JP2021129698A - Washing method, system, program, recording medium, and washing device - Google Patents

Abstract

To reduce a work load on an operator by automatizing processing liquid replacement in response to function deterioration of processing liquid in which objects to be washed are immersed.SOLUTION: A washing method that includes an immersion process for immersing an object to be washed in processing liquid 16 before a washing process using a washing machine for washing the object to be washed 14 including dishes includes: a process for causing a stand-by tank disposed side by side with an immersion tank 8 to await the processing liquid; a process for immersing the object to be washed in the processing liquid; a process for acquiring a counted value Nd or an accumulated value of the immersion time Td of the object to be washed to be immersed in the processing liquid; and a process for discarding a part or all of the used processing liquid from the immersion tank 8 when the accumulated value exceeds a threshold, and replacing it with the processing unit in stand-by in the stand-by tank.SELECTED DRAWING: Figure 1

Description

The present invention relates to, for example, a cleaning technique for immersing an object to be cleaned such as tableware in a treatment liquid at a stage before automatic cleaning.

Regarding the cleaning of dirty dishes and other objects to be cleaned, it is recommended to immerse the object to be cleaned in the treatment liquid before automatic cleaning, remove the dirt from the object to be cleaned, and then shift to automatic cleaning in order to improve the cleaning efficiency. It is valid.
Regarding the washing of tableware, etc., it is equipped with a dipping tank, a washing room, a transport means, and a washing water injection mechanism. It is disclosed that the dishes in the tableware basket are washed by spraying (for example, Patent Document 1).
It is disclosed that a conveyor mechanism, a basket, an elevator mechanism, an immersion tank, and the like are provided to reduce the frequency of stacking tableware (for example, Patent Document 2).
It is disclosed that a system is provided in which a food basket dipping device, a transfer device, a washing device, an organizing device, a transport conveyor, etc. are provided, the tableware is transferred to a standby tableware basket, and the tableware basket containing the tableware is automatically transferred. (For example, Patent Document 3).

Japanese Unexamined Patent Publication No. 2013-11117 Japanese Unexamined Patent Publication No. 10-108816 Japanese Unexamined Patent Publication No. 11-21604

By the way, an object to be washed such as tableware after eating and drinking is automatically washed by a washing machine, and a pre-washing step of immersing the object to be washed in a treatment liquid is preceded before this automatic washing step. In such a step, by immersing the object to be cleaned in the immersion tank, dirt such as oil and rice can be lifted from the object to be cleaned, and the cleaning function can be enhanced. Then, the operator takes out the objects to be cleaned from the immersion tank, arranges them in a basket, puts them in the washing machine, and automatically cleans them by the washing machine.
The object to be cleaned is manually taken out from the immersion tank, and the work load is large. In addition to this, if dirt remains on the object to be cleaned taken out from the immersion tank, it emits a foul odor and the like, which causes a problem that the working environment is deteriorated and the load on the operator is large.
It is important to manage the replacement of the treatment liquid in order to improve the removability of dirt from the object to be cleaned. Regarding this exchange management, there is a problem that the work load is further increased if the exchange management of the treatment liquid is manually performed.
The inventor can reduce the burden on the operator by automating the generation and replacement of the treatment liquid corresponding to the treatment of the object to be cleaned, and also improve the removal of dirt from the object to be cleaned and contribute to the improvement of the working environment. I got the finding that I would get it.
Therefore, an object of the present invention is to reduce the work load on the operator by automating the replacement of the treatment liquid in response to the functional deterioration of the treatment liquid for immersing the object to be cleaned, in view of the above problems and the above findings. be.

In order to achieve the above object, according to one aspect of the cleaning method of the present invention, a dipping step of immersing the object to be cleaned in a treatment liquid before the cleaning step using a washing machine for cleaning the object to be cleaned including tableware. A step of making the treatment liquid stand by in a waiting tank attached to the immersion tank, a step of immersing the object to be cleaned in the treatment liquid of the immersion tank, and a step of immersing the object to be cleaned in the treatment liquid. The step of acquiring the count value of the object to be cleaned or the cumulative value of the immersion time, and when the cumulative value exceeds the threshold value, a part or all of the used treatment liquid is discarded from the immersion tank, and the standby tank is used. Includes a step of exchanging with the treatment liquid on standby at.
In this cleaning method, further, a step of mixing raw water and a treatment agent in the waiting tank to generate the treatment liquid, a step of acquiring stain information from the object to be cleaned, and a step of generating or waiting in the waiting tank. The step may include a step of acquiring concentration information from the treatment liquid and changing the mixing ratio of the raw water and the treatment agent using either or both of the concentration information and the stain information.
This cleaning method may further include a step of changing the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned.
In this cleaning method, further, a step of acquiring replacement end information of the treatment liquid and
It may include a step of presenting the exchange end information.

In order to achieve the above object, according to one aspect of the cleaning system of the present invention, a washing machine for washing the object to be cleaned including tableware is provided, and the object to be cleaned is immersed in the treatment liquid before cleaning by the washing machine. A waiting tank that keeps the treatment liquid on standby, a dipping tank that stores the treatment liquid and immerses the object to be cleaned in the treatment liquid, and a count value of the object to be cleaned that is immersed in the treatment liquid. A control unit that acquires the cumulative value of the immersion time, and when the cumulative value exceeds the threshold value, discards a part or all of the used treatment liquid from the immersion tank and replaces it with the treatment liquid in the standby tank. And include.
In this cleaning system, the control unit further acquires dirt information from the object to be cleaned, and obtains concentration information from the processing liquid being generated or waiting in the waiting tank, and the concentration information or the dirt information. The mixing ratio of the raw water and the treatment agent for producing the treatment liquid may be changed by using either one or both of the above.
In this cleaning system, the control unit may further change the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned.
In this cleaning system, the control unit may further acquire the exchange end information of the treatment liquid and have the information presenting unit present the exchange end information.

In order to achieve the above object, according to one aspect of the program of the present invention, it is a program to be realized by a computer, and has a function of generating control information for making a processing liquid stand by in a standby tank attached to the immersion tank. The function of generating control information for immersing the object to be cleaned in the treatment liquid of the immersion tank, the function of acquiring the count value of the object to be cleaned or the cumulative value of the immersion time to be immersed in the treatment liquid, and the cumulative value are When the threshold value is exceeded, the computer realizes a function of discarding a part or all of the used treatment liquid from the immersion tank and generating control information for replacing the used treatment liquid with the treatment liquid waiting in the standby tank. do.
In this program, further, a function of mixing raw water and a treatment agent in the waiting tank to generate control information for generating the treatment liquid, a function of acquiring dirt information from the object to be cleaned, and the waiting tank. Concentration information is acquired from the treatment liquid being generated or waiting in the above, and control information for changing the mixing ratio of the raw water and the treatment agent is generated using either or both of the concentration information and the stain information. The function may be realized by the computer.
In this program, the computer may further realize a function of generating control information for changing the disposal time of the treatment liquid in the immersion tank by referring to the dirt information acquired from the object to be cleaned.
In this program, the computer may further realize a function of acquiring the exchange end information of the processing liquid and a function of presenting the exchange end information.

