JP2007288359A - Digital camera - Google Patents

Abstract

A ground contact of a camera body is securely grounded to prevent failure due to electrostatic discharge.
A lens unit is detachably attached to a body-side mount portion of a camera body. The body side mount portion 11 includes a base portion 58, bayonet claws 12 a to 12 c, a mount barrier 14, a body side ground contact 61, a support member 62, a ground connection member 63, and a biasing spring 15. The mount barrier 14 is attached with a body-side ground contact 61 and is movable between a closing position for closing the opening 58a of the base portion 58 and a retreating position retracting from the closing position. The ground connection member 63 is connected to the ground pattern of the main board 75. The biasing spring 15 always slides with the body-side ground contact 61 and the ground connection member 63. When the mount barrier 14 is in the retracted position, the body-side ground contact 61 and the ground connection member 63 come into contact with each other.
[Selection] Figure 9

Description

  The present invention relates to a digital camera capable of mounting a lens unit on a camera body.

  An interchangeable lens camera in which various photographic lenses are detachably attached to the camera body has been known. Recently, the price of an image sensor has been decreasing and the number of pixels has been increasing. Instead of interchangeable lens cameras for silver salt films, interchangeable lens digital cameras have become widespread. In this interchangeable lens digital camera, a subject image formed by a photographing lens is converted into image data by an image pickup device such as a CCD, and recorded on a recording medium such as a built-in memory or a memory card.

  In this interchangeable lens digital camera, the existing system for silver salt film is not diverted, and as a new configuration of the interchangeable lens digital camera, it is considered to incorporate an image sensor into the interchangeable lens unit. . By incorporating the image sensor in the lens unit, there is no need to optically connect the lens unit and the camera body, and the electrical signal contact of the lens unit and the electrical signal contact of the camera body are contacted and electrically connected. Therefore, the structure can be made relatively simple.

  A digital camera in which the above-described imaging device is incorporated in a lens unit is described in, for example, Patent Documents 1 to 3, and a mount unit for detachably mounting a replacement lens unit on the camera body of these digital cameras. The camera body includes a mount barrier that closes the opening of the mount portion and covers the electrical signal contact, and a spring that biases the mount barrier. Thus, when the lens unit is mounted, the mount barrier is retracted to expose the electrical signal contact, and when the lens unit is not mounted, the spring is biased to return to the closed position that covers the electrical signal contact.

By the way, a lens unit having a built-in image pickup device such as a CCD incorporates a circuit board for mounting various electrical components and electrical signal contacts. Therefore, static electricity may be discharged when the lens unit is attached to the camera body, which may cause damage or failure of the circuit board. To prevent this, the lens unit ground is connected to the ground pattern of the main board on the camera body side. It is common to have a configuration of grounding. Therefore, in the digital cameras disclosed in Patent Documents 1 to 3, for example, a ground contact connected to the ground pattern of the built-in circuit board is provided on the lens unit, and the ground pattern and mount formed on the main board are provided on the camera body. Further, a ground contact point connected to the sheet metal part of the mount part is provided on the surface of the mount barrier described above. As a result, when the lens unit is coupled to the mount portion of the camera body, the contact points for the ground contact each other, and the circuit board of the lens unit is transferred from the ground contact point to the ground pattern of the main substrate via the sheet metal portion of the mount portion. Since it is connected, it can be grounded.
JP-A-8-171130 Japanese Patent Laid-Open No. 2001-177023 JP 2001-30569 A JP 2001-30569 A

  However, when configured as in the above-mentioned patent document, the mount barrier is mounted so as to be movable between the closing position and the retracted position, and when the lens unit is mounted, the mount barrier is pushed in and the sheet metal portion of the mount portion is The ground contact of the mount barrier comes into contact, but when the lens unit is not attached, the mount barrier and the sheet metal part of the mount part are separated, and the ground contact of the mount barrier is in a floating state (not grounded). End up. Therefore, the mount barrier is in a floating state during the movement from the non-mounting state to the mounting state, and static electricity may be generated at this time, so that a failure due to discharge cannot be prevented. Further, the spring for urging the mount barrier is also in a floating state, and it has not been considered to ground.

