JP4566432B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present inventionElectronic device having battery compartmentIt is about.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in an electronic device (for example, a digital camera) that operates when a battery, a memory card, or the like is mounted, a lid member having an opening / closing mechanism that can be rotated after these mounting portions are translated relative to a fixed member. As another member different from the lid member, there is one having an operation member for regulating the opening / closing mechanism. Further, there is a mechanism that detects the open / closed state of the lid member by detecting the position of the operation member, and has a function of always turning off the electrical system of the electronic device when the lid member is in the open state. As a result, the electrical components (battery, memory card, etc.) covered with the lid member cannot be attached or detached while the electrical system is ON. Therefore, during the electrical processing, It is possible to avoid the problem that the electrical component is removed and the electrical storage process or the like is not completed.
[0003]
However, recently, there are some electronic devices that do not have any problem even if the electrical processing is terminated halfway, and there are some that do not have the detection mechanism described above. Some of such electronic devices have a configuration in which all the opening / closing mechanisms are provided on the lid member side so as to increase the degree of freedom in designing the main body side. The configuration of an example of such an electronic device will be described with reference to FIGS.
[0004]
21 and 23 are xz plan views of examples of electronic devices that do not have a detection mechanism for detecting the open / closed state of the lid member, and FIGS. 22 and 24 are yz cross-sectional views thereof. 21 and 22 are different from FIGS. 23 and 24 in the position of a lid member 102 described later. FIG. 25 is an XZ sectional view when the lid member 102 rotates in the electronic apparatus.
[0005]
In the figure, reference numeral 102 denotes a lid member, which has an opening / closing mechanism that can be rotated after being translated relative to the xz plane. An operation member 101 is provided on the lid member 102 and regulates the opening / closing mechanism. Reference numeral 102 a denotes a claw provided at one end of the lid member 102, reference numeral 103 denotes a main body side claw receiving portion that engages with the claw 102 a, and reference numeral 104 denotes a shaft portion that is the center of rotation of the lid member 102.
[0006]
As shown in FIG. 21, when the operation member 101 is translated in the direction of the arrow α, the lid member 102 can be translated in the direction of the arrow β as shown in FIGS. When the lid member 102 is translated in the direction of the arrow β, as shown in FIG. 24, the pawl 102a of the lid member 102 is released from the pawl receiver 103, and the lid member 102 is centered on the shaft portion 104 as shown in FIG. It is possible to rotate in the direction of the arrow γ.
[0007]
[Problems to be solved by the invention]
However, in an electronic device that needs to use a detection mechanism that detects the open / closed state of the lid member, an open / close mechanism for the lid member in an electronic device that does not have the detection mechanism as shown in FIGS. It is very difficult.
[0008]
This is because the detection mechanism for detecting the open / closed state of the lid member is located on the main body side. On the other hand, when the operation member 101 exists inside the lid member 102 as shown in FIG. Since the member 101 also rotates, it is difficult to keep pressing the switch included in the detection mechanism while the lid member 102 is rotatable.
[0009]
  The present invention has been made in view of such problems, and has adopted a conventional lid member opening and closing mechanism so that the position of the operation member can always be detected while the lid member is open.ElectronicsThe purpose is to provide.
[0010]
[Means for Solving the Problems]
  To achieve the above object, the present inventionElectronic equipmentIs an electronic device having a battery compartment,Protrusions that can contact the terminals of the battery accommodated in the battery accommodating chamber are formed,ElectricChildCan be rotated with respect to the device bodyTerminal member attached toAnd the terminalElementAnd slidably supported with respect to the electricChildA claw portion that engages with the device main body is formed, and the claw portion slides with respect to the terminal member, whereby the claw portion isChildEngage with device bodyState orThe claw and the electricChildDisengagement from the device bodyStateA lid member;By being arranged and operated between the terminal member and the lid member,The lidElementRestricts sliding movement of the terminal memberState orThe terminal of the lid memberElementAllow sliding motion forStateAn operating member and the operating memberBy being operated, a state in which the sliding operation of the lid member with respect to the terminal member is permitted to be a state in which the sliding operation of the lid member with respect to the terminal plate is permitted.And a signal output means for outputting a predetermined signal.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0012]
  FIG. 1 relates to the present invention.ElectronicsFIG. 2 is a perspective view of a digital camera equipped with one embodiment as viewed from the front side, and FIG. 2 is a perspective view of the digital camera as viewed from the back side.
