JP2019028546A - Operation management system of surgical set - Google Patents

Abstract

To prevent a mistake in taking an operation tool.SOLUTION: When individual information is detected by a reader, a first processing unit 201 identifies an instrument or a component based on the detected individual information. A second processing unit 202 identifies an operation or an operation area. A third processing unit 203 identifies an operation tool required in the operation or the operation area based on the instrument or the component identified by the first processing unit 201, the operation or the operation area identified by the second processing unit 202, and information stored in a fourth storage unit 104. The fourth processing unit 204 determines, based on a sensor provided in a stationary device where the operation tool identified by the third processing unit 203 is placed, whether or not the use of the operation tool is detected, in the operation or the operation area identified by the second processing unit 202.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a work management system for a surgical set.

  Japanese Patent Application Laid-Open No. 2003-16198 proposes an apparatus provided with a device for individually providing an identification code on an accessory used in diagnosis, surgery, examination, etc., and reading the identification code. In the database of the management device, data relating to a patient, data of a doctor in charge of the patient, inventory data of small steel items, and the like are stored as medical data. Then, after a medical action such as surgery or treatment is performed on the patient, the medical data stored on the database of the management apparatus is compared with the read data.

  Japanese Patent Application Laid-Open No. 2012-215990 proposes an apparatus for supporting a picking operation of medical equipment. Specifically, a storage unit that stores medical device identifiers and medical device images and a storage unit that stores medical device identifiers that are similar to each other are stored. The apparatus presented in the publication is configured so that an image of a medical device designated by a user and an image of a medical device similar to the medical device are displayed side by side.

  Japanese Patent Application Laid-Open No. 2015-197735 proposes an apparatus capable of delivering guidance information that is a reference for general medical staff. The apparatus proposed here uses medical work information representing the contents of medical practice by skilled medical staff as guidance information. Guidance information is distributed in response to requests from general medical staff.

JP 2003-16198 A JP 2012-215990 A JP-A-2015-197735

  By the way, surgical instruments are managed in the order of recovery, cleaning, assembly, sealing, sterilization, and storage after surgery, and instruments stored after sterilization are used again in surgery. Among these, a predetermined jig may be used in the operation of cleaning the surgical instrument. Further, in the operation of assembling the surgical instrument, it may be determined that a predetermined oil is to be applied to a predetermined part of the instrument. In such a surgical set cleaning operation and assembly operation, a method for managing that a predetermined jig is used or that oil is inserted has not been established.

The proposed surgical set operation management system includes a leader, a stationary device, and a processing device.
The stationary apparatus includes a stationary part on which a predetermined working tool is placed, and a sensor provided in the stationary part.
The processing device includes a first storage unit, a second storage unit, a third storage unit, a fourth storage unit, a first processing unit, a second processing unit, a third processing unit, and a fourth processing unit. And.
The 1st memory | storage part has memorize | stored the instrument ID and component ID which were respectively linked | related one-to-one by each component of the surgery set comprised with the several instrument and the component which comprises an instrument.
The second storage unit stores a set ID associated with the surgical set on a one-to-one basis, an instrument ID of the instrument belonging to the surgical set, and a component ID belonging to the surgical set.
The third storage unit stores the individual information of the appliance and the appliance ID, and the individual information of the component and the component ID in association with each other.
The fourth storage unit stores the tool ID or the component ID, the work or work area, and the work tool in association with each other.
The first processing unit is programmed to identify an instrument or a component based on the detected individual information when the individual information is detected by the reader.
The second processing unit is programmed to identify a work or work area.
The third processing unit is configured to perform the work based on the instrument or component specified by the first processing unit, the work or work area specified by the second processing unit, and information stored in the fourth storage unit. Alternatively, it is programmed to identify work tools required in the work area.
The fourth processing unit uses the work tool based on a sensor provided in the stationary apparatus in which the work tool specified by the third processing unit is placed in the work or work area specified by the second processing unit. It is programmed to determine whether or not an event has been detected.

  According to the operation management system for such a surgical set, it is possible to determine whether or not a predetermined work tool is used in a predetermined operation.

FIG. 1 is a conceptual diagram of a work management system 10 for a surgical set. FIG. 2 is a schematic diagram illustrating a specific configuration example of the system 10. FIG. 3 is a configuration example of the database 400 in which the first storage unit 101 to the third storage unit 103 are collected. FIG. 4 is a configuration example of the database 420 that embodies the fourth storage unit 104. FIG. 5 is a perspective view showing the sterilization indicator stationary device 12A. FIG. 6 is a perspective view showing a stationary device 12B on which a maintenance oil spray can is placed. FIG. 7 is a configuration example of the database 440 that embodies the sixth storage unit 106.

  Hereinafter, an operation management system for a surgical set according to an embodiment of the present invention will be described with reference to the drawings. It should be noted that the embodiments described herein are not intended to limit the present invention. In addition, members / parts having the same action are denoted by the same reference numerals, and overlapping descriptions are omitted or simplified as appropriate.

Here, the surgical set is a group of a plurality of medical instruments used in one operation or one step of the operation. Here, the medical instrument is appropriately referred to as an instrument.
Surgical set instruments include, for example, trocar, forceps, lancing device, irrigation and suction device, scissors, scalpel, scalpel holder, cannula, lever, retractor, scale, sonde, eleba, laspa, suction tube, thoracotomy device, Chest chest, needle holder, syringe, metal ball, pus basin, cup, pin, mirror, file, opener, clamp, handpiece, chisel, sharp knife, exfoliator, mirror, suture needle, Stanze, water receiver , Needle, indenter, bougie, vent tube, bone fragment implanter, rewell, radio pliers, hammer, angle meter, dropper, enema, syringe, etc.

  Medical devices include devices composed of a plurality of components. For example, a trocar, forceps, incision device, washing and suction device and the like used in laparoscopic surgery are composed of a plurality of components, and are collected after the operation and disassembled into a plurality of components. Here, a part constituting the medical instrument is referred to as a component part. In addition, there are cases where the component part is further composed of a plurality of component parts.

  Such a medical instrument and components of the medical instrument are determined to be cleaned. For this reason, the medical instrument and the component parts of the instrument are collected after the operation, sorted for each designated cleaning operation, and sent to the cleaning process. After cleaning, an instrument composed of a plurality of components is assembled, and divided into surgical sets or medical instruments and placed in a predetermined container and sealed. Thereafter, it is sterilized by a designated sterilization method and stored until next use. Thus, in the use of the surgical set, the steps of surgery → recovery (sorting) → cleaning → assembly (sealing) → sterilization → storage → surgery are repeated.

