wall of the incubator door 2, and a second sealing groove 202 is formed in the side face of the outer wall of the bin dividing opening 201;

one end of the bin door 3 is rotatably connected with the upper end and the lower end of the bin dividing port 201 through a rotating shaft, the bin door 3 is sleeved with the inner wall of the bin dividing port 201, and a transparent observation window 301 is arranged on the side surface of the outer wall of the bin door 3;

the air duct 6 is arranged at one end of the outer wall of the incubator body 1, and penetrates into the incubator body 1;

the first sealing air bag 7 is arranged on one side of the box door 2, which is far away from the bin door 3, and penetrates into the box door 2;

the second sealing air bag 8 is arranged on one side, close to the box door 2, of the bin door 3, and penetrates into the bin door 3;

a plurality of locking mechanisms 4 are arranged, the locking mechanisms 4 are respectively arranged inside the box door 2 and the bin door 3 and are used for quickly connecting and fixing the box door 2 and the incubator main body 1 and the locking mechanisms 4 and the box door 2;

the number of the air guide mechanisms 5 is multiple, and the air guide mechanisms 5 are respectively arranged in the incubator main body 1 and the locking mechanism 4 and used for providing expansion power for the first sealing air bag 7 and the second sealing air bag 8.

Please refer to fig. 1-4, the locking mechanism 4 includes a rotating knob 401, a connecting shaft 402, a transmission gear block 403 and a telescopic tube 404, the telescopic tube 404 is respectively disposed on the door 2 and the door 3 and penetrates to one end of the door 2 and the outside of the door 3, the transmission gear block 403 is disposed inside the door 2 and the door 3 and near the bottom end of the telescopic tube 404, the connecting shaft 402 is disposed on one side of the transmission gear block 403 and penetrates to the outside side of the door 2 and the door 3 to be connected with the rotating knob 401, and the locking mechanism 4 can facilitate the rapid connection and fixation between the door 2 and the incubator main body 1, the door 3 and the door 2.

Please refer to fig. 4 to 5, the gas guide mechanism 5 includes a fixed tube 501, a movable post 502, a movable plug 503 and a return spring 504, the fixed tube 501 is disposed inside the incubator main body 1 and the door 3 and contacts with the extension tube 404, one end of the fixed tube 501 is provided with a docking slot 5011 matching with the outer wall of the extension tube 404, one end of the fixed tube 501 inside the docking slot 5011 is provided with a gas chamber 5012, the movable post 502 is disposed inside the docking slot 5011 and penetrates through the gas chamber 5012 to connect with the movable plug 503, the return spring 504 is disposed inside the gas chamber 5012 and is disposed at one end of the movable plug 503 far away from the movable post 502, the gas guide mechanism 5 can respectively provide expansion power for the first sealing airbag 7 and the second sealing airbag 8 under the condition that the door 2 is connected with the incubator main body 1 and the door 3 is connected with the incubator door 2, thereby increasing the distance between the incubator door 2 and the incubator main body 1, the door 2, the door 3 and the extension spring 504, The tightness between the bin door 3 and the bin door 2.

Please refer to fig. 1-4, the air duct 6 is connected to the fixed tube 501 inside the incubator main body 1, the telescopic tube 404 inside the chamber door 2 is connected to the fixed tubes 501 and the first air-tight bag 7 inside the locking mechanism 4 through the connection hose, the telescopic tube 404 inside the chamber door 3 is connected to the second air-tight bag 8 through the connection hose, the first air-tight bag 7 is engaged with the first sealing groove 102, and the second air-tight bag 8 is engaged with the second sealing groove 202, so that the expansion and contraction operations of the first air-tight bag 7 and the second air-tight bags 8 are independent and do not interfere with each other.

Please refer to fig. 1, the number of the cultivation bins 101 is plural, the number of the bin gates 3 matches with the number of the cultivation bins 101, the plurality of cultivation bins 101 are all provided with an independent temperature control system, and the synchronous simulation of a plurality of different environments can be realized through the plurality of cultivation bins 101, so that the growth conditions of bacteria under different environments can be observed conveniently, and the working efficiency of the bacteria cultivation can be effectively improved.