  The present invention has been made in consideration of the above circumstances, and an object of the present invention is to provide a digital camera capable of reliably grounding a ground contact of a camera body and preventing a failure due to electrostatic discharge.

  In the digital camera of the present invention, a lens unit having a lens-side ground contact connected to the ground of a photographing optical system, an image sensor, and various electric components incorporated therein, and a body side on which the lens unit is detachably mounted When the lens unit is mounted on the mount part, the body side mount part, an electrical signal contact for transmitting and receiving an electrical signal, a closed position that covers the interior of the body side mount part and covers the electrical signal contact, A mount barrier that is retracted from the closing position and is movably attached to a retreat position that exposes the electrical signal contact, is provided on the surface of the mount barrier, and contacts the lens-side ground contact when the lens unit is mounted. A body-side ground contact; and a biasing spring that biases the mount barrier to the closing position. When the unit is mounted, the mount barrier moves to the retracted position against the biasing of the biasing spring, and the digital body has a camera body that is electrically connected to the lens unit by exposing the electrical signal contact In the camera, a ground member connected to a ground of various electrical components built in the camera body is fixed to the body side mount portion, and the biasing spring includes the body side ground contact and the ground member. And always slide. The biasing spring is a spiral coil spring, and the body-side ground contact and the ground member include a support portion that supports the biasing spring at a plurality of locations, and a front surface of the biasing spring. And an abutting portion that abuts on the back surface.

  When the lens unit is mounted, it is preferable that the body-side ground contact and the ground member come into contact with each other when the mount barrier moves to the retracted position. Furthermore, it is preferable that the ground member and the body-side ground contact are each provided with a plurality of sliding portions that slide with the biasing spring. In addition, it is effective that a plurality of the urging members are provided and are provided at substantially rotationally symmetric positions with the center of the mount barrier as a symmetry axis at substantially equal angular intervals.

  In the digital camera of the present invention, the ground member connected to the ground of various electrical components built in the camera body is fixed to the body side mount, and the biasing spring always slides with the body side ground contact and the ground member. As a result, the ground contact on the camera body side can be securely grounded when the lens unit is attached and not attached, preventing static discharge and preventing breakdown or damage.

  A digital camera to which a first embodiment of the present invention is applied will be described below with reference to the drawings. As shown in FIGS. 1 and 2, the digital camera 2 includes a camera body 3 and a lens unit 4. A lens unit 4 is detachably attached to the camera body 3, and the camera body 3 and the lens unit 4 are electrically connected when mounted. 1 shows a state in which the lens unit 4 is attached to the camera body 3, and FIG. 2 shows a state in which the lens unit 4 is removed.

  The lens unit 4 is provided with a lens side mount portion 8, and the lens side mount portion 8 is integrally provided with three lens side bayonet claws 9a to 9c.

  A body-side mount portion 11 is provided on the front surface of the camera body 3. Bayonet claws 12a to 12c corresponding to the lens side bayonet claws 9a to 9c are integrally formed on the body side mount part 11, and a coil spring 15 (see FIG. 5) is provided inside the body side mount part 11. A mount barrier 14 that is biased forward is provided to prevent dust from entering the camera body 3 when the lens unit is not attached.

  Further, a lock release button 16 is provided in the vicinity of the body side mount portion 11. The lock release button 16 is operated when the lens unit 4 is removed, and the lens unit 4 can be unlocked by pressing.

  On the upper surface of the camera body 3, there are provided a release button 18 that is pressed at the time of shooting, a mode operation unit 19 that is operated when the shooting / playback mode is switched, and the like. A strobe 22 is provided on the front surface of the camera body 3. On the back side, an LCD 20 (see FIG. 8), a power switch 23 (see FIG. 8), and the like are provided.

