JP2005216806A - Battery housing structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent contact of battery contact pieces extending in the direction where battery terminals approaches and stands in a line. <P>SOLUTION: First and second battery contact pieces 301, 302 are installed on the bottom surface 12 of a battery chamber 10. The first and second battery contact pieces 301, 302 have similar constitution. The battery contact pieces 301, 302 extend in the direction where terminals 15, 16 stand in a line so as to be apart from the bottom surface 12. The first and second battery contact pieces 301, 302 have turning stop parts 411, 412 respectively projecting from base end parts 321, 322 to other battery contact piece side. The turning stop parts 411, 412 prevent turning and displacement of the first and second battery contact pieces 301, 302 along the bottom surface 12 toward other contact pieces. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a battery housing structure provided in a battery chamber of a digital camera, for example.

  In order to store a battery as a power source of the digital camera, a battery chamber is provided inside the camera. It is known that the battery chamber can store either two cylindrical dry batteries or a pack type dry battery in which two cylindrical dry batteries are integrally formed.

  In such a battery chamber, the battery is accommodated, for example, by being inserted in the longitudinal direction toward the bottom surface, and the insertion opening is closed with a battery lid. Two contact pieces for contacting both terminals of the battery are provided on the bottom surface of the battery chamber and the battery lid, respectively. Here, the two contact pieces provided on the bottom surface are formed of an elastic member, the battery is pressed by the spring force, and the battery terminal facing the battery cover presses the two contact pieces provided on the battery cover. And contact is ensured.

  Here, the length of the cylindrical dry battery is shorter than that of the pack type battery. Therefore, in order to bring not only the pack-type battery but also the cylindrical battery into contact with the contact piece of the battery lid, it is necessary to increase the spring force of the contact piece provided on the bottom surface.

  On the other hand, in recent years, there has been a strong demand for miniaturization of digital cameras, and accordingly the battery compartment has to be downsized. However, in order to increase the spring force of the contact piece, it is necessary to enlarge the contact piece. If the contact piece is provided extending in the width direction of the battery chamber, the battery chamber also matches the size of the contact piece. I have to make it bigger.

  Therefore, it is conceivable to extend the contact piece in the longitudinal direction of the battery chamber. However, since the two terminals of the battery facing the bottom surface are also arranged in the longitudinal direction, when the contact piece is brought into contact with the terminal, the two contact pieces are arranged. Must be in close proximity. In such a case, the contact piece contacts another contact piece even if it is slightly displaced.

  However, the contact piece extended in the longitudinal direction has to have a long stroke in order to obtain a large spring force, and even with a small amount of displacement in the fixed part, the contact piece is greatly rotated and displaced, so the contact between the two contact pieces It is difficult to avoid.

  Therefore, the present invention has been made in view of the above-described problems, and was made to prevent contact pieces provided close to each other and extended in the longitudinal direction from coming into contact with each other. is there.

  In the battery storage structure according to the present invention, the battery is inserted so that the first and second terminals of the battery arranged in the direction orthogonal to the insertion direction face the bottom surface by inserting the battery from the insertion port toward the bottom surface. A battery chamber for storing the battery, and a base end portion along the bottom surface in the vicinity of the first terminal, extending from the bottom surface toward the insertion port, and a tip portion elastically contacting the second terminal in the direction opposite to the insertion direction. In the vicinity of the first battery contact piece formed on the leaf spring and the second terminal, the base end portion extends along the bottom surface, extends from the bottom surface toward the insertion port, and the distal end portion reverses the insertion direction of the first terminal. The second battery contact piece formed on the leaf spring so as to be elastically contacted in the direction, and the first and second battery contact pieces are centered on the base end portion and directed toward the other battery contact piece along the bottom surface. And an anti-rotation portion for preventing rotational displacement.

  Preferably, the anti-rotation portion is formed integrally with each of the first and second battery contact pieces, and more preferably, the anti-rotation portion protrudes from the vicinity of the base end portion toward the other battery contact piece. , At least a part of the tip thereof is formed of a tongue piece having a shape capable of coming into contact with a side wall provided in the battery chamber.

  In the case where a bulging portion that bulges in the direction opposite to the direction in which the first and second battery contact pieces extend is provided at the tip of the rotation preventing portion, the bulging portion is associated with a receiving portion provided in the battery chamber. Match. Preferably, the receiving portion is provided on the bottom surface.

  The first and second battery contact pieces are preferably provided so as to be perpendicular to the bottom surface and sandwich a predetermined plane including the first and second terminals.

