CN106142825A - A kind of smart card stamp and hot stamping equipment - Google Patents

Abstract

The invention discloses a kind of smart card stamp and hot stamping equipment, including frame and the stamp device, stamping device and the card transport that are located in frame；Described stamp device includes that code-disc, type matrix and type matrix beat mechanism, and described code-disc includes in horizontally disposed upper code-disc and lower code-disc and the code-disc drive mechanism driving two code-discs to rotate；Described stamping device includes scalding tape transport, thermoprint head, card positioning seat and for driving thermoprint head to pump to carry out the thermoprint feed mechanism of thermoprint；Described card transport includes group mechanism for card and the card conveying for carrying out guiding and positioning for card of pulling over to card；Described group of mechanism for card includes dialling card Timing Belt, is located at the moving tooth dialled on card Timing Belt and dials card actuating unit.The smart card stamp of the present invention and hot stamping equipment have that compact conformation, volume be little, advantages of simple structure and simple, are particularly suited in small intelligent card apparatus such as instant card-issuing equipment.

Description

A kind of smart card stamp and hot stamping equipment

Technical field

The present invention relates to smart card and manufacture equipment, be specifically related to a kind of smart card stamp and hot stamping equipment.

Background technology

In smart card production process, part card needs to stamp character code on card by stamp device, the word beaten Code is protruding from the side of card depression, opposite side.Described character code includes recessed code and convex code, and wherein, convex code refers to protruding one Side forms character code.In order to allow the surface of convex code seem more beautiful attractive in appearance, need by smart card stamping device convex to accomplish fluently Code carries out thermoprint so that the surface of convex code covers upper color.

In the print convex code process of smart card, stamp and the successive operation of thermoprint twice are generally gathered same Carrying out in individual equipment (i.e. smart card stamp and hot stamping equipment), described smart card stamp and hot stamping equipment can be smart card individuals Change the composition part in information processing production line, it is also possible to be the autonomous device being exclusively used in print convex code.Existing smart card stamp With stamp device in hot stamping equipment and stamping device are each provided with independent card transport, this equipment sets due to needs Put the complicated card transport of two sets so that equipment exists the defects such as volume is big, lateral dimension is big, structure is complicated, especially when When applying it in small-sized instant card-issuing equipment, this defect is especially prominent, the structural constraint of huge volume and complexity The miniaturization of small-sized instant card-issuing equipment.

Content of the invention

It is an object of the invention to overcome the deficiencies in the prior art, provide a kind of smart card stamp and hot stamping equipment, this sets Getting everything ready has that compact conformation, volume be little, advantages of simple structure and simple, is particularly suited for for example instant card-issuing equipment of small intelligent card apparatus In.

The purpose of the present invention is realized by following technical scheme:

A kind of smart card stamp and hot stamping equipment, including frame and being located in frame: stamp device, stamping device with And card transport, described frame includes base plate, for arranging the stamp support of stamp device, for arranging stamping device Thermoprint support and for arranging the card feed support of card transport；

Described stamp device includes code-disc, type matrix and for tapping type matrix in code-disc to carry out the type matrix knocking machine of stamp Structure, described code-disc includes in horizontally disposed upper code-disc and lower code-disc and the code-disc drive mechanism driving two code-discs to rotate, Have between described upper code-disc and lower code-disc allow card by and stop and carry out the card transfer passage of stamp；

Described stamping device includes scalding tape transport, thermoprint head, card positioning seat and for driving thermoprint head to make Lower moving back and forth to carry out the thermoprint feed mechanism of thermoprint, wherein, described boiling hot tape transport includes unused boiling hot band winding wheel, With boiling hot band winding wheel, scald band and scald band winding power mechanism；Described thermoprint head is arranged on the top of card positioning seat, described boiling hot Band passes through between thermoprint head and card positioning seat, and it is logical that the space between described thermoprint head and card positioning seat constitutes card conveying Road；

