JP2012230206A - Camera body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a camera body capable of easily adjusting a flange focal length.SOLUTION: A camera body 1 includes: a body mount 9 allowing mounting/dismounting of an interchangeable lens barrel; a motor 12 for moving the body mount 9 in the optical axis direction of the interchangeable lens barrel; a communication contact provided on the body mount 9 and being communicable with the interchangeable lens barrel; and a camera body-side CPU 4 calculating a moving distance of the body mount 9 on the basis of information sent from the interchangeable lens barrel via the communication contact.

Description

The present invention relates to a camera body.

  In an interchangeable lens digital camera, the interchangeable lens barrel and the camera body provided by different manufacturers often have different flange backs. That is, the flange back of the interchangeable lens barrel (for example, the distance from the body mount mounting surface on which the camera body is mounted to the in-focus subject when shooting an object at infinity with the focus at infinity) and the flange back of the camera body (body The distance from the mount mounting surface of the mount to the imaging surface of the image sensor is often different. Even in the product of the same manufacturer, the flange back of the interchangeable lens barrel and the camera body may be different. For this reason, when an interchangeable lens barrel having a different flange back is attached to the camera body, the interchangeable lens barrel cannot be suitably used because there is a subject distance that cannot be focused. Therefore, in order to use a lens barrel and camera body with different flange backs, insert a dedicated mount adapter between the lens barrel and the digital camera body with an appropriate thickness to fill the flange back difference. The flange back may be adjusted.

  However, users who own many lens barrels that have a different flange back from the digital camera body that they use need to prepare and use a dedicated conversion adapter in order to use each lens barrel. is there.

JP 2010-160176

The present invention has been made in view of such a situation, and an object thereof is to provide a camera body in which a flange back can be easily adjusted.

  In order to achieve the above object, the camera body according to claim 1 is provided in a mount part to which the optical device can be attached and detached, a moving means for moving the mount part in the optical axis direction of the optical device, and the mount part. A camera body comprising: a communication unit capable of communicating with an optical device; and a calculation control unit configured to calculate a moving amount of the mount unit based on information transmitted from the optical device via the communication unit.

  The camera body according to claim 1 further includes an imaging unit that images light that has passed through the optical device, and the calculation control unit is configured to receive information sent from the optical device and a position in the optical axis direction of the imaging unit. Based on this, the amount of movement of the mount portion may be calculated.

  In the camera body described in claim 1 or 2, the information sent from the optical device may be information for specifying the optical device.

  In the camera body according to any one of claims 1 to 3, the optical device includes a lens that focuses light incident on the optical device, and information sent from the optical device is optical. Information regarding a distance from a surface attached to the mount portion of the device to a position where light incident on the optical device is focused may be used.

Further, in the camera body according to any one of claims 1 to 3,
The optical device includes a lens that focuses light that has passed through the optical device, and the information sent from the optical device may be information related to the flange back of the optical device.

  Further, in the camera body according to any one of claims 1 to 5, the calculation control unit may control the moving unit based on a moving amount of the mount unit.

  Further, in the camera body according to any one of claims 1 to 6, the moving unit may move the mount unit to a predetermined position when the communication unit cannot communicate with the optical device. Good.

The camera body according to any one of claims 1 to 5, further comprising a display unit that displays a movement amount of the mount unit calculated by the calculation control unit, and the moving means includes the mount unit. It may have an operation part which can be operated in order to move. Moreover, in the camera body given in any 1 paragraph of Claims 1-8, a mount part is the 1st mount which can attach or detach optical equipment. And a second mount that is provided on the inner side in the radial direction of the first mount, has a different radial size from the first mount, and is detachable from the optical device.

  10. The camera body according to claim 9, wherein the moving means moves the second mount in the optical axis direction of the optical device, and the communication means is an optical device that is provided on the second mount and attached to the first mount. You may have the 2nd communication part which can communicate with.

  In the camera body described in claim 10, the moving means may move the second mount portion to a predetermined position when the communication portion cannot communicate with the optical device.

  Further, in the camera body according to any one of claims 1 to 8, the optical device includes a lens group, a lens barrel having a radial size different from that of the mount portion, and one of the lens barrels. A mount portion can be attached to the end portion, and a conversion adapter having a lens barrel attached to the other end portion may be provided.

It is the figure which attached the interchangeable lens barrel with the same flange back to the camera body concerning a 1st embodiment of the present invention. It is a figure which shows the relationship between the moving frame, cam frame, and fixed frame which were provided in the camera body which concerns on 1st Embodiment of this invention. It is the figure which mounted | worn the interchangeable lens-barrel from which a flange back differs in the camera body which concerns on 1st Embodiment of this invention. It is the figure which mounted | worn the interchangeable lens-barrel from which a flange back differs in the camera body which concerns on 1st Embodiment of this invention. It is the flowchart which showed the adjustment method of the flange back of a camera body. It is the flowchart which showed the adjustment method of the flange back of a camera body. It is the figure which attached the interchangeable lens barrel with the same flange back to the camera body concerning a 2nd embodiment of the present invention. It is the figure which mounted | worn the interchangeable lens-barrel from which a flange back differs in the camera body which concerns on 2nd Embodiment of this invention. It is the figure which showed the camera body which concerns on 3rd Embodiment of this invention.