In order to achieve the above object, according to one aspect of the recording medium of the present invention, the recording medium stores the program.

In order to achieve the above object, according to one aspect of the cleaning device of the present invention, a washing machine for washing the object to be cleaned including tableware is provided, and the object to be cleaned is immersed in the treatment liquid before cleaning by the washing machine. A waiting tank in which the treatment liquid is kept on standby, a dipping tank in which the treatment liquid is stored and the object to be cleaned is immersed in the treatment liquid, and a count value of the object to be cleaned to be immersed in the treatment liquid. A control unit that acquires the cumulative value of the immersion time, and when the cumulative value exceeds the threshold value, discards a part or all of the used treatment liquid from the immersion tank and replaces it with the treatment liquid in the standby tank. And include.
In this cleaning device, the control unit further acquires dirt information from the object to be cleaned, and obtains concentration information from the processing liquid being generated or waiting in the waiting tank, and the concentration information or the dirt information. The mixing ratio of the raw water and the treatment agent for producing the treatment liquid may be changed by using either one or both of the above.
In this cleaning device, the control unit may further change the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned.
In this cleaning device, the control unit may further acquire the exchange end information of the treatment liquid, and have the information presenting unit present the exchange end information.

According to the present invention, any of the following effects can be obtained.
(1) The treatment liquid can be automatically generated and put on standby during the immersion treatment of the object to be cleaned including tableware, and when the treatment liquid disposal time comes, the treatment liquid in the immersion tank is discarded or replaced. Can be done quickly.
(2) The operator can be released from the load of monitoring the disposal time of the treatment liquid in the immersion tank, and the burden on the operator can be reduced.
(3) Since the functional deterioration of the treatment liquid in the immersion tank can be suppressed, the removability of dirt can be maintained, the emission of foul odors from the object to be cleaned pulled up from the treatment liquid can be reduced, the environmental deterioration can be reduced, and the operator. The burden on you can be reduced.

It is a flowchart which shows the cleaning process which concerns on 1st Embodiment. It is a figure which shows the cleaning system which concerns on 1st Embodiment. It is a figure which shows the mechanism and the control device of the cleaning pretreatment part. It is a figure which shows the hardware of the cleaning system. It is a figure which shows the cleaning pretreatment information database. It is a figure which shows the cleaning pretreatment of the object to be cleaned. It is a figure which shows the generation and waiting of a treatment liquid. It is a figure for demonstrating the monitoring of the disposal time of a treatment liquid. It is a figure which shows the disposal and supply of a treatment liquid. It is a figure which shows the information presentation by an information presentation part. It is a figure which shows an example of a washing machine. It is a flowchart which shows the cleaning process which concerns on 2nd Embodiment. It is a figure which shows the cleaning system which concerns on 2nd Embodiment. It is a figure which shows the hardware of the cleaning system. It is a figure which shows the cleaning pretreatment information database. It is a figure for demonstrating the control of the mixing ratio of raw water and a treatment agent. It is a figure which shows the information presentation by an information presentation part. It is a figure for demonstrating the control of the disposal time of the treatment liquid which concerns on 3rd Embodiment. It is a figure which shows the cleaning equipment which concerns on 4th Embodiment.

[First Embodiment]
FIG. 1 shows a cleaning step according to the first embodiment. The process shown in FIG. 1 is an example, and the present invention is not limited to this process.
In this cleaning step, S is a part of the steps, and the numbers assigned to S are examples of the order.
In this cleaning step, the treatment liquid 16 is generated and waited (S101), the object to be cleaned 14 is immersed in the treatment liquid 16 in the immersion tank 8 (S102), the count value Nd of the object to be cleaned 14 or the cumulative value of the immersion time Td is cumulative. (S103), monitoring of the disposal time td of the treatment liquid 16 (S104), determination of the cumulative value of the count value Nd or the immersion time Td (S105), replacement of the treatment liquid 16 (S106, S107, S108, S109), The generation of exchange information (S110), the presentation of exchange information (S111), and the like are included.

Generation of treatment liquid 16 and standby (S101): The treatment liquid 16 is generated in the standby tank 10 and is made to stand by in the standby tank 10. The production of the treatment liquid 16 is carried out during the dipping treatment.
Immersion of the object to be cleaned 14 in the treatment liquid 16 (S102): The treatment liquid 16 is stored in the immersion tank 8 and the object to be cleaned 14 is immersed in the immersion tank 8. The object to be cleaned 14 includes various objects to be cleaned such as tableware. In order to immerse the object to be cleaned 14 in the treatment liquid 16, the object to be cleaned 14 is carried into the object to be cleaned 12, and the object to be cleaned 12 is carried into the immersion tank 8. In response to the operation of the operation input unit 68, the control unit 26 lowers the object to be cleaned 14 by the elevating mechanism 20 and immerses it in the processing liquid 16.
Acquisition of the count value Nd of the object to be cleaned 14 or the cumulative value of the immersion time Td (S103): The control unit 26 acquires the count value Nd of the object to be cleaned 14 or the cumulative value of the immersion time Td processed in the immersion tank 8. do. The cumulative value of the count value Nd may be an integrated number in units of the immersed basket 22, or may be any of the actually measured numbers of the object to be cleaned 14. Further, the cumulative value of the immersion time Td may be either the integrated time of the unit immersion time of the object to be cleaned 14 or the integrated time of the unit immersion time of the basket 22. The count value Nd or the immersion time Td may be acquired by the detection signal of the elevating sensor 28.

Monitoring of disposal time td of the treatment liquid 16 (S104): The control unit 26 monitors the disposal time of the treatment liquid 16 in use in the immersion tank 8. This monitoring is performed by the cumulative value of the count value Nd or the immersion time Td.
Determining the cumulative value of the count value Nd or the immersion time Td (S105): The control unit 26 determines whether or not the cumulative value of the count value Nd or the immersion time Td has reached the threshold value (Nth, Tth). The threshold value represents the disposal time td of the used treatment liquid 16.
Replacement of the treatment liquid 16 (S106, S107, S108, S109): The replacement of the treatment liquid 16 (S106) is performed under the control of the control unit 26. When the cumulative value of the count value Nd or the immersion time Td reaches the threshold value, the control unit 26 discards the used treatment liquid 16 from the immersion tank 8 (S107).
When the used treatment liquid 16 is discarded from the immersion tank 8, the treatment liquid 16 waiting in the standby tank 10 is supplied to the immersion tank 8 (S108). The control unit 26 determines whether the treatment liquid 16 is filled in the immersion tank 8 from the standby tank 10 (S109). The detection signal of the level sensor 29 is used for this determination.