Described card transport includes for group mechanism for card of card of pulling over and for carrying out guiding and determining to card The card conveying of position, wherein, the card conveying space within described card conveying constitutes card transfer passage, along Card conveying direction, described stamp device and stamping device are sequentially arranged on this card conveying；Described group of mechanism for card bag Include and dial card Timing Belt, be located at the moving tooth dialled on card Timing Belt and dial card actuating unit for what driving group card Timing Belt operated, Wherein, described moving tooth is arranged in and dials on card Timing Belt, and described group of card Timing Belt has the work portion parallel with card conveying Point, the moving tooth on this working portion extend in the card transfer passage of described card conveying.

One preferred version of the present invention, wherein, in card transport, along card conveying direction, described card The top of conveying is provided with turning over cards mechanism, and this turning over cards mechanism includes two groups of roller groups and drives two groups of roller groups The upset actuating unit of unitary rotation, often organizes two rollers up and down that roller group includes being arranged in pairs；This turning over cards mechanism is also Including for driving the card of each roller rotation in two groups of roller groups to carry actuating unit.Above-mentioned turning over cards mechanism is set Purpose be to carry out positive and negative upset to card, such that it is able to the not coplanar of choice cards is processed, improve production Flexibility；This turning over cards mechanism is also used as common conveying mechanism and carries card, particular by institute simultaneously State two groups of roller groups to realize.

One preferred version of the present invention, wherein, in card transport, described moving tooth includes for blocking synchronization with dialling The fixing fixed part connecting of band and group card division for card of pulling over, described group of card division is positioned at the lower end of fixed part；Vertically On the direction dialling card direction dialling card division, described group of card division offsets laterally relative to fixed part；The top of described group of card division And it is connected by middle interconnecting piece between the lower end of fixed part.After using the moving tooth of said structure, owing to dialling card division relative to admittedly Determine portion to offset laterally, that is make to dial card Timing Belt and dial card division to offset by certain distance in the direction such that it is able to keep away Exempt from card to collide with group card Timing Belt when upset.

One preferred version of the present invention, wherein, is provided with longitudinal driving mechanism between described card transport and frame, Longitudinal linear guiding mechanism between base plate that this longitudinal driving mechanism includes being located at frame and card feed support and zigzag tread patterns Actuating unit, the guide direction of described longitudinal linear guiding mechanism is vertical with card conveying direction；Described zigzag tread patterns engine Structure includes vertical drive motor and lead-screw drive mechanism, and the leading screw in described lead-screw drive mechanism is with vertical drive motor even Connect, feed screw nut is connected with card feed support；Card positioning seat in described stamping device is connected on card feed support.Arrange above-mentioned The purpose of longitudinal driving mechanism is to drive card transport along lengthwise movement, thus to the card in card conveying Carry out length feed control, to realize realizing stamp and thermoprint on longitudinal direction (i.e. on the width) diverse location of card.

One preferred version of the present invention, wherein, in described stamp device, described type matrix beats mechanism and includes being oppositely arranged Beaing executing agency in two groups of the upper and lower both sides of code-disc, often group is beaten executing agency and is included rapping hammer and drive rapping hammer to beat type matrix Beat actuating unit；The described actuating unit that beats includes beaing and drives motor and connection to beat to drive the dynamic of motor and rapping hammer Force transfer mechanism, described Poewr transmission mechanism include along horizontal-extending drive shaft, set eccentric wheel on the driving shaft, slide block with And guide holder, wherein, described slide block is provided with the driver slot matching with eccentric wheel, described slide block under the driving of eccentric wheel The direction of motion is beaten direction with type matrix and is paralleled；Described guide holder is provided with beat at type matrix and on direction, slide block guided Gathering sill；Described rapping hammer is connected on slide block.Above-mentioned type matrix beats and uses drive shaft to enter action edge transmission in mechanism, and volume is little, Long distance delivery can be realized, and arranged direction is flexible；Eccentric wheel is used to drive slide block and rapping hammer reciprocating, moving component Radial dimension little, combine compact between parts, and vibration when working be little, noise is little, efficiency is high；Whole type matrix knocking machine Structure compact conformation, it is simple to assembling and debugging, and precision is high.