  As shown in FIG. 3, the lens unit 4 includes a lens barrel portion 6 and a lens side mount portion 8. The lens barrel 6 has an imaging element mounting substrate 26 (see FIG. 8) in which a photographing lens 24 (see FIG. 2), a CCD (imaging element) 25, a drive circuit for driving the CCD 25, and the like are provided. Etc. are incorporated. The imaging element mounting substrate 26 is electrically connected to a contact substrate 30 described later and a flexible substrate (not shown).

  As shown in detail in FIG. 3, the lens side mount portion 8 includes a mount main body 29, a contact substrate 30, a spacer 31, a pressing plate 32, a set screw 33, a connection member 35, and the like. The mount body 29 is provided integrally with the rear end portion of the lens barrel portion 6. The mount main body 29 is integrally provided with a base portion 36, a cylindrical portion 37 positioned substantially at the center of the base portion 36, and bayonet claws 9 a to 9 c protruding from the outer periphery of the cylindrical portion 37. In the present embodiment, three bayonet claws are provided on the lens side mount portion 8, but the present invention is not limited to this, and the number of bayonet claws may be two or four. Of the bayonet claws 9a to 9c, one bayonet claw 9a is integrally formed with a retaining projection 9d at one end thereof.

  The base portion 36 is formed in a substantially disk-shaped plate shape, and is formed with an engagement hole (not shown). The engagement hole engages with the lock pin 62 when the lens unit 4 is attached to the camera body 3. The bayonet claws 9a to 9c are arranged so as to protrude from the outer peripheral surface of the cylindrical portion 37, and an opening 38 is formed by continuously cutting from the rear end surface of the cylindrical portion 37 to the bayonet claws 9a to 9c. ing. The opening 38 has a shape in which three fan shapes corresponding to the bayonet claws 9 a to 9 c protrude from a circular shape that is slightly smaller than the outer shape of the cylindrical portion 37. In addition, three screw holes 39 are formed in the opening 38.

  As shown in FIG. 3, the contact board 30 has a shape that matches the opening 38 of the mount body 29, and is fitted into the opening 38 and fixed to the mount body 29 as described later. The contact board 30 includes a central disc portion 41 and projecting portions 42 a to 42 c projecting from the disc portion 41. The protrusions 42a to 42c are fitted into the bayonet claws 9a to 9c, respectively. Contact groups 45a to 45c as electrical signal contacts are mounted on the protrusions 42a to 42c, respectively. Further, screw holes 46 are formed in the contact board 30. The contact groups 45a to 45c are composed of a plurality (eight in this embodiment) of contacts mounted on the contact board 30, and are arranged in parallel along the rotation direction A when the lens unit 4 is attached to the camera body 3. ing. Note that the position and number of contacts are not limited to these, and may be changed as appropriate.

  Further, a ground pattern 47 is formed around the screw hole 46 in the contact board 30. In FIG. 3, the ground pattern 47 is formed around one screw hole 46, but the present invention is not limited thereto, and may be formed around all the screw holes 46. The ground pattern 47 is connected to the electronic component mounted on the contact board 30 and the ground of the imaging element mounting substrate 26, and is connected to the ground of all electronic components built in the lens unit 4.

  The spacer 31 is fixed to the mount body 29 together with a presser plate 32 and a contact board 30 described later. The spacer 31 is sandwiched and incorporated between the contact board 30 and the pressing plate 32, and is formed in a substantially disk shape on the outer periphery matching the disk portion 41 of the contact board 30. The spacer 31 has a screw hole 48 that matches the screw hole 46 of the contact board 30.

