The present invention relates to a business card case, and more particularly, to a business card case capable of storing a plurality of business cards and discharging them one by one semi-automatically as necessary.
Conventionally, business card cases or name card cases have been known in the art, such as those disclosed in JP Registered Utility Model Publication No. 3108210 or JP Utility Model Publication No. S62-63020. In JP Registered Utility Model Publication No. 3108210, a discharging opening of business cards or a name cards (hereinafter called cards) is provided on a storage case for storing a plurality of cards, and the stored cards are lifted upward by lifting means provided on a bottom portion of the storage case using elastic means such as a leaf spring. The card lifted upwardly can be pushed out one by one by inserting a finger into a window portion provided on a cover and by sliding the card via frictional force generated between the finger and the card. In JP Utility Model Publication No. S62-63020, a card case comprises a lifting means as well, and a discharging button member thereof is slidably mounted on a cover; The card can be discharged through a discharging opening by locking an end of a card at the top of the stack using a locking portion provided on the discharging button.
However, the business card case (hereinafter called a card case) disclosed in the above-stated JP Registered Utility Model Publication No. 3108210 of the above-mentioned prior art has a problem that it may be difficult to take the card out through the discharging opening because the card is pressed downward when the card is strongly pressed in order to push out the card stored in the storage case by finger. Another problem is that the above mentioned problem is aggravated in that elastic force of the elastic means of the lifting means is reduced, in case of less number of cards stored in the storage case.
Moreover, in the card case disclosed in the above-mentioned JP Utility Model Publication No. S62-63020, a card is to be discharged by pushing on the discharging button member, wherein the end of the card is locked by the locking portion of the discharging button member. This card case also has a problem in that because the part to be locked by the locking portion of the discharging button member is as thick as a card to be locked, the card case often fails to lock the card, so that repeated trials will be necessary. Moreover, the card case disclosed in the above-stated JP Utility Model Publication No. S62-63020 has another problem in that the discharging button should be manually returned every time a card is to be used, thus the operation is complicated.
The present invention is made to solve the above-mentioned problems. It is therefore an object of the present invention to provide a card case wherein it is possible to securely discharge a card stored in a storage case to the last one, through a discharging opening.
Moreover, an object of the present invention is to provide a card case, wherein a card is semi-automatically discharged from a storage case.
In order to achieve the above-mentioned object, the present invention is characterized in that a card case comprises a storage case having a discharging opening for discharging cards and composed of a lower case and an upper case detachable from each other, wherein the storage case can receive a plurality of stacked cards in its interior; fixing means fixing the lower case and the upper case while both the cases overlap each other; lifting means mounted on the lower case for lifting up the cards stored in the lower case toward the upper case; a guiding member mounted on one side of the storage case for bending at least the ones at the top of the stacked cards stored in the lower case; and a discharging button member having a locking portion for locking the ones at the top of the stacked cards provided on the upper case so as to slidable toward the discharging opening.
The present invention is also characterized in that a card case comprises a storage case having a discharging opening for discharging cards and composed of a lower case and an upper case detachable from each other, wherein the storage case can receive a plurality of stacked cards in its interior; fixing means fixing the lower case and the upper case while both the cases overlap each other; lifting means mounted on the lower case for lifting up the cards stored in the lower case toward the upper case; a guiding member mounted on one side of the storage case for bending at least the ones at the top of the stacked cards stored in the lower case; a discharging button member having a locking portion for locking the ones at the top of the stacked cards provided on the upper case so as to slidable toward the discharging opening; and an automatic returning means automatically returning the discharging button member from a predetermined sliding position to an initial position.
In both of the inventions as described above, it is possible to allow to fix the lower case and the upper case are while both the cases overlap each other, by designing the fixing means so as to comprise fixing members openably/closably attached to both sides of the lower case, and by engaging locking protruding members provided on free end sides of the fixing members with the upper case.
Further in the present invention, the guiding member can be so designed that a guiding portion is provided thereon, with its top side being inclined or curved toward the inner side of the storage case.
Still further in the present invention, the guiding member is characterized in that it comprises a substrate portion provided on the inner side of the upper case and an elastic guide body mounted inside the substrate portion, and that escaping releasing recess is provided inside the substrate portion on the upper portion side of the guide body.
In the invention according to claim 1 of the present invention, the cooperation of a lifting means with a guiding member allows for an increase in bent angle of the cards stored at the upper end of a storage case as compared to those stored below. Thereby, these cards are easily engaged with a locking portion of a discharging button member, and this ensures that a card is discharged from the discharging opening one by one.
