CN104210860A - Card accommodating box and card-sending device - Google Patents

Abstract

The invention provides a card accommodating box and a card-sending device. In the card accommodating box, a cover plate can be easily exchanged and a car can be also prevented pulling out when not allowed. The card accommodating box comprises a hinge chain part (35) connecting a side plate (23) with the cover plate in a way that the cover plate (24) can be opened. The hinge chain part is formed by a hinge chain shaft (38) rotating with the cover plate as the center; a shaft protection part (26a) is formed on the side plate; a shaft insertion through hole (26b) is formed on the shaft protection part; the hinge chain part (35) further comprises an anti-falling screw (40); the anti-falling externally projects in a radial way to prevent the hinge chain to fall from the shaft protection part (24a, 26a); and when the cover plate is closed, the ant-falling screw is arranged in the card accommodating box and has a contact with the cover plate in a way of not exposing out of the card accommodating box, so rotation range of the hinge chain shaft can be limited.

Description

Card accepting box and card-issuing device

Technical field

The present invention relates to the stacked card accepting box of being accommodated of multiple cards.In addition, the invention still further relates to the card-issuing device comprising above-mentioned card accepting box.

Background technology

At present, there will be a known a kind of by stacked for multiple cards card accepting box (such as with reference to patent documentation 1) of being accommodated.The card accepting box that patent documentation 1 is recorded is used by being installed on card-issuing device.In addition, as shown in Figure 10, this card accepting box comprises: four limits that restriction blocks also make the side plate 101 of card proper alignment in vertical; And will the cover plate 102 of the blocked inlet of the card of side plate 101 upper end be formed at.Side plate 101 is connected by hinge part 103 with cover plate 102, and cover plate 102 can carry out opening closedown relative to side plate 101.Cover plate 102 is provided with lock 104, and the mode that this lock 104 is not opened relative to side plate 101 with cover plate 102 locks cover plate 102.In addition, cover plate 102 is provided with handle (not shown).

Hinge part 103 comprises hinge axis 105, and this hinge axis 105 is center of turns that cover plate 102 rotates relative to side plate 101.Side plate 101 is formed respectively to two maintaining part 101a that the both end sides of hinge axis 105 keeps, cover plate 102 is formed respectively to two maintaining part 102a that the both end sides of hinge axis 105 keeps.Maintaining part 101a, 102a are outstanding towards the position more more outward than the outer peripheral face of side plate 101.In addition, maintaining part 101a, 102a are formed with the through hole inserted for hinge axis 105.By hinge axis 105 simply from the mode that maintaining part 101a, 102a pull down, the end side of hinge axis 105 such as can not be fixed by caulking to maintaining part 101a.

In the card accepting box that patent documentation 1 is recorded, if do not open lock 104, then can not open cover plate 102 and take out card from card accepting box.In addition, in the card accepting box that patent documentation 1 is recorded, the hinge axis 105 of the hinge part 103 be connected with cover plate 102 by side plate 101 is fixed by caulking to the maintaining part 101a of side plate 101, therefore, if do not use the instruments such as drill bit to destroy hinge axis 105 etc., then can not pull down cover plate 102 from side plate 101 and take out card from card accepting box.Therefore, if the card accepting box using patent documentation 1 to record, then card is illegally extracted from card accepting box by the operator etc. carrying out operation in the scene arranging for card-issuing device that can prevent.

Prior art document

Patent documentation 1: Japanese Patent Laid-Open 2007-179426 publication

As mentioned above, if the card accepting box using patent documentation 1 to record, then can prevent from illegally extracting card from card accepting box.On the other hand, the card accepting box that patent documentation 1 is recorded is carried by taking out from card-issuing device sometimes, therefore, makes cover plate 102, handle produce the unfavorable conditions such as distortion sometimes because of the vibration, impact etc. during conveying card accepting box.But in the card accepting box that patent documentation 1 is recorded, the end side of hinge axis 105 is fixed by caulking to maintaining part 101a, therefore, when producing unfavorable condition on cover plate 102, handle, can not change cover plate 102 simply.

Summary of the invention

Therefore, even if technical matters of the present invention is to provide a kind of replacing easily carrying out cover plate, the card accepting box illegally extracted of card can also be prevented.In addition, technical matters of the present invention is also to provide a kind of card-issuing device comprising this card accepting box.

In order to solve the problems of the technologies described above, multiple block stacked and are accommodated by card accepting box of the present invention, and it is characterized in that, comprising: side plate, this side plate at least forms a part for the side of card accepting box, peristome, this peristome delimited by side plate, and be the entrance in Ka Chaoka accepting box, cover plate, this cover plate occlusion of openings portion, and hinge part, side plate is connected with cover plate by the mode that this hinge part can open closedown relative to side plate with cover plate, and hinge part comprises: hinge axis, and this hinge axis is the center of turn that cover plate rotates relative to side plate, side plate side shaft maintaining part, this side plate side shaft maintaining part is formed at side plate and keeps hinge axis, and cover plate side shaft maintaining part, this cover plate side shaft maintaining part is formed at cover plate and keeps hinge axis, side plate side shaft maintaining part is formed the side plate side shaft inserting hole inserted for hinge axis, cover plate side shaft maintaining part is formed the cover plate side shaft inserting hole inserted for hinge axis, hinge part also comprises for preventing the anti-loosing screw that hinge axis comes off from side plate side shaft maintaining part and cover plate side shaft maintaining part towards the axis of hinge axis or the locking pin be made up of spring pin, the anti-loosing screw of formation hinge part or locking pin are configured at the inside of card accepting box when cover plate occlusion of openings portion, and give prominence to towards the radial outside of hinge axis, the mode that anti-loosing screw or locking pin do not expose to the outside of card accepting box with the anti-loosing screw when cover plate occlusion of openings portion or locking pin contacts with side plate and cover plate, thus the slewing area of the hinge axis being center of turn with the axle center of hinge axis is limited.

