JP2008089754A - Cover opening/closing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cover opening/closing device, wherein the breakage of a cover is prevented even when the cover is shocked when it is opened, and it is hardly broken even when it is used over a long term. <P>SOLUTION: The cover opening/closing device includes: a battery cover 12 large enough to cover a battery housing part in a camera body; and a hinge unit for freely turnably coupling the battery cover 12 to the housing of the camera body, and is selectively shifted to a first state where the battery housing part is covered, and a second state where the battery housing part is exposed. The hinge unit couples the battery cover 12 with the housing so that the battery cover 12 can turn in a direction different from a turning direction when the battery cover 12 is shifted to the first state in the second state. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a lid opening / closing device that couples a lid so that the lid can be opened and closed.

  For portable electronic devices such as video cameras and digital still cameras, a lid that can conceal the battery compartment, a lid that can conceal a card slot to which a memory card can be attached and removed, and a terminal that can be connected to various signal cables Various lids such as a lid that can conceal the part are mounted. The lid as described above is generally configured to be freely pivoted to the device casing by a hinge using a single spindle, and the pivot angle of the lid is such as a battery housing portion. In many cases, the angle is 90 to 120 degrees from the state in which the concealed portion is concealed.

  In such portable electronic devices, when the lid is opened and the battery or memory card is replaced, if the portable electronic device is accidentally dropped, the lid or hinge may be damaged. There is. A configuration that solves such a problem is disclosed in, for example, Patent Document 1.

Patent Document 1 includes a lid that is formed so as to be able to close an opening provided in a housing main body, and is rotatably coupled to an elastic member disposed in the housing main body. Even if the lid receives a force that is further rotated beyond the rotatable range with respect to the elastic member, the elastic member elastically deforms the elastic member, so that deformation and breakage can be prevented. The elastic member is formed of a material having appropriate flexibility and elasticity such as polyethylene.
JP-A-5-251871

  However, since the elastic member disclosed in Patent Document 1 is formed of an extensible material such as polyethylene, it is easily fatigued or deteriorated with the opening and closing operation of the lid for a long period of time, and is easily damaged. End up. If the elastic member is damaged, there is a problem that the lid cannot be connected to the casing so as to be opened and closed.

  In view of the above problems, the present invention provides a lid opening / closing device that can prevent the lid from being damaged even when an impact is applied to the lid when the lid is opened, and that is not easily damaged even when used for a long period of time. The purpose is to provide.

  In order to achieve the above object, a lid opening / closing device of the present invention includes a cover main body having a size capable of concealing a concealed portion in an apparatus main body, and the cover main body with respect to a casing constituting an outer surface of the apparatus main body. A lid opening / closing device that is capable of selectively shifting between a first state in which the concealed portion is concealed and a second state in which the concealed portion is exposed. In the second state, the coupling member may be configured to rotate the cover body in the direction opposite to the direction of rotation when the cover body moves to the first state. It is connected to the housing.

  The lid opening / closing device of the present invention can prevent the lid body from being damaged even when an impact is applied when the lid body is opened.

  Further, even when used for a long period of time, there is almost no deterioration or fatigue of the movable parts in the lid opening / closing device, and durability can be improved.

  In the lid opening / closing apparatus according to the present invention, the coupling member includes a first coupling member disposed on the cover body, one end rotatably coupled to the housing, and the other end of the first coupling member. A second coupling member that is pivotably coupled to the housing, a first support shaft that pivotally couples one end of the second coupling member to the housing, and the second coupling member. The other end of the first connecting member may be configured to include a second support shaft that is rotatably connected to the end of the first connecting member. As described above, since the coupling member can be rotated by the two support shafts, the lid opening / closing device can be realized without using a component that is elastically deformed when the lid is opened / closed. Even if used, there is almost no deterioration of parts, and durability can be improved.

  A joining portion formed on the first coupling member; and a joined portion formed on the second coupling member and selectively shiftable between a state of being joined to the joining portion and a state of being separated from the joining portion. The joint portion and the joined portion are joined to each other when the cover body is in the first state or the second state, and the cover body is in the second state. Can be separated from each other when they are rotated in the direction opposite to the direction of rotation when shifting to the first state. With this configuration, when the cover body is rotated between the first state and the second state, the cover body is rotated in a direction different from the direction of rotation when the cover body unexpectedly shifts to the first state. Since this can be prevented, usability can be improved.

  The first coupling member may be slidably arranged with respect to the cover body. With this configuration, the cover body can be applied to a lid opening / closing device that slides and locks the cover body in the closed state.

  Further, the concealed part may be a battery storage part that can store a battery capable of supplying power to the device main body.

(Embodiment 1)
[1. Configuration of lid opening / closing device
[1-1. Configuration of equipment equipped with lid opening / closing device]
1 to 3 show the appearance of a device on which the lid opening / closing device of the first embodiment is mounted. 1 and 2 show the upright state of the device. FIG. 3 shows a state in which the device is turned upside down with respect to FIGS. 1 and 2.

