Abstract:
This endoscope apparatus includes: an insertion portion configured to include a bend portion; an image pickup portion configured to capture an image of an object to be inspected; an operation portion configured to perform a bending operation of the bend portion; a storage portion configured to store at least an image of the objected to be inspected as a recorded image; a display portion configured to display the image, and a display control portion configured to: determine a display orientation of a superimposition information,; display the image captured by the image pickup portion without rotating the image; and display the superimposition information, the display control portion being further configured to: determine a display orientation of at least one of the recorded image and a Graphical User Interface; and display the at least one of the recorded image and the Graphical User Interface.

Description:
BACKGROUND OF THE INVENTION 
       [0001]    1. Field of the Invention 
         [0002]    The present invention relates to an endoscope apparatus, and a method of displaying images. Priority is claimed on Japanese Patent Application No. 2011-208012, filed on Sep. 22, 2011, the content of which is incorporated herein by reference. 
         [0003]    2. Description of Related Art 
         [0004]    Conventionally, industrial endoscope apparatuses are known (for example, see Japanese Unexamined Patent Application, First Publication No. 2009-089955). There are known endoscope apparatuses provided with an image rotation function capable of rotating and displaying an endoscopic image and an OSD (on-screen display) on the display portion for ease of inspection even if the endoscope apparatuses are used in the inverted orientation. In addition, endoscope apparatuses are known in which the operation portion and the display portion are arranged in the same housing (all-in-one endoscope apparatuses). 
       SUMMARY OF THE INVENTION 
       [0005]    According to an aspect of the present invention, an endoscope apparatus includes: an insertion portion configured to include a bend portion; an image pickup portion configured to capture an image of an object to be inspected; an operation portion configured to perform a bending operation of the bend portion; a storage portion configured to store at least an image of the objected to be inspected as a recorded image; a display portion configured to display the image, the display portion having a fixed positional relationship relative to the operation portion; and a display control portion configured to: determine a display orientation of a superimposition information, the superimposition information being superimposed on the image; display the image captured by the image pickup portion without rotating the image; and display the superimposition information according to the display orientation of the superimposition information, the display control portion being further configured to: determine a display orientation of at least one of the recorded image and a Graphical User Interface; and display the at least one of the recorded image and the Graphical User Interface according to the display orientation of the at least one of the recorded image and the Graphical User Interface. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0006]      FIG. 1  is an overall perspective view showing an appearance of an endoscope apparatus according to one embodiment of the present invention. 
           [0007]      FIG. 2  is a block diagram showing a configuration of the endoscope apparatus of the embodiment. 
           [0008]      FIG. 3  is a front view showing the appearance of the endoscope apparatus of the embodiment when the orientation of the endoscope apparatus is inverted. 
           [0009]      FIG. 4  is a side view showing the appearance of the endoscope apparatus of the embodiment when the orientation of the endoscope apparatus is inverted. 
           [0010]      FIG. 5A  is a schematic diagram showing an example where a display control portion displays, on a display portion, an image captured by an image pickup portion and OSDs in a non-rotated state in the embodiment. 
           [0011]      FIG. 5B  is a schematic diagram showing an example where the display control portion displays, on the display portion, the image captured by an image pickup portion and the OSDs in the non-rotated state in the embodiment. 
           [0012]      FIG. 6A  is a schematic diagram showing an example where the display control portion displays, on the display portion, the image captured by an image pickup portion in the non-rotated state, and the OSDs in an rotated state. 
           [0013]      FIG. 6B  is a schematic diagram showing an example where the display control portion displays, on the display portion, the image captured by the image pickup portion in the non-rotated state, and the OSDs in the rotated state. 
           [0014]      FIG. 7A  is a schematic diagram showing an example where the display control portion displays, on the display portion, a recorded image stored by a storage portion and GUI such as a menu screen in the rotated state in the embodiment. 
           [0015]      FIG. 7B  is a schematic diagram showing an example where the display control portion displays, on the display portion, the recorded image stored by the storage portion and the GUI such as a menu screen in the rotated state in the embodiment. 
