WO2017187835A1 - Housing device - Google Patents

Abstract

In the present invention, a video processor 3 is connected to an endoscope 2 and is provided with: a memory 35 having a storage region capable of storing a plurality of parameter sets which are used when using the video processor 3; a ROM 40 wherein a plurality of default parameters which differ in setting contents are preliminarily stored in a default state; a touch panel 37 for displaying a screen; and a control unit 31 for generating an editing screen for editing parameter sets, and outputting the editing screen to the touch panel 37. The control unit 31 generates a selection screen 72 which allows any of the default parameters to be selected as a base when editing the parameter sets.

Description

Enclosure device

The present invention relates to a casing device that can be set by a user using default parameters.

Conventionally, an endoscope that images a subject inside a subject, a video processor that generates an observation image of the subject captured by the endoscope, and a monitor that displays an observation image generated by the video processor are provided. Endoscope systems are widely used in the medical field, the industrial field, and the like.

Such video processors are also known that have a function of setting and registering various parameters related to image processing for each user. Specifically, for example, in addition to the electronic shutter speed, photometry area, and light control sensitivity of the connected endoscope, adjustment of the endoscopic image for each observation mode (normal light observation mode, NBI observation mode, etc.) Video processors having a function of setting and registering various parameters such as brightness, color tone, saturation, contrast, etc.) for each user are known.

In a video processor having a function for setting and registering various parameters for each user, it is necessary for the user to set various parameters according to his / her own preferences, which takes a lot of time and effort.

For this reason, for example, a plurality of default parameter sets are registered in advance, and observation is performed by calling a default parameter set suitable for observation from a plurality of registered default parameter sets according to an observation site such as the stomach or the large intestine. Endoscopic systems that can perform the above are known (see, for example, Japanese Patent Application Laid-Open No. 2000-189381 and Japanese Patent Application Laid-Open No. 2006-255395).

However, the conventional endoscope system can call and observe a default parameter set registered in advance, but cannot register user settings by changing various parameters of the default parameter set.

Therefore, an object of the present invention is to provide a casing device that can easily change various parameters of a default parameter set registered in advance according to user's preference.

A casing device according to an aspect of the present invention is a casing device to which an endoscope is connected, and includes a storage area capable of storing a plurality of parameter sets when the casing device is used. A storage unit; a second storage unit in which a plurality of default parameter sets having different setting contents are written in advance in a default state; a display unit for displaying a screen; and an editing screen for editing the parameter set. An editing screen generation unit for generating and outputting to the display unit, and the editing screen generation unit can select which of the default parameter sets is a basis when editing the parameter set A simple selection screen.

It is a perspective view showing a schematic structure of an endoscope system concerning one embodiment of the present invention. It is a block diagram which shows the function structure of the principal part of the endoscope system concerning one Embodiment. It is the figure which showed one display example of the touchscreen in the video processor of the endoscope system concerning one Embodiment. It is the figure which showed an example of the user setting call screen in a touch panel. It is the figure which showed an example of the user setting screen in a touch panel. It is the figure which showed an example of the new registration screen of the user setting in a touch panel. It is the figure which showed an example of the screen displayed when the number selection screen of a new registration screen was pressed down operation. It is a figure showing an example of a screen displayed when a selection screen of a new registration screen is pressed. It is the figure which showed an example of the edit screen in a touch panel. It is a figure which shows an example of the user setting screen after performing new registration of a user setting. It is the figure which showed an example of the user setting copy screen in a touch panel. It is a figure which shows an example of the user setting call screen after a user setting is performed.

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

Further, the present invention is not limited by this embodiment. Furthermore, the same code | symbol is attached | subjected to the same part in description of drawing. Furthermore, it should be noted that the drawings are schematic and differ from reality. Moreover, the part from which a mutual dimension and ratio differ also in between drawings.

FIG. 1 is a perspective view illustrating a schematic configuration of an endoscope system according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating a functional configuration of a main part of the endoscope system according to the embodiment. is there.

As shown in FIG. 1, an endoscope system 1 includes an endoscope 2 that captures an in-vivo image of a subject by inserting a distal end portion into a body cavity of a subject and outputs an image signal of the subject image. The image signal output from the endoscope 2 is subjected to predetermined image processing and has a light source function for generating illumination light to be emitted from the distal end of the endoscope 2. A video processor 3 for comprehensively controlling the operation, an observation monitor 4 for displaying an image subjected to image processing in the video processor 3, and a keyboard connected to the video processor 3 for inputting operation instructions or character information 5 is mainly configured. Note that the video processor 3 constitutes the casing device of the present embodiment.