(First embodiment)
FIG. 1 is a view showing a state in which the interchangeable lens barrel 2 is mounted on the camera body 1. When the interchangeable lens barrel 2 is attached to the camera body 1, the lens mount 5 provided integrally with the interchangeable lens barrel 2 is fitted and attached to the body mount 9 of the camera body 1.

  The camera body 1 is provided with a cylindrical cam frame 15, and a fixed frame 16 is provided inside the cam frame 15. The camera body 1 is provided with a moving frame 19, and the tip of the moving frame 19 is attached in contact with the camera body mount 9.

  FIG. 2 is a diagram illustrating a detailed relationship between the moving frame 19, the fixed frame 16, the cam frame 15, and the transmission unit 8 illustrated in FIG. 1. The cam frame 15 is provided with a cam groove 35, and the fixed frame 16 is provided with a linear groove 36. The moving frame 19 is engaged with the rectilinear groove 36 of the fixed frame 16 and the cam groove 35 of the cam frame 15 on the side opposite to the tip of the moving frame 19 in contact with the camera body mount 9. When the frame 15 rotates, the moving frame 19 can move back and forth in the optical axis direction of the lens provided in the interchangeable lens barrel 2 along the cam groove 35 and the linear groove 36 of the fixed frame 16. Therefore, when the cam frame 15 rotates and the moving frame 19 moves to the interchangeable lens barrel 2 side, the body mount 9 is pushed out to the interchangeable lens side by the moving frame 19. Therefore, the distance between the surface of the body mount 9 and the image sensor 10 is increased, and the distance from the lens mount attachment surface (surface on which the lens mount 5 is attached) of the body mount 9 of the camera body 1 to the image pickup surface of the image sensor 10. That is, the flange back of the camera body 1 can be lengthened.

  The cam frame 15 is in contact with the transmission unit 8 that transmits the rotation of the motor 12. When the motor 12 rotates, the rotation is transmitted to the cam frame 15 through the transmission unit 8, and the cam frame 15 rotates. When the cam frame 15 rotates, the moving frame 19 moves in the optical axis direction, and the camera body mount 9 attached in contact with the moving frame 19 also moves in the optical axis direction as the moving frame 19 moves.

  A communication contact 18 is attached to the body mount 9. The camera body side communication contact 18 is connected to a flexible printed circuit (FPC) 13. Therefore, since the FPC 13 can be expanded and contracted even when the moving frame 19 is extended, the state where the CPU 4 and the communication contact portion are connected can be maintained. The CPU 4 instructs the motor 12 about the amount of movement of the moving frame 19. In addition, a detection unit (not shown) such as an encoder is provided in the camera body so that the position of the body mount 9 can be detected. In addition, the camera body 1 includes a photometric means, a distance measuring means, a power supply unit for supplying power to the interchangeable lens barrel 2, and the like, which are omitted in FIG.

  Further, the camera body 1 shown in FIG. 1 shows a state in which the moving frame 19 has moved most toward the image sensor 10, and the moving frame 19 cannot move further back (image sensor 10 side). It is like that. When the moving frame 19 cannot move backward any more, the distance from the lens mount mounting surface of the body mount 9 of the camera body 1 to the imaging surface of the image sensor 10 is A. The time when the body mount 9 is at this position is defined as the initial position.

  The interchangeable lens barrel 2 is provided with lens groups L1 and L2, a lens mount 5, a CPU 3, and a communication contact 17. The lenses L1 and L2 provided in the interchangeable lens barrel 2 are provided with a moving member (not shown) that moves each lens, and the distance to the subject to be focused by, for example, an actuator or the like by the moving member. Accordingly, the lenses L1 and L2 are movable in the optical axis direction. The camera body 1 and the interchangeable lens barrel 2 are electrically communicated by contacting the communication contact 17 on the lens side and the communication contact 18 on the camera body side, and various data are transferred from the CPU 3 of the interchangeable lens barrel 2 to the camera. It is sent to the CPU 4 on the body 1 side. The CPU 4 on the camera body 1 side can use the transmitted data for various controls. Further, the interchangeable lens barrel 2 and the camera body 1 can suitably use data exchanged via the communication contacts 17 and 18 for functions such as autofocus and camera shake prevention. Further, the distance from the body mount mounting surface (surface on which the body mount 9 is mounted) of the lens mount 5 of the interchangeable lens barrel 2 to the position where the light passing through the interchangeable lens barrel is focused, that is, the interchangeable lens barrel 2 The flange back has a distance A. Here, the focusing position of the light passing through the interchangeable lens barrel is, for example, in the case where the light passing through the interchangeable lens barrel comes from infinity, and is focused when the focus of the interchangeable lens barrel is set to infinity. It is a position to do.

  In FIG. 1, when the body mount 9 is in the initial position, the distance from the lens mount mounting surface of the body mount 9 to the imaging surface of the image sensor 10 (that is, the flange back of the camera body 1) is the distance A, and the interchangeable lens. It is equal to the distance A of the flange back of the lens barrel 2. At this time, the light that has passed through the lenses L1 and L2 of the interchangeable lens barrel 2 can be focused on the imaging surface of the imaging device 10 provided inside the camera body 1. Therefore, when the interchangeable lens barrel 2 is used, it is not necessary to move the moving frame 19 of the camera body 1 to the interchangeable lens side.

