JP2011113012A - Camera and lens barrel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a camera having a lens barrel removal type structure which is reduced in the possibility of the recording of a sound generated from a drive source, and to provide a lens barrel thereof. <P>SOLUTION: The camera 10 to which the lens barrel 20 including one of drive sources 22, 23 and 24M for driving the drive units 24, 25, L1, L2 and L3 and a sound collecting microphone 40 can be attached and which includes the other of the drive sources 22, 23 and 24M and the microphone 40 includes sound insulation members 72 and 34 insulating the sound, according to the attachment of the lens barrel 20 to the camera 10, between a lens-side space including one of the drive sources 22, 23 and 24M and the microphone 40 in the lens barrel 20 and a camera-side space 10A including the other of the drive sources 22, 23 and 24M and the microphone 40 in the camera 10. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a camera to which a lens barrel can be attached, and a lens barrel that can be attached to the camera.

  For example, when the lens group is driven in a lens barrel having a driving unit that moves the lens group, a driving sound is generated from the driving unit. In a camera capable of shooting a moving image together with sound, it is not preferable that the driving sound be recorded during moving image shooting. For this reason, conventionally, in a lens-integrated camera having a drive motor in a lens barrel, the imaging element is arranged in a space in which the lens group is arranged to be separated from the space in which the microphone is provided, and the lens barrel In some cases, a shielding member is provided between the outer periphery of the lens and the lens barrel protecting portion that extends in a cylindrical shape from the camera body so that the sound generated by the driving unit in the lens barrel is not transmitted to the microphone (for example, a patent) Reference 1).

JP 2002-314854 A

  However, in the case of a lens barrel removable camera, the image sensor is generally provided on the camera side. In addition, the lens barrel protection unit is not provided in the camera body.

  An object of the present invention is to provide a camera that can be attached to a lens barrel and a lens barrel that can be attached to the camera, in which the possibility of recording sound generated from a drive unit is reduced.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.

The invention described in claim 1 includes any one of a drive source (22, 23, 24M) for driving the drive unit (24, 25, L1, L2, L3) or a microphone for sound collection (40). In the camera (10), to which the lens barrel (20) can be attached, and includes either the drive source (22, 23, 24M) or the microphone (40), the lens barrel (20) includes the lens barrel (20). Depending on the mounting of the lens barrel (20) to the camera (10) between the lens side space (20A) including one and the camera side space (10A) including the other in the camera (10). It is a camera (10) characterized by providing the sound insulation member (72, 34) which insulates.
According to a second aspect of the present invention, there is provided the camera (10) according to the first aspect, wherein the camera (10) is provided inside the camera (10) so as to surround a subject optical path and holds a part inside the camera (10). A holding portion (33, 133), and the sound insulation member includes a first elastic member attached to the entire circumference of a portion facing the lens barrel (20) of the in-camera holding portion (33, 133), When the lens barrel (20) is attached to the camera (10), the lens barrel (20) is pressed by a lens-side pressing portion provided facing the first elastic member in the lens barrel (20). The camera (10) is characterized in that it is in close contact with the side pressing portion on the entire circumference.
A third aspect of the present invention is the camera (10) according to the second aspect, wherein the camera inner holding portion (33, 133) is arranged on the inner wall side of the camera inner holding portion (33, 133). A transparent plate member (32) attached in close contact is provided, and the lens side space (20A) and the camera side space (10A) are provided by the in-camera holding portions (33, 133) and the transparent plate member (32). Is a camera (10) characterized by being separated from each other.
According to a fourth aspect of the present invention, there is provided the camera (10) according to the second or third aspect, wherein the lens barrel side opening (12) of the camera housing (11) which is an appearance member of the camera (10). ) Provided on the camera side, and the in-camera holding portions (33, 133) are provided with flange portions (33B, 133B) extending on the outer peripheral side thereof, and the sound insulating members (72, 34). ) Includes a second elastic member (34) attached to the entire circumference of the flange portion (33B, 133B), and between the camera side mount portion (10M) and the flange portion (33B, 133B), The camera (10) is characterized in that the second elastic member (34) is in close contact with the entire circumference.
The invention according to claim 5 is the camera (10) according to any one of claims 1 to 4, wherein the drive source (22, 23) is a lens provided in a lens barrel (20). The camera (10) is a drive motor, and the microphone (40) is provided in the camera (10).
Invention of Claim 6 is a camera (10) as described in any one of Claims 2-4, Comprising: In a part of said site | part of the said camera holding | maintenance part (33,133), A camera (13) characterized in that a camera-side contact (13) that is electrically connected to a lens-side contact (26) provided in the lens barrel (20) is provided through the sound insulating member (72 ′). 10).
The invention according to claim 7 is a camera comprising either the drive source (22, 23, 24M) for driving the drive unit (24, 25, L1, L2, L3) or the microphone (40) for collecting sound. In the lens barrel (20) that can be attached to (10) and includes either the drive source (22, 23, 24M) or the microphone (40), the one in the lens barrel (20) Depending on the mounting of the lens barrel (20) to the camera (10) between the lens side space (20A) including the lens and the camera side space (10A) including the other of the camera (10). A lens barrel (20) characterized by comprising a sound insulation member (72, 34) for sound insulation.
The invention according to claim 8 is the lens barrel (20) according to claim 7, further comprising a lens-side annular portion (71) surrounding the optical path of the subject, wherein the sound insulating member is formed of the lens-side annular portion. A third elastic member (72) attached to the entire periphery of the part facing the camera (10), and when the lens barrel (20) is attached to the camera (10), 10) a lens barrel that is pressed by a camera-side pressing portion (33A) provided to face the third elastic member and is in close contact with the camera-side pressing portion (33A) on the entire circumference. 20).
A ninth aspect of the present invention is the lens barrel (20) according to the eighth aspect, wherein the lens side mount portion is detachable from the camera side mount (10M) provided in the camera (10). (20M), and the lens side mount portion (20M) is rotatable relative to the lens side annular portion (71) and the third elastic member (72) about the optical axis. A lens barrel (20).
Note that the configuration described with reference numerals may be modified as appropriate, and at least a part of the configuration may be replaced with another component.