Please refer to fig. 4, the bottom end of the extension tube 404 is provided with a tooth socket, the transmission tooth block 403 is engaged with the tooth socket at the bottom end of the extension tube 404, and the transmission gear 403 can drive the extension tube 404 to move horizontally when rotating.

Please refer to fig. 5, the air chamber 5012 is a cone-shaped structure, and the diameter of the inner wall of the air chamber 5012 at the end far away from the docking slot 5011 is larger than the diameter of the inner wall of the end near the docking slot 5011, the diameter of the outer wall of the movable plug 503 is matched with the diameter of the smallest inner wall of the air chamber 5012, the end face of the inner wall of the docking slot 5011 is provided with a vent slot penetrating to the inside of the air chamber 5012, and the end face of the outer wall of the telescopic tube 404 is provided with an air guide hole corresponding to the vent slot, so that the movable block 503 can be connected and disconnected between the air chamber 5012 and the docking slot 5011 when moving.

The working principle of the utility model is as follows: when the bacteria constant-temperature culture device for detecting microorganisms in meat processing is used, bacteria culture dishes to be cultured can be placed in each culture bin 101, then the box door 2 can be closed, in the process, the rotary knob 401 can be rotated firstly, the rotary knob 401 can drive the telescopic pipe 404 to retract into the box door 2 through the matching of the connecting shaft 402 and the transmission gear 403, then the box door 2 is rotated to be mutually closed with the incubator main body 1, at the moment, the rotary knob 401 is rotated reversely, the telescopic pipe 404 moves towards the outside of the box door 2 and is inserted into the incubator main body 1, the telescopic pipe 404 is contacted with the fixed pipe 5011 in the incubator main body 1 and is inserted into the butt-joint slot 5011, the telescopic pipe 404 can extrude the movable column 502, the movable column 502 can push the movable plug to move and extrude the return spring 504, namely, the air bin 503 is communicated with the butt-joint slot 5012, and the butt joint slotted hole 5012 is aligned with the air guide hole on the extension tube 404, the connection and fixation between the incubator door 2 and the main incubator body 1 can be realized by the mutual clamping between the extension tube 404 and the butt joint slotted hole 5011, in addition, the connection and fixation steps between the chamber door 3 and the chamber door 2 are the same as the above steps, then the outside high-pressure air is connected through the air duct 6, the high-pressure air enters the air chamber 5012 inside the fixed tube 501 through the air duct 6 and enters the fixed tube 501 and the first sealing air bag 7 inside the chamber door 2 through the air duct groove, the air guide hole and the connecting hose, the first sealing air bag 7 expands to be tightly attached to the inner wall of the first sealing groove 102, thereby improving the sealing performance between the chamber door 2 and the main incubator body 1, and the high-pressure air entering the fixed tube 501 inside the chamber door 2 can be further conveyed to the second sealing air bag 8 inside the chamber door 3, so that the second sealing air bag 8 expands to be tightly attached to the second sealing groove 202, thereby improved the leakproofness between door 3 and chamber door 2, later can carry out data set to each cultivation storehouse 101 as required to simulate different environment, when needs carry out the culture dish to single cultivation storehouse 101 and take or place the operation, only need rotate rotation knob 401 on the corresponding door 3, can realize the quick opening and the closing operation that corresponds door 3.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (7)

1. The utility model provides a meat processing is bacterium constant temperature culture apparatus for microbial detection which characterized in that includes:

the incubator comprises an incubator main body (1), wherein a plurality of incubation bins (101) are arranged in the incubator main body (1), and a first sealing groove (102) is formed in the side surface of the outer wall of each incubation bin (101);

the incubator door (2) is rotatably connected to one side of the incubator main body (1), a bin dividing opening (201) is formed in the side face of the outer wall of the incubator door (2), and a second sealing groove (202) is formed in the side face of the outer wall of the bin dividing opening (201);

one end of the bin door (3) is rotatably connected with the upper end and the lower end of the bin dividing port (201) through a rotating shaft, the bin door (3) is sleeved with the inner wall of the bin dividing port (201), and a transparent observation window (301) is arranged on the side surface of the outer wall of the bin door (3);

the air guide pipe (6) is arranged at one end of the outer wall of the incubator main body (1) and penetrates into the incubator main body (1);