  FIG. 3 is a diagram in which an interchangeable lens barrel 11 having a longer flange back than the interchangeable lens barrel 2 of FIG. 1 is attached to the camera body 1 described in FIG. The interchangeable lens barrel 11 has a lens mount similar to the lens mount 5 of the interchangeable lens barrel 2 described in FIG. 1, and is fitted to the camera body mount 9 of the camera body 1 and attached to the camera body 1. I can do it. The interchangeable lens barrel 11 has lens groups L3 to L7 different from the interchangeable lens barrel 2, and these lens groups can be moved by a moving member (not shown). Further, the communication contact 17 on the interchangeable lens barrel 11 side and the communication contact 18 on the camera body 1 side are in contact with each other, so that electrical communication is performed between the camera body 1 and the interchangeable lens barrel 11 and the interchangeable lens. 11 can be received by the CPU 4 on the camera body 1 side, and the data can be used for various controls by the CPU 4 on the camera body 1 side.

  As shown in FIG. 3, when the distance from the lens mount mounting surface of the camera body mount 9 of the camera body 1 to the imaging surface of the imaging device 10 is A (when the camera body mount 9 is in the initial position), the replacement is performed. The flange back (distance B) of the lens barrel 11 is longer than the flange back (distance A) of the camera body 1. Therefore, the in-focus position is a position beyond the imaging surface of the image sensor 10. Accordingly, it is impossible to perform appropriate photographing, such as being unable to cope with focusing on a subject at a short distance.

  In FIG. 4, the interchangeable lens barrel 11 is attached to the camera body 1, the position of the body mount 9 of the camera body 1 is adjusted, and the light passing through the interchangeable lens barrel 11 is imaged by the imaging element 10 of the camera body 1. It shows a state in focus on the surface. Adjustment of the flange back of the camera body 1 is performed by rotating the cam frame 15 via the transmission unit 8 by driving the motor 12. As the cam frame 15 rotates, the moving frame 19 moves to the interchangeable lens barrel 2 side. Thus, by moving the moving frame 19, the body mount 9 moves and the flange back of the camera body 1 becomes the distance B. Therefore, the distance from the lens mount mounting surface of the body mount 9 to the imaging surface of the image sensor 10 is longer than that in the case of FIG. As a result, the in-focus surface that has been focused on the position beyond the image pickup device 10 can be brought onto the image pickup surface of the image pickup device 10.

  Communication between the interchangeable lens barrel 11 and the camera body 1 is performed in a state where the lens side communication contact 17 and the camera body side communication contact 18 are in contact with each other. In this state, the CPU 14 of the interchangeable lens barrel 11 and the camera body side CPU 4 can communicate with each other through the contact. Therefore, the camera body side CPU 4 calculates an appropriate amount of movement of the moving frame 19 based on information obtained from communication with the interchangeable lens barrel 11, and performs control to move the camera body mount 9, thereby replacing the camera body side CPU 4. It is possible to focus the image of light that has passed through the lens barrel 11 on the imaging surface of the imaging device 10.

  For example, if information such as a unique number of the interchangeable lens barrel 11 is stored on the interchangeable lens barrel 11 side, the CPU 4 on the camera body 1 side passes through the CPU 3 on the interchangeable lens barrel 11 side. Information such as a unique number can be read from the camera body side communication contact 18. Based on the information, the camera body side CPU 4 recognizes the unique information of the interchangeable lens barrel 11, and recognizes the flange back of the interchangeable lens barrel 11 from the unique information. Then, the amount of movement of the moving frame 19 can be calculated according to the flange back, the moving frame 19 can be moved to the interchangeable lens 11 side, and the focusing surface can be moved onto the imaging surface of the image sensor 10.

  FIG. 5 is a flowchart showing an adjustment operation of the body mount 9 for moving the focusing surface on the imaging surface of the image sensor 10. First, the camera body side CPU 4 determines whether or not communication is possible between the camera body 1 and the interchangeable lens barrel 11 (step S1). If it is determined that it is not possible (step S1: No), the series of flow is ended, and if it is determined that it is possible (step S1: Yes), communication is performed with the attached interchangeable lens barrel 11, and the next step is performed. Migrate to