  ADVANTAGE OF THE INVENTION According to this invention, the possibility of recording of the sound which generate | occur | produces from a drive part can be reduced, and the camera which can mount | wear with a lens barrel, and the lens barrel which can be mounted | worn with a camera can be provided.

1 is a longitudinal sectional view conceptually showing a camera as a first embodiment of the present invention. It is a front view of a camera body. It is a rear view of an imaging lens, (a) shows the state before mounting to the camera body, and (b) shows the state after mounting to the camera body. It is a longitudinal cross-sectional view which shows notionally the camera as 2nd Embodiment of this invention. It is the front view and partial sectional view which show notionally the camera as a modification of the present invention.

  Embodiments of the present invention will be described below with reference to the drawings. Each figure shown below is provided with an XYZ orthogonal coordinate system for ease of explanation and understanding. In this coordinate system, when the photographer shoots a horizontally long image with the optical axis OA being horizontal, the direction toward the left as viewed from the photographer at the position of the camera (hereinafter referred to as the positive position) is the X plus direction and the positive position. The direction toward the upper side is the Y plus direction, and the direction toward the subject at the normal position is the Z plus direction. The Z-axis plus direction is also called the front side, and the Z-axis minus direction is also called the back side.

(First embodiment)
FIG. 1 is a longitudinal sectional view conceptually showing a camera 1 as a first embodiment of the present invention. FIG. 2 is a front view of the camera body 10. 3A and 3B are rear views of the lens barrel 20, wherein FIG. 3A shows a state before mounting on the camera body 10, and FIG. 3B shows a state after mounting on the camera body 10. FIG.
The camera 1 includes a camera body 10 and a lens barrel 20. The lens barrel 20 is detachable from the camera body 10.

  The camera body 10 includes a camera-side mount portion 10 </ b> M in a camera housing 11 that forms an exterior skeleton of the camera body 10. The camera body 10 includes an imaging mechanism 30, a sound collection microphone 40, an electronic viewfinder 50, and a display device 60 inside the camera housing 11.

The camera-side mount unit 10M is provided on the front side (Z plus side) of the camera housing 11. An opening 12 having a predetermined diameter is formed in the center of the camera side mount 10M.
A lens side mount portion 20M in a lens barrel 20 described later is detachably coupled to the camera side mount portion 10M, so that the lens barrel 20 is attached to the camera body 10 with the optical axis OA aligned. . That is, the lens barrel 20 can be attached to and detached from the camera body 10, and various types of lens barrels having different focal lengths and functions can be exchanged depending on the object to be photographed.

The camera-side mount unit 10M is a so-called vanette mount including a mount surface 10Ma and a claw 10Mb.
The claws 10Mb are formed every other angular range obtained by dividing the inner periphery of the opening 12 of the camera side mount 10M into approximately six equal parts. That is, as shown in FIG. 2, the claw 10Mb has a range of about ± 30 ° centered on the Y axis plus side, a range of about 60 ° clockwise from the X axis plus side, and a counterclockwise rotation from the X axis minus side. Are formed in a range of approximately 60 °.

  The camera-side mount portion 10M is brought into contact with a mount surface 10Ma of the lens-side mount portion 20M, which will be described later, and the claw 10Mb engages with the claw 20Mb of the lens-side mount portion 20M in the optical axis OA direction. The lens-side mount unit 20M is coupled.

The imaging mechanism 30 includes a sensor unit 31, a cover glass 32, and the like.
The sensor unit 31 is configured by assembling an imaging element 31A, an optical low-pass filter 31B, a support substrate 31C, and the like with a predetermined positional relationship and accuracy.
The image pickup device 31A is a photoelectric conversion device such as a CCD that converts subject light into an electrical signal.
The optical low-pass filter 31B is disposed on the front side of the image sensor 31A, and suppresses the occurrence of moire in the subject image formed on the light receiving surface of the image sensor 31A.