The keyboard 5 is provided on a pedestal 6 that can be pulled out. When the user uses the keyboard 5, the user can pull out the pedestal 6 from the medical trolley to input characters, and when not using the keyboard 5, the user can store the pedestal 6 in the medical trolley. In addition to the endoscope 2, the video processor 3, the observation monitor 4, and the keyboard 5, the medical trolley may be loaded with peripheral devices such as a printer and a water supply device.

In the endoscope system 1 of the present embodiment, the video processor 3 has the light source function described above. However, the present invention is not limited thereto, and the light source device having the light source function is separated from the video processor 3. It is good also as a structure. In the present embodiment, a configuration employing a simultaneous type as the endoscope system 1 will be described as an example. However, the present invention can be applied even in a frame sequential manner.

The endoscope 2 is provided with an insertion portion 16 having a flexible elongated shape, an imaging element 11 that images a subject, and a light that guides illumination light to the distal end of the insertion portion. A guide 12, an operation switch 13 provided in an operation unit for operating the endoscope 2, a connector unit 14 for connecting to a light source connector 23 in the video processor 3, and extending from the connector unit 14, And an electrical connector 15 for connecting to the connector 32 in the video processor 3.

Note that the endoscope 2 may be a so-called rigid endoscope used in a surgical operation. Further, in this embodiment, the image sensor 11 employs a CMOS (Complementary Metal Metal Oxide Semiconductor) image sensor, but may be a CCD image sensor. Further, in the present embodiment, the image pickup device 11 is provided at the distal end portion of the insertion portion, but is not limited thereto, and is provided, for example, in the operation portion where the operation switch 13 is provided. A configuration may be employed in which an optical image is transmitted from an image guide fiber to the image sensor 11 in the operation unit.

In the present embodiment, the video processor 3 is configured to be connected to the endoscope 2, but the present invention is not limited to this, and an optical endoscope (a fiberscope or a fiberscope) inserted into a body cavity is not limited thereto. A configuration may be adopted in which a camera head to be attached to an eyepiece of a surgical optical tube) is connected.

Furthermore, in this embodiment, the endoscope 2 and the video processor 3 are connected by the electrical connector 15 and the connector 32 and are configured to transmit electrical signals by wire, but the present invention is not limited to this. The configuration may be such that the signal is transmitted wirelessly.

The video processor 3 as a casing device is connected to the connector 32 connected to the electrical connector 15 of the endoscope 2, the control unit 31 that comprehensively controls the operation of the entire endoscope system 1, and the control unit 31. The memory 35 that stores various information, the ROM 40 that is connected to the control unit 31 and stores various information in advance, and the image signal from the image sensor 11 input through the connector 32 is subjected to predetermined signal processing. A video processing unit 33, a display controller 36 that changes the character size in the character information displayed on the observation monitor 4, and a superimposing circuit that superimposes the character information from the display controller 36 on the video signal output from the video processing unit 33. 34, a touch panel 37 for performing various operations and settings, and power for operating at least each circuit unit in the video processor 3 are supplied. It is configured to include the order of the power supply unit 39, a.

The control unit 31 is a CPU that comprehensively controls the operation of the entire endoscope system 1. In addition to controlling the image sensor 11 in the endoscope 2 connected to the video processor 3, the video processor 3 is in an initial state. It detects that it became. Further, when the control unit 31 detects that the video processor 3 is in the initial state, the control unit 31 displays an initial screen on the touch panel 37 which is a display unit. The control unit 31 performs new registration, editing, deletion, and copying of user settings, which will be described later, by pressing the touch panel 37, and displays a screen for performing new registration, editing, deletion, and copying of user settings. To display.

The power supply unit 39 supplies power for operating the electronic devices such as the circuit units in the endoscope 2 connected to the video processor 3 in addition to the electronic devices such as the circuit units in the video processor 3 described above. Acts as a power source for

The video processing unit 33 performs predetermined image processing, that is, noise reduction processing, white balance processing, color correction, and the like on the video signal from the image sensor 11, and directs the obtained video signal to the superimposing circuit 34. Output.