  Further, the spacer 31 is formed with a mounting groove 49. The mounting groove 49 is formed at a position matching the ground pattern 47 of the contact board 30 and has a width that allows the connection member 35 to pass therethrough. The connection member 35 is a thin metal member formed in a U shape, and can be inserted through the attachment groove 49 and attached so as to sandwich the vicinity of the screw hole 48 of the spacer 31. The connecting member 35 is formed with a through hole 35a through which the set screw 33 is passed. The connection member 35 attached to the spacer 31 has one end 35 b in contact with the ground pattern 47 of the contact board 30 and the other end 35 c in contact with the holding plate 32. As a result, in the lens unit 4, the ground pattern 47 of the contact board 30 is in contact with the presser plate 32.

  The holding plate (lens-side ground contact) 32 is formed in a thin plate shape having a size matching the spacer 31 and has a screw hole 56 formed therein. The lens-side mount unit 8 sandwiches the spacer 31 with the contact board 30 and the connection member 35 attached between the mount body 29 and the holding plate 32, and screws the set screws 33 into the screw holes 39, 46, 48, and 56. It is assembled by fastening together.

  The body-side mount portion 11 has a configuration shown in detail in FIGS. 4 and 5, and includes a base portion 58, bayonet claws 12 a to 12 c formed integrally with the base portion 58, the mount barrier 14, A body-side ground contact 61 fixed to the mount barrier 14; a support member 62 disposed on the back side of the base portion 58; a ground connection member 63 fixed to the support member 62; It has. In FIG. 4, the mount barrier 14 is shown in a retracted state in order to prevent the drawing from becoming complicated, but in a normal state, the mount barrier 14 is positioned so as to close the opening 58 a of the base portion 58. The interior is not exposed. In FIG. 4, a part of the bayonet claw 12 c is cut away to show the inside of the mount portion 12.

  The base portion 58 is formed in a substantially annular shape with an opening 58a disposed at a substantially center, and is fixed to the exterior cover 3a of the camera body 3 by screwing or the like. The bayonet claws 12a to 12c are arranged so as to protrude inward from the opening 58a of the base portion 58. The base portion 58 is provided with a lock pin 62. The lock pin 62 is provided so as to be able to protrude and retract from a guide hole 58 b formed in the base portion 58. When the lens unit 4 is attached to the body side mount portion 11, the lock pin 62 is engaged with the lens side mount portion 8. The lens unit 4 is locked by engaging with the hole.

  The support member 62 has a shape that matches the outer shape of the lens side mount unit 8, and supports from the outer periphery of the lens side mount unit 8 when the lens unit 4 is attached. Further, as shown in FIG. 5 in detail, the support member 62 is integrally provided with terminal boards 66a to 66c. The support member 62 is substantially cylindrical and is formed in a shape in which the rear end side is closed by a bottom plate 67. Openings 67 a to 67 c for fixing the ground connection member 63 are formed in a substantially central portion of the bottom plate 67. The terminal boards 66a to 66c are arranged on the inner peripheral surface of the support member 62, and are mounted with terminal groups 68a to 68c as electrical signal contacts. The terminal groups 68a to 68c are arranged in accordance with the positions of the bayonet claws 12a to 12c, respectively, and are provided so as to be overlapped with the bayonet claws 12a to 12c when the body side mount portion 11 is viewed from the front. .

  The mount barrier 14 is formed in a shape that is cut out in accordance with the shape of the bayonet claws 12 a to 12 c from the circular outer periphery in accordance with the opening 58 a of the base portion 58. The mount barrier 14 is located inside the support member 62, closes the opening of the base 58, covers the internal terminal groups 68a to 68c, retreats from the closed position, and exposes the terminal groups 68a to 68c. It is movable between the retracted position.

