JP6515951B2 - battery - Google Patents

Description

  The present invention relates to a battery that is a portable power source.

  As a conventional battery device of this type, for example, there is one as described in Patent Document 1. Patent Document 1 includes, for example, a battery pack containing a rechargeable battery cell used as a power source of an electronic device, a battery mounting apparatus to which the battery pack and the like are mounted, and a battery mounting mechanism to which the battery pack and the like are mounted. An electronic device is described. In the battery pack described in the patent document 1, “a battery cell, a case for housing the battery cell, an output terminal arranged in the case and outputting the power of the battery cell, and the output terminal are arranged. And a second surface of the case disposed continuously with the first surface of the case and disposed substantially perpendicular to the first surface, and having a plurality of steps at substantially the center of the second surface And a concave portion is formed.

  According to the battery pack having such a configuration, effects such as "can be surely prevented from being erroneously attached to the battery attachment device considered to be incompatible" (paragraph [0161] of the specification) are expected.

  Moreover, as another example of the conventional battery device of this type, there is also one as described in Patent Document 2, for example. Patent Document 2 describes a battery device and an electronic device operated by the battery device. In the battery device described in Patent Document 2, “a case having a width, a thickness and a length, a rechargeable battery portion provided inside the case, and a surface provided with the case and connected to the rechargeable battery portion A battery device including a battery side terminal, wherein the battery side terminal is inserted into the battery chamber of the electronic device along the length direction, and the battery side terminal is in contact with the chamber side terminal of the battery chamber; A guide groove extending in the longitudinal direction and engaged with a projection provided in the battery storage chamber at a portion on the both sides of the case for positioning the position of the case in the thickness direction in the battery storage chamber Is formed.

According to the battery device having such a configuration, “at the portions of the case on both sides in the width direction of the battery device, engaged with the protrusions provided in the battery storage chamber extending in the length direction to engage the battery storage chamber Since the guide groove for positioning the position of the case in the thickness direction is formed, it is possible to accommodate multiple types of battery devices having different case thicknesses, ie, different capacities, in the battery storage chamber (see Effects such as paragraph [0005] are expected.
JP, 2000-243365, A JP, 2005-190929, A

  However, in the battery device described in Patent Document 1, a recess having a plurality of steps is provided substantially at the center of the rear surface of the case that accommodates the battery cell, and the mounting portion of the electronic device to which the battery device is attached has a recess. The type determination of the battery device was performed by providing the protrusion corresponding to the shape. As a result, when a new battery device is developed, it is necessary to increase the steps of the recess of the battery device and to provide corresponding protrusions in the mounting portion of the electronic device. There is a problem that the shape of is complicated.

  Further, the battery device described in any of Patent Document 1 and Patent Document 2 is used only for the electronic device having a specific configuration with respect to the mounting structure with the mounting unit with the electronic device to which the battery device is mounted. It was configured as a possible dedicated part. Therefore, one battery device can be mounted only to an electronic device having a mounting portion corresponding to the battery device, and the electronic device of another electronic device having a mounting portion having a different configuration of the mounting structure There is also a problem that it is necessary to separately prepare a battery device corresponding to.

  The problem to be solved is that, in the conventional battery device, when a new battery device is developed, it is necessary to increase the steps of the recess of the battery device and to provide the corresponding projections in the mounting portion of the electronic device as well. Thus, the shapes of the recesses of the battery device and the protrusions of the mounting portion are complicated.

The battery of the present invention includes a battery case, an output terminal, a first engagement portion, a second engagement portion, a first upper step surface portion, a first lower step surface portion, and a second And a second lower step surface portion . The battery case is disposed between upper and lower surface portions which are opposed to each other in the height direction, and left and right side surfaces which are disposed between the upper and lower surface portions and which are opposed to each other in the width direction. And a front surface and a back surface facing each other in the longitudinal direction. Moreover, the battery cell is incorporated in the battery case. The output terminals are disposed on the front surface and the lower surface of the battery housing and output the power of the battery cell. The first engaging portion protrudes from the lower surface portion to one side in the width direction with a predetermined width and thickness. The second engaging portion protrudes from the lower surface portion to the other side in the width direction with a predetermined width and thickness. The first upper step surface portion is provided on the one side in the width direction of the lower surface portion with a predetermined level difference from the lower surface portion in the direction from the lower surface portion to the upper surface portion . The first lower step surface portion is provided on one side in the width direction of the lower surface portion, and the step amount in the height direction from the lower surface portion is larger than the first upper step surface portion in the direction from the lower surface portion to the upper surface portion . The second upper step surface portion is provided on the other side in the width direction of the lower surface portion with a predetermined level difference from the lower surface portion in the direction from the lower surface portion to the upper surface portion. The second lower step surface portion is provided on the other side in the width direction of the lower surface portion, and the step amount in the height direction from the lower surface portion is larger than the second upper step surface portion in the direction from the lower surface portion to the upper surface portion . The first upper stepped surface portion is covered at least in part by the first engaging portion on the lower surface side in the height direction. Further, the lower surface side in the height direction is not covered by the first engaging portion in the left lower surface portion or the portion near the right lateral surface portion in the first lower step surface portion. In the second upper step surface portion, at least a part of the lower surface side in the height direction is covered by the second engaging portion. The lower surface side in the height direction is not covered by the second engaging portion in a portion near the left side surface or the right side surface in the second lower step surface portion.

  By being configured in this manner, the battery of the present application can provide a new battery type determination unit with a simple structure, and is commonly used for a plurality of types of electronic devices having different mounting methods. be able to.

It is the perspective view seen from the bottom side which shows the 1st Example of the battery in the battery system of this invention. The 1st Example of the battery in the battery system of this invention is shown, FIG. 2A is a bottom view, FIG. 2B is a left view. The 1st Example of the battery in the battery system of this invention is shown, FIG. 3A is a front view, FIG. 3B is a rear view, FIG. 3C is the DD sectional view taken on the line of FIG. 2B. It is the perspective view which looked at the digital video camera which is one specific example of the imaging device shown as one Example of the electronic device in the battery system of this invention from the front side. It is the perspective view which looked at the digital video camera which is one specific example of the imaging device shown as one example of the electronic device in the battery system of the present invention from the back side. It is a rear view of a digital video camera which is one example of an imaging device shown as an example of electronic equipment in a battery system of the present invention. It is a perspective view of a rear panel which has a mounting part of the digital video camera shown in FIG. FIG. 5 is an exploded perspective view of a rear panel having a mounting portion of the digital video camera shown in FIG. 4, a slide member and a support plate member. FIG. 9A is a front view of the rear panel, FIG. 9B is an explanatory view showing an initial state at the time of mounting of the battery, and FIG. 9C is an explanatory view showing a state after mounting. It is a perspective view which shows the 2nd Example of the rear panel which has a mounting part which concerns on the imaging device shown as one Example of the electronic device in the battery system of this invention. FIG. 10A is a front view of the rear panel, FIG. 10B is an explanatory view showing an initial state when the battery is attached, and FIG. 10C is an explanatory view showing the state after attachment. It is the perspective view seen from the bottom side which shows the 2nd Example of the battery in the battery system of this invention. It is a front view which shows the 2nd Example of the battery in the battery system of this invention. It is a perspective view which shows the 3rd Example of a rear panel which has a mounting part which concerns on the imaging device shown as one Example of the electronic device in the battery system of this invention. FIG. 15 shows a rear panel etc. shown in FIG. 14 and is a cross-sectional view taken along the line U-U in FIG. 14 with the battery attached. It is the perspective view seen from the front side which shows the 4th Example of the mounting part which concerns on the electronic device in the battery system of this invention. It is sectional drawing in the state which mounted | wore the mounting part which concerns on the 4th Example which the dimension of the height direction Z2 is sufficiently longer than a battery, and which has a battery.

  It is possible to determine the type of battery with a simple structure, and it is not necessary to prepare a battery for each electronic device having a different mounting structure, and it is preferable to use a battery that can share the battery, and the battery We have realized a simple electronic system and a battery system consisting of a combination of electronic equipment and its battery and electronic equipment.

  1 to 17 show an example of the embodiment of the present invention. 1 to 3 show a first embodiment of the battery device according to the present invention, and FIG. 1 is a perspective view, FIG. 2A is a bottom view, FIG. 2B is a left side view, and FIG. FIG. 3B is a rear view, and FIG. 3C is a cross-sectional view taken along the line DD of FIG. 2B. 4 to 7 show an imaging apparatus according to an embodiment of the electronic device of the present invention. FIG. 4 is a perspective view of the imaging apparatus as viewed from the front side, and FIG. 5 is a perspective view of the imaging apparatus as viewed from the back side. 6 is a rear view, FIG. 7 is a perspective view showing a first embodiment of a rear panel of an exterior case, FIG. 8 is an exploded perspective view showing a rear panel, a slide member and a support plate member, and FIGS. 9A is a front view of the rear panel, FIG. 9B is an explanatory view showing an initial state at the time of mounting of the battery device, and FIG. 9C is a state after mounting of the battery device. FIG. FIG. 10 is a perspective view showing an example of the second embodiment of the rear panel, FIGS. 11A to 11C illustrate a state in which the battery device is mounted on the mounting portion of the imaging device, FIG. 11A is a front view of the rear panel, and FIG. FIG. 11C is an explanatory view showing an initial state when the battery device is attached, and FIG. 11C is an explanatory view showing a state after the battery device is attached.

