JP2004221894A - Video camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video camera of a shooting system, in which a photographer P can easily support a video camera body irrespective of various photographing postures. <P>SOLUTION: A view finder part 60 of a camera part 12 and a lens part storage part 12A and a view finder storage part 12B of the camera part except for the view finder part 60 can individually turn on the same axis or different axes while they are interlocked with a body grasping part 11. Turn postures can be kept in a desired turn position. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video camera, and more particularly to a video camera of a type in which a shooting operation is performed while supporting a video camera body integrally provided with a lens unit, a VTR (video tape recorder) unit, a view finder unit and the like with one hand. About.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a video camera including a video camera body integrally provided with a lens unit, a VTR (video tape recorder) unit, a viewfinder unit, and the like has been known.
[0003]
As one type of this type of video camera, there is a so-called shooting type video camera which can perform a shooting operation such as start / stop, zoom in / zoom out, etc. with a finger of the supporting hand while supporting the video camera body with one hand. Are known.
[0004]
FIG. 21 is a configuration diagram of an example of a conventional shooting-type video camera.
The video camera 901 of the shooting system has a video camera main body 910 which is roughly composed of a main body holding portion 911 and a camera portion 912 integrally disposed above the main body holding portion 911.
[0005]
The main body grip unit 911 includes, as a VTR unit, a recording medium storage unit 920 that stores a recording medium for recording a captured image, a monitor unit 930 for confirming a captured image, a start / stop switch 941, and a zoom-in / zoom-out switch. Various operation switches such as 942 are arranged.
[0006]
One end of the camera unit 912 is a lens opening 913, and the other end is a finder viewing window 914. A lens unit 950 having a photographing lens 951 and a CCD image pickup device 952 and the like is arranged on one end side of the camera unit 912 on the lens opening 913 side, and a small liquid crystal display element 961 is provided on the opposite side of the finder viewing window 914 side. A viewfinder 960 having a viewing lens 962 for checking a captured image is provided.
[0007]
The monitor 930 is configured such that the edge 930a on the lens opening 913 side is a base end side, and the edge 930b on the finder viewing window 914 side is a swing end side. It is configured to be movable. When the edge portion 930b approaches / separates from the remaining portion of the main body holding portion 911 by the swing operation of the monitor portion 930, a monitor screen constituted by, for example, a liquid crystal display element appears from the main body holding portion 911, or It is configured to be hidden by the main body grip 911. Note that, in FIG. 21, a broken-line rectangular portion indicated by an arrow 930 ′ indicates the monitor unit 930 in a state where the monitor screen appears from the main body holding unit 911.
[0008]
Further, in the video camera 901 of the conventional example, the viewfinder 960 and the monitor 930 ′ in a state where the monitor screen appears are rotated with respect to the remaining video camera main body 910. The viewing directions M and F of the viewfinder section 960 and the monitor section 930 can be adjusted.
[0009]
The viewfinder section 960 has a base end on the side where the small liquid crystal display element 961 is arranged, and has a viewfinder viewing window 914 on the side where the viewing lens 962 is arranged as a rotation end, and is shown in the xx direction in FIG. As described above, it is rotatable with respect to the remaining camera unit 912 and main body holding unit 911. Thus, the viewing direction F of the finder viewing window 914 can be adjusted with respect to the axial direction of the lens opening 913, that is, the imaging direction S that is the optical axis direction of the lens unit 950.
[0010]
In a state where the monitor screen is displayed (the state indicated by the arrow 930 ′), the monitor unit 930 moves the other part of the main body holding unit 911 and the camera unit 912 in FIG. As indicated by the direction, the monitor unit 930 itself is rotatable. Thus, the viewing direction M of the monitor screen can be adjusted with respect to the shooting direction S, similarly to the case of the viewing direction F of the viewfinder viewing window 914.
[0011]
FIG. 22 is an explanatory diagram of a grip state by a photographer when photographing with the video camera shown in FIG.
[0012]
In the video camera 901 configured as described above, as shown in FIG. 22, the photographer P views the peripheral surface of the main body grip portion 911 of the video camera main body 910 in a viewfinder view by grasping the grip of the pistol. The video camera body 910 is supported by grasping it from the window 914 side by hand.
[0013]
Then, the photographer P faces the lens opening 913 with the subject and looks into the viewfinder 960 through the viewfinder opening 914 or swings the monitor 930 to look at the monitor screen that appears. While confirming the photographed image, the start / stop switch 941 or the like is operated with the finger of the hand gripping the main body grip portion 911 to photograph the subject.
[0014]
The direction indicated by reference sign G in FIG. 22 indicates the grip direction of the main body grip 911 corresponding to the direction in which the main body grip 911 extends from the camera unit 912.
[0015]
In the video camera 901 configured as described above, the viewing direction F of the viewfinder viewing window 914 of the viewfinder unit 960 and the viewing direction M of the monitor screen of the monitor unit 930 with respect to the shooting direction S. Since the viewfinder can be adjusted, the photographer P can shoot in various postures by appropriately rotating and positioning the viewfinder 960 or the monitor 930 with respect to the other part of the video camera body 910.
[0016]
FIG. 23 is an explanatory diagram of a representative shooting posture.
FIG. 23A shows the normal posture photographing.
In the normal posture shooting, at least one of the viewing direction F of the viewfinder viewing window 914 of the viewfinder section 960 and the viewing direction M of the monitor screen of the monitor section 930 is adjusted to be opposite to the shooting direction S, and then the video camera body 910 is adjusted. Is supported at the height position Hm of the face of the photographer P himself, and the photographing is performed while confirming the photographed image through the finder viewing window 914 or the monitor screen whose viewing direction is opposite to the photographing direction S.
[0017]
FIG. 23 (b) shows a high attitude photographing for photographing a high angle.
In the high posture shooting, the viewing direction M of the monitor screen of the monitor unit 930 is adjusted to be lower than that in the normal posture shooting, and then the video camera body 910 is moved higher than the height position Hm of the face of the photographer P himself. The photographing is performed while the photographed image is confirmed on the monitor screen whose viewing direction is downward while being supported at the high height position Hh.
[0018]
FIG. 23C shows low-profile shooting for shooting a low angle.
In low-profile shooting, after adjusting either the viewing direction F of the viewfinder viewing window 914 of the viewfinder unit 960 or the viewing direction M of the monitor screen of the monitor unit 930 upward with respect to the case of normal posture shooting, While supporting the video camera body 910 at a height position Hl lower than the height position Hm of the face of the photographer P himself, while checking the photographed image with the viewfinder viewing window 914 or the monitor screen whose viewing direction is directed upward, Shooting is performed.
[0019]
As described above, in the video camera 901 of the shooting method described above, one of the viewing direction F of the viewfinder viewing window 914 of the viewfinder section 960 and the viewing direction M of the monitor screen of the monitor section 930 is determined by the recording medium of the main body grip section 911. By rotating and positioning with respect to the other parts of the video camera body 910 such as the storage part 920 and the lens part 950 of the VTR part camera part 912, the above-described normal posture photographing, high posture photographing, and low posture photographing can be performed. Shooting is performed in various postures.
[0020]
[Patent Document 1]
JP 2001-111877 A
[0021]
[Problems to be solved by the invention]
However, in the video camera 901 of the shooting method described above, as shown in FIGS. 21 and 22, a lens opening 913 is formed above the main body gripping portion 911 gripped by the photographer P, and the lens portion 950 is housed. One end of the camera unit 912 is fixedly arranged. Therefore, as shown in FIG. 22, the angle between the direction of the lens opening 913 of the camera unit 912, ie, the shooting direction S, and the direction of the main body holding unit 911 held by the photographer P, ie, the grip direction G, is determined by the shooting posture. Irrespective of the above, the angle is maintained at the constant angle q1.
[0022]
Therefore, in the video camera 901 of the conventional shooting method, when the shooting direction S changes in the same shooting direction such as the normal shooting, the high shooting, and the low shooting, the grip direction of the main body support unit 911 with respect to the shooting direction S is changed. Since G does not change, the grasping state of the main body supporting portion 911 for the photographer P to support the video camera main body 901 is such that the photographer P can easily maintain the posture of each part such as the shoulder, elbow, and wrist. The relationship is very different.
[0023]
That is, if the holding state of the main body supporting portion 911 in the normal posture shooting shown in FIG. 23A is used as a reference, in the high posture shooting shown in FIG. The height position supporting the video camera body 910 is higher than in the case. For this reason, in the case of the high posture photographing, the height position of the elbow is higher than in the normal posture photographing, and the angle q2 formed by the grip direction G and the direction A in which the forearm extends shown in FIG. The bending state of the wrist holding the support portion 911 also becomes cramped, with the thumb-side wrist portion w1 extending and the little-finger-side wrist portion w2 bent, as compared with the wrist state in the normal posture shooting.
[0024]
On the contrary, in the case of the low-posture photographing shown in FIG. 23C, the height position of the elbow is lower than in the normal posture photographing, and the grip direction G and the direction A in which the forearm extends shown in FIG. Since the angle q2 formed by the wrist increases, the bending state of the wrist gripping the main body supporting portion 911 also causes the thumb-side wrist portion w1 to bend and the little finger-side wrist portion w2 to extend more than the wrist state in the normal posture shooting. It becomes a state and becomes cramped.
[0025]
Regarding the view direction F of the viewfinder viewing window 914 of the viewfinder section 960, the camera section 912 having the viewfinder section 960 formed with the viewfinder viewing window 914 is integrally disposed above the main body grip section 911. Due to the configuration, it was difficult to turn the viewing direction F of the viewfinder section 960 and the viewfinder viewing window 914 downward with respect to the photographing direction S because the main body gripping section 911 was in the way.
[0026]
Therefore, in the case of high-posture photographing, the height position in the photographing direction S is kept higher than the line-of-sight position of the photographer P, so that photographing using the viewfinder unit 960 is difficult. Was.
[0027]
Accordingly, in a situation where the monitor screen of the monitor unit 930 cannot be used to check the captured image, even if the viewing direction F of the viewfinder viewing window 914 of the viewfinder unit 960 can be rotationally adjusted, the captured image cannot be checked in the high posture shooting. I couldn't do it.
[0028]
Further, even when the monitor screen of the monitor unit 930 can be used for confirming a captured image by high attitude shooting, the monitor screen of the monitor unit 930 is smaller than the display screen of the small liquid crystal display element 961 of the viewfinder unit 960. Because of the large size, the battery consumption of the video camera 901 is increased as compared with the case where the viewfinder unit 960 is used, and there is a problem that the photographing time is reduced.
[0029]
The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a video camera of a shooting system in which a photographer P can easily support a video camera body regardless of various photographing postures. As a first object.
[0030]
It is a second object of the present invention to provide a video camera of a shooting method that can confirm a captured image using a viewfinder even in high-posture shooting.
[0031]
[Means for Solving the Problems]
In order to solve the above-described problems, the video camera of the present invention is configured such that the grip direction of the main body gripping portion intersects with the shooting direction and the viewfinder viewing direction of the camera unit including the lens unit and the viewfinder unit. A video camera provided with a video camera main body in which a main body grip portion and the camera portion are integrally arranged, wherein the video camera main body includes a lens portion of the camera portion along a grip direction of the main body grip portion. A first rotating means for rotating the main body gripping part in a plane parallel to the main body, and a lens part rotating surface of the camera part by the first rotating means. And a second rotating means for rotating the main body holding portion in a plane parallel to the main body.
[0032]
Further, in the video camera of the present invention, the main body gripping portion and the camera portion may be arranged such that a grip direction of the main body gripping portion intersects a photographing direction and a viewfinder viewing direction of the camera portion including the lens portion and the viewfinder portion. Is a video camera provided with a video camera main body integrally disposed, wherein the video camera main body has a lens section of the camera section in a plane parallel to a grip direction of the main body grip section. First rotation means for rotating with respect to the gripping part, and a view finder part of the camera unit in a plane parallel to a lens part rotation surface of the camera unit by the first rotation means. A second rotating unit for rotating the main body holding unit and an interlocking unit for interlocking the first rotating unit and the second rotating unit are provided.
[0033]
In the video camera of the present invention, the shooting direction, the grip direction, and the viewfinder viewing direction are arranged in the same or parallel plane, and the grip direction is the shooting direction and the viewfinder when viewed from the perpendicular direction of the same or parallel plane. What is claimed is: 1. A video camera which crosses a viewing direction, and a shooting direction and a viewfinder viewing direction extend in opposite directions with respect to a grip direction. When the grip direction rotates with respect to the photographing direction so as to increase or decrease the intersection angle between the photographing direction and the grip direction by the grip direction rotating means, The crossing angle between the decreasing or increasing grip direction and the viewfinder viewing direction is approximated to the crossing angle before the rotation change in the grip direction. Characterized in that it includes a viewfinder viewing direction rotating means for rotating the dust viewing direction with respect to the grip direction.
