JP4036702B2 - Disk storage case and electronic device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a disk storage case configured to be able to store a disk-shaped recording medium, and an electronic device configured to be capable of integrally mounting the disk storage case.
[0002]
[Prior art]
  A disc storage case (hereinafter also referred to as “storage case”) for storing an optical disc (disc-shaped recording medium) such as a CD or a DVD is generally a shallow dish-shaped case main body that can store an optical disc, and an upper surface opening of the case main body. And a lid that closes the part. In this case, a plurality of holding pieces that are inserted into the center hole of the optical disk and hold (clamp) the optical disk are erected on the inner surface of the bottom plate of the case body. The holding piece is formed in a reverse taper shape in which the outer peripheral surface gradually protrudes outward from the base end portion (end portion on the inner surface side) to the upper end portion, and the edge of the center hole in the optical disc extends in the outer peripheral direction. The optical disk is held by pressing it. The lid is attached to the case body so as to be rotatable.
[0003]
  When housing the optical disk in the housing case, first, the lid is rotated with respect to the case body to open the upper surface of the case body, and then each holding piece is inserted into the center hole of the optical disk. The optical disk is inserted from above the case body. At this time, each holding piece is tilted inward by each base end portion being elastically deformed with the insertion of the optical disk. Accordingly, the edge of the center hole is pressed in the outer peripheral direction by the outer peripheral surface of the holding piece by the force that the base end portion of each holding piece that has been tilted returns, and the optical disc is held by the case body. Thereafter, the lid is rotated with respect to the case body to close the upper surface of the case body, thereby completing the housing of the optical disk in the housing case. On the other hand, when taking out the optical disk stored in the storage case, the lid is rotated with respect to the case body, and then the outer edge of the optical disk is sandwiched and pulled up from the case body. At this time, the base end portion of each holding piece is elastically deformed as the optical disk is pulled up, and each holding piece is tilted inward. As a result, the optical disk is allowed to be pulled up, and the optical disk is taken out from the storage case.
[0004]
[Problems to be solved by the invention]
  However, the conventional storage case has the following problems. That is, in the conventional storage case, the holding piece holds the optical disc in the case body by pressing the edge of the center hole of the optical disc in the outer peripheral direction. Therefore, when the optical disk is stored in and taken out from the storage case, the optical disk is inserted and pulled up with the outer peripheral surface of the holding piece pressed against the edge of the center hole. In this case, a high-density optical disc such as a DVD is formed in a single disc shape by laminating a plurality of material layers. For this reason, in the conventional storage case, when the high-density optical disk is stored and taken out, the optical disk is inserted and pulled up with each holding piece pressed against the edge of the center hole. There exists a problem that the material layer which comprises may be peeled in the edge vicinity of a center hole. Further, in the conventional storage case, a force (stress) toward the outer periphery is always applied to the edge of the center hole in a state where the optical disc is held by the holding piece. In this case, the recording surface of a high-density optical disk such as a DVD is extremely dense. For this reason, it is preferable to employ a structure in which no stress is applied in the vicinity of the edge of the center hole as a housing case for housing this type of high-density optical disk.
[0005]
  In the conventional storage case, when a hand or an object touches the storage case in a state where a plurality of storage cases are stacked, the upper storage case easily slides with respect to the lower storage case. For this reason, there exists a problem that the storage case of the stacked state tends to collapse. Further, in a conventional storage case, for example, when an optical disk separate from an optical disk loaded in a recording / reproducing apparatus (for example, a video camera) is accommodated in the accommodating case and carried, the recording / reproducing apparatus and the accommodating case are separately carried. There is a need. Therefore, both hands are closed when the recording / reproducing apparatus and the storage case are carried, and a dedicated bag or the like for carrying the storage case is required to carry the recording case with one hand.
[0006]
  The present invention has been made in view of such a problem, and can avoid the separation of the material layer due to the storage and removal of the disk-shaped recording medium, and at the same time, without applying stress to the vicinity of the edge of the center hole. It is a main object of the present invention to provide a disc storage case that can hold a recording medium. Another object of the present invention is to provide a disc storage case that can avoid collapse in a stacked state. It is still another object of the present invention to provide a disk storage case and an electronic device that can be easily carried with the electronic device.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, a disc storage case according to the present invention includes a shallow dish-shaped case body formed so as to be capable of storing a disc-shaped recording medium, and the storage position of the disc-shaped recording medium stored in the storage position. A disc housing case provided with a detachment restricting means disposed on the case body so as to be able to regulate detachment of the case, wherein the case body has a side surface opened and the disc-shaped recording medium is inserted from the side. And a disc insertion / exit capable of discharging the disc-shaped recording medium to the side is formed, and the disc-shaped recording medium is guided between the disc entry / exit and the receiving position in the insertion direction and the ejection direction. A disc guide path is formed, and the detachment restricting means is disposed on the back side in the insertion direction in the disc guide path and is stored in the disc. A first movement restricting portion that restricts the movement of the recording medium in the insertion direction; and a narrowed portion that is disposed in the case main body via an elastically deforming portion and is narrower than the diameter of the disc-shaped recording medium in the disc guide path To restrict the movement of the disc-shaped recording medium from the storage position in the ejecting direction, and open the constricted portion by elastic deformation of the elastically deforming portion, and the insertion direction of the disc-shaped recording medium and A second movement restricting portion that allows movement in the discharge direction.And detaching the disc-shaped recording medium from the storage position while allowing a predetermined amount of movement at the storage position..
[0008]
  In this case, it is preferable that the pair of second movement restricting portions are disposed to face each other with the inside of the disc guide path interposed therebetween.
[0009]
  Moreover, it is preferable that the said 2nd movement control part is integrally molded with the resin material with the said case main body and the said elastic deformation part.
[0010]
  Further, a pair of the upper and lower edges of the stored disk-shaped recording medium are arranged to face each other with the disk guide path therebetween so as to be able to come into contact with each other and regulate the upward movement of the stored disk-shaped recording medium. It is preferable to include a third movement restricting portion.
