CN105447533A - Double-layer intelligent card personal information processing device - Google Patents

Abstract

The invention discloses a double-layer intelligent card personal information processing device. The device comprises a frame, an upper-layer processing module streamline, a lower-layer processing module streamline and a card transfer mechanism. In a front-back direction vertical to a card conveying direction, the upper-layer processing module streamline is arranged above the rear half portion of the lower-layer processing module streamline; the card conveying direction of the upper-layer processing module streamline is opposite to that of the lower-layer processing module streamline, and the card transfer mechanism is arranged between the tail end of the card conveying direction of the upper-layer processing module streamline and the initial end of the card conveying direction of the lower-layer processing module streamline. The intelligent card personal information processing device is small in vertical dimension and compact in overall structure; and since the space is wide, and operation on processing modules in the device can be facilitated.

Description

A kind of Double-layer intelligent card personal information treatment facility

Technical field

The present invention relates to the production equipment of smart card, be specifically related to a kind of smart card information treatment facility.

Background technology

In smart card production equipment, need to write userspersonal information in the chip of card, this work is completed by smart card personalization messaging device.Smart card personalization messaging device comprises large-scale smart card personalization messaging device and small-sized smart card personalization messaging device, and small intelligent card personal information treatment facility is referred to as due to compact " tabletop machine ".Common tabletop machine is single layer structure, and each processing module according to the arrangement of card processing sequence on the table.In order to reduce the length of tabletop machine further, also double-deck tabletop machine is had in prior art, all processing modules divide two-layer layout, and make the entire length reduction half of tabletop machine, its deficiency is the height adding equipment, and, for the ease of carrying out associative operation (such as, installation, debugging, maintenance etc.) to lower floor's processing module, need to allow between lower floor's processing module and upper strata processing module there is enough spaces, cause equipment vertical dimension comparatively large, entirety is compact not.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide a kind of Double-layer intelligent card personal information treatment facility, the vertical dimension of this smart card personalization messaging device is little, compact overall structure; And there is clearing be convenient to operate the processing module in equipment.

The technical scheme that the present invention solves the problems of the technologies described above is:

A kind of Double-layer intelligent card personal information treatment facility, comprise frame, upper strata processing module streamline, lower floor's processing module streamline, the electric control box that is located at the card transfer device between upper strata processing module streamline and lower floor's processing module streamline and is positioned at below lower floor's processing module streamline, it is characterized in that

On the fore-and-aft direction perpendicular to card throughput direction, described upper strata processing module streamline is arranged at the top of the latter half of lower floor's processing module streamline; Wherein, described upper strata processing module streamline comprises the card-issuing module and several upper strata processing modules that connect successively along card throughput direction; Described lower floor processing module streamline comprises several lower floor's processing modules and receipts card module of connecting successively along card throughput direction; The card throughput direction of described upper strata processing module streamline is contrary with the card throughput direction of lower floor's processing module streamline, and described card transfer device is arranged between the top of the end of the card throughput direction of described upper strata processing module streamline and the card throughput direction of lower floor's processing module streamline;

Described upper strata processing module and lower floor's processing module be the following throughput direction along card arrange write magnetic module, write chip module, several in cleaning module, flat stamping module, stamp module and soup impression block.

A preferred version of the present invention, wherein, described upper strata processing module streamline comprise along card throughput direction be arranged in order write magnetic module, write chip module, cleaning module and flat stamping module, each processing module is single; Described lower floor processing module streamline comprises the stamp module and soup impression block that are arranged in order along card throughput direction, and wherein, described stamp module is two.

The benefit of above-mentioned preferred version is adopted to be: in all processing modules, write magnetic module, write chip module, cleaning module and the size of flat stamping module on the fore-and-aft direction perpendicular to card throughput direction relatively little, and stamp module and soup impression block size in this direction relatively large, thus adapted to the design feature that upper strata processing module streamline fore-and-aft direction installing space is little, lower floor's processing module streamline fore-and-aft direction installing space is large; And, in stamp module and soup impression block, it is the position often needing operation near anterior part, such as, code-disc in stamp module, ribbon drive mechanism etc. are all positioned at front portion, often need the character code changed in code-disc and the colour band changed in ribbon drive mechanism in use procedure, and for example, being positioned at anterior soup band in soup impression block also often needs to change; Therefore, stamp module and soup impression block are arranged on lower floor, just make their front portion not by the obstruction on upper strata, make to there is open space, convenient operation above it; And, also higher in the usual vertical dimension in front portion of stamp module and soup impression block, such as, the ribbon spool of the ribbon drive mechanism in stamp module is usually higher, by by stamp module installation in lower floor, just make ribbon spool in the vertical direction have larger arrangement space, be convenient to more reasonably layout ribbon drive mechanism.

A preferred version of the present invention, wherein, described frame comprises support and cabinet; Wherein, the upper strata mount pad that described support comprises framework, is located at the lower floor's mount pad bottom lower floor's processing module streamline and is located at bottom the processing module streamline of upper strata, described lower floor mount pad and upper strata mount pad are fixed on the top of framework; Described cabinet comprises the lower box be positioned at outside electric control box and the upper box be positioned at outside upper strata processing module streamline and lower floor's processing module streamline, this lower box and upper box are fixed on said frame, wherein, be provided with front chamber door on front side of described upper box, rear side is provided with rear chamber door, described front chamber door and rear chamber door are made up of transparent material.

