KR101752667B1

KR101752667B1 - Microbial culture medium division system

Info

Publication number: KR101752667B1
Application number: KR1020160030449A
Authority: KR
Inventors: 이완섭
Original assignee: 이완섭
Priority date: 2016-03-14
Filing date: 2016-03-14
Publication date: 2017-06-30

Abstract

According to the present invention,
The microbial culture control unit 130 is installed to be interlocked between the input side of the type of microorganism culture liquid and a plurality of storage tanks 30,32 and 34 so that the kind of microbial culture liquid is injected into the plurality of storage tanks 30,32 and 34 under the control of the microbial distribution control unit 130 A plurality of injection valves (25, 12-1, 12, 21, 22) for controlling the injection valves;
A plurality of discharge motors (1, 2, 3) for receiving and discharging the kind of microbial culture liquid provided from the plurality of reservoir tanks (30, 32, 34) through a pipe;
A plurality of discharge valves (7, 8, 9) for passing the kind of microbial culture liquid supplied from the plurality of discharge motors (1, 2, 3) through a pipe;
A plurality of recovery valves (4, 5, 6) connected to discharge ends of the plurality of discharge motors (1, 2, 3);
A plurality of remaining amount sensors (18, 19, 20) for sensing the remaining amount of microbial culture liquid in each of the plurality of reservoir tanks (30, 32, 34);
A reintroduction drain motor (13) for discharging the recovered microorganism culture liquid in the recovery tank (36) for reintroduction;
The microorganism culture liquid recovered in the plurality of reservoir tanks (30, 32, 34) is interposed between the discharge side of the rechargeable drain motor (13) and the plurality of reservoir tanks (30, 32, 34) A plurality of reclosing valves (10, 11, 23) for controlling the recirculation valves;
A plurality of liquid flow sensors (40, 42, 44, 46) for sensing an input side liquid flow of the plurality of discharge motors (1, 2, 3) and a discharge side liquid flow of the reintroduction drain motor (13);
A plurality of drain valves (15, 16, 17, 26) provided at the lower ends of the plurality of reservoir tanks (30, 32, 34) and the recovery tank (36)
A plurality of drain motors (202, 212, 222) for receiving and discharging the kind of microbial culture liquid provided from the plurality of discharge valves (7, 8, 9) through a pipe;
A plurality of valves (204, 214, 224) for passing through a tube a microorganism culture solution for each kind discharged by the plurality of drain motors (202, 212, 222);
A plurality of final discharge valves (400, 410, 420) through which the microbial culture solution for each kind provided by the plurality of valves (204, 214, 224) is passed through the tube;
A plurality of flow sensors (206, 216, 226) sensing a flow rate of the plurality of final discharge valves (400, 410, 420);
A microbial distribution subject information storage unit 140 storing the amount and type of microbial culture liquid to be dispensed and discharged for each microbial distribution subject;
An RFID reader (120) for reading the identifier information stored in the RFID tag (100) when the RFID tag (100) storing an identifier corresponding to a specific microorganism distribution subject is close; And
And when the remaining amount of the plurality of remaining amounts is equal to or less than the predetermined remaining amount, the corresponding one of the plurality of recovery valves (4, 5, 6) is opened and the plurality of discharge valves The discharge valve is closed so that the microbial culture liquid discharged from the plurality of discharge motors 1, 2 and 3 is discharged to the recovery tank 36. The plurality of discharge valves 25, (12, 12, 21, 22) and controls the cleaning drain motor (14) for supplying the cleaning water so that the cleaning water supplied by the cleaning drain motor (14) 1, 12, 21, 22 to the corresponding water storage tank so that the water storage tank is washed, and the corresponding drain valve of the plurality of drain valves 15, 16, 17, 26 is opened, And then the re-charging drain motor 13 and the re- The microorganism culture liquid recovered in the recovery tank 36 controls the driving of the plurality of re-introduction valves 10, 11 and 23 so that the liquid for sensing the flow of the liquid through the re- The cleaning water discharge motor 14 is controlled so that the flow sensor 46 is reintroduced until it can not detect the liquid flow and the recovery tank 36 is controlled by the cleaning water supplied by the cleaning drain motor 14. [ 216, and 226 after the washing water in the recovery tank 36 is washed out by opening corresponding drain valves of the plurality of drain valves 15, 16, 17, The microbial distribution target person information storage unit 140 stores the microbial distribution target person corresponding to the identifier provided from the RFID reader 120 in the microbial distribution target person information storage unit 140, To check , Selectively controlling the driving of the plurality of drain motors (202, 212, 222), the plurality of valves (204, 214, 224) and the plurality of final discharge valves (400, 410, 420) A microbial distribution controller (130) for selectively distributing the microbial culture fluid of each kind provided from the plurality of discharge valves (7, 8, 9) through the plurality of final discharge valves (400, 410, 420);
And a control unit.