the first sealing air bag (7) is arranged on one side, away from the bin gate (3), of the box gate (2) and penetrates into the box gate (2);

the second sealing air bag (8) is arranged on one side, close to the box door (2), of the box door (3) and penetrates into the box door (3);

the number of the locking mechanisms (4) is multiple, the locking mechanisms (4) are respectively arranged inside the box door (2) and the bin door (3) and used for quickly connecting and fixing the box door (2) and the incubator main body (1) and the locking mechanisms (4) and the box door (2);

the air guide mechanism (5), the quantity of air guide mechanism (5) is provided with a plurality ofly, and is a plurality of air guide mechanism (5) set up respectively in incubator main part (1) and locking mechanism (4) inside for provide inflation power to No. one sealed gasbag (7) and No. two sealed gasbags (8).

2. The constant-temperature bacterium culture device for detecting the microorganisms in meat processing according to claim 1, wherein the locking mechanism (4) comprises a rotating knob (401), a connecting shaft (402), a transmission gear block (403) and an extension tube (404), the extension tube (404) is respectively provided with the box door (2) and the box door (3) and penetrates through one end of the outer part of the box door (2) and one end of the outer part of the box door (3), the transmission gear block (403) is positioned in the box door (2) and the box door (3) and is close to the bottom end of the extension tube (404), the connecting shaft (402) is positioned on one side of the transmission gear block (403) and penetrates through the outer side surface of the box door (2) and the outer side surface of the box door (3) to be connected with the rotating knob (401).

3. The isothermal bacterial culture device for detecting microorganisms in meat processing according to claim 2, it is characterized in that the air guide mechanism (5) comprises a fixed pipe (501), a movable column (502), a movable plug (503) and a return spring (504), the fixed pipe (501) is arranged in the incubator body (1) and the door (3) and is contacted with the telescopic pipe (404), one end of the fixed pipe (501) is provided with a butt joint slotted hole (5011) matched with the outer wall of the telescopic pipe (404), one end of the fixing pipe (501) positioned in the butt joint slotted hole (5011) is provided with an air bin (5012), the movable column (502) is positioned in the butt joint slotted hole (5011) and penetrates through the air bin (5012) to be connected with the movable plug (503), the return spring (504) is positioned in the air bin (5012) and is positioned at one end, far away from the movable column (502), of the movable plug (503).

4. The bacteria constant-temperature culture device for detecting the microorganisms in the meat processing according to claim 3, wherein the air duct (6) is connected with a fixed pipe (501) in the incubator main body (1), a telescopic pipe (404) in the chamber door (2) is connected with a plurality of fixed pipes (501) and a first sealing air bag (7) in the locking mechanism (4) through connecting hoses, the telescopic pipe (404) in the chamber door (3) is connected with a second sealing air bag (8) through connecting hoses, the first sealing air bag (7) is mutually clamped with a first sealing groove (102), and the second sealing air bag (8) is mutually clamped with a second sealing groove (202).

5. The constant-temperature culture device for detecting the microorganisms in the meat processing according to claim 1, wherein a plurality of culture bins (101) are provided, the number of the bin gates (3) is matched with the number of the culture bins (101), and the plurality of culture bins (101) are provided with independent temperature control systems.

6. The constant-temperature bacteria culture device for detecting the microorganisms in meat processing as claimed in claim 2, wherein the bottom end of the telescopic pipe (404) is provided with a toothed slot, and the transmission toothed block (403) is meshed with the toothed slot at the bottom end of the telescopic pipe (404).

7. The constant-temperature bacteria culture device for detecting the microorganisms in meat processing according to claim 3, wherein the gas cabin (5012) is of a conical structure, the diameter of the inner wall of one end, far away from the butt-joint slotted hole (5011), of the gas cabin (5012) is larger than that of the inner wall of one end, close to the butt-joint slotted hole (5011), of the gas cabin (5012), the diameter of the outer wall of the movable plug (503) is matched with the diameter of the smallest inner wall of the gas cabin (5012), the end face of the inner wall of the butt-joint slotted hole (5011) is provided with a vent hole groove penetrating into the gas cabin (5012), and the end face of the outer wall of the extension tube (404) is provided with a gas guide hole corresponding to the vent hole groove.

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