One preferred version of the present invention, wherein, in described stamp device, described stamp support includes being fixed on base plate Riser, the plate face of this riser is parallel with card conveying direction；Beaing in mechanism at described type matrix, often group beats executing agency pair Should place be provided with along drive shaft axis direction extend mounting seat, one end of this mounting seat is fixedly connected on described riser, Described drive shaft is arranged in this mounting seat and the two ends of drive shaft are provided with bearing；Described mounting seat is in the end relative with riser Being provided with described gathering sill, this end of mounting seat constitutes described guide holder；Described upper code-disc and lower code-disc are respectively by turning Dynamic structure is connected in one of them mounting seat.In said structure, mounting seat is set drive shaft, slide block shape not only can be installed Becoming guide holder so that compact conformation, but also may be used for installing code-disc, dual-use material, this mounting seat has substantially constituted code A part for plate rail, improves the integral rigidity of code-disc frame simultaneously.

One preferred version of the present invention, wherein, beats in mechanism at described type matrix, two groups beat in executing agency strike Making driving motor is same motor, and this is beaten and is connected by synchronous belt drive mechanism between driving motor and two drive shafts, This synchronous belt drive mechanism includes being located at and beats the driving pulley driving on electric machine main shaft, is separately positioned in two drive shafts Driven pulley and Timing Belt.Can synchronously be passed to beaing the power driving motor by above-mentioned synchronous belt drive mechanism Two drive shafts so that two drive shafts can synchronously be moved, and synchronism is good, kinematic accuracy is high, and compact conformation.

One preferred version of the present invention, wherein, described upper code-disc and lower code-disc is additionally provided with for carrying out bullet to type matrix Property supporting type matrix supporting construction, this type matrix supporting construction includes being arranged on a support plate of the end face central authorities of code-disc and lower code-disc And the support shell fragment being located in a support plate outer rim, the quantity of described support shell fragment is equal with the quantity of type matrix, this support shell fragment Circumferentially being uniformly distributed and be connected on a support plate, each supports shell fragment and radially prolongs at the outer rim of a support plate Stretching, each outer end elasticity supporting shell fragment buckles on the afterbody step of type matrix afterbody, the bullet that type matrix is produced by this support shell fragment Force direction is in opposite direction with the stamp of type matrix；The head of each type matrix is provided with head step, and under normality, described support shell fragment is to word The elastic force that mould produces promotes the head step of type matrix to be pushed against on the end face of code-disc.Acting on of above-mentioned type matrix supporting construction is set In allowing type matrix be maintained at fixing position under normal conditions, and finish relief type matrix in stamp and automatically recover to its normal orientation.

One preferred version of the present invention, wherein, in described stamping device, described thermoprint feed mechanism includes that thermoprint is entered Give and drive motor, eccentric wheel drive mechanism and vertical guiding mechanism, wherein, described eccentric wheel drive mechanism include eccentric wheel with And the eccentric drive block matching with eccentric wheel, described eccentric wheel is connected with thermoprint Feed servo system motor；Described vertical Guiding machine Structure includes guide rail and the slide block cooperating, and described slide block is connected with described eccentric drive block；The lower end of described eccentric drive block Being connected with thermal insulation board and thermoprint head successively, wherein, described thermal insulation board and thermoprint head are fixed together；Described eccentric drive block Lower end and thermal insulation board between be connected by elastic buffering mechanism, this elastic buffering mechanism includes compression spring and bolted-on attachment Structure, wherein, described bolt fastening structure is connected between lower end and the thermal insulation board of eccentric drive block, described compression spring upper and lower two End be respectively acting on eccentric drive block and thermal insulation board promote between the lower surface of eccentric drive block and the upper surface of thermal insulation board Under non-thermoprint state, there is buffer gap.