  The base end portions of the first and second battery contact pieces are preferably fixed to the side walls of the opposite battery chambers, and more preferably, the base end portions of the first and second battery contact pieces are respectively the first and second battery contact pieces. The first and second side walls are inserted and fixed to the side walls on the outer side of the battery chamber, respectively, by fixing portions connected to the base end portions.

  When the side wall of the battery chamber is constituted by two flat surfaces that are formed in a plane and facing each other and two curved wall surfaces that are opposed to each other and have an arc, the fixed portion is fixed to a portion that is offset from the arc center of the curved wall surface. The Moreover, it is preferable that the 1st and 2nd battery contact piece has the same shape.

  The present invention prevents the first and second battery contact pieces provided in close proximity and extended in the longitudinal direction from contacting each other.

  An embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows a perspective view of the battery chamber. The battery chamber 10 is provided inside a device such as a digital camera. The battery chamber 10 stores, for example, two cylindrical batteries (not shown) in parallel, and one pack-type battery 13 (see FIG. 1) in which two cylindrical batteries are integrally formed. Can be stored.

  The battery chamber 10 has a side wall and a bottom surface 12. The side wall is formed in a flat surface, the first and second flat surfaces 20, 21 facing each other, and the first and second curved wall surfaces 22, 23 facing each other and exhibiting an arc. Consists of. Since two cylindrical batteries 83 or one pack-type battery 13 is inserted into the bottom surface 12, the length in the longitudinal direction is approximately twice the length in the width direction.

  Two terminals 15 and 16 (see FIG. 3) arranged in a direction orthogonal to the longitudinal direction of the battery 13 are provided on one end surface 40 (see FIG. 3) of the pack-type battery 13. A terminal is not provided on the other end surface (not shown) of the battery 13. The battery 13 is inserted in the longitudinal direction from the insertion port 11 toward the bottom surface 12 so that the end surface 40 faces the bottom surface 12 of the battery chamber 10, and is stored in the battery chamber 10. The insertion slot 11 is closed by a battery lid (not shown). When the battery lid is closed, both end surfaces face the bottom surface 12 and the battery lid, respectively.

  The bottom surface 12 is provided with first and second battery contact pieces 301 and 302 at positions facing two terminals (first and second terminals 15 and 16 (see FIG. 2)). The first and second battery contact pieces 301 and 302 are fixed to the first and second curved wall surfaces 22 and 23 by screws 311 and 312. The battery lid is also provided with two battery contact pieces (not shown), and when two cylindrical batteries (not shown) are inserted, the terminals of the cylindrical battery face the battery contact pieces. To do.

  FIG. 2 shows the battery chamber 10 when the battery 13 is inserted. 2 and 3, the battery 13 is inserted, but the first and second terminals 15 and 16 facing the bottom surface are not in contact with the battery contact pieces 302 and 301. FIG.

  The first and second terminals 15 and 16 are recessed compared to the end face 40 of the battery 13 and are formed in a circular shape when viewed from the bottom surface side. When the battery 13 is housed in the battery chamber 10, the center positions of the terminals 15 and 16 are located on the center plane P in the width direction (vertical direction in FIG. 2) of the battery chamber 10. That is, the plane P includes the terminals 15 and 16 and is a plane perpendicular to the bottom surface 12.

  The first and second battery contact pieces 301, 302 have base end portions 321, 322 inserted from the outside of the battery chamber 10 toward the inside of the battery chamber 10, and the base end portions 321 outside the battery chamber 10. , 322 are fixed to the first and second curved wall surfaces 22, 23 by fixing portions 381, 382. The fixing portions 381 and 382 are provided at positions shifted from the arc centers X and X 'of the first and second curved wall surfaces 22 and 23, respectively.

  The battery chamber 10 is provided in a camera body having a rectangular parallelepiped shape, for example, the first plane 20 is along the front wall surface or the rear wall surface of the camera body, for example, and the plane in contact with the center X of the curved wall surface 22 is the side wall surface of the camera body It is along. That is, the space formed between the wall surface constituting the camera body and the curved wall surface 22 is a space (dead space) that is not used. However, in the present embodiment, since the fixing portions 381 and 382 are provided at positions shifted from the arc centers X and X ′, the dead space is used to fix the battery contact pieces 301 and 302. .

  As shown in FIG. 2, the first and second battery contact pieces 301 and 302 are provided on both sides of the plane P. That is, the first and second battery contact pieces 301 and 302 are provided so as to be perpendicular to the bottom surface 12 and sandwich a predetermined plane (plane P) including the first and second terminals 15 and 16. The first and second battery contact pieces 301 and 302 do not cross the plane P, and the central plane M in the longitudinal direction (left and right direction in FIG. 2) of the battery chamber 13 is formed from one of the curved wall surfaces 22 and 23. It extends toward the other curved wall surface 23, 22 beyond.