In card accepting box of the present invention, side plate is formed to the side plate side shaft maintaining part that hinge axis keeps, cover plate is formed to the cover plate side shaft maintaining part that hinge axis keeps.In addition, side plate side shaft maintaining part is formed with the side plate side shaft inserting hole inserted for hinge axis, cover plate side shaft maintaining part is formed the cover plate side shaft inserting hole inserted for hinge axis.In addition, the anti-loosing screw utilizing the radial outside towards hinge axis to give prominence to or locking pin come off towards the axis of hinge axis to prevent hinge axis from side plate side shaft maintaining part and cover plate side shaft maintaining part.Therefore, in the present invention, if pull down anti-loosing screw or spring pin and locking pin, then by hinge axis from side plate side shaft maintaining part and cover plate side shaft maintaining part towards axially extract, in addition, also cover plate can be pulled down by extracting hinge axis from side plate.That is, in the present invention, even if do not destroy hinge axis etc., if pull down anti-loosing screw or locking pin, then also cover plate can be pulled down from side plate.Therefore, in the present invention, the replacing of cover plate can easily be carried out.

In addition, in card accepting box of the present invention, anti-loosing screw or locking pin are configured at the inside of card accepting box when cover plate occlusion of openings portion, and give prominence to towards the radial outside of hinge axis, and contact with side plate and cover plate in the mode that the anti-loosing screw when cover plate occlusion of openings portion or locking pin do not expose to the outside of card accepting box, thus the slewing area of the hinge axis being center of turn with the axle center of hinge axis is limited.Therefore, in the present invention, when cover plate occlusion of openings portion, anti-loosing screw or locking pin do not expose the outside to card accepting box.Therefore, in the present invention, under the state in cover plate occlusion of openings portion, anti-loosing screw or locking pin can not be pulled down and extract hinge axis from side plate side shaft maintaining part and cover plate side shaft maintaining part, and pulling down cover plate from side plate.Consequently, in the present invention, even if the replacing of cover plate easily can be carried out, also can prevent from illegally extracting card from card accepting box.

In the present invention, such as, hinge part comprises: two side plate side shaft maintaining parts, and these two side plate side shaft maintaining parts keep the both end sides of hinge axis respectively, two cover plate side shaft maintaining parts, these two cover plate side shaft maintaining parts keep the both end sides of hinge axis respectively, and the cylindrical member of tubular, this cylindrical member is configured between two side plate side shaft maintaining parts and cover plate side shaft maintaining part, the external diameter of cylindrical member than the internal diameter of side plate side shaft inserting hole and the internal diameter of cover plate side shaft inserting hole large, hinge axis inserts cylindrical member, anti-loosing screw or locking pin are by preventing hinge axis relative to the relative movement of cylindrical member towards axis, prevent hinge axis from coming off from side plate side shaft maintaining part and cover plate side shaft maintaining part towards axial, and prevent hinge axis relative to cylindrical member with axle center for center of turn relatively rotates, and limit with the slewing area of the axle center of the hinge axis cylindrical member that is center of turn and hinge axis when cover plate occlusion of openings portion.

In this case, it is preferable that, hinge part comprises anti-loosing screw, cylindrical member is formed with tapped bore in the mode radially run through between the outer peripheral face and inner peripheral surface of cylindrical member, in this tapped bore, be formed with the negative thread engaged with anti-loosing screw, hinge axis is formed with anti-loosing screw before the plane contact surface of end in contact.According to said structure, then the situation that the patchhole be formed at the situation of hinge axis with the tapped bore engaged with anti-loosing screw, inserting for locking pin is formed at hinge axis compares, and hinge axis can be made to attenuate.Therefore, side plate side shaft maintaining part that hinge axis is kept and cover plate side shaft maintaining part can be reduced, consequently, hinge part miniaturization can be made.In addition, according to said structure, then owing to being formed with plane contact surface on hinge axis, the front end of anti-loosing screw and the area of contact of hinge axis therefore can be increased.Therefore, anti-loosing screw can be used reliably to prevent hinge axis relative to the axial relative movement of cylindrical member towards hinge axis.In addition, can use anti-loosing screw reliably prevent hinge axis relative to cylindrical member with the axle center of hinge axis for center of turn relatively rotates.

In the present invention, also can adopt following structure: hinge part comprises: two side plate side shaft maintaining parts, these two side plate side shaft maintaining parts keep the both end sides of hinge axis respectively; And two cover plate side shaft maintaining parts, these two cover plate side shaft maintaining parts keep the both end sides of hinge axis respectively, anti-loosing screw or locking pin are installed on hinge axis in the mode outstanding from the outer peripheral face of hinge axis towards radial outside, and by contacting with side plate side shaft maintaining part or cover plate side shaft maintaining part, prevent hinge axis from coming off from side plate side shaft maintaining part and cover plate side shaft maintaining part towards axial.In this case, the situation comprising cylindrical member with hinge part compares, and can reduce the number of parts forming hinge part.

In the present invention, it is preferable that, hinge part comprises: two side plate side shaft maintaining parts, and these two side plate side shaft maintaining parts keep the both end sides of hinge axis respectively; And two cover plate side shaft maintaining parts, these two cover plate side shaft maintaining parts keep the both end sides of hinge axis respectively, be formed with step surface in the end side of hinge axis, this step surface abuts along the axial medial surface of hinge with a cover plate side shaft maintaining part in a side plate side shaft maintaining part in two side plate side shaft maintaining parts or two cover plate side shaft maintaining parts.

According to said structure, then can step surface be used easily to carry out hinge axis location in the axial direction when assembling hinge part.Therefore, such as, easily can carry out tapped bore and contact surface contraposition in the axial direction in the case where there: hinge part comprises the cylindrical member inserted for hinge axis, cylindrical member is formed with tapped bore in the mode run through diametrically, in this tapped bore, be formed with the negative thread engaged with anti-loosing screw, hinge axis is formed with anti-loosing screw before the plane contact surface of end in contact.

In addition, according to said structure, step surface then can be utilized to come off towards the end side of hinge axis to prevent hinge axis from side plate side shaft maintaining part and cover plate side shaft maintaining part, therefore, such as, as long as use anti-loosing screw or locking pin to prevent hinge axis from coming off from side plate side shaft maintaining part and cover plate side shaft maintaining part towards another side of hinge axis.Therefore, comparing to the situation preventing hinge axis and come off towards the both sides of hinge axis from side plate side shaft maintaining part and cover plate side shaft maintaining part with using the cylindrical member inserted for hinge axis, cylindrical member miniaturization in the axial direction can be made.In addition, when utilize be installed on the anti-loosing screw of hinge axis or locking pin to prevent hinge axis from coming off from side plate side shaft maintaining part and cover plate side shaft maintaining part towards the both sides of hinge axis, two anti-loosing screws or locking pin must be installed on hinge axis, but according to said structure, as long as then an anti-loosing screw or locking pin are installed on hinge axis.Therefore, the number of parts forming hinge part can be reduced.