           [0016]      FIG. 8  is a flow chart showing an operation procedure of a capturing operation of the endoscope apparatus according to the embodiment. 
           [0017]      FIG. 9  is a flow chart showing an operation procedure of a playback operation of the endoscope apparatus according to the embodiment. 
           [0018]      FIG. 10A  is a schematic diagram showing an example where the display control portion displays, on the display portion, the image captured by the image pickup portion in the non-rotated state, and the OSDs in a left side rotated state in the embodiment. 
           [0019]      FIG. 10B  is a schematic diagram showing an example where the display control portion displays, on the display portion, the image captured by the image pickup portion in the non-rotated state, and the OSDs in a right side rotated state in the embodiment. 
           [0020]      FIG. 11A  is a schematic diagram showing an example where the display control portion displays, on the display portion, a recorded image stored by a storage portion and GUI such as a menu screen in a left side rotated state in the embodiment. 
           [0021]      FIG. 11B  is a schematic diagram showing an example where the display control portion displays, on the display portion, a recorded image stored by a storage portion and GUI such as a menu screen in a right side rotated state in the embodiment. 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0022]    Hereunder is a description of one embodiment of the present invention with reference to the drawings.  FIG. 1  is an overall perspective view showing an appearance of an endoscope apparatus in the present embodiment. The endoscope apparatus  1  of the present embodiment is used for observing an inspection target located at the end of an elongated insertion channel, an internal portion of the inspection target, and the like. In the exemplary illustration, the endoscope apparatus  1  includes: an insertion portion  10 ; an operation portion  21  for performing a bending operation of the insertion portion  10 ; a display portion  25  for displaying a video picture obtained by the insertion portion  10 ; and a housing portion  60  for containing the operation portion  21  and the display portion  25 . 
         [0023]      FIG. 2  is a block diagram showing a configuration of the endoscope apparatus  1  of the present embodiment. The housing portion  60  of the endoscope apparatus  1  includes an operation portion  21 ; a control portion  22 ; an image processing portion  23 ; a display control portion  24 ; a display portion  25 ; and a storage portion  26 . 
         [0024]    The image pickup portion  11 , the illumination portion  12 , and the operation portion  21  are constructed as described above. The control portion  22  controls the constituent elements included in the endoscope apparatus  1 . The image processing portion  23  performs image processing on an image captured by the image pickup portion  11 . The display control portion  24  controls the display portion  25 , and causes the display portion  25  to display an image of an inspection target. The display portion  25  includes a display such as a LCD (Liquid Crystal Display), and displays an image through control by the display control portion  24 . The storage portion  26  stores: the images captured by the image pickup portion  11 ; and the information necessary to the operations of the constituent elements included in the endoscope apparatus  1 . 
         [0025]    In the exemplary illustration shown in  FIG.1 , the endoscope apparatus  1  is oriented so that the display portion  25  is above the operation portion  21 . When the user operates the endoscope apparatus  1  in this position, it is defined that the user operates the endoscope apparatus  1  in a correctly directed position [C]. In this case, the control portion  22  generates a signal indicating that a position of the endoscope apparatus  1  is the correctly directed position. 
         [0026]    The insertion portion  10  includes an image pickup portion  11  and an illumination portion  12  at its distal end. The image pickup portion  11  includes an image pickup element such as a CCD (Charge Coupled Device). The image pickup portion  11  is capable of obtaining an image such as a still image and/or a streaming image of an inspection target or the like ahead of the distal end portion. The illumination portion  12  includes an LED (Light Emitting Diode) or the like. The illumination portion  12  emits light ahead of the distal end portion. The insertion portion  10  further includes a bend portion  13  in which a plurality of knot rings or bender pieces (not shown in the figure and hereinafter referred to generically as “knot rings or the like”) are aligned in the axis line direction of the insertion portion  10  and connected to each other. The insertion portion  10  is capable of bending in four directions in two axes that cross its central axis line, so as to be spaced away from the central axis line. Four operation members such as wires corresponding to the aforementioned four directions are connected to the knot ring or the like closest to the distal end out of all the knot rings or the like. The operation members extend through the knot rings or the like to the inside of the housing portion  60 , and are connected to the operation portion  21  there. 