  FIGS. 12 to 13 show a second embodiment of the battery device according to the present invention. FIG. 12 is a perspective view and FIG. 13 is a front view. FIG. 14 is a perspective view showing a third example of the rear panel, and FIG. 15 is a cross-sectional view taken along the line U-U of FIG. 14 with the battery device mounted. FIG. 16 is a perspective view of the fourth embodiment of the mounting portion according to the electronic device of the present invention as viewed from the front side, and FIG. 17 is a perspective view of the mounting portion having a sufficiently longer dimension in the height direction Z2 than the battery device It is a figure explaining the state equipped with a device.

  First, a first embodiment of a battery device (battery) of the present invention will be described with reference to FIGS. 1 to 3. A battery device 1 representing a battery includes a battery case 2 formed of a hollow case, a battery cell and a control circuit board which do not appear in the figure provided inside the battery case 2, and a battery provided in the battery case 2 An output terminal 3 or the like indicating the output terminal portion on the side is provided.

  As shown in FIG. 1, the battery casing 2 shown in this embodiment has a dimension L in the longitudinal direction Y, a dimension in the width direction X orthogonal to the longitudinal direction W, and a height orthogonal to the longitudinal direction Y and the width direction X It is configured as a substantially rectangular parallelepiped block-like container whose dimension in the longitudinal direction Z is H. The dimensions (length L, width W and height H) of the battery housing 2 are set to satisfy the relationship of length L> width W> height H in this embodiment. However, the shape of the battery device according to the present invention is not limited to this embodiment. For example, the height H may be sufficiently high (for example, the width W <the height H), or the width W may be a length L Of course, it is possible to use a longer length (length L <width W) or various other dimensions. The battery case 2 is composed of a container-like upper case 4 opened on one side and a lid-like lower case 5 attached so as to close the opening of the upper case 4.

  The upper case 4 has a rectangular upper surface portion 4a, a front surface portion 4b continuous to be substantially perpendicular from one side in the longitudinal direction Y of the upper surface portion 4a, and the other side in the longitudinal direction Y of the upper surface portion 4a. From the other side in the width direction X of the back surface 4c continuous to make substantially vertical, the left side surface 4d continuous to make substantially perpendicular from one side in the width direction X of the upper surface 4a, and the top surface 4a And a right side surface 4e continuous to be substantially vertical. Then, arc-shaped chamfered portions 4f and 4f having a large radius of curvature are provided at the corner where the top surface 4a and the left side surface 4d intersect and at the corner where the top surface 4a and the right side surface 4e intersect.

  The lower case 5 is continuous with a substantially rectangular lower surface portion 5a showing one specific example of the second surface of the battery housing 2 and one vertical side from one side of the lower surface portion 5a in the longitudinal direction Y. A front surface 5b constituting a part of the first surface, a back surface 5c having a third stepped surface 6c continuous with a predetermined level difference from the other side in the longitudinal direction Y of the lower surface 5a, and a lower surface 5a A left step portion 5d having a first step surface 6a continued with a predetermined step from one side in the width direction X, and a second step continued with a predetermined step from the other side in the width direction X of the lower surface portion 5a It is comprised by the right level | step-difference part 5e which has the surface 6b. The front portion 5 b of the lower case 5 and the front portion 4 b of the upper case 4 constitute a front portion which is a first surface of the battery housing 2.

  In the lower surface 5a of the lower case 5, an attaching part 5f for attaching a label is formed at an appropriate depth. As shown in FIG. 3A, in the first step surface 6a and the second step surface 6b, the lengths (heights) in the height direction Z from the lower surface portion 5a are set to substantially the same height S. Furthermore, the length (width) of the width direction X of the first step surface 6 a and the second step surface 6 b is also set to the substantially same width M. The first step surface 6a and the second step surface 6b are formed to be substantially parallel to the lower surface 5a.

  Further, as shown in FIG. 1 and the like, the lower case 5 is formed so as to project from the lower surface portion 5a which is the second surface to a predetermined width N and a thickness T on one side in the width direction X. An engaging portion 7 and a second engaging portion 8 similarly formed to project from the lower surface 5a on the other side in the width direction X with a predetermined width N and thickness T are provided. The first engaging portion 7 and the second engaging portion 8 have a symmetrical shape, and the width (protrusion amount) N of the first engaging portion 7 and the second engaging portion 8 is The first step surface 6a and the second step surface 6b are respectively set to about 1/2 of the width M of the first step surface 6a and the second step surface 6b. Further, the thickness T of the first engaging portion 7 and the second engaging portion 8 is set to 1/2 or less of the height S of the first step surface 6a and the second step surface 6b, respectively. ing.

  The first engaging portion 7 has three first engaging pieces 7a, second engaging pieces 7b and third engaging pieces 7c which are provided at appropriate intervals in the longitudinal direction Y. The first engagement piece 7a is disposed on the front surface 5b side, and the third engagement piece 7c is disposed on the back surface 5c side, and the second engagement piece 7b is disposed in the middle thereof. The first opening 10a, which is the first groove of the present invention, is provided between the first engagement piece 7a and the second engagement piece 7b, and the second engagement piece 7b and the third engagement piece are provided. A first opening 10b, which is a second groove of the present invention, is provided between 7c and 7c. Similarly, the second engagement portion 8 includes three first engagement pieces 8a, a second engagement piece 8b and a third engagement piece 8c which are provided at appropriate intervals in the longitudinal direction Y. There is. The first engagement piece 8a is disposed on the front surface 5b side, and the third engagement piece 8c is disposed on the back surface 5c side, and the second engagement piece 8b is disposed in the middle thereof. A third opening 10c, which is a second groove of the present invention, is provided between the first engagement piece 8a and the second engagement piece 8b, and the second engagement piece 8b and the third engagement piece are provided. A fourth opening 10d, which is a second groove of the present invention, is provided between 8c and 8c.

  Furthermore, as shown in FIG. 2 and FIG. 2A etc., the first rib 11a is provided on the side of the back surface 5c of the first engagement piece 7a of the first engagement portion 7 and the second engagement piece 7b The second rib 11b is provided on the side of the back surface 5c, and the third rib 11c is provided on the side of the back surface 5c of the third engagement piece 7c. Similarly, a first rib 12a is provided on the back surface 5c side of the first engagement piece 8a of the second engagement portion 8, and a second rib is provided on the back surface 5c side of the second engagement piece 8b. 12b is provided, and a third rib 12c is provided on the back surface 5c side of the third engagement piece 8c. The protruding amount (width) P of the first ribs 11a and 12a and the second ribs 11b and 12b is substantially equal to the protruding amount (width) N of the first engaging pieces 7a and 8a and the second engaging pieces 7b and 8b. It is set to 1/2. On the other hand, the protrusion amount (width) of the third ribs 11c and 12c is set to be substantially the same as the protrusion amount (width) N of the third engagement pieces 7c and 8c.

  Further, an opening 14 for an output terminal for exposing a part of the output terminal 3 is provided on the front portion 5 b side of the lower case 5. The opening portion 14 is formed as a continuous notch extending from the front surface portion 5 b to the lower surface portion 5 a, and in the front surface portion 5 b, the substantially central portion in the width direction X is cut out. Furthermore, on both sides in the width direction X of the opening portion 14 of the lower case 5, two first determination recessed portions 15 a and 15 b for determining the type of the battery device 1 are provided. The two first discrimination recesses 15a and 15b indicating the first recess and the second recess are formed in specific shapes according to types such as the shape of the battery device 1 and the capacity of the power.

  As shown in FIGS. 1 and 2B, etc., two second discrimination recesses 9a for discriminating the type of the battery device 1 with a predetermined interval in the longitudinal direction Y on the first step surface 6a. , 9b are provided. Similarly, the second step surface 6b is provided with two third discrimination recesses 13a and 13b for discriminating the type of the battery device 1 with a predetermined interval in the longitudinal direction Y. Depth (height) K from the first step surface 6a of the second discrimination recess 9a, 9b and depth (height) from the second step surface 6b of the third discrimination recess 13a, 13b J is formed at a specific height according to types such as the shape of the battery device 1 and the capacity of the power. In this embodiment, the depths K of the second discrimination recesses 9a and 9b and the depths of the third discrimination recesses 13a and 13b are substantially symmetrical. However, the depth K of the second discriminating recess 9a, 9b and the depth J of the third discriminating recess 13a, 13b of the present invention are not limited to those of this embodiment, and the second The depth K of the discrimination recesses 9a and 9b and the depth J of the third discrimination recesses 13a and 13b may be changed and formed asymmetrically.

  In this embodiment, the number of the second determination recess 9 and the number of the third determination recess 13 are set to two. However, the numbers of the second discrimination recess 9 and the third discrimination recess 13 of the present invention are not limited to this embodiment. For example, the number of the second discrimination recesses 9 is one. Alternatively, the number of the third discrimination recesses 13 may be three. Furthermore, in this embodiment, the second discrimination recess 9 and the third discrimination recess 13 are formed in each of the first step surface 6a and the second step surface 6b. The second determination recess 9 or the third determination recess 13 may be formed in either one of the second step surfaces 6 b. The second discrimination concave portions 9a and 9b and the third discrimination concave portions 13a and 13b show one specific example of the concave portions of the present application.