[0034]
In the video camera of the present invention, the shooting direction, the grip direction, and the viewfinder viewing direction are arranged in the same or parallel plane, and the grip direction is the shooting direction and the viewfinder when viewed from the perpendicular direction of the same or parallel plane. A video camera configured to cross a viewing direction and to have a shooting direction and a viewfinder viewing direction extending in opposite directions across a grip direction, wherein the grip direction is rotated with respect to the viewfinder viewing direction. When the grip direction is rotated with respect to the viewfinder viewing direction so as to increase or decrease the intersection angle between the viewfinder viewing direction and the grip direction by the moving means and the viewfinder viewing direction rotating means, The angle of intersection between the grip direction and the shooting direction, which decreases or increases due to the rotation in the As close to or angle, characterized by comprising a photographing direction rotating means for rotating the imaging direction with respect to the grip direction.
[0035]
According to the present invention, the photographer P can easily support the video camera body regardless of various photographing postures. In addition, even in the case of high-posture photographing, the photographed image can be confirmed using the viewfinder.
[0036]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail for each embodiment with reference to the accompanying drawings.
[0037]
[First Embodiment]
The configuration of the shooting-type video camera according to the first embodiment will be described with reference to the drawings.
[0038]
FIG. 1 is an external perspective view of the shooting-type video camera according to the first embodiment as viewed from the viewfinder viewing window side.
[0039]
In the video camera 101 of the present embodiment, a video camera main body 10 is generally constituted by a main body holding portion 11 and a camera portion 12 integrally arranged above the main body holding portion 11.
[0040]
The main body holding unit 11 includes a recording medium storage unit 20 for storing a recording medium for recording a captured image, a monitor unit 30 for confirming a captured image, a start / stop switch 41, and a zoom-in / zoom-out switch 42 (see FIG. 2), a rectangular parallelepiped grip 11A on which various operation switches and the like are arranged, and a pair of support frame portions 11B extending upward from the upper surface of the grip 11A.
[0041]
FIG. 2 is a side view of the video camera main body with one support frame portion removed from the video camera shown in FIG.
As shown in FIG. 2, the support frame portion 11B has a peripheral portion 11Ba on one side formed in a tapered shape when the video camera body 10 is viewed from the side, and a peripheral portion 11Bb on the other side is connected to the peripheral portion 11Ba. The central angle is formed in an arc shape with an obtuse angle.
[0042]
A space formed by the upper surface of the grip portion 11A of the main body grip portion 11 and the opposed wall surfaces of the pair of support frame portions 11B forms a camera unit housing space 11C. The other end side 12b of the camera unit 12, which will be described later, is accommodated in the camera unit accommodation space 11C.
[0043]
FIG. 3 is a cross-sectional view of the camera unit of the video camera shown in FIG.
As shown in FIG. 3, one side 12a of the camera section 12 is a lens section storage section 12A having a lens opening 13 opened at an end face, and the other side 12b is a viewfinder section storage section 12B.
[0044]
As viewed from the side of the video camera body 10, the viewfinder section storage section 12B has substantially the same diameter as the arc-shaped peripheral portions 11Bb of the pair of support frames 11B of the main body gripping section 11, as shown in FIG. The center angle is formed in an arc shape with an obtuse angle, and a circumferential end face 12C is formed on the other side 12b of the camera section 12.
[0045]
As shown in FIGS. 1 and 3, a viewing window moving hole 12 </ b> D is formed in the circumferential end surface 12 </ b> C so as to extend in the circumferential direction. It is configured to be movable along the moving hole 12D.
[0046]
As shown in FIG. 3, a lens unit 50 having a photographic lens 51 and a CCD image pickup device 52 is housed in the lens unit storage unit 12A of the camera unit 12 configured as described above, coaxially with the lens opening 13. Have been.
[0047]
Further, a viewfinder unit 60 having a small liquid crystal display element 61 and a visible lens 62 for confirming a captured image is accommodated in the viewfinder unit storage unit 12 </ b> B of the camera unit 12.
[0048]
The viewfinder section 60 is configured such that the viewing lens 62 side has an arc-shaped peripheral edge portion 11Bb of the pair of support frame portions 11B of the main body holding section 11 and the camera section 12 with respect to the arrangement direction of the small liquid crystal display element 61 and the viewing lens 62. The circumferential surface 60A has substantially the same diameter as the circumferential end surface 12C formed on the other side 12b (see FIG. 1). The viewfinder viewing window 14 is formed in a portion of the circumferential surface 60A where the axes of the arrangement directions of the small liquid crystal display element 61 and the viewing lens 62 intersect. The finder viewing window 14 is arranged at a substantially intermediate position on the circumferential surface 60A in the circumferential direction.
[0049]
Here, as shown in FIG. 3, the viewfinder 60 on the other end 12 b of the camera unit 12 is rotated by the pair of support frames 11 B of the main body holding unit 11 together with the viewfinder housing 12 B of the camera 12. It is movably mounted.
[0050]
In the case of the present embodiment, a shaft hole 11D is provided in each of the opposing walls of the pair of support frames 11B of the main body gripping portion 11 so as to correspond to the arc center position of the arc-shaped peripheral portion 11Bb. . In addition, shaft holes 12E are provided on both side surfaces of the viewfinder housing 12B of the camera unit 12 in correspondence with the center of the arc of the circumferential end surface 12C. Further, shaft holes 60B are also provided on both side walls of the viewfinder unit 60 in correspondence with the center of the arc of the circumferential surface 60A.
[0051]
The pair of support frame portions 11B of the main body holding portion 11 and the viewfinder portion storage portion 12B of the camera portion 12 are inserted into both the shaft holes 11D and 12E with the shaft holes 11D and 12E facing each other. The shaft members 15 are provided so as to be rotatable.
[0052]
A retaining member 16A made of a retaining ring or the like is attached to one end of each shaft member 15 located inside the support frame portion 11B so as to be retained. The other end of each shaft member 15 located in the viewfinder housing section 12B of the camera section 12 is inserted through a shaft hole 60B in the side wall of the viewfinder section 60 via a holding member 16B formed of a retaining ring or the like. I have. On the other end side of each shaft member 15 located in the viewfinder section 60, a retaining / preventing member 16C made of a retaining ring or the like is mounted and retained.
[0053]
Thus, the viewfinder unit 60 is rotatably attached to the pair of support frames 11B of the main body holding unit 11 by the shaft members 15 similarly to the viewfinder unit storage unit 12B of the camera unit 12. I have.
[0054]
Further, a rotation resistance generating member 17A such as a packing or a corrugated washer is mounted and interposed on a portion of the shaft member 15 between the retaining member 16A and an inner portion of the opposing wall portion of the support frame 11B. . Similarly, a shaft member 15 between the holding member 16B and the inside of the viewfinder housing 12B of the camera unit 12, and a shaft between the holding / retaining member 16C and the inside of the viewfinder 60. Similar rotation resistance generating members 17B and 17C are also mounted and interposed in the 15 parts.
[0055]
With this configuration, the video camera 101 according to the present embodiment includes a viewfinder section 60 of the camera section 12, and a lens section storage section 12 </ b> A and a viewfinder storage section 12 </ b> B as the remaining camera sections 12 excluding the viewfinder section 60. Are configured to be rotatable individually and coaxially (on the shaft member 15) with respect to the main body gripping portion 11, and to be able to hold the rotation posture at a desired rotation position. I have.
[0056]
At this time, the rotation torque of the lens section storage section 12A and the viewfinder storage section 12B of the camera section 12 with respect to the main body holding section 11 defined by the rotation resistance generating member 17A and the rotation resistance generating member 17B, The rotation torque is set to a value larger than the rotation torque of the viewfinder section 60 of the camera section 12 with respect to the main body holding section 11 defined by the member 17A and the rotation resistance generating member 17C.
[0057]
The operation of the video camera 101 according to the present embodiment configured as described above will be described with reference to FIGS.
[0058]
FIG. 4 is an external perspective view of the video camera shown in FIG. 1 in a state different from the state shown in FIG. 1 when viewed from the finder viewing window side.
As shown in FIG. 4, according to the video camera 101 of the present embodiment, the photographer P views the peripheral surface of the grip 11A of the main body grip 11 of the video camera main body 10 in a manner similar to gripping the grip of the pistol. The video camera body 10 is supported by grasping the window 14 side by hand.
[0059]
Then, the photographer P holds the grip 11A of the main body grip 11 while confirming the photographed image by directly facing the lens opening 13 with the subject and looking through the viewfinder 60 through the viewfinder viewing window 14, for example. The start / stop switch 41 and the like are operated with the fingers of the left hand to photograph the subject.
[0060]
At this time, the main body gripping portion 11, the lens portion storing portion 12A and the viewfinder storing portion 12B of the camera portion 12, and the viewfinder portion 60 of the camera portion 12 are individually individually centered on the shaft member 15 (see FIG. 3). Since it is configured to be rotatable, the grip direction G defined by the extension direction of the grip portion 11A of the main body grip portion 11 and the axial direction of the lens opening 13 of the camera portion 12, that is, the light of the lens portion 50 The photographing direction S defined by the axial direction and the viewfinder viewing direction F defined by the opening direction of the viewfinder viewing window 14 of the viewfinder section 60 can be adjusted to have an arbitrary angular relationship with each other within the same plane. .
[0061]
FIG. 4 shows the photographing direction from the reference state shown in FIG. 1 in which the photographing direction S and the viewfinder viewing direction F are opposite, and the grip direction G intersects the photographing direction S and the viewfinder viewing direction F substantially at right angles. The grip portion 11A of the main body holding portion 11 is rotationally adjusted with respect to the lens portion storage portion 12A and the viewfinder storage portion 12B of the camera portion 12 so as to increase the angle r1 between S and the grip direction G. Along with the rotation, the grip portion 11A of the main body grip portion 11 is moved so that the angle r2 between the finder viewing direction F and the grip direction G is reduced to prevent the finder viewing direction F and the grip direction G from approaching each other. On the other hand, the video camera 101 is shown in a state where the view finder section 60 of the camera section 12 is adjusted in rotation.
[0062]
Therefore, according to the video camera 101 of the present embodiment, as illustrated in FIG. 4, the grip direction G, the photographing direction S, and the viewfinder viewing direction F have an arbitrary angular relationship with each other in the same plane. Since the adjustment can be performed, the grip direction G and the viewfinder viewing direction F can be adjusted in a direction that is easy to grasp in relation to the imaging direction S, corresponding to various imaging postures.
[0063]
Further, in the case of the video camera 101 according to the present embodiment, the rotation torque of the lens unit storage section 12A and the viewfinder storage section 12B of the camera section 12 with respect to the main body holding section 11 is determined by the view of the camera section 12 with respect to the main body holding section 11. Since the value is set to be larger than the rotation torque of the finder section 60, the photographer P rotates and adjusts the direction of the lens section storage section 12A of the camera section 12 while gripping the grip section 11A of the main body grip section 11. After that, even if the direction of the viewfinder section 60 is subsequently adjusted, the orientation of the lens section storage section 12A of the camera section 12 with respect to the body grip section 11 which has already been adjusted is adjusted by the rotation adjustment of the viewfinder section 60. Does not change.
[0064]
Since the lens storage section 12A and the viewfinder section 60 of the camera section 12 rotate coaxially about the shaft member 15 with respect to the main body holding section 11, the camera is held while holding the grip section 11A of the main body holding section 11. The gripping feeling of the grip portion 11A of the main body gripping portion 11 depends on the case where the rotation of the lens portion housing portion 12A and the viewfinder housing portion 12B of the portion 12 is adjusted and the case where the viewfinder portion 60 of the camera portion 12 is rotated and adjusted. Can reduce discomfort and maintain a sense of unity.
[0065]
FIG. 5 is an explanatory diagram of a rotational adjustment relationship between a photographing direction S, a grip direction G, and a viewfinder viewing direction F, taking a typical photographing posture as an example.
In FIG. 5, FIG. 5 (a) shows the rotation adjustment relationship in each direction in the normal posture shooting, and FIG. 5 (b) shows the rotation adjustment relationship in each direction in the high posture shooting. The parentheses indicate rotation adjustment relationships in each direction in low-profile shooting.
[0066]
According to the video camera 101 of the present embodiment, the grip direction G, the photographing direction S, and the viewfinder viewing direction F can be adjusted to have an arbitrary angular relationship within the same plane. The relative angle between the grip direction G, the photographing direction S, and the viewfinder viewing direction F can be arbitrarily adjusted to facilitate the operation of the photographer P.