In the present invention, it is preferable that, side plate side shaft maintaining part and cover plate side shaft maintaining part are more given prominence to by the position of the outer circumferential side of card accepting box towards the outer peripheral face than side plate.According to said structure, then can prevent from being contained in the card of card accepting box and the interference of side plate side shaft maintaining part and cover plate side shaft maintaining part, and the number of the card being contained in card accepting box can be increased.In addition, according to said structure, then can with the side plate side shaft maintaining part protruded outward and cover plate side shaft maintaining part for mark, card accepting box is such as installed on card-issuing device, therefore, the installation direction of card accepting box can not be mistaken, easily card accepting box can be installed on card-issuing device.

In the present invention, it is preferable that, card accepting box comprises lock, and this lock is installed on cover plate, and locks cover plate in the mode that cover plate is not opened relative to side plate.According to said structure, then do not open lock, just cannot open cover plate and take out card from card accepting box.Therefore, can reliably prevent from illegally extracting card from card accepting box.

In the present invention, card accepting box such as uses in card-issuing device, and this card-issuing device comprises: card resettlement section main body, and this card resettlement section main body can be installed and removed with card accepting box; And card delivering mechanism, the outside of Ka Chaoka accepting box is sent by this card delivering mechanism.In this card-issuing device, even if the replacing of cover plate easily can be carried out, also can prevent from illegally extracting card from card accepting box.

Invention effect

As mentioned above, in the present invention, even if the replacing of cover plate easily can be carried out, also can prevent from illegally extracting card from card accepting box.

Accompanying drawing explanation

Fig. 1 is the block diagram of the card-issuing device of embodiment of the present invention.

Fig. 2 is the E portion enlarged drawing of Fig. 1.

Fig. 3 is the birds-eye view of the card accepting box shown in Fig. 1.

Fig. 4 is the lateral plan representing the upper end side of card accepting box from the F-F direction of Fig. 3.

Fig. 5 is the cutaway view in the G-G cross section of Fig. 3.

Fig. 6 is the cutaway view in the H-H cross section of Fig. 5.

Fig. 7 is the cutaway view in the J-J cross section of Fig. 5.

Fig. 8 is the cutaway view of the structure of hinge part for illustration of another embodiment of the present invention.

Fig. 9 is the cutaway view of the structure of hinge part for illustration of another embodiment of the present invention.

Figure 10 is the block diagram of the upper end side of the card accepting box representing prior art.

(nomenclature)

1 card-issuing device

14 card resettlement section main bodys

17 card accepting boxs

23 side plates

24 cover plates

24a axle maintaining part (cover plate side shaft maintaining part)

24b axle inserting hole (cover plate side shaft inserting hole)

26a axle maintaining part (side plate side shaft maintaining part)

26b axle inserting hole (side plate side shaft inserting hole)

35 hinge parts

36 locks

38 hinge axis

38c step surface

38d contact surface

39 sleeves (cylindrical member)

39a tapped bore

40 anti-loosing screws

The axis of X hinge axis

Detailed description of the invention

Below, with reference to accompanying drawing, embodiments of the present invention are described.

(schematic construction of card-issuing device)

Fig. 1 is the block diagram of the card-issuing device 1 of embodiment of the present invention.The card-issuing device 1 of present embodiment has and will be housed in the function that inner card (not shown) sends and the function reclaiming the card 2 (hereinafter referred to as " N/R card ") not needing, use or make mistakes.This card-issuing device 1 comprises: card reader 3, and this card reader 3 carries out the reproduction of the information being recorded in card and/or the information record towards card; And hair fastener recoverer 4, this hair fastener recoverer 4 sends the card of collecting, and reclaims N/R card.

In the following description, orthogonal three directions are set to X-direction, Y-direction and Z-direction.In the present embodiment, above-below direction is consistent with Z-direction.In addition, Y-direction is set to left and right directions, X-direction is set to fore-and-aft direction, and side, X1 direction is set to " front " side, side, X2 direction is set to " afterwards " side, side, Y1 direction is set to " right side " side, side, Y2 direction is set to " left side " side.In addition, in the present embodiment, Z-direction is consistent with the thickness direction of the card being contained in hair fastener recoverer 4, Y-direction is consistent with the Width (minor face Width) of the card being contained in hair fastener recoverer 4, and X-direction is consistent with the length direction (long limit Width) of the card being contained in hair fastener recoverer 4.

The card of the card of present embodiment to be such as thickness the be vinyl chloride of the rectangle of about 0.7 ~ 0.8mm.Above-mentioned card is such as formed the magnetic stripe for magnetic information recording.In addition, in card, both can be built-in with IC chip, also can be built-in with the antenna of communication.In addition, the lettering portion being carried out lettering by sensible heat mode also can be formed on card.In addition, PET (polyethylene terephthalate) card of card also can be thickness be about 0.18 ~ 0.36mm, or the paper card etc. of specific thickness.

Card reader 3 is configured at the front side of hair fastener recoverer 4.Hair fastener recoverer 4 comprises: card resettlement section 7, the card before the collecting distribution of this card resettlement section 7; And card recoverer 8, this card recoverer 8 reclaims N/R card.Card recoverer 8 is configured at the downside of card resettlement section 7 in mode overlapping with card resettlement section 7 in the vertical direction.

In addition, hair fastener recoverer 4 comprises: two pieces of side surface part 10, and these two pieces of side surface part 10 form the left and right side of hair fastener recoverer 4; Front surface part 11, this front surface part 11 forms the front surface of the upper end side of hair fastener recoverer 4; Rear face portion 12, this rear face portion 11 forms the rear surface of the upper end side of hair fastener recoverer 4; And base portion 13, this base portion 13 is formed as parallel with above-below direction plane and be configured at hair fastener recoverer 4 midway location in the vertical direction.Main body and the card resettlement section main body 14 of card resettlement section 7 is made up of the upper end side part of side surface part 10, front surface part 11, rear face portion 12 and base portion 13.In addition, card recoverer 8 is formed by the rear end side part of the lower end side part of side surface part 10, the base plate 15 of card-issuing device 1 and base portion 13.