  As shown in FIGS. 1 and 3A, the output terminal 3 mounted to the opening 14 of the lower case 5 is substantially perpendicular to the front portion 16a which is flush with the front portion 5b of the lower case 5 and the front portion 16a. And a block-shaped terminal holder 16 having at least a lower surface portion 16b flush with the lower surface portion 5a of the lower case 5. The terminal holder 16 includes a plurality of (four in this embodiment) electrode slits 17a and 17a in which the electrodes are disposed, and two positioning slits disposed on both sides of the plurality of electrode slits 17a. 17b and 17b are provided. The electrode slit 17 a and the positioning slit 17 b are formed as a groove-like cut that is continuous from the front surface to the bottom surface at the corner of the terminal holder 16.

  The positioning projections of the connection terminal 56 indicating the connection terminal portion provided in the mounting portion of the electronic device described later are respectively engaged with the two positioning slits 17 b of the terminal holder 16. Similarly, the electrodes of the connection terminal 56 are respectively engaged with the four electrode slits 17a. The not-shown battery side electrodes of the output terminal 3 are respectively disposed inside the four electrode slits 17a. The battery cells contained in the battery housing 2 are electrically connected to the battery side electrodes of the output terminal 3.

  The lower case 5 having such a configuration is superimposed so as to close the opening of the upper case 4, and the portion thus superimposed is joined. As this bonding method, for example, bonding may be performed using an adhesive or heat welding may be performed, and it is needless to say that other bonding methods can be used. Thereby, the battery case 2 in which the upper case 4 and the lower case 5 are integrated is configured. The battery case 2 contains a battery cell having one or more battery cells, a control circuit board having a microcomputer including a CPU, a RAM, a ROM, an interface, and the like. The battery cell and the control circuit board are electrically connected to each other and also connected to the output terminal 3. The output terminal 3 is configured to be capable of outputting the power of the battery cell, and is configured to be capable of data communication of information such as battery capacity and characteristics with an external electronic device. Thus, the battery device 1 is configured.

  Next, an example of a first embodiment of an imaging device included in a suitable electronic device using the above-described battery device 1 as a portable power source will be described with reference to FIGS. 4 to 6. The device shown in FIGS. 4 to 6 is a digital video camera 20 applied as an example of a first embodiment of an imaging device. The digital video camera 20 uses a tape cassette having a magnetic tape as an information storage medium, and an optical image as an image pickup element showing one specific example of an image pickup mechanism {e.g. CCD (charge coupled device), CMOS image sensor , Etc., and the image information can be recorded on a magnetic tape or can be displayed on a display device 23 composed of a flat panel such as a liquid crystal display.

  However, the information storage medium used in the image pickup apparatus showing the specific example of the electronic device of the present invention is not limited to the magnetic tape shown in this embodiment. For example, disk-shaped recording media such as DVD-R, DVD-RW, DVD-RAM, MO, FD and other recordable optical disks, magneto-optical disks, magnetic disks and the like can be used as information recording media. As electronic equipment using these disc-shaped recording media, for example, when using an optical disc, it can be applied as an optical disc video camera, and when using a magneto-optical disc, it is applied as a magneto-optical disc still camera It is possible. When a magnetic disk is used, it can be realized as a magnetic disk type electronic notebook.

  The digital video camera 20 is an external case 21 showing one specific example of a case main body consisting of a case forming an appearance form, and a magnetic tape of a tape cassette housed inside the external case 21 and detachably mounted. Drive a tape drive device that records (writes) and reproduces (reads) information signals, a control circuit that controls the drive of the tape drive device, and the like and captures an image of an object as light and guides it to the imaging device It comprises a lens device 22 and a display device 23 rotatably attached to the outer case 21.

  As shown in FIGS. 4 to 6, the outer case 21 is formed of a hollow casing, and is configured by combining the drive device side panel 21A and the display device side panel 21B disposed opposite to each other in the left and right direction with both panels. A substantially rectangular parallelepiped is formed by a front panel 21C closing the front opening of the case and a rear panel 21D closing the rear opening of the case. The exterior case 21 is used in a state in which the longitudinal direction Y is set in the front-rear direction and the width direction X is raised. A lens device 22 is disposed above the exterior case 21 in a state in which an objective lens 24 which is an imaging lens of a lens system is exposed to the front.

  The lens device 22 is attached to the exterior case 21 with the optical axis of the lens system oriented in the horizontal direction. Although not shown, an imaging device is attached to the rear of the lens device 22 inside the exterior case 21. Then, behind the lens device 22, a viewfinder device 25 for taking out an image of a subject input from the lens device 22 is disposed. In the upper part of the outer case 21, there is provided an opening for exposing an accessory shoe to which accessories such as a video light and an external microphone are detachably attached. The accessory shoe is disposed immediately in front of the viewfinder device 25 and is usually removably covered by a shoe cap 27 that opens and closes the opening. Further, on the front panel 21C, the light emitting unit 28 of the flash device and the microphone 29 having a built-in stereo system are disposed.

  As shown in FIG. 4, the display device 23 is attached to the display device side panel 21B so as to be changeable in posture. The display device 23 supports a flat panel (not shown) such as a flat liquid crystal display, a panel case 31 in which the flat panel is housed, and the panel case 31 so as to be changeable in attitude with respect to the display device side panel 21B. And a panel support portion 32. The panel support portion 32 has a horizontal rotation portion that allows the panel case 31 to be rotated approximately 90 degrees in the horizontal direction with the vertical axis as the rotation center, and approximately 180 in the front-rear direction with the panel case 31 with the horizontal axis as the rotation center. It has an anteroposterior pivoting portion which is pivotable.

  As a result, the display device 23 receives the panel case 31 from the storage state stored on the side of the display device side panel 21B, the state in which the panel case 31 is rotated 90 degrees to face the flat panel backward, and the state. A state where the flat panels are made to face forward by turning 180 degrees and a state of an intermediate position between them can be arbitrarily taken. A main body operation unit 33 including a plurality of operation buttons is provided on the side surface of the display device side panel 21B above the display device 23.

  As shown in FIG. 5, on the drive device side panel 21A, a deck cover 34 covering openably and closably the tape deck to which the tape cassette is detachably mounted is provided openably and closably. The tape deck transports the mounted tape cassette to a predetermined position, and after pulling out the magnetic tape and loading it on a rotating drum of the tape drive device, the magnetic tape is made to travel at a predetermined speed to record information signals (write And / or reproduction (readout). On the deck cover 34 covering the tape deck, the power switch 35 also serving as a mode selection switch, the shutter button 36 for taking a still image, and the image is continuously enlarged (tele) or reduced (wide) within a predetermined range. ), An open / close switch 38 for locking the deck cover 34 and releasing the lock, and a recording button 39 for shooting a moving image.

  The power switch 35 has a function of turning on and off the power by a turning operation, and a function of switching so as to repeat a plurality of function modes by turning the power on. Further, a hand belt 51 is attached to the deck cover 34, and a hand pad 42 is attached to the hand belt 51. The hand belt 51 and the hand pad 42 support the user's hand holding the outer case 21 and prevent the digital video camera 20 from being removed and the like.

  As shown in FIGS. 5 and 6, on the rear surface of the outer case 21, there is provided a mounting portion 44 which is a battery storage portion to which the battery device 1 as a portable power source is detachably mounted. The mounting portion 44 is disposed below the approximate center of the back surface of the exterior case 21, and is provided so as to open rearward in the rear panel 21D that constitutes the back surface of the exterior case 21. A drive device side panel 21A is provided on the right side of the rear panel 21D. And the video recording button 39 is arrange | positioned at this drive device side panel 21A. Further, on the left side of the rear panel 21D, a display device side panel 21B is provided. A light emitting button 46 of a flash device and a night shot changeover switch 47 are disposed on the display device side panel 21B.

  As shown in FIG. 7, the rear panel 21D is formed of a panel member formed to be long in the vertical direction, and a mounting portion 44 formed of a recessed portion is provided on one surface of the rear panel 21D. The mounting portion 44 has a size substantially equal to that of the battery device 1 (correctly, the length in the width direction X1 is substantially equal, but the length in the longitudinal direction Y1 corresponds to the length of the battery device 1 A rectangular opening 45 is provided having a length that adds a gap for enabling storage in the opening 45 by rotating the battery device 1 around one side as a rotation center.

  The opening 45 is a bottom surface 45a showing a rectangular mounting bottom surface showing one specific example of the second surface of the mounting portion 44, and one side of the bottom surface 45a in the longitudinal direction Y1 and the bottom surface A lower surface 45b showing a specific example of the first surface substantially perpendicular to 45a and showing the mounting lower surface, and continuous to the other side of the bottom surface 45a in the longitudinal direction Y1 and substantially perpendicular to the bottom surface 45a And a left side surface 45d continuous to one side of the width direction X1 orthogonal to the longitudinal direction Y1 of the bottom surface 45a and showing a mounting left side surface substantially perpendicular to the bottom surface 45a, and a width of the bottom surface 45a And a right side surface 45e which is continuous with the other side in the direction X1 and indicates a mounting right side surface substantially perpendicular to the bottom surface 45a. The opening 45 is provided with the longitudinal direction Y1 directed in the vertical direction.