         [0027]    The operation portion  21  includes: a first joy stick  211  for operating the bend portion  13 ; a second joy stick  212  for operating a cursor or the like that is displayed on the display portion  25 ; and a bending mechanism that is operated via the first joy stick  211 . The operation portion  21  (the first joy stick  211 ) of the present embodiment employs a mechanical mechanism in which the bend portion  13  is bent by pulling the operation members through an inclining operation. However, the operation portion  21  (the first joy stick  211 ) may employ an electrical mechanism of pulling the operation members by use of a drive device such as a motor in accordance with electrically-detected inclination amount and inclination direction, to thereby operate the bend portion  13 . 
         [0028]    Next is a description of a relationship between the operation portion  21  and the display portion  25  when the endoscope apparatus  1  is inverted.  FIG. 3  is a front view showing an appearance of the endoscope apparatus  1  of the present embodiment when the endoscope apparatus  1  is inverted (when the display portion  25  is placed upside down).  FIG. 4  is a side view showing the appearance of the endoscope apparatus  1  when the endoscope apparatus  1  of the present embodiment is inverted. In the exemplary illustration, the endoscope apparatus  1  has the display portion  25  placed upside down, and hence, in the position where the operation portion  21  is above the display portion  25 . When the user operates the endoscope apparatus  1  in this position, it is defined that the user operates the endoscope apparatus  1  in an oppositely directed position. In this case, the control portion  22  generates a signal indicating that a position of the endoscope apparatus  1  is the oppositely directed position. 
         [0029]    Next is a description of an example where the display control portion  24  causes the display portion  25  to display an image when the image pickup portion  11  is capturing an image (a streaming image and/or a still image).  FIG. 5A  and  FIG. 5B  are schematic diagram showing an example where the display control portion  24  causes the display portion  25  to display an image captured by the image pickup portion  11  and to display an OSD (On-Screen Display) in a non-rotated state (a state displaying an image, an OSD, or the like without being rotated).  FIG. 6A  and  FIG. 6B  are schematic diagrams showing an example where the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSD in a rotated state (approximately turned 180 degrees). The image captured by the image pickup portion  11  includes a streaming image and/or a still image. A streaming image is a realtime image being captured by the image pickup portion  11 . A still image is a paused image of a streaming image. An OSD includes date, time, and/or additional information (superimposition information) that are superimposed on the image displayed on the display portion  25 . 
         [0030]      FIG. 5A  is a schematic diagram of an example where the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  and to display the OSD when the user is operating the endoscope apparatus  1  in the correctly directed position. As is illustrated, the user operates the endoscope apparatus  1  in the correctly directed position, and the display control portion  24  causes the display portion  25  to display an image  501  captured by the image pickup portion  11  and to display OSDs  502  in the non-rotated state. In this case, the direction of the operation on the operation portion  21  by the user coincides with the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. Furthermore, in this case, the user can read the letters on the OSDs  502  in the non-rotated state. Accordingly, the user is capable of easily performing a bending operation of the bend portion  13 . 
         [0031]      FIG. 5B  is a schematic diagram showing an example where the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  and to display the OSD in the non-rotated state when the user is operating the endoscope apparatus  1  in the oppositely directed position. As is illustrated, the user operates the endoscope apparatus  1  in the oppositely directed position, and the display control portion  24  causes the display portion  25  to display an image  501  captured by the image pickup portion  11  and to display OSDs  502  in the non-rotated state. In this case, the direction of the operation on the operation portion  21  by the user coincides with the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. However, the letters on the OSDs  502  look rotated at 180 degrees for the user. 
         [0032]    Therefore, there is a possibility that the use is not capable of easily checking the OSDs  502 . If both of the image  501  and the OSDs  502  are displayed in the rotated state in this case, the direction of the operation on the operation portion  21  by the user is opposite to the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. 
