JP4471707B2 - Camera mode dial - Google Patents

Description

The present invention relates to an imaging apparatus including a mechanism that can set the operation force of a mode dial for selecting a camera mode to be high when the camera is turned off.

JP 2000-195361 A [H01H 3/20] JP 2003-075898 A [G03B 17/02] JP 2003-087622 A [H04N 5/225]

  The camera's mode dial can be rotated with a light operating force at all times. Therefore, when the camera is stored in a bag with the camera turned off (OFF), or by moving the camera with your hand. When the mode dial is in contact with other objects, the mode changes to a different mode setting even if the user does not operate, and the user's expected video may not be captured the next time .

  As a countermeasure against such a problem, there has been an embodiment / prior art in which a lock mechanism is set for the mode dial and the mode dial malfunction is completely prohibited. However, if the mode dial is locked, the user will not change to another mode unless the user unlocks it, but there is a possibility of missing a photo opportunity because an extra operation is required to unlock the mode dial. .

According to a first aspect of the present invention, there is provided a selection means for selectively selecting an arbitrary operation mode from a plurality of operation modes by rotating a rotary mode dial, and a mode according to a predetermined condition of the apparatus body. a load setting means for setting a load to be resistance to dial rotating operation, a supply state of the power to the equipment body, and set to the oN state by the slide switch is slid to the first position, or the Supply state setting means for setting the slide switch to an OFF state by being slid to a second position different from the first position, and the load amount setting means has a predetermined condition that the device body is in the OFF state The load amount at the time is set to an amount larger than the load amount when the predetermined condition is that the main body of the device is on, and the mode dial can be rotated. To.

  With the above configuration, when the camera is turned on, the mode dial maintains the conventional light operation feeling, and when the camera is turned off, the load for rotating the mode dial is increased. It is possible to prevent the mode setting due to external factors from changing.

The camera of the second invention is subordinate to the camera of the first invention, and is provided at a rotation center portion of the mode dial, and rotates with the rotation of the mode dial. , Provided with a plurality of slits provided at positions corresponding to the respective display units respectively indicating a plurality of operation modes provided on the top surface of the mode dial, and a convex dowel, and slides in conjunction with the operation member of the slide switch. An operation lever that slides, and when the slide switch is slid to the second position so that the power supply state to the device body is set to the off state, the plurality of convex dowels of the operation lever are It is fitted to any one of the slits.

A camera according to a third invention is dependent on the camera according to the first invention, and is provided at a rotation center portion of the mode dial, and rotates with the rotation of the mode dial. , Provided with a plurality of convex dowels respectively provided at positions corresponding to the respective display portions each indicating a plurality of operation modes provided on the top surface of the mode dial, and a U groove, and interlocked with the operation member of the slide switch An operation lever that slides, and when the slide switch is slid to the second position so that the power supply state to the device main body is set to the off state, the U groove of the operation lever has the plural grooves It is characterized by being fitted to one of the convex dowels.

With the above configuration, it is possible to set the components of the convex dowels and slits (grooves) and apply a load to the rotation of the mode dial by fitting when the camera power is off.

A camera of a fourth invention is dependent on the camera of the second invention, and the operation lever is a resin or an elastic member,
When the power supply state to the device main body is in the off state, the mode dial has a resistance to a rotation operation of the mode dial that occurs when the convex dowel and the slit are in a fitted state. When the rotating force is applied by a turning force exceeding the load amount, the operation lever is bent so that the fitting state of the convex dowel and the slit is released, so that the mode dial becomes the device. The main body can be rotated by a load amount when the main body is in the off state.

  With the above configuration, when the camera is turned off, the camera is not locked in the mode when the power is turned off. Therefore, if there is a shooting opportunity, the camera can be shifted to the shooting mode by the normal operation of turning on the camera. It is possible to select the shooting mode first before turning on the power of the camera.

  As described above, according to the camera according to the first, second, and third aspects of the present invention, the mode dial maintains the conventional light operation feeling when the camera is turned on. When the power is turned off, the load for rotating the mode dial is increased, so that it is possible to prevent the mode setting from being changed due to an external factor when the camera is turned off.

  According to the camera of the invention described in claim 4, when the camera is turned off, the camera is not locked in the mode when the power is turned off. It is possible to shift the camera to the shooting mode by the normal operation of turning on, and to select the shooting mode first before turning on the power of the camera.