  Further, an upper decorative surface portion 48 projecting upward is provided on the upper surface portion 45c, and the upper decorative surface portion 48 is provided with an insertion hole 48a through which the operation convex portion 66 is inserted. Further, a lower decorative surface portion 49 developed so as to continuously extend in a region from the side to the lower side is provided in a portion ranging from the lower portion of the right side surface portion 45e to the lower surface portion 45b. And the fitting hole 50 where the connection terminal 56 mentioned later is fitted is provided in the approximate center of lower surface part 45b. The fitting hole 50 is formed as a continuous notch starting from the lower surface 45b and extending to the middle of the bottom surface 45a.

  Further, in the bottom surface portion 45a of the opening 45, two first through holes 51a and 51b through which a first hook 61 described later is penetrated and two second through holes 52b through which the second hook 62 is passed Through holes 52a, 52b are provided. The two first through holes 51a and 51b are provided along the left side surface 45d of the opening 45, and the first lower through holes 51a are disposed at a predetermined distance from the lower surface 45b. A first upper through hole 51b is disposed at a predetermined distance from the first lower through hole 51a. The two second through holes 52a and 52b are provided along the right side surface 45e of the opening 45, and the second lower through holes 52a are disposed at a predetermined distance from the lower surface 45b. A second upper through hole 52b is disposed at a predetermined distance from the second lower through hole 52a. The first through holes 51a and 51b and the second through holes 52a and 51b are provided so as to be symmetrical in left and right. The first through holes 51a and 51b and the second through holes 52a and 52b are formed in the opening 45 so that the first hook 61 and the second hook 62 can move vertically by a predetermined distance. It is formed as a rectangular hole extending in the longitudinal direction Y1.

  Furthermore, as shown in FIGS. 9A to 9C, the first lower through holes 51a are formed by the first engagement pieces 7a and the second engagement pieces 7a of the first engagement portion 7 of the battery device 1 attached to the attachment portion 44. It is provided so as to be in a positional relationship facing the first opening 10a set between the engaging piece 7b. Similarly, the second lower through hole 52 a is a third opening set between the first engagement piece 8 a and the second engagement piece 8 b of the second engagement portion 8 of the battery device 1. It is provided so as to be in a positional relationship facing 10c. Further, the first upper through hole 51 b is formed in the second opening 10 b set between the second engagement piece 7 b and the third engagement piece 7 c of the first engagement portion 7 of the battery device 1. It is provided so as to be in an opposing positional relationship. Similarly, the second upper through hole 52 b is a fourth opening 10 d set between the second engagement piece 8 b and the third engagement piece 8 c of the second engagement portion 8 of the battery device 1. It is provided so that it may become a positional relationship facing.

  Further, at both corners of the lower end of the opening 45, two projecting pieces 55a and 55b for positioning and engaging and supporting the battery device 1 are provided. The two projecting pieces 55a and 55b are formed to project upward from the lower surface 45b with a predetermined gap between the two projecting pieces 55a and 55b. When the battery device 1 is attached, the first engagement piece 7a of the first engagement portion 7 of the battery device 1 is engaged with the first protrusion 55a, and the second protrusion 55b of the battery device 1 The first engagement piece 8 a of the second engagement portion 8 is engaged. A connection terminal 56 which is detachably connected to the output terminal 3 when the battery device 1 is attached is disposed substantially in the middle between the first projection 55a and the second projection 55b.

  The connection terminal 56 has a shape and a structure corresponding to the output portion of the output terminal 3 of the battery device 1. That is, the connection terminal 56 is a number of electrodes corresponding to the number of electrodes of the output terminal 3 and is four main body side electrodes 57 that can be inserted into the four electrode slits 17a, and two positioning slits There are two guide pieces 58 which can be inserted into 17b and 17b respectively. The four main body side electrodes 57 are arranged at equal intervals at predetermined intervals in the width direction X1 of the mounting portion 44, and two guide pieces 58 are provided on the outer side of the four main body electrodes 57 at predetermined intervals.

  As shown in FIG. 8, the slide member 60 is disposed on the rear surface of the rear panel 21D having the mounting portion 44, and the support plate member 64 is disposed on the rear surface. The slide member 60 is supported slidably in the vertical direction, which is the longitudinal direction Y1 of the mounting portion 44, with respect to the rear panel 21D. Further, the support plate member 64 is fixed to the rear panel 21D, and the support plate member 64 prevents the slide member 60 from falling off. And, between the slide member 60 and the rear panel 21D, a coil spring 65 showing one specific example of the biasing member for biasing the slide member 60 in the direction away from the connection terminal 56 is interposed.

  The slide member 60 includes a base portion 60a formed of a substantially rectangular plate smaller than the bottom surface portion 45a of the opening 45, and an operation portion 60b provided to continuously extend upward to the upper side of the base portion 60a. ing. A first hook 61 and a second hook 62 are provided on one surface of the base 60a at predetermined intervals. The first hook portion 61 is disposed on one side in the width direction X1 of the base portion 60a, and the second hook portion 62 is disposed on the other side in the width direction X1 of the base portion 60a. The first hook portion 61 includes a first hook piece 61a located on the side away from the operation portion 60b and a second hook piece 61b located on the side closer to the operation portion 60b. Similarly, the second hook portion 62 is constituted by a first hook piece 62a located on the side away from the operation portion 60b and a second hook piece 62b located on the side closer to the operation portion 60b.

  The two hooks 61a and 61b of the first hook 61 are arranged in series in the longitudinal direction Y1 of the base 60a, and similarly, the two hooks 62a and 62b of the second hook 62 are bases They are arranged in series in the longitudinal direction Y1 of the portion 60a. The four hook pieces 61a, 61b, 62a, 62b are arranged to be symmetrical with respect to the longitudinal direction Y1 of the base portion 60a. Moreover, the nail | claw part which protrudes in the operation part 60b side is each provided in each front-end | tip of four hook piece 61a-62b. Each claw portion is extended to an appropriate length so as to be substantially parallel to the base portion 60a. The four hook pieces 61a to 62b are slidably inserted in the four through holes 51a, 51b, 52a, 52b of the rear panel 21D from the rear side. The inner and outer surfaces of the tips of the hooks of the four hook pieces 61a to 62b are easily engaged with or disengaged from the first engaging portion 7 and the second engaging portion 8 of the battery device 1. In order to do so, it is preferable to provide an inclined surface having an appropriate size.

  Furthermore, in each of the hooks of the four hook pieces 61a to 62b, a first judgment convex that is respectively inserted into the second judgment concave portions 9a and 9b and the third judgment concave portions 13a and 13b of the battery device 1. The portions 53a, 53b and the second judgment convex portions 54a, 54b are provided. The four discrimination convex portions 53a to 54b are formed on the outer surface of each claw portion so as to protrude in the direction away from the base portion 60a. The four discrimination convex portions 53 a to 54 b have a role of discriminating the first battery device 1 which can be mounted on the mounting portion 44 and the second battery device which is not so, and the first battery device 1 A second battery device which can be mounted but which has substantially the same outer shape and does not have the second discriminating recess 9a, 9b and the third discriminating recess 13a, 13b can not be installed. .

  In order to ensure such a function, as shown in FIGS. 9A to 9C, the first hook piece 61a of the first hook portion 61 having the first determination convex portion 53a is a battery mounted on the mounting portion 44. It is provided in the positional relationship which can be engaged with the 2nd engaging piece 7b of the 1st engaging part 7 of the apparatus 1, and can be inserted in the 2nd recessed part 9a for discrimination | determination. Similarly, the second hook piece 61b of the first hook portion 61 having the first determination convex portion 53b can be engaged with the third engagement piece 7c of the first engagement portion 7 of the battery device 1 and It is provided in the positional relationship which can be inserted in the 2nd recessed part 9b for discrimination | determination. The first hook piece 62a of the second hook portion 62 having the second determination convex portion 54a can be engaged with the second engagement piece 8b of the second engagement portion 8 of the battery device 1, and It is provided in the positional relationship which can be inserted in the 3rd recessed part 13a for discrimination | determination. Similarly, the second hook piece 62b of the second hook portion 62 having the second determination convex portion 54b and the third engagement piece 8c of the second engagement portion 8 of the battery device 1 can be engaged and It is provided in the positional relationship which can be inserted in the 3rd recessed part 13b for discrimination | determination. The first discrimination convex portions 53a to 54b indicate one specific example of the convex portions of the present application.

  A state in which the four hook pieces 61a to 62b are inserted through the four through holes 51a, 51b, 52a, 52b is shown in FIG. In this insertion state, the operation convex portion 66 provided on the operation portion 60b of the slide member 60 is slidably inserted through the insertion hole 48a provided on the upper decorative surface portion 48 of the rear panel 21D. The tip of is projected to the back side. The operation projection 66 is projected at substantially the same height in the same direction as the four hook pieces 61a to 62b. The base portion 60 a of the slide member 60 is provided with an elongated hole 67 for accommodating the coil spring 65 and an opening window 68 for avoiding interference with other parts.