Description

[0001] The present invention relates to a microbial culture medium division system,

The present invention relates to a microbial culture fluid distribution system.

Generally, in order to prevent and treat livestock diseases or to promote the growth of livestock, various types of microbial culture liquids are distributed to a predetermined container at the headquarters of the agricultural technology center in the livestock farms. Therefore, There is a problem in that it is very inconvenient to distribute the microorganism culture liquid in the livestock farmhouse when the distance to the culture liquid distribution site is long. At this time, a variety of microorganism cultures are produced at the headquarters of the Agricultural Technology Center.

Therefore, in order to solve the problem of distances from the farmhouse to the location of the microbial culture, it is necessary to provide the microbial culture facility to the microbial culture facility in order to distribute the microbial culture liquid. It is very costly and time consuming. Therefore, there is a need to solve this problem.

In addition, the Agricultural Technology Center, which distributes the microbial culture fluid, has a disadvantage in that the labor force is wasted because the labor for distributing the microbial culture fluid must be separately disposed.

In order to solve this problem, a microorganism storage facility such as a mobile container is installed in a municipal unit, and the microbial culture produced in the main building is filled through the tank lorry of the vehicle, It will be very easy and quick for the livestock farmers to distribute the microbial culture.

Related Prior Art Document Information: Registered Patent Publication No. 10-1356702 (Published February 03, 2014) "Automatic supply system of microbial fluid"

The present invention has been devised in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method for preventing and treating diseases of livestock in a livestock farm or a plurality of reservoir tanks containing microbial culture liquids necessary for livestock growth promotion, A plurality of drain motors, a plurality of valves, and a plurality of final discharge valves, so that the microorganism culture liquid is automatically discharged and distributed.

In order to achieve this object,

According to an aspect of the present invention,

The microbial culture control unit 130 is installed to be interlocked between the input side of the type of microorganism culture liquid and a plurality of storage tanks 30,32 and 34 so that the kind of microbial culture liquid is injected into the plurality of storage tanks 30,32 and 34 under the control of the microbial distribution control unit 130 A plurality of injection valves (25, 12-1, 12, 21, 22) for controlling the injection valves;

A plurality of discharge motors (1, 2, 3) for receiving and discharging the kind of microbial culture liquid provided from the plurality of reservoir tanks (30, 32, 34) through a pipe;

A plurality of discharge valves (7, 8, 9) for passing the kind of microbial culture liquid supplied from the plurality of discharge motors (1, 2, 3) through a pipe;

A plurality of recovery valves (4, 5, 6) connected to discharge ends of the plurality of discharge motors (1, 2, 3);

A plurality of remaining amount sensors (18, 19, 20) for sensing the remaining amount of microbial culture liquid in each of the plurality of reservoir tanks (30, 32, 34);

A reintroduction drain motor (13) for discharging the recovered microorganism culture liquid in the recovery tank (36) for reintroduction;

The microorganism culture liquid recovered in the plurality of reservoir tanks (30, 32, 34) is interposed between the discharge side of the rechargeable drain motor (13) and the plurality of reservoir tanks (30, 32, 34) A plurality of reclosing valves (10, 11, 23) for controlling the recirculation valves;

A plurality of liquid flow sensors (40, 42, 44, 46) for sensing an input side liquid flow of the plurality of discharge motors (1, 2, 3) and a discharge side liquid flow of the reintroduction drain motor (13);

A plurality of drain valves (15, 16, 17, 26) provided at the lower ends of the plurality of reservoir tanks (30, 32, 34) and the recovery tank (36)

A plurality of drain motors (202, 212, 222) for receiving and discharging the kind of microbial culture liquid provided from the plurality of discharge valves (7, 8, 9) through a pipe;

A plurality of valves (204, 214, 224) for passing through a tube a microorganism culture solution for each kind discharged by the plurality of drain motors (202, 212, 222);