Hereinafter, (first embodiment) of the present invention will be described with reference to FIGS. FIG. 1 is an external view of a camera according to the first embodiment of the present invention. FIG. 2 is a cross-sectional view taken along the line AA of FIG. 3 to 5 are correlation diagrams in each mode of the operation unit in FIG. 6 is an enlarged view of the fitting portion of FIG.

  In the camera body 1 in the above-described embodiment, 11 is a camera exterior cover, 2 is a mode dial, 13 is an operation button for turning on / off the power, 14 is a photographing lens, and 15 is a release operation button. Has been.

  The mode dial 2 is incorporated on the upper surface of the camera exterior cover 11 as shown in FIG. 1, and a symbol (mark) 21 of a mode to be selected is displayed on the operation unit 20 of the mode dial 2 so that the user can The operation unit 20 of the mode dial 2 is rotated, and the mode in which the mode symbol 21 of the operation unit 20 matches the mode index 22 becomes the selected mode.

  In the vicinity of the mode dial 2, a button 13 for turning on / off the power of the camera is incorporated. As an example, from the mode dial 2 side 1). Power off mode 16a, 2). Power ON mode 16b, 3). Three modes, MONITOR OFF mode 16c, can be selected.

  FIG. 2 is a cross-sectional view (AA cross section) of the mode dial 2 and the operation button 13 portion for turning on / off the power in FIG. 1 in a power-off state. The mode dial 2 has a rotating plate 22 that rotates in synchronization with the operation unit 20, and in the vicinity of the outer periphery of the rotating plate 22, the mode dial 2 is substantially parallel to a straight line extending radially from the rotation center of the mode dial 2. A slit 221 is provided for each, and an operation lever 32 that slides in the same direction as the extension direction of the slit 221 is interlocked with the operation button 13 for turning on / off the power of the camera below the rotating plate 22. The operating lever 32 has an upwardly protruding dowel 321 that moves to a position that fits into the slit 221 of the rotating plate 22 of the mode dial 2 only when the camera is powered off.

  3 is a MONITOR OFF mode, FIG. 4 is a power ON mode, and FIG. 5 is a correlation diagram between the mode dial 2 and the power ON / OFF operation button 13 in the power OFF mode.

  In the MONITOR OFF mode shown in FIG. 3 and the power ON mode shown in FIG. 4, the mode dial 2 and the operation button 13 for turning the power ON / OFF are independent from each other as in the conventional example.

  When shifting from the power-on mode of FIG. 4 to the power-off mode of FIG. 5, the operation button 13 for turning the power on / off is slid by sliding the power on / off operation button 13 to the mode dial 2 side. The dowel 321 of the operation lever 32 interlocked with the drive stops at a position where the dowel 321 is set in the slit 221 set on the rotating plate 22 of the mode dial 2 and becomes the state of FIG.

  FIG. 6 shows a fitting state in each mode between the slit 221 of the rotating plate 22 of the mode dial 2 and the dowel 321 of the operation lever 32 of the operation button 13 for turning on / off the power when the power is off in FIG. FIG. 5 is an enlarged view illustrating the state of the slit 221 of the rotating plate 22 and the dowel 321 of the operation lever 32 when the mode dial 2 is rotated with the power off.

  Although a method for fixing the operation lever 32 interlocked with the operation button 13 for turning the power ON / OFF is omitted and not shown, since the operation lever 32 has an elastic structure, the mode shown in FIG. When the dial 2 is operated (mode change) by the user, the rotational moment of the rotating plate 22 is transmitted to the dowel 321 of the operating lever 32 by the slit 221, but the stress in the tangential direction in which the mode dial 2 rotates is transmitted. Therefore, the operating lever 32 does not move in the direction of the power ON / OFF switch 34 and the power is not turned ON, and the rotational moment of the rotating plate 22 works only by bending the dowel 321 of the operating lever 32 downward, and the mode. The dial 2 can be turned.

  The mode dial 2 of the conventional camera is set so that the mode can be changed with a light rotational force (operation force) during normal operation. However, when the camera is turned off (OFF) and stored in a bag, or while moving with the camera, the operation unit 20 of the mode dial 2 comes into contact with other objects, and the user In spite of no operation, the camera changes to a different mode, and the next time you take a picture, you may not be able to take the picture you expect.

  By adopting the present invention, the mode dial 2 can be operated without impairing the conventional light operation feeling in modes other than the power-off mode (power-on mode, MONITOR OFF mode). By increasing the operation force of the operation unit 20, it is possible to prevent the occurrence of mode change due to malfunction.