  On one side of the elongated hole 67 of the base portion 60a in the longitudinal direction Y1, a slide-side spring receiving piece 69 on which one end of the coil spring 65 is seated is provided. The spring receiving portion 71 on the rear panel 21D side, which is provided to face the spring receiving piece 69, is inserted into the other side of the long hole 67 in the longitudinal direction Y1. The spring receiving portion 71 is provided on the back surface of the rear panel 21D, and the coil spring 65 is interposed between the spring receiving portion 71 and the spring receiving piece 69 in a compressed state. The slide member 60 is always biased in the direction away from the connection terminal 56 by the elastic force of the coil spring 65.

  The support plate member 64 slidably supports the slide member 60 with the rear panel 21D, and has a function of preventing the coil spring 65 from falling off. The support plate member 64 is smaller than the rear panel 21D, but larger than the slide member 60, and is fastened and fixed to the rear panel 21D by a fixing screw. The support plate member 64 is provided with a plurality of mounting brackets 64a and fixing portions 64b.

  The mounting unit 44 having such a configuration can be assembled, for example, as follows. First, as shown in FIG. 8, the slide member 60 is faced to the back surface of the rear panel 21D, and the support plate member 64 is disposed on the back surface so as to sandwich the slide member 60. Then, four hook pieces 61a, 61b, 62a, 62b projected on one surface of the base portion 60a of the slide member 60 are provided in the four through holes 51a, 51b, 52a, 52b provided in the opening 45 of the rear panel 21D. It penetrates from the back through. As a result, the tips of the four hook pieces 61a to 62b protrude into the opening 45, and a predetermined gap is set between the inner surface of each claw and the bottom surface 45a of the opening 45.

  At the same time, the operation convex portion 66 provided at the tip of the operation portion 60b of the slide member 60 is inserted through the insertion hole 48a provided in the upper decorative surface portion 48 protruding above the opening 45 of the rear panel 21D. Let Next, a coil spring 65 is interposed between the spring receiving portion 71 of the rear panel 21D and the spring receiving piece 69 of the slide member 60. Thereafter, the support plate member 64 is superimposed on the slide member 60, and the support plate member 64 is fastened and fixed to the rear panel 21D with a fixing screw. Thereby, the slide member 60 is slidably supported between the support plate member 64 and the rear panel 21D. The slide member 60 is always urged away from the connection terminal 56 by the elastic force of the coil spring 65. Thereby, the assembly of the mounting portion 44 is completed, and the assembly of the rear panel 21D becomes possible.

  The mounting and demounting operation of the battery device 1 with respect to the mounting unit 44 configured as described above can be performed, for example, as follows. 9A is an explanatory view of the rear panel 21D when the mounting portion 44 is viewed from the front, FIG. 9B is a state at the start of insertion of the battery device 1, and FIG. 9C is a lock state at the completion of the insertion of the battery device 1. FIG. 9B and 9C, the three engagement pieces 8a, 8b and 8c of the second engagement portion 8 and the two hook pieces 62a and 62b of the second hook portion 62 and the second projection piece 55b. The engagement relationship between the first and second engaging portions 7a, 7b, and 7c of the first engaging portion 7 and the two hooking pieces 61a and 61b of the first hook portion 61 and the first protrusion are symmetrical. Since the engagement relationship with the piece 55a is the same, the operation of one pair (the first engagement portion 7 or the like) including the first engagement portion 7 or the like will be described here, and the other pair (the second engagement portion The description of the operation of the engaging portion 8 or the like is omitted.

  First, the case where the battery device 1 is mounted on the mounting portion 44 will be described. In this case, as shown in FIG. 9B, the front side of the output terminal 3 side of the battery device 1 is faced to the lower side of the opening 45 of the mounting portion 44. Then, the first engagement piece 7 a of the first engagement portion 7 and the first engagement piece 8 a of the second engagement portion 8 provided on both sides in the width direction X of the first surface of the battery device 1 are The first protrusion 55 a and the second protrusion 55 b provided at both corners of the lower side of the opening 45 are engaged so as to be hooked respectively. In such an engaged state, the battery device 1 is pivoted so as to be close to the mounting portion 44, with the contact point with the two projecting pieces 55a and 55b as the pivot point.

  Thereby, the second engagement piece 7b of the battery device 1 approaches the first hook piece 61a, the third engagement piece 7c approaches the second hook piece 61b, and the second engagement piece 7b becomes the first hook piece 61a. Contact From this state, the battery device 1 is further rotated and pushed into the opening 45, so that the second engagement piece 7b connects the first hook piece 61a against the elastic force of the coil spring 65. The terminal 56 is pressed and moved. Then, when the second engagement piece 7b passes over the first hook piece 61a, the third engagement piece 7c then contacts the second hook piece 61b. Then, when the third engagement piece 7c passes over the second hook piece 61b, the battery device 1 is completely inserted into the opening 45, and the lower surface portion 5a which is the second surface of the battery device 1 is the attachment portion 44. It is in contact with the bottom surface 45a which is the second surface.

  As a result, the output terminal 3 of the battery device 1 is connected to the connection terminal 56 of the mounting portion 44. Thereby, the battery device 1 and the digital video camera 20 are electrically connected, and the power of the battery device 1 is supplied from the output terminal 3 to the digital video camera 20 through the connection terminal 56. As a result, operation of the digital video camera 20 becomes possible, and various operations such as photographing a subject and recording a recording medium, and viewing photographing information recorded on the recording medium on the display device 23 are performed. Can.

  In this case, in the second determination recess 9a provided in the first step surface 6a of the battery device 1, the first determination protrusion 53a provided in the first hook piece 61a of the first hook portion 61 is Be inserted. Similarly, in the third determination recess 13a provided on the second step surface 6b of the battery device 1, the second determination protrusion 54a provided on the first hook piece 62a of the second hook portion 62 is provided. Be inserted. Then, the first judgment convex portion 53b provided in the second hook piece 61b of the first hook portion 61 is inserted into the second judgment concave portion 9b provided in the first step surface 6a of the battery device 1 Be done. Similarly, in the third determination recess 13b provided on the second step surface 6b of the battery device 1, a second determination protrusion 54b provided on the second hook piece 62b of the second hook portion 62 is provided. Be inserted.

  As a result, the first hook piece 61a and the second hook piece 61b are freed, and the slide member 60 slides away from the connection terminal 56 by the elastic force of the coil spring 65. As a result, as shown in FIG. 9C, the first hook piece 61a is engaged with the second engagement piece 7b, and the second hook piece 61b is engaged with the third engagement piece 7c. Similarly, in the second hook portion 62, the first hook piece 62a is engaged with the second engagement piece 8b, and the second hook piece 62b is engaged with the third engagement piece 8c. As a result, the battery device 1 is locked by the four hook pieces 61a, 61b, 62a, 62b engaged with the four engaging pieces 7b, 7c, 8b, 8c, and fixed to the mounting portion 44.

  On the other hand, the battery device to be mounted on the mounting portion 44 includes the first discrimination convex portions 53a, 53b and the second of the mounting portion 44 on the first step surface 6a and the second step surface 6b. If the second discrimination concave portions 9a and 9b and the third discrimination concave portions 13a and 13b corresponding to the discrimination convex portions 54a and 54b are not provided, the battery device is attached to the mounting portion 44. Is impossible.

  Thus, the battery device 1 is provided with the second discriminating concave portions 9a and 9b and the third discriminating concave portions 13a and 13b, and the mounting portion 44 further corresponds to the first discriminating convex portions 53a and 53b and the second The first and second determination convex portions 54a and 54b are provided. Thereby, even if the type of the battery device further increases, the type of the battery device can be determined with a simple configuration without forming the shapes of the first determination concave portions 15a and 15b of the battery device 1 more complicated. it can.

  When taking out the battery device 1 attached to the attachment portion 44, as shown in FIG. 9C, the user operates the operation convex portion 66 to the open side by manual operation. That is, in this embodiment, the user presses the operation convex portion 66 to slide the slide member 60 toward the connection terminal 56 against the elastic force of the coil spring 65. Then, the battery device 1 can be taken out by moving the slide member 60 to the point where the four hook pieces 61a, 61b, 62a, 62b separate from the four engagement pieces 7b, 7c, 8b, 8c. Then, the end opposite to the output terminal 3 of the battery device 1 is raised, and the battery device 1 is rotated about the two first engagement pieces 7a and 8a engaged with the two projection pieces 55a and 55b. By doing this, the battery device 1 can be removed from the mounting portion 44.

  10 and 11A show a second embodiment of the mounting unit according to the electronic device of the present invention. The difference between the mounting portion 74 and the mounting portion 44 according to the first embodiment is that the first hook portion 81 and the second hook portion 82 are fixed to the opening 75 of the rear panel 73 and mounted. The point is that the stopper member 77 for limiting the movement of the battery device 1 mounted at the predetermined position of the portion 74 is provided. The other parts of the configuration are the same as those of the first embodiment, so the same reference numerals are given to the same parts and redundant explanations are omitted, and different parts will be mainly described.