  As shown in detail in FIG. 8, the body-side ground contact 61 includes a disc-shaped contact portion 71 that contacts the presser plate (lens-side ground contact) 32 when the lens unit 4 is mounted, and a rear side from the outer periphery of the contact portion 71. Projection pieces 72a to 72c projecting toward the bottom are formed integrally. The projecting pieces 72 a to 72 c are arranged at rotationally symmetric positions with respect to the contact portion 71 at substantially equal angular intervals of about 120 °. The projecting pieces 72a to 72c are formed in a stepped shape with a step toward the inside, inserted into the openings 14a to 14c of the mount barrier 14 from the front, and the tip portions 73a to 73c of the projecting pieces 72a to 72c are opened. 14a-c is penetrated. Accordingly, the body-side ground contact 61 is fixed to the mount barrier 14 such that the contact portion 71 is sandwiched from the front surface of the mount barrier 14 and the protruding pieces 72a to 72c are sandwiched from the rear surface of the mount barrier 14. Further, when fixed to the mount barrier 14, the tip end portions 73 of the projecting pieces 72 a to 72 c project rearward. The tip end portions 73 of these projecting pieces 72 a to 72 c are arranged in conformity with the inner circumference of the biasing spring 15.

  As shown in detail in FIG. 7, the ground connection member 63 is formed with connection pieces 76 a to 76 c projecting backward and projecting pieces 77 a to 77 c projecting forward, each of which is approximately 120 °. They are evenly spaced. The connection pieces 76 a to 76 c are inserted into the openings 67 a to 67 c of the support member 62 from the front, penetrate the bottom plate 67, and the front ends of the connection pieces 76 a to 76 c protrude to the rear of the support member 62. As a result, since the connection pieces 76a to 76c are arranged at positions facing the main board 75 located on the back side of the body side mount portion 11, the ground connection member 63 and the main board 75 are connected by soldering, for example. In addition, electrical connection can be easily performed through a flexible substrate. The ground connection member 63 may be fixed to the support member 62 by sandwiching the connection pieces 76a to 76c, or may be fixed by an adhesive, screwing, or the like. The main board 75 is formed with a ground pattern to be connected to the connection pieces 76a to 76c, and many of the electronic components built in the camera body 3 are mounted. Connected to the ground pattern.

  The projecting pieces 77a to 77c are formed in a substantially stepped shape in which the respective leading end portions 79 project forward, and are formed at positions facing the projecting portions 72a to 72c of the body side ground contact 61 described above. In the protruding pieces 77 a to 77 c, the end portions 79 are aligned with the outer periphery of the biasing spring 15.

  In the present embodiment, the urging spring 15 is a coil spring that is slightly smaller in outer diameter than the mount barrier 14 and is sandwiched and incorporated between the mount barrier 14 and the support member 62. As a result, the mount barrier 14 is urged toward the closing position by the urging spring 15.

  As described above, the projecting pieces 72a to 72c of the body side ground contact 61 and the projecting pieces 77a to 77c of the ground connection member 63 are arranged in conformity with the urging spring 62, and the urging spring 62 is thereby arranged. Support. Therefore, even if the state of the urging spring 15 changes according to the displacement of the mount barrier 14, the protruding pieces 72 a to 72 c and the protruding pieces 77 a to 77 c always slide with the urging spring 15. Further, since the projecting pieces 72a to 72c and the projecting pieces 77a to 77c are arranged at positions facing each other, they come into direct contact when the mount barrier 14 is retracted to the retracted position.

  FIG. 8 shows an electrical configuration of the camera system 2. A CCD 25 is disposed behind the photographing lens 24, and a shutter mechanism, a diaphragm mechanism (not shown), and the like are disposed in front of the CCD 25.

  The CCD 25 is connected to the CCD driver 83, and the driving of the CCD 25 is controlled by the lens unit system control unit 81 (hereinafter, system control unit 81) via the CCD driver 83. The CCD 25 converts an optical subject image into an electrical imaging signal and outputs it. The imaging signal is amplified to an appropriate level by the amplifier 84, and then digitally converted by the A / D conversion circuit 85 to become image data. This image data is transmitted to the camera body 3 side via the serial driver 86. The system control unit 81 controls the photographing processing on the lens unit 4 side based on a command from the camera body system control unit 95 (hereinafter, system control unit 95).