  Next, by communicating with the interchangeable lens barrel 11, information such as a unique number of the interchangeable lens barrel 11 is received from the interchangeable lens barrel 11 side, and the camera body side CPU 4 receives the interchangeable lens mirror attached. The cylinder 11 is recognized (step S2). Then, information on the flange back is obtained from the received unique number of the interchangeable lens barrel 11. This can be done by storing the correspondence between the unique numbers of the plurality of interchangeable lens barrels and the flange back in advance on the camera body 1 side. Next, it is determined whether or not the body mount 9 has moved from the initial position where the distance from the lens mount mounting surface of the body mount 9 to the imaging surface of the imaging device 10 is A (step S3). As a result, if it is determined that the body mount 9 has moved from the initial position (step S3: Yes), the current position of the body mount 9 is detected (step 4). On the other hand, if it is determined that the body mount 9 has not moved from the initial position (step S3: No), the process proceeds to step 5. Next, based on the flange back of the interchangeable lens barrel 11 and the current position of the body mount 9, the body mount 9 is focused on the imaging surface of the imaging device 10 to focus the light that has passed through the lens barrel 2. It is determined whether it is necessary to move (step S5). If it is determined that it is not necessary to move the body mount 9 (step 5: No), the flow is terminated without moving the body mount 9. If it is determined that the body mount 9 needs to be moved (step S5: Yes), based on the information obtained in steps S2 and S4, the CPU 4 performs control to rotate the motor by a necessary amount, and performs imaging. The body mount 9 is moved so as to be focused on the imaging surface of the element 10. (Step S6).

  In this way, the distance from the lens mount mounting surface of the body mount 9 of the camera body 1 to the imaging surface of the imaging device 10 and the flange back of the interchangeable lens barrel 2 are made equal.

  As described above, by using the camera body 1 according to the first embodiment, even when the interchangeable lens barrel 11 having a long flange back is used, the flange back of the camera body 1 can be adjusted, and the in-focus plane can be adjusted with the camera. It can be brought onto the imaging surface of the imaging device 10 of the body 1.

  In the first embodiment described above, as a method of adjusting the body mount 9 so that the flange back of the interchangeable lens barrel 11 and the flange back of the camera body 1 are equal, the camera side CPU 4 includes the interchangeable lens barrel side CPU 14. Information such as a unique number of the interchangeable lens barrel 11 is read through a communication contact point between the interchangeable lens barrel 11 and the camera body 1. Based on the information, the camera body 1 side recognizes the interchangeable lens barrel 11, calculates the amount of movement of the body mount 9 according to the flange back of the interchangeable lens barrel 11, and moves the body mount 9 to the interchangeable lens side. Although adjustment to move is performed, it is not limited to this method. For example, the interchangeable lens barrel 11 stores information on the flange back unique to the interchangeable lens barrel 11, and the stored unique flange back information from the interchangeable lens barrel 11 is transmitted to the camera via the communication contact 18. The body mount 9 may be moved based on the information received on the body 1 side.

  In addition to the method for adjusting the body mount 9 as shown in FIG. 5 of the above-described embodiment, the body mount 9 can be adjusted by a method as shown in FIG. FIG. 6 is a flowchart showing an adjustment operation of the body mount 9 different from FIG. First, the camera body 1 determines whether or not communication is possible between the interchangeable lens barrels 11 via the communication contact 18 (step S7). If it is determined that communication is not possible because the power is off or the interchangeable lens barrel 11 is not attached to the camera body 1 (step S7: No), the body mount 9 is attached to the image sensor 10. The body mount 9 is moved to the initial position. If it is determined that communication is possible (step S7: Yes), communication is performed with the interchangeable lens barrel 11, and the process proceeds to the next step. Next, by communicating with the interchangeable lens barrel 11, the camera body 1 side receives information such as a unique number of the interchangeable lens barrel 11, and the camera body 1 side selects the interchangeable lens barrel 11 attached thereto. Recognize (step S8). Then, information on the flange back is obtained from the received unique number of the interchangeable lens barrel 11. This can be done by storing the correspondence between the unique numbers of the plurality of interchangeable lens barrels and the flange back in advance on the camera body 1 side. Next, based on the information on the flange back of the interchangeable lens barrel 11 and the current position of the body mount 9, adjustment is made so that the light passing through the lens barrel 11 is focused on the imaging surface of the imaging device 10. Therefore, it is determined whether or not it is necessary to move the body mount 9 (step S9). If it is determined that it is not necessary to move the body mount 9 (step 9: No), the flow is terminated without moving the body mount 9. If it is determined that the body mount 9 needs to be moved (step S9: Yes), the light passing through the lens barrel 11 is aligned on the imaging surface of the image sensor 10 based on the information obtained in step S8. In order to move the body mount 9 in focus, the CPU 4 gives an instruction and rotates the motor 12 by a necessary amount. (Step S10). For this reason, in the flowchart shown in the figure, when the camera body mount 9 is in a state where communication cannot be performed because the power is off or the interchangeable lens barrel 11 is not attached to the camera body 1, the camera body mount 9 is The setting is such that the body mount 9 is moved so as to return to the initial position. Therefore, in this method of adjusting the body mount 9, it is not necessary to detect the position of the camera body mount 9.

  In the above-described embodiment, the body mount 9 is automatically adjusted. However, the motor 12 and the cam frame 15 are manually operated based on information obtained by communication, and the flange back of the camera body 1 is moved. You may adjust. For example, the CPU 4 calculates the required amount of movement of the moving frame 19 based on the unique information of the interchangeable lens barrel 11 obtained by communication and the current position of the body mount 9, and the amount of movement is not shown in the camera body. 1 is displayed on the display unit provided on the back surface of 1. The apparatus user manually operates the motor 12 and the cam frame 15 based on the displayed numerical values, and operates and adjusts the movement amount displayed on the display unit. In this way, the apparatus user may adjust himself / herself to a suitable position of the moving frame 19 obtained by communication.