  1 to 3, the camera body 1 has a lens unit 2 disposed on the front surface, an operation unit 3 disposed on a rear surface facing the front surface, and a liquid crystal display unit 4 on a first side surface adjacent to the front surface and the rear surface. A microphone, a zoom switch, and the like are disposed on the top surface 1a, and a cover unit 10 is disposed on the bottom surface 1b facing the top surface 1a. A battery housing portion 5 is built in a portion covered by the cover unit 10. In the present embodiment, a video camera will be described as an example of a device. However, other devices such as a digital still camera and a mobile phone may be used, and at least the cover unit 10 and the cover unit 10 can be concealed. Any device equipped with a battery storage unit 5 (an example of a concealment unit) may be used.

  The lens unit 2 includes an objective lens, a zoom lens, and the like, and an image pickup device constituted by a CCD image sensor or the like is disposed at the end of the camera body 1 in the lens optical axis direction. In the present embodiment, the objective lens included in the lens unit 2 is exposed on the front surface of the camera body 1.

  The operation unit 3 can perform various operations of the camera body 1 by the user. In the present embodiment, a release button capable of performing a still image or video shooting command operation, buttons capable of performing various menu operations, and the like are arranged.

  The liquid crystal display unit 4 is disposed on the first side surface so as to be freely opened and closed by a hinge (not shown). The liquid crystal display unit 4 is provided with a liquid crystal display of about 2 to 4 inches on the main surface thereof, an image being captured by an image sensor in the camera body 1, a memory card disposed in the camera body 1, and the like. The video read from the information medium can be displayed.

  As shown in FIG. 3, the battery housing 5 has a space in which the battery 6 can be attached and detached, as will be described later with reference to FIGS. 6 and 7, and the space can be concealed by the cover unit 10. It is configured. Note that specific configurations of the battery storage unit 5 and the cover unit 10 will be described later.

[1-2. Configuration of lid opening / closing device
FIG. 4A is an exploded perspective view of the lid opening / closing device of the present embodiment. FIG. 4B is an exploded perspective view showing the configuration of the hinge unit, and is an enlarged view of the vicinity of the hinge unit in FIG. 4A. FIG. 4C is an exploded perspective view showing the configuration of the cover unit, and is an enlarged view of the periphery of the cover unit in FIG. 4A.

  As shown in FIG. 4A, the lid opening / closing device of the present embodiment includes a battery case 11, a battery cover 12, a holding piece 13, a hinge unit 14, a first coil spring 15, a first support shaft 16, a screw 17, and an extrusion. A spring 18, a flexible printed circuit board (hereinafter referred to as FPC) 19, a rear frame 20, a screw 21, a lock knob 22, a second coil spring 23, a lock frame 24, and a screw 25 are provided. As shown in FIG. 4B, the hinge unit 14 includes a first coupling member 31, a second coupling member 32, a second support shaft 33, and an E ring 34. The cover unit 10 shown in FIG. 1 includes a battery cover 12, a pressing piece 13, a hinge unit 14, and screws 17 as shown in FIG. 4C.

  The battery case 11 (see FIG. 4A) is integrally molded with resin or the like, and a space in which the battery 6 can be stored is formed inside. The battery case 11 includes a screw hole 11a into which the screw 21 is screwed, a screw hole 11b into which the screw 25 is screwed, a hole 11c into which the first support shaft 16 is inserted and press-fitted, and a battery cover. A claw portion 11d that can be engaged with the claw portion 12c formed in the groove 12 and a notch portion 11e for disposing the lock knob 22 are formed. In the present embodiment, three screw holes 11 a are formed on the first side surface of the battery case 11. Further, one screw hole 11 b is formed on the second side surface adjacent to the first side surface of the battery case 11. Further, the hole 11 c is formed in the short side direction of the first side surface in the vicinity of the end portion of the first side surface of the battery case 11. The hole portion 11c is composed of first and second hole portions arranged on the same axis, and the first hole portion has an inner diameter through which the first support shaft 16 can be inserted. The hole has an inner diameter capable of press-fitting the first support shaft 16. Therefore, when the first support shaft 16 is mounted in the hole portion 11c, the first support shaft 16 is press-fitted and fixed in the second hole portion after being inserted through the first hole portion.

  The battery cover 12 is a member that is integrally formed of resin or the like and conceals the space in the battery case 11. Further, the battery cover 12 is arranged so that the outer surface thereof is exposed to the outside when assembled to the camera body 1. Further, minute irregularities may be formed on the outer surface 12e of the battery cover 12 so that the user can easily perform a sliding operation. In addition, the battery cover 12 has a screw hole 12 a into which the screw 17 is screwed on the inner surface, a rib 12 b that guides the hinge unit 14, and a claw portion 12 c that can be engaged with a claw portion 11 d formed in the battery case 11. And are formed. In the present embodiment, the screw holes 12a are formed at four locations. The ribs 12b are formed at two locations parallel to each other and are formed so as to be parallel to the sliding direction of the hinge unit 14. Two claw portions 12 c are formed near the edge of the inner surface of the battery cover 12.