Generation of exchange information (S110): The control unit 26 receives the detection signal of the level sensor 29 and generates exchange information of the processing liquid 16. When the treatment liquid 16 reaches the reference level of the immersion tank 8, the replacement of the treatment liquid 16 is completed. This exchange end information is also included in the exchange information.
Presentation of exchange information (S111): The control unit 26 causes the information presentation unit 70 to present the exchange information. This information presentation is performed by displaying a video of the information presentation unit 70.

<Cleaning system 2>
FIG. 2 shows the cleaning system 2. The configuration shown in FIG. 2 is an example, and the present invention is not limited to such a configuration.
The cleaning system 2 includes a cleaning pretreatment unit 6 adjacent to the cleaning machine 4, and the cleaning pretreatment unit 6 includes an immersion tank 8, a standby tank 10, and an object to be cleaned waiting unit 12. The cleaning machine 4 and the cleaning pretreatment unit 6 are, for example, integrally configured. An immersion tank 8 and a standby tank 10 are installed adjacent to the washing machine 4. The object to be cleaned 14 such as tableware is made to stand by in the object to be cleaned 12 and then immersed in the treatment liquid 16 (FIG. 3) in the immersion tank 8 for a certain period of time and then sent to the washing machine 4.

<Cleaning pretreatment unit 6>
FIG. 3 shows an example of the cleaning pretreatment unit 6. The treatment liquid 16 stored in the immersion tank 8 is a detergent liquid for floating dirt adhering to the object to be cleaned 14 from the object to be cleaned 14, peeling or removing it, and is, for example, a mixed solution of raw water and a treatment agent. ..

A conveyor unit 18 and an elevating mechanism 20 are installed in the immersion tank 8. The conveyor unit 18 is an example of a transporting means for transporting the object to be cleaned 14 received from the object waiting unit 12 to be cleaned into the immersion tank 8 and transporting the basket 22 after immersion to the washing machine 4. The elevating mechanism 20 is an example of means for elevating and lowering the basket 22 on the conveyor portion 18 in the immersion tank 8.
The elevating mechanism 20 includes an elevating drive unit 24, and the elevating mechanism 20 moves up and down by the elevating drive unit 24. This elevating is controlled by the control unit 26, and the elevating by the elevating mechanism 20 is detected by the elevating sensor 28. This detection signal is used for elevating control of the elevating mechanism 20, counting value Nd indicating the number of immersions of the object to be cleaned 14, or measuring the immersion time Td thereof.

A level sensor 29 and a waste pump 30 are installed in the immersion tank 8. The level sensor 29 detects the level of the processing liquid 16 filled in the immersion tank 8. The control unit 26 acquires level information from the detection signal of the level sensor 29, and controls the processing liquid 16 filled in the immersion tank 8 to a reference level.
The waste pump 30 is an example of a discharge unit that discharges the treatment liquid 16 to the outside of the tank. The waste pump 30 is driven by the pump drive unit 32. The pump drive unit 32 is controlled by the control unit 26, and discharges the processing liquid 16 when the disposal time td arrives. The waste pump 30 is provided with a discharge pipe 34 for discharging the treatment liquid 16 of the immersion tank 8 to the outside of the tank together with the deposits accumulated at the bottom of the tank.

The standby tank 10 is arranged above the immersion tank 8, for example, to generate a required amount of the treatment liquid 16 to be supplied to the immersion tank 8 and make it stand by. A supply pipe 36 is connected to the bottom of the standby tank 10, and the supply pipe 36 is guided to the immersion tank 8. A supply valve 38 is installed in the supply pipe 36, and the supply valve 38 is opened and closed by the valve drive unit 40. The valve drive unit 40 is controlled by the control unit 26.
A level sensor 41, a concentration sensor 42, and a stirrer 44 are installed in the standby tank 10. The level sensor 41 detects the standby level of the processing liquid 16 that is made to stand by in the standby tank 10. The concentration sensor 42 detects the concentration of the processing liquid 16 in the standby tank 10. The control unit 26 acquires the level information from the detection signal of the level sensor 41, and also acquires the concentration information of the processing liquid 16 from the detection signal of the concentration sensor 42. The stirrer 44 is rotated by the stirrer motor 46, and the stirrer motor 46 is driven by the motor drive unit 48. The motor drive unit 48 is controlled by the control unit 26.

A treatment liquid generation unit 50 is attached to the standby tank 10. The treatment liquid generation unit 50 includes a raw water supply unit 52 and a treatment agent supply unit 54 controlled by the control unit 26. The raw water supply unit 52 supplies the raw water of the treatment liquid 16 to the standby tank 10. The treatment agent supply unit 54 supplies the treatment agent to be mixed with the raw water to the standby tank 10. For example, a detergent is used as the treatment agent. The control unit 26 calculates the mixing ratio of the raw water and the treatment agent using the concentration information acquired by the concentration sensor 42, and generates the treatment liquid 16 having the reference concentration.
A conveyor unit 56 is installed in the object to be cleaned 12 as an example of the means for transporting the object to be cleaned 14. The basket 22 that has been made to stand by in the conveyor section 56 is passed to the conveyor section 18 on the elevating mechanism 20 side when the immersion timing arrives. The basket 22 is an example of a container for collectively carrying the object to be cleaned 14 into the immersion tank 8.

<Hardware of cleaning system 2>
FIG. 4 shows the hardware of the cleaning system 2. The control unit 26 is composed of a computer having a communication function. The control unit 26 is provided with a processor 58, a storage unit 60, an input / output unit (I / O) 62, a timer 64, and a communication unit 66.
The processor 58 executes an OS (Operating System) in the storage unit 60, and executes information processing for realizing various programs such as a cleaning program used for controlling the cleaning preprocessing described above.

The storage unit 60 includes storage elements such as a ROM (Read-Only Memory) and a RAM (Random-Access Memory). The storage unit 60 stores various programs such as an OS and a processing program related to cooking, and also stores control information including detection information.
The I / O 62 inputs information from the operation input unit 68, extracts information, and the like under the control of the processor 58. A concentration sensor 42, a level sensor 29, 41, an elevating drive unit 24, a pump drive unit 32, a valve drive unit 40, and a motor drive unit 48 are connected to the I / O 62, and an external device of the control unit 26 is used. A certain operation input unit 68, an information presentation unit 70, and the like are connected.

The timer 64 is used to measure the immersion time Td, the disposal time td, and the like. Under the control of the processor 58, the communication unit 66 exchanges information by wireless connection or wired connection with an information terminal, a remote controller, or the like (not shown).
The operation input unit 68 includes a keyboard, a mouse, and a touch sensor installed on the display screen of the information presentation unit 70. The operation input unit 68 includes a switch 72 for instructing the lowering of the elevating mechanism 20 and the like.
The information presentation unit 70 is composed of, for example, an information presentation device such as an LCD (Liquid Crystal Display), and presents information for various information processing such as processing of menu-based investment information.