By above-mentioned preferred version, layout for electric control box, upper strata processing module streamline and lower floor's processing module streamline provides basic support and space, form the basic framework of whole smart card personalization messaging device, wherein, arrange that described front chamber door and rear chamber door are convenient to manipulate the processing module in upper strata processing module streamline and lower floor's processing module streamline, detect, are installed, maintenance etc., employing transparent material makes, and is convenient to watch inner case.

Preferably, described card-issuing module and receipts card module are arranged on the outside of upper box.Its benefit is: equipment is in operational process, need the artificial work participated in card-issuing module, mainly put into card to be processed and take out the card of completion of processing from receipts card module, card-issuing module and receipts card module are arranged on outside upper box and are convenient to manual operation, and will in upper box, dust adhesion can be avoided on card face without the need to the module installation manually participated on the one hand during work, can production safety be guaranteed on the other hand.

A preferred version of the present invention, wherein, described card transfer device comprises conveying belt, drives the driving mechanism of conveying belt cycle operation and establish on the conveyor belt at least two for receiving the deck of card; Wherein, described conveying belt is arranged along the upper and lower tilted; Described deck equidistant arrangement on the conveyor belt, each deck is provided with for holding the draw-in groove with positioning cards; When the draw-in groove in one of them deck aligns with the card output terminal of upper strata processing module streamline, the draw-in groove of another adjacent with it deck aligns with the card input end of lower floor's processing module streamline.

In above-mentioned preferred version, deck is driven to move owing to adopting the conveying belt of cycle operation, therefore evenly distributed deck on the conveyor belt can successively through the card output terminal of upper strata processing module streamline and the card input end of lower floor's processing module streamline, carry out the access of card and send, each deck takes turns to operate continuously, card transfer velocity is fast, and work efficiency is high.

Preferably, described deck comprises substrate, and described draw-in groove is located at the front side of substrate, and the both sides up and down of described draw-in groove are provided with at least one group of pinch wheels, often organizes pinch wheels and comprises pinch wheels and lower pinch wheels.

In above-mentioned deck, when card is into and out of draw-in groove, be subject to the clamping action of pinch wheels, because pinch wheels can be rotated, therefore neither affect the motion of card, can clamp card again, prevent card from offseting, when card loses transmitting power, card can not move forward because of inertia, and off-position precision is good.

Preferably, the position corresponding with the card output terminal of upper strata processing module streamline is provided with the card that is made up of photoelectric sensor to level sensor, and this card puts in place the card end edge of sensor setting when enter into the desired location of deck when card.Described card is set and is whether test card sheet is accurately transported to the assigned address of deck to the effect of level sensor, after card is accurately carried and is put in place (specifically card end edge arrives card to level sensor place), card detects to level sensor the signal that card puts in place, thus the card output unit structure controlling the card release end of smart card processing module stops being fed forward.

A preferred version of the present invention, last processing module of described upper strata processing module streamline is provided with card ejection mechanism, this card ejection mechanism comprises and pushes away the driving mechanism that snap arm and promotion push away snap arm reciprocally swinging, the described lower end pushing away snap arm is hinged on the mounting bracket of last processing module described, and this upper end formation pushing away snap arm pushes away card division; Under normality, described in push away the below that snap arm is positioned at the card transfer passage of last processing module described, and described in push away the rear side that card division is positioned at the conveying roller of the card output terminal of last processing module described; During work, described in push away card division with push away snap arm rotation forward upward motion card is released.

The object arranging above-mentioned card ejection mechanism is the card on last processing module of upper strata processing module streamline to be pushed on the deck of card transfer device, makes card can at last processing module described and card transfer device smooth transition.The principle of work of this card ejection mechanism is: under normality, the below that snap arm is positioned at the card transfer passage of last processing module described is pushed away due to described, and described in push away the rear side that card division is positioned at the conveying roller of the card output terminal of last processing module, therefore card normally can be carried in the card transfer passage of an in the end processing module; When the rear end of card arrives the conveying roller place of the card output terminal of last processing module, card cannot continue to be fed forward, and described card ejection mechanism is started working; Driving mechanism drives and pushes away snap arm rotation, pushes away card division and is pushed out in the deck of card transfer device with the rotation forward upward motion pushing away snap arm by card, drives and pushes away snap arm reset, wait for and push away card motion next time with rear drive mechanism.

Preferably, described in push away snap arm upper end be provided with extension towards pushing away card direction and extending, push away card division described in the distal end faces of this extension is formed; Its role is to, allow the position of actual actuating card offset and push away snap arm certain distance, thus operationally avoid colliding with the rotating shaft of the conveying roller of the card output terminal of last processing module described; Further, described extension is rotationally connected with by a tumbler upper end pushing away snap arm and is formed, and is connected with spring between this tumbler and the upper end pushing away snap arm; Its object is to, push away card division described in allowing and form flexible contact when contacting card, avoid occurring excessive impact; In addition, be circular arc owing to pushing away card division pushing away the movement locus snapped past in journey, therefore and the angle be pushed between face of card also change, by arranging the tumbler of above-mentioned flexibility, the angle be pushed between face pushing away card division and card can be regulated in real time, make to push away card division and be fitted in being pushed on face of card as far as possible.