Except card resettlement section main body 14, card resettlement section 7 also comprises: card accepting box 17, and multiple cards before distribution stackedly to be accommodated by this card accepting box 17 in the vertical direction and in addition; And card delivering mechanism, this card delivering mechanism is sent being contained in the outside being contained in the Ka Chaoka accepting box 17 of bottom in multiple cards of card accepting box 17.Card delivering mechanism such as engages with the rear end of card of the bottom being contained in card accepting box 17, and by sending sending pawl and driving this pawl driver train etc. sending pawl to form of card one by one from card accepting box 17.

Card accepting box 17 is formed as roughly rectangular-shaped, and so that hollow form can be formed as in the mode of inside collecting card.This card accepting box 17 can be installed and removed with card resettlement section main body 14.In addition, card accepting box 17 comprises: base plate 22, and this base plate 22 forms the bottom surface of card accepting box 17 and the placing card of accommodating; Side plate 23, this side plate 23 forms the side all around of card accepting box 17; And cover plate 24, this cover plate 24 forms the upper surface of card accepting box 17.Peristome is formed in the upper end of side plate 23.That is, peristome delimited out by the upper end of side plate 23.This peristome blocks by cover plate 24.

Base plate 22 is formed for form card delivering mechanism send that pawl passes through pass through groove.Side plate 23 comprises: side surface part 26, and this side surface part 26 forms the right flank of card accepting box 17; Side surface part 27, this side surface part 27 forms the left surface of card accepting box 17; Front surface part 28, this front surface part 28 forms the front surface of card accepting box 17; And rear face portion 29, this rear face portion 29 forms the rear surface (with reference to Fig. 3) of card accepting box 17.The peristome being formed at the upper end of side plate 23 is the entrance in Ka Chaoka accepting box 17.Cover plate 24 is installed on side surface part 26 in the mode that can rotate, and can open closedown relative to side plate 23.That is, the upper surface of card accepting box 17 can open closedown.

Front surface part 28 comprises can the slide component 32 of movement in the vertical direction.Slide component 32 is configured at the lower end side of front surface part 28.When being pulled down from card resettlement section main body 14 by card accepting box 17, under the state that the lower end of slide component 32 declines towards the position more on the lower of the lower surface than base plate 22, slide component 32 is locked, thus cannot take out card towards the front side of card accepting box 17.On the other hand, when card accepting box 17 is installed on card resettlement section main body 14, under the effect of the open component (not shown) of the slide of the front surface part 11 being located at card resettlement section main body 14, slide component 32 upward side moves, thus gangway is formed between base plate 22 and the lower end of slide component 32, this gangway is passed through for the outside (towards front side) of the Ka Chaoka accepting box 17 being contained in card accepting box 17.Gap in the vertical direction, this gangway be configured to one card by but two cards cannot pass through with the state of overlap.

(structure of the upper end side of card accepting box)

Fig. 2 is the E portion enlarged drawing of Fig. 1.Fig. 3 is the birds-eye view of the card accepting box 17 shown in Fig. 1.Fig. 4 is the lateral plan representing the upper end side of card accepting box 17 from the F-F direction of Fig. 3.Fig. 5 is the cutaway view in the G-G cross section of Fig. 3.Fig. 6 is the cutaway view in the H-H cross section of Fig. 5.Fig. 7 is the cutaway view in the J-J cross section of Fig. 5.

As mentioned above, cover plate 24 can open closedown relative to side plate 23.Card accepting box 17 comprises the hinge part 35 that the side surface part 26 of side plate 23 is connected with cover plate 24 by the mode that can open closedown relative to side plate 23 with cover plate 24.In addition, card accepting box 17 comprises: lock 36, and the mode that this lock 36 is not opened relative to side plate 23 with cover plate 24 locks cover plate 24; And handle 37, this handle 37 is for carrying card accepting box 17.Lock 36 is installed on cover plate 24, and is opened closedown by not shown key.Handle 37 is installed on the upper surface of cover plate 24.

Hinge part 35 comprises: hinge axis 38, and this hinge axis 38 is center of turns that cover plate 24 rotates relative to side surface part 26; As two axle maintaining part 26a of side plate side shaft maintaining part, these two axle maintaining part 26a are formed at side surface part 26 and keep hinge axis 38; And as two axle maintaining part 24a of cover plate side shaft maintaining part, these two axle maintaining part 24a are formed at cover plate 24 and keep hinge axis 38.Hinge axis 38 is using fore-and-aft direction as being axially held in axle maintaining part 24a, 26a.Axle maintaining part 26a is formed the axle inserting hole 26b as side plate side shaft inserting hole inserted for hinge axis 38, axle maintaining part 24a is formed the axle inserting hole 24b as cover plate side shaft inserting hole inserted for hinge axis 38.In addition, hinge part 35 comprises: as the sleeve 39 of cylindrical member, and this sleeve 39 is configured between two axle maintaining part 24a, 26a; And anti-loosing screw 40, this anti-loosing screw 40 comes off from axle maintaining part 24a, 26a to front-rear direction for preventing hinge axis 38.

Hinge axis 38 is formed as with the level elongated roughly cylindric, and it is made up of large-diameter portion 38a and the external diameter minor diameter part 38b less than the external diameter of large-diameter portion 38a.The length of minor diameter part 38b is much shorter than the length of large-diameter portion 38a, and minor diameter part 38b forms the fore-end of hinge axis 38.Boundary between large-diameter portion 38a with minor diameter part 38b is formed with the step surface 38c orthogonal with fore-and-aft direction.The approximate centre position of the axis of hinge axis 38 be formed with anti-loosing screw 40 before the plane contact surface 38d of end in contact.Contact surface 38d is pruned by a part for the outer peripheral face by large-diameter portion 38a and is formed.

Axle maintaining part 26a is formed at the upper end side of side surface part 26.In addition, axle maintaining part 26a is formed as the tabular orthogonal with fore-and-aft direction.Two axle maintaining part 26a are formed under the state separating predetermined distance in the longitudinal direction, and two axle maintaining part 26a keep the both end sides of hinge axis 38 separately respectively.In addition, two axle maintaining part 26a at right angles to be cut towards right side by the part of the upper end side by side surface part 26 and are formed, and it is given prominence to towards the position more on the right side of the outer peripheral face than side plate 23.That is, two axle maintaining part 26a more give prominence to by the position of the outer circumferential side of card accepting box 17 towards the outer peripheral face than side plate 23.