<Information processing by processor 58>
For information processing by the processor 58,
a) Generation of the treatment liquid 16, standby, and control of supply from the standby tank 10 to the immersion tank 8 b) Acquisition of the count value Nd or the cumulative value of the immersion time Td of the object to be cleaned 14 immersed in the treatment liquid 16 c) Control of the immersion time Td and disposal time td of the basket 22 with respect to the treatment liquid 16 d) Disposal of the used treatment liquid 16 in the immersion tank 8 and control of the supply of the treatment liquid 16 to the immersion tank 8 e) Replacement of the treatment liquid 16. It includes processing related to information generation, control of presentation of exchange information, and the like.

<Cleaning pretreatment information database (DB) 74-1>
FIG. 5 shows an example of the cleaning pretreatment information DB (hereinafter, simply referred to as “DB”) 74-1. This DB74-1 is used for information processing in the pre-cleaning process. This DB74-1 is generated by the processor 58 and stored in the storage unit 60. In this DB74-1, an object to be cleaned information unit 76, a standby processing liquid information unit 78, an immersion cumulative information unit 80, a processing liquid exchange information unit 82, and a control history information unit 84 are set.
The object to be cleaned information unit 76 stores information on the object to be cleaned, which represents the object to be cleaned 14 such as tableware to be cleaned. The standby processing liquid information unit 78 stores standby information of the processing liquid 16, component information, control information of the processing liquid generation unit 50, and the like.

The immersion accumulation information unit 80 stores information regarding the accumulation of immersion of the object to be cleaned 14 in the treatment liquid 16 of the immersion tank 8. The immersion accumulation information unit 80 is set with a counting accumulation unit 80-1 and an immersion time accumulation unit 80-2. Cumulative value information of the count value of the object to be cleaned 14 is stored in the count accumulation unit 80-1. The count value of the object to be cleaned 14 may be, for example, the number of objects 14 to be cleaned in units of the basket 22. The cumulative immersion time of the object to be cleaned 14 is stored in the immersion time accumulation unit 80-2. The immersion time of the object to be cleaned 14 may be, for example, the length of the immersion time of the object to be cleaned 14 in units of the basket 22.
The processing liquid exchange information unit 82 stores control information regarding the processing liquid exchange of the immersion tank 8. In this control information, the disposal time of the used treatment liquid 16, its disposal, the supply information of the treatment liquid 16 from the standby tank 10 to the immersion tank 8, the level information of the treatment liquid 16 of the immersion tank 8, and the like are stored. ..
The control history information unit 84 stores history information such as generation of the processing liquid 16, standby thereof, acquisition of exchange end information of the processing liquid 16, and presentation of exchange end information.

<Pretreatment for cleaning the object to be cleaned 14>
As shown in A of FIG. 6, the object to be cleaned 14 is delivered from the object standby unit 12 to the conveyor unit 18 on the immersion tank 8 side by the conveyor unit 56.
As shown in B of FIG. 6, the object to be cleaned 14 is immersed in the treatment liquid 16 by lowering the elevating mechanism 20. After being immersed for a predetermined time, the object to be cleaned 14 is pulled up from the processing liquid 16 by the ascent of the elevating mechanism 20 as shown by the broken line, and is passed from the immersion tank 8 to the washing machine 4 by the conveyor unit 18.

<Generation and standby of treatment liquid 16>
FIG. 7 shows the formation of the treatment liquid 16. The generation and waiting of the treatment liquid 16 are performed during the dipping treatment of the object to be cleaned 14. The treatment liquid 16 is generated in the standby tank 10 by the treatment liquid generation unit 50 controlled by the control unit 26, and is made to stand by in the standby tank 10.
The treatment liquid 16 is generated after the treatment liquid 16 is supplied to the immersion tank 8, for example, in a state where the standby tank 10 is empty. At that time, as shown in FIG. 7, the raw water 86 is supplied to the standby tank 10 from the raw water supply unit 52, and the treatment agent 88 is supplied from the treatment agent supply unit 54. The raw water 86 is, for example, water or hot water, and the treatment agent 88 is, for example, a detergent.

The raw water 86 and the treatment agent 88 that have been or are being charged into the standby tank 10 are stirred by the stirrer 44. The stirrer 44 is rotated by a stirrer motor 46. A drive output is given to the stirring motor 46 from the motor driving unit 48, and the start / stop control of the stirring motor 46 is performed by the control unit 26.
The concentration of the processing liquid 16 is detected by the concentration sensor 42, and the control unit 26 acquires the concentration information of the processing liquid 16 from the concentration sensor 42. The control unit 26 compares the concentration information with the reference information, and generates control information for controlling the supply amounts of the raw water 86 and the treatment agent 88. In response to this control information, the treatment liquid generation unit 50 changes the mixing ratio of the raw water 86 and the treatment agent 88 to generate the treatment liquid 16 having a concentration conforming to the reference information.

The liquid level of the processing liquid 16 in the standby tank 10 is detected by the level sensor 41, and the control unit 26 acquires the level information of the processing liquid 16. Based on the acquisition of this level information, the control unit 26 controls the liquid level of the treatment liquid 16 to the standby level, and causes the standby tank 10 to wait for the treatment liquid 16.

<Monitoring the disposal time td of the treatment liquid 16>
When the count value Nd of the object to be cleaned 14 is used to monitor the disposal time td of the treatment liquid 16, the treatment is performed when the count value Nd exceeds the threshold value Nth (Nd> Nth) as shown in FIG. 8A. It is the disposal time td of the liquid 16.
When the immersion time Td of the object to be cleaned 14 is used to monitor the disposal time td of the treatment liquid 16, the treatment is performed when the immersion time Td exceeds the threshold value Tth (Td> Tth) as shown in FIG. 8B. The disposal time of the liquid 16 is td.
In this way, the disposal time td of the treatment liquid 16 in the immersion tank 8 is automatically determined according to the immersion amount of the object to be cleaned 14, so that the disposal of the treatment liquid 16 is automated.

<Disposal or supply of treatment liquid 16>
FIG. 9A shows the disposal of the treatment liquid 16. In the pre-cleaning treatment (A and B in FIG. 6), the control unit 26 receives the detection signal of the elevating sensor 28, acquires the count value Nd or the immersion time Td of the object to be cleaned 14 immersed in the processing liquid 16, and measures the total. Monitor the numerical value Nd or the immersion time Td. When the count value Nd or the immersion time Td exceeds the threshold values Nth and Tth, the control unit 26 discards the used treatment liquid 16 from the immersion tank 8. That is, when the count value Nd or the immersion time Td exceeds the threshold value, the control unit 26 stops the immersion of the object to be cleaned 14 in the treatment liquid 16 and drives the waste pump 30. As a result, the treatment liquid 16 is discarded from the immersion tank 8.