The memory 35 as the first storage unit is realized by using a semiconductor memory capable of erasing and rewriting data, and various programs for operating the endoscope system 1 including the video processor 3 and the endoscope 2, In addition, data including a plurality of parameter sets necessary for the operation of the endoscope system 1 is stored.

Note that the parameter set is a combination of various parameters related to image processing, for example, set for each user in the present embodiment. The memory 35 serves as a storage area capable of storing a plurality of parameter sets.

On the other hand, the ROM 40 as the second storage unit is realized by using a semiconductor memory that cannot erase and rewrite data, and is in a default state (a state in which no change operation is performed on the parameter set after product shipment). A plurality of default parameter sets having different setting contents are stored (registered) in advance. That is, a plurality of default parameter sets having different setting contents are written in the ROM 40 at the manufacturing stage. The plurality of default parameter sets are stored in the ROM 40, but may be incorporated in a program, for example.

The display controller 36 outputs predetermined character information to be displayed on the observation monitor 4 as a so-called OSD (On-screen display) to the superimposing circuit 34 under the control of the control unit 31. At this time, the display controller 36 changes the size of the character information based on the control of the control unit 31 and outputs it to the superimposing circuit 34.

For example, when the user operates (presses) the operation switch 13 of the endoscope 2, an operation signal is supplied to the control unit 31. When this operation signal is input, the control unit 31 controls the display controller 36 to change the size of the character information.

The superimposing circuit 34 as an image generating unit generates an endoscopic inspection image in which character information from the display controller 36 is superimposed on a video signal (endoscopic image) from the video processing unit 33 and outputs the endoscopic inspection image to the observation monitor 4. . Thereby, a predetermined endoscopic examination image is displayed on the observation monitor 4.

In this embodiment, the video processor 3 has a light source function for generating illumination light to be emitted from the distal end of the endoscope 2. That is, the video processor 3 is controlled by the light source 21 that generates the illumination light, the light source driver 38 that drives the light source 21 under the control of the control unit 31, and the illumination light from the light source 21 is condensed on the incident end face of the light guide 12. A condenser lens 22.

The light source 21 is configured using a white LED (Light Emitting Diode), a xenon lamp, or the like, and generates white light under drive control of the light source driver 38.

The light source driver 38 generates white light in the light source 21 by supplying current to the light source 21. The light generated by the light source 21 is emitted from the distal end of the insertion portion distal end portion of the endoscope 2 via the condenser lens 22 and the light guide 12.

The observation monitor 4 has a function of receiving and displaying the in-vivo image generated by the video processor 3 via the video cable from the video processor 3, and is configured using liquid crystal, organic EL (Electro Luminescence), or the like.

The keyboard 5 is connected to the video processor 3 and has a function of inputting predetermined operation instructions or character information.

<Explanation of menu screen and user setting screen on touch panel>
FIG. 3 is a diagram illustrating a display example of the touch panel in the video processor of the endoscope system according to the embodiment. FIG. 4 is a diagram showing an example of a user setting call screen on the touch panel, and FIG. 5 is a diagram showing an example of a user setting screen on the touch panel.

As described above, the video processor 3 is provided with the touch panel 37 on the front surface of the casing device body. The touch panel 37 includes a display unit using a liquid crystal panel and a position information input unit using a touch pad, and performs various operations and settings under the control of a control unit 31 as described later.

Note that the touch panel 37 adopts a so-called capacitance method in the present embodiment, but is not limited thereto, and may be configured by a so-called resistance film method. Moreover, although the touch panel 37 is provided in the video processor 3, it is not restricted to this, For example, the structure which can be removed from the video processor 3 like a tablet may be sufficient.

3 is an initial screen displayed on the touch panel 37 under the control of the control unit 31 when the control unit 31 detects that the video processor 3 is in an initial state (for example, immediately after power-on). It is. FIG. 3 shows an example of the initial screen.

In this embodiment, as shown in FIG. 3, the touch panel 37 displays a “main” screen that classifies and displays frequently used functions as an initial screen. At a predetermined position on the main screen as the initial screen, there are a user setting information call button 51 for selecting a parameter set to be used when using the video processor 3, and new registration, editing, deletion, copying, etc. of the parameter set. A setting button 52 for calling a screen for performing is arranged.