  In order to prevent nosocomial infections and the like, it is important that each instrument and component of the surgical set be cleaned and assembled by appropriate methods and procedures. The cleaning operation and the assembly operation are defined for the appliance and the component parts, respectively. For example, tools used for cleaning are determined in the cleaning operation. In assembly work, maintenance oil and the like used at the time of assembly are determined. In addition, after assembly, it is placed in a predetermined container and sealed. At this time, it is determined that a predetermined sealing tool is used in the sealing operation. Further, it is defined that a predetermined sterilization indicator is used in the sterilization operation. In this way, predetermined working tools such as predetermined tools, maintenance oil, sealing tools, and sterilization indicators are used in cleaning work, assembling work, sealing work, and sterilization.

Here, the working tools are various materials and tools used in the work, and may include tools, maintenance oil, sealing tools, sterilization indicators, and the like as exemplified above.
Here, the tool is, for example, a brush if it is a cleaning tool. In the operation of cleaning the surgical set, a plurality of types of brushes may be prepared, and a predetermined brush is used for each. Maintenance oil is used in assembly work, for example. There are cases where a plurality of types of maintenance oil are prepared, and predetermined maintenance oils are used for the appliances or components. The sealing tool is a predetermined sealing container used in the sealing operation. The sterilization indicator is an indicator for ensuring that the sterilization operation is sterilized under a predetermined condition. As the sterilization indicator, various sterilization indicators are prepared according to environmental conditions such as the temperature and PH of the sterilization process, and it is necessary to use them for each sterilization process condition.

  The operation management system for the surgical set proposed here can be used, for example, to manage that a predetermined working tool is used and properly operated in a cleaning operation, an assembly operation, or a sealing operation. .

  FIG. 1 is a conceptual diagram of a surgical set work management system 10 (hereinafter sometimes referred to as “system 10” as appropriate).

  As shown in FIG. 1, the system 10 includes readers 11 a and 11 b, stationary devices 12 a and 12 b, display devices 13 a and 13 b, and a processing device 14. The readers 11a and 11b, the stationary devices 12a and 12b, and the processing device 14 are preferably connected so that data communication is possible. In the form shown in FIG. 1, the readers 11a and 11b, the stationary devices 12a and 12b, the display devices 13a and 13b, and the processing device 14 cooperate with each other through a communication network 15 in a state where data communication is possible. ing. It is an apparatus that processes information in accordance with a predetermined program. The processing device 14 includes various processing modules such as a storage unit for storing various types of information and a processing unit for processing information.

  FIG. 1 is a conceptual diagram of the system, and the form of the system 10 is not limited to this. In the example illustrated in FIG. 1, there are two readers 11 a and 11 b, stationary devices 12 a and 12 b, and display devices 13 a and 13 b, but the reader 11, stationary device 12, and display device 13 of the system 10 are There may be one each. The system 10 may include more readers 11, stationary devices 12, and display devices 13. Further, the processing device 14 may be embodied as a single device, or a plurality of devices may function in cooperation as a processing device. In FIG. 1, the reader 11, the stationary device 12, and the display device 13 are individually distinguished as readers 11 a and 11 b, stationary devices 12 a and 12 b, and display devices 13 a and 13 b. In this specification, when it is not necessary to distinguish the readers 11a and 11b, the stationary devices 12a and 12b, and the display devices 13a and 13b, they are simply referred to as “reader 11”, “stationary device 12”, and “display device 13”. .

  FIG. 2 is a schematic diagram illustrating a specific configuration example of the system 10. In the form shown in FIG. 2, the system 10 includes operation terminals 51 to 55, readers 61 to 63, stationary devices 66 to 67, a server 70, and a router 75.

  In FIG. 2, the operation terminals 51 to 53 and 55 are tablet terminals, and the operation terminal 54 is a stationary terminal. In addition, each of the operation terminals 51 to 55 has a built-in computer. That is, the operation terminals 51 to 55 include a storage device that stores information, and an arithmetic device that executes predetermined processing according to a program. The operation terminals 51 to 55, the readers 61 to 63, and the server 70 are connected in a state where information communication is possible with a wireless communication network constructed through the router 75. The server 70 is a host computer that is the backbone of each process of the system 10. The server 70 includes a large-capacity storage device 72 that stores information. The operation terminals 51 to 55 function as client computers of the system 10. In FIG. 2, readers 61 to 63 and stationary devices 66 and 67 are connected to operation terminals 51 to 55 through a communication network so that information communication is possible. Note that the readers 61 to 63 and the stationary devices 66 and 67 may be connected to the server 70 through a communication network so as to allow information communication.

  In the form shown in FIG. 2, a work area such as a recovery area A for recovering the surgical set, a cleaning area B for cleaning, and an assembly area C for assembly and sealing after cleaning is set. The operation terminal 51 and the reader 61 are arranged in the collection area A for collecting the surgical set. The operation terminals 52 and 53, the reader 62, and the stationary device 66 are disposed in the cleaning area B where cleaning is performed. The operation terminals 54 and 55, the reader 63, and the stationary device 67 are assembled and sealed in the assembly area C after cleaning. In this way, the system 10 is configured to be used simultaneously in parallel by a plurality of different users at a plurality of remote locations.

  The readers 61 to 63 shown in FIG. 2 are devices that function as the reader 11 shown in FIG. The stationary devices 66 and 67 function as the stationary device 12 shown in FIG. The operation terminals 51 to 55 shown in FIG. 2 function as terminals handled by the user. Further, the displays 51a to 55a of the operation terminals 51 to 55 function as the display device 13, respectively, and are devices that present required information in the system 10 to the user.

  In the form shown in FIG. 2, the operation terminals 51 to 55 and the server 70 cooperate to function as the processing device 14 (see FIG. 1) of the system 10. In the form shown in FIGS. 1 and 2, the system 10 is embodied by a plurality of devices. The system 10 is used by a plurality of users, and many surgical sets are managed in a plurality of steps in parallel. For this reason, as shown in FIGS. 1 and 2, a system is constructed so that a plurality of personal computers can cooperate with each other through a communication network. Various well-known techniques can be adopted as a technique for constructing a system so that a plurality of personal computers can cooperate with each other through a communication network. The readers 61 to 63 and the stationary devices 66 and 67 may employ an energy harvesting technique and a technique for obtaining energy from the surrounding environment such as light, vibration, and heat. Further, energy harvesting wireless communication technology may be adopted.