  The opening 75 of the rear panel 73 is continuous to the bottom surface 75a which is the second surface of the substantially rectangular mounting portion 74 and one side of the bottom surface 75a in the longitudinal direction Y1 and substantially perpendicular to the bottom surface 75a. A lower surface 75b, which is a first surface, and a left side surface 75d continuous to one side of the width direction X1 orthogonal to the longitudinal direction Y1 of the bottom surface 75a and substantially perpendicular to the bottom surface 75a; It has a right side surface 75e which is continuous with the other side in the width direction X1 and which is substantially perpendicular to the bottom surface 75a. The bottom surface 75a, the lower surface 75b, the left side surface 75d, and the right side surface 75e constitute an opening 75 for the mounting portion 74. The opening 75 is provided in the rear panel 73 with the longitudinal direction Y1 directed in the vertical direction.

  The first hook portion 81 is disposed between the first hook piece 81a located on the connection terminal 56 side and the first hook piece 81a at a predetermined interval in the longitudinal direction Y1. have. The first hook piece 81 a is integrally formed so as to protrude inward from the left side surface portion 75 d of the rear panel 73. A first projecting piece 55a is provided on the connection terminal 56 side of the first hook piece 81a. Similarly, the second hook portion 82 is disposed between the first hook piece 82a located on the connection terminal 56 side and the first hook piece 82a at a predetermined interval in the longitudinal direction Y1. It has a hook piece 82b. The first hook piece 82 a is integrally formed so as to protrude inward from the right side surface 75 e of the rear panel 73. A second protruding piece 55b is provided on the connection terminal 56 side of the first hook piece 82a.

  The second hook piece 81 b of the first hook portion 81 is integrally formed continuously from the bottom surface 75 a of the opening 75 to the left side surface 75 d. Further, the second hook piece 82b of the second hook portion 82 is integrally formed continuously from the bottom surface portion 75a of the opening 75 to the right side surface portion 75e. In relation to these four hook pieces 81a, 81b, 82a, 82b and the left and right protrusion pieces 55a, 55b, a bottom hole 75a is provided with a hole 78 for injection molding using a mold. ing. Then, between the second protrusion 55 b and the fitting hole 50 for the connection terminal 56, a determination protrusion 79 for determining the type of the battery device 1 is provided.

  Further, in the respective hooks of the four hook pieces 81a to 82b, as in the first embodiment, the second discrimination concave portions 9a and 9b and the third discrimination concave portions 13a and 13b of the battery device 1 are respectively provided. Discrimination convex portions 53a, 53b, 54a, 54b to be inserted are provided. The four discrimination convex portions 53a to 54b are formed on the outer surface of each claw portion so as to protrude in the direction away from the bottom surface portion 75a.

  The stopper member 77 is disposed to be in contact with the right side surface 75 e on the side opposite to the lower surface 75 b of the mounting portion 74. The stopper member 77 projects from the upper portion of the battery device 1 mounted on the mounting portion 74 to restrict the upward movement of the battery device 1 in the longitudinal direction Y1, and is continuous with the stopper portion 77a and is an opening. It is comprised from the operation part 77b protruded ahead of the part 75. As shown in FIG. The stopper member 77 is always urged forward by an elastic member (not shown). At this time, the stopper portion 77 a is protruded above the battery device 1 to block the movement of the battery device 1 and the mounting portion It is preventing the escape from 74. Further, by pressing the operation portion 77b against the elastic force of the elastic member to retract the stopper portion 77a, the surface of the stopper portion 77a is pushed down to the same surface as the bottom surface portion 75a. Thus, movement of the battery device 1 in the longitudinal direction Y1 is possible.

  The mounting and demounting operation of the battery device 1 according to the first embodiment of the present invention to the mounting portion 74 having such a configuration can be performed, for example, as follows. 11A is an explanatory view of the rear panel 73 when the mounting unit 44 is viewed from the front, and FIG. 11B is a state at the start of insertion of the battery device 1 and FIG. 11C is a lock state at the completion of the insertion of the battery device 1. FIG. 11B and 11C, the three engagement pieces 8a, 8b and 8c of the second engagement portion 8 and the two hook pieces 82a and 82b of the second hook portion 82 and the second projection piece 55b. The engagement relationship between the first and second engaging portions 7a, 7b and 7c of the first engaging portion 7 and the two hooking pieces 81a and 81b of the first hook portion 81 and the first protrusion are symmetrical. Since the engagement relationship with the piece 55a is the same, the operation of one pair (the first engagement portion 7 or the like) including the first engagement portion 7 or the like will be described here, and the other pair (the second engagement portion The description of the operation of the engaging portion 8 or the like is omitted.

  First, the case where the battery device 1 is mounted on the mounting portion 74 will be described. In this case, as shown in FIG. 11B, the lower surface portion 5a of the battery device 1 is made approximately parallel to the bottom surface portion 75a on the upper side of the opening 75 of the mounting portion 74 (the opposite side of the connection terminal 56). Then, the battery device 1 is pushed against the biasing force of the stopper member 77, and the first opening 10a between the first engagement piece 7a and the second engagement piece 7b of the first engagement portion 7 is formed. The first hook piece 81a of the first hook portion 81 is inserted into the first hook portion 81a. At the same time, the second hook piece 81b of the first hook portion 81 is inserted into the second opening 10b between the second engagement piece 7b and the third engagement piece 7c of the first engagement portion 7. As a result, the lower surface 5 a, which is the second surface of the battery device 1, is in contact with the bottom surface 75 a, which is the second surface of the mounting portion 74.

  In this case, in the second discrimination recess 9a provided on the first step surface 6a of the battery device 1 as in the above embodiment, the first hook piece 81a of the first hook portion 81 is provided. The discrimination convex portion 53a is inserted. Similarly, in the third determination recess 13a provided on the second step surface 6b of the battery device 1, the second determination protrusion 54a provided on the first hook piece 82a of the second hook portion 82 is provided. Be inserted. Then, the first judgment convex portion 53b provided in the second hook piece 81b of the first hook portion 81 is inserted into the second judgment concave portion 9b provided in the first step surface 6a of the battery device 1 Be done. Similarly, in the third determination recess 13b provided on the second step surface 6b of the battery device 1, a second determination protrusion 54b provided on the second hook piece 82b of the second hook portion 82 is provided. Be inserted.

  Next, the battery device 1 is slid to the connection terminal 56 side. Thereby, as shown in FIG. 11C, in the first hook portion 81, the second engagement piece 7b is engaged with the first hook piece 81a, and the third engagement piece 7c is engaged with the second hook piece 81b. Be done. Similarly, in the second hook portion 82, the second engagement piece 8b is engaged with the first hook piece 82a, and the third engagement piece 8c is engaged with the second hook piece 82b. As a result, the battery device 1 is locked by the four hook pieces 81a, 81b, 82a, 82b engaged with the four engagement pieces 7b, 7c, 8b, 8c. At the same time, as the stopper member 77 is urged outward, the stopper portion 77a is protruded above the battery device 1, and the stopper portion 77a contacts the third step surface 6c of the battery device 1. As a result, the movement of the battery device 1 in the longitudinal direction Y1 is blocked, and the detachment of the battery device 1 from the mounting portion 74 is prevented.

  At this time, the output terminal 3 of the battery device 1 is connected to the connection terminal 56 of the mounting portion 74. Thereby, the battery device 1 and the digital video camera 20 are electrically connected, and the power of the battery device 1 is supplied from the output terminal 3 to the digital video camera 20 through the connection terminal 56. As a result, operation of the digital video camera 20 becomes possible, and various operations such as photographing a subject and recording a recording medium, and viewing photographing information recorded on the recording medium on the display device 23 are performed. Can.

  In addition, the battery device to be attached to the attachment portion 74 includes the first determination convex portions 53a and 53b and the second determination protrusion on the first step surface 6a and the second step surface 6b. If the second discrimination concave portions 9a and 9b and the third discrimination concave portions 13a and 13b corresponding to the portions 54a and 54b are not provided, the battery device can not be attached to the mounting portion 74. It is.

  Thus, the mounting portion 74 of this embodiment is provided with the first determination convex portions 53a and 53b and the second determination convex portions 54a and 54b in addition to the conventional determination protrusion 79. Therefore, even if the type of the battery device further increases, the type of the battery device can be determined with a simple configuration without complicating the shape of the determination projection 79. The battery device 1 can be mounted not only on the mounting portion 44 of the first embodiment but also on the mounting portion 74 of the second embodiment having a different mounting structure.

  Next, when taking out the battery device 1 attached to the attachment unit 74, as shown in FIG. 11C, the user manually operates the operation unit 77b to the open side. That is, in this embodiment, the user presses the operation portion 77b to push down the surface of the stopper portion 77a of the stopper member 77 to the same surface as the bottom surface portion 75a against the biasing force of the elastic body. From this state, the battery device 1 is slid to the point where the four engagement pieces 7b, 7c, 8b and 8c are separated from the four hook pieces 81a, 81b, 82a and 82b. As a result, the engagement between the four engagement pieces 7b, 7c, 8b and 8c and the four hook pieces 81a, 81b, 82a and 82b is released, and the battery device 1 can be taken out. At this time, the output terminal 3 of the battery device 1 is peeled off from the connection terminal 56, and the electrical connection between the battery device 1 and the digital video camera 20 is released. Therefore, the battery device 1 can be taken out by pulling the battery device 1 away from the opening 75.