A preferred version of the present invention, in described lower floor processing module streamline, described stamp module comprises card delivery track and is positioned at the stamp unit of card delivery track both sides and card pulls over unit, wherein, described card is pulled over, and unit comprises synchronous pulley, the Timing Belt be looped around on synchronous pulley, the driving mechanism driving Timing Belt cycle rotation and the moving tooth for card of pulling over be located on Timing Belt, and described moving tooth equidistant arrangement is on Timing Belt, the lower end of described moving tooth extends downward the lower edge exceeding Timing Belt, described Timing Belt has the working portion be positioned at above card delivery track, and the moving tooth on this working portion forms the work moving tooth of actuating card campaign, the end of described card delivery track extends to coincide with the deck in card transfer device and locates, this coincidence position forms the card input end of lower floor's processing module streamline, described card delivery track is arranged to open texture in the side corresponding with deck in this coincidence position, deck can be passed through smoothly, when described deck rests on this coincidence position, both combine the part forming card delivery track, the moving tooth being now responsible for the card promoted on deck is positioned at the rear side of card, card can be released deck when moving tooth travels forward subsequently to enter in stamp module.

In above-mentioned preferred version, to pull over the position relationship of unit, card delivery track and card transfer device three by rationally arranging card, achieving card transition to stamp module from the deck card transfer device smoothly; Simultaneously, pull over unit and card delivery track of described card is set and can ensures again card normally pulling over and locating when stamp, make described stamp module can not only realize the stamp function of self, can realize again and the docking of card transfer device, obtain dual-use function.

Principle of work of the present invention is:

Card to be processed sends from the card-issuing module of upper strata processing module streamline, processes accordingly successively through remaining upper strata processing module, and when arriving the end of upper strata processing module streamline, card is transferred in card transfer device; Then the top of lower floor's processing module streamline transferred to by card by card transfer device, by first lower floor's processing module in lower floor's processing module streamline, card is accessed, and carried corresponding processing backward successively, final finished product is collected in card module.

The present invention compared with prior art has following beneficial effect:

1, by upper strata processing module streamline is arranged on lower floor's processing module streamline latter half above, the top of the first half of lower floor's processing module streamline is made to have enough spaces, allow the front portion in lower floor's processing module can extend upwardly in the processing module streamline of upper strata, this is compared with common double-layered desktop machine, difference in height between upper and lower two-layer processing module streamline can reduce (as long as can meet the installation at lower floor's processing module rear portion further, and the height of the front portion of lower floor's processing module is generally higher than the height at rear portion), which reduces the whole height of double-layered desktop machine, make structure compacter, small and exquisite.

2, because the top of the first half of lower floor's processing module streamline and the front of upper strata processing module have open space, therefore when carrying out associative operation (install, debug, change material, maintenance etc.) to lower floor's processing module and upper strata processing module, there is openr space, more convenient to operate, efficient.

Accompanying drawing explanation

Fig. 1 and Fig. 2 is the perspective view of an embodiment of Double-layer intelligent card personal information treatment facility of the present invention.

Fig. 3-Fig. 5 is the inner structure schematic diagram of the card of Double-layer intelligent shown in Fig. 1 and Fig. 2 personal information treatment facility, and wherein, Fig. 3 is front view, and Fig. 4 is left view, and Fig. 5 is stereographic map.

Fig. 6-Figure 11 is the structural representation of card transfer device in the personal information of Double-layer intelligent card shown in Fig. 3-Fig. 5 treatment facility, and wherein, Fig. 6 is front view, and Fig. 7 is left view, and Fig. 8 is right view, and Fig. 9 is rear view, Figure 10 and Figure 11 is stereographic map.

Figure 12 is for removing the perspective view after synchronous conveyer band and deck in card transfer device shown in Fig. 6-Figure 11.

Figure 13-Figure 16 is the structural representation of deck in card transfer device shown in Fig. 6-Figure 11, and wherein, Figure 13 is front view, and Figure 14 is left view, Figure 15 and Figure 16 is stereographic map.

Figure 17 is for being equipped with perspective view during card in deck shown in Figure 13-Figure 16.

Figure 18 is installed to the structural representation on synchronous conveyer band for deck shown in Figure 13-Figure 16.

Figure 19 is the perspective view of the card ejection mechanism in the personal information of Double-layer intelligent card shown in Fig. 3-Fig. 5 treatment facility.

Figure 20 is for pushing away the perspective view of snap arm in card ejection mechanism shown in Figure 19.

The course of work schematic diagram that Figure 21-Figure 23 is card ejection mechanism shown in Figure 19, wherein, Figure 21 is the schematic diagram of card in card flat stamping device during normal conveying, schematic diagram when Figure 22 is the conveying roller place of the card output terminal of the rear end arrival flat stamping device of card, Figure 23 is the schematic diagram that assigned address released by card by described card ejection mechanism.