[0013]
In the digital camera, the front cover 1 and the rear cover 43 cover various internal parts as shown in FIG.
[0014]
FIG. 3 is a cross-sectional view of the digital camera shown in FIG.
[0015]
As shown in FIG. 3, four AA batteries 2 (2 a to 2 d) that supply power for performing various electrical operations can be mounted inside the digital camera. Three of 2b and 2c are aligned horizontally in a straight line in the x direction shown in FIG. 3, and one of the batteries 2d is located on the z axis positive direction side (camera front side) with respect to the straight line, A grip portion for facilitating holding of the digital camera is formed so as to be covered by the front cover 1.
[0016]
FIG. 4 is an exploded view showing a configuration for electrically connecting the batteries 2.
[0017]
The (−) side (minus side) of the battery 2 c is in contact with the taper spring 3 c, and the taper spring 3 c is soldered to the (−) side of the BD cable 5. The (+) side (plus side) of the battery 2c is in order of the protrusion 3a of the sheet metal terminal 3, the protrusion 3b of the sheet metal terminal 3, the (-) side of the battery 2a, the (+) side of the battery 2a, the taper spring 3a, and the taper spring 3a. Connected taper spring 3b, (−) side of battery 2b, (+) side of battery 2b, protrusion 4a of sheet metal terminal 4, protrusion 4b of sheet metal terminal 4, negative (−) side of battery 2d, (+) of battery 2d Side, the taper spring 3d, and the (+) side of the BD cable 5 soldered to the taper spring 3d.
[0018]
The BD cable 5 is connected to the connector 5a, and the connector 5a returns to FIG. 3 and is inserted into the connector 6a provided on the DC board 6. The voltage provided from the battery 2 is adjusted to a voltage suitable for operating the digital camera by a circuit provided on the DC board 6. The adjusted voltage is applied to the main substrate 8 via the flexible substrate 7, to the ST substrate 10 via the DS lead wire 9, and to the liquid crystal display unit (hereinafter referred to as "LCD unit") via the flexible substrate 11. ) 12.
[0019]
In this embodiment, the battery 2 is composed of an AA battery. However, if the battery has (+) and (-) poles at both ends in the longitudinal direction, the type of the battery 2 is other. It may be.
[0020]
FIG. 5 is a cross-sectional view of the digital camera shown in FIG.
[0021]
A DC / IN terminal 6 b is soldered on the DC substrate 6. When a power supply cable or the like (not shown) is connected to the DC / IN terminal 6b from the outside instead of the battery 2, the voltage supplied via the power supply cable or the like is provided on the DC board 6. The voltage is adjusted to a voltage suitable for operating the digital camera by a circuit and supplied to each part of the digital camera in the same manner as the power from the battery 2.
[0022]
On the ST substrate 10, an external output digital terminal 10a and an external output analog terminal 10b are soldered, and a main capacitor 13 and a strobe unit 14 are disposed. The current supplied from the DC board 6 to the ST board 10 via the DS lead wire 9 is stored in the main capacitor 13 and maintains a voltage state boosted to the operating voltage of the strobe unit 14. Based on a signal sent from the main board 8 to the ST board 10 via the flexible board 15, a circuit on the ST board 10 causes the strobe unit 14 to emit light when the amount of light is insufficient for photographing.
[0023]
When exchanging signals and data with an external digital device, various digital communication cables and the like (not shown) are connected to the external output digital terminal 10a, so that the digital camera and the external digital device are connected to each other. Can communicate. Similarly, when communicating with an external analog display or the like, various analog communication cables (not shown) are connected to the external output analog terminal 10b.
[0024]
When the DC / IN terminal 6b, the external output digital terminal 10a, and the external output analog terminal 10b are not used, the terminal cover 38 is attached to the front cover 1 as shown in FIG. Has a structure that does not inadvertently be exposed.
[0025]
FIG. 7 is a cross-sectional view of the digital camera shown in FIG.
[0026]
The terminal cover 38 is provided with a terminal fitting portion 38a. The terminal fitting portion 38a is fitted into the hole 1c of the front cover 1 and fitted to each terminal, and has a structure in which each terminal is not exposed carelessly. FIG. 8 is a diagram showing a case where the position of the terminal cover 38 is different in the digital camera shown in FIG. 7, and FIG. 9 is a diagram showing the terminal cover 38.