  The holding piece 13 is a member that is integrally formed of resin or the like and that holds the hinge unit 14 together with the battery cover 12. As shown in FIG. 4C, four holes 13 a are formed through the presser piece 13 from the first surface exposed to the outside to the second surface disposed to face the battery cover 12. Also, on the first surface of the pressing piece 13, two ribs 13 b are formed that come into contact with the outer surface of the battery 6 when the battery 6 is stored in the battery case 11 and the cover unit 10 is closed. Further, the second surface of the pressing piece 13 is formed with a concave portion 13 c into which the protrusion at the tip of the spring portion 31 b formed on the first coupling member 31 can be fitted. Further, on the second surface of the pressing piece 13, a rib (not shown) that is slidably fitted into the opening 31 d in the hinge unit 14 is formed. The battery cover 12 and the pressing piece 13 are slidable while being guided by a rib formed on the second surface and the opening 31d.

  The hinge unit 14 has a battery cover 12 and a holding piece 13 slidably held at one end, and is rotatably held by the battery case 11 at the other end. In other words, the hinge unit 14 is configured to rotatably couple the battery cover 12 and the like to the camera body 1, and thereby the battery cover 12 can be opened and closed with respect to the battery storage unit 5. Further, as shown in FIG. 4B, the hinge unit 14 includes a first coupling member 31, a second coupling member 32, a second support shaft 33, and an E ring 34.

  The first coupling member 31 is a member that is formed of a sheet metal or the like and is slidably held between the battery cover 12 and the pressing piece 13. The first coupling member 31 includes a guide portion 31a, a spring portion 31b, a hole portion 31c, an opening portion 31d, and a hole portion 31e. The guide portion 31 a indicates a portion that is bent at a substantially right angle with respect to the main surface of the first coupling member 31. In addition, the guide portion 31a is formed at two locations in parallel with each other in a direction parallel to the sliding direction of the first coupling member 31. The spring portion 31b is configured by a leaf spring having one end coupled to the first coupling member 31, and is formed in the opening 31d so as to be elastically deformable. In addition, a protrusion 31f protruding in a substantially arc shape is formed at the tip of the spring portion 31b. The protrusion 31 f is formed in the recess 13 c formed on the second surface of the pressing piece 13 so as to be fitted from the second surface side, and the hinge unit 14 performs a sliding operation on the pressing piece 13. Then, it is fitted or detached from the recess 13c. The hole portion 31 c is formed at the end portion in the longitudinal direction of the guide portion 31 a and has an inner diameter through which the second support shaft 33 can be inserted. Therefore, the opening 31 d is formed at the approximate center of the main surface of the first coupling member 31. The hole 31e is formed at an end portion in the longitudinal direction of the guide portion 31a, and a protrusion 32a (described later) formed on the second coupling member 32 can be fitted therein.

  The second coupling member 32 is formed of sheet metal or the like, and one end portion is rotatably coupled to the first coupling member 31 and the other end portion is pivotally coupled to the battery case 11. . Further, the second coupling member 32 has a protrusion 32a, a hole 32b, a hole 32c, and a notch 32d. When the cover unit 10 is in the first state (FIG. 3) or the second state (FIG. 6), the protrusion 32 a is fitted in the hole 31 e formed in the first coupling member 31. The second coupling member 32 can be kept horizontal with respect to the first coupling member 31. The hole 32b is a hole through which the first support shaft 16 is inserted, and is formed at portions facing each other. The holes 32c are holes through which the second support shafts 33 are inserted, and are formed at portions facing each other. The notch 32d is a space for arranging the first coil spring 15.

  The second support shaft 33 couples the first coupling member 31 and the second coupling member 32 to each other so as to be rotatable. Further, the second support shaft 33 has a groove 33a formed on a cylindrical surface near the tip thereof.

  The E-ring 34 is a substantially E-shaped flat ring and is fitted into a groove 33 a formed in the second support shaft 33. By fitting the E-ring 34 into the groove 33a, the second support shaft 33 can be prevented from coming out of the holes 31c and 32c, and falls off from the first coupling member 31 and the second coupling member 32. Can be prevented.

  In FIG. 4A, the 1st coil spring 15 is comprised with a torsion coil spring, and the 1st spindle 16 is penetrated by the coil part. One end of the first coil spring 15 is supported on the outer surface of the battery case 11, and the other end is engaged with a hole formed in the second coupling member 32. Thus, the first coil spring 15 applies a biasing force to the second coupling member 32 in the direction in which the cover unit 10 opens.

  The first support shaft 16 is a member that rotatably couples the hinge unit 14 to the battery case 11. The first support shaft 16 is inserted through the hole portion 32 b of the second coupling member 32 and the coil portion of the first coil spring 15, and the tip portion of the first support shaft 16 is formed in the battery case 11. 11c is press-fitted.