Figure 24 is the partial structurtes schematic diagram at the stamp model calling place in card transfer device in the personal information of Double-layer intelligent card shown in Fig. 3-Fig. 5 treatment facility and lower floor's processing module streamline.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

See Fig. 1-Fig. 5, Double-layer intelligent card personal information treatment facility of the present invention primarily of frame 1, upper strata processing module streamline 11, lower floor's processing module streamline 12, be located at the card transfer device 7 between upper strata processing module streamline 11 and lower floor's processing module streamline 12 and be positioned at electric control box below lower floor's processing module streamline 12 and form.Wherein:

On the fore-and-aft direction perpendicular to card throughput direction, described upper strata processing module streamline 11 is arranged at the top of the latter half of lower floor's processing module streamline 12; Wherein, described upper strata processing module streamline 11 comprises the card-issuing module 2 and several upper strata processing modules that connect successively along card throughput direction; Described lower floor processing module streamline 12 comprises several lower floor's processing modules and receipts card module 10 of connecting successively along card throughput direction; The card throughput direction of described upper strata processing module streamline 11 is contrary with the card throughput direction of lower floor processing module streamline 12, and described card transfer device 7 is arranged between the top of the end of the card throughput direction of described upper strata processing module streamline 11 and the card throughput direction of lower floor's processing module streamline 12.

Described upper strata processing module and lower floor's processing module be the following throughput direction along card arrange write magnetic module 3, write chip module 4, several in cleaning module 5, flat stamping module 6, stamp module 8 and soup impression block, corresponding processing module can be selected to combine according to the concrete processing request of card to be processed, these processing modules can adopt existing smart card processing module.

Particularly, in the present embodiment, see Fig. 1-Fig. 5, described upper strata processing module streamline 11 comprise along card throughput direction be arranged in order write magnetic module 3, write chip module 4, cleaning module 5 and flat stamping module 6, each processing module is single; Described lower floor processing module streamline 12 comprises the stamp module 8 and soup impression block 9 that are arranged in order along card throughput direction, and wherein, described stamp module 8 is two.In all processing modules, write magnetic module 3, write chip module 4, cleaning module 5 and the size of flat stamping module 6 on the fore-and-aft direction perpendicular to card throughput direction relatively little, and stamp module 8 and soup impression block 9 size in this direction relatively large, thus adapted to the design feature that upper strata processing module streamline 11 fore-and-aft direction installing space is little, lower floor's processing module streamline 12 fore-and-aft direction installing space is large.And, in stamp module 8 and soup impression block 9, it is the position often needing operation near anterior part, such as, code-disc in stamp module 8, ribbon drive mechanism etc. are all positioned at front portion, often need the character code changed in code-disc and the colour band changed in ribbon drive mechanism in use procedure, and for example, being positioned at anterior soup band in soup impression block 9 also often needs to change; Therefore, stamp module 8 and soup impression block 9 are arranged on lower floor, just make their front portion not by the obstruction on upper strata, make to there is open space, convenient operation above it; And, also higher in the usual vertical dimension in front portion of stamp module 8 and soup impression block 9, such as, the ribbon spool of the ribbon drive mechanism in stamp module 8 is usually higher, by stamp module 8 is arranged at lower floor, just make ribbon spool in the vertical direction have larger arrangement space, be convenient to more reasonably layout ribbon drive mechanism.

See Fig. 1-Fig. 5, described frame 1 comprises support and cabinet; Wherein, the upper strata mount pad 1-5 that described support comprises framework 1-1, is located at the lower floor mount pad 1-4 bottom lower floor's processing module streamline 12 and is located at bottom upper strata processing module streamline 11, described lower floor mount pad 1-4 and upper strata mount pad 1-5 is fixed on the top of framework 1-1; Described cabinet comprises the lower box 1-2 be positioned at outside electric control box and the upper box 1-3 be positioned at outside upper strata processing module streamline 11 and lower floor's processing module streamline 12, this lower box 1-2 and upper box 1-3 is fixed on described framework 1-1, wherein, be provided with front chamber door 1-31 on front side of described upper box 1-3, rear side is provided with rear chamber door 1-32, described front chamber door 1-31 and rear chamber door 1-32 is made up of transparent material.In above-mentioned frame 1, layout for electric control box, upper strata processing module streamline 11 and lower floor's processing module streamline 12 provides basic support and space, form the basic framework of whole Double-layer intelligent card personal information treatment facility, wherein, arrange that described front chamber door 1-31 and rear chamber door 1-32 is convenient to manipulate the processing module in upper strata processing module streamline 11 and lower floor's processing module streamline 12, detects, is installed, maintenance etc., employing transparent material makes, and is convenient to watch inner case.

See Fig. 1-Fig. 5, described card-issuing module 2 and receipts card module 10 are arranged on the outside of upper box 1-3.Equipment is in operational process, need the artificial work participated in card-issuing module 2, mainly put into card to be processed and take out the card of completion of processing from receipts card module 10, card-issuing module 2 and receipts card module 10 are arranged on outside upper box 1-3 and are convenient to manual operation, and will in upper box 1-3, dust adhesion can be avoided on card face without the need to the module installation manually participated on the one hand during work, can production safety be guaranteed on the other hand.