         [0033]      FIG. 6A  and  FIG. 6B  are diagrams showing an example where the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSDs in the rotated state (substantially turned 180 degrees). The exemplary illustrations in  FIG. 6A  and  FIG. 6B  show the case where the user is capable of easily checking the OSD and also of easily performing an bending operation of the bend portion  13  when operating the endoscope apparatus  1  in the correctly directed position. The detailed description is as follows.  FIG. 6A  is a schematic diagram showing an example where the display control portion  24  causes the display portion  25  to display the image  501  captured by the image pickup portion  11  in the non-rotated state and to display the OSDs  502  in the rotated state when the user is operating the endoscope apparatus  1  in the correctly directed position. As is illustrated, the user operates the endoscope apparatus  1  in the correctly directed position, and the display control portion  24  causes the display portion  25  to display the image  501  captured by the image pickup portion  11  in the non-rotated state and to display the OSDs  502  in the rotated state. In this case, the direction of the operation on the operation portion  21  by the user coincides with the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. However, the letters on the OSDs  502  look rotated at 180 degrees for the user. Therefore, there is a possibility that the use is not capable of easily checking the OSDs  502 . 
         [0034]      FIG. 6B  is a schematic diagram of an example where the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSDs in the rotated state when the user is operating the endoscope apparatus  1  in the oppositely directed position. As is illustrated, the user operates the endoscope apparatus  1  in the oppositely directed position, and the display control portion  24  causes the display portion  25  to display the image  501  captured by the image pickup portion  11  in the non-rotated state and to display the OSDs  502  in the rotated state. In this case, the direction of the operation on the operation portion  21  by the user coincides with the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. Furthermore, the user is capable of looking at the letters on the OSDs  502  even if the user operates the endoscope apparatus  1  in the oppositely directed position. As a result, the direction of the operation on the operation portion  21  by the user is not opposite to the direction in which the image  501  displayed on the screen moves. Therefore, the user is capable of easily checking the OSDs  502  and is also capable of easily performing a bending operation of the bend portion  13 . 
         [0035]    When the user is operating the endoscope apparatus  1  in the correctly directed position as shown in  FIG. 5A , the display control portion  24  causes the display portion  25  to display the image  501  captured by the image pickup portion  11  and to display the OSDs  502  in the non-rotated state. In this case, the user easily checks the OSDs  502  and also performs an bending operation of the bend portion  13 . When the user is operating the endoscope apparatus  1  in the oppositely directed position as shown in  FIG. 6B , the display control portion  24  causes the display portion  25  to display the image  501  captured by the image pickup portion  11  in the non-rotated state and to display the OSDs  502  in the rotated state. Therefore, the user easily checks the OSDs  502  and performs a bending operation of the bend portion  13 . 
         [0036]    Therefore, in the present embodiment, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  and to display the OSDs in the non-rotated state in a normal mode in which the user uses the endoscope apparatus  1  in the correctly directed position. Additionally, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSDs in the rotated state in a rotated display mode in which user uses the endoscope apparatus  1  in the oppositely directed position (the position where the display portion  25  is placed upside down). 
         [0037]    Next is a description of an example where the display control portion  24  causes the display portion  25  to display a recorded image when the recorded image that has been captured by the image pickup portion  11  and that has been stored by the storage portion  26  is played back.  FIG. 7A  and  FIG. 7B  are schematic diagrams showing an example where the display control portion  24  causes the display portion  25  to display the recorded image stored by the storage portion  26  and to display a GUI (Graphical User Interface) such as a menu screen in the rotated state. The recorded image stored by the storage portion  26  is a still image in which OSDs are superimposed on the image captured by the image pickup portion  11 . Note that the recorded image is not limited to only a single image as shown in  FIG. 7A  and  FIG. 7B , but includes a thumbnail image in which the display control portion  24  causes the display portion  25  to display a plurality of scaled-down recorded images on a single screen. 