FIG. 9B shows the supply of the treatment liquid 16 from the standby tank 10 to the immersion tank 8. After discarding the treatment liquid 16 from the immersion tank 8, the drive of the waste pump 30 is stopped, and the treatment liquid 16 waiting in the standby tank 10 is supplied to the immersion tank 8. As a result, the immersion tank 8 is replaced with the waiting treatment liquid 16 from the used treatment liquid 16.

<Presentation of information>
In the immersion mode of the object to be cleaned 14, the information presenting unit 70 is presented with the information presenting image 90-1 as shown in A of FIG. 10, for example. The information presentation video 90-1 presents message information 99 including the generation display 92 (or standby display 94) of the treatment liquid 16, the immersion display 96 of the object to be cleaned 14, and the disposal time information 98.
In the disposal mode of the treatment liquid 16, the information presentation unit 70 is presented with the information presentation video 90-2, for example, as shown in B of FIG. The information presentation video 90-2 presents message information 99 including a standby display 94 for the processing liquid 16, a disposal display 100 for the processing liquid 16, and disposal timing information 98.
In the supply mode of the processing liquid 16, the information presentation unit 70 is presented to the information presentation unit 70 by, for example, the information presentation video 90-3 as shown in C of FIG. Message information 99 including the supply display 102 of the processing liquid 16 and the disposal time information 98 is presented in the information presentation video 90-3.

<Washing machine 4>
FIG. 11 shows an example of the washing machine 4. The washing machine 4 cleans the object to be cleaned 14 that has been immersed in the treatment liquid 16 in the cleaning pretreatment section 6.
The washing machine 4 is provided with a housing 104 integrally with the washing pretreatment unit 6. The housing 104 is provided with a cleaning tank 106, a cleaning chamber 108, and a rinsing tank 110. The cleaning water 112 stored in the cleaning tank 106 is pumped by the cleaning pump 114 and injected from the cleaning nozzles 116-1 and 116-2 into the cleaning chamber 108. The object to be cleaned 14 is washed on the basket 22 introduced into the washing chamber 108.
After cleaning the object to be cleaned 14, the rinse water 118 stored in the rinse tank 110 is pumped by the rinse pump 120 and sprayed from the rinse nozzles 122-1 and 122-2 into the cleaning chamber 108. As a result, the object to be cleaned 14 is rinsed after cleaning.

<Effect of the first embodiment>
According to this first embodiment, any of the following effects can be obtained.
(1) Since the treatment liquid 16 is generated in the standby tank 10 and is made to stand by during the immersion treatment of the object to be cleaned 14 including tableware in the immersion tank 8, the used treatment liquid 16 is quickly transferred to the waiting treatment liquid 16. Can be exchanged for.
(2) The cumulative value of the count value Nd or the immersion time Td of the object to be cleaned 14 was monitored, and the cumulative value of the count value Nd or the immersion time Td exceeded the threshold value and became the disposal time td of the used treatment liquid 16. At that time, the used treatment liquid 16 can be discarded and replaced with the waiting treatment liquid 16.
(3) By monitoring the count value Nd or the cumulative value of the immersion time Td, the disposal time td of the treatment liquid 16 in use is maintained within the threshold value, so that the removability of dirt from the object to be cleaned 14 is not impaired. , Can contribute to speeding up cleaning and improving cleaning efficiency.
(4) Information on operating conditions such as generation and standby of the treatment liquid 16 in the standby tank 10, immersion of the object to be cleaned 14 in the immersion tank 8, disposal or replacement of the treatment liquid 16 in the immersion tank 8, and disposal time of the treatment liquid 16. It can be easily confirmed by the presentation image of the presentation unit 70, and the management burden can be reduced.
(5) The process from immersing the object to be cleaned 14 in the treatment liquid 16 to cleaning by the cleaning machine 4 can be performed in an integrated process.

[Second Embodiment]
FIG. 12 shows a treatment liquid generation step according to the second embodiment. The process shown in FIG. 12 is an example, and the present invention is not limited to this process. In this treatment liquid generation step, S is a part of the steps, and the numbers assigned to S are examples of the order.
This treatment liquid generation step includes controlling the mixing ratio of the raw water 86 and the treatment agent 88 related to the production of the treatment liquid 16. Therefore, in this treatment liquid generation step, the treatment liquid 16 is generated in the standby tank 10 (S201), the dirt information from the object to be cleaned 14 is acquired (S202), the concentration information is acquired (S203), the raw water 86 and the treatment are performed. Controls such as changing the mixing ratio of the agent 88 (S204) are included.

Treatment liquid generation in the standby tank 10 (S201): As described above, the treatment liquid 16 is generated in the standby tank 10 by the treatment liquid generation unit 50. A control unit 26 is used for this control.
Acquisition of dirt information from the object to be cleaned 14 (S202): The control unit 26 acquires dirt information from the object to be cleaned 14 by imaging the camera 124 (FIG. 13). The dirt information of the object to be cleaned 14 indicates the state of dirt in the plurality of objects 14 to be cleaned.
Acquisition of concentration information (S203): The concentration sensor 42 detects the concentration of the processing liquid 16 being produced, and the control unit 26 acquires the concentration information of the treatment agent 88 contained in the treatment liquid 16.
Change of mixing ratio of raw water 86 and treatment agent 88 (S204): The control unit 26 informs the treatment liquid generation unit 50 of the reference concentration information in the treatment liquid 16 according to the acquired contamination information of the object to be cleaned 14. Generate and compare this reference concentration information with the acquired concentration information to generate control information. In response to this control information, the treatment liquid generation unit 50 controls the generation of the treatment liquid 16 to the mixing ratio R of the raw water 86 and the treatment agent 88 that satisfy the reference concentration information. The mixing ratio R is the ratio (%) of the treatment agent 88 to the amount of raw water 86.

<Cleaning system 2>
FIG. 13 shows the cleaning system 2 according to the second embodiment. In the cleaning system 2, for example, a camera 124 for photographing the object to be cleaned 14 waiting at the object to be cleaned 12 is installed. The control unit 26 controls the shooting of the camera 124, and acquires the dirt information of the object to be cleaned 14 from the shooting information of the camera 124.
In this cleaning system 2, the same parts as those in FIG. 3 are designated by the same reference numerals, and the description thereof will be omitted.

<Hardware of cleaning system 2>
FIG. 14 shows the hardware of the cleaning system 2 according to the second embodiment. In FIG. 14, the same parts as those in FIG. 4 are designated by the same reference numerals, and the description thereof will be omitted.
The camera 124 is connected to the I / O 62, and the processor 58 controls the shooting and the shot image.

<Information processing by processor 58>
For information processing by the processor 58, in addition to the above-mentioned control,
f) Photographing by the camera 124, acquisition of dirt information of the object to be cleaned 14 from the photographed image g) Concentration control of the processing agent 88 in the processing liquid 16 and the like are included.