A plurality of final discharge valves (400, 410, 420) through which the microbial culture solution for each kind provided by the plurality of valves (204, 214, 224) is passed through the tube;

A plurality of flow sensors (206, 216, 226) sensing a flow rate of the plurality of final discharge valves (400, 410, 420);

A microbial distribution subject information storage unit 140 storing the amount and type of microbial culture liquid to be dispensed and discharged for each microbial distribution subject;

An RFID reader (120) for reading the identifier information stored in the RFID tag (100) when the RFID tag (100) storing an identifier corresponding to a specific microorganism distribution subject is close; And

And when the remaining amount of the plurality of remaining amounts is equal to or less than the predetermined remaining amount, the corresponding one of the plurality of recovery valves (4, 5, 6) is opened and the plurality of discharge valves The discharge valve is closed so that the microbial culture liquid discharged from the plurality of discharge motors 1, 2 and 3 is discharged to the recovery tank 36. The plurality of discharge valves 25, (12, 12, 21, 22) and controls the cleaning drain motor (14) for supplying the cleaning water so that the cleaning water supplied by the cleaning drain motor (14) 1, 12, 21, 22 to the corresponding water storage tank so that the water storage tank is washed, and the corresponding drain valve of the plurality of drain valves 15, 16, 17, 26 is opened, And then the re-charging drain motor 13 and the re- The microorganism culture liquid recovered in the recovery tank 36 controls the driving of the plurality of re-introduction valves 10, 11 and 23 so that the liquid for sensing the flow of the liquid through the re- The cleaning water discharge motor 14 is controlled so that the flow sensor 46 is reintroduced until it can not detect the liquid flow and the recovery tank 36 is controlled by the cleaning water supplied by the cleaning drain motor 14. [ 216, and 226 after the washing water in the recovery tank 36 is washed out by opening corresponding drain valves of the plurality of drain valves 15, 16, 17, The microbial distribution target person information storage unit 140 stores the microbial distribution target person corresponding to the identifier provided from the RFID reader 120 in the microbial distribution target person information storage unit 140, To check , Selectively controlling the driving of the plurality of drain motors (202, 212, 222), the plurality of valves (204, 214, 224) and the plurality of final discharge valves (400, 410, 420) A microbial distribution controller (130) for selectively distributing the microbial culture fluid of each kind provided from the plurality of discharge valves (7, 8, 9) through the plurality of final discharge valves (400, 410, 420);

And a control unit.

The washing water supplied by the washing drain motor 14 is a mixture of washing water supplied from the tank washing tub 27 and washing chemicals provided from the washing tank 28,

The cleaning agent provided from the cleaning agent container 28 is provided through the cleaning agent valve 29 under the control of the microbial distribution controller 130.

The microbial distribution controller 130 displays the remaining amount of the dispensed amount assigned to the user on the display unit 150,

It is possible to input the identifier information stored in the RFID tag 100 to the microorganism distribution controller 130 through the key input of the key input unit 110 so that even if the user does not carry the RFID tag 100, The identifier information stored in the RFID tag 100 can be input to the microorganism distribution controller 130. [

The washing water supplied from the washing tub 300 is passed through each tube and passed through the tubes to the tube between the plurality of drain valves 7, 8, 9 and the plurality of drain motors 202, 212, 222, respectively And further includes a plurality of cleaning valves 310, 320, and 330 that are controlled by the microbial distribution controller 130 to control the microbial distribution controller 130.

The present invention is characterized in that a plurality of reservoir tanks for each kind of microbial culture liquid necessary for prevention and treatment of diseases of livestock in livestock farms or the like or for promoting the growth of livestock are divided into a plurality of discharge motors 1, 2 and 3, a plurality of discharge valves 7, The microbial culture fluid is selectively opened by controlling the plurality of drain motors 202, 212 and 222, the plurality of valves 204, 214 and 224 and the plurality of final discharge valves 400, 410 and 420, So that it is very convenient to distribute the microbial culture liquid in the livestock farm or the like.

1 is a block diagram showing a configuration for discharging a microbial culture liquid in a plurality of reservoir tanks in which a microbial culture liquid is classified according to a microbial culture liquid dispensing system according to the present invention.
FIG. 2 is a block diagram showing a configuration for final discharge of a microbial culture liquid discharged according to FIG. 1 in a microbial culture liquid dispensing system according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a configuration for discharging a microbial culture liquid from a plurality of reservoir tanks 30, 32, and 34 in which a microbial culture liquid is classified according to the microbial culture liquid dispensing system according to the present invention. 1 is a block diagram showing a configuration for final discharge of a microbial culture liquid discharged according to FIG. 1 in a distribution system; FIG.

