JP2009282457A - Lens barrel and optical equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lens barrel and optical equipment for saving power. <P>SOLUTION: This lens barrel 3 has: an input part 12 receiving electric power required for a photographing operation from a photographing device 2, and an electric power source control part 19 controlling an electric power source 18 generating the electric power required for the photographing operation in a different manner according to whether the electric power required for the photographing operation is input from the input part 12 or not. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a lens barrel and an optical apparatus.

Conventionally, various lens barrels used by attaching to a camera body such as a single-lens reflex camera have been proposed, and many of them are provided with a diaphragm mechanism (see, for example, Patent Document 1). The diaphragm mechanism is largely divided into a mechanical diaphragm mechanism that is mechanically interlocked with a diaphragm interlock lever provided in the camera body, and an electromagnetic diaphragm mechanism that is driven by a drive unit based on an operation signal output from the camera body. Separated. These diaphragm mechanisms have advantages and disadvantages. In particular, a lens barrel having an electromagnetic diaphragm mechanism needs to have a function of supplying power to the lens barrel with respect to the camera body.
Japanese Patent Laid-Open No. 10-319294

For this reason, in order to make it possible to apply a lens barrel having an electromagnetic diaphragm mechanism as described above to a camera body that does not have a power supply function, an attempt is made to mount a power source in the lens barrel. In this case, there is a problem that a large power source cannot be mounted due to the restriction of the component parts, resulting in power shortage.
Accordingly, the present invention has been made in view of the above problems, and an object thereof is to provide a lens barrel and an optical apparatus that can save power.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this. That is, according to the first aspect of the present invention, the input unit (12) to which power necessary for the photographing operation is input from the photographing device (2), and the power necessary for the photographing operation is input from the input unit (12). A lens barrel (3) having a power supply control section (19) for varying control of a power supply (18) that generates power necessary for the photographing operation depending on whether or not there is.

  The invention according to claim 2 is the lens barrel (3) according to claim 1, wherein the mechanical movement of the photographing device (2) necessary for operating the diaphragm (11) for limiting the light is provided. The power source (18) is based on at least a diaphragm drive unit (17) for driving the diaphragm (11) and a detection result of the detection unit (20). Electric power can be supplied to at least one of the control units (15) for controlling the aperture drive unit (17), and the power supply control unit (19) is connected to the aperture drive unit (17) and the input from the input unit (12). When power is supplied to at least one of the control units (15), power supply from the power source (18) to at least one of the aperture driving unit (17) and the control unit (15) is stopped. This is a lens barrel (3).

  A third aspect of the present invention is the lens barrel (3) according to the second aspect, wherein information about whether or not electric power is input from the photographing device (2) to the input unit (12) is provided. The power supply control unit (19) has a receivable receiving unit (13), and the power is supplied from the photographing device (2) to the input unit (12) by the receiving unit (13). When detected, the lens barrel (3) is characterized in that power supply from the power source (18) to at least one of the aperture drive unit (17) and the control unit (15) is stopped.

A fourth aspect of the present invention is the lens barrel (3) according to the second or third aspect, wherein the power control unit (19) includes the diaphragm driving unit (17) and the control unit (15). The lens barrel (3) includes a switch (22) that connects or disconnects at least one of the power source (18) and the power source (18).
A fifth aspect of the present invention is the lens barrel (3) according to any one of the second to fourth aspects, wherein the detection unit (20) is an aperture of the photographing device (2). The lens barrel (3) is characterized in that the movement of the interlocking member (4) is detected.

The invention of claim 6 is the lens barrel (3) according to any one of claims 2 to 5, wherein the power source (18) supplies power to the detection unit (20). A lens barrel (3) characterized in that it can be supplied.
The invention of claim 7 is the lens barrel (3) according to any one of claims 1 to 6, wherein the optical system shifts or tilts the optical axis of the photographing optical system (16). A lens barrel (3) having a drive unit (21).
According to an eighth aspect of the present invention, there is provided a lens barrel (3) according to any one of the first to seventh aspects, and a photographing device (2) connectable to the lens barrel (3). An optical apparatus (1) characterized by comprising:

  According to the present invention, it is possible to provide a lens barrel and an optical apparatus that can save power.

A camera provided with a lens barrel according to an embodiment of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a diagram illustrating a schematic configuration of a camera including a lens barrel according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating characteristic components of the lens barrel according to the embodiment of the present invention. .
As shown in FIG. 1, the camera 1 according to the present embodiment is a digital single-lens reflex camera including a camera body 2 and a lens barrel 3 that is detachably attached to the camera body 2.