<Cleaning pretreatment information DB74-2>
FIG. 15 shows an example of the cleaning pretreatment information DB 74-2. This DB74-2 is used for information processing including dirt information of the object to be cleaned 14. In this DB 74-2, an object to be cleaned information unit 76, a dirt information unit 126, a standby processing liquid information unit 78, an immersion cumulative information unit 80, a processing liquid exchange information unit 82, and a control history information unit 84 are set.
The image information acquired from the object to be cleaned 14 and the stain information acquired from the image information are stored in the stain information unit 126.
In addition, since the object to be cleaned information unit 76, the standby processing liquid information unit 78, the immersion cumulative information unit 80, the processing liquid exchange information unit 82, and the control history information unit 84 have already been described, the description thereof will be omitted.

<Control of the mixing ratio of raw water 86 and treatment agent 88>
In FIG. 16, the horizontal axis represents the degree of contamination of the object to be cleaned 14, and the vertical axis represents the mixing ratio R of the raw water 86 and the treatment agent 88, and the control pattern of the mixing ratio R is shown.
The initial mixing ratio R of the treatment liquid 16 is set to the reference value Rref, which corresponds to the contamination of the object to be cleaned 14. The control unit 26 acquires the dirt information of the object to be cleaned 14 before the immersion of the treatment liquid 16 from the image of the camera 124 (FIG. 13). The degree of dirt is determined from this dirt information, and the mixing ratio R is controlled according to the degree of dirt. That is, the amount of the treatment agent 88 added to the raw water 86 is increased.

<Presentation of information>
In the generation mode of the processing liquid 16, the information presentation unit 70 is presented with the information presentation video 90-4, for example, as shown in FIG. The information presentation video 90-4 presents message information 99 including the generation display 92 of the treatment liquid 16, the immersion display 96 of the object to be cleaned 14, the dirt information 97 of the object 14 to be cleaned, and the disposal time information 98. ..

<Effect of the second embodiment>
According to this second embodiment, any of the following effects can be obtained.
(1) It is possible to acquire the dirt information of the object to be cleaned 14 to be continuously treated and control the concentration of the treatment liquid 16 according to the degree of the dirt.
(2) The concentration of the treatment liquid can be adjusted during the production of the treatment liquid 16, and the efficiency of the dirt floating treatment can be improved.

[Third Embodiment]
This embodiment includes a step of changing the disposal time td of the treatment liquid 16 of the immersion tank 8 with reference to the dirt information acquired from the object to be cleaned 14. In the first embodiment, as described above, the disposal time td of the treatment liquid 16 is determined by setting a threshold value for the count value Nd or the immersion time Td of the object to be cleaned 14.
In this embodiment, the dirt on the object to be cleaned 14 is not uniform, and the more the dirt on the object to be cleaned 14 becomes noticeable, the faster the function of the treatment liquid 16 in the immersion tank 8 deteriorates. Therefore, dirt information is acquired from the image of the object to be cleaned 14 before immersion, and the dirt information is referred to to control the disposal time td of the treatment liquid 16 in the immersion tank 8.

In FIG. 18, the horizontal axis represents time, the vertical axis represents the count value Nd (or immersion time Td) of the object to be cleaned 14 and the degree of dirt d, and the control of the disposal time td of the treatment liquid 16 in the immersion tank 8 is shown. There is.
The count value Nd (or immersion time Td) increases with the passage of time t. In the control described above, when the cumulative value of the count value Nd (or the immersion time Td) reaches the threshold value Nth (Tth), the disposal time td is determined.
On the other hand, it is assumed that the degree of dirt d of the object to be cleaned 14 increases to dirt dH with respect to dirt dL. If the threshold value dth is set for the dirt dL and dH, a new disposal time tdH is determined when the dirt dH reaches the threshold value dth. That is, the disposal time td is changed to the disposal time tdH, the treatment liquid 16 can be discarded at the disposal time tdH earlier than the disposal time td, and the treatment liquid 16 in the immersion tank 8 can be replaced.

<Effect of the third embodiment>
According to this third embodiment, any of the following effects can be obtained.
(1) It is possible to acquire the dirt information of the object to be cleaned 14 to be continuously treated and optimize the disposal time td of the treatment liquid 16 according to the degree of the dirt.
(2) It is possible to avoid the continuous use of the treatment liquid 16 that has deteriorated in function, and to improve the efficiency of the dirt floating treatment.

[Fourth Embodiment]
FIG. 19 shows the cleaning device 128 according to the fourth embodiment. The configuration shown in FIG. 19 is an example, and the present invention is not limited to such a configuration. In FIG. 19, the same parts as those in FIG. 3 are designated by the same reference numerals.
This cleaning device 128 realizes the cleaning system 2 described above, includes a cleaning pretreatment unit 6 integrally with the cleaning machine 4, and has the same functions as those in the above embodiment.
A window portion 130-1 is formed in the housing portion of the washing machine 4, and the operating state during cleaning can be visually recognized through the window portion 130-1. Similarly, the cleaning pretreatment unit 6 is provided with windows 130-2 and 130-3. The operating state of the immersion tank 8 side can be visually recognized from the window portion 130-2 side, and the operating state of the object to be cleaned standby portion 12 side can be visually recognized from the window portion 130-3 side.

A cleaning object receiving unit 132 is formed on the cleaning object waiting unit 12 side of the cleaning pretreatment unit 6, and the cleaning object 14 can be received together with the basket 22 from the cleaning object receiving unit 132. A shielding curtain 134 is installed on the object receiving portion 132 to be cleaned. The shielding curtain 134 separates the inside and the outside of the cleaning pretreatment unit 6 to prevent the odor from leaking from the inside of the cleaning pretreatment unit 6.
A display 136 of the information presentation unit 70 is installed on the wall surface of the cleaning pretreatment unit 6, and a keyboard 138 of the operation input unit 68 is installed adjacent to the display 136.
According to such a configuration, the cleaning system 2 described above is realized as the cleaning device 128, and dirt can be floated as a pretreatment for cleaning the object to be cleaned 14, and subsequent cleaning can be performed.

<Effect of the fourth embodiment>
According to this fourth embodiment, any of the following effects can be obtained.
(1) According to this cleaning device 128, the same function as that of the above embodiment can be realized, and the same effect can be obtained.
(2) The dirt floating treatment of the object to be cleaned 14 before cleaning can be efficiently performed by the cleaning pretreatment unit 6 adjacent to the cleaning machine 4, and the emission of bad odor can be prevented.
(3) The cleaning machine 4 and the cleaning pretreatment unit 6 can be mounted in one housing, for example, and the cleaning system 2 can be made compact as a cleaning device 128.
(4) If the washing machine 4 and the washing pretreatment unit 6 are integrated, the installation area can be reduced as compared with the case where both are separated.