Hereinafter, the present invention will be described in detail.

1 and 2, first, the plurality of inlet valves 25, 12-1, 12, 21, and 22 are installed so as to be interlocked between the inlet side of the kind of microorganism culture liquid and the plurality of reservoir tanks 30, 32 and 34 under the control of the microbial distribution control unit 130 shown in FIG. 2 to control the introduction of the microbial culture liquids into the plurality of storage tanks 30, 32, and 34, respectively.

The plurality of discharge motors (1, 2, 3) receives and discharges the kind of microbial culture liquid provided from the plurality of reservoir tanks (30, 32, 34) through a pipe.

The plurality of discharge valves 7, 8, and 9 allow the microbial culture liquid for each kind provided from the plurality of discharge motors 1, 2, and 3 to pass through the tube.

The plurality of recovery valves 4, 5, 6 are connected to the discharge ends of a plurality of discharge motors 1, 2, 3, respectively.

The plurality of remaining amount sensors 18, 19, and 20 detect the remaining amount of the microbial culture liquid in each of the plurality of reservoir tanks 30, 32, and 34.

The re-feed drain motor 13 discharges the recovered microorganism culture liquid in the recovery tank 36 for re-introduction.

The plurality of reloading valves 10, 11 and 23 are provided so as to be interlocked between the discharge side of the reintroduction drainage motor 13 and the plurality of reservoir tanks 30, 32 and 34, So that the microbial culture liquid recovered in the microbial culture is reintroduced.

A plurality of liquid flow sensors (40, 42, 44, 46) sense the liquid flow on the input side of the plurality of discharge motors (1,2,3) and the liquid flow on the discharge side of the re-

The plurality of drain valves 15, 16, 17 and 26 are provided at the lower ends of the plurality of reservoir tanks 30, 32 and 34 and the recovery tank 36 to connect the reservoir tanks 30, 32 and 34, .

The plurality of drain motors 202, 212, and 222 receive and discharge the kind of microbial culture liquid provided from the plurality of discharge valves 7, 8, and 9 through the pipe.

The plurality of valves 204, 214, and 224 allow the microbial culture liquid for each type discharged by the plurality of drain motors 202, 212, and 222 to pass through the tube.

The plurality of final discharge valves 400, 410, and 420 receive the microbial culture liquid by the plurality of valves 204, 214, and 224 through the tubes.

The plurality of flow sensors 206, 216, and 226 senses a flow rate as a plurality of final discharge valves 400, 410, and 420 discharge.

The microorganism distribution subject information storage unit 140 stores the amount and kind of microorganism culture liquid to be dispensed and discharged for each microorganism distribution subject.

The RFID reader 120 reads the identifier information stored in the RFID tag 100 when the RFID tag 100 storing the identifier corresponding to the specific microorganism distribution subject is close.

The microbial distribution controller 130 opens the corresponding one of the plurality of recovery valves 4, 5 and 6 when the residual amount detection signal is received from the plurality of remaining amount sensors 18, 19 and 20, The corresponding discharge valve of the plurality of discharge valves 7, 8 and 9 is closed so that the microbial culture liquid discharged by the discharge motor of the discharge motors 1, 2 and 3 is recovered to the recovery tank 36, 25, 12-1, 12, 21, 22, and controls the cleaning drain motor 14 for supplying the cleaning water so that the cleaning water supplied by the cleaning drain motor 14 is supplied to the plurality of the inlet valves 25, 12 1, 12, 21, 22 to the corresponding water storage tank so that the water storage tank is washed and the corresponding drain valve of the plurality of drain valves 15, 16, 17, 26 is opened, After the water is drained, a re-charging drain motor 13 and a plurality of re-charging valves 10, 11 and 23 to control the flow of the recovered microbial culture liquid in the recovery tank 36 to the reservoir tank to sense the flow of the liquid through the drain motor 13 for re- The drainage motor 14 is controlled to wash the recovery tank 36 with the cleaning water supplied by the cleaning drainage motor 14 and the drainage valves 15, 16, 17, 26, the corresponding drainage valve is opened to allow the washing water in the washed recovery tank 36 to be discharged, and then the flow rate sensing signal provided from the plurality of flow rate sensors 206, 216, 226 is input to the key input of the key input unit 110 The type of the microorganism culture liquid is selected and the microorganism distribution subject information storage unit 140 confirms the microorganism distribution subject corresponding to the identifier provided from the RFID reader 120 and a plurality of drain motors 202 , 212, 222, A plurality of types of microbial culture liquids provided from the plurality of discharge valves 7, 8 and 9 are selectively supplied to the plurality of final discharge valves 400, 410, and 420 by selectively controlling driving of the plurality of valves 204, 214, 400, 410, and 420, respectively.