  Furthermore, in the power-off state, the operating force of the operation part 20 of the mode dial 2 is increased, but the rotation of the mode dial 2 is not locked, so that the user may mistake the operation order. When the mode dial 2 is operated first, rather than operating the power ON / OFF button, the camera mode change operation is possible although an operation force greater than the normal operation force is required.

  Next, (second embodiment) of the present invention will be described with reference to FIGS. 1 and 7 to 10.

  FIG. 1 is an external view of a camera and is the same as that of the first embodiment. 7 is a cross-sectional view taken along the line AA in FIG. 8 to 10 are correlation diagrams in each mode of the operation unit in FIG. The enlarged view in the second embodiment is omitted.

  The mode dial 2 is incorporated on the upper surface of the camera exterior cover 11 as shown in FIG. 1, and a symbol (mark) 21 of a mode to be selected is displayed on the operation unit 20 of the mode dial 2 so that the user can The operation unit 20 of the mode dial 2 is rotated, and the mode in which the mode symbol 21 of the operation unit 20 matches the mode index 22 becomes the selected mode.

  In the vicinity of the mode dial 2, a button 13 for turning on / off the power of the camera is incorporated. As an example, from the mode dial 2 side 1). Power off mode 16a, 2). Power ON mode 16b, 3). Three modes, MONITOR OFF mode 16c, can be selected.

  FIG. 7 is a cross-sectional view of the mode dial 2 and the button 13 portion for turning on / off the power in FIG. 1 in a power-off state. The mode dial 2 has a rotating plate 22 that rotates in synchronization with the operation unit 20. On the same circumference in the vicinity of the outer periphery of the rotating plate 22, a convex shape is formed for each mode in the downward direction of the rotating plate 22. The dowel 222 is set and slid in the same direction as the extension direction of the line connecting the rotation center of the mode dial 2 and the center of the dowel 222 of the rotating plate 22 in conjunction with the operation button 13 for turning on / off the power of the camera. The operation lever 32 has a U groove 322 that fits into the dowel 222 of the rotating plate 22 of the mode dial 2 only when the power of the camera is OFF. The U groove 322 is a mode dial. 2 is in the same direction as the line connecting the center of rotation and the center of the dowel 222 of the rotating plate 22, and an opening is provided on the side surface of the U groove in the direction of fitting with the dowel 222 of the rotating plate 22 and upward.

  8 shows a correlation diagram between the mode dial 2 and the power ON / OFF operation button in the MONITOR OFF mode, FIG. 9 shows the power ON mode, and FIG. 10 shows the power ON / OFF operation button.

  In the MONITOR OFF mode of FIG. 8 and the power ON mode of FIG. 9, the mode dial 2 and the operation button 13 for turning the power ON / OFF are independent from each other as in the conventional example.

  When shifting from the power ON mode in FIG. 9 to the power OFF mode in FIG. 10, the operation button 13 for turning the power ON / OFF is slid by sliding the operation button 13 for turning the power ON / OFF to the mode dial 2 side. The U groove 322 of the operation lever 32 that is interlocked with the drive of 13 stops at a position where it is fitted to a dowel 222 set on the rotary plate 22 of the mode dial 2.

  Although the illustration of the fixing method of the operation lever 32 interlocked with the operation button 13 for turning the power ON / OFF is omitted, the operation lever 32 has an elastic structure, so that the mode dial 2 can be operated with the power OFF. When operated (mode change) by the user, the rotating plate 22 is rotated, and the dowel 222 of the rotating plate 22 bends the U groove 322 portion of the operating lever 32 downward to rotate the mode dial 2. Make it possible.

  Next, (third embodiment) of the present invention will be described with reference to FIGS.

  (Embodiment 1) and (Embodiment 2) describe an example of a camera using a slide switch having a plurality of contacts of two or more contacts as the power ON / OFF switch. A configuration using a rotary switch having a plurality of contacts of two or more contacts as the ON / OFF switch will be described.

  The operation button 17 for turning on / off the power source for driving the rotary switch shown in FIGS. 11 and 12 reciprocates the rotation movable range of the rotary switch, and the rotation stroke of the operation button 17 for turning on / off the power source is set appropriately. A drive lever portion 18 that converts the stroke into a stroke is configured. A drive groove 18a is provided at the tip of the drive lever portion 18 and meshes with a cylindrical driven pin 19a of the driven lever 19. The turning motion of the operation button 17 for turning on / off the motor is converted into a linear reciprocating motion to the driven lever 19.