[0027]
As shown in FIG. 9, the terminal cover 38 alone is parallel to the z axis, whereas the cover main body including the terminal fitting portion 38a and the outer appearance portion 38b is at an angle from the z axis. A shape with A. Because of this shape, as shown in FIG. 7, when assembled in the front cover 1, the terminal fitting portion 38 a and the outer appearance portion 38 b are always urged in the direction of covering each terminal, and carelessly occurs. Each terminal is not exposed. After the terminal cover 38 is opened in the direction of arrow L (FIG. 7), the U-shaped portion 38d of the terminal cover 38 is exposed to the outside of the front cover 1 as shown in FIG. The terminal cover 38 is caught by 1c and does not easily return to the closed state of the front cover 1 shown in FIG. Thus, the communication cable can be easily connected in a state where the terminal cover 38 is opened.
[0028]
In the digital camera, the power is turned on by pushing the power button 32 shown in FIG. 2 in the positive z-axis direction for several seconds. Returning to FIG. 3, in the circuit of the main board 8 to which the power is supplied from the DC board 6 when the power is turned on, it is possible to take and reproduce electrophotography. In order to prevent malfunction, a program is created in advance so that the power is not turned on unless the power button 32 is pressed for several seconds. Further, when the power button 32 is pushed again while the power is on, the power is turned off.
[0029]
When the power is turned on, the mode dial 33 shown in FIG. 2 is rotated to select the “shooting mode” to enable shooting. When the photographing mode is selected, a signal is sent from the main board 8 to the LCD unit 12 via the LCD flexible board 36 and to the lens barrel unit 16 via the optical flexible board 25 in FIG. With this signal, in the lens barrel unit 16, the shutter aperture 26 is changed to a predetermined aperture amount corresponding to the amount of light that enters through the lens group 17, and as a result, the imaging device (hereinafter referred to as “CCD”) 18. The formed image of the subject is displayed on the LCD unit 12.
[0030]
In order to determine the composition of the subject, the user adjusts the posture of the digital camera while viewing the image displayed on the LCD unit 12. Alternatively, the user looks into the finder unit 34 shown in FIG. 2 and adjusts the posture of the digital camera so that the subject comes to a desired position in the photographing frame that can be seen there.
[0031]
The enlargement and reduction of the subject image can be performed by operating the zoom lever 35 shown in FIG. Further, when the user operates the operation button 37 shown in FIG. 2, the recording size of the image, the compression rate of the image to be recorded, the date and time, and the like can be set. In addition, it is possible to set strobe light emission, shutter speed adjustment, continuous shooting function setting, timer shooting function setting, short / long distance shooting function setting, white balance setting, and the like. Furthermore, when the “stitch mode” is selected separately from the normal shooting mode by operating the mode dial 33, the shooting procedure is displayed on the LCD unit 12, and a panoramic image can be easily shot simply by shooting according to this procedure. You can also
[0032]
6 is a cross-sectional view of the digital camera shown in FIG.
[0033]
When the composition of the subject is determined, when the release button 21 shown in FIG. 6 is pushed down in the negative y-axis direction, the release switch 24 soldered onto the release board 22 is turned on, and this release ON signal is sent to the flexible board. As a result, the processing for saving the subject image formed on the CCD 18 (FIG. 3) is performed as follows.
[0034]
That is, in the still image storage processing step, as shown in FIG. 3, first, still image data is sent from the CCD 18 to the main substrate 8 via the CCD flexible substrate 19, and an arithmetic circuit (hereinafter referred to as "CPU") on the main substrate 8. 20), predetermined data processing is performed and temporarily stored in the buffer memory 31. After that, as shown in FIG. 6, it is sent to the memory card connector 29 on the operation board 28 through the flexible board 27. If the memory card 30 is connected to the memory card connector 29, still image data is recorded on the memory card 30. The memory card 30 is detachable from the digital camera.
[0035]
In the moving image storage processing step, recording is started when the release button 21 shown in FIG. 6 is pressed once, and then all images formed on the CCD 18 in FIG. The image data is sent to the substrate 8 and is subjected to predetermined processing by the CPU 20 on the main substrate 8, and is recorded on the memory card 30 shown in FIG.
[0036]
In the present embodiment, all the image data is stored in the memory card 30, but a built-in memory may be provided on the main board 8 or the like, and the built-in memory may be configured to store image data. In this case, the user using the digital camera can select whether to save data in the memory card 30 or the built-in memory.