The 1st, having the technical effect that of above-mentioned stamping device preferred version have cushion stroke during thermoprint, delays at this Rush thermoprint head in stroke relatively small to the pressure of boiling hot band and card, thus the thawing for scalding the pigment on band provide the time, Pigment is fully melted, and after cushion stroke terminates, described pressure increases to normal value again so that better after thermoprint Full, color is more soft uniformly, and the convex code after thermoprint is more attractive in appearance；2nd, slow owing to having between eccentric drive block and thermal insulation board Rush gap and compression spring, when card run-off the straight cause between card face and the thermoprint working face of thermoprint head not parallel when, The attitude of thermoprint head can be modified in time so that the thermoprint working face of card face and thermoprint head is fully fitted, allow and scald band On pigment be uniformly transferred on all of convex code, the hot stamping effects of each convex code is consistent, overall appearance；3rd, above-mentioned thermoprint is entered Have employed eccentric wheel drive mechanism to mechanism, the power of thermoprint Feed servo system motor can be passed by eccentric wheel and eccentric drive block Passing thermoprint head, simple in construction, compact, volume is little, reduces the overall dimensions of stamping device.

One preferred version of the present invention, wherein, described eccentric drive block is by bottom contiguous block and is located at bottom contiguous block The vertical contiguous block on top is constituted, and wherein, described vertical contiguous block is fixedly connected with a slide block by screw, and described eccentric wheel connects On vertical contiguous block；Described thermal insulation board is connected on the contiguous block of bottom；The bottom contiguous block of described eccentric drive block is provided with Location hole of the spring, described thermal insulation board with described on location hole of the spring corresponding position be provided with lower spring positioning hole, described compression spring Two ends extend into described upper location hole of the spring and lower spring positioning hole in, in order to realize the positioning of compression spring；Described bolt Attachment structure includes bolt, nut and the bolt sleeve being embedded on the contiguous block of bottom, and wherein, it is heavy to be provided with in described bolt sleeve Hole, described bolt passes through downwards thermal insulation board from counterbore and is connected with nut, and the lower end of described thermal insulation board is provided with for accommodating nut Avoiding hollow groove.

The operation principle of the smart card stamp of the present invention and hot stamping equipment is:

Card in card conveying is pulled over by the moving tooth dialled in card transport on card Timing Belt, it is achieved card In-movement in stamp device and stamping device for the piece, realizes card between stamp device and stamping device simultaneously Transfer；Specifically, the card being come by a upper procedure conveying enters into the top of card conveying, dials card Timing Belt and starts Operating, one of them moving tooth enters in the card transfer passage of card conveying, beating to stamp device of pulling over card Code position carries out stamp, and during stamp, described moving tooth is stirred card and carried out horizontal feed motion, in order at the horizontal stroke of card Stamp character code to diverse location；After stamp finishes, described moving tooth continues to pull over card to the thermoprint station of stamping device, card Piece rests at card positioning seat, and thermoprint feed mechanism drives thermoprint head that boiling hot band is pressed on card face and realizes thermoprint；Thermoprint After finishing, described moving tooth continues to pull over card forward, enters lower one manufacturing procedure；A new subsequently card is fed to The head end of card conveying, repeats above-mentioned stamp and thermoprint processing, so cyclically works.

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

1st, owing to using same card transport to realize feeding in stamp device and stamping device for the card and defeated Send, it is not necessary to as prior art, use two card transport, thus simplify structure, and make the horizontal overall length of equipment Degree reduces significantly so that overall structure is compacter, and volume is less, is particularly suited for for example instant hair fastener of small intelligent card apparatus and sets In Bei.

2nd, the card transport of the present invention uses the structure that group card Timing Belt and moving tooth combine, and every card is in stamp Pull over by same moving tooth with during thermoprint, middle without transition mechanism so that the positioning of card is more accurate, thus improves The machining accuracy of card.