  As shown in FIG. 3, the first battery contact piece 301 is in contact with the first bottom surface portion 12 a at the base end portion 321. The first battery contact piece 301 gradually extends away from the bottom surface 12 from the base end 321 toward the battery insertion port.

  As shown in FIG. 2, a bulging piece 391 that extends to the plane P toward the second battery contact piece 302 is provided at the tip 331 of the first battery contact piece 301. The bulging piece 391 has a protruding piece 401 formed by being bent by about 90 ° with respect to the first contact piece 301 so as to face the battery lid side. The protruding piece 401 stands substantially parallel to the central plane P, and is provided at a position that substantially overlaps the central position of the second terminal 16 when viewed from above. The second battery contact piece 302 is provided so that the base end portion 322 is in contact with the second bottom surface portion 12b, and is formed in the same manner as the first battery contact piece 301.

  The first and second bottom surface portions 12a and 12b that contact the battery contact pieces 301 and 302 are close to the curved wall surfaces 22 and 23, respectively, and the first and second terminals of the battery 13 when the battery 13 is stored. Located in the vicinity of 15 and 16, respectively. The first and second bottom surface portions 12a and 12b are slightly higher toward the insertion port than the third bottom surface portion 12c provided between the first and second bottom surface portions 12a and 12b.

  The first battery contact piece 301 is connected to the base end portion 321 and has a detent portion 411 that is a tongue piece protruding toward the second battery contact piece 302 as shown in FIG. A tip portion of the rotation preventing portion 411 has a bulging portion 421 that bulges in the direction opposite to the direction in which the first battery contact piece 301 extends. The rotation stopper 411 and the bulging portion 421 are in contact with the bottom surface portion 12a.

  A protrusion 50 that slightly rises from the bottom surface portion 12 a is provided between the rotation stopper 411 and the first curved side wall 22. The protrusion part 50 has the side wall surface 51 which opposes the rotation prevention part 411, and the bulging part 421 is engaging with the side wall surface 51 (receiving part).

  Here, the first battery contact piece 301 is only fixed by the screw 311 at the fixing portion 381. Therefore, the first battery contact piece 301 is rotationally displaced along the bottom surface 12 around the base end portion 321.

  If the first battery contact piece 301 is rotated and displaced slightly toward the second battery contact piece 302, the battery contact pieces 301 and 302 come into contact with each other, so that power cannot be properly supplied to the device body. However, in this embodiment, since the bulging portion 421 engages with the side wall surface 51, the first battery contact piece 301 cannot be rotationally displaced toward the second battery contact piece 302. Therefore, even when the battery contact pieces 301 and 302 are elongated in the longitudinal direction at positions where the battery contact pieces 301 and 302 are close to each other as shown in FIG. 2, the contact between the battery contact pieces can be prevented.

  The second battery contact piece 302 is also formed in the same manner as the first battery contact piece 301, and a protruding portion 52 is provided between the rotation preventing portion 412 and the second curved side wall 23, and bulges out. Similarly, the portion 422 engages the side wall surface 53.

  FIG. 4 is a perspective view of the first battery contact piece 301. The battery contact piece 301 is a plate spring that is integrally formed from a metal plate and includes a fixing portion 381, an arm portion 361, and a rotation preventing portion 411. The fixing portion 381 is connected to the base end portion 321 of the arm portion 361, is bent 90 ° downward in the figure with respect to the base end portion 321, is bent, and further extends in the width direction of the arm portion 361. The fixing portion 381 has a hole 383 for inserting a screw 311 (see FIG. 2). The arm portion 361 extends from the base end portion 321 to the tip end portion 331 while being bent so as to incline downward in the drawing.

  The rotation stopper 411 is connected to the base end 321 and extends in the width direction of the battery contact piece 301. A bulging portion 421 bulges at the tip of the rotation preventing portion 411 in a direction opposite to the direction in which the arm portion 361 extends. Note that the width direction in which the rotation preventing portion 411 extends is opposite to the direction in which the fixing portion 381 extends. Further, since the second battery contact piece 302 and the first battery contact piece 301 have the same shape, mass production is easy.