  Description of the structure in which the driven lever 19 that is driven in conjunction with the operation button for turning on / off the power and the rotary plate 22 of the mode dial 2 is fitted is shown in (first embodiment) (second embodiment). Since it is included in the contents, this item is omitted.

1 is an external view of a camera that is one embodiment of the present invention. It is AA sectional drawing of the said FIG. 1 of the 1st Embodiment of this invention. FIG. 5 is a correlation diagram when the power switch according to the first embodiment of the present invention is in a MONITOR OFF mode. It is a correlation diagram at the time of the power switch of the 1st Embodiment of this invention being ON mode. It is a correlation diagram at the time of the power switch of the 1st Embodiment of this invention being in OFF mode. FIG. 3 is an enlarged view of FIG. 2 of the first embodiment of the present invention. It is AA sectional drawing of the said FIG. 2 of the 2nd Embodiment of this invention. It is a correlation diagram at the time of the power switch of the 2nd Embodiment of this invention being a MONITOR OFF mode. It is a correlation diagram at the time of the power switch of the 2nd Embodiment of this invention being ON mode. It is a correlation diagram at the time of the power switch of the 2nd Embodiment of this invention being in OFF mode. It is a correlation diagram at the time of the power switch of 3rd Embodiment of this invention being in ON mode. It is a correlation diagram at the time of the power switch of the 2nd Embodiment of this invention being in OFF mode.

Explanation of symbols

1: Camera body
2: Mode dial 11: Camera exterior cover 13: Operation button for turning the power ON / OFF (for slide switch)
14: Shooting lens 15: Release operation button 16: Power switch button index 16a: Power OFF mode 16b: Power ON mode 16c: MONITOR OFF mode 17: Operation button for turning on / off the power (for rotary switch)
18: Drive lever 18a: Drive groove 19: Driven lever 19a: Driven pin 20: Operation part 21: Symbol 22: Rotating plate 32: Operation lever 34: Slide switch 35 with multiple contacts: Chassis 36: Flexible (board)
37: Terminal fixing plate 221: Slit 222: Dowel (for rotating plate)
321: Dowel (for control lever)
322: U groove (for control lever)

Claims (4)

A selection means for alternatively selecting an arbitrary operation mode from a plurality of operation modes by rotating a rotary mode dial;
A load amount setting means for setting a load amount which becomes a resistance to the rotation operation of the mode dial according to a predetermined condition of the device body;
The power supply state to the device body is set to an on state by sliding the slide switch to the first position, or the slide switch is slid to a second position different from the first position. Supply state setting means for setting to the off state by,
The load amount setting means is configured such that the load amount when the predetermined condition is the off state of the device main body is larger than the load amount when the predetermined condition is the on state of the device main body, and the mode A camera characterized in that it is set to an amount by which the dial can be rotated. A rotation plate provided at the rotation center of the mode dial, and rotated with the rotation of the mode dial;
A plurality of slits respectively provided at positions corresponding to the respective display units respectively indicating the plurality of operation modes provided on the top surface of the mode dial on the rotating plate;
A convex dowel, further comprising an operation lever that slides in conjunction with the operation member of the slide switch;
When the slide switch is slid to the second position so that the power supply state to the device main body is set to an off state, the convex dowel of the operation lever is set to one of the plurality of slits. The camera according to claim 1, wherein the camera is fitted. A rotation plate provided at the rotation center of the mode dial, and rotated with the rotation of the mode dial;
A plurality of convex dowels respectively provided at positions corresponding to the respective display units respectively indicating the plurality of operation modes provided on the top surface of the mode dial on the rotating plate;
An operation lever that includes a U groove and slides in conjunction with the operation member of the slide switch;
When the slide switch is slid to the second position so that the power supply state to the device main body is set to an off state, the U groove of the operation lever is one of the plurality of convex dowels. The camera according to claim 1, wherein the camera is fitted to the camera. The operation lever is a resin or an elastic member,
When the power supply state to the device main body is in the off state, the mode dial has a resistance to a rotation operation of the mode dial that occurs when the convex dowel and the slit are in a fitted state. When the rotating force is applied by a turning force exceeding the load amount, the operation lever is bent so that the fitting state of the convex dowel and the slit is released, so that the mode dial becomes the device. The camera according to claim 2 , wherein the camera can be rotated by a load amount when the main body is in the off state.