  12 and 13 show a second embodiment of the battery device of the present invention. The difference between the battery device 1A according to the second embodiment and the battery device 1 according to the first embodiment is that the second discrimination recess 9A is used and the corner of the first step surface 6aA is used as the output terminal 3 The third discrimination recess 13A is provided from one end of the side along the longitudinal direction Y with a predetermined length R, and similarly, the corner of the second step surface 6bA from the one end on the output terminal 3 side It is a point chamfered with a predetermined length R along the longitudinal direction Y. The other configuration is the same as that of the battery device 1 according to the first embodiment.

  In this embodiment, the length R of the second discrimination recess 9A indicating the lower chamfered portion and the third discrimination recess 13A in the longitudinal direction Y is such that the third ribs 11c and 12c are from one end on the output terminal 3 side. It is set to be substantially the same as or less than the length until it is positioned. However, the length R of the second determination recess 9A and the third determination recess 13A according to the present invention is not limited to that of this embodiment, and may be variously changed according to the type of the battery device. May be For example, the lengths R in the longitudinal direction Y of the second determination recess 9A and the third determination recess 13A may be changed to be formed asymmetrically. In addition, the second determination recess 9A or the third determination recess 13A may be formed in one of the first step surface 6aA and the second step surface 6bA. Furthermore, the chamfering depths of the corners of the first step surface 6aA and the second step surface 6bA may be variously changed.

  FIGS. 14 and 15 show a third embodiment of the mounting portion according to the electronic device of the present invention, which corresponds to the battery device 1A according to the second embodiment described above. The difference between the mounting portion 74A and the mounting portion 74 according to the second embodiment is the first discrimination convex portion 53aA, provided on each hook portion of the first hook portion 81A and the second hook portion 82A. The shapes of the 53bA and the second judgment convex portions 54aA and 54bA correspond to the shapes of the second judgment concave portion 9A and the third judgment concave portion 13A of the battery device 1A. The other configuration is the same as that of the mounting portion 74 according to the second embodiment.

  In this embodiment, as shown in FIGS. 14 and 15, the side surfaces of the first hook piece 81aA and the second hook piece 81bA of the first hook portion 81A are provided with the second discrimination recess 9A of the battery device 1A. An inclined surface corresponding to the inclination angle is provided. Further, on the side surfaces of the first discrimination convex portions 53aA and 53bA, inclined surfaces continuously formed integrally with the inclined surfaces of the side surfaces of the first hook portion 81A are provided. Similarly, on the side surfaces of the first hook piece 82aA and the second hook piece 82bA of the second hook portion 82A, an inclined surface corresponding to the inclination angle of the third discrimination recess 13A of the battery device 1A is provided. Then, on the side surfaces of the second discrimination convex portions 54aA and 54bA, inclined surfaces continuously formed integrally with the inclined surfaces of the side surfaces of the second hook portion 82A are provided.

  FIG. 16 shows a fourth embodiment of the mounting portion according to the electronic device of the present invention corresponding to the battery apparatus 1A according to the second embodiment described above. The mounting unit 104 according to this embodiment is configured of a hollow battery holder 103.

  The mounting portion 104 is a first surface which is a second surface of the mounting portion 104 having a substantially rectangular shape, and a first surface which is continuous with one side of the bottom surface portion 105a in the longitudinal direction Y2 and which is substantially perpendicular to the bottom surface portion 105a. And an opening surface 105c facing the lower surface 105b and having the same shape as the lower surface 105b, and one side of the width direction X2 orthogonal to the longitudinal direction Y2 of the bottom surface 105a. A left step surface 107a continued with a step difference between the left side surface portion 105d substantially perpendicular to the bottom surface portion 105a and a right step surface 107b continued with a predetermined step difference on the other side in the width direction X2 of the bottom surface portion 105a; Right side surface portion 105e substantially perpendicular to the bottom surface portion 105a, and a mounting front surface portion facing the bottom surface portion 105a and continuous to be substantially perpendicular to the lower surface portion 105b. And a front portion 105f. The corner at which the left side surface 105d of the front side 105f intersects and the corner at which the right side surface 105e of the front side 105f intersects are each formed in an arc shape having a large radius of curvature. Further, the mounting portion 104 is configured by the bottom surface portion 105a, the lower surface portion 105b, the opening surface 105c, the left side surface portion 105d, the right side surface portion 105e, and the front surface portion 105f. The mounting portion 104 is provided in the battery holder 103 with the longitudinal direction Y2 directed vertically.

  The left step surface 107a and the right step surface 107b have substantially the same height (height) in the height direction Z2 from the bottom portion 105a as the first step surface 6aA and the second step surface 6bA of the battery device 1A. It is set to. Furthermore, the left step surface 107a and the right step surface 107b are formed to be substantially parallel to the bottom surface portion 105a. Further, as shown in FIG. 16 and the like, the mounting portion 104 connects one side of the bottom surface portion 105a in the width direction X2 to one side of the left step surface 107a in the width direction X2, and the bottom portion 105a and the left step surface 107a. A left connection surface 106a substantially vertical, the other side in the width direction X2 of the bottom surface portion 105a, and one side in the width direction X2 of the right step surface 107b are connected, and a right side substantially perpendicular to the bottom portion 105a and the right step surface 107b A connection surface 106 b is provided.

  The left connection surface 106a is provided with a first hook portion 111 continuously formed with a predetermined length in the longitudinal direction Y2 from one end on the lower surface portion 105b side. The first hook portion 111 is integrally formed so as to protrude inward from the left connection surface 106 a with a predetermined width and thickness. Similarly, the right connection surface 106b is provided with a second hook portion 112 continuously formed with a predetermined length in the longitudinal direction Y2 from one end on the lower surface portion 105b side. The second hook portion 112 is integrally formed so as to project inward from the right connection surface 106b with a predetermined width and thickness.

  In addition, at the corner where the left step surface 107a and the left side surface portion 105d intersect, the first determination convex portion 113 continuously and integrally formed with a predetermined length in the longitudinal direction Y2 from one end on the lower surface portion 105b side It is provided. The first determination convex portion 113 indicating the left inclined connection portion is formed to connect the left step surface 107a and the left side surface portion 105d at a predetermined inclination angle. Similarly, at the corner where the right step surface 107b and the right side surface portion 105e intersect, a second judgment convex portion 114 continuously and integrally formed with a predetermined length in the longitudinal direction Y2 from one end on the lower surface portion 105b side. Is provided. The second judgment convex portion 114 indicating the right side inclined connection portion is formed to connect the right step surface 107 b and the right side surface portion 105 e at a predetermined inclination angle.

  The mounting and demounting operation of the battery device 1A with respect to the mounting unit 104 having such a configuration can be performed, for example, as follows. First, the case where the battery device 1A is mounted on the mounting portion 104 will be described. In this case, on the upper side of the mounting portion 104, the front portion 5b, which is the first surface of the battery device 1A, faces the opening surface 105c of the mounting portion 104. Then, the first engagement portion 7 of the battery device 1A is engaged with the first hook portion 111, and similarly, the second engagement portion 8 of the battery device 1A is engaged with the second hook portion 112. . Next, the battery device 1A is inserted into the mounting portion 104 along the first hook portion 111 and the second hook portion 112 until the output terminal 3 and the connection terminal 56 are engaged.

  Thus, the first hook portion 111 is engaged with the first engagement piece 7a, the second engagement piece 7b, and the third engagement piece 7c of the first engagement portion 7 of the battery device 1A. Similarly, the second hook portion 112 is engaged with the first engagement piece 8a, the second engagement piece 8b, and the third engagement piece 8c of the second engagement portion 8 of the battery device 1A. Thereby, the movement of the battery device 1A in the height direction Z2 can be blocked. Further, as shown in FIG. 17, according to this embodiment, the mounting portion 104A can be accommodated in the mounting portion 104A whose dimension in the height direction Z2 is longer than that of the battery device 1A.

  Further, the amount of projection (width) of the third ribs 11c and 12c located farthest from the output terminal 3 of the battery device 1A is set to be substantially the same as the amount of projection N (width) N of the third engagement pieces 7c and 8c. It is done. Thus, when the battery device 1A is inserted into the mounting portion 104 from the back surface, the third ribs 11c and 12c abut the first hook portion 111 and the second hook portion 112. Thus, the user can instantly determine that the insertion direction of the battery device 1A is incorrect.

  Next, when taking out the battery device 1A attached to the attachment portion 104, the user grasps a part of the battery device 1A exposed from the attachment portion 104 and pulls it out to take out the battery device 1A. Can. Alternatively, the battery device 1A may be removed by pushing it out of the mounting portion 104 by a battery device removal portion (not shown).

  Also with the battery device 1A having such a configuration, the same effect as the battery device 1 according to the first embodiment described above can be obtained. That is, even if the type of the battery device further increases, the type of the battery device can be determined with a simple configuration without further complicating the shape of the first determination recessed portions 15a and 15b of the battery device 1. Further, the battery device 1A can be mounted also on mounting portions having different mounting structures, and effective use of the battery device can be achieved.