Further, in the first embodiment described above, the moving frame 19 is in a state where it has moved to the image sensor 10 side most, and the moving frame 19 cannot be moved further to the image sensor 10 side. It may not be so. For example, the moving frame 19 may be further moved to the image sensor 10 side, and the body mount 9 and the lens mount fitted to the body mount 9 may enter the camera body 1. With this structure, the distance between the body mount 9 and the image sensor 10 is shortened, and the flange back of the camera body 1 is shortened. Therefore, even if the flange back of the interchangeable lens barrel 11 is short and the in-focus surface is in front of the image pickup surface of the image pickup device 10, the image pickup surface of the image pickup device 10 can be obtained by moving the body mount 9 further to the image pickup device 10 side. Can be focused on. Further, as described in the above embodiment, the flange back of the camera body 1 can be lengthened by moving the body mount 9 in the direction of the optical axis of the interchangeable lens barrel 11.
(Second Embodiment)
FIG. 7 is a diagram in which the interchangeable lens barrel 2 shown in FIG. 1 is mounted on the camera body 21 of the second embodiment. The interchangeable lens barrel mount 5 of the interchangeable lens barrel 2 can be attached to the body mount 23 of the camera body 21, and is fitted and attached to the body mount 23 while rotating the lens mount 5.

  The body mount 23 of the camera body 21 described in the second embodiment is attached in contact with the fixed frame 22. Since the fixed frame 22 is attached to the fixed frame 16, the body mount 23 cannot be moved in the optical axis direction.

  The distance A from the lens mount mounting surface of the body mount 23 to the image sensor is the distance from the body mount mounting surface of the lens mount 5 of the interchangeable lens barrel 2 to the position where the light passing through the interchangeable lens barrel 2 is focused, That is, it is equal to the flange back (distance A) of the interchangeable lens barrel 2. Therefore, the interchangeable lens barrel 2 can be suitably used by being attached to the camera body 21. Here, the focusing position of the light passing through the interchangeable lens barrel is, for example, in the case where the light passing through the interchangeable lens barrel comes from infinity, and is focused when the focus of the interchangeable lens barrel is set to infinity. It is a position to do.

  In addition, the camera body 21 is provided with an imaging device 10, a CPU 4, a motor 12, a transmission unit 8, a cam frame 15, a fixed frame 16, and a moving frame 19. Further, there are a detection means for detecting the position, a photometry means, a distance measurement means, and a power supply unit for supplying power to the interchangeable lens barrel, but these are omitted in FIG.

  Since the configuration of the interchangeable lens barrel 2 is the same as that shown in FIG. 1, the description thereof is omitted here.

  In addition to the body mount 23, the camera body 21 of the second embodiment is provided with a body mount 24 on the outer side in the radial direction of the body mount 23. That is, the camera body 21 has a configuration in which two body mounts are provided. The body mount 23 and the body mount 24 have different mount diameters. The body mount 23 is provided with a communication contact 25 and the body mount 24 is provided with a communication contact 26 independently, and can communicate with an interchangeable lens barrel that can be attached to each body mount.

  As with the camera body 1 of the first embodiment, the body mount 24 is attached with the tip of the moving frame 19 in contact with the body mount 24. Further, the moving frame 19 is engaged with the linear groove 36 of the fixed frame 16 and the cam groove 35 of the cam frame 15 on the side opposite to the side attached to the camera body mount 24. Therefore, the cam frame 15 that rotates through the transmission portion 8 that transmits the rotation of the motor 12 causes the tip of the moving frame 19 to move along the cam groove 35 provided in the cam frame 15 and the linear groove 36 of the fixed frame 16. Moving in the optical axis direction, the moving frame 19 moves in the optical axis direction.

  The moving frame 19 shown in FIG. 7 is in the state of moving most toward the image sensor 10, and the moving frame 19 can no longer move backward. At a position where the moving frame 19 cannot move further back, the distance between the lens mount mounting surface of the body mount 24 and the imaging surface of the imaging device 10 is A, which is another one provided in the camera body 21. It is equal to the distance from one body mount 23 to the imaging surface of the image sensor 10. The time when the body mount 24 is at this position is defined as the initial position.

  FIG. 8 is a diagram in which the interchangeable lens barrel 27 is mounted on the camera body 21 described in the second embodiment. The interchangeable lens barrel 27 is provided with lens groups L8 to L12, a CPU 14, and a lens barrel mount 28. The lens mount 28 has a communication contact 20 for communicating with the camera body side. Yes. The lens groups L8 to L12 can move the lens group by moving means (not shown). The flange back (distance B) of the interchangeable lens barrel 27 is longer than the distance A from the lens mount mounting surface of the body mount 24 to the imaging surface of the image sensor 10. Therefore, the light that has passed through the interchangeable lens barrel 27 is focused at a position beyond the imaging surface of the imaging device 10 in the camera body 21.