The support substrate 31C is a base portion that supports each component of the sensor unit 31, and is formed of a metal or resin plate having a predetermined thickness.
The support substrate 31 </ b> C is fixed to an internal structure (not shown) with screws or the like, whereby an image sensor 31 </ b> A is provided at a predetermined position in the camera body 10.

The cover glass 32 is formed of a parallel flat glass having a predetermined thickness that is optically transparent. The cover glass 32 is set to a size that does not block subject light incident on the sensor unit 31.
The cover glass 32 is held by the in-camera holding unit 33 and provided on the back side of the opening 12 in the camera side mount unit 10M.
The in-camera holding portion 33 has an outer shape larger than the opening portion 12 of the camera side mount portion 10M, and is fixed to an internal structure member (not shown) of the camera side mount portion 10M or the camera body 10. The in-camera holding portion 33 includes a flange portion 33B and a convex portion 33A provided on the inner peripheral side of the camera body side electrical contact 13 in the flange portion B.

An outer peripheral elastic member 34 is interposed between the front surface of the flange portion 33B of the in-camera holding portion 33 and the rear surface of the camera side mount portion 10M, thereby forming a soundproof and dustproof structure.
The outer peripheral side elastic member 34 is formed in an annular shape along the opening of the camera side mount portion 10M by a solid material having a predetermined elasticity such as neoprene rubber or urethane rubber or a closed cell sponge made of these. The outer peripheral side elastic member 34 is disposed around the entire circumference of the opening 12 of the camera side mount unit 10M, and is compressed and deformed by a predetermined amount in the direction of the optical axis OA, and the rear surface of the flange unit 33B and the rear surface of the camera side mount unit 10M. And are provided in close contact with each other.
The outer peripheral side elastic member 34 arranged in this manner hermetically isolates the camera side mount portion 10M and the front surface of the flange portion 33B from inside and outside.
In addition, the shape of the outer peripheral side elastic member 34 is not limited to an annular shape as long as the shape surrounds the opening of the camera side mount portion 10M, and may be a rectangle or the like.

Due to the soundproof and dustproof structure of the outer peripheral side elastic member 34 as described above, the cover glass 32, the in-camera holding portion 33, and the outer peripheral side elastic member 34 are arranged inside the camera housing 11 through the opening 12 of the camera side mount portion 10M. Prevents dust and the like from entering. As a result, it is possible to prevent problems such as dust and the like adhering to the sensor unit 31 (imaging element 31A) and being reflected in imaging. In addition, the camera-side internal space 10A of the camera body 10 is isolated from the outside through the opening 12 of the camera-side mount 10M, whereby the camera-side mount 10M opens from the opening 12 to the inside of the camera housing 11. It also prevents sound waves such as noise from entering.
The cover glass 32 may be provided with a dust removing function that removes dust attached to the external surface by minute vibration.

  In addition, information exchange between the camera body 10 and the lens barrel 20 and power supply to the lens barrel 20 are provided below the optical axis OA in the in-camera holding unit 33 (minus side in the Y-axis direction). A camera body side electrical contact 13 is provided for this purpose. The camera body side electrical contact 13 is urged and projected to the front side by a spring. A plurality of camera body side electrical contacts 13 (eight in the figure) are arranged at predetermined intervals according to the application, and each is connected to a circuit board (not shown). The camera main body side electrical contact 13 is located on the inner peripheral side (near the optical axis OA) of the outer peripheral elastic member 34 described above, and corresponds to a lens side electric contact 26 in the lens barrel 20 described later.

  The convex portion 33A of the in-camera holding portion 33 has a rectangular cross section with a predetermined width and a predetermined height, and protrudes toward the front side, and is formed in an annular shape centering on the optical axis OA. The convex portion 33A is a component of a soundproof structure configured between the in-camera holding portion 33 and a lens barrel 20 described later. This soundproof structure will be described in detail later.

The sound collecting microphone 40 is disposed near the upper surface of the camera housing 11 when viewed from the front side. The sound collecting microphone 40 is attached to the inner surface of the camera housing 11 by a microphone fixing member 41.
The microphone fixing member 41 has a shape that covers substantially the entire outer periphery of the sound collecting microphone 40, and includes a fixing flange at the opening. Then, the sound collecting microphone 40 is accommodated and fixed to the inner surface of the camera housing 11 via a fixing flange, whereby the sound collecting microphone 40 is mounted on the camera housing 11.

A plurality of sound collecting holes are formed in the camera housing 11 at positions corresponding to the sound collecting microphones 40.
The sound collected by the sound collecting microphone 40 is input to a control unit (not shown) of the camera body 10 and recorded together with the image.