         [0038]      FIG. 7A  is a schematic diagram of an example where the display control portion  24  causes the display portion  25  to display recorded images  701  stored by the storage portion  26  and to display a GUI  702  in the rotated state when the user is operating the endoscope apparatus  1  in the correctly directed position. As is illustrated, the user operates the endoscope apparatus  1  in the correctly directed position, and the display control portion  24  causes the display portion  25  to display the recorded images  701  stored by the storage portion  26  and to display the GUI  702  in the rotated state. In this case, the recorded images  701  and the GUI  702  look rotated at 180 degrees for the user. Therefore, there is a possibility that the use is not capable of easily checking the recorded image and the GUI. 
         [0039]      FIG. 7B  is a schematic diagram of an example where the display control portion  24  causes the display portion  25  to display the recorded images  701  stored by the storage portion  26  and to display the GUI  702  in the rotated state when the user is operating the endoscope apparatus  1  in the oppositely directed position. As is illustrated, the user operates the endoscope apparatus  1  in the oppositely directed position, and the display control portion  24  causes the display portion  25  to display the recorded images  701  stored by the storage portion  26  and to display the GUI  702  in the rotated state. In this case, the user is capable of looking at the recorded images  701  and the GUI  702  even if the user operates the endoscope apparatus  1  in the oppositely directed position. Therefore, the user is capable of easily checking the recorded image and the GUI. 
         [0040]    When the user is operating the endoscope apparatus  1  in the correctly directed position, the display control portion  24  causes the display portion  25  to display the recorded images  701  stored by the storage portion  26  and to display the GUI  702  in the non-rotated state. In this case, the user is capable of easily checking the recorded image and the GUI. When the user is operating the endoscope apparatus  1  in the oppositely directed position as shown in  FIG. 7B , the display control portion  24  causes the display portion  25  to display the recorded images  701  stored by the storage portion  26  and to display the GUI  702  in the rotated state. In this case, the user is capable of easily checking the recorded image and the GUI. 
         [0041]    Therefore, in the present embodiment, the display control portion  24  causes the display portion  25  to display the recorded image stored by the storage portion  26  and to display the GUI in the non-rotated state in playing back the recorded image stored by the storage portion  26  in the normal mode in which user uses the endoscope apparatus  1  in the correctly directed position. Additionally, the display control portion  24  causes the display portion  25  to display the recorded image stored by the storage portion  26  and to display the GUI in the rotated state in playing back the recorded image stored by the storage portion  26  in the rotated display mode in which user uses the endoscope apparatus  1  in the oppositely directed position. In the exemplary illustration in  FIG. 7 , the example where the rotated display of the recorded image is combined with the rotated display of the GUI has been described above. However, the combination is not limited to this. For example, when the rotated display mode is turned on while both of the image  501  captured by the image pickup portion  11  and the GUI  702  are being displayed, the display control portion  24  may cause the display portion  25  to display the image  501  in the non-rotated state and to display the GUI  702  in the rotated state. 
         [0042]    Next is a description of an operation of capturing an image by the endoscope apparatus  1  of the present embodiment. 
         [0043]      FIG. 8  is a flow chart showing an operation procedure of a capturing operation of the endoscope apparatus  1 . Here, the user operates a second joy stick  212  included in the operation portion  21  and sets the operation mode of the endoscope apparatus  1  in accordance with the direction in which the endoscope apparatus  1  is operated (used). The endoscope apparatus  1  sets the operation mode based on an input that the second joy stick  212  has received. To be more specific, to operate the endoscope apparatus  1  in the correctly directed position, the user sets the operation mode of the endoscope apparatus  1  to the normal mode. In addition, to operate the endoscope apparatus  1  in the oppositely directed position, the user sets the operation mode of the endoscope apparatus  1  to the rotated display mode. 
         [0044]    (Step S 101 ) The image pickup portion  11  captures an image. Subsequently, the image processing portion  23  performs image processing on the image captured by the image pickup portion  11 . Subsequently, the display control portion  24  obtains the image on which the image processing portion  23  has performed the image processing. After that, the process moves to step S 102 . 
         [0045]    (Step S 102 ) The control portion  22  determines whether the operation mode of the endoscope apparatus  1  is the rotated display mode or not. If the control portion  22  determines that the operation mode of the endoscope apparatus  1  is the rotated display mode, the process moves to Step S 104 . Otherwise, the process moves to Step S 103 . 