[0067]
For example, when photographing in a normal posture, that is, when the photographer P photographs the photographing target while supporting the video camera body 10 at the height position Hm of the photographer P's own face, the grip portion 11A of the body grasping portion 11 is moved. The grip direction G is adjusted with respect to the photographing direction S so as to be easily gripped, and the viewfinder viewing direction F is adjusted with respect to the shooting direction S or the grip direction G so as to easily look through the viewfinder viewing window 14. At this time, an angle r1 of the grip direction G with respect to the adjusted photographing direction S is defined as an angle r10, and an angle r2 of the adjusted finder viewing direction F with respect to the grip direction G is defined as an angle r20.
[0068]
For example, when the photographing direction S is the normal posture photographing in the horizontal direction, the angle r10 formed by the photographing direction S and the grip direction G is substantially a right angle, and the angle r20 formed by the finder viewing direction F and the grip direction G is also determined by the finder. Since the viewing direction F is opposite to the photographing direction S, it is substantially perpendicular.
[0069]
Here, in the case of the above-described normal posture photographing, the high posture photographing and the low posture photographing will be described using the angle r10 of the grip direction G with respect to the photographing direction S and the angle r20 of the finder viewing direction F with respect to the grip direction G as reference angles. I do.
[0070]
In the case of high-posture photographing, the photographer P supports the video camera body 10 at a height position Hh higher than the height position Hm of the face of the photographer P himself, and photographs the photographing target.
Therefore, the photographer P adjusts the grip direction G with respect to the photographing direction S so that the photographer P can easily grasp the grip portion 11A of the main body grasping portion 11 at a height position Hh higher than the height position Hm of his / her face. .
[0071]
In this case, as the height position Hh becomes higher than the height position Hm, the grip direction G is closer to the horizontal direction with the gripping direction G facing the photographing direction S side, and the gripping direction G and the grip portion 11A of the main body gripping portion 11 are better. The relationship between the direction in which the forearm extends and the direction in which the forearm extends is closer to a right angle, the thumb-side wrist is stretched, and the little finger-side wrist is not crouched, but the wrist naturally extends with respect to the forearm Therefore, the photographer P can easily grip the grip portion 11A of the main body grip portion 11.
[0072]
For example, in the high posture shooting, when the shooting direction S is horizontal, the photographer P adjusts the angle r1 between the shooting direction S and the grip direction G to the height position Hh that supports the video camera body 10, While holding the grip portion 11A of the main body grip portion 11, the lens portion storage portion 12A of the camera portion 12 is rotationally adjusted so that the angle r11 is smaller than the reference angle r10 in the case of the above-described normal posture shooting.
[0073]
Along with this, the main body gripping portion 11 has a grip direction G of the main body gripping portion 11 in the case of high posture shooting compared to the normal posture shooting by the difference (= r10−r11) between the reference angle r10 and the angle r11. Is tilted in the photographing direction S side, and the distal end side 11Aa of the grip portion 11A of the main body grasping portion 11 is located at a distance corresponding to the difference from the base end side 11Ab in the photographing direction S side, ie, in front of the photographer P Will move to the side.
[0074]
Therefore, the photographer P assumes that the angle r2 between the grip direction G and the viewfinder viewing direction F is larger than the reference angle r20 in the normal posture (g) because the grip direction G is inclined toward the photographing direction S. r20 + r10-r11), the direction of the viewfinder section 60 of the camera section 12 is adjusted in the angle decreasing direction. Thereby, the angle r2 formed by the grip direction G and the viewfinder viewing direction F can be made closer to the reference angle r20, or can be set to an angle r21 smaller than the reference angle r20, and the direction of the viewfinder section 60 is directed downward. Can be.
[0075]
As a result, even in the case of high-posture shooting, when holding the video camera main body 10, the main body holding portion 11 can be easily gripped, and shooting using the viewfinder 60 can be performed.
[0076]
In the case of low-profile shooting, the photographer P supports the video camera body 10 at a height position Hl that is lower than the height position Hm of the face of the photographer P himself, and photographs the subject.
Therefore, the photographer P adjusts the grip direction G with respect to the photographing direction S so that the photographer P can easily grasp the grip portion 11A of the main body grasping portion 11 at a height position Hl lower than the height position Hm of his / her face. .
[0077]
In this case, as the height position Hl becomes lower than the height position Hm, the closer the grip direction G is to the horizontal direction with the grip direction G toward the viewfinder viewing direction F side, the more the grip direction G and the grip of the main body grip portion 11 are gripped. The relationship with the direction in which the forearm that grips the portion 11A extends is closer to a right angle, the thumb-side wrist buckles, and the little finger-side wrist does not become a stretched wrist, but the wrist naturally extends with respect to the forearm. Therefore, the photographer P can easily grip the grip portion 11A of the main body grip portion 11.
[0078]
For example, in low-posture shooting, when the shooting direction S is horizontal, the photographer P adjusts the angle r1 between the shooting direction S and the grip direction G to the height position Hl that supports the video camera body 10, The lens section storage section 12A of the camera section 12 is rotated and adjusted while holding the grip section 11A of the main body holding section 11 so that the angle r12 is larger than the reference angle r10 in the case of the normal posture photographing described above.
[0079]
Along with this, the main body gripping portion 11 has the grip direction G of the main body gripping portion 11 in the case of low posture shooting compared to the normal posture shooting by the difference between the reference angle r10 and the angle r12 (= r12−r10). Is inclined in the finder viewing direction F, and the distal end 11Aa of the grip portion 11A of the main body gripping portion 11 is spaced from the base end 11Ab by a distance corresponding to this difference, that is, the photographer P It will move to the near side.
[0080]
Therefore, the photographer P assumes that the angle r2 between the grip direction G and the viewfinder viewing direction F is smaller than the reference angle r20 in the normal posture because the grip direction G is inclined toward the viewfinder viewing direction F. The direction of the viewfinder section 60 of the camera section 12, which is (r20- (r12-r10)), is adjusted in the angle increasing direction. Thereby, the angle r2 between the grip direction G and the viewfinder viewing direction F can be made closer to the reference angle r20 or can be set to an angle r21 larger than the reference angle r20, and the direction of the viewfinder section 60 is directed upward. Can be.
[0081]
Each state of the video camera 101 shown in FIG. 4 in the shooting direction S, the grip direction G, and the viewfinder viewing direction F indicates the state of each part of the video camera body 10 in the case of the low-profile shooting.
[0082]
As described above, according to the video camera 101 of the present embodiment, the video camera main body 10 is positioned above the main body gripping portion 11 so that the grip direction G intersects the photographing direction S and the viewfinder viewing direction F. And a camera unit 12 having a lens unit 50 and a viewfinder unit 60, which are integrally disposed in a video camera 101. The relative angle between the direction S and the viewfinder viewing direction F can be arbitrarily adjusted so that the photographer P can easily operate.
[0083]
[Second embodiment]
The configuration of a shooting-type video camera 201 according to the second embodiment will be described with reference to the drawings.
[0084]
In the description, the same components as those of the video camera 101 according to the above-described first embodiment and the corresponding components are denoted by the same reference numerals, and the description thereof is partially omitted.
[0085]
FIG. 6 is an external perspective view of the shooting-type video camera according to the second embodiment viewed from the viewfinder viewing window side.
[0086]
In the video camera 201 according to the present embodiment, the video camera main body 10 is generally constituted by a main body holding portion 11 and a camera portion 12 integrally arranged above the main body holding portion 11.
[0087]
The main body grip unit 11 includes a recording medium storage unit 20 for storing a recording medium for recording a captured image, a monitor unit 30 for confirming a captured image, and various operation switches such as a start / stop switch 41 and a zoom-in / zoom-out switch 42. And the like, and a pair of support frames 11B extending upward from the upper surface of the grip 11A.
[0088]
FIG. 7 is a side view of the video camera main body with one support frame portion removed from the video camera shown in FIG.
[0089]
FIG. 8 is a cross-sectional view of the video camera shown in FIG. 6 in a state where a lens opening of a camera unit is exposed.
[0090]
As shown in FIGS. 6 and 8, one side 12a of the camera section 12 is a lens section storage section 12A having a lens opening 13 opened at an end face, and the other side 12b is a viewfinder section storage section 12B. .
[0091]
As viewed from the side of the video camera body 10, the viewfinder section storage section 12 </ b> B has substantially the same diameter as the arc-shaped peripheral edge section 11 </ b> Bb of the pair of support frame sections 11 </ b> B of the main body holding section 11 as shown in FIG. 7. The center angle is formed in an arc shape with an obtuse angle, and a circumferential end face 12C is formed on the other side 12b of the camera section 12.
[0092]
A viewing window storage hole 12D is formed in the circumferential end surface 12C so as to extend in the circumferential direction, and a finder viewing window 14 provided in a viewfinder section 60 described later is configured to be able to protrude and retract from the viewing window storage hole 12D. ing.
[0093]
As shown in FIG. 8, a lens unit 50 having a photographic lens 51, a CCD image pickup device 52, and the like is accommodated in the lens unit storage unit 12A of the camera unit 12 configured as described above, coaxially with the lens opening 13. Have been.
[0094]
A viewfinder unit 60 for checking a captured image, which includes a small liquid crystal display element 61 and a visible lens 62, is stored in the viewfinder unit storage unit 12B of the camera unit 12.
[0095]
As shown in FIG. 7, the viewfinder section 60 has a length smaller than the diameter of the circumferential end face 12C of the viewfinder section housing section 12B in the arrangement direction of the small liquid crystal display element 61 and the viewing lens 62, as shown in FIG. As shown in FIG. 8, shaft holes 60B are formed on both side surfaces on which the small liquid crystal display element 61 is disposed, and a finder viewing window 14 is formed on an end surface on which the viewing lens 62 is disposed. As shown in FIG. 6, both sides of the viewfinder unit 60 are connected, and the upper surface extending along the direction in which the small liquid crystal display element 61 and the viewing lens 62 are arranged is formed by a pair of support frame portions of the main body gripper 11. An arc-shaped peripheral portion 11Bb in 11B and a circumferential surface 60A having substantially the same diameter as a circumferential end surface 12C formed on the other side 12b of the camera section 12 are formed. Then, the view finder section 60 is configured such that its circumferential surface 60A is formed on an arc-shaped peripheral edge portion 11Bb of the pair of support frame portions 11B of the main body holding portion 11 and a circumferential end face 12C formed on the other side 12b of the camera section 12. The viewfinder window 14 is stored in the viewfinder housing 12B with the viewfinder viewing window 14 hidden from the outside.
[0096]
For this purpose, as shown in FIG. 6, a circumferential surface 60 </ b> A of the viewfinder 60 is formed on an arc-shaped peripheral portion 11 </ b> Bb of the pair of support frames 11 </ b> B of the main body grip 11 and the other side 12 b of the camera 12. In the arrangement state along the formed circumferential end surface 12C, the shaft holes 60B on both side surfaces of the viewfinder unit 60 are opposed to each other, and the side surface of the viewfinder unit storage unit 12B is provided with a shaft hole 12E1 (see FIG. 8). Are provided respectively.
[0097]
As shown in FIG. 8, the viewfinder section 60 and the viewfinder storage section 12B of the camera section 12 are inserted through both the shaft holes 60B and 12E1 with the shaft holes 60B and 12E1 facing each other. The shaft members 15A are provided so as to be rotatable.
[0098]
One end of each shaft member 15A, which is located in the camera housing space 11C between the pair of support frames 11B of the main body grip 11 and the viewfinder housing 12B, has a retaining member 16A1 formed of a retaining ring or the like. Is attached and secured. The other end of each shaft member 15A located in the viewfinder housing 12B of the camera unit 12 is inserted through a bush 18 into a shaft hole 60B in the side wall of the viewfinder 60. On the other end side of each shaft member 15A located in the viewfinder section 60, a holding / retaining member 16C formed of a retaining ring or the like is mounted via a rotation resistance generating member 17C such as a packing or a corrugated washer. Has been stopped.
[0099]
As a result, the viewfinder unit 60 is rotatably attached to the viewfinder unit storage unit 12B of the camera unit 12 by each of the shaft members 15A, and the viewfinder unit 60 and the camera are generated by the rotation resistance generating member 17C. The configuration is such that the posture can be held at a desired rotational position with respect to the camera unit 12 by the rotational frictional force between the unit 12 and the viewfinder storage unit 12B.
[0100]
Further, each of the opposing walls of the pair of support frames 11B of the main body gripping portion 11 is provided with a shaft hole 11D corresponding to the arc center position of the arc-shaped peripheral portion 11Bb. Similarly, shaft holes 12E2 are provided on both side surfaces of the viewfinder housing 12B of the camera unit 12 so as to correspond to the center of the arc of the circumferential end surface 12C.
[0101]
The pair of support frame portions 11B of the main body holding portion 11 and the viewfinder portion storage portion 12B of the camera portion 12 are inserted into both the shaft holes 11D and 12E2 with the shaft holes 11D and 12E2 facing each other. The shaft members 15B are provided so as to be rotatable.