The electronic viewfinder 50 is disposed on the upper surface side (Y-axis direction plus side) of the camera housing 11.
Although not shown in detail, the electronic viewfinder 50 includes an imaging irradiation module, an eyepiece optical system, and the like. The electronic viewfinder 50 displays a through image captured by the image sensor 31A of the sensor unit 31 on the imaging irradiation module. The photographer can visually recognize the image displayed on the imaging irradiation module via the eyepiece optical system. Thereby, even if it is the structure which is not equipped with a quick return mirror, the image pick-up by image pick-up element 31A can be seen in real time like what is called a single-lens reflex camera.

  The display device 60 is disposed on the back side of the camera housing 11 (minus side in the Z-axis direction). The display device 60 is configured by a liquid crystal panel or the like. The display device 60 displays a through image captured by the image sensor 31A. Accordingly, the photographer can also take a picture without looking into the electronic viewfinder 50 while watching the image taken by the image pickup device 31 </ b> A via the display device 60. In addition, the display device 60 has a function setting menu for setting various functions in the camera 1, setting information and photometric information related to photographing input by the user via the operation unit, such as shutter speed, aperture, and exposure correction information. Etc. are displayed. Further, the photographed image, its histogram, photographing information and the like are displayed.

  The lens barrel 20 is a so-called zoom lens having a variable focal length, and includes three lens groups (L1 to L3) constituting an imaging optical system and a diaphragm unit 24 inside a cylindrical member 21. Yes. In addition, a zoom motor 22 and a focusing motor 23 are provided inside the cylindrical member 21. Furthermore, a lens-side mount portion 20M is provided at the rear end portion of the cylindrical member 21.

The lens groups in the lens barrel 20 are a first lens group L1, a second lens group L2, and a third lens group L3 in order from the front side.
The first lens group L1 and the second lens group L2 are zooming lens groups. The first lens group L1 and the second lens group L2 are moved in the direction of the optical axis OA in a predetermined relationship by a cam cylinder 25 (only the lower half of the optical axis OA is shown in FIG. 1) that is rotationally driven by the zoom motor 22. It is designed to be operated. The focal length of the lens barrel 20 changes due to the movement of the first lens unit L1 and the second lens unit L2 in the direction of the optical axis OA.

The third lens group L3 is a focusing lens group. The third lens unit L3 is moved and operated in the direction of the optical axis OA by the focusing motor 23. The movement of the third lens unit L3 in the optical axis OA direction changes the imaging position of the lens barrel 20 in the optical axis OA direction. The zoom motor 22 and the focusing motor 23 are respectively located inside the cylindrical member 21. It is arranged near the back side near the outer periphery.

Although not shown in detail, the aperture unit 24 includes a plurality of aperture blades formed into a thin piece of plastic or the like, and an aperture motor 24M that drives the aperture blades.
The aperture unit 24 (aperture motor 24M) is controlled and driven by the control unit of the camera body 10, and adjusts the amount of light of the subject image incident on the sensor unit 31 (imaging device 31A).

The lens side mount portion 20 </ b> M includes a mount surface 20 </ b> Ma and a claw 20 </ b> Mb, and is fixed to the cylindrical member 21.
The claw 20Mb is formed in an angle range corresponding to a region where the claw 10Mb is not formed in the lens side mount portion 20M. That is, as shown in FIG. 3A, the claw 10Mb has a range of about ± 30 ° centered on the Y axis minus side, a range of about 60 ° counterclockwise from the X axis plus side, and the X axis minus side. Are formed in a range of approximately 60 ° clockwise.

  The lens-side mount unit 20M is rotated relative to a predetermined angle after the mount surface 20Ma is brought into contact with the mount surface 10Ma of the camera-side mount unit 10M with the claw 20Mb as a rotation position that does not interfere with the claw 10Mb of the lens-side mount unit 20M. By doing so, the claw 20Mb engages with the claw 10Mb in the direction of the optical axis OA, and engages with the camera side mount portion 10M. As a result, the lens barrel 20 is attached to the camera body 10.

  Further, an inner peripheral cover 71 is attached to the inner peripheral side of the lens side mount portion 20M. The inner cover 71 is a component of a soundproof structure that is configured between the lens barrel 20 and the camera body 10, and will be described in detail later.

  In the camera 1 configured as described above, the subject image formed on the image pickup device 31A in the image pickup mechanism 30 via the optical system of the lens barrel 20 is converted into an electric signal by the image pickup device 31A. The imaging data photoelectrically converted by the imaging element 31A is subjected to signal processing as image data by a control unit (not shown) included in the camera 1. The signal-processed image data is sent to the electronic viewfinder 50 and the display device 60, and is recorded in a recording device (not shown) at the time of photographing. The camera 1 can shoot not only still images but also moving images, and the sound collected by the sound collecting microphone 40 is recorded at the time of moving image shooting.

  A zoom operation by driving the zoom motor 22 in the lens barrel 20 is performed by operating an operation member (not shown) provided in the camera body 10, and a focusing drive by driving the focusing motor 23 is provided in the camera body 10. This is performed based on a control command from the control unit.