[0011]
  Moreover, it is preferable that the said case main body is dented from the said storage position to the said disk entrance / exit in the width direction center part of the said disk guide path.
[0012]
  Further, the case body is formed with a fitting recess on the outer surface of the bottom plate that can be fitted to the upper ends of at least one of both side plates and the back plate of the case body that are positioned below in a state where a plurality of the case bodies are stacked. It is preferable.
[0013]
  Further, a lid body configured to be able to close an upper surface opening portion of the case body is provided, and the lid body is rotatably attached to either the case body or the lid body with respect to the case body. A pivot shaft is formed on one of the case body and the lid, and a mounting groove portion that pivotally supports the pivot shaft is formed on the one end side of the mounting groove portion. It is preferable that the moving shaft is supported and the other end side is opened so that the rotating shaft can be detached from the mounting groove and the rotating shaft can be inserted into the mounting groove.
[0014]
  In this case, it is preferable that the lid body includes a closing plate capable of closing the disk entrance / exit in the case body.
[0015]
  Furthermore, it is preferable that the case main body is configured to be integrally attachable to an attachment portion formed in the electronic device.
[0016]
  In this case, the case body is extended outwardly from both side plates in the plate surface direction of the bottom plate and is locked by a locking claw portion that constitutes a part of the mounting portion in the electronic device. It is preferable that the electronic device includes an attachment locking piece that allows the case body to be attached.
[0017]
  Further, the electronic device according to the present invention is at least one of writing recording data to the disc-shaped recording medium that can be accommodated in the disc accommodating case and reading the recording data written on the disc-shaped recording medium. The electronic device is configured to be capable of mounting the case body integrally.SaidA mounting portion is provided.
[0018]
  Further, the electronic device according to the present invention is at least one of writing recording data to the disc-shaped recording medium that can be accommodated in the disc accommodating case and reading the recording data written on the disc-shaped recording medium. The electronic device is configured to be capable of performing the above operation, and includes the attachment portion formed so that the case body can be integrally attached.The mounting portion is formed on the case main body of the disc storage case.SaidIt is provided with a claw portion for locking that can lock the mounting locking piece and attach the case body.The
[0019]
DETAILED DESCRIPTION OF THE INVENTION
  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a disk storage case and an electronic device according to the invention will be described with reference to the accompanying drawings.
[0020]
  First, the configuration of the disc storage case according to the present invention will be described with reference to the drawings.
[0021]
  A storage case 1 shown in FIG. 1 is a disk storage case for storing an optical disk D (for example, a DVD having a diameter of 8 cm) corresponding to the disk-shaped recording medium of the present invention. As shown in FIG. A case main body 2 formed in a shallow dish shape with a top opening so as to accommodate D, and a lid body 3 attached to the case main body 2 so as to be rotatable in the directions of arrows A1 and A2 are configured. . As shown in FIG. 3, the case body 2 includes a bottom plate 11, side plates 12 and 12, a back plate 13, a rib 14, disk holding portions 15 and 15, and locking pieces 16 and 16 that are integrally formed of a resin material. In the case body 2, a disk entrance / exit (hereinafter also referred to as “entrance / exit”) 2 a that is open on one side facing the back plate 13 and allows the optical disc D to be inserted and ejected is formed. Is guided to the receiving position 2b (center portion of the case body 2) in the direction of the arrow B1 (insertion direction in the present invention), and the optical disc D stored in the receiving position 2b is guided in the direction of the arrow B2 (present book). A disc guide path (hereinafter also referred to as “guide path”) 2c is formed to guide the entrance / exit 2a in the discharge direction in the present invention.
[0022]
  The bottom plate 11 is formed in a rectangular thin plate as a whole, and as shown in FIGS. 4 to 6, slits 21 and 21 that allow the disk holding portions 15 and 15 to be deformed in the direction of arrow C are formed from the inner surface 11a. Communication is formed over the outer surface 11b. Further, as shown in FIG. 3, the bottom plate 11 is formed so that the outer edge portion of the optical disk D is higher than the inner surface 11a so that the optical disk D can come into contact therewith, and the optical disk D accommodated in the accommodating position 2b and the guide path 2c are moved. A mounting portion 22 is formed to hold the back surface of the optical disk D in a non-contact state with the inner surface 11a. Furthermore, a label pasting recess 23 for pasting a label (not shown) describing the recording contents of the optical disc D and the like on the inner surface 11a of the bottom plate 11 and a center for taking out the optical disc D accommodated in the accommodation position 2b. A drawer recess 24 is formed so that the finger can be inserted deeper into the hole Da (see FIG. 1). Further, as shown in FIG. 7, when a plurality of case bodies 2, 2... Are stacked on the outer edge portion of the outer surface 11 b of the bottom plate 11 (see FIGS. 13 and 14), the case body 2 is positioned below. Fitting recesses 25, 25,... Into which the upper ends of the side plates 12, 12 and the back plate 13 can be fitted are formed.
[0023]
  As shown in FIG. 3, the side plates 12, 12 are erected on both ends of the bottom plate 11 to form two opposing side walls of the case main body 2, and also function as guide members that constitute the guide path 2 c. The side plate 12 has notches 12a, 12a for attaching the lid 3 to the case body 2, and card holding pieces 44, 44,... Of the lid 3 in a state where the lid 3 is closed with respect to the case body 2. Notches 12b, 12b,... For avoiding contact (see FIG. 11) are formed. In this case, the notch 12a corresponds to the mounting groove portion in the present invention, and is formed in an L shape in a side view as shown in FIG. 2, and the rotation shaft 42a of the lid 3 is formed at the back end portion thereof. While being configured to be pivotally supported, the upper end side of the side plate 12 is opened so that the pivot shaft 42a can be detached from the notch 12a and the pivot shaft 42a can be inserted into the notch 12a. As shown in FIG. 3, the back plate 13 is erected on the bottom plate 11 in a state where one end sides of the side plates 12 and 12 are connected to constitute one side wall of the case body 2. The rib 14 corresponds to the first movement restricting portion in the present invention, and its top view is formed in an arc shape similar to the outer shape of the optical disc D, and is erected on the inner surface 11 a of the bottom plate 11. The rib 14 stops the optical disk D at the storage position 2b when the optical disk D inserted in the direction of the arrow B1 contacts, and the optical disk D stored in the storage position 2b moves in the direction of the arrow B1. To regulate.