The camera body 2 includes a diaphragm interlocking lever 4, a body power supply 5, an output unit 6, a transmission unit 7, and a body control unit 8 in a housing 9, and a shutter button 10 is provided on the outer upper surface of the housing 9. It has been. The camera body 2 is also provided with other components similar to those of a general single-lens reflex camera.
The diaphragm interlocking lever 4 is for operating an electromagnetic diaphragm 11 (to be described later) of the lens barrel 3 during photographing. The main body power supply 5 generates power necessary for the photographing operation and supplies power to each component of the camera body 2.

The output unit 6 is connected to an input unit 12 (described later) of the lens barrel 3 and outputs power necessary for the photographing operation from the main body power supply 5 to the input unit 12.
The transmission unit 7 is connected to the reception unit 13 of the lens barrel 3 and performs communication between the main body control unit 8 and a control unit 15 to be described later of the lens barrel 3, and the output unit 6 to the lens barrel 3. Information on whether or not power is being output to the input unit 12 can be transmitted.
The main body control unit 8 controls each electric element such as the transmission unit 7 constituting the camera main body 2.

The lens barrel 3 includes a photographing optical system 16, an electromagnetic diaphragm 11, a diaphragm driving unit 17, a control unit 15, a power supply 18, a power supply control unit 19, an input unit 12, a receiving unit 13, a detection unit 20, and an optical system driving mechanism 21. It is equipped with.
The photographing optical system 16 is composed of a plurality of lenses and forms an image of light from a subject (not shown).
The electromagnetic diaphragm 11 restricts light from a subject (not shown), and the diaphragm driving unit 17 includes a motor that drives the electromagnetic diaphragm 11.
The control unit 15 controls each electric element such as the diaphragm driving unit 17 constituting the lens barrel 3.

The power source 18 generates power necessary for the photographing operation, and can be supplied to each by being connected to the aperture driving unit 17 and the control unit 15 via a switch 22 described later. It is. Since the detection unit 20 is connected to the control unit 15 and the optical system drive mechanism 21 is connected to the aperture drive unit 17, power is also supplied from the power source 18 to the detection unit 20 and the optical system drive mechanism 21. .
The power supply control unit 19 includes a control unit 15 and a switch 22, and varies the control of the power supply 18 depending on whether or not power necessary for a photographing operation is input from the camera body 2 to the input unit 6. Is. The switch 22 switches between a connection state between the power source 18 and the control unit 15 and a connection state between the power source 18 and the aperture driving unit 17.
The input unit 12 is connected to the output unit 6 of the camera body 2 and receives power necessary for the photographing operation output from the output unit 6. The input unit 12 is connected to the control unit 15, and is further connected to the aperture drive unit 17, the detection unit 20, and the optical system drive mechanism 21 via the control unit 15. It is possible to supply the generated power to them.

The reception unit 13 is connected to the transmission unit 7 of the camera body 2 and performs communication between the control unit 15 and the body control unit 8 of the camera body 2. Power is input from the camera body 2 to the input unit 12. Information about whether or not
The detection unit 20 detects a mechanical movement of the camera body 2 necessary for operating the electromagnetic diaphragm 11, specifically, a movement of the diaphragm interlocking lever 4 of the camera body 2.
The optical system driving mechanism 21 includes a motor that drives a lens constituting the photographing optical system 16 in order to shift or tilt the optical axis of the photographing optical system 16.

  In the camera 1 having the lens barrel 3 according to the present embodiment under the configuration described above, light from a subject (not shown) is collected by the photographing optical system 16 of the lens barrel 3, and further, quick return. The light is reflected by the mirror 25 and imaged on the focusing screen 26. The light imaged on the focusing screen 26 is reflected in the pentaprism 27 and guided to the eyepiece lens 28. Thus, the photographer can observe the subject image as an erect image through the eyepiece lens 28.