Being configured at, the internal diameter size of axle inserting hole 26b that the axle maintaining part 26a of front side is formed is corresponding with the external diameter of the minor diameter part 38b of hinge axis 38.Specifically, the internal diameter of this axle inserting hole 26b is slightly larger than the external diameter of minor diameter part 38b.The step surface 38c of hinge axis 38 can abut with the medial surface (i.e. rear surface) along the longitudinal direction of the axle maintaining part 26a being configured at front side.In addition, the internal diameter size of axle inserting hole 26b that the axle maintaining part 26a on rear side of being configured at is formed is corresponding with the external diameter of the large-diameter portion 38a of hinge axis 38.Specifically, the internal diameter of this axle inserting hole 26b is slightly larger than the external diameter of large-diameter portion 38a.

Be formed with limiting section 26c in the upper end side of side surface part 26, the slewing area that this limiting section 26c is used on the direction (anticlockwise direction of Fig. 7) of opening at cover plate 24 cover plate 24 limits.Limiting section 26c is formed as orthogonal with above-below direction plane.In addition, limiting section 26c at right angles to be cut towards right side by the part of the upper end side by side surface part 26 and is formed, and it is given prominence to towards the position more on the right side of the outer peripheral face than side plate 23.This limiting section 26c is configured between two axle maintaining part 26a in the longitudinal direction, and is configured at than two axle maintaining part 26a positions more on the lower.As shown in Figure 4, be formed with notch part 26d in the upper end side of side surface part 26, this notch part 26d is for the formation of axle maintaining part 26a and limiting section 26c.

Protrusion 24c outstanding towards right side under cover plate 24 is formed the state of closing at cover plate 24.Give prominence to side down from the rear and front end of protrusion 24c respectively under the state of two each comfortable cover plate 24 closedowns of axle maintaining part 24a.Axle maintaining part 24a is formed as the tabular orthogonal with fore-and-aft direction.Two axle maintaining part 24a are formed under the state separating predetermined distance in the longitudinal direction, and two axle maintaining part 24a keep the both end sides of hinge axis 38 separately respectively.Two axle maintaining part 24a intervals are in the longitudinal direction slightly less than two axle maintaining part 26a interval in the longitudinal direction, and two axle maintaining part 24a are configured between two axle maintaining part 26a in the longitudinal direction.

The internal diameter size of axle inserting hole 24b being formed at two axle maintaining part 24a is corresponding with the external diameter of the large-diameter portion 38a of hinge axis 38.Specifically, the internal diameter of axle inserting hole 24b is slightly larger than the external diameter of large-diameter portion 38a.Protrusion 24c gives prominence to towards the position more on the right side of the outer peripheral face than side plate 23, and two axle maintaining part 24a also give prominence to towards the position more on the right side of the outer peripheral face than side plate 23.That is, two axle maintaining part 24a more give prominence to by the position of the outer circumferential side of card accepting box 17 towards the outer peripheral face than side plate 23.

Sleeve 39 is formed as roughly cylindric.This sleeve 39 is that axial arrangement is between two axle maintaining part 24a with fore-and-aft direction.The length (length of fore-and-aft direction) of sleeve 39 is slightly less than two axle maintaining part 24a intervals in the longitudinal direction.Hinge axis 38 inserts sleeve 39, and the internal diameter of sleeve 39 is larger than the external diameter of the large-diameter portion 38a of hinge axis 38.That is, sleeve 39 external diameter than be formed at axle maintaining part 24a, 26a the internal diameter of axle inserting hole 24b, 26b large.Be formed with tapped bore 39a in sleeve 39 approximate centre position along the longitudinal direction, the radial direction of this tapped bore 39a towards sleeve 39 between the outer peripheral face and inner peripheral surface of sleeve 39 runs through.The negative thread engaged with anti-loosing screw 40 is formed in tapped bore 39a.

Anti-loosing screw 40 is the tightening screws of the band hexagon ring that the external diameter of the threaded portion being formed with external screw thread is equal with the external diameter of screw head.This anti-loosing screw 40 engages with the tapped bore 39a of sleeve 39, and the front end of anti-loosing screw 40 contacts with the contact surface 38d of hinge axis 38.Therefore, utilize anti-loosing screw 40 to prevent hinge axis 38 relative to sleeve 39 relative movement to front-rear direction, and prevent hinge axis 38 relative to sleeve 39 with the axle center of hinge axis 38 for center of turn relatively rotates.In addition, anti-loosing screw 40 also can be the screw of the band cross bore that the external diameter of screw head is larger than the external diameter of threaded portion.

As mentioned above, the length being configured at the sleeve 39 between two axle maintaining part 24a is slightly less than two axle maintaining part 24a interval in the longitudinal direction.In the present embodiment, to be abutted with axle maintaining part 24a medial surface in the longitudinal direction by the end of sleeve 39 and limit sleeve 39 and move to front-rear direction.In addition, because hinge axis 38 is prevented by anti-loosing screw 40 relative to sleeve 39 relative movement in the longitudinal direction, therefore can prevent hinge axis 38 from coming off from axle maintaining part 24a, 26a towards direction, front and back two.That is, in the present embodiment, anti-loosing screw 40, by preventing hinge axis 38 relative to sleeve 39 relative movement in the longitudinal direction, prevents hinge axis 38 from coming off to front-rear direction from axle maintaining part 24a, 26a.

When cover plate 24 blocks the peristome of the upper end of side plate 23, anti-loosing screw 40 is configured at the inside of card accepting box 17.In addition, as shown in Figure 6, Figure 7, the screw head side of anti-loosing screw 40 is given prominence to towards the position of the outer peripheral face outer peripheral side than sleeve 39.In the present embodiment, anti-loosing screw 40 is installed on sleeve 39, with when relative to axle maintaining part 24a, 26a, hinge axis 38 and sleeve 39 carry out that to be center of turn relatively rotate with the axle center axle of hinge axis 38, the screw head side of anti-loosing screw 40 can contact with the protrusion 24c of the limiting section 26c of side surface part 26 and cover plate 24.