Here, the wash water supplied by the wash drain motor 14 is a mixture of the wash water supplied from the tank washing tub 27 and the wash water supplied from the wash tank 28, and the washing solution supplied from the wash tank 28 And is supplied through the cleaning agent valve 29 under the control of the microbial distribution control part 130. [

The microbial distribution control unit 130 displays the remaining amount of the withdrawal amount allocated to the user in the display unit 150 so that the microbial distribution control unit 130 can view the remaining amount.

The plurality of cleaning valves 310, 320, and 330 are driven under the control of the microbial distribution controller 130 to receive washing water supplied from the washing tub 300 through each of the tubes, and a plurality of discharge valves 7, 8, 9 and a plurality of drain motors 202, 212, At this time, the washing water supplied from the washing tub 300 is mixed with a detergent and preferably has a temperature of 90 ° C or higher.

The key input unit 110 may be implemented as a touch-type monitor capable of key input by a touch method.

The user can input the identifier information stored in the RFID tag 100 to the microbial distribution controller 130 through the key input of the key input unit 110 when the RFID tag 100 is not carried.

Instead of or in addition to the RFID reader 120, an image recognition device may be installed to recognize the face of the user, so that the microorganism distribution controller 130 may input identifier information corresponding to the user's action.

The microbial distribution controller 130 may display the 'use method of the microbial culture liquid distribution system' and 'use of the microbial culture liquid for each type' for the user for the first time to the user.

A facility for spraying steam from the nozzles can be installed to allow the user to clean the container for farmhouses and the like.

The user can purchase the desired microorganism culture through card and mobile settlement within the allocated withdrawal amount, install a door, and install a timer so that the microbial culture can be withdrawn only for a certain period of time.

In the present invention, a plurality of reservoir tanks for each kind of microbial culture liquid necessary for prevention and treatment of diseases of livestock or the like for livestock growth promotion are included in a plurality of discharge motors 1, 2 and 3, a plurality of discharge valves 7 The microbial culture fluid is selectively opened by controlling the plurality of drain motors 202, 212 and 222, the plurality of valves 204, 214 and 224 and the plurality of final discharge valves 400, 410 and 420, So that it is very convenient to distribute the microorganism culture liquid in the livestock farms and the like.

In addition, the Agricultural Technology Center that distributes the microorganism culture liquid also has an advantage that labor is not wasted because it is not necessary to dispose manpower for distributing microorganism culture liquid separately.

Meanwhile, when the microbial culture liquid distributing system according to the present invention is installed in a container and loaded on a truck, the microbial culture liquid distributing system is freely moved so that the truck can be visited at the livestock farming house. Easy and fast.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