  The reader 11 is a device that reads individual information incorporated in a surgical set instrument or a component part of the instrument.

  Here, the individual information may be a predetermined form of a two-dimensional symbol. For example, the individual information used for the surgical set instrument can be embodied by a two-dimensional barcode, a non-contact tag such as RFID, or a stamp formed on the instrument surface. The marking can be formed by laser marking or stamping.

  For example, a metal printer (for example, MPX-95 manufactured by Roland DG Inc.) can be used for forming the two-dimensional symbol by engraving. According to such a metal printer, for example, it is possible to form a data matrix with a fine size of about 1 mm to 4 mm square. The two-dimensional symbol by stamping is formed by denting the instrument surface. The plating film on the surface of the instrument is not easily damaged, and the instrument is not easily rusted by attaching a two-dimensional symbol. In addition, it can be applied to existing instruments in which a two-dimensional symbol is not formed by development of a metal printer or the like, and a two-dimensional symbol can be set and given by a user.

Here, each component of the system 10 will be described in order. Here, FIG. 1 is used as a main reference drawing, and description will be made with reference to the specific example of FIG. 2 as appropriate.
The reader 11 (see FIG. 1) is a device that reads individual information. Each of the readers 61 to 63 shown in FIG. 2 has a box-shaped housing, and includes detection units 61a to 63a with built-in cameras. In this embodiment, the individual information assigned to the instrument or component is read by directing a two-dimensional symbol stamped on the instrument or component to the detectors 61a to 63a. In addition, the reader | leader 11 (refer FIG. 1) is not limited to the form shown by FIG. 2, A various form can be taken.

The stationary device 12 includes a stationary unit 121, a sensor 122, and a notification unit 123.
The stationary part 121 is a part where a predetermined work tool 40 is placed. The sensor 122 is provided in the stationary part 121. The sensor 122 is good to be comprised so that it can detect that the working tool put on the stationary part 121 was used, for example. For example, when the work tool 40 is an oil spray or a cleaning brush, the sensor 122 detects that the work tool has been removed from the stationary part 121 or that the work tool 40 has been placed from the stationary part 121. It is good that it is a device for doing. In addition, when the work tool 40 is of a type that is used up like a sterilization indicator, the sensor 122 may be a device for detecting that the work tool 40 has been taken out by the stationary part 121, for example. The notification unit 123 is a part configured to execute a predetermined notification process. The alerting | reporting part 123 can be comprised with an indicator lamp etc., for example. The indicator lamp as the notification unit 123 may be disposed at a position where the stationary device 12 is easily visible. Moreover, the alerting | reporting part 123 may be provided with the speaker for generating a predetermined alarm sound and audio | voice guidance, for example.

  The display device 13 may be a device that displays information in accordance with a command from the processing device 14, and various display devices may be employed. In the form shown in FIG. 2, the display device 13 includes the displays 51 a to 55 a of the operation terminals 51 to 55. The display device 13 may be configured with a touch panel. When the display device 13 is configured by a touch panel, the system 10 can be configured so that the user operates by touching the screen of the display device 13.

  The processing device 14 is a device that performs various processes of this system. The processing device 14 can be embodied by a computer that is driven in accordance with a predetermined program. Specifically, each function of the processing device 14 includes an arithmetic device (also referred to as a processor, a CPU (Central Processing Unit), or an MPU (Micro-processing unit)) or a storage device ( Processed by memory, hard disk, etc.) For example, each configuration of the processing device 14 is a database that stores data embodied by a computer in a predetermined format, a data structure, a processing module that performs predetermined arithmetic processing according to a predetermined program, or the like, or It can be embodied as part of them.

  In the form shown in FIG. 2, the processing device 14 is embodied by cooperation between a computer incorporated in the operation terminals 51 to 55 and a server 70 connected to the operation terminals 51 to 55 through a communication network. . Thus, each function of the processing device 14 may be embodied by a plurality of devices that cooperate with each other through a network. That is, in FIG. 1, the processing device 14 is illustrated as a single device, but is not limited to being a single device.

  In the form shown in FIG. 1, the processing device 14 includes storage units 101 to 106 that store various types of information and processing units 201 to 211 that are programmed to perform predetermined processes. The information stored in the storage units 101 to 106 may be stored in, for example, the storage device 72 of the server 70 as a host computer in the form of FIG. The information stored in the storage device 72 of the server 70 may be managed in a state where it can be appropriately accessed by the client computers 51 to 55 connected through the network. In FIG. 2, the client computers 51 to 55 are configured by tablet terminals 51 to 53 and 55 and a stationary personal computer 54.

  The processing device 14 includes, as a basic configuration, a first storage unit 101, a second storage unit 102, a third storage unit 103, a fourth storage unit 104, a first processing unit 201, and a second processing unit 202. The third processing unit 203 and the fourth processing unit 204 are provided.

  The first storage unit 101 stores an instrument ID and a component ID that are associated one-on-one with each component of the surgical set composed of a plurality of instruments and the components that constitute the instrument. That is, in this system 10, the instrument ID is given to the instrument of the surgical set. In addition, a component ID is assigned to each component constituting the instrument. The appliance ID is one-to-one corresponding to a specific appliance, and the component ID is one-to-one corresponding to a specific component. Thereby, in the system 10, the instrument of the surgical set and the component parts of the instrument are specified by the instrument ID and the part ID, respectively.

  The second storage unit 102 stores a set ID associated with a surgical set on a one-to-one basis, an instrument ID of an instrument belonging to the surgical set, and a component ID of a component belonging to the surgical set. That is, in this system 10, a set ID associated with a surgical set on a one-to-one basis is given, and the surgical set is specified by the set ID. Further, when the set ID is identified, the instrument ID of the instrument belonging to the surgical set identified by the set ID and the component ID of the component are identified. Furthermore, when the component ID of the component part is specified, the instrument ID of the instrument to which the component part belongs is specified. When the instrument ID is specified, the set ID of the surgical set to which the instrument belongs is specified. In addition, when the instrument includes a component, the component ID of the component belonging to the instrument is identified from the instrument ID.