[0024]
  As shown in FIGS. 4 and 5, the disk holding portion 15 includes a holding piece 31 and a holding piece 32, and is formed in an L-shaped cross section as shown in FIG. As shown in FIGS. 4 and 5, the holding piece 31 has an inner wall surface 31 b that is formed in a circular arc shape when viewed from above and flush with the inner wall surface of the rib 14, and is connected to the rib 14 and the side plate 12. A holding convex portion 31a (second movement restricting portion in the present invention) is formed (at the end on the arrow B2 side). In this case, the base end portion 31c on the arrow B1 side of the holding piece 31 corresponds to the elastically deformable portion in the present invention, and allows the disc holding portion 15 to move in the arrow C direction. The holding piece 32 corresponds to a third movement restricting portion in the present invention, and is extended in parallel with the bottom plate 11 at the upper end portion of the holding piece 31 as shown in FIG. In this case, as shown in FIGS. 7 and 8, the disk holding portions 15 and 15 are arranged so that their inner wall surfaces 31b and 31b face each other. Further, the distance between the inner wall surfaces 31b and 31b of the disc holding portions 15 and 15 is slightly longer than the diameter L1 (see FIG. 2) of the optical disc D, and between the holding convex portions 31a and 31a. The distance L3 is arranged to be shorter than the diameter L1 of the optical disc D. Thereby, a narrowed portion H narrower than the diameter L1 of the optical disc D is formed by the holding convex portions 31a and 31a. Further, as shown in FIGS. 9 and 10, the disk holding portions 15 and 15 are formed slightly lower than the side plate 12 and the back plate 13 and at the same height as the ribs 14.
[0025]
  The locking piece 16 corresponds to a mounting locking piece according to the present invention, and is locked by the locking claws 53, 53,... Formed in the video camera 51 shown in FIG. As shown in FIG. 10, the members are attached to the camera 51 and extend outward from the side plates 12 and 12 in the plate surface direction of the bottom plate 11. In this case, the video camera 51 corresponds to an electronic apparatus according to the present invention, and is configured to be able to execute recording data (video data) writing to the optical disc D and reading of the recording data written to the optical disc D. . In this video camera 51, as shown in FIG. 12, a part of the casing is recessed to form a mounting recess 52 (mounting portion in the present invention) for mounting the housing case 1 integrally. The side wall portion of the mounting recess 52 constitutes a part of the mounting portion in the present invention, and locks (holds) the locking pieces 16, 16 together with the inner bottom surface of the mounting recess 52. Nail | claw 53,53 ... is arrange | positioned. In this case, the mounting recess 52 is formed so that its depth is substantially equal to the thickness of the housing case 1. On the other hand, as shown in FIG. 3, the locking piece 16 has a notch 16 a that allows the locking claw 53 to be inserted when the storage case 1 is stored (moved downward) in the mounting recess 52. Locking recesses 16b and 16b for restricting the sliding of the housing case 1 with respect to the video camera 51 are formed by engaging a locking protrusion 53a (see FIG. 12) formed on the lower surface of the locking claw 53. Has been.
[0026]
  As shown in FIG. 11, the lid 3 has a top plate 41, side plates 42 and 42, and a front plate 43, which are integrally formed of a resin material. The top plate 41 is formed in a rectangular thin plate shape as a whole. The side plates 42 are erected on both ends of the top plate 41 to constitute two opposing side walls of the lid 3. On the side plate 42, rotation shafts 42a and 42a that can be inserted into the notch 12a of the case main body 2 are formed so as to protrude inward. Further, as shown in FIG. 1, the side plate 42 is formed with notches 42b and 42b for avoiding contact of the locking claws 53, 53,. In this case, in a state where the upper surface opening portion of the case body 2 is closed by the lid 3, an L-shaped groove in a side view is formed by the locking piece 16 of the case body 2 and the edge of the notch 42 b in the lid 3. It is formed. Further, as shown in FIG. 11, the side plate 42 has four card holding pieces 44, 44... For holding index cards (not shown) inside the lid 3 extending in parallel with the top plate 41. It is installed. The front plate 43 corresponds to a closing plate in the present invention, and is disposed on the front side of the top plate 41 so as to be able to close the entrance / exit 2a of the case body 2 as shown in FIG.
[0027]
  Next, the usage method of the storage case 1 is demonstrated with reference to drawings.
[0028]
  When housing the optical disk D in the housing case 1, first, as shown in FIG. 2, the lid 3 is rotated in the direction of the arrow A <b> 1 with respect to the case body 2, thereby opening the upper surface of the case body 2. To open. Next, for example, by inserting an index finger into the center hole Da of the optical disc D and attaching a thumb to the outer edge, the optical disc D is sandwiched between the index finger and the thumb. Next, the optical disc D in this state is inserted into the entrance / exit 2a of the case body 2 in the direction of the arrow B1, and the optical disc D is placed on the placement portion 22 as indicated by a broken line in FIG. Subsequently, a finger is attached to the outer edge of the optical disc D and further pushed in the direction of the arrow B1. At this time, when the vicinity of the center portion of the optical disk D reaches the constricted portion H, the outer edge portion comes into contact with the holding convex portions 31a and 31a of the disk holding portions 15 and 15. In this state, when the optical disc D is further pushed in the direction of the arrow B1, the base end portion 31c of the holding piece 31 is elastically deformed, and the disc holding portions 15 and 15 are separated from each other in the direction of the arrow C. Accordingly, the holding convex portions 31a and 31a are separated so as to be equal to the diameter L1 (see FIG. 2) of the optical disc D, and the optical disc D is allowed to move in the direction of the arrow B1.