See Fig. 6-Figure 18, described card transfer device 7 comprises conveying belt, drives the driving mechanism of conveying belt cycle operation and establish on the conveyor belt at least two for receiving the deck 8a of card 2a; Wherein, described conveying belt is arranged along the upper and lower tilted; Described deck 8a equidistant arrangement on the conveyor belt, each deck 8a is provided with for holding the draw-in groove 1-1a with positioning cards 2a; When the draw-in groove 1-1a in one of them deck 8a aligns with the card output terminal of upper strata processing module streamline 11, the draw-in groove 1-1a of another deck 8a adjacent with it aligns with the card input end of lower floor processing module streamline 12.In such scheme, deck 8a is driven to move owing to adopting the conveying belt of cycle operation, therefore evenly distributed deck 8a on the conveyor belt can successively through the card output terminal of upper strata processing module streamline 11 and the card input end of lower floor's processing module streamline 12, carry out the access of card 2a and send, each deck 8a takes turns to operate continuously, card 2a transfer velocity is fast, and work efficiency is high.

See Fig. 6-Figure 12, in above-mentioned card transfer device 7, described conveying belt is synchronous conveyer band 7a, and described driving mechanism comprises the upper synchronous pulley 10a and lower synchronous pulley 11a, drive motor 9a and the gear train being connected drive motor 9a and lower synchronous pulley 11a that are positioned at the upper and lower two ends of synchronous conveyer band 7a.Adopt synchronous conveyer band 7a to carry deck 8a, there is the advantages such as off-position precision is high, non-slip.Described gear train adopts synchronous belt drive mechanism 14a, to improve transmission accuracy.The quantity of described deck 8a is three, the location arrangements of the deck 8a that is more convenient for like this, upper synchronous pulley 10a and lower synchronous pulley 11a.

See Fig. 6-Figure 12, in above-mentioned card transfer device 7, the installation side plate 12a for installing this card transfer device 7 is provided with between described lower floor mount pad 1-4 and upper strata mount pad 1-5, described upper synchronous pulley 10a, lower synchronous pulley 11a and drive motor 9a are connected on this installation side plate 12a, wherein, described upper synchronous pulley 10a and lower synchronous pulley 11a is located at the top and bottom of installing side plate 12a respectively, and described drive motor 9a and synchronous belt drive mechanism 14a is arranged on the lower end of installing side plate 12a; The top and bottom of described installation side plate 12a are respectively equipped with upper holder 12-1a and lower fixed frame 12-2a, the two ends of described upper synchronous pulley 10a are connected to upper holder 12-1a and install on the upper end of side plate 12a, and the two ends of described lower synchronous pulley 11a are connected to lower fixed frame 12-2a and install on the lower end of side plate 12a; The upper end of described installation side plate 12a is provided with elongated slot 12-3a, one end of described upper synchronous pulley 10a is connected in this elongated slot 12-3a, the position of synchronous pulley 10a can be regulated like this, be applicable to the installation of the synchronous conveyer band 7a of different length, also can realize the fine setting of synchronous pulley 10a installation site simultaneously.Be provided with support plate 12-4a between fixed frame 12-1a and lower fixed frame 12-2a, the medial surface of described synchronous conveyer band 7a is bearing on this support plate 12-4a, by described support plate 12-4a, supports synchronous conveyer band 7a, locate and leads.

See Figure 13-Figure 18, in above-mentioned card transfer device 7, described deck 8a comprises substrate 1a, and described draw-in groove 1-1a is located at the front side of substrate 1a, the both sides up and down of described draw-in groove 1-1a are provided with at least one group of pinch wheels, often organize pinch wheels and comprise pinch wheels 3a and lower pinch wheels 4a.In above-mentioned deck 8a, when card 2a is into and out of draw-in groove 1-1a, be subject to the clamping action of pinch wheels, because pinch wheels can be rotated, therefore neither affect the motion of card 2a, can clamp card 2a again, prevent card 2a from offseting, when card 2a loses transmitting power, card 2a can not move forward because of inertia, and off-position precision is good.Particularly, described pinch wheels is two groups, and two groups of pinch wheels, along the arrangement of card 2a throughput direction, are conducive to the reliability improving card 2a location; Described substrate 1a is respectively equipped with mount pad 5a and lower mount pad 6a in the both sides up and down of draw-in groove 1-1a, and described upper pinch wheels 3a is connected on mount pad 5a, and described lower pinch wheels 4a is connected on lower mount pad 6a.

See Figure 13-Figure 18, in above-mentioned card transfer device 7, described draw-in groove 1-1a is formed from the gap between the extension board of the horizontal forward extension of substrate 1a by two, has the advantage of being convenient to process, be conducive to reducing deck 8a weight; The two ends of described draw-in groove 1-1a be provided with card 2a imported draw-in groove 1-1a lead bayonet socket 1-2a, this is led bayonet socket 1-2a and is combined by three clinoplanes, is convenient to guide card 2a and enters into draw-in groove 1-1a.The dorsal part of described substrate 1a is provided with two groups of clip tooth 1-3a for being connected with synchronous conveyer band 7a, and two groups of clip tooth 1-3a are relatively arranged on the two ends of substrate 1a, and the gap between the synchronous gear in the shape of this clip tooth 1-3a and synchronous conveyer band 7a matches; The opposite end of two groups of clip tooth 1-3a is provided with the clamping slot for clamping Timing Belt.By adopting said structure, described deck 8a is made to be convenient to be installed on synchronous conveyer band 7a.Formation between the plate face of described substrate 1a and draw-in groove 1-1a is greater than 0 ° and is less than the angle of 90 °, concrete angle is determined according to the angle of inclination of synchronous conveyer band 7a, its object is to, when substrate 1a is fixed on synchronous conveyer band 7a, guarantee that draw-in groove 1-1a is positioned on surface level.