[Other Embodiments]
The above embodiments include the following variations.
(1) In the cleaning method and system of the present invention, the object to be cleaned 14 is not limited to dirty items such as tableware.
(2) In the above embodiment, the object to be cleaned waiting unit 12 for waiting the object to be cleaned 14 is installed inside the pre-cleaning unit 6, but it may be installed outside the pre-cleaning unit 6.
(3) Although the storage unit 60 is installed inside the control unit 26, the storage unit 60 may be installed outside the control unit 26.
(4) It is possible to efficiently immerse the object to be cleaned 14 in the treatment liquid 16 by linking the cleaning operation of the washing machine 4 with the treatment in the cleaning pretreatment unit 6.
(5) In the above embodiment, the basket 22 is used for transferring and raising and lowering the object to be cleaned 14, but instead of the basket 22, a container such as a tray may be used, and the present invention uses a container for processing the object to be cleaned 14. Not limited to use.
(6) The treatment liquid 16 to be discarded from the immersion tank 8 may be a part or all of the treatment liquid 16, and in the case of partial disposal, the waste treatment liquid 16 may be replenished from the standby tank 10. The treatment liquid 16 supplied from the standby tank 10 may be replenished with raw water 86 and a treatment agent 88.

As described above, the most preferable embodiment of the present invention has been described. The present invention is not limited to the above description. Various modifications and modifications can be made by those skilled in the art based on the gist of the invention described in the claims or disclosed in the form for carrying out the invention. Needless to say, such modifications and modifications are included in the scope of the present invention.

According to the present invention, the object to be cleaned can be immersed in the treatment liquid before the cleaning step of the cleaning machine, and the cleaning can be performed after the dirt is floated. Since the treatment liquid is generated in the waiting tank and put on standby and can be replaced with the used treatment liquid, the cleaning efficiency by the pre-cleaning treatment can be improved, the emission of foul odors can be prevented, and the working environment can be improved. , Useful.

2 Cleaning system 4 Cleaning machine 6 Cleaning pretreatment unit 8 Immersion tank 10 Standby tank 12 Object to be cleaned Waiting unit 14 Object to be cleaned 16 Treatment liquid 18, 56 Conveyor unit 20 Elevating mechanism 22 Basket 24 Elevating drive unit 26 Control unit 28 Elevating sensor 29, 41 Level sensor 30 Disposal pump 32 Pump drive unit 34 Discharge pipe 36 Supply pipe 38 Supply valve 40 Valve drive unit 42 Concentration sensor 44 Stirrer 46 Stirring motor 48 Motor drive unit 50 Treatment liquid generator 52 Raw water supply unit 54 Treatment agent Supply unit 58 Processor 60 Storage unit 62 Input / output unit (I / O)
64 Timer 66 Communication unit 68 Operation input unit 70 Information presentation unit 72 Switch 74-1, 74-2 Cleaning pre-processing information DB
76 Cleaning object information unit 78 Stand-by processing liquid information unit 80 Immersion cumulative information unit 80-1 Counting accumulation unit 80-2 Immersion time accumulation unit 82 Treatment liquid exchange information unit 84 Control history information unit 86 Raw water 88 Treatment agent 90-1, 90-2, 90-3, 90-4 Information presentation video 92 Generation display 94 Standby display 96 Immersion display 97 Dirt information 98 Disposal time information 99 Message information 100 Disposal display 102 Supply display 104 Housing 106 Cleaning tank 108 Cleaning room 110 Rinse tank 112 Rinse water 114 Rinse pump 116-1, 116-2 Rinse nozzle 118 Rinse water 120 Rinse pump 122-1, 122-2 Rinse nozzle 124 Camera 126 Dirt information unit 128 Rinse equipment 130-1, 130-2, 130 -3 Window part 132 Cleaning part receiving part 134 Shielding curtain 136 Display 138 Keyboard

In order to achieve the above object, according to one aspect of the cleaning method of the present invention, a dipping step of immersing the object to be cleaned in a treatment liquid before the cleaning step using a washing machine for cleaning the object to be cleaned including tableware. during the a pre is not cleaning, the processor provided in the computer, that is by immersing the step of immersing the object to be cleaned, the object to be cleaned in the treatment liquid to the treatment liquid dipping bath, A step of mixing raw water and a treatment agent in a standby tank attached to the immersion tank to generate the treatment liquid and causing the generated treatment liquid to stand by in the standby tank, and the object to be cleaned to be immersed in the treatment liquid. In the step of acquiring the count value or the cumulative value of the immersion time, and when the cumulative value exceeds the threshold value, a part or all of the used treatment liquid is discarded from the immersion tank and the waiting tank is on standby. Each step including the step of exchanging with the treatment liquid of the above is executed.
In this cleaning method, further comprising the step of acquiring the dirt information before Symbol washload to obtain density information from the processing liquid in the product or in standby at the standby vessel, either the concentration information and the dirty information It may be included as a step of changing the mixing ratio of the raw water and the treatment agent using one or both of them.
This cleaning method may further include a step of changing the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned.
In this cleaning method, a step of acquiring the exchange end information of the treatment liquid and a step of presenting the exchange end information may be further included.

In order to achieve the above object, according to one aspect of the cleaning system of the present invention, a washing machine for washing the object to be cleaned including tableware is provided, and the object to be cleaned is immersed in the treatment liquid before cleaning by the washing machine. A waiting tank for waiting for the treatment liquid, a dipping tank for accumulating the treatment liquid and immersing the object to be cleaned in the treatment liquid, and a cleaning system for immersing the object to be cleaned in the treatment liquid. In the waiting tank, raw water and a treatment agent are mixed to generate the treatment liquid, and the treatment liquid generated in the standby tank is made to stand by, and the count value or immersion of the object to be cleaned is immersed in the treatment liquid. With a control unit that acquires the cumulative value of time, and when the cumulative value exceeds the threshold value, discards a part or all of the used treatment liquid from the immersion tank and replaces it with the treatment liquid in the standby tank. including.
In this cleaning system, the control unit further acquires dirt information from the object to be cleaned, and obtains concentration information from the processing liquid being generated or waiting in the waiting tank, and the concentration information or the dirt information. The mixing ratio of the raw water and the treatment agent for producing the treatment liquid may be changed by using either one or both of the above.
In this cleaning system, the control unit may further change the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned.
In this cleaning system, the control unit may further acquire the exchange end information of the treatment liquid and have the information presenting unit present the exchange end information.

To achieve the above object, according to one aspect of the program of the present invention, there is provided a program for implementing by a computer, and generating control information for immersing the cleaning object in the processing solution immersion漬槽, While the object to be cleaned is immersed in the treatment liquid, raw water and a treatment agent are mixed in a standby tank attached to the immersion tank to generate the treatment liquid, and the generated treatment liquid is generated in the standby tank. A function of generating control information for waiting for The computer realizes a function of discarding a part or all of the used treatment liquid and generating control information for exchanging with the treatment liquid waiting in the standby tank.
In this program, further pre-Symbol function of acquiring the dirt information from the object to be cleaned, the acquired density information from being generated by the standby vessel or the treatment liquid waiting, any of said concentration information or the dirty information The computer may realize a function of generating control information for changing the mixing ratio of the raw water and the treatment agent by using one or both of them.
In this program, the computer may further realize a function of generating control information for changing the disposal time of the treatment liquid in the immersion tank by referring to the dirt information acquired from the object to be cleaned.
In this program, the computer may further realize a function of acquiring the exchange end information of the processing liquid and a function of presenting the exchange end information.