When a card case is structured as in claim 2, a discharging button member could be automatically returned to an initial position after discharging operation of card(s) using the discharging button member, in addition to the above-mentioned advantage of the invention according to claim 1, thus effects can be achieved in that operability is improved.
Embodiments of the present invention are described hereinafter with reference to the accompanying drawings.
As shown particularly in
Locking recesses 3g, 3g of the fixing means 5 are provided on upper portions at both ends of the top plate 3a of the upper case 3 in right and left direction. A window portion 3h is also provided substantially on a center of the top plate 3a. An accommodating recess 3i around the window portion 3h for accommodating a helical spring 9a as described below is provided in a back side of the top plate 3a, in particular as shown in
The fixing means 5 are composed of fixing members 5a, 5a, with lateral sides being substantially C-shaped, in particular as shown in
The lifting means 6 comprises elastic means composed of respective pairs of leaf springs 6a, 6a and 6b, 6b of which attaching members 6e, 6e and 6f, 6f are fixed at positions in right-left direction on the bottom plate 2a of the lower case 2, with their pressure contact portions 6c, 6c and 6d, 6d being headed in front-back direction. In the meantime, the leaf springs could be replaced with compression coil springs with pressing plates.
The guiding member 7 is in the shape of a square-bar with cross section in a rectangular shape, as attached via attaching screws 7a, 7a, 7a to inner surface of one side of the upper case 3, in particular as shown in
The discharging button member 8 comprises a button portion 8a on which a surface notch 8f is provided, a guiding plate 8c attached via attaching screws 8b to the button portion 8a with a predetermined interval being secured, and a locking portion 8e, in particular as shown in
The automatic returning means 9 of the discharging button member 8 comprises a helical spring 9a in particular as shown in
Functional effects of the card case of the present invention are described hereinafter.
First, as shown in
On the other hand, as the discharging button member 8 is forced by the automatic returning means 9 to permanently remain available for use in a predetermined position, so that the locking portion 8e thereof is engaged with the most bended portion of a card m at the top.
In this state, a plurality of cards M are stored in the storage case 4. When the respective cards m are necessary, the discharging button member 8 is pushed toward the discharging opening 3f. Then, the card m at the top of the respective cards m stored in the storage case 4 is locked by the locking portion 8e of the discharging button member 8, and the card m at the top is slid together with the discharging button member 8 and pushed out of the storage case 4 through the discharging opening 3f.
When the card m is discharged from the discharging opening 3f and the grip on the discharging button member 8 is released, the discharging button member 8 is automatically pushed back by elastic force of the helical spring 9a of the automatic returning means 9 and goes back to an initial position. Once the discharging button member 8 returns to an initial position, a second card m is now bent the most so as to be available for use.
In the meantime, with innovations in a structure and an arrangement of elastic means, the automatic returning means 9 of the discharging button member 8 can be so designed that both the discharging operation of a card and the returning operation of the discharging button member 8 after discharging a card can be conducted semi-automatically.
When the second card m and the lower ones are necessary, the cards pushed out from the discharging opening 3f can be taken out in fingers by operating the discharging button member 8 in an above-mentioned manner until no card m is stored in the storage case 4.
In this case, the respective cards m could be securely locked by the locking portion 8e of the discharging button member 8, even when lifting force of the lifting means 6 is reduced, since a card bent by the guiding member 7 is not pressed from a top side while discharged.
More specifically an elastic guide body 15c is attached to the inner surface of the substrate portion 15a of the upper case 16, for example by means of bonding. In an inner portion at the top of the substrate portion 15a the releasing recess 15d for releasing the bending portion 15b of the guide body 15c is provided. In the embodiment as above described, a pressure of the elastic bending portion 15b against the sides of the respective cards m of a plurality of stacked cards M is reduced when they lie remote from the bending fulcrum 15e, so that the card at the top shows a smallest resistance against the discharging operation. Therefore, an advantage of facilitating the discharging operation of the card at the top only can be obtained.
The present invention implemented as described in the foregoing enables to securely discharge the card taken out from a storage case to the last one. And also, since a returning operation of a discharging button member is automatically conducted, the present invention can be favorably used as a user-friendly business card case.
Number | Date | Country | Kind |
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2010-154826 | Jul 2010 | JP | national |