  Note that the camera 1 of the present embodiment does not include a mechanical shutter device. Adjustment of the exposure time of the subject light with respect to the image sensor 31A at the time of shooting (the time during which the image sensor 31A accumulates the subject light) is performed by the control unit electrically controlling the image sensor 31A (electronic shutter control). In the exposure control, the control unit measures the luminance of subject light (photometry) based on the output of the image sensor 31A, and performs automatic exposure control (AE control) based on the photometry result. For this reason, the image sensor 31A also functions as a photometric sensor.

Next, the soundproof structure configured between the in-camera holding unit 33 and the lens barrel 20 in the camera body 10 will be described in detail.
The soundproof structure includes an in-camera holding portion 33 in the camera body 10, an inner peripheral cover 71 disposed on the inner peripheral side of the lens side mount portion 20 </ b> M in the lens barrel 20, and an inner periphery provided on the inner peripheral cover 71. Side elastic member 72.

As described above, the in-camera holding portion 33 of the camera body 10 has a protruding portion 33A protruding from the front side thereof.
The inner peripheral cover 71 of the lens barrel 20 has an annular shape with a predetermined inner and outer diameter (a predetermined width in the radial direction), and an end surface 71A orthogonal to the optical axis OA on the image side.

  The inner peripheral cover 71 is attached to the inner periphery of the lens side mount portion 20M so that the end surface 71A can be rotated and cannot be dropped off with the end surface 71A as the back side. That is, the inner periphery cover 71 is rotatably fitted to the inner periphery of the lens side mount portion 20M, and the inner periphery cover 71 has a small diameter inner periphery formed on the back side of the lens side mount portion 20M in the optical axis OA direction. Between the flange part and the holding ring 73 fixed with screws to the front side of the lens side mount part 20M, it is provided so that it cannot be detached. Thereby, the inner peripheral cover 71 is mounted so as to be rotatable relative to the lens-side mount portion 20M.

An inner peripheral elastic member 72 is attached to the end surface 71A of the inner peripheral cover 71, and the lens-side electrical contact 26 is provided at a position on the lower side (minus side in the Y-axis direction) of the optical axis OA.
The inner peripheral side elastic member 72 is made of a solid material having a predetermined elasticity such as neoprene rubber or urethane rubber or a closed-cell sponge made of these, and has a rectangular cross section of a predetermined size and is along the opening of the camera side mount portion 10M. It is formed in an annular shape.
The inner peripheral side elastic member 72 has an entire circumference around the optical axis OA so as to correspond to the convex portion 33A of the in-camera holding portion 33 in the camera body 10 in a state where the lens barrel 20 is correctly mounted on the camera body 10. It is provided around.

The inner circumferential elastic member 72 has a height in the direction of the optical axis OA that contacts the convex portion 33A of the in-camera holding portion 33 in the camera body 10 in a state where the lens barrel 20 is correctly mounted on the camera body 10. Then, it is elastically deformed by a predetermined amount and is brought into close contact with pressure contact.
That is, when the lens barrel 20 is attached to the camera body 10, the mount surface of the lens side mount unit 20M is at a rotational position where the claw 20Mb of the lens side mount unit 20M does not interfere with the claw 10Mb of the camera side mount unit 10M. 20Ma is brought into contact with the mount surface 10Ma of the camera side mount 10M, and then rotated by a predetermined angle. When the mount surface 20Ma of the lens side mount portion 20M is brought into contact with the mount surface 10Ma of the camera side mount portion 10M, the inner peripheral side elastic member 72 provided on the end surface 71A of the inner peripheral cover 71 is It is set so as to come into contact with the convex portion 33A of the in-camera holding portion 33 and elastically deform by a predetermined amount.

Here, when the lens barrel 20 is fixed by rotating relative to the camera body 10, the inner peripheral cover 71 does not rotate relative to the camera side mount portion 10M (camera body 10), and the lens. It rotates relative to the side mount 20M (lens barrel 20).
That is, when the lens barrel 20 is rotated relative to the camera body 10 and fixed, the inner peripheral elastic member 72 is in pressure contact with the convex portion 33A. The rotatable inner peripheral cover 71 does not rotate due to the frictional resistance between the inner peripheral elastic member 72 and the convex portion 33A and stays at that position, and only the lens side mount portion 20M (lens barrel 20) is the camera side mount portion. Rotate relative to 10M (camera body 10). 3A, when the lens side mount portion 20M is rotated after the lens side mount portion 20M is aligned with the camera side mount portion 10M in the state shown in FIG. Only the lens-side mount unit 20M is rotated with respect to the camera-side mount unit 10M, leaving 71.

  As described above, when the lens barrel 20 is attached to the camera body 10, the inner peripheral cover 71 does not rotate and remains in that position, so that the inner peripheral elastic member 72 and the convex portion 33 </ b> A rotate relative to each other. In this case, it is possible to prevent a problem that a large operating force is required due to the frictional resistance and the inner peripheral elastic member 72 is bent and deformed due to the reaction force of the friction. In addition, it is possible to prevent a reduction in soundproofing effect due to a decrease in pressure contact force due to wear of the inner peripheral elastic member 72 and generation of wear powder.