In order to achieve the above object, according to one aspect of the cleaning device of the present invention, a washing machine for washing the object to be cleaned including tableware is provided, and the object to be cleaned is immersed in the treatment liquid before cleaning by the washing machine. A waiting tank for waiting for the treatment liquid, a dipping tank for accumulating the treatment liquid and immersing the object to be cleaned in the treatment liquid, and a cleaning device for immersing the object to be cleaned in the treatment liquid. In the waiting tank, raw water and a treatment agent are mixed to generate the treatment liquid, and the treatment liquid generated in the standby tank is made to stand by, and the count value or immersion of the object to be cleaned is immersed in the treatment liquid. With a control unit that acquires the cumulative value of time, and when the cumulative value exceeds the threshold value, discards a part or all of the used treatment liquid from the immersion tank and replaces it with the treatment liquid in the standby tank. including.
In this cleaning device, the control unit further acquires dirt information from the object to be cleaned, and obtains concentration information from the processing liquid being generated or waiting in the waiting tank, and the concentration information or the dirt information. The mixing ratio of the raw water and the treatment agent for producing the treatment liquid may be changed by using either one or both of the above.
In this cleaning device, the control unit may further change the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned.
In this cleaning device, the control unit may further acquire the exchange end information of the treatment liquid, and have the information presenting unit present the exchange end information.

Claims (17)

It is a cleaning method in which a dipping step of immersing the object to be cleaned in a treatment liquid is preceded before the cleaning process using a washing machine for cleaning the object to be cleaned including tableware.
The process of making the processing liquid stand by in the waiting tank attached to the immersion tank,
The step of immersing the object to be cleaned in the treatment liquid of the immersion tank and
The step of obtaining the count value of the object to be cleaned or the cumulative value of the immersion time to be immersed in the treatment liquid, and
When the cumulative value exceeds the threshold value, a step of discarding a part or all of the used treatment liquid from the immersion tank and replacing it with the treatment liquid waiting in the standby tank.
A cleaning method comprising. Further, a step of mixing raw water and a treatment agent in the waiting tank to generate the treatment liquid, and
The process of acquiring dirt information from the object to be cleaned and
A step of acquiring concentration information from the treatment liquid being generated or waiting in the waiting tank and changing the mixing ratio of the raw water and the treatment agent using either or both of the concentration information and the stain information. ,
The cleaning method according to claim 1, wherein the cleaning method comprises. The cleaning method according to claim 1 or 2, further comprising a step of changing the disposal time of the treatment liquid in the immersion tank with reference to the dirt information obtained from the object to be cleaned. Further, a step of acquiring the exchange completion information of the treatment liquid and
The process of presenting the exchange end information and
The cleaning method according to any one of claims 1 to 3, wherein the cleaning method comprises. A cleaning system equipped with a washing machine for washing an object to be cleaned including tableware, and immersing the object to be cleaned in a treatment liquid before cleaning by the washing machine.
A waiting tank that keeps the processing liquid on standby,
An immersion tank in which the treatment liquid is stored and the object to be cleaned is immersed in the treatment liquid.
The count value of the object to be cleaned or the cumulative value of the immersion time to be immersed in the treatment liquid is acquired, and when the cumulative value exceeds the threshold value, a part or all of the used treatment liquid is discarded from the immersion tank. Then, the control unit for exchanging with the treatment liquid in the standby tank and
A cleaning system characterized by including. Further, the control unit acquires stain information from the object to be cleaned, acquires concentration information from the treatment liquid being generated or waiting in the standby tank, and either one of the concentration information or the stain information or The cleaning system according to claim 5, wherein the mixing ratio of the raw water and the treatment agent for producing the treatment liquid is changed by using both of them. The cleaning system according to claim 5 or 6, wherein the control unit changes the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned. .. The claim according to any one of claims 5 to 7, wherein the control unit acquires the exchange end information of the processing liquid and causes the information presenting unit to present the exchange end information. Cleaning system. It is a program to be realized by a computer
A function to generate control information that makes the processing liquid stand by in the standby tank attached to the immersion tank, and
A function to generate control information for immersing the object to be cleaned in the treatment liquid of the immersion tank, and
A function of acquiring the count value of the object to be cleaned or the cumulative value of the immersion time to be immersed in the treatment liquid, and
When the cumulative value exceeds the threshold value, a function of generating control information for discarding a part or all of the used treatment liquid from the immersion tank and replacing it with the treatment liquid waiting in the standby tank, and
A program for realizing the above with the computer. Further, a function of mixing raw water and a treatment agent in the standby tank to generate control information for generating the treatment liquid, and
The function of acquiring dirt information from the object to be cleaned and
Control information that acquires concentration information from the treatment liquid being generated or waiting in the standby tank and changes the mixing ratio of the raw water and the treatment agent by using either or both of the concentration information and the stain information. With the ability to generate
The program according to claim 9, wherein the above is realized by the computer. Further, claim 9 or claim 10 for realizing a function of generating control information for changing the disposal time of the treatment liquid in the immersion tank by referring to the dirt information acquired from the object to be cleaned by the computer. Described program. Further, a function of acquiring the exchange completion information of the treatment liquid and
The function of presenting the exchange end information and
The program according to any one of claims 9 to 11, wherein the program is realized by the computer. A recording medium comprising storing the program according to any one of claims 9 to 12. A cleaning device provided with a washing machine for washing an object to be cleaned including tableware, and immersing the object to be cleaned in a treatment liquid before cleaning by the washing machine.
A waiting tank that keeps the processing liquid on standby,
An immersion tank in which the treatment liquid is stored and the object to be cleaned is immersed in the treatment liquid.
The count value of the object to be cleaned or the cumulative value of the immersion time to be immersed in the treatment liquid is acquired, and when the cumulative value exceeds the threshold value, a part or all of the used treatment liquid is discarded from the immersion tank. Then, the control unit for exchanging with the treatment liquid in the standby tank and
Cleaning equipment characterized by including. Further, the control unit acquires stain information from the object to be cleaned, acquires concentration information from the treatment liquid being generated or waiting in the standby tank, and either one of the concentration information or the stain information or The cleaning apparatus according to claim 14, wherein the mixing ratio of the raw water and the treatment agent for producing the treatment liquid is changed by using both of them. The cleaning device according to claim 14 or 15, wherein the control unit changes the disposal time of the treatment liquid in the immersion tank with reference to the dirt information acquired from the object to be cleaned. .. The claim according to any one of claims 14 to 16, wherein the control unit acquires the exchange end information of the processing liquid and causes the information presenting unit to present the exchange end information. Cleaning equipment.

Images