  The third storage unit 103 stores the individual information on the appliance and the appliance ID, and the individual information on the component and the component ID in association with each other. Here, the individual information is information that can be read by the reader 11 like a two-dimensional symbol, and is an identifier that is assigned to or attached to the instrument or component. The individual information is different for each instrument and component, and is information that can be identified one-to-one for each instrument or component. Since the individual information of the appliance and the appliance ID, and the individual information of the component and the component ID correspond one-to-one, one appliance or component is specified based on the individual information detected by the reader 11. .

  With the third storage unit 103, in the system 10, the device ID or the component ID (that is, the device or the component) is specified from the individual information. Furthermore, from the information stored in the second storage unit 102, the surgical set to which the instrument or component specified by the individual information belongs is specified. The individual information is not necessarily attached to all the instruments and components of the surgical set. In the 3rd memory | storage part 103, about the instrument and component to which individual information was provided among surgery sets, it is good to store individual information and instrument ID or component ID in a one-to-one relationship. In addition, information indicating that individual information is not assigned may be stored in association with an instrument ID or a component ID for instruments and components to which individual information is not assigned in the surgical set.

The fourth storage unit 104 stores a tool ID or a component ID, a work or work area, and a work tool 40 in association with each other. Here, the “operation” is an operation performed on an instrument or a component, and examples thereof include operations such as cleaning, assembly, sealing, and sterilization. The “work area” is an area where a specific work is performed. For example, the cleaning operation is performed in the cleaning area B of FIG. In the assembly area C, assembly work and sealing work are performed. That is, in the fourth storage unit 104, the component identified by the instrument ID or the component ID identified by the instrument ID, the work area performed on the instrument or component, or the work area where the work or task is performed, and the work or work area. Are stored in association with the work tool 40 required in the above. That is, the tool or component, the work or work area, and the work tool 40 are stored in association with each other.
Thereby, for example, when a tool or a component and a work or work area are specified, the work tool 40 is specified. Here, in a specific process of the processing device 14, an appliance or a component can be appropriately identified by an appliance ID and a component ID. A work or work area can also be appropriately specified by a work ID or work area ID assigned in advance.

  The first storage unit 101 to the fourth storage unit 104 described above may be configured by independent databases. Moreover, the 1st memory | storage part 101-the 4th memory | storage part 104 can be comprised by one database.

  FIG. 3 is a configuration example of the database 400 in which the first storage unit 101 to the third storage unit 103 are collected. In FIG. 3, columns 401 to 407 for storing a set ID of a surgical set, a surgical set name, an instrument ID, an instrument name, a component ID, a GS1 code as individual information, and an image file are provided and are associated with each other. It is remembered. The image file stores an image of a surgical set, an instrument, or a component, and can be configured to appropriately display an image through the display device 13.

FIG. 4 is a configuration example of the database 420 that embodies the fourth storage unit 104.
Here, columns 421 to 430 are provided for storing the set ID, instrument ID, component ID, work ID 1, work area ID1, work tool ID1, work ID2, work area ID2, work tool ID2, and work tool ID3 of the surgical set. Are stored in association with each other. Among these, in the columns 424 to 426 storing the work ID 1, the work area ID 1, and the work tool ID 1, information related to the cleaning work, the cleaning area, and the work tool used in the cleaning work is stored. In the columns 427 to 430 in which the work ID 2, work area ID 2, work tool ID 2, and work tool 3 are stored, information on the assembly work, the assembly area, the work tool used in the assembly work, and the work tool used in the sealing work is stored. Has been.

  The information stored in the fourth storage unit 104 is not limited to this form. The fourth storage unit 104 may store, for example, a tool or a component, a plurality of work areas where a plurality of work or work is performed, and a work tool in association with each other. Furthermore, a plurality of operations performed on the appliance and the component, a work procedure of the plurality of operations, and a work tool required for each of the plurality of operations may be stored in association with each other. . Further, the fourth storage unit may store the tool or the component and the work tool 40 in association with each work or work area.

The first processing unit 201 is programmed to specify an instrument or a component based on the detected individual information when the individual information is detected by the reader 11. In this embodiment, the individual information detected by the reader 11 is transmitted to the processing device 14 through the communication network 15. For example, the individual information is temporarily stored in the processing device 14. The processing device 14 is preferably provided with a predetermined storage area for storing the individual information detected by the reader 11.
Here, when individual information is detected by the reader 11, there are, for example, two forms for specifying a device or a component based on the detected individual information.
A 1st form is specifying the instrument or component specified based on the detected individual information, when individual information is detected by the reader 11.
In the second embodiment, when the individual information is detected by the reader 11, the surgical set to which the instrument or component specified based on the detected individual information belongs is specified, and the instrument and the component belonging to the surgical set are further specified. Is to identify.

In the first processing unit 201, for example, individual information is specified based on the individual information detected by the reader 11. Next, based on the information stored in the third storage unit 103, the appliance ID or the component ID is specified from the specified individual information.
As another form, in the first processing unit 201, when the appliance ID or the component ID is specified based on the individual information detected by the reader 11, the first processing unit 201 sets based on the information stored in the second storage unit 102. An ID is specified. When the set ID is specified, the surgical set is specified. Furthermore, all instruments and components belonging to the surgical set are specified based on the set ID.
Thus, in the 1st process part 201, when individual information is detected by the reader | leader 11, the instrument or component identified by the said individual information may be identified, or the instrument identified by the said individual information Alternatively, all instruments or components belonging to the surgical set to which the component belongs may be specified.

The second processing unit 202 is programmed to identify a work or work area.
Here, in the 1st process part 201, when individual information is detected by the reader | leader 11, based on the detected individual information, the surgery set to which an instrument or a component or an instrument or a component belongs belongs is specified. . In the second processing unit 202, for example, when the appliance or component specified by the first processing unit 201 is specified, the appliance ID or component ID of the appliance or component is specified. In addition, when a surgical set is specified by the first processing unit 201, a tool ID or a component ID of a tool or a component belonging to the surgical set is specified.
Further, in the second processing unit 202, based on the specified appliance ID or part ID, the work or work area to be applied to the tool or the component, and the work or work area, based on the information stored in the fourth storage unit 104. The work tool 40 required in the work area is specified.

  The third processing unit 203 is programmed to identify the work tool 40 required in the work or work area. The third processing unit 203 includes, for example, the appliance or component specified by the first processing unit 201, the work or work area specified by the second processing unit 202, and the information stored in the fourth storage unit 104. Based on the above, it may be programmed to identify the work tool required in the work or work area.