[0029]
  Next, when the optical disc D is further pushed in the direction of the arrow B1, the outer edge portion of the optical disc D comes into contact with the inner wall surface of the rib 14 and is stopped at the accommodation position 2b. At this time, the base end portion 31c of the holding piece 31 that is elastically deformed is restored, so that the disc holding portions 15 and 15 are brought closer to each other in the direction of the arrow C. Thereby, the distance L3 (see FIGS. 7 and 8) between the holding convex portions 31a and 31a becomes narrower than the diameter L1 of the optical disc D, and the movement of the optical disc D in the direction of the arrow B2 is restricted. Further, as shown in FIG. 6, the optical disk D positioned at the storage position 2b is restricted from moving upward from the storage position 2b by the holding pieces 32, 32 of the disk holding portions 15, 15. Accordingly, the optical disk D is held at the receiving position 2b by the rib 14, the holding pieces 31, 31, the holding convex portions 31a, 31a and the holding pieces 32, 32. In this case, since the distance L2 between the inner wall surfaces 31b and 31b of the holding pieces 31 and 31 is formed wider than the diameter L1 of the optical disc D, the optical disc D in the state of being accommodated in the accommodating position 2b The stress is not applied to the part, and the detachment from the accommodation position 2b is restricted in a state where a slight movement is allowed. Thereafter, the lid 3 is rotated with respect to the case main body 2 in the direction of the arrow A2 shown in FIG. 2 to open the upper surface opening portion of the case main body 2 with the top plate 41 as shown in FIG. At this time, the entrance / exit 2a of the case body 2 is closed by the front plate 43 of the lid 3, and unintentional drop-out from the entrance / exit 2a of the optical disc D and entry of dust from the entrance / exit 2a are prevented.
[0030]
  On the other hand, when taking out (ejecting) the optical disk D stored in the storage case 1, first, the lid body 3 is rotated with respect to the case body 2 to open the upper surface opening portion of the case body 2. Next, for example, with the index finger inserted into the center hole Da of the optical disc D, the edge of the center hole Da is pulled out in the direction of the arrow B2 in FIG. At this time, when the optical disc D is moved in the direction of the arrow B2 and the vicinity of the center reaches the constricted portion H, the outer edge portion thereof is the holding convex portions 31a, 31a of the disc holding portions 15, 15. Abut. In this state, when the optical disc D is further pulled out in the direction of the arrow B2, the base end portion 31c of the holding piece 31 is elastically deformed, and the disc holding portions 15 and 15 are separated from each other in the direction of the arrow C. Accordingly, the holding convex portions 31a and 31a are separated so as to be equal to the diameter L1 (see FIG. 2) of the optical disc D, and the optical disc D is allowed to move in the direction of the arrow B2.
[0031]
  Next, when the optical disc D is further pulled out in the direction of the arrow B2, the base end portion 31c of the holding piece 31 that is elastically deformed is restored, so that the disc holding portions 15 and 15 are brought closer to each other in the direction of the arrow C. It is done. In addition, the drawn optical disk D has its outer edge projecting from the inlet / outlet 2a, and the upward movement restriction by the holding pieces 32, 32 is released and the optical disk D is lifted upward. Therefore, a thumb is attached to the outer edge of the optical disk D, and the optical disk D is sandwiched between the index finger inserted into the center hole Da and the thumb attached to the outer edge and lifted from the case body 2. Thereby, the removal of the optical disk D from the case body 2 is completed. Thereafter, the taken optical disk D is set in the video camera 51 or the like, whereby the recording data is written to the optical disk D or the recording data written to the optical disk D is read.
[0032]
  On the other hand, in this storage case 1, not only the above-described usage method of storing the optical disc D with the lid 3 attached to the case body 2 in the same manner as a general disk storage case, but also the state in which the lid 3 is removed. The optical disc D can be accommodated in the case body 2 and carried. For example, when the optical disc D is frequently inserted and ejected, it is troublesome to open and close the lid 3 each time. Therefore, the lid 3 is removed from the case body 2 in advance. In this case, first, the lid body 3 is rotated with respect to the case body 2, and the lid body 3 is half-opened with respect to the case body 2 as indicated by a broken line in FIG. 3 is moved with respect to the case body 2 in the direction indicated by the arrow X1. At this time, since the upper end side of the notch 12a is opened, the rotation shaft 42a pivotally supported by the inner end of the notch 12a is moved along the locus indicated by the arrow X1 in the notch 12a. The upper end of the notch 12a is separated from the case body 2 above. Thereby, the lid 3 is removed from the case main body 2. By accommodating the optical disc D in the case body 2 in this state as described above, the optical disc D can be immediately ejected or inserted without opening the lid 3. In this case, the case body 2 is formed with holding pieces 32 and 32 for restricting the upward movement of the optical disk D in the state of being accommodated in the accommodation position 2b. Accordingly, the detachment of the optical disk D upward from the case body 2 is restricted without closing the upper surface opening portion of the case body 2 by the lid 3.
[0033]
  Further, in the housing case 1, a plurality of case bodies 2, 2 with the lid 3 removed are stacked so that the upper surface opening portion in the lower case body 2 is stacked by the case body 2 stacked above. Can be occluded. Specifically, as shown in FIGS. 13 and 14, the case main bodies 2, 2. In this case, the upper end portions of the side plate 12 and the back plate 13 in the lower case body 2 are fitted into the fitting recesses 25, 25,. Are restricted from sliding in a direction in which the case main bodies 2, 2. Therefore, it is possible to sufficiently avoid the collapse of the stacked case bodies 2, 2,. In addition, when stacking the case bodies 2, 2,..., It is preferable to attach the lid 3 to the case body 2 to be stacked at the top as shown in both drawings. Thereby, the upper surface opening part in the uppermost case body 2 is closed by the lid 3, and the adhesion of dust to the optical disk D is avoided.