         [0046]    (Step S 103 ) The display control portion  24  causes the display portion  25  to display the image, which has been obtained in Step S 101 , and to display the OSD in the non-rotated state. For example, to display the OSD in the non-rotated state, the display control portion  24  produces a non-rotated OSD and a rotated OSD, and stores them in buffer memory (not shown in the figures). The display control portion  24  then causes the display portion  25  to display the non-rotated OSD stored in the buffer memory. After that, the process moves to Step S 105 . 
         [0047]    (Step S 104 ) The display control portion  24  causes the display portion  25  to display the image, which has been obtained in Step S 101 , in the non-rotated state, and to display the OSD in the rotated state. For example, to display the OSD in the rotated state, the display control portion  24  causes the display portion  25  to display the rotated OSD, which has been stored in the buffer memory. After that, the process moves to Step S 105 . 
         [0048]    (Step S 105 ) If the user intends to record the image that has been captured by the image pickup portion  11  and is displayed on the display portion  25 , then the user operates the second joy stick  212  included in the operation portion  21  to input a recording instruction to the endoscope apparatus  1 . The control portion  22  determines whether the recording instruction has been received or not. If the control portion  22  determines that the recording instruction has been received, then the process moves to Step S 106 . Otherwise, the process returns to Step S 101 . 
         [0049]    (Step S 106 ) The image processing portion  23  superimposes the OSD in the non-rotated state on the image which has been subjected to the image processing in Step S 101 , and causes the storage portion  26  to store the resultant image as a recorded image. After that, the process returns to Step S 101 . As a result, the OSD in the non-rotated state is superimposed on the recorded image. Therefore, if the image is played back by a PC (Personal Computer) or the endoscope apparatus  1  in the correctly directed position, then the OSD is displayed in the non-rotated state. 
         [0050]    Next is a description of a operation of playing back a recorded image captured and stored by the endoscope apparatus  1 .  FIG. 9  is a flow chart showing an operation procedure of a playback operation of the endoscope apparatus  1 . Similarly to when an image is captured, the user operates the second joy stick  212  included in the operation portion  21  to set the operation mode of the endoscope apparatus  1  in accordance with the position (the correctly directed position or the oppositely directed position) in which the endoscope apparatus  1  is operated (used). Based on the input received by the second joy stick  212 , the endoscope apparatus  1  sets the operation mode. 
         [0051]    (Step S 201 ) The display control portion  24  reads a recorded image, which is an image to be played back (a playback image), from the storage portion  53 . After that, the process moves to Step S 202 . 
         [0052]    (Step S 202 ) The control portion  22  determines whether the operation mode of the endoscope apparatus  1  is the rotated display mode or not. If the control portion  22  determines that the operation mode of the endoscope apparatus  1  is the rotated display mode, then the process moves to Step S 204 . Otherwise, the process moves to Step S 203 . 
         [0053]    (Step S 203 ) The display control portion  24  causes the display portion  25  to display the recorded image having been read in Step S 201  and to display the GUI (the menu screen) in the non-rotated state. After that, the process is terminated. 
         [0054]    (Step S 204 ) The display control portion  24  causes the display portion  25  to display the recorded image which has been read in Step S 201  and to display the GUI (the menu screen) in the rotated state. After that, the process is terminated. 
         [0055]    As described above, according to the present embodiment, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  and to display the OSD in the non-rotated state when an image captured by the image pickup portion  11  is displayed in the normal mode in which user uses the endoscope apparatus  1  in the correctly directed position. When an image captured by the image pickup portion  11  is displayed in the rotated display mode in which user uses the endoscope apparatus  1  in the oppositely directed position (the position in which the display portion  25  is placed upside down), the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSD in the rotated state. 
         [0056]    Therefore, even though an endoscope apparatus  1  in which the positional relationship between the operation portion  21  and the display portion  25  is fixed, it is possible for the user to perform operations more easily while looking at the display content on the display portion  25  when the display portion  25  is used in the oppositely directed position (the upside-down position). 