  According to the soundproof structure as described above, when the lens barrel 20 is attached to the camera body 10, the lens-side internal space 20A of the lens barrel 20 and the camera-side internal space 10A of the camera body 10 are It is isolated by the circumferential elastic member 72. As a result, the operation sound of the zoom motor 22 and the focusing motor 23 provided in the lens barrel 20 is prevented from reaching the sound collecting microphone 40 provided inside the camera body 10 through the gap, and recorded as noise. Can be suppressed.

  Inside the camera body 10, as described above, the outer peripheral side elastic member 34 is interposed between the in-camera holding portion 33 and the camera side mount portion 10M. Since the soundproof and dustproof structure by the outer peripheral side elastic member 34 and the soundproof structure by the inner peripheral side elastic member 72 are doubled, the operating sound from the lens barrel 20 is collected to the sound collecting microphone 40 in the camera body 10. Can be prevented at a higher level.

  The lens side electrical contact 26 provided on the inner peripheral cover 71 is for exchanging information between the lens barrel 20 and the camera body 10 and receiving power supply from the camera body 10. The lens-side electrical contact 26 is connected to a circuit board (not shown) in the lens barrel 20. As described above, the lens-side electrical contact 26 is provided on the camera body-side holding portion 33 of the camera body 10 on the lower side (Y-axis direction minus side) of the optical axis OA in the inner peripheral cover 71. It is provided corresponding to the contact 13.

  As described above, the inner cover 71 does not rotate relative to the camera body 10 when the lens barrel 20 is attached to or detached from the camera body 10. For this reason, it is easy to obtain a matching position accuracy between the camera body side electrical contact 13 and the lens side electrical contact 26, and it is possible to prevent contact wear due to relative rotation, and to make electrical contact accurately and reliably. it can.

  The arrangement positional relationship between the camera main body side electrical contact 13 and the inner peripheral side elastic member 72 is not limited to the above configuration, and the camera main body side electric contact 13 protrudes through the inner peripheral side elastic member 72. You may do it. Thereby, the clearance gap between the camera main body side electric contact 13 and the arrangement | positioning hole of the holding part 33 in a camera can be block | closed by the inner peripheral side elastic member 72, and a dustproof soundproof effect can be improved.

(Second Embodiment)
Next, a second embodiment of the present invention shown in FIG. 4 will be described.
FIG. 4 is a longitudinal sectional view of the camera 100 in a state where the lens barrel 20 in the second embodiment of the present invention is mounted. The basic configuration and operation of the camera 100 in the second embodiment are the same as those of the camera 1 in the first embodiment described above. For this reason, the same components are denoted by the same reference numerals and description thereof is omitted.

The camera 100 is an interchangeable lens camera, and includes a camera body 110 and a lens barrel 120.
The camera body 110 includes a camera side mount 10M, and the lens barrel 120 includes a lens side mount 20M. The camera body 110 and the lens barrel 120 are detachably coupled by the camera side mount unit 10M and the lens side mount unit 20M.

The camera body 110 is different from the camera body 10 in the first embodiment described above in the support structure of the imaging mechanism 30.
That is, the camera body 110 includes a support frame 130 inside the camera housing 11.

The support frame 130 is in the shape of a rectangular tube or a cylinder that opens back and forth a predetermined length in the direction of the optical axis OA, and includes a holding flange 133 on the front side.
The holding flange 133 is connected to the back side of the camera side mount portion 10M through the outer peripheral side elastic member 34. Moreover, the holding flange 133 includes a convex portion 33A.

The convex portion 33A has a cross-sectional shape with a predetermined width and a predetermined height and projects toward the front surface side, and is formed in an annular shape centering on the optical axis OA.
When the lens barrel 20 is correctly mounted on the camera body 10, the inner peripheral side elastic member 72 provided on the inner peripheral cover 71 comes into contact with the convex portion 33 </ b> A to be elastically deformed by a predetermined amount, and is pressed into close contact. It is set to be.
An imaging mechanism 30 is mounted on the back side of the support frame 130 via a support substrate 31C.

In the camera 100 configured as described above, the lens-side internal space 20A of the lens barrel 20 and the camera-side internal space 10A of the camera body 10 are isolated from each other by the inner peripheral elastic member 72. As a result, the operation sound of the zoom motor 22 and the focusing motor 23 provided in the lens barrel 20 is prevented from reaching the sound collecting microphone 40 provided inside the camera body 10 through the gap, and recorded as noise. Can be suppressed. In addition, since the soundproof structure is doubled with the outer peripheral side elastic member 34 interposed between the holding flange 33A of the support frame and the camera side mount portion 10M inside the camera body 10, the lens mirror The operating sound from the cylinder 20 can be prevented from entering the sound collecting microphone 40 in the camera body 10 at a higher level.
In addition, it is good also as a structure which provided the transparent cover member (cover glass) similarly to 1st Embodiment mentioned above in the front side open part of the support frame 130. FIG.