  As described above, according to the battery device, the electronic device, and the battery system of the present invention, even when the battery device and the electronic device have different attachment structures, the type of the battery device can be determined. One battery device can be used for a plurality of electronic devices, and conversely, one battery device can be used as a dedicated component for one electronic device. Thereby, the misuse of the battery device can be prevented, and the safety can be improved by using the predetermined battery device for a predetermined electronic device. In addition, by changing the length, width, and position of the convex portion, it is possible to perform type discrimination of multiple stages.

  The present invention is not limited to the embodiments described above and shown in the drawings, and various modifications can be made without departing from the scope of the invention. For example, although the example applied to a digital video camera as a specific example of the imaging apparatus has been described in the above embodiment, it is needless to say that the present invention can be applied to an analog video camera, electronic still camera, personal computer, electronic dictionary, DVD player, car It can be applied to navigation and various other electronic devices. In the above embodiment, the battery device is provided with six engagement pieces and the mounting portion is provided with four hook pieces or two hook portions. However, the engagement piece, the hook piece and the hooks are described. Of course, the number of parts is not limited to these.

1, 1A: battery device, 2: battery case, 3: output terminal, 4: upper case, 5: lower case, 5a: lower surface (second surface), 5b: front surface (first surface), 6a, 6aA, 6b, 6bA, 6c: step surface, 7: first engagement portion, 8: second engagement portion, 7a, 8a: first engagement piece, 7b, 8b: second engagement piece 7c, 8c: third engagement piece 9, 9A: second discrimination recess (recess, lower chamfer) 13, 13A: third discrimination recess (recess, lower chamfer) 20: digital Video camera (electronic device) 21 Outer case (case main body) 21D, 73 rear panel 44, 74, 74A, 104, 104A mounting portion 53a, 53aA, 53bA, 53bA, 113 for first determination Convex part (convex part), 54a, 54aA, 54b, 54ba, 114 ... Second discrimination convex portion (convex portion),
55a, 55b: projection piece 56: connection terminal 60: slide member 61, 81, 81A, 111: first hook portion 62, 82, 82A, 112: second hook portion 61a, 62a, 81a , 81aA, 82a, 82aA: first hook piece, 61b, 62b, 81b, 81bA, 82b, 82bA: second hook piece X, X1, X2: width direction, Y, Y1, Y2: longitudinal direction, Z, Z1, Z2 ... height direction

Claims (25)

An upper surface and a lower surface facing each other in the height direction, a left side and a right surface disposed between the upper surface and the lower surface facing each other in the width direction, and a length between the upper surface and the lower surface A battery case having a front surface and a back surface facing each other in the longitudinal direction, and including a battery cell;
An output terminal disposed on the front surface portion and the lower surface portion of the battery housing and configured to output the power of the battery cell;
A first engaging portion that protrudes from the lower surface portion to one side in the width direction with a predetermined width and thickness;
A first upper step surface portion provided on one side in the width direction of the lower surface portion in the direction from the lower surface portion to the upper surface portion with a predetermined level difference from the lower surface portion;
A first step provided on one side in the width direction of the lower surface portion, and having a step amount in the height direction from the lower surface portion larger than the first upper step surface portion in a direction from the lower surface portion toward the upper surface portion Lower step surface portion,
A second engaging portion that protrudes from the lower surface portion to the other side in the width direction with a predetermined width and thickness;
A second upper step surface portion provided on the other side in the width direction of the lower surface portion in the direction from the lower surface portion to the upper surface portion with a predetermined level difference from the lower surface portion;
A second step provided on the other side of the lower surface portion in the width direction, wherein a step amount in the height direction from the lower surface portion is larger than the second upper step surface portion in a direction from the lower surface portion toward the upper surface portion Lower step surface portion, and
At least a part of the lower surface side in the height direction is covered by the first engaging portion with the first upper step surface portion.
The lower surface side in the height direction is not covered by the first engaging portion in the first lower step surface portion and the portion near the left side surface portion or the right side surface portion ,
At least a part of the lower surface side in the height direction is covered by the second engaging portion with the second upper step surface portion.
The battery in which the said lower surface part side in the said height direction is not covered by the said 2nd engaging part by the part by the said left side part or the said right side part in the said 2nd lower side step surface part . The battery according to claim 1, wherein the battery case has a rib that connects the first engagement portion and the first upper step surface portion. The battery according to claim 2, wherein the length in the width direction of the first engaging portion is longer than the length in the width direction of the rib. The battery according to claim 2, wherein the length in the width direction of the first engaging portion is substantially equal to the length in the width direction of the rib. The battery according to any one of claims 1 to 4, wherein the first upper step surface portion is divided into three in the longitudinal direction. It is provided on one side in the width direction of the lower surface portion with a predetermined level difference from the lower surface portion in the direction from the lower surface portion to the upper surface portion, and is provided side by side with the first upper level surface portion. A first upper rear step surface portion;
A first rear engaging portion which protrudes from the lower surface portion to one side in the width direction with a predetermined width and thickness;
The first upper step surface portion is located at an end portion on the front portion side in one side in the length direction,
The first rear upper step surface portion is located at an end portion on the back surface side on the other side in the length direction,
The first engaging portion projects by a predetermined length in the longitudinal direction so as to cover the first upper step surface portion,
The battery according to any one of claims 1 to 3, wherein the first rear engagement portion is extended by a predetermined length in the length direction so as to cover the first rear upper step surface portion. The lower surface portion is provided with a predetermined level difference from the lower surface portion in the direction from the lower surface portion to the upper surface portion on one side in the width direction of the lower surface portion, and the first upper step surface portion and the first upper surface portion in the length direction A first intermediate upper step surface portion provided between the rear upper step surface portion;
A first intermediate engagement portion projected from the lower surface portion to one side in the width direction with a predetermined width and thickness;
The battery according to claim 6, wherein the first intermediate engagement portion is extended by a predetermined length in the length direction so as to cover the first intermediate upper step surface portion. The battery case has a side portion disposed between the first engagement portion and the first upper step surface portion.
A groove is formed by the first engaging portion, the first upper step surface portion, and the side surface portion,
The front portion side in the length direction in the groove portion is opened,
When the battery case is mounted on the battery mounting portion of the apparatus, the engaging claw provided on the battery mounting portion is inserted into the groove portion, and the engaging claw is inserted into the groove portion. The battery according to any one of claims 1 to 7, wherein the first engagement portion engages with the engagement claw. The battery according to any one of claims 1 to 8, wherein the first lower step surface portion extends outward in the width direction than the first engaging portion. The battery according to any one of claims 1 to 8, wherein the first lower step surface portion is located outside the first engaging portion in the width direction. The output terminal includes a positive electrode terminal and a negative electrode terminal, and the positive electrode terminal and the negative electrode terminal are respectively disposed in the electrode slit.
The battery according to any one of claims 1 to 10, wherein the front surface side and the lower surface side are open in the electrode slit and the rear surface and the upper surface side are closed. Positioning slits are provided on both sides in the width direction in which a plurality of the electrode slits are arranged,
The battery according to claim 11, wherein the positioning slit is open at the front side and the lower side, and closed at the rear side and the upper side. 12. The battery according to claim 11, wherein the outermost part on the front surface side in the battery casing protrudes outward more than the opening on the front surface side in the electrode slit in the length direction. The battery according to claim 12, wherein the outermost portion on the front surface side of the battery housing protrudes outward beyond the opening on the front surface side of the electrode slit and the positioning slit in the length direction. . A predetermined level difference is formed in the length direction between the opening on the front side of the electrode slit and the outermost portion of the front side of the battery casing. battery. A predetermined level difference is formed in the length direction between the opening on the front portion side in the electrode slit and the positioning slit and the outermost portion on the front portion side of the battery housing. The battery of item 12. A main portion including the upper surface portion, the first lower step surface portion, and a part of the front surface portion;
And a bottom portion that includes the lower surface portion and a portion of the front surface portion, and is disposed substantially at the center of the main body portion in the width direction.
The battery according to any one of claims 1 to 16, wherein a length of the bottom in the width direction is smaller than a length of the main portion in the width direction. The battery according to any one of claims 1 to 17, wherein the lower surface portion, the first lower step surface portion, and the first upper step surface portion extend in parallel with each other along the length direction. The length in the width direction of the battery case is larger than the length in the height direction, and the length in the length direction is larger than the length in the width direction. The battery described in the section. The battery according to any one of claims 1 to 19, wherein a corner on the front face side in the first engaging portion is chamfered. The battery according to any one of claims 1 to 20, wherein a concave portion is provided at a position where the front surface portion and the lower surface portion are connected and the output terminal is adjacent in the width direction. . The length in the length direction in the first upper step surface portion and the length in the length direction in the first rear upper step surface portion are set to different lengths. battery. The length in the length direction of the first upper step surface portion, the length in the length direction of the first intermediate upper step surface portion, and the length in the length direction of the first rear upper step surface portion The battery according to claim 7, wherein the length in the length direction of the first middle upper step surface portion is set to be the second longest. The thickness in the height direction in the first engaging portion is equal to the step amount between the first upper step surface portion and the first lower step surface portion. Battery. The battery case includes an upper case having the upper surface and a lower case having the lower surface.
The battery according to any one of claims 1 to 24, wherein the first engagement portion, the first upper stepped surface portion, and the first lower stepped surface portion are provided in the lower case.

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