When the shutter button 10 is half-pressed by the photographer, an autofocus mechanism (not shown) provided in the lens barrel 3 performs autofocus, and the main body control unit 8 opens the aperture of the electromagnetic diaphragm 11 (aperture Value) and the like, and the determined aperture value is input to the control unit 15 of the lens barrel 3 via the transmission unit 7 and the reception unit 13.
In this state, when the shutter button 10 is fully pressed by the photographer, the aperture interlocking lever 4 is operated, and this is detected by the detection unit 20 of the lens barrel 3, and the detection result (operation timing of the aperture interlocking lever 4). ) Is transmitted to the control unit 15. As a result, the control unit 15 controls the diaphragm drive unit 17 to adjust the electromagnetic diaphragm 11 to have the diaphragm value determined by the main body control unit 8. Following this, in the camera body 2, the quick return mirror 25 is retracted out of the optical path, and light from the subject is restricted by the electromagnetic diaphragm 11 and reaches the image sensor 29 with an appropriate amount of light. Thereby, the light from the subject is picked up by the image pickup device 29 and recorded as a subject image in a memory (not shown). In this way, the photographer can shoot a subject using the camera 1 of the present embodiment.

In the camera 1 of the present embodiment, an aperture ring 30 is provided on the outer periphery of the lens barrel 3, and a photographer operates the aperture ring 30 to determine the aperture value of the electromagnetic aperture 11, and matches this aperture value. The control unit 15 can also adjust the electromagnetic diaphragm 11 by controlling the diaphragm driving unit 17.
In addition, when the lens barrel 3 according to the present embodiment is mounted on a conventional camera body or the like that does not include the transmission unit 7, that is, does not include a communication function, the detection unit 20 operates the aperture interlock lever 4. In addition to the timing, the operation amount is also transmitted to the control unit 15 as a detection result, and the control unit 15 can calculate and acquire the aperture value of the electromagnetic diaphragm 11 from the operation amount.
In the camera 1 according to the present embodiment, the optical system driving mechanism 21 drives a lens constituting the photographing optical system 16 to shift or tilt the optical axis of the photographing optical system 16 to shoot a subject. it can.

Here, the most characteristic power saving of the lens barrel 3 in the present embodiment will be described.
When the lens barrel 3 according to this embodiment is attached to the camera body 2 having the above-described configuration, first, the reception unit 13 displays information about whether or not power is input from the camera body 2 to the input unit 12. Obtained from the transmitter 7 of the main body 2. In the present embodiment, the switch 22 is normally in a state of connecting the power source 18 and the control unit 15, and the power from the power source 18 is transmitted through the control unit 15 to the aperture driving unit 17, the detection unit 20, and the optical unit. Each is supplied to the system drive mechanism 21.
When the receiving unit 13 detects that power is input from the camera body 2 to the input unit 12, the control unit 15 controls the switch 22 in the power supply control unit 19, and the power supply 18 and the control unit 15 The connection is released and the power source 18 and the aperture driving unit 17 are connected. As a result, the power supply from the power source 18 to the control unit 15 and the detection unit 20 is stopped, and the power supply to these is provided by the power input from the camera body 2, thus reducing the power consumption of the power source 18. can do.

When the lens barrel 3 according to the present embodiment is mounted on a camera body that does not have a function of supplying power to the lens barrel 3, that is, power is input from the camera body 2 to the input unit 12 by the receiving unit 13. If it is not detected that the power source is connected, the control unit 15 in the power source control unit 19 maintains the connection state between the power source 18 and the control unit 15 by the switch 22, and the power supply to each part of the lens barrel 3 is the power source 18. Will be covered.
Therefore, when the lens barrel 3 according to the present embodiment is attached to the camera body 2 that can supply power necessary for the photographing operation to the lens barrel 3, power saving of the power source 18 can be realized. In addition, since the lens barrel 3 includes the detection unit 20 that detects the operation of the aperture interlock lever 4 and the power source 18, a camera body that does not have a power supply function (for example, a conventional mechanical camera body) Etc.) and can be used.

As described above, according to the present embodiment, it is possible to realize the lens barrel 3 capable of saving power and the camera 1 including the same.
Moreover, since the lens barrel 3 according to the present embodiment is configured to detect the operation of the aperture interlocking lever 4 of the camera body 2 by the detection unit 20 as described above, the aperture interlocking lever as in the conventional lens barrel. There is no need to operate the aperture mechanism mechanically interlocking with 4. For this reason, it becomes possible to easily introduce the optical system driving mechanism 21 or the like that has been an obstacle to mechanical interlocking in the conventional lens barrel, and it is possible to achieve further improvement in design freedom.