In the present embodiment, the user presses the user setting information call button 51 displayed on the main screen of the touch panel 37 (touch operation) to bring up a screen for calling user settings registered in advance. Transition is possible.

That is, when the user setting information call button 51 is pressed, a currently registered user setting selection list 53 is displayed on the display screen of the touch panel 37 as shown in FIG.

In the example of FIG. 4, five user settings “Preset ユ ー ザ ー A” to “Preset E” are registered in the user setting selection list 53 of the user setting call screen, and “Preset A” is called and set. Yes. Here, when the “Preset B” button is pressed, a confirmation screen is displayed. When the confirmation button is pressed on the confirmation screen, the setting corresponding to “Preset B” is called and set.

Note that “Preset A” to “Preset E” are parameter sets stored in advance in the memory 35, and the operator can edit various parameters. The ROM 40 stores in advance five default parameter sets “Preset「 A ”to“ Preset E ”.

When the various parameters of the parameter set stored in advance in the memory 35 are not edited, the parameter sets “Preset A” to “Preset E” stored in the memory 35 in advance are stored in the “PresetsetE” stored in the ROM 40. It is the same setting as the default parameter set from “A” to “Preset E”.

Returning to FIG. 3, when the user presses the setting button 52 displayed on the main screen of the touch panel 37, the user may transition to a setting item selection screen for selecting an item to be changed. it can. More specifically, when the setting button 52 is pressed, a patient information button for calling up patient information, a system setting button for performing system settings, a maintenance button for performing maintenance, and a security setting for performing security settings. A screen on which security setting buttons, user setting buttons for performing user settings, and the like are arranged is displayed on the touch panel 37. When the user setting button is pressed on this screen, the user setting screen is displayed on the display screen of the touch panel 37 as shown in FIG.

As shown in FIG. 5, a new registration button 60, a return button 61, an edit button 62, a delete button 63, and a copy button 64 are arranged on the user setting screen. The user setting screen displays the user settings already registered (here, five user settings “Preset A” to “Preset E”).

The new registration button 60 is a button for newly registering user settings. The return button 61 is a button for returning from the user setting screen to the setting item selection screen. The edit button 62 is a button for editing user settings that have already been registered. The delete button 63 is a button for deleting an already registered user setting. The copy button 64 is a button for copying an already registered user setting. The operator can perform new registration, editing, deletion, or copying of user settings by pressing the new registration button 60, the edit button 62, the delete button 63, or the copy button 64.

<New registration / editing / deleting / copying of user settings on touch panel>
First, a procedure for newly registering user settings on the touch panel 37 will be described.

FIG. 6 is a diagram illustrating an example of a new registration screen for user settings on the touch panel, and FIG. 7 is a diagram illustrating an example of a screen displayed when the number selection screen of the new registration screen is pressed. FIG. 8 is a diagram illustrating an example of a screen displayed when the selection screen for the new registration screen is pressed, and FIG. 9 is a diagram illustrating an example of an editing screen on the touch panel.

When the operator depresses the new registration button 60 on the user setting screen, a new registration screen shown in FIG. On the new registration screen, a number selection screen 71 for setting a user setting number, a selection screen 72 for selecting the original Preset, a cancel button 73, and an OK button 74 are arranged. That is, when editing the parameter set, the control unit 31 as the editing screen generation unit generates the selection screen 72 that can select which of the default parameter sets is the basis.

When the operator depresses the number selection screen 71, candidate user setting numbers are displayed as shown in FIG. In this embodiment, since “Preset A” to “Preset E” are registered in user setting numbers “01” to “05”, numbers “06” or more are displayed as candidates for user setting numbers. Is done. Here, it is assumed that “06” is selected as the user setting number.

Next, when the operator depresses the selection screen 72, the original preset candidates are displayed as shown in FIG. The preset candidates are preset presets stored in the ROM 40 in advance, that is, default parameter sets. Therefore, even when various parameters of the parameter set “Preset A” to “Preset E” stored in the memory 35 are edited as described above, the default stored in the ROM 40 in which data cannot be edited. The parameter set will be called. In the present embodiment, “Preset A” to “Preset E” are displayed as candidates. Here, it is assumed that “Preset A” is selected as the original Preset.

When the operator selects the user setting number and the original Preset and then presses the OK button 74, the editing screen shown in FIG. 9 is displayed on the touch panel 37. When canceling the new registration of the user setting, the operator can return to the user setting screen of FIG. 5 by pressing the cancel button 73.