  The lens mount 28 of the interchangeable lens barrel 27 is larger than the mount diameter of the lens mount 5 shown in FIG. Therefore, it cannot be attached to the lens mount 5. However, the camera body 21 according to the second embodiment is provided with a body mount 24 having a larger mounting diameter than the body mount 23 outside the body mount 23. The body mount 24 has a mount diameter that can be fitted to the lens mount 28.

  Further, since the body contact 24 is provided with the communication contact 26, communication can be performed by contacting the communication contact 20 of the interchangeable lens barrel 27. Further, since the communication contact 26 is connected to the body mount 24 and the FPC 13 that can be expanded and contracted similarly to the camera body 1 according to the first embodiment, even when the moving frame 19 is moved to the interchangeable lens side, the camera body Communication between the CPU 4 of the CPU 21 and the CPU 3 on the side of the interchangeable lens barrel 27 can be maintained.

  The flange back of the camera body 21 is such that the light that has passed through the lens groups L8 to L12 included in the interchangeable lens barrel 27 after the interchangeable lens barrel 27 is mounted on the camera body 21 is placed on the imaging surface of the image sensor 10. Adjustment is performed by moving the body mount 24 toward the lens barrel so as to focus.

  As an adjustment method, communication with the interchangeable lens barrel 27 is performed using the method of the flowchart shown in FIG. 5 of the first embodiment, and the position of the body mount 24 is automatically determined based on the information of the interchangeable lens barrel 27. May be adjusted. Moreover, you may adjust the position of the body mount 24 using the method of the flowchart shown in FIG. 6 of 1st Embodiment. Further, the apparatus user may manually adjust the position based on the information of the interchangeable lens barrel 27 obtained through communication. By using these adjustment methods, the flange back of the camera body 21 is adjusted to the same distance B as the flange back of the interchangeable lens barrel 27.

  As described above, according to the configuration of the second embodiment, since the camera body 21 of the second embodiment is provided with body mounts having two different mount diameters, it is possible to use interchangeable lens barrels having different mount diameters. it can. Further, since the camera body mount 24 can move in the optical axis direction by moving the moving frame 19 in the optical axis direction, the camera body 21 can adjust the flange back of the camera body 21.

  Further, in the above-described second embodiment, the moving frame 19 is in a state where it is most moved to the image sensor 10 side, and the moving frame 19 cannot move further to the image sensor 10 side. When the moving frame 19 is at this position, the initial position of the body mount 24 is used, but this need not be the case. For example, the moving frame 19 may move further toward the image sensor 10 and the body mount 24 may enter the camera body 21. With such a structure, the distance between the body mount 24 and the imaging surface of the imaging device 10 is shortened, and the flange back of the camera body 21 is shortened. Therefore, even if the flange back of the interchangeable lens barrel is short and the in-focus surface is in front of the image sensor 10, the moving frame 19 is further moved toward the camera body 21 to focus on the image surface of the image sensor 10. Can be made. Further, as described in the above embodiment, the flange back of the camera body 21 can be lengthened by moving the body mount 24 in the optical axis direction on the interchangeable lens barrel side.

  Further, the body mount 23 of the camera body 21 described in the second embodiment is attached to the fixed frame 16 via the fixed frame 22, and the body mount 23 cannot move in the optical axis direction. Instead, a mechanism capable of moving the moving frame in the optical axis direction, such as the camera body mount 24, may be provided. At this time, two motors may be provided in the camera body 21, and the body mount may be individually moved by each motor.

In the second embodiment, two body mounts are provided on the camera body, but three or more body mounts may be provided.
(Third embodiment)
FIG. 9 shows a view in which the interchangeable lens barrel 27 shown in FIG. 8 is attached to the camera body 1 shown in FIG. 1 of the first embodiment via a conversion adapter 30.

  The camera body 1 is provided with an image sensor 10, a CPU 4, a motor 12, a transmission unit 8, a cam frame 15, a fixed frame 16, and a moving frame 19. Also, there are a detecting means for detecting the position, a photometric means, a distance measuring means, and a power supply unit for supplying power to the interchangeable lens barrel, but this is omitted in the figure. Further, the camera body 1 can move the camera body mount 9 by moving the cam frame 15 via the transmission unit 8 that transmits the rotation of the motor 12, thereby moving the moving frame 19 in the optical axis direction. .

  Similarly to the first embodiment, the camera body 1 is located between the lens mount mounting surface of the body mount 9 and the imaging surface of the imaging device 10 when the moving frame 19 is in a position where the moving frame 19 cannot move further back (on the imaging device 10 side). The distance is defined as A, and the time when the body mount 9 is at this position is defined as the initial position.

  The interchangeable lens barrel 27 is provided with a CPU 4 and a lens mount 28. The lens mount 28 has a communication contact 20 for communicating with the camera body side.

  The distance from the lens mount 28 of the interchangeable lens barrel 27 to the position where the light passing through the interchangeable lens barrel 27 is focused, that is, the flange back of the interchangeable lens barrel 27 is the distance B. Here, the focusing position of the light passing through the interchangeable lens barrel is, for example, in the case where the light passing through the interchangeable lens barrel comes from infinity, and is focused when the focus of the interchangeable lens barrel is set to infinity. It is a position to do.