         [0057]    Furthermore, according to the present embodiment, the display control portion  24  causes the display portion  25  to display the recorded image stored by the storage portion  26  and to display the GUI in the non-rotated state when the recorded image stored by the storage portion  26  is played back in the normal mode in which user uses the endoscope apparatus  1  in the correctly directed position. The display control portion  24  causes the display portion  25  to display the recorded image stored by the storage portion  26  and to display the GUI in the rotated state when the recorded image stored by the storage portion  26  is played back in the rotated display mode in which user uses the endoscope apparatus  1  in the oppositely directed position. 
         [0058]    Therefore, even though the endoscope apparatus  1  in which the positional relationship between the operation portion  21  and the display portion  25  is fixed, it is possible for the user to easily check the recorded image and the GUI when the display portion  25  is used in the oppositely directed position (the upside-down position). In the present embodiment, the description has been for the case of the endoscope apparatus  1  in which the operation portion  21  and the display portion  25  are arranged in the same housing, by way of example. However, the operation portion  21  and the display portion  25  may be arranged in different housings. At this time, it is assumed that the positional relationship between the operation portion  21  and the display portion  25  is temporarily fixed due to the configuration state, or the like. Furthermore, in the present embodiment, the description has been for the case where, in the rotated display mode, the images are rotated 180 degrees, by way of example. However, the images may be rotated at every 90 degrees or the like. 
         [0059]    The case where the endoscope apparatus  1  is used in a sideways position in which the endoscope apparatus  1  is rotated at approximately 90 degrees will be described below.  FIG. 10A  is a schematic diagram showing an example where the display control portion  24  causes the display portion  25  to display the image when the user operates the endoscope apparatus  1  being rotated at 90 degrees in the clockwise direction in  FIG. 10A  (a right side directed position) to an arrangement shown in  FIG. 5A . In this case, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in a non-rotated state. In addition, the display control portion  24  causes the display portion  25  to display the OSD in a state of the OSD being rotated at approximately 90 degrees in the counterclockwise direction in the display portion  25  (a left side rotated state) to an arrangement shown in  FIG. 5A . As is illustrated, the user operates the endoscope apparatus  1  in the right side directed position, and the display control portion  24  causes the display portion  25  to display an image  501  captured by the image pickup portion  11  in the non-rotated state and to display an OSD  502  in the left side rotated state. In this case, the direction of the operation on the operation portion  21  by the user coincides with the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. Furthermore, in this case, the user can read the letters on the OSD  502  even if the user operates the endoscope apparatus  1  in the right side directed position. Accordingly, the user is capable of easily performing a bending operation of the bend portion  13 . 
         [0060]      FIG. 10B  is a schematic diagram showing an example where the display control portion  24  causes the display portion  25  to display an image when the user operates the endoscope apparatus  1  being rotated at 90 degrees in the counterclockwise direction in  FIG. 10B  (a left side directed position) to an arrangement shown in  FIG. 5A . In this case, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state. In addition, the display control portion  24  causes the display portion  25  to display an OSD being rotated at approximately 90 degrees in the clockwise direction in the display portion  25  (a right side rotated state) to an arrangement shown in  FIG. 5A . As is illustrated, the user operates the endoscope apparatus  1  in the left side directed position, and the display control portion  24  causes the display portion  25  to display an image  501  captured by the image pickup portion  11  in the non-rotated state and to display an OSD  502  in the right side rotated state. In this case, the direction of the operation on the operation portion  21  by the user coincides with the direction in which the image  501  displayed on the screen moves by the bend portion  13  being bent. Furthermore, in this case, the user can read the letters on the OSD  502  even if the user operates the endoscope apparatus  1  in the left side directed position. Accordingly, since the direction of the operation on the operation portion  21  by the user is not rotated to the direction in which the image  501  displayed on the screen moves, the user is capable of easily checking the OSD  502 , and is capable of easily performing an bending operation of the bend portion  13 . 