See Fig. 6-Figure 12, in above-mentioned card transfer device 7, the position corresponding with the card output terminal of upper strata processing module streamline 11 is provided with the card that is made up of photoelectric sensor to level sensor 13a, and this card is arranged at the card 2a end edge place when card 2a enters into the desired location of deck 8a to level sensor 13a.Described card is set and is whether test card sheet 2a is accurately transported to the assigned address of deck 8a to the effect of level sensor 13a, after card 2a accurately carries and puts in place (specifically card 2a end edge arrives card to level sensor 13a place), card detects to level sensor 13a the signal that card 2a puts in place, thus the card ejection mechanism controlling the card release end of upper strata processing module streamline 11 stops being fed forward.

See Fig. 6-Figure 18, the course of work of above-mentioned card transfer device 7 is: under original state, one of them deck 8a is positioned at the card output of upper strata processing module streamline 11, when card 2a is sent to after in this deck 8a, driving mechanism drives synchronous conveyer band 7a to move down a step, this deck 8a is transferred to the card input end place of lower floor's processing module streamline 12, make to be positioned at the card output terminal that this deck 8a adjacent another deck 8a below arrives upper strata processing module streamline 11, now carry out card 2a from deck 8a to the action that the transfer of the card input end of lower floor's processing module streamline 12 and card 2a are shifted from the card output terminal of upper strata processing module streamline 11 to deck 8a simultaneously, then driving mechanism drive synchronous conveyer band 7a moves and moves a step, then carries out into card and go out card motion, so constantly circulation.

See Fig. 3-Fig. 5 and Figure 19-Figure 21, last processing module (i.e. flat stamping module 6) of described upper strata processing module streamline 11 is provided with card ejection mechanism, this card ejection mechanism comprises and pushes away the driving mechanism that snap arm 3b and promotion push away snap arm 3b reciprocally swinging, the described lower end pushing away snap arm 3b is hinged on the mounting bracket 1b of described flat stamping module 6, and this upper end formation pushing away snap arm 3b pushes away card division 3-1b; Under normality, described in push away the below that snap arm 3b is positioned at the card transfer passage of flat stamping module 6, and described in push away the rear side that card division 3-1b is positioned at the conveying roller of the card output terminal of flat stamping module 6; During work, described in push away card division 3-1b with push away snap arm 3b rotation forward upward motion card 2a is released.The object arranging above-mentioned card ejection mechanism is the card on last processing module of upper strata processing module streamline 11 to be pushed on the deck 8a of card transfer device 7, make card 2a can between last processing module described and card transfer device 7 smooth transition.

See Figure 19 ~ Figure 21, in above-mentioned card ejection mechanism, described in push away snap arm 3b upper end be provided with extension 4b towards pushing away card direction and extending, push away card division 3-1b described in the distal end faces of this extension 4b is formed.Its role is to, allow the position of actual actuating card 2a offset and push away snap arm 3b certain distance, thus operationally avoid colliding with the rotating shaft of the conveying roller 13b of the card output terminal of flat stamping module 6.

See Figure 19 ~ Figure 21, in above-mentioned card ejection mechanism, described extension 4b is rotationally connected with by a tumbler 5b upper end pushing away snap arm 3b and is formed, and is connected with spring 6b between this tumbler 5b and the upper end pushing away snap arm 3b.Its object is to, push away card division 3-1b described in allowing and form flexible contact when contacting card 2a, avoid occurring excessive impact; In addition, be circular arc owing to pushing away card division 3-1b pushing away the movement locus snapped past in journey, therefore and the angle be pushed between face of card 2a also change, by arranging the tumbler 5b of above-mentioned flexibility, the angle be pushed between face pushing away card division 3-1b and card 2a can be regulated in real time, make to push away card division 3-1b and be fitted in being pushed on face of card 2a as far as possible.The described upper end pushing away snap arm 3b is provided with mounting groove 4-1b, and described tumbler 5b is rotationally connected with in this mounting groove 4-1b.

See Figure 19 ~ Figure 21, in above-mentioned card ejection mechanism, described driving mechanism comprises motor 7b, eccentric wheel driving mechanism and spring 2b, wherein, described eccentric drive mechanism comprises the eccentric wheel 8b that connects with motor 7b main shaft and is located at the drive division contacted with eccentric wheel 8b pushed away on snap arm 3b, and described motor 7b is fixed on the mounting bracket 1b of flat stamping module 6; Described spring 2b one end is connected to and pushes away on snap arm 3b, and the other end is connected on the mounting bracket 1b of flat stamping module 6.Its principle of work is: push away snap arm 3b by motor 7b and eccentric wheel driving mechanism and rotate towards the direction pushing away card, then is impelled by described spring 2b and push away snap arm 3b and reset, and realizes pushing away the to-and-fro movement of snap arm 3b.Described drive division is made up of roller 9b, and this roller 9b is connected to by rotating shaft 10b and pushes away on snap arm 3b, can reduce the friction between eccentric wheel 8b and drive division like this, reduce wear.