  FIG. 5 shows a state when the battery 13 is stored in the battery chamber 10. When the battery 13 is inserted toward the bottom surface 12, the second terminal 16 presses the protruding piece 401 of the first battery contact piece 301 toward the bottom surface 12. Since the first battery contact piece 301 is a leaf spring, when it is pressed by the terminal 16, it repels the pressing force and the protruding piece 401 presses the terminal 16 by spring force with the first bottom surface portion 12 a as a fulcrum. To do. Similarly, the second battery contact piece 302 press-contacts the first terminal 15. That is, the battery 13 is pressed by the first and second battery contact pieces 301 and 302 in the direction opposite to the insertion direction, whereby a battery contact piece (not shown) having the other end surface (not shown) provided on the battery lid. ). Therefore, the terminal provided on the end surface 40 of the battery properly contacts the battery contact piece provided on the bottom surface 12 and does not leave. When two cylindrical batteries (not shown) are accommodated in the two battery chambers 10, the terminals provided at both ends of the battery appropriately contact with the contact pieces provided on the battery lid and the bottom.

  Since the pack-type battery 13 is long, when the battery cover is closed and completely stored, the bottom surface 12 until the battery contact pieces 301 and 302 are substantially linear as shown in FIG. Is inserted into the battery chamber 10. On the other hand, when the cylindrical battery (not shown) is stored, its length is shorter than that of the pack-type battery, so that it is not inserted until the battery contact pieces 301 and 302 are substantially linear.

  In the present embodiment, the rotation preventing portions 411 and 412 engage with the receiving portions 51 and 53 provided on the bottom surface, but the receiving portions 51 and 53 may not be provided. That is, other configurations may be used as long as the rotation stoppers 411 and 412 abut against the side walls provided in the battery chamber 10 and the rotation of the battery contact pieces 301 and 302 is prevented. For example, the rotation stoppers 411 and 412 The rotation may be prevented by directly contacting the curved side walls 22 and 23.

The perspective view of the battery chamber of embodiment of this invention is shown. The top view when it sees from the upper direction (insertion side) of a battery chamber when a pack-type battery is inserted is shown. The side view of a battery chamber when a pack-type battery is inserted is shown. The perspective view of a battery contact piece is shown. A side view when a pack type battery is stored in a battery room is shown.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Battery chamber 12 Bottom surface 13 Battery 15 1st terminal 16 2nd terminal 51,53 Receiving part 301 1st battery contact piece 302 2nd battery contact piece 411,412 Anti-rotation part 421,422 Swelling part

Claims (10)

A battery chamber for storing the battery so that the first and second terminals of the battery arranged in a direction orthogonal to the insertion direction face the bottom surface by inserting the battery from the insertion port toward the bottom surface. When,
The base end portion extends along the bottom surface in the vicinity of the first terminal, extends from the bottom surface toward the insertion port, and the distal end portion elastically contacts the second terminal in the direction opposite to the insertion direction. A first battery contact formed on the spring;
The base end portion extends along the bottom surface in the vicinity of the second terminal, extends from the bottom surface toward the insertion port, and the tip portion elastically contacts the first terminal in the direction opposite to the insertion direction. A second battery contact formed on the spring;
Each of the first battery contact piece and the second battery contact piece includes a rotation preventing portion that prevents the first battery contact piece from being rotationally displaced about the base end portion toward the other battery contact piece along the bottom surface. Battery storage structure.   2. The battery housing structure according to claim 1, wherein the anti-rotation portion is integrally formed with each of the first and second battery contact pieces.   The anti-rotation portion is formed of a tongue piece that protrudes from the vicinity of the base end portion toward the other battery contact piece and has a shape in which at least a part of the tip thereof can come into contact with a side wall provided in the battery chamber. The battery housing structure according to claim 2, characterized in that:   A bulging portion that bulges in a direction opposite to a direction in which the first and second battery contact pieces extend is provided at a tip portion of the rotation preventing portion, and the bulging portion is provided in the battery chamber. The battery storage structure according to claim 3, wherein the battery storage structure is engaged with a portion.   The battery receiving structure according to claim 4, wherein the receiving portion is provided on the bottom surface.   2. The battery according to claim 1, wherein the first and second battery contact pieces are provided so as to sandwich a predetermined plane that is perpendicular to the bottom surface and includes the first and second terminals. Storage structure.   2. The battery housing structure according to claim 1, wherein base end portions of the first and second battery contact pieces are respectively fixed to side walls of the battery chambers facing each other.   The base end portions of the first and second battery contact pieces are inserted through the first and second side walls, respectively, and fixed portions connected to the base end portions, respectively, outside the battery chamber, respectively. The battery storage structure according to claim 7, wherein the battery storage structure is fixed to a side wall.   The side wall of the battery chamber is configured by two flat surfaces that are formed in a plane and facing each other, and two curved wall surfaces that are opposed to each other and exhibit an arc, and the fixed portion is located at a portion that is offset from the arc center of the curved wall surface. The battery housing structure according to claim 8, wherein the battery housing structure is fixed. The battery housing structure according to claim 1, wherein the first and second battery contact pieces have the same shape.

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