         [0061]    Therefore, in the present embodiment, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSD in the left side rotated state when an image captured by the image pickup portion  11  is displayed in the endoscope apparatus  1  being used in the rotated display mode in the right side directed position. Additionally, the display control portion  24  causes the display portion  25  to display the image captured by the image pickup portion  11  in the non-rotated state and to display the OSD in the right side rotated state when an image captured by the image pickup portion  11  is displayed in the endoscope apparatus  1  being used in rotated display mode in the left side directed position. 
         [0062]    Next is a description of an example where the display control portion  24  causes the display portion  25  to display a recorded image when the recorded image that has been captured by the image pickup portion  11  and stored by the storage portion  26  is played back when the endoscope apparatus  1  is used in the sideways position. 
         [0063]      FIG. 11A  is a schematic diagrams showing an example where the display control portion  24  causes the display portion  25  to display a recorded image  701  stored by the storage portion  26  and to display a GUI  702  in the left side rotated state when the user operates the endoscope apparatus  1  in the right side directed position. As is illustrated, when the user operates the endoscope apparatus  1  in the right side directed position and causes the display portion  25  to display the recorded image  701  stored by the storage portion  26  and to display the GUI  702  in the left side rotated state, the user is capable of looking at the recorded images  701  and the GUI  702  even if the user operates the endoscope apparatus  1  in the right side directed position. Therefore, the user is capable of easily checking the recorded image and the GUI. 
         [0064]      FIG. 11B  is a schematic diagrams showing an example where the display control portion  24  causes the display portion  25  to display a recorded image  701  stored by the storage portion  26  and to display a GUI  702  in the right side rotated state when the user operates the endoscope apparatus  1  in the left side directed position. As is illustrated, the display control portion  24  causes the display portion  25  to display the recorded image  701  stored by the storage portion  26  and to display the GUI  702  in the right side rotated state when the user operates the endoscope apparatus  1  in the left side directed position. In this case, the user is capable of looking at the recorded images  701  and the GUI  702  even if the user operates the endoscope apparatus  1  in the left side directed position. Therefore, the user is capable of easily checking the recorded image and the GUI. 
         [0065]    Next is a description of an operation of capturing an image by the endoscope apparatus  1  of the present embodiment. 
         [0066]    In the rotated display mode in which the endoscope apparatus  1  is used in the right side directed position, the display control portion  24  causes the display portion  25  to display an image, acquired by the process in step  101  in the non-rotated state and to display the OSD in the left side rotated state in step  104 . After that, the process moves to step S 105 . Similarly, in the rotated display mode, the display control portion  24  causes the display portion  25  to display the image, acquired by the process in step  101 , in the non-rotated state and to display the OSD in the right side rotated state in step  104 . After that, the process moves to step S  105 . For example, as a method for displaying the OSD in the side state (the left side rotated state, the right side rotated state), the display control portion  24  causes the display portion  25  to display the OSD is rotated at 90 degrees according to a display state stored in a buffer memory. 
         [0067]    The whole or some of the functions of the constituent elements included in the endoscope apparatus  1  may be implemented as follows. A program for implementing such functions is recorded in a computer-readable recording medium. Then, a computer system is caused to read the program recorded in the recording medium, to thereby execute the program. Note that the term “computer system” here includes an OS and hardware such as peripheral equipment. 
         [0068]    Furthermore, the term “computer-readable recording medium” denotes a portable medium such as a flexible disk, a magneto-optical disk, a ROM, and a CD-ROM, and a storage portion such as a hard disk drive built into the computer system. Furthermore, the term “computer-readable recording medium” may include: one which dynamically retains a program for a short period of time like a communication wire when a program is transmitted via a network such as the Internet or via a communications line such as a telephone line; and one which, in the former case, retains a program for a certain period of time like a volatile memory inside the computer system serving as a server or a client. In addition, the above-mentioned program may be for implementing a part of the above-mentioned functions. Furthermore, it may be one that can implement the above-mentioned functions in combination with a program already recorded in the computer system. 
         [0069]    While one embodiment of the present invention has been described in detail with reference to the drawings, the specific construction is not limited to that of this embodiment. Addition, omission, and replacement of the constituents, and other modifications can be made without departing from the spirit or scope of the invention. The present invention is not limited by the descriptions above, but is limited only by the appended claims.