[0102]
A retaining member 16A2 formed of a retaining ring or the like is mounted on one end of each shaft member 15B located in the support frame portion 11B, and is retained. The other end side of each shaft member 15B located in the viewfinder housing section 12B of the camera section 12 is provided with a retaining / preventing member 16B formed of a retaining ring or the like to prevent the shaft member 15B from coming off.
[0103]
Further, a rotation resistance generating member 17A such as a packing or a corrugated washer is mounted and interposed on a portion of the shaft member 15 between the retaining member 16A2 and an inner portion of the opposing wall 11B of the support frame 11B. . Similarly, a similar rotation resistance generating member 17B is mounted and interposed also on the shaft member 15 between the retaining member 16B and the inside of the viewfinder housing 12B of the camera unit 12.
[0104]
As a result, the lens storage section 12A and the viewfinder storage section 12B of the camera section 12 are rotatably attached to the pair of support frames 11B of the main body holding section 11 by the shaft members 15B, respectively. Rotational frictional force generated between the resistance generation member 17A and the rotation resistance generation member 17B between the lens storage section 12A and the viewfinder storage section 12B of the camera section 12 and the pair of support frame sections 11B of the main body gripping section 11. With this configuration, the camera unit 12 can be held in a desired rotation position with respect to the main body holding unit 11 at the desired rotation position.
[0105]
With this configuration, the video camera 201 according to the present embodiment includes the viewfinder section 60 of the camera section 12 and the lens section storage sections 12A and the viewfinder storage sections 12B as the remaining camera sections 12 excluding the viewfinder section 60. Are rotatable individually on different axes (shaft members 15A and 15B) with respect to the main body holding portion 11.
[0106]
The operation of the video camera 201 according to the present embodiment configured as described above will be described.
[0107]
9 is an external perspective view of the video camera shown in FIG. 6 in a state different from the state shown in FIG. 6 viewed from the viewfinder viewing window side.
As shown in FIG. 9, according to the video camera 201 of the present embodiment, the photographer P views the peripheral surface of the grip 11A of the main body grip 11 of the video camera main body 10 in a manner similar to gripping the grip of the pistol. The video camera body 10 is supported by grasping the window 14 side by hand.
[0108]
Then, the photographer P looks through the viewfinder unit 60 from the viewfinder viewing window 14 of the viewfinder unit 60, which is made to face the subject with the lens opening 13 facing out of the viewfinder unit storage unit 12B of the video camera body 10. Thus, while confirming the photographed image, the start / stop switch 41 and the like are operated with the finger of the hand gripping the grip portion 11A of the main body grasping portion 11 to photograph the subject.
[0109]
At this time, the main body grip 11, the lens unit 50 of the camera unit 12, and the viewfinder unit 60 are configured to be individually rotatable about the shaft members 15A and 15B (see FIG. 8). From above, the grip direction G defined by the extending direction of the grip portion 11A of the main body grip portion 11 and the axial direction of the lens opening 13 of the camera portion 12, that is, the photographing direction S defined by the optical axis direction of the lens portion 50 And the viewfinder viewing direction F defined by the opening direction of the viewfinder viewing window 14 of the viewfinder section 60 can be adjusted to have an arbitrary angular relationship with each other in the same plane.
[0110]
FIG. 9 illustrates a state in which the viewfinder unit 60 in which the viewfinder viewing window 14 illustrated in FIG. 7 is hidden is rotated about the shaft member 15A with respect to the lens unit 50 of the camera unit 12 so that the viewfinder viewing window 14 is closed. When the shooting direction S and the viewfinder viewing direction F are opposite to each other and the grip direction G intersects the shooting direction S and the viewfinder viewing direction F substantially at right angles, the shooting direction S and the grip direction G The lens unit 50 of the camera unit 12 is turned around the shaft member 15B with respect to the grip 11A of the main body holding unit 11 so as to increase the angle r1 between them. In order to prevent the angle r2 between the grip direction G and the viewfinder viewing direction F from approaching the grip direction G by reducing the angle r2, the grip portion 11A of the main body grip portion 11 is viewed from behind. The reader unit 60 to the shaft member 15A around illustrates a video camera 201 of the rotation adjustment state.
[0111]
Therefore, according to the video camera 201 of the present embodiment, as illustrated in FIG. 9, the grip direction G, the photographing direction S, and the viewfinder viewing direction F have an arbitrary angular relationship with each other in the same plane. Since the adjustment can be performed, the grip direction G and the viewfinder viewing direction F can be adjusted in a direction that is easy to grasp in relation to the imaging direction S, corresponding to various imaging postures.
[0112]
Further, in the case of the video camera 201 according to the present embodiment, when the video camera 201 is not used, the viewfinder unit 60 is housed in the viewfinder unit storage unit 12B through the viewing window storage hole 12D of the video camera body 10, and Since the viewing window 14 can be hidden, dirt and damage to the viewfinder viewing window 14 can be prevented.
[0113]
Further, in the case of the video camera 201 according to the present embodiment, the viewfinder unit 60 rotates with respect to the lens unit storage unit 12A and the viewfinder storage unit 12B as the camera units 12 other than the viewfinder unit 60. The photographer P moved and adjusted the orientation of the lens unit storage unit 12A of the camera unit 12 while gripping the grip unit 11A of the main body grip unit 11 because it was not pivotally connected to the main body grip unit 11. Subsequently, even if the direction of the viewfinder section 60 is subsequently adjusted, the orientation of the lens section storage section 12A of the camera section 12 with respect to the main body grip section 11 which has already been adjusted is adjusted by the rotation adjustment of the viewfinder section 60. There is no change.
[0114]
Then, the viewfinder unit 60 rotates about the shaft member 15A inserted through a shaft hole 60B formed on the side opposite to the side where the viewfinder viewing window 14 is formed, with respect to the viewfinder housing unit 12B. As a result, the viewfinder viewing window 14 of the viewfinder unit 60 appears at a position separated from the viewfinder storage unit 12B. The video camera body 10 excluding the viewfinder unit 60 can be easily peeped without putting a face on the video camera body 10.
[0115]
Note that FIG. 5 illustrates the rotation adjustment relationship between the grip direction G, the shooting direction S, and the viewfinder viewing direction F in the video camera 201 according to the present embodiment with a typical shooting posture as an example. Since it is the same as the case of the video camera 101 of the first embodiment, a detailed description thereof will be omitted.
[0116]
Further, the respective states of the photographing direction S, the grip direction G, and the viewfinder viewing direction F of the video camera 201 shown in FIG. 9 described above are the respective parts of the video camera body 10 in the case of the low-profile photographing shown in FIG. The state of is shown.
[0117]
As described above, also in the video camera 201 of the present embodiment, the video camera main body 10 is positioned above the main body gripping portion 11 and the main body gripping portion 11 so that the grip direction G intersects the shooting direction S and the viewfinder viewing direction F. A video camera 201 generally includes a camera unit 12 including a lens unit 50 and a viewfinder unit 60, which are integrally disposed. The video camera 201 has a grip direction G, a shooting direction, S, the relative angle between the viewfinder viewing directions F can be arbitrarily adjusted so that the photographer P can easily operate.
[0118]
[Third Embodiment]
The configuration of a shooting-type video camera 301 according to the third embodiment will be described with reference to the drawings.
[0119]
In the description, the same components as those of the video cameras 101 and 201 of the first and second embodiments described above are denoted by the same reference numerals, and the description thereof is partially omitted.
[0120]
Further, regarding the external perspective view of the video camera 301 of the present embodiment viewed from the finder viewing window side, the external perspective view of the video camera 101 of the first embodiment shown in FIG. 1 and FIG. 4 viewed from the finder viewing window side. Since it is not different from the figure, description will be made with reference to FIGS.
[0121]
As shown in FIG. 1, a video camera 301 according to the present embodiment has a video camera main body 10 which is generally configured by a main body holding portion 11 and a camera portion 12 integrally arranged above the main body holding portion 11. ing.
[0122]
The main body grip unit 11 includes a recording medium storage unit 20 for storing a recording medium for recording a captured image, a monitor unit 30 for confirming a captured image, and various operation switches such as a start / stop switch 41 and a zoom-in / zoom-out switch 42. And the like, and a pair of support frames 11B extending upward from the upper surface of the grip 11A.
[0123]
FIG. 10 is a side view of the video camera main body in which one support frame portion is removed from the video camera of the present embodiment.
[0124]
FIG. 11 is a cross-sectional view of the camera unit of the video camera according to the present embodiment.
As shown in FIG. 10, one side 12a of the camera section 12 is a lens section storage section 12A having a lens opening 13 opened at an end face, and the other side 12b is a viewfinder section storage section 12B.
[0125]
As viewed from the side of the video camera body 10, the viewfinder section storage section 12 </ b> B has a diameter substantially the same as that of the arc-shaped peripheral portions 11 </ b> Bb of the pair of support frames 11 </ b> B of the body gripping section 11 described above, as shown in FIG. The center angle is formed in an arc shape with an obtuse angle, and a circumferential end face 12C is formed on the other side 12b of the camera section 12.
[0126]
As shown in FIGS. 1 and 11, a viewing window moving hole 12D is formed in the circumferential end surface 12C so as to extend in the circumferential direction, and a finder viewing window 14 provided in a view finder unit 60 described later is provided with a viewing window. It is configured to be movable along the moving hole 12D.
[0127]
As shown in FIG. 11, a lens unit 50 is housed coaxially with the lens opening 13 in the lens unit housing 12A of the camera unit 12 configured as described above, and a viewfinder unit housing 12B of the camera unit 12 is provided. The viewfinder unit 60 is housed inside.
[0128]
The viewfinder section 60 is configured such that the viewing lens 62 side has an arc-shaped peripheral edge portion 11Bb of the pair of support frame portions 11B of the main body holding section 11 and the camera section 12 with respect to the arrangement direction of the small liquid crystal display element 61 and the viewing lens 62. The circumferential surface 60A has substantially the same diameter as the circumferential end surface 12C formed on the other side 12b (see FIG. 1). The viewfinder viewing window 14 is formed in a portion of the circumferential surface 60A where the axes of the arrangement directions of the small liquid crystal display element 61 and the viewing lens 62 intersect. The finder viewing window 14 is arranged at a substantially intermediate position on the circumferential surface 60A in the circumferential direction.
[0129]
Here, as shown in FIG. 11, the view finder section 60 on the other end side 12 b of the camera section 12 is interlocked with the view finder section storage section 12 B of the camera section 12, and a pair of support frame sections of the main body gripping section 11. 11B so as to be rotatable.
[0130]
In the case of the present embodiment, each of the opposing walls of the pair of support frame portions 11B of the main body holding portion 11 has a shaft hole 11D formed with a key groove corresponding to the arc center position of the arc-shaped peripheral edge portion 11Bb. Is provided.
[0131]
In addition, shaft holes 12E are provided on both side surfaces of the viewfinder housing 12B of the camera unit 12 in correspondence with the center of the arc of the circumferential end surface 12C.
Further, both side walls of the viewfinder section 60 are provided with shaft holes 60B in which key grooves are formed, respectively, corresponding to the center positions of the arcs of the circumferential surface 60A.
[0132]
One of the support frame portions 11B1 of the pair of support frame portions 11B of the main body holding portion 11 and the viewfinder portion storage portion 12B of the camera portion 12 have the shaft holes 11D and 12E facing each other. The shaft members 15C are provided so as to be inserted through both the shaft holes 11D and 12E so as to be rotatable relative to each other.
[0133]
At this time, in the present embodiment, the support frame 11B1 is prevented from rotating with respect to the shaft member 15C by the key member 19 attached to the key groove of the shaft hole 11D. The viewfinder housing section 12B of the camera section 12 is configured to rotate around the shaft member 15C that rotates integrally with the main body holding section 11, while the viewfinder section storage section 12B of the camera section 12 is configured to rotate integrally with the shaft member 15C. It has become.
[0134]
At one end of the shaft member 15C located in the support frame portion 11B1, a retaining member 16A formed of a retaining ring or the like is mounted via a bush 18 to prevent the shaft member 15C from falling off.
[0135]
On the other hand, the other end of the shaft member 15C located in the viewfinder housing 12B of the camera unit 12 is connected to the viewfinder 60 via a bearing 12F formed in the viewfinder housing 12B. Is inserted through the shaft hole 60B of one of the opposite side walls. On the other end side of the shaft member 15C located in the viewfinder section 60, a retaining member 16C is attached and retained.
Thus, the viewfinder unit 60 is attached to the shaft member 15C so as to be rotatable around the shaft member 15C.
[0136]
The support frame portion 11B2 of the pair of support frame portions 11B of the main body holding portion 11 and the viewfinder portion storage portion 12B of the camera portion 12 are both set with the shaft holes 11D and 12E facing each other. The shaft members 15D are provided so as to be inserted through the shaft holes 11D and 12E, and are rotatably mounted to each other.