  The screw 17 is a screw for fixing the holding piece 13 to the battery cover 12, and is screwed into the screw hole 12 a formed in the battery cover 12 after being inserted through the hole 13 a formed in the holding piece 13. ing.

  The push spring 18 is constituted by a coil spring and is disposed on the inner bottom surface of the battery case 11. Thereby, it is possible to apply a biasing force in the removal direction to the battery 6 stored in the battery case 11. Although not shown, the push spring 18 is slid into a groove formed in the battery case 11 and held by the battery case 11.

  The FPC unit 19 includes a plurality of contacts that can be in electrical contact with the electrical contacts of the battery 6 and an FPC that is connected to the contacts and connected to a power supply circuit. The FPC unit 19 is disposed on the side surface of the battery case 11 and is held by being held together with a rear frame 20 (described later).

  The rear frame 20 is formed of sheet metal or the like, and holds the FPC unit 19 in the battery case 11. Further, the rear frame 20 is formed with three holes 20a through which the screws 21 can be inserted.

  The screw 21 is used to fix the rear frame 20 to the battery case 11. The screw 21 is inserted into the hole 20 a formed in the rear frame 20 and then screwed into the screw hole 11 a formed in the battery case 11. .

  The lock knob 22 is disposed in the vicinity of the battery outlet of the battery case 11 and is slidable. The lock knob 22 abuts against the end of the battery 6 disposed in the battery case 11 and restricts the battery 6 from jumping out of the battery case 11. In other words, the lock knob 22 overlaps the battery 6 on the projection surface and is between the first position where the battery 6 is prevented from popping out and the second position where the battery 6 does not overlap the projection surface. It is arranged to be slidable. A plurality of minute protrusions may be formed on the first surface of the lock knob 22 so that the user can easily perform a sliding operation. A protrusion is formed on the second surface, which is the opposite surface of the first surface of the lock knob 22.

  The second coil spring 23 is fitted to a protrusion formed on the second surface of the lock knob 22 and is disposed between the lock knob 22 and the lock frame 24. Further, the second coil spring 23 applies an urging force to the lock knob 22 so that the lock knob 22 is always in the first position.

  The lock frame 24 is made of sheet metal or the like and is fixed to the battery case 11 with screws 25. The lock frame 24 is fixed to the battery case 11 with a part of the lock knob 22 and the second coil spring 23 interposed therebetween.

  The screw 25 is screwed into the screw hole 11 b of the battery case 11 after being inserted through the hole 24 a of the lock frame 24.

  The material of each component is not limited to the above-described material, and can be realized in the same manner even if it is formed of other materials. Further, the number of screws is not limited to the above.

[2. Method for assembling lid opening / closing device]
When assembling the lid opening / closing device of the present embodiment, first, the hinge unit 14 is assembled as shown in FIG. 4B. Specifically, the second coupling member 32 is disposed between the guide portions 31 a of the first coupling member 31, and both are coupled by the second support shaft 33 so as to be rotatable. At this time, the second support shaft 33 is inserted through the hole 31c formed in the one guide portion 31a, is inserted through the hole 32c formed in the second coupling member 32, and the other guide portion is inserted. It is made to pass through the hole 31c formed in 31a. Next, the E ring 34 is fitted into the groove 33 a formed in the second support shaft 33. Accordingly, the second support shaft 33 can be prevented from falling off from the first coupling member 31 and the second coupling member 32. In addition, since the flange is previously formed in the other end part (end part in which the groove part 33a is not formed) of the 2nd spindle 33, an E ring etc. are unnecessary. Thereby, the hinge unit 14 as shown in FIG. 4A is completed.

  Next, as shown in FIG. 4A, the hinge unit 14 is disposed on the inner surface of the battery cover 12, and the pressing piece 13 is disposed on the upper portion thereof. That is, the hinge unit 14 is held between the battery cover 12 and the pressing piece 13. At this time, it arrange | positions so that the rib (not shown) currently formed in the 2nd surface of the pressing piece 13 may be settled in the opening part 31d of the both sides of the spring part 31b. Further, the ribs 12b are arranged close to the inner walls on both sides of the guide portion 31a of the first coupling member 31. Next, the screw 17 is screwed into the screw hole 12a through the hole 13a. Thereby, the hinge unit 14 is slidably arranged with respect to the battery cover 12 and the pressing piece 13. The sliding mechanism for the battery cover 12 and the pressing piece 13 of the hinge unit 14 is a rib (not shown) formed on the second surface of the pressing piece 13 on both outer walls of the guide portion 31a of the first coupling member 31. But there is no problem.