See Figure 19 ~ Figure 21, in above-mentioned card ejection mechanism, described in push away snap arm 3b be two, two push away snap arm 3b and are hinged on the mounting bracket 1b of flat stamping module 6 by same rotating shaft 11b; Two push away snap arm 3b and be arranged in parallel.Pushing away snap arm 3b by arranging two, obtaining two and pushing away card division 3-1b, make to push away that to snap past Cheng Gengjia steady.Described two push away between snap arm 3b and are provided with contiguous block 12a, eachly push away the two ends that snap arm 3b is separately fixed at this contiguous block 12a, to improve the integral rigidity that two push away snap arm 3b.

See Figure 21 ~ Figure 23, the principle of work of above-mentioned card ejection mechanism is: under normality, the below that snap arm 3b is positioned at the card transfer passage of smart card flat stamping device 6 is pushed away due to described, and described in push away the rear side that card division 3-1b is positioned at the conveying roller 13b of the card output terminal of flat stamping device 6, therefore card 2a can in the card transfer passage of flat stamping device 6 normally carry (see Figure 21); When the rear end of card 2a is to (see Figure 22) during the conveying roller 13b place of the card output terminal of flat stamping device 6, card 2a cannot continue to be fed forward, and described card ejection mechanism is started working; Driving mechanism drives and pushes away snap arm 3b rotation, pushes away card division 3-1b, with the rotation forward upward motion pushing away snap arm 3b, card 2a is pushed out to assigned address (see Figure 23), drives and pushes away snap arm 3b reset, wait for and push away card motion next time with rear drive mechanism.

See Figure 24, in described lower floor processing module streamline 12, described stamp module 8 comprises card delivery track 8-3 and is positioned at the stamp unit 8-1 of card delivery track 8-3 both sides and card pulls over unit 8-2, wherein, the described card unit 8-2 that pulls over comprises synchronous pulley 8-22, be looped around the Timing Belt 8-21 on synchronous pulley 8-22, the driving mechanism 8-23 driving Timing Belt 8-21 cycle rotation and the moving tooth 8-24 for card of pulling over be located on Timing Belt 8-21, wherein, described driving mechanism 8-23 is made up of motor, described moving tooth 8-24 equidistant arrangement is on Timing Belt 8-21, the lower end of described moving tooth 8-24 extends downward the lower edge exceeding Timing Belt 8-21, described Timing Belt 8-21 has the working portion be positioned at above card delivery track 8-3, and the moving tooth 8-24 on this working portion forms the work moving tooth of actuating card campaign, the end of described card delivery track 8-3 extends to coincide with the deck 8a in card transfer device 7 and locates, this coincidence position forms the card input end of lower floor's processing module streamline 12, described card delivery track 8-3 is arranged to open texture in the side corresponding with deck 8a in this coincidence position, deck 8a can be passed through smoothly, when described deck 8a rests on this coincidence position, both combine the part forming card delivery track 8-3, the moving tooth 8-24 being now responsible for the card promoted on deck 8a is positioned at the rear side of card, card can be released deck 8a when moving tooth 8-24 travels forward subsequently to enter in stamp module.

In above-mentioned stamp module 8, to pull over the position relationship of unit 8-2, card delivery track 8-3 and card transfer device 7 three by rationally arranging card, achieving card transition to stamp module 8 from the deck 8a card transfer device 7 smoothly; Simultaneously, the described card unit 8-2 and card delivery track 8-3 that pulls over is set and can ensures again card normally pulling over and locating when stamp, make described stamp module 8 can not only realize the stamp function of self, can realize again and the docking of card transfer device 7, obtain dual-use function.

Principle of work of the present invention is:

See Fig. 1-Fig. 5, card to be processed sends from the card-issuing module 2 of upper strata processing module streamline 11, process accordingly through remaining upper strata processing module successively, when arriving the end of upper strata processing module streamline 11, card is transferred in card transfer device 7; Then the top of lower floor's processing module streamline 12 transferred to by card by card transfer device 7, by first stamp module in lower floor's processing module streamline 12, card is accessed, and carried corresponding processing backward successively, final finished product is collected in card module 10.