[0137]
At this time, in the present embodiment, the support frame portion 11B2 is prevented from rotating with respect to the shaft member 15D by the key member 19 attached to the key groove of the shaft hole 11D. It is configured to rotate integrally with the shaft member 15D.
[0138]
At one end of the shaft member 15D located in the support frame 11B, a retaining member 16A formed of a retaining ring or the like is mounted via a bush 18 to prevent the shaft member 15D from falling off.
[0139]
On the other hand, the first gear 71 is fixed to the other end side of the shaft member 15D which is inserted into the shaft hole 12E of the viewfinder section storage section 12B and is located in the viewfinder section storage section 12B of the camera section 12. The first gear 71 is configured to rotate integrally with the body holding portion 11 provided with the support frame portion 11B2 with respect to the viewfinder portion storage portion 12B via the shaft member 15D. I have.
As a result, the viewfinder section storage section 12B is attached to the main body holding section 11 integral with the shaft member 15D so as to be rotatable around the shaft member 15D.
[0140]
A shaft member 15E is provided to be inserted into a shaft hole 60B in the other side wall of the viewfinder section 60.
At one end of the shaft member 15E located in the viewfinder portion 60, a retaining member 16C made of a retaining ring or the like is attached via a bush 18 to prevent the shaft member 15E from coming off. When the key member 19 is mounted, the viewfinder unit 60 is configured to rotate integrally with the shaft member 15E.
[0141]
On the other hand, the other end side of the shaft member 15E located in the viewfinder section housing section 12B outside the viewfinder section 60 is axially supported by a bearing section 12F formed in the viewfinder section housing section 12B. The second gear 72 is fixed. The second gear 72 is configured to rotate integrally with the viewfinder unit 60 via the shaft member 15E.
[0142]
As a result, the main body gripping portion 11 and the viewfinder portion 60 are provided with respect to the viewfinder portion storage portion 12B so that the shaft hole 12E formed at the center of the arc of the circumferential end surface 12C formed on the other side 12b of the camera portion 12 is formed. , And rotate on the same axis. The first gear 71 and the second gear 72 are configured to rotate in accordance with the amounts of rotation of the main body grip 11 and the viewfinder 60, respectively.
[0143]
In addition, in the case of the present embodiment, a shaft hole 12G is provided in the viewfinder housing 12B of the camera unit 12 at a position different from that of the shaft hole 12E. The shaft member 15F is rotatably inserted into the shaft hole 12G.
[0144]
One end of the shaft member 15F, located inside the camera housing space 11C outside the viewfinder housing 12B, is secured by a retaining member 16B made of a retaining ring or the like via a bush 18 to prevent the shaft member 15F from coming off. The section storage section 12B is configured to move integrally with the shaft member 15F.
[0145]
On the other hand, a third gear 73 is fixed to the other end side of the shaft member 15F located in the viewfinder unit housing portion 12B, and the third gear 73 is connected to the view member via the shaft member 15F. It is configured to revolve around each of the shaft member 15C and the shaft member 15D that are inserted into the shaft hole 12E integrally with the finder housing section 12B.
[0146]
Further, the third gear 73 meshes with either the first gear 71 or the second gear 72 to rotate one side of the first gear 71 or the second gear 72 to the first gear 71. The transmission is performed to the other side of the first gear 71 or the second gear 72.
[0147]
With the above-described configuration, the video camera 301 of the present embodiment includes the viewfinder unit 60 of the camera unit 12, the lens unit storage unit 12 </ b> A and the viewfinder storage unit as the camera unit 12 other than the viewfinder unit 60. The part 12B is configured to be rotatable coaxially (on the shaft member 15) with respect to the main body gripping part 11 while interlocking with each other, and can maintain its rotational posture at a desired rotational position. It has become.
[0148]
The operation of the video camera 301 according to the present embodiment configured as described above will be described.
[0149]
FIG. 12 is an explanatory diagram of the rotation adjustment of each part of the video camera shown in FIG.
As shown in FIG. 12, according to the video camera 301 of the present embodiment, the photographer P views the peripheral surface of the grip portion 11A of the main body grip portion 11 of the video camera main body 10 in a manner similar to grasping the grip of the pistol. The video camera body 10 is supported by grasping the window 14 side by hand.
[0150]
The photographer P grasps the main body grip 11 while confirming the photographed image by directing the lens opening 13 directly to the subject and looking through the viewfinder 60 through the viewfinder viewing window 14 of the viewfinder 60. The subject is photographed by operating the start / stop switch 41 and the like with the finger of the hand holding the unit 11A.
[0151]
At this time, the main body gripping portion 11, the lens portion 50 of the camera portion 12, and the viewfinder portion 60 are rotated around the shaft members 15C to 15E by the shaft members 15C to 15F (see FIG. 11), respectively, while being interlocked with each other. Since it is configured to be movable, the grip direction G defined by the extending direction of the grip portion 11A of the main body grip portion 11 and the axial direction of the lens opening 13 of the camera portion 12, that is, the optical axis of the lens portion 50 The first gear 71, the second gear 72, and the photographing direction S defined by the direction and the viewfinder viewing direction F defined by the opening direction of the viewfinder viewing window 14 of the viewfinder unit 60 are defined in the same plane. And a predetermined angular relationship determined by the gear ratio of the third gear 73.
[0152]
In FIG. 12, the shooting direction S and the viewfinder viewing direction F, which are indicated by solid lines in FIG. 12, are opposite, and the grip direction G forms angles r10 and r20 with respect to the shooting direction S and the viewfinder viewing direction F (FIG. 12, the main body is gripped so that the angle r10 between the photographing direction S and the grip direction G is increased by an angle Δr from the reference state and is expanded to an angle r12 (= r10 + Δr). This shows a case where the lens unit 50 of the camera unit 12 is rotated and adjusted with respect to the grip unit 11A of the unit 11.
[0153]
Along with this rotation, the viewfinder viewing direction F opposite to the shooting direction S is turned toward the grip direction G by an angle Δr, and the initial angle r20 between the viewfinder viewing direction F and the grip direction G is left as it is. Decreases by the angle Δr, and the finder viewing direction F and the gripping direction G attempt to approach each other.
[0154]
However, in the video camera 301 of the present embodiment, the viewfinder section 60 of the camera section 12 and the lens section storage section 12A and the viewfinder storage section 12B as the other camera sections 12 excluding the viewfinder section 60 are provided. The first gear 71, the second gear 72, and the third gear 73 rotate in conjunction with the main body holding portion 11.
[0155]
Thereby, the lens of the camera unit 12 with respect to the grip unit 11A of the main body grip unit 11 such that the initial angle r10 between the shooting direction S and the grip direction G is expanded by the angle Δr from the above-described reference state. When the rotation of the unit 50 is adjusted, the amount of rotation is transmitted to the viewfinder unit 60 via the first gear 71, the third gear 73, and the second gear 72 in this order, and the viewfinder viewing direction F and the grip The viewfinder 60 is held relative to the grip 11A of the main body grip 11 so that the initial angle r20 between the direction G and the angle 減少 r is reduced to prevent the finder viewing direction F and the gripping direction G from approaching each other. Also rotates interlockingly so as to expand between the finder viewing direction F and the gripping direction G, for example, by an angle Δr.
[0156]
On the other hand, conversely, from the reference state, the grip portion 11A of the main body grip portion 11 is moved so that the angle r10 between the shooting direction S and the grip direction G is reduced by the angle △ r and reduced to the angle r12. When the lens unit 50 of the camera unit 12 is rotated and adjusted, the viewfinder viewing direction F opposite to the shooting direction S is rotated so as to be separated from the grip direction G by an angle Δr. The initial angle r20 between the viewing direction F and the gripping direction G increases by an angle Δr, and the finder viewing direction F and the gripping direction G tend to separate.
[0157]
However, in the video camera 301 of the present embodiment, the first gear 71, the second gear 72, and the third gear 73 cause the initial angle r20 between the finder viewing direction F and the grip direction G to be the angle △. The view finder 60 also moves between the finder viewing direction F and the gripping direction G with respect to the grip 11A of the main body gripping portion 11 so as to prevent the finder viewing direction F from being separated from the gripping direction G by increasing by r. The rotation is performed in conjunction with each other so as to reduce the distance by, for example, the angle Δr.
[0158]
Therefore, according to the video camera 301 of the present embodiment, as illustrated in FIG. 12, the grip direction G, the photographing direction S, and the viewfinder viewing direction F have an arbitrary angular relationship with each other in the same plane. Since the adjustment can be performed, the grip direction G and the viewfinder viewing direction F can be adjusted in a direction that is easy to grasp in relation to the imaging direction S, corresponding to various imaging postures.
[0159]
At this time, the photographer P can easily grip the grip 11A of the main body grip 11 by gripping the grip 11A of the main body grip 11 and rotating the lens unit 50 of the camera 12. Is set, the viewfinder unit 60 is also automatically rotated and adjusted so that the photographer P can easily view the finder viewing window 14, so that the grip unit 11A of the main body grip unit 11 is gripped and the camera unit Since it is not necessary to individually adjust the rotation of the lens unit 50 and the viewfinder unit 12 with respect to the main body holding unit 11, the adjustment work is also easy.
[0160]
FIG. 5 is a diagram illustrating a rotational adjustment relationship between the grip direction G, the photographing direction S, and the viewfinder viewing direction F in the video camera 301 according to the present embodiment with a typical photographing posture as an example. Since it is the same as the case of the video camera 101 of the first embodiment, a detailed description thereof will be omitted.
[0161]
As described above, also with the video camera 301 of the present embodiment, the video camera main body 10 is positioned above the main body grip 11 and the main body grip 11 so that the grip direction G intersects the shooting direction S and the viewfinder viewing direction F. A video camera 301 generally comprising a camera unit 12 provided with a lens unit 50 and a viewfinder unit 60, which are integrally disposed, and a grip direction G, a shooting direction S, the relative angle between the viewfinder viewing directions F can be arbitrarily adjusted so that the photographer P can easily operate.
[0162]
[Fourth Embodiment]
The configuration of a shooting-type video camera 401 according to the fourth embodiment will be described with reference to the drawings.
[0163]
In the description, the same components as those of the video cameras 101, 201, 301 of the above-described first, second, and third embodiments are denoted by the same reference numerals, and the description thereof will be omitted. Omitted.
[0164]
Further, regarding the external perspective view of the video camera 401 of the present embodiment viewed from the finder viewing window side, the external perspective view of the video camera 201 of the second embodiment shown in FIG. 6 and FIG. 9 viewed from the finder viewing window side. Since it is not different from the figure, description will be made with reference to FIGS.
[0165]
As shown in FIG. 6, the video camera 401 of the present embodiment has a video camera main body 10 which is roughly composed of a main body gripping part 11 and a camera part 12 integrally arranged above the main body gripping part 11. ing.
[0166]
The main body holding unit 11 includes a recording medium storage unit 20 for storing a recording medium for recording a captured image, a monitor unit 30 for confirming a captured image, a start / stop switch 41, and a zoom-in / zoom-out switch 42 (see FIG. 2)) and a pair of support frame portions 11B extending upward from the upper surface of the grip portion 11A.
[0167]
FIG. 13 is a side view of the video camera main body with one support frame portion removed from the video camera of the present embodiment.
[0168]
FIG. 14 is a cross-sectional view of the camera unit of the video camera according to the present embodiment.
As shown in FIG. 13, one side 12a of the camera section 12 is a lens section storage section 12A having a lens opening 13 opened at an end face, and the other side 12b is a viewfinder section storage section 12B.
[0169]
As viewed from the side of the video camera body 10, the viewfinder section storage section 12B has substantially the same diameter as the arc-shaped peripheral portions 11Bb of the pair of support frames 11B of the body gripping section 11 as shown in FIG. The center angle is formed in an arc shape with an obtuse angle, and a circumferential end face 12C is formed on the other side 12b of the camera section 12.
[0170]
As shown in FIGS. 6 and 14, a viewing window storage hole 12 </ b> D is formed in the circumferential end surface 12 </ b> C so as to extend in the circumferential direction thereof. It is configured to be able to protrude and retract from the storage hole 12D.
[0171]
As shown in FIG. 14, a lens unit 50 having a photographic lens 51 and a CCD image pickup device 52 is accommodated in the lens unit storage unit 12A of the camera unit 12 configured as described above, coaxially with the lens opening 13. Have been.
[0172]
A viewfinder unit 60 for checking a captured image, which includes a small liquid crystal display element 61 and a visible lens 62, is stored in the viewfinder unit storage unit 12B of the camera unit 12.