Claims

The microbial culture control unit 130 is installed to be interlocked between the input side of the type of microorganism culture liquid and a plurality of storage tanks 30,32 and 34 so that the kind of microbial culture liquid is injected into the plurality of storage tanks 30,32 and 34 under the control of the microbial distribution control unit 130 A plurality of injection valves (25, 12-1, 12, 21, 22) for controlling the injection valves;
A plurality of discharge motors (1, 2, 3) for receiving and discharging the kind of microbial culture liquid provided from the plurality of reservoir tanks (30, 32, 34) through a pipe;
A plurality of discharge valves (7, 8, 9) for passing the kind of microbial culture liquid supplied from the plurality of discharge motors (1, 2, 3) through a pipe;
A plurality of recovery valves (4, 5, 6) connected to discharge ends of the plurality of discharge motors (1, 2, 3);
A plurality of remaining amount sensors (18, 19, 20) for sensing the remaining amount of microbial culture liquid in each of the plurality of reservoir tanks (30, 32, 34);
A reintroduction drain motor (13) for discharging the recovered microorganism culture liquid in the recovery tank (36) for reintroduction;
The microorganism culture liquid recovered in the plurality of reservoir tanks (30, 32, 34) is interposed between the discharge side of the rechargeable drain motor (13) and the plurality of reservoir tanks (30, 32, 34) A plurality of reclosing valves (10, 11, 23) for controlling the recirculation valves;
A plurality of liquid flow sensors (40, 42, 44, 46) for sensing an input side liquid flow of the plurality of discharge motors (1, 2, 3) and a discharge side liquid flow of the reintroduction drain motor (13);
A plurality of drain valves (15, 16, 17, 26) provided at the lower ends of the plurality of reservoir tanks (30, 32, 34) and the recovery tank (36)
A plurality of drain motors (202, 212, 222) for receiving and discharging the kind of microbial culture liquid provided from the plurality of discharge valves (7, 8, 9) through a pipe;
A plurality of valves (204, 214, 224) for passing through a tube a microorganism culture solution for each kind discharged by the plurality of drain motors (202, 212, 222);
A plurality of final discharge valves (400, 410, 420) through which the microbial culture solution for each kind provided by the plurality of valves (204, 214, 224) is passed through the tube;
A plurality of flow sensors (206, 216, 226) sensing a flow rate of the plurality of final discharge valves (400, 410, 420);
A microbial distribution subject information storage unit 140 storing the amount and type of microbial culture liquid to be dispensed and discharged for each microbial distribution subject;
An RFID reader (120) for reading the identifier information stored in the RFID tag (100) when the RFID tag (100) storing an identifier corresponding to a specific microorganism distribution subject is close; And
And when the remaining amount of the plurality of remaining amounts is equal to or less than the predetermined remaining amount, the corresponding one of the plurality of recovery valves (4, 5, 6) is opened and the plurality of discharge valves The discharge valve is closed so that the microbial culture liquid discharged from the plurality of discharge motors 1, 2 and 3 is discharged to the recovery tank 36. The plurality of discharge valves 25, (12, 12, 21, 22) and controls the cleaning drain motor (14) for supplying the cleaning water so that the cleaning water supplied by the cleaning drain motor (14) 1, 12, 21, 22 to the corresponding water storage tank so that the water storage tank is washed, and the corresponding drain valve of the plurality of drain valves 15, 16, 17, 26 is opened, And then the re-charging drain motor 13 and the re- The microorganism culture liquid recovered in the recovery tank 36 controls the driving of the plurality of re-introduction valves 10, 11 and 23 so that the liquid for sensing the flow of the liquid through the re- The cleaning water discharge motor 14 is controlled so that the flow sensor 46 is reintroduced until it can not detect the liquid flow and the recovery tank 36 is controlled by the cleaning water supplied by the cleaning drain motor 14. [ 216, and 226 after the washing water in the recovery tank 36 is washed out by opening corresponding drain valves of the plurality of drain valves 15, 16, 17, The microbial distribution target person information storage unit 140 stores the microbial distribution target person corresponding to the identifier provided from the RFID reader 120 in the microbial distribution target person information storage unit 140, To check , Selectively controlling the driving of the plurality of drain motors (202, 212, 222), the plurality of valves (204, 214, 224) and the plurality of final discharge valves (400, 410, 420) A microbial distribution controller (130) for selectively distributing the microbial culture fluid of each type provided from the plurality of discharge valves (7, 8, 9) through the plurality of final discharge valves (400, 410, 420);
Wherein the microbial culture fluid dispensing system comprises:

The method according to claim 1,
The washing water supplied by the washing drain motor 14 is a mixture of washing water supplied from the tank washing tub 27 and washing chemicals provided from the washing tank 28,
Wherein the cleaning agent provided from the cleaning container (28) is provided through a cleaning agent valve (29) under the control of the microbial distribution controller (130).

The method according to claim 1,
The microbial distribution controller 130 displays the remaining amount of the dispensed amount assigned to the user on the display unit 150,
It is possible to input the identifier information stored in the RFID tag 100 to the microorganism distribution controller 130 through the key input of the key input unit 110 so that even if the user does not carry the RFID tag 100, And the identifier information stored in the RFID tag (100) is input to the microbial distribution controller (130).

The method according to claim 1,
The washing water supplied from the washing tub 300 is passed through each tube and passed through the tubes to the tube between the plurality of drain valves 7, 8, 9 and the plurality of drain motors 202, 212, 222, respectively Further comprising a plurality of cleaning valves (310, 320, 330) controlled under control of the microbial distribution controller (130).