  The lens mount 28 of the interchangeable lens barrel 27 has a larger diameter than the camera body mount 9 and cannot be fitted and attached to the body mount 9. Therefore, in the third embodiment, since the camera body 1 and the interchangeable lens barrel 27 are attached, the attachment is performed via the conversion adapter 31.

  The conversion adapter 31 has a substantially annular shape, and has a lens mount side mounting portion and a camera body mount side mounting portion. The lens mount-side attachment portion is attached to one end of the conversion adapter 31 and corresponds to the mount standard of the lens mount 28, and can be fitted with the lens mount 28 to attach the interchangeable lens barrel 27. . Further, the camera body mount mounting portion attached to the other end of the conversion adapter 31 corresponds to the mounting standard of the camera body mount 9 and is fitted to the camera body mount 9 to mount the camera body 1. Is possible. As described above, the interchangeable lens barrel 27 can be attached to the camera body 1 via the conversion adapter 31.

  A communication contact 30 b is provided at the camera body mount side attachment portion of the conversion adapter 31. When the camera body 1 is mounted, the communication contact 30 b contacts the communication contact 18 provided on the camera body mount 1. The lens mount side mounting portion is provided with a communication contact 30a. When the lens mount 28 is attached, the communication contact 30a contacts the communication contact 20 provided on the lens mount side. Since the communication contact 30a and the communication contact 30b of the conversion adapter 31 are electrically connected, the communication contact 18 provided on the camera body mount side mounting portion and the communication contact 20 provided on the lens mount side mounting portion Are electrically connected and can communicate. For this reason, even if the conversion body 31 is attached between the camera body 1 and the interchangeable lens barrel 27, the camera body 1 and the interchangeable lens barrel 27 can communicate with each other.

  In the configuration of the third embodiment, since the conversion adapter 31 is attached between the camera body 1 and the interchangeable lens barrel 27, the distance from the body mount attachment surface of the lens mount 28 to the imaging surface of the image sensor 10 is the conversion adapter. Increased by thickness D. Therefore, in the third embodiment, it is necessary to adjust the flange back in consideration of the thickness D of the conversion adapter. That is, BD obtained by subtracting the thickness D of the conversion adapter 31 from the distance B of the flange back of the interchangeable lens barrel 27 and the distance from the conversion adapter mount mounting surface of the body mount 9 to the imaging surface of the image sensor 10 are compared. Then, the movement amount of the body mount 9 is calculated. Further, BD obtained by subtracting the thickness D of the conversion adapter 31 from the distance B of the flange back of the interchangeable lens barrel from the conversion adapter mounting surface of the lens mount 28 is the interchangeable lens mirror from the conversion adapter mount mounting surface of the body mount 9. The distance is the same as the distance until the light passing through the tube 27 is focused.

  The distance from the lens mount mounting surface of the body mount 9 to the imaging surface of the image sensor 10 at the initial position of the moving frame 19 provided on the camera body 1 is A. In the third embodiment, the interchangeable lens barrel 27 can be attached to the camera body 1 via the conversion adapter 31. However, the conversion adapter 31 in the third embodiment is not a conversion adapter dedicated to the interchangeable lens barrel 27 and the camera body 1, and the light that has passed through the interchangeable lens barrel 27 does not focus on the imaging surface of the image sensor 10. That is, the distance BD is larger than the distance A from the conversion adapter mount mounting surface of the body mount 9 to the imaging surface of the imaging element 10 at the initial position. Therefore, the light that has passed through the interchangeable lens barrel 27 is focused beyond the imaging surface of the imaging element 10 of the camera body 1. Therefore, the interchangeable lens barrel 27 cannot be properly used by being attached to the camera body 1 via the conversion adapter 31.

  Therefore, by moving the moving frame 19 provided on the camera body 1 to the interchangeable lens 27 side, the body mount 9 is moved to the interchangeable lens barrel 27 side, and the image sensor 10 is mounted from the conversion adapter mount mounting surface of the body mount 9. Adjust the distance of the imaging surface. The body mount 9 is adjusted to a position where the light passing through the interchangeable lens barrel is focused on the imaging surface of the imaging element 10 of the camera body 1.

  As an adjustment method, communication with the interchangeable lens barrel 27 is performed using the adjustment method shown in FIG. 5 of the first embodiment, and the camera body mount 9 is automatically mounted based on the information of the interchangeable lens barrel 27. The position of the conversion adapter 31 may be adjusted. Moreover, you may adjust the position of the body mount 9 using the method of the flowchart shown in FIG. 6 of 1st Embodiment. Further, the apparatus user may manually adjust the position based on the information of the interchangeable lens barrel 27 obtained through communication. By using these adjustment methods, the distance from the conversion adapter mount mounting surface of the body mount 9 of the camera body 1 to the imaging surface of the image sensor 10 is set to a distance C that is equal to the distance BD.