[0037]
In order to reproduce the stored image data, the user selects the “reproduction mode” by rotating the mode dial 33 shown in FIG. In the reproduction mode, the image (still image or moving image) data stored in the memory card 30 (or the built-in memory) shown in FIG. 6 is sent to the main board 8 in FIG. It is sent to the LCD unit 12 via the LCD flexible substrate 36 and displayed.
[0038]
In the display of the LCD unit 12, information indicating under what shooting conditions the displayed image is captured can be displayed at the same time. Further, when the user operates the operation button 37 (FIG. 2), a plurality of images are displayed in order, the images are erased, a protection setting for preventing erroneous erasure is performed, and the display image is rotated on the screen. Or auto play in which a plurality of images are displayed in order at regular intervals, image print designation, etc. can be set. Furthermore, if the operation of the zoom lever 35 shown in FIG. 2 is included, an enlarged display and an index display for displaying a plurality of images on one screen at a time can be performed.
[0039]
In order to replace the battery 2, the battery cover 39 shown in FIGS. 1 and 2 is opened and replaced. The configuration of the battery lid 39 will be described with reference to FIG.
[0040]
FIG. 10 is an assembly diagram illustrating a configuration of the battery lid unit.
[0041]
The battery lid 39 has a hole 39a in which the slide button 40 is incorporated in a state in which the slide button 40 is slidable in the x-axis direction. When the slide button 40 is incorporated into the battery lid 39, the coil spring 41 is simultaneously put on the spring shaft 40c of the slide button 40 and incorporated into the spring groove 39b of the battery lid 39, so that the slide button 40 is always positive in the x-axis. The coil spring 41 is biased in the direction. On top of that, the sheet metal terminal 3 is incorporated in the positive z-axis direction so as to slide under the holding rib 39c of the battery lid 39, and the protrusion 40a and protrusion of the slide button 40 are respectively inserted into the hole 3c and the hole 3d of the sheet metal terminal 3. 40b is fitted. Therefore, the sheet metal terminal 3 is incorporated in a state in which it can slide in the z-axis direction with respect to the battery lid 39.
[0042]
The sheet metal terminal 4 is fitted into the rib 39d of the battery lid 39, and is fixed to the battery lid 39 with a screw through the hole 4c.
[0043]
After the battery lid unit is completed as described above, the sheet metal terminal 3 is assembled into the battery box 42, and the shaft 49 is arranged in the order of the hole 42b of the battery box 42, the curl bend 3e of the sheet metal terminal 3, and the hole 42a of the battery box 42. The sheet metal terminal 3 is allowed to rotate with respect to the battery box 42 through the axial direction.
[0044]
Next, a configuration for detecting the open / closed state of the battery lid 39 will be described with reference to FIGS. 11 to 16.
[0045]
11 is an xz plan view of the digital camera when the battery cover 39 is in a closed state, and FIG. 12 is a cross-sectional view taken along the line DD of the battery cover 39 shown in FIG. 10 in the digital camera in the state shown in FIG. FIG. 13 is an xz plan view showing a detection lever 48 and a detection switch 44 described later.
[0046]
As shown in FIG. 12, a detection lever 48 slidable in the x direction is fitted to the end of the battery box 42, and a part of the detection lever 48 is sandwiched between the grooves 40d (FIG. 10) of the slide button 40. Accordingly, the detection lever 48 moves in the x-axis direction in conjunction with the movement of the slide button 40 in the x-axis direction. As shown in FIG. 13, when the detection lever 48 moves in the x-axis negative direction, the detection switch 44 is disposed at a position where the detection lever 48 contacts. The detection switch 44 includes a push button switch and is provided on the main board 8 shown in FIG.
[0047]
As shown in FIG. 12, the claw 39e of the battery cover 39 is normally fitted into the claw 1a of the front cover 1, and the battery cover 39 is in a closed state. When opening the battery cover 39, as shown in FIG. 11, the slide button 40 urged in the positive direction of the x-axis by the coil spring 41 is slid in the direction of the arrow D, and the battery cover 39 is moved in this state. 40 and slide in the direction of arrow B.
[0048]
By sliding the battery cover 39 in the direction of the arrow B, as shown in FIG. 12, the pawl 39e of the battery cover 39 is disengaged from the pawl 1a of the front cover 1, and as shown in FIG. It becomes possible to rotate around the center. FIG. 16 is a yz plan view of the digital camera when the battery cover 39 is in a rotating state.