In the editing screen shown in FIG. 9, the setting contents of Preset A selected as the original Preset are called. The operator changes the setting only for the parameter to be changed from the setting contents of Preset A according to the observation site and his / her preference. That is, the operator can create a user setting with a small number of operations by selecting a default parameter set that is close to the observation site or his / her preference and changing the setting of only the parameter to be changed.

In the editing screen shown in FIG. 9, a user name input screen 81 for inputting a user name, a setting content display unit 82 for displaying setting content, a return button 83, an initialization button 84, and a save button 85 are arranged. Has been. That is, the control unit 31 as the editing screen generation unit generates an editing screen for editing the parameter set and outputs the editing screen to the touch panel 37.

The user name input screen 81 is a screen for inputting a user name to be newly registered. When the operator depresses the user name input screen 81, for example, a software keyboard (not shown) is displayed on the touch panel 37. An arbitrary user name can be input by the operator pressing the software keyboard displayed on the touch panel 37. In the example of FIG. 9, “User XX” is input as the user name.

Note that the input of the user name is not limited to the input using the user name input screen 81. For example, after the user setting number and the original preset are selected and the OK button 74 is pressed, a dedicated screen for inputting the user name is displayed on the touch panel 37, and the operator enters the user name from the dedicated screen. It may be possible to input.

In addition, after the user name is input on the dedicated screen, a selection screen for selecting the setting content editing method is displayed on the touch panel 37 so that the operator can select the setting content editing method from the selection screen. May be. For example, the selection screen is a screen for selecting an interactive method (wizard method) or an individual editing method as a setting content editing method. Then, when the operator selects the individual editing method, a transition to the editing screen shown in FIG. 9 may be made.

The setting content display unit 82 includes a re-editing operation receiving unit 82a that receives a re-editing operation for the displayed setting content. In the example of FIG. 9, switch setting items are displayed, and the setting contents of “endoscope remote switch 1”, “endoscope remote switch 2”, and “endoscope remote switch 3” are displayed. . The operator can change the setting contents by pressing the setting contents display section 82.

In the setting content display section 82, when the setting content does not fit on one screen, a scroll bar 82b for changing display items is displayed. The operator can display other setting contents (for example, normal light color tone, saturation, and color mode) and change the displayed setting contents by scrolling the scroll bar 82b up and down. .

The return button 83 is a button for returning to the user setting screen shown in FIG. The operator can return to the user setting screen by pressing the return button 83 when discarding the contents in the middle of the input and selecting the user setting number and / or the original preset. Note that a screen for final confirmation as to whether to discard the contents in the middle of input may be displayed before returning to the user setting after pressing the return button 83.

The initialization button 84 is a button for returning the setting contents to the preset value that was first called after changing the setting contents. The save button 85 is a button for saving the changed setting contents after changing the setting contents. When the save button 85 is pressed by the operator, the control unit 31 stores the setting contents in the memory 35 and displays a user setting screen on the touch panel 37.

Next, the procedure for editing user settings will be described.

FIG. 10 is a diagram showing an example of a user setting screen after new registration of user settings.

When the operator depresses the setting button 52 after returning to the main screen, as shown in FIG. 10, the newly registered user setting with the user setting number “06” and the user name “User」 XX ”is displayed on the touch panel 37. Is displayed.

When the operator wants to change the setting contents of “User XX” after new registration, the operator presses the edit button 62 after checking the check button 87 corresponding to “User XX”. As a result, the editing screen shown in FIG. 9 is displayed on the touch panel 37, and the setting contents can be changed. When the operator depresses the save button 85 after changing the setting content, the changed content is overwritten to the user setting number “06” and stored (saved) in the memory 35.

As described above, “Preset A” to “Preset E” registered in the user settings are stored in the memory 35. Therefore, the operator can change the setting contents of “PresetPreA” to “Preset E” by pressing the edit button 62 after checking the check buttons corresponding to “Preset A” to “Preset E”. it can. It should be noted that the setting contents “Preset A” to “Preset 記憶 E” stored in the memory 35 may not be edited.

Next, the procedure for deleting user settings will be described.