  Image data from the lens unit 4 is written into the memory 88 via the serial driver 87. The signal processing unit 89 reads image data from the memory 88 and performs various image processing such as gradation conversion, white balance correction, and γ correction. The image data subjected to the image processing is input to the LCD driver 80 and displayed on the LCD 20 as an image. The captured image is displayed on the LCD 20 as a through image. When the mode operation unit 19 is operated to set the playback mode, the image recorded on the recording medium 93 can be displayed on the LCD 20 and the shooting setting conditions can be displayed on the LCD 20.

  When the release button 12 is pressed, image data subjected to image processing is recorded on the recording medium 93 under the control of the media controller 92. When the release button 18 is pressed, the strobe 22 is driven according to the amount of light from the shooting environment. The system control unit 95 sends a command to the system control unit 81 and controls shooting processing, image display processing, recording processing, and the like on the camera body side. A release button 18, a mode operation unit 19, and a power switch 23 are connected to the system control unit 95.

  A battery 96 is disposed on the camera body 3 to supply power to each part of the camera body 3. Furthermore, the lens unit 4 includes a sub-battery 87, and the main battery 86 on the camera body 3 side and the sub-battery 87 on the lens unit 4 side are connected via the contacts 9a to 9c and the connection terminals 13a to 13c. Electric power is supplied from the main battery 86 to the sub battery 87, and further, electric power is supplied from the sub battery 87 to each part of the lens unit 4.

  The operation of the above configuration will be described below. When the lens unit 3 is not attached, the mount barrier 14 is closed by the biasing force of the biasing spring 15 (the state shown in FIG. 9). In this state, since the biasing spring 15 slides on the protruding pieces 72a to 72c and the protruding pieces 77a to 77c as described above, the body-side ground contact 61 is connected to the ground via the biasing spring 15. The member 63 is electrically connected.

  First, when the lens unit 4 is connected to the camera body 3, the lens side bayonet claws 9a to 9c are inserted in accordance with the position of the opening 58a of the body side mount portion 11. The mount barrier 14 that has received the pressure from the lens unit 4 moves backward against the biasing force of the biasing spring 15. Since the urging spring 15 slides on the projecting pieces 72a to 72c and the projecting pieces 77a to 77c even while the mount barrier 14 moves from the closed position to the rearward retracted position, the body side ground contact 61 is The urging spring 15 is electrically connected to the ground connection member 63. When the mounting operation of the lens unit 4 is performed, the presser plate 32 as the lens-side ground contact is in contact with the body-side ground contact 61 of the mount barrier 14. 35 and the presser plate 32 to be electrically connected to the mount lid 14. Therefore, the ground pattern 47 of the contact board 30 is grounded to the main board 75 of the camera body 3 via the connection member 35, the holding plate 32, the body side ground contact 61, the biasing spring 15, and the ground connection member 63. Therefore, even when the electronic component incorporated in the lens unit 4 or the contact board 30 is charged with static electricity, extra electricity is generated from the contact between the presser plate (lens side ground contact) 32 and the body side ground contact 61. Can flow to the camera body 3, so that the occurrence of discharge due to static electricity when the lens unit 4 is attached can be prevented, and the destruction and failure of the parts can be suppressed. Further, when the base part 36 of the lens side mount part 8 and the base part 58 of the body side mount part 11 are inserted until they contact each other, the mount barrier 14 reaches the retracted position. When the lens unit 4 is rotated counterclockwise (rotation direction A) by a predetermined angle in this state, the lens-side bayonet claws 9a to 9c and the body-side bayonet claws 12a to 12c are engaged with each other, and the contact group 45a. -C and the terminal groups 65a-65c are brought into contact with each other, and electrical signals can be exchanged (the state shown in FIG. 10). Further, the lock pin 62 is engaged with the engagement hole of the base portion 36 to be locked, and the lens unit 4 is attached to the camera body 3. When the mount barrier 14 is in the retracted position under the pressure from the lens unit 4, the projecting pieces 72 a to 72 c and the projecting pieces 77 a to 77 c are in direct contact with each other, so that the body side ground contact 61 and the ground connecting member 63 The electrical connection is further ensured. After the lens unit 4 is mounted, the user can operate the mode operation unit 19 to select a shooting mode and perform a shooting operation.