[0034]
  Further, the storage case 1 can be carried along with the video camera 51 while being attached to the mounting recess 52 of the video camera 51. For example, when the spare optical disk D is carried along with the video camera 51 while being accommodated in the accommodation case 1, first, the accommodation case 1 containing the optical disk D is positioned above the mounting recess 52. Next, the storage case 1 is moved down with respect to the video camera 51 in the direction of the arrow Y1a in FIGS. At this time, the locking claw 53 of the video camera 51 passes through the notch 16a and enters the notch 42b of the lid 3 in the housing case 1, and the outer surface 11b of the bottom plate 11 in the case main body 2 Surface contact is made with the inner bottom surface of the mounting recess 52. Next, the housing case 1 is slid with respect to the video camera 51 in the direction of the arrow Y1b. At this time, the locking projection 53a of the locking claw 53 is fitted into the locking recess 16b of the locking piece 16, so that the video camera 51 slides in the direction of the arrow Y2a with respect to the video camera 51. Is regulated. Thereby, as shown in FIGS. 15 and 16, the attachment of the housing case 1 to the video camera 51 is completed.
[0035]
  When using the optical disk D in the housing case 1 attached to the video camera 51, first, the housing case 1 is slid with respect to the video camera 51 in the direction indicated by the arrow Y2a in FIGS. At this time, the engagement of the locking projection 53a with the locking recess 16b is released, and the sliding of the housing case 1 in the direction of the arrow Y2a with respect to the video camera 51 is allowed. Next, the housing case 1 is moved up with respect to the video camera 51 in the direction of the arrow Y2b. Thereby, the removal of the storage case 1 from the video camera 51 is completed. Thereafter, the optical disk D stored in the storage case 1 is loaded instead of the optical disk D loaded in the video camera 51, and the loaded optical disk D is stored in the storage case 1 and attached to the video camera 51. .
[0036]
  Thus, according to the storage case 1, the rib 14 that restricts the movement of the stored optical disk D in the insertion direction (the direction of the arrow B1 in FIG. 3) and the narrowed portion H that is narrower than the diameter L1 of the optical disk D. To restrict the movement of the optical disc D in the ejection direction (the direction of the arrow B2) and open the narrowed portion H by elastic deformation of the proximal end portion 31c of the holding piece 31 to insert and eject the optical disc D. Since the holding convex portion 31a that allows movement to the optical disc D can be held in the accommodation position 2b in a non-contact state with respect to the vicinity of the center hole Da of the optical disc D, Peeling of the material layer due to accommodation and removal can be reliably avoided. Further, in the state of being held at the receiving position 2b, no stress is applied to the center hole Da of the optical disc D, so that a high-density optical disc (optical disc D) such as a DVD can be accommodated without being damaged.
[0037]
  In addition, according to the storage case 1, the pair of holding convex portions 31a and 31a are arranged to face each other with the guide path 2c interposed therebetween, and thereby, for example, the movement of the optical disc D is regulated by one holding convex portion 31a. In comparison, the movement of the optical disc D can be more reliably restricted by the outer edge portions on both sides in the width direction of the optical disc D being brought into contact with the holding convex portions 31a and 31a. On the other hand, when forming the constricted portion H that can reliably restrict the movement of the optical disc D with one holding convex portion 31a, an elastic deformation portion (allowing the holding piece 31 of the holding piece 31 to permit movement of the optical disc D during insertion and ejection). The amount of deformation of the base end portion 31c) must be increased, which may cause damage to the holding piece 31. On the other hand, according to this storage case 1, since the two holding convex portions 31a and 31a are provided, the amount of deformation of the elastic deformation portion (the base end portion 31c of the holding piece 31 can be reduced) Furthermore, according to the housing case 1, the bottom plate 11, the side plates 12, 12, the back plate 13, the rib 14, the holding piece 31, the holding convex portion 31a, and the like are integrally formed of a resin material. As a result, for example, a holding member separate from the case main body 2 is slidably attached to the case main body 2 and compared with a configuration in which the holding member is biased in a direction in which the constriction H is formed by a spring or the like. As a result, the disc storage case according to the present invention can be manufactured simply by injecting a resin into a mold having a predetermined shape. It can be.
[0038]
  Further, according to the storage case 1, the pair of holding pieces 32, 32 for restricting the upward movement of the stored optical disk D is provided, so that even if the lid 3 does not exist, the storage case 1 is disposed above the optical disk D. The withdrawal can be avoided. Thereby, when the optical disk D is frequently housed and taken out (discharged), it can be made to function as a housing case with the lid 3 removed from the case body 2. Furthermore, according to this storage case 1, the optical disc D stored in the storage position 2b is formed by recessing the central portion in the width direction of the guide path 2c from the storage position 2b to the entrance / exit 2a to form the withdrawal recess 24. When taking out the optical disc D, the finger can be inserted deeply into the center hole Da by the depth of the recess 24 for withdrawal, so that the optical disc D can be taken out easily.
[0039]
  Moreover, according to this storage case 1, the recessed part for a fitting which can fit the upper end part of the both-sides board 12 and 12 and the back board 13 in the lower case main body 2 when a plurality of case main bodies 2, 2 ... are stacked. Is formed on the outer surface 11b of the bottom plate 11 of the case main body 2 so that it is difficult for the upper case main body 2 to slide with respect to the lower case main body 2. It is possible to sufficiently avoid the collapse of the case bodies 2, 2. Further, according to the storage case 1, the rotation shafts 42a and 42a are formed on the lid 3, and the rotation shaft 42a is pivotally supported at one end side thereof and the other end side is opened so that the rotation shaft 42a is detached. Since the notch 12a that can be inserted is formed in the case body 2, the lid 3 can be easily removed from the case body 2 when the lid 3 is unnecessary. In addition, according to the storage case 1, the cover plate 3 is provided with the front plate 43 capable of closing the entrance / exit 2 a in the case body 2, so that the entrance / exit in a state where the lid body 3 is attached to the case body 2. Unintentional discharge of the optical disk D from 2a can be reliably avoided, and intrusion of dust from the inlet / outlet 2a can be avoided.