  Next, the second coupling member 32 is held in the battery case 11. Specifically, the end of the second coupling member 32 on the side where the hole 32 d is formed is disposed between the pair of holes 11 c of the battery case 11 and is formed in the second coupling member 32. The first coil spring 15 is disposed in the notch 32d. Next, the first support shaft 16 is made of one of the pair of holes 11c, one of the pair of holes 32b, the coil portion of the first coil spring 15, and the hole 32b. Are inserted in the order of the other hole, and finally, the tip of the first support shaft 16 is press-fitted into the other hole of the holes 11c. Thereby, the unit comprised of the battery cover 12, the holding piece 13, and the hinge unit 14 can be rotatably coupled to the battery case 11.

  Next, the pushing spring 18 is fixed to the bottom surface of the battery housing portion in the battery case 11. Next, the FPC unit 19 is disposed on the side surface of the battery case 11. At this time, the contacts 19a arranged on the FPC unit 19 are arranged so as to protrude into the battery storage unit. Next, the rear frame 20 is disposed so as to overlap the FPC unit 19. Next, the screw 21 is screwed into the screw hole 11a of the battery case 11 through the hole 20a. That is, the FPC unit 19 is sandwiched between the battery case 11 and the rear frame 20.

  Next, the lock knob unit is assembled to the battery case 11. Specifically, the lock knob 22 is disposed in the cutout portion 11 e formed in the battery case 11. Next, the second coil spring 23 is fitted to the protrusion formed on the second surface of the lock knob 22. Next, the lock frame 24 is covered from the second surface side of the lock knob 22. Next, the screw 25 is inserted through the hole 24 a of the lock frame 24 and screwed into the screw hole 11 b of the battery case 11. Thereby, the lock knob 22 is fixed to the battery case 11 in a state where it can slide against the elastic force of the second coil spring 23.

  Thus, the assembly of the lid opening / closing device of the present embodiment is completed.

  The order of assembly is not limited to the order described above, and the lid opening / closing device can be completed without any problem even when the lock cover unit is assembled first and then the battery cover 12 is assembled.

[3. (Opening / closing operation of lid opening / closing device)
FIG. 5 shows a state where the cover unit 10 is slid from a state where the cover unit 10 shown in FIG. 3 is closed. FIG. 6 shows a state where the cover unit 10 is rotated from the state shown in FIG. FIG. 7 shows a state where the cover unit 10 is further rotated from the state shown in FIG. In the following description, the state illustrated in FIG. 3 is referred to as a “first state”, the state illustrated in FIG. 6 is referred to as a “second state”, and the state illustrated in FIG. 7 is referred to as a “third state”. FIG. 8 is an enlarged perspective view of the vicinity of the hinge unit 14 in the second state. FIG. 9 is an enlarged cross-sectional view of the vicinity of the second support shaft 33 in the second state. FIG. 10 is an enlarged perspective view of the vicinity of the hinge unit 14 in the third state.

[3-1. Operation between the first state and the second state]
In the first state shown in FIG. 3, the cover unit 10 is held in a closed state by claw engagement with the housing of the camera body 1. Specifically, the claw portion 12c formed on the battery cover 12 shown in FIG. 4A is engaged with the claw portion 11d formed on the battery case 11, so that the cover unit 10 is opened. It is preventing. Further, the protrusion 31f formed at the tip of the spring portion 31b and the recess 13c formed in the holding piece 13 are fitted, so that the cover unit 10 slides in the direction indicated by the arrow A. Is preventing. Accordingly, the opening operation of the cover unit 10 by the urging force of the first coil spring 15 is restricted.

  First, the opening operation will be described.

  When opening the cover unit 10 from the first state shown in FIG. 3, the cover unit 10 is slid in the direction indicated by the arrow A to the state shown in FIG. 5. At this time, the cover unit 10 slides while being guided by the first coupling member 31. Specifically, the guide portion 31 a of the first coupling member 31 shown in FIGS. 4A and 4B is guided by the rib 12 b formed on the battery cover 12. Further, when the cover unit 10 slides, the fitting state between the protrusion 31 f formed at the tip of the spring portion 31 b and the recess 13 c formed in the pressing piece 13 is released. The configuration for guiding the slide of the cover unit 10 described above is a pair of ribs (not shown) provided with the outer walls on both sides of the guide portion 31a of the first joining member 31 on the second surface of the pressing piece 13. Can be achieved as well.

  Next, from the state shown in FIG. 5, the cover unit 10 is rotated in the direction indicated by the arrow B around the first support shaft 16 to shift to the second state shown in FIG. 6. Specifically, as the cover unit 10 rotates, the hinge unit 14 (see FIG. 4A) rotates about the first support shaft 16 in the direction indicated by the arrow B. Here, since the urging force is applied to the cover unit 10 in the direction indicated by the arrow B by the first coil spring 15, the engagement between the claw portion 11d and the claw portion 12c (see FIG. 4A) is released ( That is, it is rotated to the second state by the biasing force of the first coil spring 15 in the state shown in FIG.