[0173]
As shown in FIG. 13, the viewfinder section 60 has a length smaller than the diameter of the circumferential end face 12C of the viewfinder section housing section 12B in the arrangement direction of the small liquid crystal display element 61 and the viewing lens 62, as shown in FIG. As shown in FIG. 14, a shaft hole 60 </ b> B in which a key groove is formed is formed on both sides on the side where the small liquid crystal display element 61 is disposed, and a finder viewing window 14 is provided on the end face on which the viewing lens 62 is disposed. Is formed. As shown in FIG. 13, the upper surface extending along the direction in which the small liquid crystal display element 61 and the viewing lens 62 are arranged is connected to the two side surfaces of the viewfinder unit 60. An arc-shaped peripheral portion 11Bb in 11B and a circumferential surface 60A having substantially the same diameter as a circumferential end surface 12C formed on the other side 12b of the camera section 12 are formed. In addition, the viewfinder unit 60 divides its circumferential surface 60 </ b> A into a circular arc-shaped peripheral portion 11 </ b> Bb of the pair of support frames 11 </ b> B of the main body gripping unit 11 and the other side 12 b of the camera unit 12. The viewfinder viewing window 14 is hidden from the outside along the end face 12C, and is stored in the viewfinder unit storage unit 12B.
[0174]
For this purpose, as shown in FIG. 13, the circumferential surface 60 </ b> A of the viewfinder unit 60 is formed on an arc-shaped peripheral portion 11 </ b> Bb of the pair of support frames 11 </ b> B of the main body holding unit 11 and the other side 12 b of the camera unit 12. In the arrangement state along the formed circumferential end surface 12C, the shaft holes 60B on both side surfaces of the viewfinder unit 60 are opposed to each other, and a long hole-shaped shaft hole 12E1 (FIG. 14).
[0175]
As shown in FIG. 14, the viewfinder unit 60 and the viewfinder storage unit 12B of the camera unit 12 are inserted through the shaft holes 60B and 12E1 with the shaft holes 60B and 12E1 facing each other. The shaft members 15G and 15H provided so as to be rotatable with each other.
[0176]
One end of each of the shaft members 15G and 15H located in the camera housing space 11C outside the viewfinder housing 12B is provided with a retaining member 16A1 formed of a retaining ring or the like, and is prevented from coming off. It is attached movably along the elongated hole shape. On the other hand, on the other end side located in the viewfinder section 60, a retaining member 16B made of a retaining ring or the like is mounted via a bush 18 to prevent the retaining member 16B from coming off. A key member 19 is mounted. Further, the shaft member 15H on the support frame portion 11B2 side of the pair of support frame portions 11B of the main body holding portion 11 that defines the camera portion storage space 11C has an intermediate portion located in the viewfinder portion storage portion 12B. , A second gear 72 is fixed.
[0177]
Thus, the viewfinder unit 60 is configured to rotate integrally with the shaft members 15G and 15H with respect to the main body holding unit 11 provided with the pair of support frames 11B. The rotation of the viewfinder unit 60 with respect to the main body holding unit 11 is transmitted to the second gear 72, and the viewfinder unit storage unit 12B is configured to rotate around the shaft members 15G and 15H. .
[0178]
Further, since the shaft members 15G and 15H can move in the shaft hole 12E1 along the long hole-shaped shaft hole 12E1 of the side surface of the viewfinder unit storage portion 12B, the viewfinder 60 is provided with the viewfinder. The rotation center position with respect to the section storage section 12B is shifted.
[0179]
The shaft members 15G and 15H in the elongated hole 12E1 are provided with an engagement / disengagement mechanism provided with an urging means such as a spring (not shown). Is positioned so as to be located on one of the sides.
[0180]
Further, each of the opposing wall portions of the pair of support frame portions 11B of the main body holding portion 11 is provided with a shaft hole 11D in which a key groove is formed, corresponding to the arc center position of the arc-shaped peripheral portion 11Bb. Similarly, shaft holes 12E2 are provided on both side surfaces of the viewfinder housing 12B of the camera unit 12 so as to correspond to the center of the arc of the circumferential end surface 12C.
[0181]
The pair of support frame portions 11B of the main body gripping portion 11 and the viewfinder portion storage portion 12B of the camera portion 12 have both shaft holes 11D and 12E with the shaft holes 11D and 12E2 facing each other. The shaft members 15I and 15J are provided so as to be rotatable with each other.
[0182]
At one end of each of the shaft members 15I and 15J, which are located in the support frame portions 11B1 and 11B2, a retaining member 16A2 made of a retaining ring or the like is mounted via a bush 18 to prevent the shaft members 15I and 15J from coming off. A key member 19 is mounted in the key groove and is prevented from rotating.
[0183]
The shaft member 15I provided on the support frame portion 11B1 side of the main body holding portion 11 has a retaining member 16B formed of a retaining ring or the like at the other end located in the viewfinder storage portion 12B via a bush 18. The shaft member 15J provided on the support frame portion 11B2 side of the main body holding portion 11 has a first gear 71 on the other end side located in the viewfinder portion storage portion 12B while being attached and prevented from falling off. It is fixed.
[0184]
Thus, the viewfinder unit storage unit 12B is configured to rotate around the shaft members 15I and 15J that are prevented from rotating by the pair of support frame units 11B provided on the main body gripping unit 11. Then, the rotation of the main body holding portion 11 with respect to the lens portion storage portion 12A and the viewfinder portion storage portion 12B can be taken out by the first gear 71.
[0185]
Further, on the side surface of the view finder section housing section 12B corresponding to the support frame section 11B2 side of the main body holding section 11, the shaft hole 12E3 (not shown) is located between the above-described shaft holes 12E1 and 12E2. Is provided.
[0186]
A shaft member 15K is rotatably inserted into the shaft hole 12E3, and a stopper member 16A3 formed of a retaining ring or the like is attached to one end of the shaft member 15K located in the camera housing space 11C to prevent the shaft member 15K from falling off. Further, a third gear 73 is fixed to the other end side of the shaft member 15K located in the viewfinder unit storage section 12B, and the third gear 73 is composed of a first gear 71 and a second gear. 72 are meshed with each other, and both are linked.
[0187]
The viewfinder section housing section 12B is configured to revolve around the first gear 71 integrally with the third gear 73 via a shaft member 15K to which the third gear 73 is fixed. . In this case, the viewfinder unit 60 also revolves around the first gear 71 together with the viewfinder unit storage unit 12B.
[0188]
In this case, as shown in FIG. 13, the second gear 72 is in a state in which the viewfinder viewing window 14 in which the circumferential surface 60A of the viewfinder unit 60 is overlapped with the circumferential end surface 12C of the camera unit 12 is hidden. After that, until the viewfinder viewing window 14 of the viewfinder unit 60 is once turned to the opposite side to the lens opening 13 of the camera unit 12, the operation of the above-described engaging and disengaging mechanism causes the viewfinder unit storage unit 12 </ b> B to operate. It is located on the other side of the elongated hole 12E1 and does not mesh with the third gear 73. Thereafter, until the photographer P operates the engagement / disengagement mechanism, the elongated hole shape of the viewfinder unit storage unit 12B is formed. The shaft hole 12E1 is positioned on one side and meshes with the third gear 73.
[0189]
From the configurations described above, the video camera 401 according to the present embodiment includes the viewfinder unit 60 of the camera unit 12, the lens unit storage unit 12 </ b> A and the viewfinder storage unit as the other camera units 12 excluding the viewfinder unit 60. The part 12B is configured to be rotatable on different axes (shaft members 15G, 15H, 15I, 15J) while being interlocked with the main body gripping part 11, and to rotate at a desired rotation position. The moving posture can be maintained.
[0190]
The operation of the video camera 401 configured as described above according to the present embodiment will be described.
[0191]
FIG. 15 is an explanatory diagram of the rotation adjustment of each part of the video camera shown in FIG.
As shown in FIG. 15, according to the video camera 401 of the present embodiment, the photographer P views the peripheral surface of the grip 11A of the main body grip 11 of the video camera main body 10 in the manner of grasping the grip of the pistol. The video camera body 10 is supported by grasping the window 14 side by hand.
[0192]
Then, the photographer P looks through the viewfinder unit 60 from the viewfinder viewing window 14 of the viewfinder unit 60, which is made to face the subject with the lens opening 13 facing out of the viewfinder unit storage unit 12B of the video camera body 10. Thus, while confirming the photographed image, the start / stop switch 41 and the like are operated with the finger of the hand gripping the grip portion 11A of the main body grasping portion 11 to photograph the subject.
[0193]
At this time, the main body grip 11, the lens unit 50 of the camera unit 12, and the viewfinder unit 60 are turned around the shaft members 15G to 15I by the shaft members 15G to 15K (see FIG. 14), respectively. Since it is configured to be movable, the grip direction G defined by the extending direction of the grip portion 11A of the main body grip portion 11 and the axial direction of the lens opening 13 of the camera portion 12, that is, the optical axis of the lens portion 50 The first gear 71, the second gear 72, and the photographing direction S defined by the direction and the viewfinder viewing direction F defined by the opening direction of the viewfinder viewing window 14 of the viewfinder unit 60 are defined in the same plane. And a predetermined angular relationship determined by the gear ratio of the third gear 73.
[0194]
In FIG. 15, the shooting direction S and the viewfinder viewing direction F shown by solid lines in FIG. 15 are opposite directions, and the grip direction G forms angles r10 and r20 with respect to the shooting direction S and the viewfinder viewing direction F (FIG. 12, the main body is gripped so that the angle r10 between the photographing direction S and the grip direction G is increased by an angle Δr from the reference state and is expanded to an angle r12 (= r10 + Δr). This shows a case where the lens unit 50 of the camera unit 12 is rotated and adjusted with respect to the grip unit 11A of the unit 11.
[0195]
Along with this rotation, the viewfinder viewing direction F opposite to the shooting direction S is turned toward the grip direction G by an angle Δr, and the initial angle r20 between the viewfinder viewing direction F and the grip direction G is left as it is. Decreases by the angle Δr, and the finder viewing direction F and the gripping direction G attempt to approach each other.
[0196]
However, in the video camera 401 of the present embodiment, the viewfinder section 60 of the camera section 12 and the lens section storage section 12A and the viewfinder storage section 12B as the other camera sections 12 excluding the viewfinder section 60 are provided. , The first gear 71, the second gear 72, and the third gear 73 rotate in conjunction with the main body holding portion 11.
[0197]
Thereby, when the lens unit 50 of the camera unit 12 is rotationally adjusted with respect to the grip unit 11A of the main body grip unit 11 so as to expand between the shooting direction S and the grip direction G from the above-described reference state. The amount of rotation is transmitted to the viewfinder 60 via the first gear 71, the third gear 73, and the second gear 72 in this order, and the angle r20 between the finder viewing direction F and the grip direction G is determined. In order to prevent the viewfinder viewing direction F and the gripping direction G from approaching each other by decreasing by the angle Δr, the viewfinder 60 also moves in the viewfinder viewing direction F and the gripping direction G with respect to the grip portion 11A of the main body holding portion 11. , For example, in order to reduce the angle △ r by the amount of the decrease, the interlocking is performed so as to expand.
[0198]
On the other hand, conversely, from the reference state, the grip portion 11A of the main body grip portion 11 is moved so that the angle r10 between the shooting direction S and the grip direction G is reduced by the angle △ r and reduced to the angle r12. When the lens unit 50 of the camera unit 12 is rotated and adjusted, the viewfinder viewing direction F opposite to the shooting direction S is rotated so as to be separated from the grip direction G by an angle Δr. The initial angle r20 between the viewing direction F and the gripping direction G increases by an angle Δr, and the finder viewing direction F and the gripping direction G tend to separate.
[0199]
However, in the video camera 401 of the present embodiment, the first gear 71, the second gear 72, and the third gear 73 allow the angle r20 between the finder viewing direction F and the grip direction G to be an angle Δr. The viewfinder 60 also moves between the finder viewing direction F and the gripping direction G with respect to the grip 11A of the main body holding portion 11 so as to prevent the viewfinder viewing direction F and the gripping direction G from separating from each other. For example, in order to reduce the angle Δr of the increase, the rotation is performed in conjunction with the reduction.
[0200]
Therefore, according to the video camera 401 of the present embodiment, as illustrated in FIG. 15, the grip direction G, the photographing direction S, and the viewfinder viewing direction F have an arbitrary angular relationship with each other within the same plane. Since the adjustment can be performed, the grip direction G and the viewfinder viewing direction F can be adjusted in a direction that is easy to grasp in relation to the imaging direction S, corresponding to various imaging postures.
[0201]
At this time, the photographer P can easily grip the grip 11A of the main body grip 11 by gripping the grip 11A of the main body grip 11 and rotating the lens unit 50 of the camera 12. Is set, the viewfinder unit 60 is also automatically rotated and adjusted so that the photographer P can easily view the finder viewing window 14, so that the grip unit 11A of the main body grip unit 11 is gripped and the camera unit Since it is not necessary to individually adjust the rotation of the lens unit 50 and the viewfinder unit 12 with respect to the main body holding unit 11, the adjustment work is also easy.