[0040]
  Furthermore, according to the storage case 1 and the video camera 51 according to the embodiment of the present invention, the video is obtained by being locked by the locking claws 53 formed in the mounting recess 52 of the video camera 51. Locking pieces 16, 16 that enable the storage case 1 to be attached to the camera 51 are formed in the storage case 1, and locking claws 53, 53... That can lock the locking pieces 16, 16 in the storage case 1 are provided. Since the storage case 1 is configured to be attached to the video camera 51, the storage case 1 can be securely and easily fitted and attached to the video camera 51 with a relatively simple configuration. Therefore, the storage case 1 (and the optical disc D) can be carried together with the video camera 51 without shaking. For this reason, for example, the storage case 1 storing the spare optical disk D can be easily carried along with the video camera 51 without carrying a dedicated bag or the like for carrying the storage case 1.
[0041]
  The present invention is not limited to the embodiment described above. For example, in the embodiment of the present invention, the example in which the ribs 14 are formed in an arc shape in a top view along the outer shape of the optical disc D has been described. However, the shape of the first movement restricting portion in the present invention is not limited to this, Various shapes that can restrict the movement of the optical disc D from the housing position 2b in the direction of the arrow B1 can be employed. In this case, the first movement restricting portion is not limited to the configuration in which both end portions are connected to the side plate 12 like the rib 14 exemplified in the embodiment of the present invention. For example, the outer edge portion of the optical disc D is in contact with the first movement restricting portion. It is possible to adopt a configuration in which a pin-shaped stopper independent from the side plate 12 is erected at a possible position to restrict the movement of the optical disc D in the arrow B1 direction. Further, the optical disc D can be brought into contact with the inner wall surface of the back plate 13 without using the rib 14 or the pin-shaped member, so that the back plate 13 functions as the first movement restricting portion in the present invention. You can also. Furthermore, in the embodiment of the present invention, the case main body 2 in which the pair of disk holding portions 15 and 15 are disposed to face each other has been described as an example, but the number of second movement restricting portions in the present invention is not limited to this. It is possible to adopt a configuration in which one second movement restricting portion is provided on either the left or right to restrict the movement of the optical disc D. In this case, it is preferable that the holding pieces 32 (third movement restricting portion in the present invention) in the disc holding portion 15 are arranged on both the left and right sides.
[0042]
  In the embodiment of the present invention, a configuration in which the housing case 1 is attached to the video camera 51 by locking the locking pieces 16 of the case body 2 by the locking claws 53 of the video camera 51 is described. However, the present invention is not limited to this. For example, as shown by a broken line in FIG. 3, the bottom plate 11 of the case main body 2 is formed with L-shaped locking holes 17 and 17 in a top view, and as shown in FIGS. 17. Adopting a configuration in which locking claws 54 with an L-shaped cross-section capable of locking the 17.17 mouth edge (bottom plate 11) are erected on the inner bottom surface of the mounting recess 52a in the video camera 51A. Can do. When the housing case 1 is attached to the mounting recess 52b, the housing case 1 is moved downward with respect to the video camera 51A in the direction of the arrow Y1a, and then the housing case 1 is slid with respect to the video camera 51A in the direction of the arrow Y1b. Let As a result, as shown in FIG. 18, the mouth edge (bottom plate 11) of the locking hole 17 is locked by the locking claw 54, and the mounting of the housing case 1 to the video camera 51A is completed. Further, when removing the storage case 1 from the video camera 51A, the storage case 1 is slid with respect to the video camera 51A in the direction of the arrow Y2a, and then the storage case 1 is lifted with respect to the video camera 51A in the direction of the arrow Y2b. Move.
[0043]
  Further, the present invention is limited to a configuration in which the disk storage case is attached to and detached from the electronic device by an attachment method in which the disk storage case is slid and attached to the electronic device after being moved downward, and a removal method in which the disk storage case is moved upward after being slid. Not. For example, as shown in FIG. 19, locking claws 55, 55... Whose lower ends are configured to be elastically deformable are erected in the mounting recess 52 b of the video camera 51 </ b> B, as shown in FIG. 20. A configuration in which the locking pieces 16, 16 of the housing case 1 are locked by the locking claws 55, 55,. In this configuration, when the housing case 1 is moved downward with respect to the video camera 51B in the direction of the arrow Y1a, the locking claws 55, 55,... Are elastic in the directions of the arrows E, E,. After the deformation, the locking piece 16 is locked. As a result, the attachment of the housing case 1 to the video camera 51B is completed. Further, when removing the housing case 1 from the video camera 51B, the retaining claws 55, 55,... Are moved as shown in FIG. 20 by moving the housing case 1 upward relative to the video camera 51B in the direction of the arrow Y2b. It is elastically deformed in the directions of the arrows E, E. As a result, the removal of the storage case 1 from the video camera 51B is completed. Therefore, according to this configuration, it is possible to attach and detach the storage case 1 only by moving it downward and upward with respect to the video camera 51B. In this case, it is not limited to the locking piece 16 to be locked by the locking claw 55, and any one of the bottom plate 11, the upper end portion of the side plate 12, the upper surface of the lid 3, etc. can be locked. it can.