As described above, this embodiment has the following effects.
(1) According to the camera 1, the lens-side internal space 20 </ b> A of the lens barrel 20 and the camera-side internal space 10 </ b> A of the camera body 10 are in the state where the lens barrel 20 is attached to the camera body 10. It is isolated by the circumferential elastic member 72. As a result, the operating sounds of the zoom motor 22, the focusing motor 23, the aperture driving motor 24M, and the like included in the lens barrel 20 reach the sound collection microphone 40 provided inside the camera body 10 through the gap. And recording as noise can be suppressed.

(2) The inner peripheral elastic member 72 is elastically deformed by a predetermined amount in contact with the convex portion 33A of the in-camera holding portion 33 in the camera body 10 in a state where the lens barrel 20 is correctly mounted on the camera body 10. It is pressed and adhered. Thereby, generation of a gap between the lens side internal space 20A of the lens barrel 20 and the camera side internal space 10A of the camera body 10 is prevented, and a high soundproofing effect is obtained.

(3) The camera body 10 has a soundproof and dustproof structure in which an outer peripheral elastic member 34 is interposed between the in-camera holding portion 33 that holds the cover glass 32 and the back surface of the camera-side mount portion 10M. . Further, when the lens barrel 20 is attached to the camera body 10, the lens-side internal space 20 </ b> A of the lens barrel 20 and the camera body 10 are held by the in-camera holding portion 33, the cover glass 32, and the inner peripheral elastic member 72. The camera-side internal space 10A is isolated. Accordingly, the cover glass 32, the camera inner holding portion 33, and the outer peripheral side elastic member 34 prevent dust and the like from entering the inside of the camera casing 11 through the opening 12 of the camera side mount portion 10M. Can be prevented from adhering to the sensor unit 31 (imaging element 31A) and appearing in the imaging. In addition, the camera-side internal space 10A of the camera body 10 is isolated from the outside through the opening 12 of the camera-side mount 10M, whereby the camera-side mount 10M opens from the opening 12 to the inside of the camera housing 11. It also prevents sound waves such as noise from entering.

(4) The inner peripheral elastic member 72 is provided on the inner peripheral cover 71 that is mounted on the lens barrel 20 so as to be relatively rotatable. As a result, when the lens barrel 20 is mounted on the camera body 10, even if the lens barrel 20 is rotated relative to the camera body 10, the inner peripheral elastic member 72 does not rotate and remains in that position. it can. As a result, a large operating force is required due to the frictional resistance generated when the inner peripheral side elastic member 72 and the convex portion 33A are relatively rotated, or the inner peripheral side elastic member 72 is bent by the reaction force of friction. Can be prevented from deforming. In addition, it is possible to prevent a reduction in soundproofing effect due to a decrease in pressure contact force due to wear of the inner peripheral elastic member 72 and generation of wear powder.

(5) The camera body 10 includes an outer peripheral elastic member 34 interposed between the in-camera holding unit 33 and the camera side mount unit 10M. In the camera 1, since the soundproof and dustproof structure by the outer peripheral side elastic member 34 and the soundproof structure by the inner peripheral side elastic member 72 are doubled, the operating sound from the lens barrel 20 is collected in the camera body 10. Intrusion into the sound microphone 40 can be prevented at a higher level.

(Deformation)
The present invention is not limited to the above-described embodiment, and various modifications and changes as described below are possible, and these are also within the scope of the present invention.
(1) In the present embodiment, the present invention is applied to the camera 1 having a configuration in which the camera body 10 includes the sound collecting microphone 40 and the lens barrel 20 includes driving sources such as the zoom motor 22 and the focusing motor 23. Is. However, the present invention is not limited to this embodiment, and may be applied to a camera having a configuration in which a driving source is provided in the camera body 10 and a sound collecting microphone is provided in the lens barrel 20.

(2) In this embodiment, the camera body 10 is provided with a convex portion 33A, and the lens barrel 20 is provided with an inner peripheral side elastic member 72. However, the present invention is not limited to this, and the camera body 10 may have an inner peripheral elastic member, and the lens barrel 20 may have a convex portion. Moreover, the convex part is not necessarily provided.

(3) In the present embodiment, the inner peripheral elastic member 72 is provided on the inner peripheral cover 71 that is rotatably mounted on the lens barrel 20, and also by rotation when the lens barrel 20 is mounted on the camera body 10. It is configured not to rotate. However, the inner peripheral elastic member 72 is fixedly provided on the lens barrel 20 (or the camera body 10), and the inner peripheral elastic member 72 is also attached to the camera along with the rotation when the lens barrel 20 is attached to the camera main body 10. The structure which rotates with respect to the main body 10 (or lens barrel 20) may be sufficient. In that case, a sheet having a small friction coefficient such as a tetrafluoride resin or a polyacetal resin is provided on the surface of the inner circumferential elastic member 72 to reduce the frictional resistance and prevent the inner circumferential elastic member 72 from being deformed.