[0202]
In addition, in the case of the video camera 401 of the present embodiment, when the video camera 401 is not used, the viewfinder unit 60 is housed in the viewfinder unit storage unit 12B from the viewing window storage hole 12D of the video camera body 10, Since the finder viewing window 14 can be hidden, dirt and scratches on the finder viewing window 14 can be prevented.
[0203]
When the photographer P looks through the finder viewing window 14, the video camera excluding the view finder portion 60 appears because the viewfinder viewing window 14 appears at a position separated from the viewfinder storage unit 12 </ b> B. It becomes easy to look in without the face touching the main body 10.
[0204]
Note that FIG. 5 illustrates the rotational adjustment relationship between the grip direction G, the photographing direction S, and the viewfinder viewing direction F in the video camera 401 according to the present embodiment, taking a representative photographing posture as an example. Since it is the same as the case of the video camera 101 of the first embodiment, a detailed description thereof will be omitted.
[0205]
As described above, also with the video camera 401 of the present embodiment, the video camera main body 10 is positioned above the main body gripping portion 11 and the main body gripping portion 11 such that the grip direction G intersects the shooting direction S and the viewfinder viewing direction F. A video camera 401 generally comprising a camera unit 12 including a lens unit 50 and a viewfinder unit 60, which are integrally disposed, and a grip direction G, a shooting direction S, the relative angle between the viewfinder viewing directions F can be arbitrarily adjusted so that the photographer P can easily operate.
[0206]
[Fifth Embodiment]
The configuration of a shooting-type video camera 501 according to the fifth embodiment will be described with reference to the drawings.
[0207]
In the description, the same components as those of the video cameras 101, 201, 301, and 401 of the first, second, third, and fourth embodiments described above, and the corresponding components are denoted by the same reference numerals. The description is partially omitted.
[0208]
FIG. 16 is an external perspective view of the shooting-type video camera of the fifth embodiment viewed from the viewfinder viewing window side.
[0209]
FIG. 17 is an external perspective view of the video camera shown in FIG. 16 in a state where the viewfinder viewing window appears, as viewed from the viewfinder viewing window side.
[0210]
FIG. 18 is a longitudinal sectional view of the video camera shown in FIG.
[0211]
FIG. 19 is a longitudinal sectional view of the video camera shown in FIG. 16 viewed from a different direction from FIG.
[0212]
In the video camera 501 of the present embodiment, the video camera main body 10 is roughly constituted by a main body holding portion 11 and a camera portion 12 integrally arranged above the main body holding portion 11.
[0213]
The main body grip 11 is provided with a recording medium storage unit 20 for storing a recording medium for recording a captured image, a monitor unit 30 for confirming the captured image, and various operation switches such as a start / stop switch 41. It is composed of a rectangular parallelepiped grip portion 11A and a pair of support frame portions 11B extending upward from the upper surface of the grip portion 11A.
[0214]
When viewed from the side of the video camera body 10, each support frame 11B has a peripheral portion 11Ba on one side formed into a tapered shape, and a peripheral portion 11Bb on the other side has an obtuse central angle connected to the peripheral portion 11Ba. It is formed in an arc shape.
[0215]
In one support frame 11B, a viewfinder appearance hole 11F (see FIG. 18) penetrates and is formed concentrically with the arc center of the arc-shaped peripheral portion 11Bb.
[0216]
The space formed by the upper surface of the grip portion 11A of the main body grip portion 11 and the opposing wall surfaces of the pair of support frame portions 11B forms a camera unit accommodation space 11C. The other end side 12b of the camera unit 12 is accommodated in the camera unit accommodation space 11C.
[0219]
As shown in FIG. 19, one side 12a of the camera section 12 is a lens section storage section 12A having a lens opening 13 opened at an end face, and the other side 12b is a viewfinder section storage section 12B.
[0218]
As viewed from the side of the video camera body 10, the viewfinder section storage section 12 </ b> B has substantially the same diameter as the arc-shaped peripheral edge section 11 </ b> Bb of the pair of support frame sections 11 </ b> B of the main body holding section 11 as shown in FIG. The center angle is formed in an arc shape with an obtuse angle, and a circumferential end face 12C is formed on the other side 12b of the camera section 12.
[0219]
A viewfinder appearance hole is provided on a side surface of the viewfinder section housing portion 12B on a side opposite to the one support frame portion 11B in which the viewfinder appearance hole 11F is formed, corresponding to an arc center position of the circumferential end face 12C. A viewfinder storage hole 12D (see FIG. 18) is opened coaxially with 11F. In the case of the present embodiment, the viewfinder storage hole 12D has the same diameter as the viewfinder appearance hole 11F. The viewfinder storage hole 12D and the viewfinder appearance hole 11F described later allow the viewfinder storage hole to be described later. In this configuration, 60 appears and disappears.
[0220]
As shown in FIG. 19, a lens unit 50 having a photographic lens 51 and a CCD image pickup device 52 is accommodated in the lens unit storage unit 12A of the camera unit 12 configured as described above, coaxially with the lens opening 13. Have been.
[0221]
Further, a viewfinder unit 60 having a small liquid crystal display element 61 and a visible lens 62 for confirming a captured image is accommodated in the viewfinder unit storage unit 12 </ b> B of the camera unit 12.
[0222]
As shown in FIG. 18, the viewfinder section 60 has a cylindrical shape slightly smaller in diameter than the viewfinder section storage hole 12D and the viewfinder appearance hole 11F, and one end face in the axial direction is closed to form a lid section 60C. An external gear 60D is formed on the peripheral surface on the other side.
[0223]
Further, as shown in FIG. 19, a small liquid crystal display element 61 and a visible lens 62 are arranged in a radial direction in the viewfinder section 60 configured as described above. A finder viewing window 14 is formed on one of the arranged peripheral walls in the radial direction.
[0224]
As shown in FIG. 18, the viewfinder unit 60 has its lid 60C facing out of the viewfinder unit storage unit 12B, and its gear unit 60D housed in the viewfinder unit storage unit 12B. It is provided telescopically from the section storage hole 12D and the viewfinder appearance hole 11F. The gear section 60D of the viewfinder section 60 also prevents the viewfinder section 60 from dropping out of the viewfinder section storage hole 12D and the viewfinder appearance hole 11F.
[0225]
In the present embodiment, the viewfinder unit 60 is stored in the viewfinder unit storage unit 12B, for example, so that its lid 60C side projects a small amount in the axial direction from the viewfinder appearance hole 11F. Then, the photographer P grips the lid 60C side portion, and the viewfinder viewing window 14 can be made to appear from the viewfinder unit storage unit 12B as shown in FIG.
[0226]
The viewfinder unit 60 is rotatably supported by the viewfinder unit storage hole 12D and the viewfinder appearance hole 11F, and includes a lens unit 50 and the like other than the viewfinder unit 60 of the camera unit 12, and a main body. As shown in FIG. 18, the grip portion 11 is rotatably provided.
[0227]
As shown in FIG. 18 and FIG. 19, in the case of the video camera 501 of the present embodiment, the center of the arc center of the circumferential end face 12C is located on the side wall of the viewfinder housing 12B. An arc-shaped shaft guide hole 12H is provided radially outward of the gear portion 60D.
[0228]
An internal gear 12J is formed on the arc-shaped inner peripheral surface of the viewfinder section storage section 12B, and the viewfinder section storage section 12B, that is, the lens section as another part except the viewfinder section 60 of the camera section 12 is formed. 50 and the like.
[0229]
The shaft guide hole 12H meshes with the gear 60D of the viewfinder 60, and meshes with the gear 12J on the inner peripheral surface of the viewfinder housing 12B. The shaft portion 74B of the gear 74 for interlocking with the shaft 74 is inserted, and the gear 74 is movable along the shaft guide hole 12H. The width of the gear portion 74A of the gear 74 can be set such that the viewfinder portion 60 projects from the viewfinder portion storage hole 12D and the viewfinder appearance hole 11F with the viewfinder viewing window 14 of the viewfinder portion 60 being exposed. , And have a width that can mesh with the gear portion 60D of the viewfinder portion 60.
[0230]
Both ends of the shaft portion 74B of the gear 74 inserted into the shaft guide hole 12H are rotatably supported by bearing holes 11G provided in a pair of support frame portions 11B of the main body holding portion 11, respectively.
[0231]
Therefore, as shown in FIGS. 19 and 20, the lens unit 50 and the viewfinder unit storage in the lens unit storage unit 12 </ b> A other than the viewfinder unit 60 of the camera unit 12 with respect to the main body gripper 11. When the part 12B rotates relatively, the gear 74 supported by the main body gripping part 11 rotates on the gear part 12J formed on the inner peripheral surface along the shaft guide hole 12H of the viewfinder part storage part 12B. While moving. Due to the rotation of the gear 74, the viewfinder 60 where the gear 74 meshes with the gear 60 </ b> D also rotates, and relatively rotates with respect to the main body grip 11.
[0232]
FIG. 20 is a longitudinal sectional view showing another rotation state of the video camera shown in FIG.
From the configurations described above, the video camera 501 according to the present embodiment includes the viewfinder section 60 of the camera section 12, the lens section storage section 12 </ b> A and the viewfinder storage section as the camera sections 12 other than the viewfinder section 60. The part 12B and the main body gripping part 11 are configured to be individually and coaxially rotatable while interlocking with each other, and to be able to hold the rotation posture at a desired rotation position. .
[0233]
The operation of the video camera 501 according to the present embodiment configured as described above will be described.
[0234]
According to the video camera 501 of the present embodiment, the photographer P grasps the peripheral surface of the grip portion 11A of the main body grip portion 11 of the video camera main body 10 from the viewfinder viewing window 14 side by hand in a manner of grasping the grip of the pistol. To support the video camera body 10.
[0235]
Then, the photographer P faces the lens opening 13 with the subject and looks through the viewfinder viewing window 14 of the viewfinder section 60 that has appeared from the viewfinder section housing section 12B of the video camera body 10 to obtain a captured image. Is operated, the start / stop switch 41 and the like are operated with the fingers of the hand gripping the grip portion 11A of the main body grip portion 11, and the subject is photographed.
[0236]
At this time, the main body gripping portion 11, the remaining camera portion 12 including the lens portion 50 and excluding the viewfinder portion 60, and the viewfinder portion 60 can rotate while cooperating with each other with the same rotation center. Therefore, the grip direction G defined by the extending direction of the grip 11A of the main body grip 11 and the axial direction of the lens opening 13 of the camera unit 12, that is, the optical axis direction of the lens unit 50 The defined shooting direction S and the viewfinder viewing direction F defined by the opening direction of the viewfinder viewing window 14 of the viewfinder section 60 are defined by a gear plane 60D of the viewfinder section 60 and a viewfinder section storage section in a parallel plane. It can be adjusted to a predetermined angular relationship determined by the gear ratio of the gear portion 12J on the inner peripheral surface of 12B and the gear 74.
[0237]
FIG. 20 shows a case where the shooting direction S and the viewfinder viewing direction F shown in FIG. 19 are opposite to each other, the angle r1 between the shooting direction S and the grip direction G is an angle r10, and the viewfinder viewing direction F and the grip direction G are different. Is increased from the reference state in which the angle r2 forms the angle r20 by an angle △ r1 between the imaging direction S and the grip direction G, and the angle r1 between the imaging direction S and the grip direction G is increased. The figure shows a case where the lens unit 50 of the camera unit 12 is rotationally adjusted with respect to the grip unit 11A of the main body grip unit 11 so as to expand to an angle r12 (= r10 + △ r).
[0238]
With this rotation, if the viewfinder unit 60 is to be rotated together with the lens unit 50 together with the viewfinder storage unit 12B, the viewfinder viewing direction F opposite to the photographing direction S becomes the angle △. By rotating by r1 to the grip direction G side, the initial angle r20 between the finder viewing direction F and the grip direction G is reduced by the angle △ r1, and the finder viewing direction F and the grip direction G approach.
[0239]
However, in the video camera 501 of the present embodiment, the viewfinder unit 60 of the camera unit 12 and the lens unit storage unit 12A and the viewfinder storage unit 12B as the other camera units 12 excluding the viewfinder unit 60 are included. The viewfinder section 60 is attached to the main body holding section 11 by the gear section 12J on the inner peripheral surface of the viewfinder section storage section 12B, the gear 74 supported by the main body holding section 11, and the gear section 60D of the viewfinder section 60. And rotates in the opposite direction while interlocking with the remaining camera unit 12 except for.