[0044]
  In the embodiment of the present invention, a DVD having a diameter of 8 cm is described as an example of the optical disk D to be stored in the storage case 1, but the diameter of the disk-shaped recording medium in the present invention is not limited to 8 cm. Furthermore, not only DVD but also various disc-shaped recording media such as CD, CD-R, CD-RW, DVD-R and DVD-RW can be accommodated. Furthermore, in the embodiment of the present invention, the example in which the housing case 1 is attached to the video camera 51 as an example of the electronic apparatus according to the present invention has been described. However, the present invention is not limited to this, and an audio recording / playback device, a computer, etc. The disc storage case can be attached to various electronic devices other than the video camera.
[0045]
【The invention's effect】
  As described above, according to the disc storage case of the present invention, the first movement restricting portion that restricts the movement of the stored disc-shaped recording medium in the insertion direction and the narrowed portion narrower than the diameter of the disc-shaped recording medium. Is formed to restrict the movement of the disc-shaped recording medium in the ejection direction and open the constricted portion by the elastic deformation of the elastic deformation portion to allow the disc-shaped recording medium to move in the insertion direction and the ejection direction. By providing the movement restricting portion, the disc-shaped recording medium can be held at the receiving position in a non-contact state with respect to the vicinity of the center hole of the disc-shaped recording medium. The resulting peeling of the material layer can be reliably avoided. Further, since stress is not applied to the center hole of the disc-shaped recording medium in the state where the disc-shaped recording medium is held, the high-density optical disc (disc-shaped recording medium) such as a DVD can be accommodated without being damaged.
[0046]
  Further, according to the disc storage case according to the present invention, the pair of second movement restricting portions are arranged opposite to each other with the inside of the disc guide path interposed therebetween, so that, for example, one second movement restricting portion moves the disc-shaped recording medium. Compared to the restricting configuration, the outer edge portions on both sides in the width direction of the disc-shaped recording medium are brought into contact with the second movement restricting portions, so that the movement of the disc-shaped recording medium can be more reliably regulated. On the other hand, in the case of forming a constricted portion that can reliably restrict the movement of the disc-shaped recording medium by one second movement restricting portion, the elastic deformation for allowing the disc-shaped recording medium to move during insertion and ejection It is necessary to increase the amount of deformation of the part, which may cause damage to the elastically deformed part. On the other hand, according to this disc storage case, since the two second movement restricting portions are provided, the amount of deformation of the elastically deforming portion can be reduced, so that the above problem can be solved.
[0047]
  Furthermore, according to the disc storage case of the present invention, the second movement restricting portion is integrally formed of a resin material together with the case main body and the elastic deformation portion, so that, for example, a holding member separate from the case main body is attached to the case main body. Compared to a configuration in which the holding member is urged in a direction to form a constricted portion by a spring or the like so as to be slidable with respect to the disc, the disc storage case according to the present invention can be obtained by simply injecting resin into a mold having a predetermined shape. As a result, the manufacturing cost can be sufficiently reduced to the extent that assembly work or the like can be made unnecessary.
[0048]
  Further, according to the disk storage case according to the present invention, the pair of third movement restricting portions for restricting the upward movement of the stored disk-shaped recording medium is provided, so that the disk-shaped recording medium can be disc-shaped even when the lid is not present. The upward separation of the recording medium can be avoided. Accordingly, when the disk-shaped recording medium is frequently stored and taken out (discharged), it can be made to function as a storage case with the lid removed from the case body.
[0049]
  Furthermore, according to the disk storage case according to the present invention, when the central portion in the width direction of the disk guide path is recessed from the storage position to the disk entrance / exit, the disk-shaped recording medium stored in the storage position is removed. Since the finger can be inserted deeply into the center hole by the depth of the recessed portion, the disc-shaped recording medium can be easily taken out.
[0050]
  Further, according to the disk storage case according to the present invention, the case main body has a fitting recess that can be fitted to at least one upper end of both side plates and the back plate of the case main body, which are positioned below in a state where a plurality of case main bodies are stacked. Since it is difficult to slide the upper case body relative to the lower case body, the case body in a stacked state collapses due to slight touching with hands or objects. Can be avoided sufficiently.
[0051]
  Furthermore, according to the disk storage case of the present invention, the rotating shaft is formed in one of the case main body and the lid, the rotating shaft is pivotally supported at one end thereof, and the other end is opened. By forming the mounting groove on the other side of the case main body and the lid so that the moving shaft can be detached and inserted, the lid can be easily removed from the case main body when the lid is unnecessary.
[0052]
  Further, according to the disk storage case according to the present invention, by providing the lid with a closing plate capable of closing the disk entrance / exit in the case main body, it is possible to remove the disk from the disk entrance / exit in a state where the lid is attached to the case main body. Thus, unintentional discharge of the disc-shaped recording medium can be surely avoided, and intrusion of dust from the disc inlet / outlet can be avoided.
[0053]
  Furthermore, according to the disc storage case and the electronic device according to the present invention, the mounting portion capable of integrally attaching the disc storage case to the electronic device is formed, and the disc storage case can be attached to the mounting portion. The disc storage case (and disc-shaped recording medium) can be integrally attached to the electronic device and carried. For this reason, for example, a disc housing case containing a spare disc-shaped recording medium can be easily carried along with the electronic device without carrying a dedicated bag for carrying the disc housing case. In this case, an attachment locking piece that enables attachment of the disk storage case to the electronic device by being locked by a locking claw that constitutes a part of the attachment portion of the electronic device is formed in the disk storage case. Since the mounting portion having the locking claw portion configured to be able to mount the disk storage case by locking the mounting locking piece is formed in the electronic device, the electronic device can be configured with a relatively simple configuration. The disc storage case can be securely and easily attached.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a storage case 1 according to an embodiment of the present invention.
FIG. 2 is a right side view of a storage case 1 and an optical disc D.
3 is an external perspective view of a case main body 2 in the housing case 1. FIG.
FIG. 4 is a plan view showing the vicinity of the disk holding portion 15 of the case body 2 from above.
FIG. 5 is a bottom view showing the vicinity of the disk holding portion 15 of the case body 2 from below.