Therefore, anti-loosing screw 40, limiting section 26c and protrusion 24c is utilized to limit using the axle center of hinge axis 38 as the slewing area of the hinge axis 38 of center of turn and sleeve 39, when cover plate 24 blocks the peristome of the upper end of side plate 23, anti-loosing screw 40 can not expose the outside to card accepting box 17.Namely, the mode that anti-loosing screw 40 can not expose to the outside of card accepting box 17 with the anti-loosing screw 40 when cover plate 24 blocks the peristome of the upper end of side plate 23 contacts with side plate 23 and cover plate 24, thus limits the slewing area of the interlinkage axle 38 being center of turn with the axle center of hinge axis 38 and sleeve 39.

(main efficacy results of present embodiment)

As mentioned above, in the present embodiment, side plate 23 is formed to the axle maintaining part 26a that hinge axis 38 keeps, cover plate 24 is formed to the axle maintaining part 24a that hinge axis 38 keeps.In addition, in the present embodiment, axle maintaining part 24a, 26a are formed axle inserting hole 24b, 26b of inserting for hinge axis 38, utilize anti-loosing screw 40 to prevent hinge axis 38 from coming off to front-rear direction from axle maintaining part 24a, 26a.Therefore, in the present embodiment, if pull down anti-loosing screw 40 under the state opening cover plate 24, then extracting hinge axis 38 towards the rear from axle maintaining part 24a, 26a, in addition, by extracting hinge axis 38, cover plate 24 can be pulled down from side plate 23.That is, in the present embodiment, even if do not destroy hinge axis 38 etc., if pulled down anti-loosing screw 40, then also cover plate 24 can have been pulled down from side plate 23.Therefore, in the present embodiment, the replacing of cover plate 24 can easily be carried out.

In the present embodiment, anti-loosing screw 40 is configured at the inside of card accepting box 17 when cover plate 24 blocks the peristome of the upper end of side plate 23, and the screw head side of anti-loosing screw 40 is given prominence to towards the position of the outer peripheral face outer peripheral side than sleeve 39.In addition, in the present embodiment, the mode that anti-loosing screw 40 can not expose to the outside of card accepting box 17 with the anti-loosing screw 40 when cover plate 24 blocks the peristome of the upper end of side plate 23 contacts with limiting section 26c and protrusion 24c, thus limits the slewing area of the interlinkage axle 38 being center of turn with the axle center of hinge axis 38 and sleeve 39.Therefore, in the present embodiment, when cover plate 24 is closed, anti-loosing screw 40 does not expose the outside to card accepting box 17.Therefore, in the present embodiment, under the state that cover plate 24 is closed, anti-loosing screw 40 can not be pulled down and extract hinge axis 38 from axle maintaining part 24a, 26a, and pulling down cover plate 24 from side plate 23.In addition, in the present embodiment, in card accepting box 17, be provided with lock 36, therefore, if there is no key, then can not open cover plate 24.Consequently, in the present embodiment, even if the replacing of cover plate 24 easily can be carried out, also can prevent from illegally extracting card from card accepting box 17.

In the present embodiment, sleeve 39 is formed with tapped bore 39a, hinge axis 38 is formed contact surface 38d.Therefore, in the present embodiment, the situation being formed at hinge axis 38 with the tapped bore engaged with anti-loosing screw 40 compares, and hinge axis 38 can be made to become thinner.That is, when tapped bore is formed at hinge axis 38, if the external diameter of hinge axis 38 is little, is then difficult to form tapped bore on hinge axis 38, but in the present embodiment, without the need to forming tapped bore on hinge axis 38, therefore, hinge axis 38 can be made to become thinner.Therefore, in the present embodiment, axle maintaining part 24a, 26a that hinge axis 38 is kept can be reduced, consequently, hinge part 35 miniaturization can be made.

In addition, in the present embodiment, hinge axis 38 is formed with plane contact surface 38d, therefore, the front end of anti-loosing screw 40 and the area of contact of hinge axis 38 can be increased.Therefore, in the present embodiment, use anti-loosing screw 40, can reliably prevent hinge axis 38 relative to sleeve 39 relative movement to front-rear direction, and can reliably prevent hinge axis 38 relative to sleeve 39 with the axle center of hinge axis 38 for center of turn relatively rotates.

In the present embodiment, hinge axis 38 is formed with step surface 38c, this step surface 38c can abut with the rear surface of the axle maintaining part 26a being configured at front side.Therefore, in the present embodiment, when assembling hinge part 35, step surface 38c can be used easily to carry out hinge axis 38 location in the longitudinal direction.Therefore, in the present embodiment, the tapped bore 39a of sleeve 39 and the contact surface 38d contraposition in the longitudinal direction of hinge axis 38 can easily be carried out.Consequently, in the present embodiment, the installation exercise of anti-loosing screw 40 is easily carried out.

In the present embodiment, axle maintaining part 24a, 26a give prominence to towards the position more on the right side of the outer peripheral face than side plate 23.Therefore, in the present embodiment, can prevent from being contained in the interference of the card of card accepting box 17 and axle maintaining part 24a, 26a, and the number of the card being contained in card accepting box 17 can be increased.In addition, in the present embodiment, with axle maintaining part 24a, 26a for card accepting box 17 is installed on card resettlement section main body 14 by mark, therefore, can not get the installation direction of card accepting box 17 wrong, easily card accepting box 17 can be installed on card resettlement section main body 14.

(other embodiment)

Above-mentioned embodiment is the example in the preferred embodiment of the present invention, but the present invention is not limited thereto, and can carry out various distortion and implement in the scope not changing the technology of the present invention thought.

In the above-described embodiment, the length being configured at the sleeve 39 between two axle maintaining part 24a is slightly less than two axle maintaining part 24a interval in the longitudinal direction, and utilize anti-loosing screw 40 to prevent hinge axis 38 relative to sleeve 39 relative movement to front-rear direction, thus prevent hinge axis 38 from coming off from axle maintaining part 24a, 26a towards former and later two directions.In addition, such as in the above-described embodiment, the rear surface of the step surface 38c being formed at the hinge axis 38 and axle maintaining part 26a being configured at front side can be utilized forward to come off to prevent hinge axis 38 from axle maintaining part 24a, 26a, therefore, the sleeve that length is shorter than the length of sleeve 39 is also configurable in the front side of axle maintaining part 26a being configured in rear side.In this case, the length sleeve shorter than the length of sleeve 39 abuts with the front surface of the axle maintaining part 26a being configured in rear side, thus can prevent hinge axis 38 from coming off towards the rear from axle maintaining part 24a, 26a.Namely, also the rear surface of the axle maintaining part 26a being configured in front side and step surface 38c can be used forward to come off from axle maintaining part 24a, 26a to prevent hinge axis 38, and use the front surface of the axle maintaining part 26a being configured at the length sleeve shorter than the length of sleeve 39 and being configured in rear side to come off towards the rear from axle maintaining part 24a, 26a to prevent hinge axis 38.