[0049]
When closing the battery cover 39, conversely, as shown in FIG. 12, after rotating the battery cover 39 until it becomes parallel to the z-axis, the battery cover 39 is moved in the direction of arrow C as shown in FIG. By pushing, the pawl 1a of the front cover 1 and the pawl 39e of the battery cover 39 are fitted. At this time, as shown in FIG. 14, the slide button 40 is slid in the direction of arrow E by the coil spring 41, and as a result, the battery cover 39 is fixed so as not to slide in the z-axis direction. 14 is an xz plan view of the digital camera when the slide button 40 is slid in the direction of arrow E by the coil spring 41, and FIG. 15 is a battery shown in FIG. 10 in the digital camera in the state shown in FIG. It is DD sectional drawing of the lid | cover 39. FIG.
[0050]
When the slide button 40 is slid in the direction of arrow D as shown in FIG. 11 to open the battery cover 39, the detection lever 48 interlocked with the slide button 40 is moved to the detection switch 44 as shown in FIG. In contact with each other, the detection switch 44 is turned on. When the detection switch 44 is turned on, it is recognized that the battery cover 39 is open in the circuit on the main board 8. As soon as this recognition is performed, a termination process is performed for all electrical systems of the digital camera. Thereby, there is no problem even if the battery 2 as a power supply source is removed from the digital camera after that, and an electrical error can be prevented from occurring.
[0051]
When the battery cover 39 is closed and the slide button 40 is slid in the direction of the arrow E as shown in FIG. 14, the detection lever 48 is separated from the detection switch 44 at this time, and the detection switch 44 is turned off. Thus, all electrical systems of the digital camera are returned to an operable state.
[0052]
Next, the configuration of the card cover 45 will be described with reference to FIGS.
[0053]
17 to 20 are cross-sectional views taken along line EE of the digital camera shown in FIG. 2, showing the progress of the card cover 45 being opened in order.
[0054]
The memory card 30 is detachable from the digital camera, and a card cover 45 is provided on the rear cover 43 so as to cover the memory card 30.
[0055]
As shown in FIG. 17, a rotation shaft 45 a extending in the y-axis direction is provided at one end of the card cover 45, and the rotation shaft 45 a is surrounded by the battery box 42, the protrusion 42 c and the front cover 1. As it is, it cannot move in the direction of arrow F. Further, a pawl 45b is provided at the other end of the card cover 45, and the pawl 45b is fitted to the pawl receiver 43a of the rear cover 43 so that the card cover 45 cannot be rotated around the rotation shaft 45a. ing.
[0056]
In order to open the card cover 45 in order to replace the memory card 30, a finger is applied to the protrusion 45c of the card cover 45 and a force is applied in the direction of arrow F. Thereby, the rotating shaft 45a gets over the protrusion 42c of the battery box 42, and the state shown in FIG. 18 is obtained. At this time, since the pawl 45b of the card cover 45 is released from the pawl receiver 43a of the rear cover 43, the card cover 45 can be rotated in the direction of arrow I about the rotation shaft 45a. The rotation shaft 45a has an elliptical shape having a major axis in the z-axis direction in FIG. Therefore, as shown in FIG. 19, the dimension H of the major axis of the rotation shaft 45a is larger than the dimension G between the battery box 42 and the front cover 1, and the card cover 45 has an arrow about the rotation shaft 45a. When rotating in the direction I, the rotating shaft 45a rotates while deforming the front cover 1 and the battery box 42. Then, when the rotation progresses and the state shown in FIG. 20 is reached, the rotation shaft 45a fits in the space formed by the battery box 42 and the front cover 1 without being deformed. At this time, the memory card 30 is ready to be removed from the digital camera.
[0057]
In order to return the card cover 45 to the state shown in FIG. 19, a large turning force that deforms the battery box 42 and the front cover 1 is required, so that the card cover 45 does not rotate carelessly. The memory card 30 can be easily attached and detached.
[0058]
A detection switch 46 is provided on the operation board 28, and when the card cover 45 is in each state shown in FIGS. 17 and 18, the detection lever 45d of the card cover 45 always turns the detection switch 46 on. keep. As soon as the card cover 45 starts to rotate, the detection lever 45d is separated from the detection switch 46, and the detection switch 46 is turned off. As soon as the detection switch 46 is turned off, the termination processing is performed on all the electrical systems of the digital camera. Thereby, even if the memory card 30 is subsequently removed from the digital camera, there is no problem, and an electrical error can be prevented from occurring.