6 is a cross-sectional view of the case main body 2 in the vicinity of the disc holding portion 15. FIG.
FIG. 7 is a bottom view showing the case body 2 from below.
FIG. 8 is a plan view showing the case body 2 from above.
9 is a right side view of the case body 2. FIG.
10 is a front view of the case body 2. FIG.
FIG. 11 is a bottom view showing the lid 3 in the housing case 1 from below (inner side).
12 is an external perspective view of the video camera 51. FIG.
FIG. 13 is a right side view showing a state in which five case bodies 2 are stacked.
FIG. 14 is a front view showing a state in which five case bodies 2 are stacked.
15 is a plan view for explaining a housing method of the housing case 1 in the mounting recess 52 of the video camera 51. FIG.
16 is a side view for explaining a housing method of the housing case 1 in the mounting recess 52 of the video camera 51. FIG.
FIG. 17 is a perspective view of the vicinity of a mounting recess 52a in a video camera 51A according to another embodiment of the present invention.
18 is a perspective view of the vicinity of the locking hole 17 in the case body 2. FIG.
FIG. 19 is a perspective view of the vicinity of a mounting recess 52b in a video camera 51B according to still another embodiment of the present invention.
FIG. 20 is a cross-sectional view of a state in which the housing case 1 is attached to the mounting recess 52b of the video camera 51B.
[Explanation of symbols]
      1 Containment case
      2 Case body
    2a entrance
    2b Containment position
    2c guideway
      3 lid
    11 Bottom plate
  11a inner surface
  11b outer surface
  12a Notch
    13 Backboard
    14 Ribs
    15 Disc holder
    16 Locking piece
    17 Locking hole
    21 Slit
    24 Drawer recess
    25 Recess for fitting
    31 Holding piece
  31a Convex part for holding
  31c Base end
    32 Holding piece
  42a Rotating shaft
    43 Front plate
    51, 51A, 51B Video camera
    52, 52a, 52b Mounting recess
    53, 54, 55 Claw for locking
      D Optical disc
    Da center hole
      H Stenosis
    L1 diameter
    L2, L3 distance

Claims (12)

A shallow dish-shaped case main body formed so as to be able to receive a disk-shaped recording medium, and a detachment disposed in the case main body so that detachment of the disk-shaped recording medium stored in the storage position from the storage position can be regulated. A disc storage case comprising a regulating means,
The case body has a side opening that is formed with a disc inlet / outlet through which the disc-shaped recording medium can be inserted and ejected from the side. A disc guide path for guiding the disc-shaped recording medium in the insertion direction and the ejection direction is formed between the outlet and the storage position,
The detachment restricting means includes a first movement restricting portion that is disposed on the inner side of the disc guide path in the insertion direction and restricts movement of the stored disc-shaped recording medium in the insertion direction, and an elastic deformation portion. The disc-shaped recording medium is moved in the ejection direction from the accommodation position by forming a narrowed portion narrower than the diameter of the disc-shaped recording medium in the disc guide path disposed in the case body via A second movement restricting portion that restricts and opens the constricted portion by elastic deformation of the elastically deforming portion and allows the disc-shaped recording medium to move in the insertion direction and the discharge direction, and the accommodation position A disc housing case for restricting the disc- shaped recording medium from being detached from the housing position in a state in which a predetermined amount of movement is allowed .   The disc storage case according to claim 1, wherein the pair of second movement restricting portions are arranged to face each other with the inside of the disc guide path interposed therebetween.   3. The disc storage case according to claim 1, wherein the second movement restricting portion is integrally formed of a resin material together with the case main body and the elastic deformation portion.   A pair of third third members that are arranged to face each other with the disc guide path therebetween so that the outer edge portion of the upper surface of the accommodated disc-shaped recording medium can come into contact with each other and restrict the upward movement of the accommodated disc-shaped recording medium. The disc storage case according to claim 1, further comprising a movement restricting portion.   5. The disc storage case according to claim 1, wherein the case main body is recessed at a central portion in the width direction of the disc guide path from the storage position to the disc entrance / exit.   The case body has a fitting recess formed on the outer surface of the bottom plate that can be fitted to at least one upper end of both side plates and back plate of the case body, which are positioned below in a state where a plurality of the case bodies are stacked. 6. The disk storage case according to claim 1, wherein   A lid body configured to be able to close an upper surface opening portion of the case body, and the lid body is rotatably attached to either the case body or the lid body with respect to the case body A rotation shaft is formed, and a mounting groove portion that pivotally supports the rotation shaft is formed on the other of the case main body and the lid body, and the mounting groove portion has the rotation shaft on one end side thereof. The other end is opened so that the rotation shaft can be detached from the mounting groove and the rotation shaft can be inserted into the mounting groove. The disk storage case described in the above.   The disk storage case according to claim 7, wherein the lid includes a closing plate capable of closing the disk entrance / exit in the case body.   The disk storage case according to claim 1, wherein the case main body is configured to be integrally attachable to an attachment portion formed in an electronic device.   The case main body is extended outward from both side plates in the plate surface direction of the bottom plate and is locked by a locking claw portion that constitutes a part of the mounting portion in the electronic device. The disc storage case according to claim 9, further comprising an attachment locking piece that allows the case body to be attached. The recording data can be written to the disk-shaped recording medium that can be stored in the disk storage case according to claim 9 , and the recording data written to the disk-shaped recording medium can be read. Electronic equipment,
An electronic device comprising the mounting portion formed so that the case body can be mounted integrally. It is comprised so that at least any one of the writing of the recording data with respect to the said disk-shaped recording medium which can be accommodated in the disk storage case of Claim 10 and the reading of the said recording data currently written on the said disk-shaped recording medium can be performed. Electronic equipment,
The mounting portion is formed so that the case body can be integrally attached,
The mounting portion, the disk housing case the casing body formed the mounting locking pieces engagement locks with the case body and attachable to the locking claw portion configured not that electron comprise of machine.

Images