In addition, as shown in Figure 8, also sleeve 39 can not be set, but at a position of the rear end side of hinge axis 37, anti-loosing screw 40 be installed towards the mode protruding outside of radial direction with the outer peripheral face from hinge axis 38.In this case, anti-loosing screw 40 contacts with the front surface of the axle maintaining part 26a being configured in rear side, thus can prevent hinge axis 38 from coming off towards the rear from axle maintaining part 24a, 26a.Namely, also the rear surface of axle maintaining part 26a that is configured in front side and step surface 38c can be used forward to come off from axle maintaining part 24a, 26a to prevent hinge axis 38, and use the front surface of the anti-loosing screw 40 being installed on the rear end side of hinge axis 38 and the axle maintaining part 26a being configured in rear side to prevent hinge axis 38 from axle maintaining part 24a, 26a coming off forward.Even if in this case, the mode that anti-loosing screw 40 also can not expose to the outside of card accepting box 17 with the anti-loosing screw 40 when cover plate 24 blocks the peristome of the upper end of side plate 23 contacts with side plate 23 and cover plate 24, thus limits the slewing area of the interlinkage axle 38 being center of turn with the axle center of hinge axis 38 and sleeve 39.In addition, in this case, compared with the situation of sleeve 39 is set, the parts count forming hinge part 35 can be reduced.

In the above-described embodiment, hinge axis 38 is formed as with the level elongated roughly cylindric.In addition, such as hinge axis 38 also can be formed as certain and elongated roughly cylindric of external diameter.In this case, both sleeve 39 can be uniformly set with above-mentioned embodiment, sleeve 39 can be set as shown in Figure 9, but at two positions of the front of hinge axis 38 and rear end side, anti-loosing screw 40 be installed in the mode of giving prominence to from the outer peripheral face of hinge axis 38 towards radial outside yet.In this case, contact with the rear surface of axle maintaining part 26a being configured in front side by the anti-loosing screw 40 that is configured in front side prevents hinge axis 38 from coming off from axle maintaining part 24a, 26a forward, and to be contacted with the rear surface of axle maintaining part 26a on rear side of being configured in by the anti-loosing screw 40 on rear side of being configured in and prevent hinge axis 38 from coming off towards the rear from axle maintaining part 24a, 26a.Even if in this case, the mode that anti-loosing screw 40 also can not expose to the outside of card accepting box 17 with the anti-loosing screw 40 when cover plate 24 blocks the peristome of the upper end of side plate 23 contacts with side plate 23 and cover plate 24, thus limits the slewing area of the interlinkage axle 38 being center of turn with the axle center of hinge axis 38 and sleeve 39.

In the above-described embodiment, the tapped bore 39a engaged with the external screw thread of anti-loosing screw 40 is formed at sleeve 39, and hinge axis 38 is formed contact surface 38d.In addition, the inserting hole such as also threaded portion for anti-loosing screw 40 can inserted is formed at sleeve 39, and the tapped bore engaged with the external screw thread of anti-loosing screw 40 is formed at hinge axis 38.

In the above-described embodiment, hinge part 35 comprises the anti-loosing screw 40 for preventing hinge axis 38 from coming off to front-rear direction from axle maintaining part 24a, 26a.In addition, such as, hinge part 35 also can comprise the locking pin that is made up of spring pin to replace anti-loosing screw 40.In this case, the patchhole of the locking pin run through towards the radial direction of sleeve 39 between the outer peripheral face and inner peripheral surface of sleeve 39 is formed at sleeve 39, and the patchhole that the front for locking pin is inserted is formed at hinge axis 38.Even if in this case, if pull down locking pin, then also hinge axis 38 can be extracted towards the rear from axle maintaining part 24a, 26a, in addition, also pull down cover plate 24 by extracting hinge axis 38 from side plate 23, therefore, easily can carry out the replacing of cover plate 24.In addition, in the variation shown in Fig. 8, Fig. 9, the locking pin be made up of spring pin also can be used to replace anti-loosing screw 40.

In the above-described embodiment, the internal diameter size of axle inserting hole 24b being formed at two axle maintaining part 24a is corresponding with the external diameter of the large-diameter portion 38a of hinge axis 38.In addition, such as also can adopt following structure: the internal diameter size of axle inserting hole 24b being formed at the axle maintaining part 24a being configured in front side is corresponding with the external diameter of the minor diameter part 38b of hinge axis 38, the internal diameter size of axle inserting hole 24b being formed at the axle maintaining part 24a being configured in rear side is corresponding with the external diameter of the large-diameter portion 38a of hinge axis 38.In this case, the step surface 38c of hinge axis 38 can abut with the rear surface of the axle maintaining part 24a being configured in front side.

In the above-described embodiment, two axle maintaining part 24a are configured between two axle maintaining part 26a in the longitudinal direction.In addition, such as, two axle maintaining part 26a also can be configured between two axle maintaining part 24a in the longitudinal direction.In addition, the internal diameter size of axle inserting hole 24b being such as formed at the axle maintaining part 24a being configured in front side is corresponding with the external diameter of the minor diameter part 38b of hinge axis 38, and the internal diameter size of axle inserting hole 24b being formed at the axle maintaining part 24a being configured in rear side is corresponding with the external diameter of the large-diameter portion 38a of hinge axis 38.In addition, the internal diameter size being such as formed at the axle inserting hole 26b of two axle maintaining part 26a is corresponding with the external diameter of large-diameter portion 38a.In this case, the step surface 38c of hinge axis 38 can abut with the rear surface of the axle maintaining part 24a being configured in front side.