  On the other hand, when the lens unit 4 is removed from the camera body 3 after the digital camera 2 is used, first, the lock release button 16 is pressed to release the engagement by the lock pin 62, and then the lens unit 4 is attached. When the lens is rotated by a predetermined angle in the clockwise direction, the engagement between the lens side bayonet claws 9a to 9c and the body side bayonet claws 12a to 12c is released, and the lens unit 4 can be detached from the body side mount portion 11. When the lens unit 4 is detached from between the body side bayonet claws 12a to 12c, the lens unit 4 is not attached. As described above, when the lens unit 4 is not attached, the mount barrier 14 and the ground connection member 63 are interposed via the biasing spring 15 as described above even when the mount barrier 14 is moving from the retracted position to the closed position. Are electrically connected.

  As described above, when the lens unit 4 is in the non-mounted state and in the mounted state, and also during the transition from the non-mounted state to the mounted state, the body-side mount contact 61 and the ground connection member 63 are always connected to the biasing spring 15. Since it is slid and electrically connected, the occurrence of discharge due to static electricity can always be prevented, and the destruction and failure of components can be prevented.

  In the above-described embodiment, only one biasing spring that connects the mount barrier and the support member is provided. However, the configuration is not limited to this, and a configuration using a plurality of biasing springs may be used. . FIGS. 11 to 13 show an example of a configuration including a plurality of urging springs that connect between the mount barrier and the support member. In addition, in FIGS. 11-13, about the thing using the components and members similar to the said embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted. In the case of the camera body 100 shown in this example, three urging springs 101 to 103 are used, and these urging springs 101 to 103 are smaller in diameter than the urging spring 15 of the above embodiment. I use it. The body side mount portion 105 of the camera body 100 includes a base portion 58, bayonet claws 12a to 12c, a mount barrier 14, a body side ground contact 111 fixed to the mount barrier 14, a support member 62, A ground connection member 112 fixed to the support member 62 and biasing springs 101 to 103 are provided. The body-side ground contact 111 and the ground connection member 112 have projecting pieces 113a to 113c and projecting pieces 114a to 114c, respectively, and the biasing springs 101 to 103 are moved by the projecting pieces 113a to 113c and the projecting pieces 114a to 114c. Support each from the front and back. Accordingly, the urging springs 101 to 103 are always slid with the projecting pieces 113a to 113c and the projecting pieces 114a to 114c, respectively, and electrical connection can be maintained. In addition, the front-end | tip parts 116 and 117 (refer FIG. 12 and 13) of protrusion piece 113a-c and protrusion piece 114a-c are inserted in the inside of the urging | biasing springs 101-103. Since the projecting pieces 113a to 113c and the leading end portions 116 and 117 of the projecting pieces 114a to 114c are formed so as to project longer in the front-rear direction than in the above-described embodiment, the biasing springs 101 to 103 are easily supported. Yes. The ground connection member 112 is connected to the main board 75 via connection pieces 77a to 77c as in the above embodiment.

  With such a configuration, the urging springs 101 to 103 are configured so that the body-side mount contact 111 can be used when the lens unit 4 is in the non-mounted state and in the mounted state, and also during the transition from the non-mounted state to the mounted state. Since the ground connection member 112 is always slid and electrically connected to the biasing springs 101 to 103, discharge due to static electricity can always be prevented, and breakdown and failure of components can be prevented. . Further, by using the plurality of biasing springs 101 to 103, the movement of the mount barrier 14 becomes smooth, and the mounting operation can be facilitated.