The fourth processing unit 204 is based on a sensor 122 provided in the stationary apparatus 12 in which the work tool 40 specified by the third processing unit 203 is placed in the work or work area specified by the second processing unit 202. It is programmed to determine whether or not it has been detected that the work tool 40 has been used.
According to the system 10, has the fourth processing unit 204 detected that the work tool 40 specified by the third processing unit 203 has been used in the work or work area specified by the second processing unit 202? Determine whether or not. That is, it can be determined whether or not a predetermined work tool 40 has been used in a predetermined work or work area. For this reason, when a predetermined work tool 40 is not used in a predetermined work or work area, the user can be informed of the information, such as by sounding a warning sound. This can be done to ensure that the tool 40 is used. Thereby, it is possible to prevent mistakes in the work tool.

  For example, the fourth storage unit 104 may be configured with the database illustrated in FIG. In this case, for the surgical set specified by the set ID of Set1, when a work tool whose work tool ID is specified by Brush1 is used in the cleaning operation of the tool whose tool ID is specified by BOM1 (work ID 1: Wash1). Good. In this case, the instrument ID is specified as BOM1 by the first processing unit 201 of the processing device 14. The work ID 1 is specified as Wash 1 by the second processing unit 202. The third processing unit 203 identifies the work tool ID as Brush1. Whether the fourth processing unit 204 has detected that the work tool (ie, Brush 1) specified by the third processing unit 203 has been used in the work (ie, Wash 1) specified by the second processing unit 202. It is good to determine whether or not.

  Here, the use of the work tool 40 differs depending on the structure of the stationary part 121 and the sensor 122. For example, the work tool 40, such as a cleaning tool or a maintenance oil container, may be removed from the stationary part 121 when used, and returned to the stationary part 121 after being used. In this case, for example, the sensor 122 may be configured to detect that the work tool 40 has been removed from the stationary part 121 or that the work tool 40 has been placed from the stationary part 121. Further, when the work tool 40 is placed on the stationary part 121 like a sterilization indicator and is used by being taken out from the stationary part 121 when used, the sensor 122 removes the work tool 40 from the stationary part 121. It may be configured to detect this.

  5 and 6 are schematic views showing examples of the stationary device 12, respectively. Here, one embodiment of the stationary device 12 is illustrated. The stationary device 12 is not limited to the embodiment illustrated here, and an appropriate structure may be adopted according to the work tool 40.

  FIG. 5 is a perspective view showing the sterilization indicator stationary device 12A. This stationary device 12A includes a container 12A1 for housing a sterilization indicator. In FIG. 5, one side surface of the housing of the stationary apparatus 12 </ b> A is not shown, and the inner container 12 </ b> A <b> 1 is shown to be visible. The container 12A1 is provided with a lid 12A2. A rotation shaft 12A3 is provided on the top of the lid 12A2, and the lid 12A2 opens and closes along the upper edge. A sensor 12A4 for detecting opening / closing of the lid 12A2 is provided at the lower portion of the lid 12A2. The sensor 12A4 is composed of a magnet sensor. The sensor 12A4 includes a magnet and a sensor unit that detects the proximity of the magnet. The magnet is attached to the lower side of the lid 12A2. The sensor unit is provided at a position close to the magnet in the housing 12A5 disposed on the side of the lid 12A2 in a state where the lid 12A2 is closed. According to this sensor 12A4, a state where the lid 12A2 is opened and a state where it is closed are detected. For this reason, in a predetermined operation, when the lid 12A2 is opened from the state where the lid 12A2 is closed, it can be estimated that the sterilization indicator is used.

  In this embodiment, stationary device 12A is provided with lamp 12A6 as reporting part 123, and solar panel 12A7 as a power generator. The lamp 12A6 is provided on the lid 12A2. The solar panel 12A7 may be provided on the side surface of the housing 12A5 disposed on the side of the lid 12A2. The housing 12A5 arranged on the side of the lid 12A2 incorporates a control device 12A8 that is driven by energy obtained by the solar panel 12A7. The control device 12A8 includes a communication device configured to be capable of wireless communication and a device that controls the light emission of the lamp 12A6. Control device 12A8 transmits detection information of sensor 12A4 that detects a state in which lid 12A2 is opened or closed. The transmitted detection signal is received by the server 70, and it is determined whether or not the sterilization indicator is used in accordance with a predetermined program. The lamp 12A6 emits light at a predetermined timing under the control of the control device 12A8. The server 70 is configured to control the control device 12A8 to cause the lamp 12A6 to emit light at a timing at which the sterilization indicator stored in the stationary device 12A should be used according to a predetermined program. . As a result, the user is notified of the timing at which the sterilization indicator stored in the stationary apparatus 12A should be used.

  FIG. 6 is a perspective view showing a stationary device 12B on which a maintenance oil spray can is placed. The stationary device 12B includes a housing 12B1, a swing plate 12B2, a swing shaft 12B3, a button 12B4, a lamp 12B5, a power generation element 12B6, and a control device 12B7. The casing 12B1 is a rectangular parallelepiped box-shaped member. FIG. 6 does not show one side surface of the housing 12B1, but illustrates the inside of the housing 12B1.

An opening 12B8 is formed on the top surface of the housing 12B1. The opening portion 12B8 is provided with a stationary portion 121 in which a spray can is placed.
A swing plate 12B2 is disposed in the housing 12B1. One end of the swing plate 12B2 extends to the opening 12B8, and the other end of the swing plate 12B2 is attached to the swing shaft 12B3. The swing shaft 12B3 is supported by the housing 12B1. The swing plate 12B2 swings in the housing 12B1 starting from one end where the swing shaft 12B3 is provided. A portion extending to the opening 12B8 of the swing plate 12B2 is lifted upward by a spring (not shown) loaded in the housing 12B1. A locking piece 12B9 extends at the tip of the swing plate 12B2, and is fitted into a window 12B10 formed on the side surface of the housing 12B1. The upper limit of the swing of the swing plate 12B2 is a position where the locking piece 12B9 hits the upper edge of the window 12B10. The lower limit of the swing of the swing plate 12B2 is a position where the locking piece 12B9 hits the lower edge of the window 12B10.

  When the spray can is placed in the opening 12B8, the swing plate 12B2 is pushed down by the weight of the spray can. The button 12B4 may be configured to detect the swing of the swing plate 12B2. In this embodiment, the button 12B4 is disposed below the swing plate 12B2. When the swing plate 12B2 is pushed down, the button 12B4 is pushed.