  In the second state shown in FIG. 6, the second coupling member 32 is urged in the direction indicated by the arrow C by the first coil spring 15, and the second coupling member 32 is at the edge of the battery storage unit 5. Rotation in the direction shown by arrow C is restricted. Moreover, since the projection part 32a (refer FIG. 9) is fitting the hole 31e with the 1st coupling member 31 and the 2nd coupling member 32, the 2nd coupling member 32 is the 1st coupling member. The rotation with respect to 31 is restricted. Accordingly, the battery cover 12 is restricted from rotating in the directions indicated by the arrows C and F, and maintains the second state.

  In the second state shown in FIG. 6, the battery 6 stored in the battery storage unit 5 can be taken out in the direction indicated by the arrow E, or the battery 6 can be stored in the battery storage unit 5.

  Thus, the cover opening operation of the cover unit 10 is completed.

  When the battery 6 stored in the battery storage unit 5 is taken out, the lock knob 22 is shown by an arrow H against the urging force of the second coil spring 23 (see FIG. 4A) as shown in FIG. Slide in the direction. When the lock knob 22 is slid to a position where it does not overlap the battery 6 on the projection surface, the battery 6 is pushed in the direction indicated by the arrow E by the urging force of the push spring 18 (see FIG. 4A). The pushed battery 6 is released from the electrical connection with the contact 19a. At this time, the spring rate of the push-out spring 18 is set so that the vicinity of the upper surface of the battery 6 that has been unlocked by the lock knob 22 protrudes from the battery housing 5, so that the lock is released and pushed out. It is easy to grasp the battery 6 with a finger and take it out from the battery storage unit 5. In addition, since the spring rate of the pushing spring 18 is not too high, the pushing spring 18 does not cause the battery 6 to completely jump out of the battery housing 5.

  Further, when the battery 6 is stored in the battery storage portion 5, in the second state shown in FIG. 6, the lock knob 22 is pressed in the direction of the arrow H against the urging force of the second coil spring 23. Push the battery 6 in the direction opposite to the arrow E. Since the lock knob 22 is tapered, when the battery 6 is inserted, the battery 6 is inserted into the battery insertion portion 5 while pressing the lock knob 22 in the direction indicated by the arrow H at the corner. During the insertion operation of the battery 6, the lock knob 22 is pressed by the side surface of the battery 6 and its position is regulated. Further, when the battery 6 is inserted, the urging force of the pushing spring 18 is applied to the battery 6 in the direction indicated by the arrow E, but the battery 6 is pushed against the urging force. When the battery 6 is pushed in until the upper surface of the battery 6 reaches a position lower than the lock knob 22, the position restriction by the battery 6 is released, and the biasing force of the second coil spring 23 causes the lock knob 22 to move in the direction of the arrow H. Move in the opposite direction. When the lock knob 22 is moved to a position where it overlaps the battery 6 on the projection surface, the lock knob 22 stays at that position by the urging force of the second coil spring 23 and restricts the battery 6 from moving in the direction indicated by the arrow E. Can do. At this time, the battery 6 and the contact 19a are electrically connected.

  Next, the closing operation will be described.

  When the cover unit 10 is closed from the second state shown in FIG. 6 (that is, when shifting to the first state), the cover unit 10 is first rotated in the direction indicated by the arrow F. As the cover unit 10 is rotated, the hinge unit 14 is rotated in the direction indicated by the arrow F about the first support shaft 16. At this time, since the urging force of the first coil spring 15 is acting on the second coupling member 32 in the hinge unit 14, the second coupling member 32 is rotated against the urging force. The state after the rotation is shown in FIG.

  Next, the cover unit 10 is slid from the state shown in FIG. At this time, since the urging force of the first coil spring 15 acts on the cover unit 10, it is necessary to slide the cover unit 10 in the direction indicated by the arrow G while lightly pressing from above. Further, the cover unit 10 is guided by the first coupling member 31 to perform a sliding operation. Note that the guide method using the first coupling member 31 is an operation opposite to the above-described opening operation, and thus the description thereof is omitted here. The state after the slide is shown in FIG.

  When the cover unit 10 is slid to the first state shown in FIG. 3, the claw portion 11c and the claw portion 12c are engaged, and the rotation of the cover unit 10 is restricted. In addition, the protrusion 31f and the recess 13c are fitted to each other while the spring portion 31b is elastically deformed, whereby the sliding operation of the first coupling member 31 and the second coupling member 32 is restricted, and the cover The sliding operation of the unit 10 is restricted.

  Thus, the cover closing operation of the cover unit 10 is completed.

[3-2. Operation between the second state and the third state]
The cover unit 10 can be rotated from the second state shown in FIG. 6 to the third state shown in FIG.

  Specifically, as shown in FIGS. 8 and 9, in the second state, the protrusion 31 formed in the second coupling member 32 is formed in the hole 31 e formed in the first coupling member 31. Since 32 a (see FIG. 9) is fitted, the rotation of the first coupling member 31 is restricted with respect to the second coupling member 32. However, as shown in FIG. 6, when a pressing force is applied to the cover unit 10 in the direction indicated by the arrow C, the first coupling member 31 starts to rotate in the direction indicated by the arrow C. When the first coupling member 31 rotates to a predetermined angle, the periphery of the hole 31e in the first coupling member 31 rides on the protrusion 32a and starts to be elastically deformed. When the first coupling member 31 further rotates, the fitting between the hole 31e and the protrusion 32a is released as shown in FIG. When the fitting between the hole 31e and the protrusion 32a is released, the vicinity of the hole 31e in the first coupling member 31 is elastically restored and returns to its original shape.