[0059]
When the memory card 30 is inserted and the card cover 45 is fixed to the rear cover 43, the state shown in FIG. 17 is obtained, and the digital camera returns to a usable state again.
[0060]
【The invention's effect】
  As detailed aboveAccording to the present invention, the position of the operation member can always be detected while the lid member is in the open state.
[Brief description of the drawings]
FIG. 1 relates to the present invention.ElectronicsIt is the perspective view which looked at the digital camera equipped with one embodiment from the front side.
FIG. 2 relates to the present invention.ElectronicsIt is the perspective view which looked at the digital camera equipped with one embodiment from the back side.
FIG. 3 is a cross-sectional view of the digital camera shown in FIG. 1 taken along the line AA.
FIG. 4 is an exploded view showing a configuration for electrically connecting batteries.
FIG. 5 is a cross-sectional view of the digital camera shown in FIG.
6 is a cross-sectional view taken along the line CC of the digital camera shown in FIG.
7 is a sectional view taken along line FF of the digital camera shown in FIG.
FIG. 8 is a diagram showing a case where the terminal cover has a different position in the digital camera shown in FIG. 7;
FIG. 9 is a view showing a terminal cover.
FIG. 10 is an assembly diagram illustrating a configuration of a battery lid unit.
FIG. 11 is an xz plan view of the digital camera when the battery cover is in a closed state.
12 is a DD cross-sectional view of the battery cover shown in FIG. 10 in the digital camera in the state shown in FIG.
FIG. 13 is an xz plan view showing a detection lever and a detection switch.
FIG. 14 is an xz plan view of a digital camera when a slide button is slid in the direction of arrow E by a coil spring.
15 is a DD cross-sectional view of the battery cover shown in FIG. 10 in the digital camera in the state shown in FIG. 14;
FIG. 16 is a yz plan view of the digital camera when the battery cover is in a rotating state.
17 is an EE cross-sectional view of the digital camera shown in FIG. 2, showing a first elapsed state in which the card cover is in an open state.
18 is an EE cross-sectional view of the digital camera shown in FIG. 2, showing a second elapsed state in which the card cover is open.
19 is an EE cross-sectional view of the digital camera shown in FIG. 2, and shows a third elapsed state in which the card cover is in an open state.
20 is an EE cross-sectional view of the digital camera shown in FIG. 2, showing a fourth elapsed state in which the card cover is in an open state.
FIG. 21 is an xz plan view of an example of a conventional electronic device that does not have a detection mechanism for detecting the open / closed state of a lid member.
22 is a yz sectional view of the electronic device shown in FIG. 21;
FIG. 23 is an xz plan view of an example of a conventional electronic device that does not have a detection mechanism for detecting the open / closed state of a lid member.
24 is a yz cross-sectional view of the electronic apparatus shown in FIG.
25 is an XZ sectional view of the electronic device shown in FIGS. 21 and 23 when the lid member rotates.
[Explanation of symbols]
  1 Front cover (housing)
  1a claw
  3 Sheet metal terminal
  3e curl bending
  4 Sheet metal terminal
  39 Battery cover (lid member)
  39e claw
  40 Slide button (operation member)
  41 Coil spring
  42 Battery box
  43 Rear cover
  44 Detection switch (signal output means)
  48 Detection lever
  49 axes
  B Movement direction
  D Movement direction

Claims (1)

In an electronic device having a battery compartment,
A terminal member mounted so as to be rotatable with respect to the battery terminals and contactable protrusions that are accommodated in the battery accommodating chamber is formed, electronic equipment body,
While being slidably supported with respect to the terminal member, the electronic equipment main body and the claw portion engaged is formed, engaging the claw portion by sliding against said terminal member to said electronic device body a lid member in a state in which the engagement of the engagement states or the claw portion and the electronic apparatus main body is released,
A state in which the sliding movement of the lid member with respect to the terminal member is restricted by being disposed and operated between the terminal member and the lid member, or a state of allowing the sliding movement of the lid member with respect to the terminal member ; And an operation member
The operation member that is operated, the such sliding motion from the state of regulation of the terminal member in a state to allow sliding movement relative to said terminal member of said lid member Rutoki of said lid member, and outputs a predetermined signal An electronic apparatus comprising: a signal output unit.

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