The button 12B4 is provided with a sensor, and the control device 12B7 confirms that the swing plate 12B2 has been pushed down, or that the swing plate 12B2 has been returned from the pushed state to the pushed up position. Detect. The maintenance oil spray can is placed in the opening 12B8 of the housing 12B1. When the spray can is placed in the opening 12B8 of the housing 12B1 as the stationary portion 121, the swing plate 12B2 is pushed down by the spray can. The state where the swinging plate 12B2 is pushed down can be estimated that the spray can is placed in the opening 12B8.
When the spray can is removed from the opening 12B8 of the housing 12B1, the swing plate 12B2 is pushed up by the spring. When the swinging plate 12B2 is pushed down, it can be estimated that the spray can has been removed from the opening 12B8. The control device 12B7 detects whether the swing plate 12B2 is pushed down or whether the swing plate 12B2 is pushed up, and transmits detection information. The transmitted detection signal is received by the server 70, and it is determined whether or not the spray can is used in accordance with a predetermined program.

  For example, the power generation element 12B6 may be configured to generate power upon receiving the swing of the swing plate 12B2. In this embodiment, when the button 12B4 is pressed by receiving the swing of the swing plate 12B2, the power generation element is configured to generate minute electric power. Then, the generated minute electric power is stored in a capacitor, and a detection signal is transmitted by the stored electric power.

  The control device 12B7 includes a communication device configured to be capable of wireless communication and a device that controls the light emission of the lamp 12B5 as the notification unit 123. The lamp 12B5 is controlled by the control device 12B7 to emit light at a predetermined timing. The server 70 is configured to control the control device 12A8 so that the lamp 12B5 emits light at the timing when the maintenance oil of the spray can placed in the stationary device 12B should be used according to a predetermined program. Has been. Thus, the user is notified of the timing at which the maintenance oil of the spray can placed on the stationary device 12B should be used.

As described above, the sensor 122 of the stationary device 12 may be configured to detect that the work tool 40 has been removed from the stationary part 121 and that the work tool 40 has been placed from the stationary part 121. In this case, the processing device 14 may further include a fifth processing unit 205 and a sixth processing unit 206.
Here, the fifth processing unit 205 is placed in the work or work area specified by the second processing unit 202 by the sensor 122 of the placement device 12 on which the work tool 40 required in the work or work area is placed. It may be programmed to determine whether or not it has been detected that the work tool 40 has been removed from the unit 121. When the sixth processing unit 206 detects that the work tool 40 has been removed from the stationary unit 121 by the fifth processing unit 205, it is further detected that the work tool 40 has been placed from the stationary unit 121. It may be programmed to determine whether or not.

  In this case, the system 10 can determine that the work and the required work tool 40 have been returned to the stationary unit 121 after being removed from the stationary unit 121. That is, it can be determined that the work tool 40 has been returned to its original position after being used. In this case, if it is not determined that the work tool 40 has been returned to the stationary part 121 even after a predetermined time has elapsed after the work tool 40 is removed from the stationary part 121, the work tool 40 is placed on the stationary part 121. It may further comprise a processing unit programmed to inform the user of the return. As a process for notifying the user that the work tool 40 is to be returned to the stationary unit 121, the notification unit 123 of the stationary device 12 including the stationary unit 121 on which the work tool 40 is placed may be operated. When the notification unit 123 is an indicator lamp, it may be turned on or blinked. Moreover, when the alerting | reporting part 123 is a speaker, a predetermined warning sound may be emitted or audio | voice guidance may be played. For example, in the stationary apparatus 12B as shown in FIG. 6, it is necessary for the sensor provided in the button 12B4 to detect that the spray can as the work tool 40 is returned to the stationary part 121 after use. become. In this case, it is preferable that the spray can as the work tool 40 can be determined to be returned to the stationary portion 121 as described above.

The fourth storage unit 104 may store a tool or a component, a plurality of work areas where a plurality of work or work is performed, and the work tool 40 in association with each other.
For example, as shown in FIG. 4, a plurality of operations such as a cleaning operation and an assembly operation performed on an instrument or a component and a work tool 40 required for each operation are stored in association with each other. It is good to have. Further, in the fourth storage unit 104, tools used in the cleaning operation, maintenance oil used in the assembly operation, sealing tools used in the sealing operation, indicators used in the sterilization operation, and the like are determined for each instrument or component. It is good to have.

In this case, the second processing unit 202 can specify a plurality of operations such as a cleaning operation and an assembly operation or a plurality of work areas on which the operations are performed. In the third processing unit 203, a work tool is specified for each of a plurality of work or a plurality of work areas specified by the second processing unit 202.
Further, the fourth processing unit 204 may determine whether or not the predetermined work tool 40 is used in a plurality of work or a plurality of work areas. That is, the system 10 can specify the work tool 40 in each of a plurality of work such as a cleaning work and an assembly work, and can determine whether or not the work tool 40 has been used appropriately.

  For example, the case where the 4th memory | storage part 104 is comprised with the database illustrated in FIG. 4 is demonstrated. In this case, when the first processing unit 201 identifies a device whose device ID is specified by BOM3, the second processing unit 202 performs cleaning work (work ID 1: Wash1), assembly work (work ID2: Ass1), and the like. Multiple operations or work areas are identified. Then, in the third processing unit 203, work tools are specified for the plurality of operations or the plurality of work areas specified by the second processing unit 202, respectively. For a tool whose tool ID is specified by BOM3, a brush whose work tool ID is brush2 is specified for the cleaning work (work ID 1: Wash1). In the assembly work (work ID2: Ass1), the maintenance oil whose work tool ID is oil2 is specified. Further, a sealing case with the work tool ID case1 is specified as the assembled sealing tool.

  The second processing unit 202 may be programmed to specify one work or work area among a plurality of predetermined work or work areas.

  For example, the second processing unit 202 may be programmed to display, on the display device 13, an input unit to which a work or work area to be applied to an instrument or a component is input, for example. In this case, an operation performed on the instrument or the component can be input to the input unit displayed on the display device 13 by the user. The 2nd processing part 202 is good to be programmed so that the work performed to an instrument or a component may be specified based on the information inputted into the input part.