(4) The sound insulation may be further enhanced by arranging the contact via an elastic member provided in the vicinity of the mount of the camera body 10. FIG. 5 shows an embodiment provided with an inner elastic member 72 ′ in which the inner elastic member 72 described in the above embodiment is provided on the camera body side and a part of the inner elastic member 72 extends to the contact 13 portion. It is. In FIG. 5, the upper diagram is a front view of the camera, and the lower diagram is a cross-sectional view taken along the line AA. As is clear from FIG. 5, the contact 13 is disposed so as to penetrate the elastic member (sound insulation member) 72 ′, thereby improving sound insulation at the contact part (sound insulation of sound leaking from the contact part). ing. The present invention is not limited to this, and the outer elastic member 34 shown in the above-described embodiment may be extended to the contact portion, and the contact 13 may be passed through the outer elastic member. You may comprise so that the elastic member different from an elastic member and an outer side elastic member may be arrange | positioned in the contact part 13. FIG.

  In addition, although embodiment and a deformation | transformation form can also be used in combination suitably, detailed description is abbreviate | omitted. Further, the present invention is not limited to the embodiment described above.

  1: camera, 10: camera, 10A: camera side internal space, 10M: camera side mount unit, 11: camera housing, 30: imaging mechanism, 31A: imaging device, 32: cover glass, 33: in-camera holding unit, 33A: convex portion, 34: outer peripheral side elastic member, 40: sound collecting microphone, 13: camera body side electrical contact, 20: lens barrel 20, 20A: lens side internal space, 20M: lens side mount portion, 22: zoom Motor: 23: Focusing motor, 24: Aperture unit, 24M: Aperture motor, 25: Cam cylinder, 26: Lens side electrical contact, 71: Inner peripheral cover, 71A: End face, 72: Inner peripheral elastic member, 100: Camera: 110: Camera body, 120: Lens barrel, 130: Support frame, 133: Holding flange, OA: Optical axis, L1: First lens group, L2: Second lens group, L3: Third lens 'S group

Claims (9)

In a camera equipped with either a driving source that drives the driving unit or a microphone for collecting sound and a lens barrel that includes either the driving source or the microphone,
A sound insulation member for sound insulation between the lens side space including the one in the lens barrel and the camera side space including the other in the camera according to the mounting of the lens barrel to the camera;
Camera characterized by. The camera according to claim 1,
Provided inside the camera so as to surround the subject optical path, and includes an in-camera holding unit that holds parts inside the camera,
The sound insulating member includes a first elastic member attached to the entire circumference of a portion of the holding part in the camera facing the lens barrel, and the lens barrel is mounted when the lens barrel is attached to the camera. The lens-side pressing portion is pressed against the lens-side pressing portion provided to face the first elastic member, and is in close contact with the lens-side pressing portion on the entire circumference.
Camera characterized by. The camera according to claim 2,
A transparent plate member attached to the inner wall side of the camera holding part in close contact with the camera holding part,
The lens side space and the camera side space are separated by the in-camera holding portion and the transparent plate member,
Camera characterized by. The camera according to claim 2 or 3,
Provided with a camera side mount provided at the lens barrel side opening of the camera casing as an appearance member of the camera,
The camera holding portion includes a flange portion extending to the outer peripheral side thereof,
The sound insulation member includes a second elastic member attached to the entire circumference of the flange portion, and the camera-side mount portion and the flange portion are in close contact with each other by the second elastic member. ,
Camera characterized by. The camera according to any one of claims 1 to 4,
The driving source is a lens driving motor provided in the lens barrel,
The microphone is provided in the camera;
Camera characterized by. The camera according to any one of claims 2 to 4,
A camera-side contact that is electrically connected to a lens-side contact provided in the lens barrel is provided in a part of the portion of the in-camera holding portion so as to penetrate the sound insulation member. camera. In a lens barrel that can be attached to a camera that includes either the drive source that drives the drive unit or the microphone for sound collection, and that includes either the drive source or the microphone,
A sound insulation member for sound insulation between the lens side space including the one in the lens barrel and the camera side space including the other in the camera according to the mounting of the lens barrel to the camera;
A lens barrel characterized by The lens barrel according to claim 7,
A lens-side annular part that surrounds the subject optical path,
The sound insulating member has a third elastic member attached to the entire circumference of a portion of the lens-side annular portion facing the camera, and the lens barrel is attached to the camera when the lens barrel is attached to the camera. Being pressed by a camera-side pressing portion provided to face the third elastic member and closely contacting the camera-side pressing portion on the entire circumference;
A lens barrel characterized by The lens barrel according to claim 8, wherein
A lens-side mount that is detachable from the camera-side mount provided in the camera;
The lens-side mount portion is rotatable relative to the lens-side annular portion and the third elastic member around an optical axis;
A lens barrel characterized by

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