  As a result, the first coupling member 31 is rotatable with respect to the second coupling member 32 in the direction indicated by the arrow C about the second support shaft 33. Therefore, the cover unit 10 is in a state of being rotatable in the direction indicated by the arrow C around the second support shaft 33. In addition, between the 2nd state and the 3rd state, since the urging | biasing force to the rotation direction is not given to the 1st coupling member 31, fitting with the hole part 31e and the projection part 32a remove | deviates. Then, the battery cover 12 and the first coupling member 31 can be rotated according to gravity. For example, when the camera body 1 is in a state where the bottom surface 1b faces upward as shown in FIG. 7, the cover unit 10 is in the third state as shown.

  Further, when the cover unit 10 is in the second state, for example, when the camera body 1 is mistakenly placed on a plane such as a desk with the bottom surface 1b of the camera body 1 facing downward, for example, when the battery 6 is attached or detached. In any case, such as when the hand holding the camera body 1 slides down, the hinge unit 14 is not damaged by shifting from the second state to the third state.

In the third state, as shown in FIG. 7, the outer surface 12e and the bottom surface 1b of the battery cover 12 are not necessarily in close contact with each other, and there is a gap at the boundary surface between the outer surface 12e and the bottom surface 1b in the vicinity of the hinge unit 14. Even if it exists, breakage of the cover unit 10 can be prevented with the transition from the second state to the third state. Further, for example, when the length of the second coupling member 32 is increased, the first coupling member 31 protrudes from the bottom surface 1b more than the distance from the axis of the first support shaft to the bottom surface 1b, or the second By configuring the length of the coupling member 32 to be short, even when the end surface 12d on the hinge unit 14 side of the battery cover 12 and the bottom surface 1b come into contact with each other by the rotation around the second support shaft 33, the first coupling is performed. The impact force applied to the hinge unit 14 can be weakened by increasing the length of the member. That is, as shown in FIG. 11, the distance L ₁ between the axis of the first support shaft 16 and the axis of the second support shaft 33 is from the axis of the first support shaft 16 to the bottom surface 1b. if the distance L ₂ or more the sum of the distance L ₃ to the axial center the outer surface 12e of the second support shaft 33, can be satisfied third state shown in FIG. FIG. 11 is a sectional side view of the main part of the lid opening / closing device when the camera body 1 is in the state shown in FIG.

  When the cover unit 10 is shifted from the third state shown in FIG. 7 to the second state shown in FIG. 6, the cover unit 10 is rotated in the direction indicated by the arrow D. Accordingly, the first coupling member 31 is rotated in the direction indicated by the arrow D around the second support shaft 33. When the cover unit 10 is rotated to the second position shown in FIG. 6, the hole 31 e and the protrusion 32 a are fitted as shown in FIGS. 8 and 9. Thereby, the first coupling member 31 is positioned with respect to the second coupling member 32. Therefore, the position of the cover unit 10 is held in the second state shown in FIG.

[4. Effects of the embodiment, etc.]
As described above, according to the present embodiment, the second coupling member 32 is rotatably coupled to the battery case 11, and the first coupling member 31 is pivotally coupled to the second coupling member 32. Thus, the cover unit 10 can be rotated from the second state to the third state in addition to the conventional range from the first state to the second state. Therefore, even when a pressing force or an impact is applied to the cover unit 10 in the opening direction when the cover unit 10 is in the second state, the cover unit 10 rotates to the third state, It is possible to prevent the cover unit 10 from being damaged.

  For example, if the camera body 1 is accidentally dropped on the floor or the like when the cover unit 10 is in the second state, the cover unit 10 is covered if an impact is applied to the cover unit 10 in the direction of arrow F (see FIG. 6). The unit 10 is rotated in the direction of arrow F, and when an impact is applied to the cover unit 10 in the direction of arrow C (see FIG. 6), the cover unit 10 is rotated to the third state. It is possible to prevent the hinge unit 14 and the like from being damaged.

  Further, since the cover unit 10 can be rotated from the second state to the third state, a large opening amount of the cover unit 10 can be secured, and the battery 6 can be easily inserted and removed.

  In addition, since the component parts of the hinge unit 14 are formed of resin or metal, the parts hardly deteriorate even when used for a long period of time, and the durability can be improved.