For example, the second processing unit 202 may be programmed to display a plurality of predetermined work or a plurality of work areas on the display device 13. In this case, the work or work area may be input when the user designates one work or work area among the displayed work or work areas.
Further, when the display device 13 is a touch panel, it is programmed so that one operation or work area among the plurality of operations or the plurality of work areas displayed on the display device 13 is designated by a touch operation by the user. It may be.
As described above, the second processing unit 202 is configured such that one work or work area is selected from a plurality of works or work areas in which work or work areas to be performed on an instrument or a component are determined in advance. It may be programmed to be selected by operation.

  In the form shown in FIG. 2, operation terminals 51 to 55 are placed in the work areas A to C, respectively. In this case, the work area is specified by the operation terminals 51 to 55. The second processing unit 202 may be configured such that the work areas A to C are specified by the terminals 51 to 55. That is, the processing device 14 may include a storage unit that stores the operation terminals 51 to 55 in association with the work or work area. In this case, for example, when the user operates the operation terminal 53, the work area associated with the operation terminal 53 can be specified. That is, the second processing unit 202 may be programmed so that one work or one work area is specified by the operation terminal 53 associated with the work or work area.

  Moreover, the processing apparatus 14 may be provided with the 5th memory | storage part 105 which linked | related and memorize | stored the reader | leader 11, and work or work area. In this case, when the individual information is detected by the reader 11, the second processing unit 202 performs work or work based on the reader 11 from which the individual information is detected and the information stored in the fifth storage unit 105. It should be programmed to identify the area. For example, when the individual information is detected by the reader 11 placed in the work area, the second processing unit 202 performs the work or work area associated with the leader 11 based on the information stored in the fifth storage unit. May be specified.

  For example, in the form shown in FIG. 2, the leader 61 is arranged in the collection area A. The leader 62 is disposed in the cleaning area B. The leader 63 is disposed in the assembly area C. In this case, in the fifth storage unit 105, the reader 61 may be associated with the collection area A. The leader 62 may be associated with the cleaning area B. The leader 63 may be associated with the assembly area C. When the individual information is detected by the reader 61, the second processing unit 202 may be configured to identify the collection operation or the collection area A. When individual information is detected by the reader 62, the second processing unit 202 may be configured to identify the cleaning operation or the cleaning area B. When the individual information is detected by the reader 63, the second processing unit 202 may be configured to identify the assembly operation or the assembly area C. Further, in the third processing unit 203, the work tool 40 is specified for the work or work area specified by the second processing unit 202 in this way. Further, the fourth processing unit 204 determines whether or not the work tool 40 has been used for the work or work area specified by the second processing unit 202. In this case, since the work tool is specified by reading the individual information with the reader 11 placed in the work area, the work tool can be easily specified.

The system 10 may further include a display device 13. In this case, the processing device 14 includes the tool or component specified by the first processing unit, the work or work area specified by the second processing unit 202, and the work tool 40 specified by the third processing unit 203. May be further provided with a seventh processing unit 207 programmed to display the image on the display device 13.
In the embodiment including the seventh processing unit 207, the tool or component, the work or work area, and the work tool 40 are displayed on the display device 13. The system 10 can be configured so that it can be easily determined by looking at the display device 13 which work tool 40 should be used in the work or work area.

  The fourth storage unit 104 stores a plurality of operations performed on the instrument and the component, a work procedure, and a work tool required for each of the plurality of operations in association with each other. Also good. The second processing unit 202 may be programmed to sequentially specify the work to be performed on the instrument or the component based on the work procedure stored in the fourth storage unit 104. For example, in the database shown in FIG. 4, the order of work ID1, work ID2, and work ID3 is determined based on the work procedure. Thereby, it is good to be comprised so that the operation | work and working tool which are performed to an instrument or a component may be specified in order. In this case, the seventh processing unit 207 may further include a processing unit programmed to display the next work or work area and the work tool on the display device 13 when one work is completed. .

As shown in FIG. 1, the stationary apparatus 12 may further include a notification unit 123 configured to execute a predetermined notification process. In this case, the processing device 14 further includes an eighth processing unit 208 programmed to operate the notification unit 123 of the stationary device 12 on which the work tool 40 specified by the third processing unit 203 is placed. Good.
In the embodiment including the eighth processing unit 208, the notification unit 123 of the stationary apparatus 12 on which the work tool 40 specified by the third processing unit 203 is placed operates, so that the user uses the work or work area. The work tool 40 is less likely to be mistaken.

  For example, when the individual information is detected by the reader 11 and the tool or component to be worked and the work or work area are specified, the notification unit 123 of the stationary apparatus 12 on which the specified work tool 40 is placed. May be configured to operate. In this case, when the user causes the reader 11 to detect the individual information, the notification unit 123 of the stationary device 12 on which the work tool 40 to be used is placed operates. For this reason, it is difficult for the user to mistake the work tool 40 used in the work or work area.

  The fourth storage unit 104 stores a plurality of operations performed on the instrument and the component, a work procedure, and work tools required for each of the plurality of operations in association with each other. It may be. When one work is completed, the notification unit 123 of the stationary device 12 on which the work tool 40 in the next work or work area is placed may be programmed to operate. In this case, when one work is completed, the notification unit 123 of the stationary apparatus 12 on which the work tool 40 used in the next work or work area is activated operates, so that the user uses the work in the next work or work area. The work tool 40 is less likely to be mistaken.

  The processing device 14 may further include a sixth storage unit 106, a ninth processing unit 209, a tenth processing unit 210, and an eleventh processing unit 211.

  Here, the sixth storage unit 106 stores the work performed on the appliance or the component, the user ID, and the date and time when the work was performed in association with each other. FIG. 7 is a configuration example of the database 440 that embodies the sixth storage unit 106. In FIG. 7, columns 441 to 443 for specifying a set ID, a tool ID, and a component ID, columns 444 to 446 for specifying a work ID and a work tool ID, columns 447 and 448 for recording a user ID and a work date and time are included. It is provided in order. In the columns 441 to 443 for specifying the set ID, the instrument ID, and the component ID, information for specifying the surgical set, the instrument, and the component is recorded. In the columns 444 to 446 for specifying the work ID and the work tool ID, information for specifying the work and the work tool 40 is recorded. In the user ID column 447, information for identifying a user who has performed the work specified by the work ID on the instrument or component is recorded. In this field 447, user IDs assigned to the users on a one-to-one basis may be recorded. The work date and time column 448 records the date and time when the work specified by the work ID was performed on the instrument or component. In the case of the database shown in FIG. 7, the user ID and the work date / time may be recorded for each instrument or component or for each work.