[0240]
Thereby, the lens unit 50 of the camera unit 12 is rotated with respect to the grip unit 11A of the main body grip unit 11 so that the angle r1 between the shooting direction S and the grip direction G is expanded from the above-described reference state. When the movement is adjusted, the rotation amount is transmitted to the view finder unit 60 via the gear unit 12J, the gear 74, and the gear unit 60D in order, and the initial angle r20 between the finder viewing direction F and the grip direction G is set to the angle. The viewfinder 60 is also moved relative to the grip 11A of the main body grip 11 so that the viewfinder viewing direction F and the grip direction G are reduced by Δr2 to prevent the viewfinder viewing direction F and the grip direction G from approaching each other. Is further expanded by, for example, an angle △ r2 from the initial angle r20, and turns in conjunction with the angle r2 to an angle r22.
[0241]
On the other hand, on the contrary, the gripping portion of the main body gripping portion 11 is reduced from the reference state so that the angle r1 between the photographing direction S and the grip direction G is reduced by the angle △ r1 and reduced from the angle r10 to the angle r12. If the lens unit 50 of the camera unit 12 is rotationally adjusted with respect to the lens unit 11A, if the viewfinder unit 60 attempts to rotate together with the lens unit 50 together with the viewfinder storage unit 12B, the shooting direction The viewfinder viewing direction F opposite to S rotates so as to be separated from the grip direction G by an angle Δr1, and the initial angle r20 between the viewfinder viewing direction F and the grip direction G increases by an angle Δr1. Thus, the viewfinder viewing direction F and the gripping direction G tend to separate from each other.
[0242]
However, in the video camera 501 of the present embodiment, the viewfinder is visually recognized by the gear 12J on the inner peripheral surface of the viewfinder housing 12B, the gear 74 mounted on the main body grip 11, and the gear 60D of the viewfinder 60. In order to prevent the angle r20 between the direction F and the grip direction G from increasing by the angle Δr1, the viewfinder viewing direction F and the grip direction G are prevented from being separated from each other. The finder unit 60 also rotates in conjunction with the angle r2 between the finder viewing direction F and the gripping direction G, for example, by reducing the angle r2 from the initial angle r20 by an angle △ r2 to an angle r22.
[0243]
Therefore, according to the video camera 501 of the present embodiment, as illustrated in FIGS. 19 and 20, the grip direction G, the photographing direction S, and the viewfinder viewing direction F can be arbitrarily set mutually in a parallel plane. Since the angle relationship can be adjusted, the grip direction G and the viewfinder viewing direction F can be adjusted in a direction that is easy to grasp in relation to the shooting direction S, corresponding to various shooting postures.
[0244]
At this time, the photographer P can easily grip the grip 11A of the main body grip 11 by gripping the grip 11A of the main body grip 11 and rotating the lens unit 50 of the camera 12. Is set, the viewfinder unit 60 is also automatically rotated and adjusted so that the photographer P can easily view the finder viewing window 14, so that the grip unit 11A of the main body grip unit 11 is gripped and the camera unit Since it is not necessary to individually adjust the rotation of the lens unit 50 and the viewfinder unit 12 with respect to the main body holding unit 11, the adjustment work is also easy.
[0245]
In addition, in the case of the video camera 501 of the present embodiment, when the video camera 501 is not used, the viewfinder unit 60 is housed in the viewfinder unit storage unit 12B from the viewing window storage hole 12D of the video camera body 10, and Since the finder viewing window 14 can be hidden, dirt and damage to the finder viewing window 14 can be prevented.
[0246]
When the photographer P looks through the finder viewing window 14, the video camera excluding the view finder portion 60 appears because the viewfinder viewing window 14 appears at a position separated from the viewfinder storage unit 12 </ b> B. It becomes easy to look in without the face touching the main body 10.
[0247]
Note that FIG. 5 illustrates the rotation adjustment relationship between the grip direction G, the photographing direction S, and the viewfinder viewing direction F in the video camera 501 according to the present embodiment with a typical photographing posture as an example. Since it is the same as the case of the video camera 101 of the first embodiment, a detailed description thereof will be omitted.
[0248]
As described above, also with the video camera 501 of the present embodiment, the video camera main body 10 is positioned above the main body grip 11 and the main body grip 11 so that the grip direction G intersects the shooting direction S and the viewfinder viewing direction F. A video camera 101 generally comprising a camera unit 12 having a lens unit 50 and a viewfinder unit 60, which are integrally disposed, and a grip direction G, a shooting direction S, the relative angle between the viewfinder viewing directions F can be arbitrarily adjusted so that the photographer P can easily operate.
[0249]
As described above, the video camera of the present invention is configured as described in each embodiment, but the specific configuration, shape, and the like of each unit in each embodiment can be variously modified.
[0250]
For example, a specific rotation configuration of the viewfinder unit 60 and the viewfinder unit storage unit 12B, a specific rotation configuration of the viewfinder unit 60 and the viewfinder unit storage unit 12B with respect to the main body holding unit 11, and the like are described in the above embodiment. The configuration and shape are not limited to those shown in the drawings of the embodiments.
[0251]
【The invention's effect】
As described above, according to the present invention, a lens in which a video camera main body is integrally disposed above a main body holding portion and a main body holding portion such that a grip direction intersects a photographing direction and a viewfinder viewing direction. In the video camera, which is generally composed of a camera unit with a camera and a viewfinder unit, the photographer can set the relative angle between the grip direction, the shooting direction, and the viewfinder viewing direction according to the difference in the shooting posture. It can be arbitrarily adjusted to make it easier to operate.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a shooting-type video camera according to a first embodiment as viewed from a finder viewing window side.
FIG. 2 is a side view of the video camera main body with one support frame removed from the video camera of the first embodiment.
FIG. 3 is a cross-sectional view of a camera unit of the video camera according to the first embodiment.
FIG. 4 is an external perspective view of the video camera according to the first embodiment in a state different from the state shown in FIG. 1 when viewed from a finder viewing window side.
FIG. 5 is an explanatory diagram of a rotational adjustment relationship between a photographing direction S, a grip direction G, and a viewfinder viewing direction F taking a representative photographing posture as an example.
FIG. 6 is an external perspective view of the shooting-type video camera according to the second embodiment as viewed from the viewfinder viewing window side.
FIG. 7 is a side view of a video camera body in which one support frame is removed from the video camera according to the second embodiment;
FIG. 8 is a cross-sectional view showing a state where a lens opening of a camera unit of the video camera according to the second embodiment is exposed.
9 is an external perspective view of the video camera according to the second embodiment in a state different from the state shown in FIG. 6 when viewed from the finder viewing window side.
FIG. 10 is a side view of a video camera main body with one support frame removed from the video camera according to the third embodiment.
FIG. 11 is a cross-sectional view of a camera unit of a video camera according to a third embodiment.
FIG. 12 is an explanatory diagram of rotation adjustment of each part of the video camera according to the third embodiment.
FIG. 13 is a side view of a video camera body in which one support frame is removed from the video camera according to the fourth embodiment.
FIG. 14 is a cross-sectional view of a camera unit of a video camera according to a fourth embodiment.
FIG. 15 is an explanatory diagram of rotation adjustment of each part of the video camera according to the fourth embodiment.
FIG. 16 is an external perspective view of a shooting-type video camera according to a fifth embodiment viewed from the viewfinder viewing window side.
FIG. 17 is an external perspective view of the video camera according to the fifth embodiment when viewed from the finder viewing window side with the finder viewing window appearing.
FIG. 18 is a longitudinal sectional view of a video camera according to a fifth embodiment.
FIG. 19 is a longitudinal sectional view of the fifth embodiment viewed from a different direction from FIG. 18;
FIG. 20 is a longitudinal sectional view showing another rotation state of the video camera according to the fifth embodiment.
FIG. 21 is a configuration diagram of an example of a conventional shooting-type video camera.
22 is an explanatory diagram of a grip state by a photographer at the time of photographing with the video camera shown in FIG. 21.
FIG. 23 is an explanatory diagram of a typical shooting posture.
[Explanation of symbols]
101, 201, 301, 401, 501, 601 Video camera
10. Video camera body
11 Main body gripper
11A grip
11B Support frame
11C Camera space
11D shaft hole
11E Shaft hole
11F Viewfinder appearance hole
11G bearing hole
12 Camera section
12A lens section storage section
12B Viewfinder storage
12C circumferential end face
12D viewing window moving hole
12E Shaft hole
12E1 Shaft hole
12E2 Shaft hole
12F3 Bearing
12G shaft hole
12H Shaft guide hole
12J Gear part
13 Lens opening
14 Viewfinder window
15 Shaft member
16 Retaining member
17 Rotation resistance generating member
18 Bush
19 key members
20 Recording medium storage
30 Monitor part
41 Start / Stop switch
42 Zoom-in / zoom-out switch
50 Lens section
51 Shooting lens
52 CCD image sensor
60 Viewfinder
60A circumferential surface
60B Shaft hole
60C lid
60D gear section
60G shaft hole
61 Small liquid crystal display device
62 Visual lens
71 First gear
72 Second gear
73 Third gear
74 gears
S shooting direction
G Grip direction
F Viewfinder viewing direction

Claims (10)

A video camera in which the main body grip and the camera are integrally arranged such that a grip direction of the main body grip intersects a shooting direction and a viewfinder viewing direction of a camera provided with a lens unit and a viewfinder unit. A video camera with a main body,
In the video camera body,
First rotating means for rotating the lens unit of the camera unit with respect to the main body holding unit in a plane parallel to a grip direction of the main body holding unit;
Second rotating means for rotating the viewfinder section of the camera section relative to the main body holding section in a plane parallel to the lens section rotating surface of the camera section by the first rotating section And a video camera. The camera unit, wherein the lens unit and the viewfinder unit are arranged in a row along the shooting direction or the viewfinder viewing direction in a state where the shooting direction and the viewfinder viewing direction are opposite to each other. The video camera according to 1. The video camera according to claim 1, wherein the viewfinder unit is configured to be able to protrude and retract from a housing of the camera unit. The video camera according to claim 3, wherein the viewfinder window of the viewfinder is hidden when the viewfinder is submerged in the housing of the camera. The center of rotation of the lens unit by the first rotating unit coincides with the center of rotation of the viewfinder unit by the second rotating unit, and the lens unit and the viewfinder unit are coaxial. The video camera according to claim 1, wherein the video camera rotates. The center of rotation of the lens unit by the first rotating unit is different from the center of rotation of the viewfinder unit by the second rotating unit, and the lens unit and the viewfinder unit are on different axes. The video camera according to claim 1, wherein the video camera rotates. A video camera in which the main body grip and the camera are integrally arranged such that a grip direction of the main body grip intersects a shooting direction and a viewfinder viewing direction of a camera provided with a lens unit and a viewfinder unit. A video camera with a main body,
In the video camera body,
First rotating means for rotating the lens unit of the camera unit with respect to the main body holding unit in a plane parallel to a grip direction of the main body holding unit;
Second rotating means for rotating the viewfinder section of the camera section with respect to the main body holding section in a plane parallel to the lens section rotating surface of the camera section by the first rotating section; When,
A video camera, comprising: interlocking means for interlocking the first turning means and the second turning means. The video camera according to claim 7, wherein the interlocking mechanism rotates the lens unit and the viewfinder unit in directions opposite to each other with respect to the main body holding unit. The photographing direction, the grip direction, and the viewfinder viewing direction are arranged in the same or parallel plane, and the grip direction intersects the photographing direction and the viewfinder viewing direction when viewed from the perpendicular direction of the same or parallel plane, and A video camera having a configuration in which a shooting direction and a viewfinder viewing direction extend in opposite directions across a grip direction,
Grip direction rotating means for rotating the grip direction with respect to the shooting direction,
By the grip direction rotating means, when the grip direction rotates with respect to the imaging direction so as to increase or decrease the intersection angle between the imaging direction and the grip direction, the grip direction is decreased or decreased by the rotation in the grip direction. Finder viewing direction rotating means for rotating the finder viewing direction with respect to the grip direction so that the increasing crossing angle between the grip direction and the viewfinder viewing direction approaches the crossing angle before the rotation change in the grip direction. A video camera. The photographing direction, the grip direction, and the viewfinder viewing direction are arranged in the same or parallel plane, and the grip direction intersects the photographing direction and the viewfinder viewing direction when viewed from the perpendicular direction of the same or parallel plane, and A video camera having a configuration in which a shooting direction and a viewfinder viewing direction extend in opposite directions across a grip direction,
Viewfinder viewing direction rotating means for rotating the grip direction with respect to the viewfinder viewing direction,
When the grip direction is rotated with respect to the viewfinder viewing direction by the viewfinder viewing direction rotating means so as to increase or decrease the intersection angle between the viewfinder viewing direction and the grip direction, the rotation in the grip direction is performed. A photographing direction rotating means for rotating the photographing direction with respect to the grip direction such that the intersection angle between the grip direction and the photographing direction, which decreases or increases due to the rotation, approaches the cross angle before the rotation change in the grip direction. A video camera.

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