  In the above embodiment, the description has been given using the interchangeable lens type digital camera in which the lens unit is detachable. However, the present invention is not limited to this, and the camera body and the mount part are used for connection, and the contacts and connections provided in the mount part. Any accessory device that transmits and receives electrical signals via a terminal may be used.For example, a storage device that captures data stored in the camera body and stores it in a hard disk built in the device or wirelessly transmits and receives data. , Equipped with a wireless unit that stores the data on the camera body side and sends the data on the camera body side to another electronic device, and an intermediate adapter that is sandwiched and fixed between the lens unit and the camera body The present invention can also be applied to a digital camera. Furthermore, the present invention can be applied to cameras other than digital cameras, for example, video cameras.

1 is an external perspective view of a digital camera embodying the present invention when a lens unit is mounted. It is an external perspective view of the digital camera with the lens unit removed. It is a disassembled perspective view of a lens unit. It is a perspective view of a body side mount part. It is a disassembled perspective view which shows the structure of a body side mount part. It is a perspective view which shows the structure of the contact for body side grounds. It is a perspective view which shows the structure of a ground connection member. It is a block diagram which shows the electric constitution of a digital camera. It is principal part sectional drawing which shows the state before lens unit mounting | wearing of a digital camera. It is principal part sectional drawing which shows the lens unit mounting state of a digital camera. It is a disassembled perspective view which shows the structure of the body side mount part which implemented 2nd Embodiment. It is principal part sectional drawing which shows the state before lens unit mounting | wearing of the digital camera of 2nd Embodiment. It is a disassembled perspective view which shows the structure of the lens unit mounting state of the digital camera of 2nd Embodiment.

Explanation of symbols

2 Digital camera 3, 100 Camera body 4 Lens unit 8 Lens side mount part 10, 105 Body side mount part 12a-c Body side bayonet claw 14 Mount barrier 15, 101, 102, 103 Biasing spring 61, 111 Body side ground contact 63, 112 Ground connection member

Claims (5)

A lens unit having a lens-side ground contact connected to the ground of an imaging optical system, an image sensor, and various electric components incorporated therein, a body-side mount portion on which the lens unit is detachably mounted, and the body-side mount When the lens unit is mounted on the part, an electrical signal contact for transmitting and receiving an electrical signal, a closed position that closes the inside of the body side mount part and covers the electrical signal contact, retreats from the closed position, A mount barrier movably mounted between a retracted position for exposing an electrical signal contact; a body-side ground contact that is provided on a surface of the mount barrier and contacts the lens-side ground contact when the lens unit is mounted; and A biasing spring that biases the mount barrier to the closing position, and when the lens unit is mounted, In the digital camera having a camera body, wherein the mounting barrier against the bias of the energizing spring is moved to the retracted position, the electrical signal contacts are the lens unit electrically connected to exposed,
A ground member connected to the ground of various electrical components built in the camera body is fixed to the body-side mount portion, and the biasing spring always slides on the body-side ground contact and the ground member. A digital camera characterized by movement.   The biasing spring is a coil spring formed in a spiral shape. The body-side ground contact and the ground member include a support portion that supports the biasing spring at a plurality of locations, and front and back surfaces of the biasing spring. The digital camera according to claim 1, further comprising a contact portion that contacts each of the first and second contact portions.   The digital camera according to claim 1, wherein when the lens unit is mounted, the body-side ground contact and the ground member come into contact with each other when the mount barrier moves to the retracted position.   3. The digital camera according to claim 1, wherein each of the ground member and the body-side ground contact is provided with a plurality of sliding portions that slide with the biasing spring.   4. The urging member is provided in a plurality, and is provided at substantially rotationally symmetric positions with the center of the mount barrier as an axis of symmetry at substantially equal angular intervals. Or a digital camera.

Images