The operator checks the check button 87 corresponding to, for example, User XX on the user setting screen shown in FIG. Thereby, “User XX” registered in the user setting number “06” can be deleted. It should be noted that after the delete button 63 is pressed, a final confirmation screen for executing the deletion is displayed, and after the operation for confirming the execution of the deletion operation is performed on this final confirmation screen, the deletion operation may be executed. good.

Next, the procedure for copying user settings will be described.

When the operator wants to copy the already registered user setting, the user presses the copy button 64 after checking the user setting check button (in the example of FIG. 10, the check button 87 of “User XX”). To do.

When the copy button 64 is pressed, a user setting copy screen shown in FIG.

FIG. 11 is a diagram showing an example of a user setting copy screen on the touch panel. In the user setting copy screen shown in FIG. 11, a user setting number selection screen 91, a cancel button 92, and an OK button 93 are arranged.

The operator depresses the user setting number selection screen 91 to display the copy destination user setting number candidates, for example, as in FIG. As user setting number candidates, currently set user setting numbers, here, “07” or more are displayed. The operator selects an arbitrary user setting number from the displayed candidates. In the example of FIG. 11, “07” is selected as the user setting number.

When the operator presses the OK button 93 after selecting the user setting number, the user setting with the user setting number “07” and the user name “User YY” is stored in the memory 35. When the copy of the user setting is completed, the user setting screen shown in FIG. The operator can cancel the copy of the user settings by pressing the cancel button 92.

When editing the settings of the copied user settings (here, the user name is “User YY”), the operator clicks the check button corresponding to “User YY” on the user setting screen of FIG. After checking, the edit button 62 is pressed to edit the setting contents.

When the user presses the user setting information call button 51 after returning to the main screen, a user setting call screen is displayed on the touch panel 37 as shown in FIG.

FIG. 12 is a diagram showing an example of a user setting call screen after the user setting is performed. In the example of FIG. 12, “User「 XX ”newly registered and“ User YY ”created by copying the user settings are added to FIG. The operator calls any user setting from the user settings displayed in the user setting selection list 53 by pressing one of the user settings displayed in the user setting selection list 53 on the user setting call screen. be able to.

As described above, when registering user settings, the video processor 3 as a casing device calls a basic default parameter set from a plurality of default parameter sets stored in the ROM 40. As a result, the operator can call up the default parameter set close to the observation site or his / her preference, and can change only the setting contents of the parameter that needs to be changed based on the setting contents of the called default parameter set.

Therefore, according to the casing device of the present embodiment, various parameters of the default parameter set registered in advance can be easily changed according to the user's preference.

In the past, it was necessary to create user settings by changing the settings of multiple parameters. In this case, since there are an enormous number of parameters that need to be set, the task of creating user settings has been complicated.

On the other hand, only the parameter settings that need to be changed can be changed based on the settings of the default parameter set that the operator has called. Therefore, according to the housing apparatus of the present embodiment, the user setting can be created with a small change operation.

The present invention is not limited to the above-described embodiment, and various changes and modifications can be made without departing from the scope of the present invention.

This application is filed on the basis of the priority claim of Japanese Patent Application No. 2016-87182 filed in Japan on April 25, 2016. The above disclosure is included in the present specification and claims. Shall be quoted.

Claims (4)

1. A casing device to which an endoscope is connected,
   A first storage unit having a storage area capable of storing a plurality of parameter sets when using the housing device;
   A second storage unit in which a plurality of default parameter sets having different setting contents are stored in advance in the default state;
   A display for displaying a screen;
   An edit screen generation unit for generating an edit screen for editing the parameter set and outputting the edit screen to the display unit,
   The editing screen generation unit generates a selection screen capable of selecting which of the default parameter sets is a basis when editing the parameter set.
2. The edit screen generation unit is configured to display the setting content display unit for displaying the setting content of the selected default parameter set after the selection of the default parameter set on the selection screen, and the setting content display unit. The casing device according to claim 1, further comprising: an editing screen that includes a re-editing operation receiving unit that receives a re-editing operation with respect to setting contents.
3. The first storage unit includes a parameter set having the same setting content as the plurality of default parameter sets stored in the second storage unit, and a parameter set edited based on one of the default parameter sets. The housing device according to claim 1, wherein the housing device is stored.
4. The first storage unit is a memory capable of rewriting the parameter set,
   The casing device according to claim 1, wherein the second storage unit is a memory in which the default parameter set cannot be rewritten.

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