In the above-described embodiment, card accepting box 17 comprises: side plate 23, and this side plate 23 forms card accepting box 17 side in the longitudinal direction; Cover plate 24, this cover plate 24 forms the upper surface of card accepting box 17 and blocks the peristome of the upper end of side plate 23.In addition, such as card accepting box 17 also can comprise: side plate, this side plate forms the side all around of card accepting box 17 and the upper surface of card accepting box 17, and all around side a part on be formed with peristome as the entrance in Ka Chaoka accepting box 17; And cover plate, the blocking of this cover plate is formed at the peristome of side plate.In this case, this side plate is linked together by the hinge part that the hinge part 35 with above-mentioned embodiment is identical with cover plate.

In the above-described embodiment, card-issuing device 1 comprises card reader 3.In addition, such as, card-issuing device 1 also can comprise the shifter that the carrying direction of card is switched, the chopping machine carrying out lettering on the surface of card, read the lettering etc. on card surface imageing sensor or only carry out the transport road that card carries, to replace card reader 3.

Claims (8)

1. multiple are blocked stacked and are accommodated, it is characterized in that, comprise by a card accepting box:

Side plate, this side plate at least forms a part for the side of described card accepting box;

Peristome, this peristome delimited by described side plate, and be that described card is towards the entrance in described card accepting box;

Cover plate, this cover plate blocks described peristome; And

Hinge part, described side plate is connected with described cover plate by the mode that this hinge part can open closedown relative to described side plate with described cover plate,

Described hinge part comprises:

Hinge axis, this hinge axis is the center of turn that described cover plate rotates relative to described side plate;

Side plate side shaft maintaining part, this side plate side shaft maintaining part is formed at described side plate and keeps described hinge axis; And

Cover plate side shaft maintaining part, this cover plate side shaft maintaining part is formed at described cover plate and keeps described hinge axis,

Described side plate side shaft maintaining part is formed the side plate side shaft inserting hole inserted for described hinge axis,

Described cover plate side shaft maintaining part is formed the cover plate side shaft inserting hole inserted for described hinge axis,

Described hinge part also comprises for preventing the anti-loosing screw that described hinge axis comes off from described side plate side shaft maintaining part and described cover plate side shaft maintaining part towards the axis of described hinge axis or the locking pin be made up of spring pin,

Form the described anti-loosing screw of described hinge part or described locking pin are configured at described card accepting box inside when described cover plate blocks described peristome, and give prominence to towards the radial outside of described hinge axis, the mode that described anti-loosing screw or described locking pin do not expose to the outside of described card accepting box with described anti-loosing screw or described locking pin when described cover plate blocks described peristome contacts with described side plate and described cover plate, thus limits the slewing area of the described hinge axis being center of turn with the axle center of described hinge axis.

2. card accepting box as claimed in claim 1, is characterized in that,

Described hinge part comprises:

Two described side plate side shaft maintaining parts, these two described side plate side shaft maintaining parts keep the both end sides of described hinge axis respectively;

Two described cover plate side shaft maintaining parts, these two described cover plate side shaft maintaining parts keep the both end sides of described hinge axis respectively; And

The cylindrical member of tubular, this cylindrical member is configured between two described side plate side shaft maintaining parts and described cover plate side shaft maintaining part,

The external diameter of described cylindrical member than the internal diameter of described side plate side shaft inserting hole and the internal diameter of described cover plate side shaft inserting hole large,

Described hinge axis inserts described cylindrical member,

Described anti-loosing screw or described locking pin are by preventing described hinge axis relative to described cylindrical member towards described axial relative movement, prevent described hinge axis from coming off from described side plate side shaft maintaining part and described cover plate side shaft maintaining part towards described axis, and prevent described hinge axis relative to described cylindrical member with described axle center for center of turn relatively rotates, and to limit with the slewing area of the described axle center described cylindrical member that is center of turn and described hinge axis when described cover plate blocks described peristome.

3. card accepting box as claimed in claim 2, is characterized in that,

Described hinge part comprises described anti-loosing screw,

Described cylindrical member is formed with tapped bore in the mode run through along described radial direction between the outer peripheral face and inner peripheral surface of described cylindrical member, in this tapped bore, is formed with the negative thread engaged with described anti-loosing screw,

Described hinge axis is formed with described anti-loosing screw before the plane contact surface of end in contact.

4. card accepting box as claimed in claim 1, is characterized in that,

Described hinge part comprises:

Two described side plate side shaft maintaining parts, these two described side plate side shaft maintaining parts keep the both end sides of described hinge axis respectively; And

Two described cover plate side shaft maintaining parts, these two described cover plate side shaft maintaining parts keep the both end sides of described hinge axis respectively,

Described anti-loosing screw or described locking pin are installed on described hinge axis in the mode outstanding from the outer peripheral face of described hinge axis towards described radial outside, and by contacting with described side plate side shaft maintaining part or described cover plate side shaft maintaining part, prevent described hinge axis from coming off from described side plate side shaft maintaining part and described cover plate side shaft maintaining part towards described axis.

5. card accepting box as claimed in claim 1, is characterized in that,

Described hinge part comprises:

Two described side plate side shaft maintaining parts, these two described side plate side shaft maintaining parts keep the both end sides of described hinge axis respectively; And

Two described cover plate side shaft maintaining parts, these two described cover plate side shaft maintaining parts keep the both end sides of described hinge axis respectively,

Be formed with step surface in the end side of described hinge axis, this step surface abuts along described axial medial surface with a described cover plate side shaft maintaining part in a described side plate side shaft maintaining part in two described side plate side shaft maintaining parts or two described cover plate side shaft maintaining parts.

6. card accepting box as claimed in claim 1, is characterized in that,

Described side plate side shaft maintaining part and described cover plate side shaft maintaining part are more given prominence to by the position of the outer circumferential side of described card accepting box towards the outer peripheral face than described side plate.

7. card accepting box as claimed in claim 1, is characterized in that,

Described card accepting box comprises lock, and this lock is installed on described cover plate, and locks described cover plate in the mode that described cover plate is not opened relative to described side plate.

8. a card-issuing device, is characterized in that, comprising:

Card accepting box according to any one of claim 1 to 7;

Card resettlement section main body, this card resettlement section main body can be installed and removed with described card accepting box; And

Card delivering mechanism, the outside of described card towards described card accepting box is sent by this card delivering mechanism.