  In addition, since one end of the hinge unit 14 is slid within the battery cover 12, the camera body 1 can be reduced in size. That is, if one end of the hinge unit 14 is fixed to the battery cover 12 and the other end is slid within the camera body 1, it is necessary to provide a space for sliding the hinge unit 14 within the camera body 1. The camera body 1 will be enlarged. In the present embodiment, since the hinge unit 14 is configured to slide within the battery cover 12, it is not necessary to provide a space for sliding the hinge unit 14 in the camera body 1, and the camera body 1 can be reduced in size. Can do.

  In addition, since the first coupling member 31 and the second coupling member 32 are positioned by fitting the hole 31e and the protrusion 32a, the cover unit 10 is unexpectedly in the second state. There is no transition to the third state. Therefore, when the cover unit 10 is shifted from the first state to the second state, such as when the battery 6 is replaced, the cover unit 10 is not unexpectedly shifted to the third state due to inertia. The operational feeling at the time of opening and closing 10 is not impaired.

  In the present embodiment, the first coupling member 31 has the hole 31e and the second coupling member 32 has the projection 32a. However, the first coupling member 31 has a projection. The same function can be achieved by forming a hole and forming a hole in the second coupling member 32.

  In the present embodiment, the first coupling member 31 is positioned with respect to the second coupling member 32 by fitting the hole 31e and the protrusion 32a, but at least the cover unit 10 is What is necessary is just to provide the structure which can position the 1st coupling member 31 with respect to the 2nd coupling member 32 at the time of a 1st state or a 2nd state, for example, it replaces with the hole part 31e and the projection part 32a. Thus, a configuration is conceivable in which a magnetic body is disposed on one of the first coupling member 31 and the second coupling member 32, the other is made of metal or the like, and both are positioned by magnetic attraction.

  The lid opening / closing device of the present invention can attach and detach a terminal cover that can conceal various terminals such as communication terminals and power terminals mounted on various devices, and a memory card in addition to a battery cover that can conceal the battery. Useful for covers that can hide possible card slots. The applicable range is not limited to a video camera, and can be installed in devices such as a digital still camera, a mobile phone, and an audio device.

The perspective view which shows the external appearance of the apparatus by which the lid | cover opening / closing apparatus in Embodiment 1 is mounted. The perspective view which shows the external appearance of the apparatus by which the lid | cover opening / closing apparatus in Embodiment 1 is mounted. The perspective view which shows the external appearance of the apparatus by which the lid | cover opening / closing apparatus in Embodiment 1 is mounted. 1 is an exploded perspective view of a lid opening / closing device according to Embodiment 1. FIG. The disassembled perspective view of the hinge unit in Embodiment 1 The exploded perspective view of the cover unit in Embodiment 1 The perspective view which shows the external appearance of the apparatus by which the lid | cover opening / closing apparatus in Embodiment 1 is mounted. The perspective view which shows the external appearance of the apparatus by which the lid | cover opening / closing apparatus in Embodiment 1 is mounted. The perspective view which shows the external appearance of the apparatus by which the lid | cover opening / closing apparatus in Embodiment 1 is mounted. The principal part perspective view of the 2nd spindle vicinity in Embodiment 1 The principal part perspective view of the 2nd spindle vicinity in Embodiment 1 Cross-sectional view of relevant parts in the vicinity of the second spindle in the first embodiment Cross-sectional side view of the main part of the lid opening / closing device in the first embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Camera main body 5 Battery storage part 10 Cover unit 12 Battery cover 14 Hinge unit 16 1st spindle 31 1st coupling member 31e Hole part 32 2nd coupling member 32a Protrusion part 33 2nd spindle

Claims (5)

A cover body having a size capable of concealing the concealed portion in the apparatus body;
A coupling member that rotatably couples the cover body to a housing that forms the outer surface of the device body;
A lid opening / closing device capable of selectively shifting between a first state of concealing the concealed portion and a second state of exposing the concealed portion;
The coupling member is
In the second state, the cover main body is coupled to the housing so that the cover main body can rotate in a direction opposite to the direction of rotation when the cover main body transitions to the first state.
Lid opening / closing device. The coupling member is
A first coupling member disposed on the cover body;
A second coupling member having one end pivotably coupled to the housing and the other end pivotally coupled to the first coupling member;
A first spindle that rotatably couples one end of the second coupling member to the housing;
A second support shaft that rotatably couples the other end of the second coupling member to the end of the first coupling member;
The lid opening / closing device according to claim 1. A joint formed on the first coupling member;
A portion to be joined that is formed on the second coupling member and can be selectively shifted between a state of joining to the joint portion and a state of being separated from the joint portion;
The joined part and the joined part are:
When the cover main body is in the first state or the second state, they are joined to each other,
The cover main bodies are separated from each other when the cover main body rotates in a direction opposite to a rotation direction when the cover main body shifts to the first state in the second state;
The lid opening / closing device according to claim 2. The first coupling member is
The lid opening / closing device according to claim 1, wherein the lid opening / closing device is slidably arranged with respect to the cover body. The hidden part is
A battery storage unit capable of storing a battery capable of supplying power to the device body;
The lid opening / closing device according to claim 1.

Images