Above-mentioned is the present invention's preferably embodiment; but embodiments of the present invention are not by the restriction of foregoing; change, the modification done under other any does not deviate from Spirit Essence of the present invention and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (10)

1. a Double-layer intelligent card personal information treatment facility, comprise frame, upper strata processing module streamline, lower floor's processing module streamline, the electric control box that is located at the card transfer device between upper strata processing module streamline and lower floor's processing module streamline and is positioned at below lower floor's processing module streamline, it is characterized in that:

On the fore-and-aft direction perpendicular to card throughput direction, described upper strata processing module streamline is arranged at the top of the latter half of lower floor's processing module streamline; Wherein, described upper strata processing module streamline comprises the card-issuing module and several upper strata processing modules that connect successively along card throughput direction; Described lower floor processing module streamline comprises several lower floor's processing modules and receipts card module of connecting successively along card throughput direction; The card throughput direction of described upper strata processing module streamline is contrary with the card throughput direction of lower floor's processing module streamline, and described card transfer device is arranged between the top of the end of the card throughput direction of described upper strata processing module streamline and the card throughput direction of lower floor's processing module streamline;

Described upper strata processing module and lower floor's processing module be the following throughput direction along card arrange write magnetic module, write chip module, several in cleaning module, flat stamping module, stamp module and soup impression block.

2. Double-layer intelligent card personal information treatment facility according to claim 1, it is characterized in that, described upper strata processing module streamline comprise along card throughput direction be arranged in order write magnetic module, write chip module, cleaning module and flat stamping module, each processing module is single; Described lower floor processing module streamline comprises the stamp module and soup impression block that are arranged in order along card throughput direction, and wherein, described stamp module is two.

3. Double-layer intelligent card personal information treatment facility according to claim 2, it is characterized in that, described frame comprises support and cabinet; Wherein, the upper strata mount pad that described support comprises framework, is located at the lower floor's mount pad bottom lower floor's processing module streamline and is located at bottom the processing module streamline of upper strata, described lower floor mount pad and upper strata mount pad are fixed on the top of framework; Described cabinet comprises the lower box be positioned at outside electric control box and the upper box be positioned at outside upper strata processing module streamline and lower floor's processing module streamline, this lower box and upper box are fixed on said frame, wherein, be provided with front chamber door on front side of described upper box, rear side is provided with rear chamber door, described front chamber door and rear chamber door are made up of transparent material.

4. Double-layer intelligent card personal information treatment facility according to claim 3, is characterized in that, described card-issuing module and receipts card module are arranged on the outside of upper box.

5. the Double-layer intelligent card personal information treatment facility according to any one of claim 1-4, it is characterized in that, described card transfer device comprises conveying belt, drives the driving mechanism of conveying belt cycle operation and establish on the conveyor belt at least two for receiving the deck of card; Wherein, described conveying belt is arranged along the upper and lower tilted; Described deck equidistant arrangement on the conveyor belt, each deck is provided with for holding the draw-in groove with positioning cards; When the draw-in groove in one of them deck aligns with the card output terminal of upper strata processing module streamline, the draw-in groove of another adjacent with it deck aligns with the card input end of lower floor's processing module streamline.

6. Double-layer intelligent card personal information treatment facility according to claim 5, it is characterized in that, described deck comprises substrate, and described draw-in groove is located at the front side of substrate, the both sides up and down of described draw-in groove are provided with at least one group of pinch wheels, often organize pinch wheels and comprise pinch wheels and lower pinch wheels.

7. Double-layer intelligent card personal information treatment facility according to claim 6, it is characterized in that, the position corresponding with the card output terminal of upper strata processing module streamline is provided with the card that is made up of photoelectric sensor to level sensor, and this card puts in place the card end edge of sensor setting when enter into the desired location of deck when card.

8. the Double-layer intelligent card personal information treatment facility according to any one of claim 1-4, it is characterized in that, last processing module of described upper strata processing module streamline is provided with card ejection mechanism, this card ejection mechanism comprises and pushes away the driving mechanism that snap arm and promotion push away snap arm reciprocally swinging, the described lower end pushing away snap arm is hinged on the mounting bracket of last processing module described, and this upper end formation pushing away snap arm pushes away card division; Under normality, described in push away the below that snap arm is positioned at the card transfer passage of last processing module described, and described in push away the rear side that card division is positioned at the conveying roller of the card output terminal of last processing module described; During work, described in push away card division with push away snap arm rotation forward upward motion card is released.

9. Double-layer intelligent card personal information treatment facility according to claim 8, is characterized in that, described in push away snap arm upper end be provided with extension towards pushing away card direction and extending, push away card division described in the distal end faces of this extension is formed; Described extension is rotationally connected with by a tumbler upper end pushing away snap arm and is formed, and is connected with spring between this tumbler and the upper end pushing away snap arm.

10. Double-layer intelligent card personal information treatment facility according to claim 5, it is characterized in that, in described lower floor processing module streamline, described stamp module comprises card delivery track and is positioned at the stamp unit of card delivery track both sides and card pulls over unit, wherein, described card is pulled over, and unit comprises synchronous pulley, the Timing Belt be looped around on synchronous pulley, the driving mechanism driving Timing Belt cycle rotation and the moving tooth for card of pulling over be located on Timing Belt, and described moving tooth equidistant arrangement is on Timing Belt; The lower end of described moving tooth extends downward the lower edge exceeding Timing Belt; Described Timing Belt has the working portion be positioned at above card delivery track, and the moving tooth on this working portion forms the work moving tooth of actuating card campaign; The end of described card delivery track extends to coincide with the deck in card transfer device and locates, this coincidence position forms the card input end of lower floor's processing module streamline, and described card delivery track is arranged to open texture in the side corresponding with deck in this coincidence position.