In the present embodiment, as described above, the control unit 15 acquires the information on the presence / absence of the power supply function of the camera body 2 from the camera control unit 8 via the transmission unit 7 and the reception unit 13. The configuration of the lens barrel 3 is not limited to this, and the input unit 12 is provided with a power detection unit that detects whether power is input from the camera body 2 to the input unit 12. It is good also as a structure which acquires the information of the presence or absence of the power supply function of the main body 2.
In the present embodiment, the photographer can also check the presence or absence of the power supply function of the camera body 2 and manually operate the connection state of the switch 22. Further, in the lens barrel 3 according to this embodiment, the photographer can manually operate the switch 22 as described above, and the detection unit 20 detects the operation timing and the operation amount of the aperture interlocking lever 4 as described above. By doing so, since the control of the electromagnetic diaphragm 11 by the control unit 15 is also possible, the receiving unit 13 can be omitted and a simpler configuration can be achieved.

Further, when the lens barrel 3 according to the present embodiment is attached to the camera body 2 having a power supply function, the power supply control unit 19 switches the connection state of the switch 22 as described above to save power. It is configured as follows. However, the present invention is not limited to this, and the switch 22 may be a switch that connects or disconnects the power supply 18 and the control unit 15. Accordingly, when the main lens barrel 3 having such a switch is mounted on the camera body 2 capable of supplying power necessary for the photographing operation to the lens barrel 3, the connection between the power supply 18 and the control unit 15 is released. Thus, the supply of power can be completely stopped, so that the power saving of the power source 18 can be realized to the maximum.
In another aspect, the switch 22 is in a state in which the power source 18 is connected to at least one of the control unit 15 and the aperture driving unit 17, or in a state in which the power source 18 is not connected to either the control unit 15 or the aperture driving unit 17. For example, a switch device including a switch that includes a first switch that connects or disconnects the power source 18 and the control unit 15 and a second switch that connects or disconnects the power source 18 and the aperture driving unit 17 is configured. You can also. Thereby, the lens barrel 3 provided with such a switch device can freely set the stop of power supply from the power source 18 to the aperture drive unit 17 or the control unit 15 according to the power supply function of the camera body. Is possible.
In addition, the lens barrel of the present invention is not limited to the single-lens reflex camera body as in the present embodiment, and can be applied to other photographing apparatuses to constitute optical devices other than the single-lens reflex camera.

It is a figure which shows schematic structure of the camera provided with the lens-barrel which concerns on embodiment of this invention. It is a figure which shows the characteristic structure part of the lens-barrel which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Camera 2 Camera main body 3 Lens barrel 4 Aperture interlocking lever 5 Main body power supply 8 Main body control part 11 Electromagnetic aperture 12 Input part 13 Reception part 15 Control part 18 Power supply 19 Power supply control part 20 Detection part 21 Optical system drive mechanism 22 Switch

Claims (8)

An input unit for inputting power necessary for shooting operation from the shooting device;
A power control unit that varies control of a power source that generates power necessary for the photographing operation according to whether or not power necessary for the photographing operation is input from the input unit. A lens barrel. The lens barrel according to claim 1,
A detection unit for detecting mechanical movement of the photographing apparatus necessary for operating a diaphragm that restricts light;
The power source can supply power to at least one of a diaphragm driving unit that drives the diaphragm and a control unit that controls the diaphragm driving unit based on a detection result of the detection unit,
The power supply control unit stops power supply from the power supply to at least one of the aperture drive unit and the control unit when power is supplied from the input unit to at least one of the aperture drive unit and the control unit. A lens barrel characterized in that The lens barrel according to claim 2,
A receiving unit capable of receiving information about whether or not power is input from the imaging apparatus to the input unit;
The power supply control unit supplies power from the power supply to at least one of the aperture driving unit and the control unit when the receiving unit detects that power is supplied from the imaging device to the input unit. A lens barrel characterized by being stopped. A lens barrel according to claim 2 or claim 3, wherein
The lens barrel including a switch that connects or disconnects at least one of the aperture driving unit and the control unit and the power source. A lens barrel according to any one of claims 2 to 4, wherein
The lens barrel according to claim 1, wherein the detection unit detects a movement of an aperture interlocking member of the photographing apparatus. A lens barrel according to any one of claims 2 to 5, wherein
The lens barrel, wherein the power source is capable of supplying power to the detection unit. A lens barrel according to any one of claims 1 to 6, wherein
A lens barrel having an optical system driving unit for shifting or tilting an optical axis of a photographing optical system.   An optical apparatus comprising: the lens barrel according to any one of claims 1 to 7; and an imaging device connectable to the lens barrel.

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