The ninth processing unit 209 is programmed to acquire the date and time when the work was performed in the work specified by the second processing unit 202.
The tenth processing unit 210 is programmed to acquire a user ID for performing work in the work specified by the second processing unit 202.
The eleventh processing unit 211 includes the work specified by the second processing unit 202, the date and time when the work acquired by the ninth processing unit 209 was performed, and the user ID acquired by the ninth processing unit 209. It is programmed to be stored in the sixth storage unit 106.

  For example, a button for recording the end of work may be displayed on the display device 13, and the user may operate the button when the assembly work is finished. The date and time when the operation is completed by this operation may be specified by the clock function of the operation terminal and recorded in the operation date and time of the sixth storage unit 106. Further, for example, a user ID may be input to the operation terminal, or the user ID is read from an IC tag carried by the user by a reader provided in the operation terminal and recorded in the user ID column of the sixth storage unit 106. You may be comprised so that. In this case, since the user ID and the work date and time are recorded for each work, a work history can be obtained for each instrument or component. For this reason, it becomes easy to track each work history for each instrument or component.

  As mentioned above, although one Embodiment of the operation management system of the surgery set proposed here was variously demonstrated, the operation management system of the surgery set proposed here is not limited to embodiment mentioned above. In addition, the operation management system for the surgical set proposed here can be variously changed, and each component can be appropriately omitted or combined as appropriate unless a particular problem occurs.

10 Work management system (system)
11, 11a, 11b Reader 12, 12a, 12b Stationary device 12A Stationary device 12A1 Container 12A2 Lid 12A3 Rotating shaft 12A4 Sensor 12A5 Case 12A6 Lamp 12A7 Solar panel 12A8 Control device 12B Stationary device 12B1 Case 12B2 Swing plate 12B3 Swing Driving shaft 12B4 Button 12B5 Lamp 12B6 Power generation element 12B7 Control device 12B8 Opening 13, 13, a, 13b Display device 14 Processing device 15 Communication network 40 Work tool 51-55 Operation terminal 51a-55a Display 61-63 Leader 61a-63a Detection unit 66 -67 Stationary device 70 Server 72 Storage device 75 Router 101-106 Storage unit 121 Stationary unit 122 Sensor 123 Notification unit 201-211 Processing unit 400 Database 420 Database 440 Database Scan A collection areas B cleaning area C assembly area

Claims (9)

With the leader,
A stationary device;
A processing device,
The stationary device is
A stationary part on which a predetermined work tool is placed;
A sensor provided in the stationary part,
The processor is
A first storage unit storing an instrument ID and a component ID associated one-to-one with each instrument and component constituting the instrument set of a plurality of instruments;
A second storage unit that stores a set ID associated with the surgical set on a one-to-one basis, an instrument ID of an instrument belonging to the surgical set, and a component ID belonging to the surgical set;
A third storage unit that stores the individual information of the appliance and the appliance ID, and the individual information of the component and the component ID in association with each other;
A fourth storage unit that stores the tool ID or the component ID, the work or work area, and the work tool in association with each other;
A first processing unit programmed to identify an instrument or a component based on the detected individual information when the individual information is detected by the reader;
A second processing unit programmed to identify the work or work area;
Based on the appliance or component specified by the first processing unit, the operation or work area specified by the second processing unit, and the information stored in the fourth storage unit, the operation or work area A third processing unit programmed to identify the work implement required in
In the work or work area specified by the second processing unit, the work tool has been used based on a sensor provided in a stationary device on which the work tool specified by the third processing unit is placed. An operation management system for a surgical set, comprising: a fourth processing unit programmed to determine whether it has been detected. The sensor provided in the stationary part is
It is configured to detect that the work tool has been removed from the stationary part and that the work tool has been placed from the stationary part,
The processor is
In the work or work area specified by the second processing unit, the work tool has been removed from the stationary part by the sensor of the stationary device on which the work tool required in the work or the work area is placed. A fifth processing unit programmed to determine whether or not
When the fifth processing unit detects that the work tool has been removed from the stationary unit, the fifth processing unit is further programmed to determine whether or not it has been detected that the work tool has been placed from the stationary unit. The operation management system for a surgical set according to claim 1, further comprising a sixth processing unit. The fourth storage unit stores the tool or component, a plurality of work areas where a plurality of work or work is performed, and the work tool in association with each other.
The work management system for a surgical set according to claim 1 or 2.   The said 2nd process part is programmed so that one work or work area may be specified among several predetermined work or work areas, It was described in any one of Claim 1 to 3 Work management system for surgical set. The processing equipment
A fifth storage unit that stores the reader in association with a predetermined work or work area;
The second processing unit, when the individual information is detected by the leader, based on the leader from which the individual information has been detected and information stored in the fifth storage unit, Are programmed to identify,
The operation management system for a surgical set according to any one of claims 1 to 4. A display device,
The processor is
The instrument or component specified by the first processing unit, the work or work area specified by the second processing unit, and the work tool specified by the third processing unit are displayed on the display device. The operation management system for a surgical set according to any one of claims 1 to 5, further comprising a seventh processing unit programmed as described above. The fourth storage unit
A plurality of operations performed on the appliance and the component, a work procedure of the plurality of operations, and a work tool required for each of the plurality of operations are stored in association with each other. ,
The second processing unit includes:
Based on the work procedure stored in the fourth storage unit, is programmed to sequentially identify the work to be performed on the instrument or component,
The operation management system for a surgical set according to any one of claims 1 to 6. The stationary device further includes a notification unit configured to execute a predetermined notification process,
The processor is
8. The eighth processing unit according to claim 1, further comprising an eighth processing unit programmed to operate a notification unit of a stationary apparatus on which the work tool specified by the third processing unit is placed. Work management system for a surgical set. The processor is
A sixth storage unit that stores the work, the user ID, and the date and time when the work was performed;
A ninth processing unit programmed to obtain the date and time when the work was performed in the work or work area specified by the second processing unit;
A tenth processing unit programmed to obtain a user ID for performing the work in the work or work area specified by the second processing unit;
The sixth memory stores the work or work area specified by the second processing unit, the date and time when the work acquired by the ninth processing unit was performed, and the user ID acquired by the tenth processing unit. The operation management system for a surgical set according to any one of claims 1 to 8, further comprising an eleventh processing unit programmed to be stored in the unit.

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