  As described above, according to the camera body 1 according to the third embodiment, even when the dedicated conversion adapter is not used and the light passing through the interchangeable lens barrel 27 is not focused on the imaging surface of the imaging device 10. Since the body mount 9 of the camera body 1 can be adjusted, the light that has passed through the interchangeable lens barrel 27 can be focused on the imaging surface of the imaging device 10. Therefore, even if the interchangeable lens barrel 27 is attached to the camera body 1 via a conversion adapter 31 that is not dedicated, it can be used suitably. Therefore, if the camera body 1 according to the third embodiment is an interchangeable lens barrel that can be attached to the camera body 1 via the same conversion adapter 31, it can be suitably used in an interchangeable lens barrel having a different flange back. be able to. That is, the normal conversion adapter 31 uses a conversion adapter having an appropriate thickness in order to fill the difference between the flange back of the normal camera body and the flange back of the interchangeable lens barrel. However, in the camera body according to the third embodiment, various interchangeable lens barrels having different flange backs in the interchangeable lens barrel that can be attached to the camera body via the same conversion adapter if one conversion adapter is possessed. Can be used.

  Further, in the above-described third embodiment, the moving frame 19 is in the state of being moved most to the image sensor 10 side, and the moving frame 19 cannot move further to the image sensor 10 side. Not necessarily. For example, the moving frame 19 may be further moved to the image sensor 10 side, and the camera body mount 9 and the conversion adapter 31 may enter the camera body 1. With such a structure, the distance between the camera body mount 9 and the imaging surface of the imaging device 10 is shortened. Therefore, even if the flange back of the interchangeable lens barrel 27 is short and the in-focus surface is in front of the image pickup surface of the image pickup device 10, the image pickup surface of the image pickup device 10 is moved by moving the body mount 9 further to the camera body 1 side. Can be focused on. Further, as described in the above embodiment, the flange back of the camera body 1 can be lengthened by moving the body mount 9 in the direction of the optical axis of the interchangeable lens barrel 11.

  Further, the present invention is not limited to the examples described above, and the configuration of the embodiment may be improved as appropriate, or at least a part may be replaced with another component. Furthermore, the constituent elements without particular limitation on the arrangement are not limited to the arrangement disclosed in the above-described embodiment, and can be arranged at a position where the function can be achieved.

1, 21 Camera body 2, 11, 27 Interchangeable lens barrel 3 Interchangeable lens barrel side CPU
4 Camera body side CPU
5, 28 Lens mount 8 Transmitters 9, 23, 24 Body mount 10 Imaging element 12 Motor 13 Flexible printed circuit board 15 Cam frame 16 Fixed frame 17, 20 Communication contact portions 18, 25, 26 provided on the interchangeable lens barrel Camera Communication contact portion 19 provided on the body Moving frame 22 Fixed frame 29 Conversion adapter 30a Interchangeable lens barrel side communication contact portion 30b Camera body side communication contact portion 35 Cam groove 36 Linear groove

Claims (12)

A mount part to which an optical device can be attached and detached,
Moving means for moving the mount portion in the optical axis direction of the optical device;
A communication means provided in the mount portion and capable of communicating with the optical device;
A camera body comprising: a calculation control unit that calculates a movement amount of the mount unit based on information sent from the optical device via the communication unit. The camera body according to claim 1,
Comprising an imaging unit for imaging light that has passed through the optical device;
The camera body characterized in that the calculation control unit calculates a movement amount of the mount unit based on information sent from the optical device and a position of the imaging unit in the optical axis direction. A camera body according to claim 1 or 2, wherein
The camera body characterized in that the information sent from the optical device is information specifying the optical device. A camera body according to any one of claims 1 to 3,
The optical apparatus has a lens that focuses light incident on the optical apparatus,
The information sent from the optical device is information relating to a distance from a surface attached to the mount portion of the optical device to a position where light incident on the optical device is focused. A camera body according to any one of claims 1 to 3,
The optical instrument is:
Having a lens that focuses the light that has passed through the optical instrument;
The camera body, wherein the information sent from the optical device is information related to a flange back of the optical device. A camera body according to any one of claims 1 to 5,
The camera body, wherein the calculation control unit controls the moving unit based on a moving amount of the mount unit. A camera body according to any one of claims 1 to 6,
The camera body characterized in that the moving means moves the mount portion to a predetermined position when the communication means cannot communicate with the optical device. The camera body according to any one of claims 1 to 5, further comprising a display unit that displays a movement amount of the mount unit calculated by the calculation control unit,
The camera body according to claim 1, wherein the moving means includes an operation unit operable to move the mount unit. A camera body according to any one of claims 1 to 8,
The mount portion is provided on the inner side in the radial direction of the first mount and the first mount to which the optical device can be attached and detached. The size of the first mount is different from that of the first mount, and the optical device can be attached and detached. A camera body comprising a second mount. A camera body according to claim 9,
The moving means moves the second mount in the optical axis direction of the optical device,
The camera body according to claim 1, wherein the communication means is provided in the second mount and is capable of communicating with the optical device attached to the second mount. A camera body according to claim 10,
The camera body according to claim 1, wherein the moving means moves the second mount portion to a predetermined position when the communication means cannot communicate with the optical device. A camera body according to any one of claims 1 to 8,
The optical instrument is:
A lens barrel provided with a lens group, and having a radial size different from that of the mount portion;
A camera body, comprising: a conversion adapter to which the mount portion can be attached at one end portion and the lens barrel attached to the other end portion.

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