Brief description

Fig. 1-Fig. 7 is the structural representation of a detailed description of the invention of the smart card stamp of the present invention and hot stamping equipment, Wherein, Fig. 1 is front view, and Fig. 2 is left view, and Fig. 3 is right view, and Fig. 4 is top view, and Fig. 5 is rearview, Fig. 6 and Fig. 7 is vertical Body figure.

Fig. 8 and Fig. 9 is the perspective view of card transport in Fig. 1-Fig. 7 illustrated embodiment.

Figure 10 is the perspective view of moving tooth in card transport shown in Fig. 8 and Fig. 9.

Figure 11 is the position relationship that moving tooth shown in Figure 10 is applied in card transport display and turning over cards mechanism Structural representation.

Figure 12-Figure 16 is the structural representation of stamp device in Fig. 1-Fig. 7 illustrated embodiment, wherein, regards based on Figure 12 Figure, Figure 13 is left view, and Figure 14 is top view, Figure 15 and Figure 16 is stereogram.

Figure 17 is the A-A sectional view of Figure 12.

Figure 18 is the partial structurtes schematic diagram that in Figure 17, eccentric wheel position in executing agency is beaten in downside.

Figure 19 is the B-B sectional view of Figure 18.

Figure 20 and Figure 21 is the structural representation of code-disc in card stamp device shown in Figure 12-Figure 16, wherein, regards based on Figure 20 Figure, Figure 21 is the C-C sectional view of Figure 20.

Figure 22 is the perspective view of type matrix of the present invention.

Figure 23-Figure 25 is the structural representation of stamping device in Fig. 1-Fig. 7 illustrated embodiment, wherein, regards based on Figure 23 Figure, Figure 24 is top view, and Figure 25 is stereogram.

Figure 26 is the D-D sectional view (enlarged drawing) of Figure 24.

Figure 27-Figure 31 is the knot of eccentric drive block in stamping device shown in Figure 23-Figure 25, thermal insulation board and thermoprint head part Structure schematic diagram, wherein, Figure 27 is front view, and Figure 28 is top view, and Figure 29 is stereogram, and Figure 30 is the E-E sectional view of Figure 28, figure The F-F sectional view that 31 is Figure 28.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention do not limit In this.

Seeing Fig. 1-Fig. 7, the smart card stamp of the present invention and hot stamping equipment include frame 1 and are located in frame 1: beat Code device a, stamping device b and card transport c；Described frame 1 includes base plate 1-1, for arranging beating of stamp device a Code support, for arranging the thermoprint support 1b of stamping device b and for arranging the card feed support 1c of card transport c.Its In:

Seeing Fig. 1-Fig. 7, Figure 12-Figure 16, described stamp device a includes code-disc, type matrix 29 and for tapping in code-disc Type matrix 29 beats mechanism with the type matrix carrying out stamp, described code-disc include in horizontally disposed upper code-disc 17 and lower code-disc 18 and The code-disc drive mechanism driving two code-discs to rotate, have between described upper code-disc 17 and lower code-disc 18 allow card 25 by and stop Stay the card transfer passage 26 carrying out stamp.

Seeing Fig. 1-Fig. 7, Figure 23-Figure 25, described stamping device b includes that boiling hot tape transport, thermoprint head 14b, card are fixed Position seat 16b and for driving thermoprint head 14b to pump to carry out the thermoprint feed mechanism of thermoprint, wherein, described Boiling hot tape transport include unused boiling hot band winding wheel 2b, with scald band winding wheel 3b, scald band 4b and scald band winding power mechanism； Described thermoprint head 14b is arranged on the top of card positioning seat 16b, described boiling hot band 4b from thermoprint head 14b and card positioning seat 16b it Between pass through, space between described thermoprint head 14b and card positioning seat 16b constitutes card transfer passage 26.

Seeing Fig. 1-Fig. 9, described card transport c includes for group mechanism for card of card 25 of pulling over and for card Piece 25 carries out the card conveying 3c guiding and positioning, wherein, and card conveying space within described card conveying 3c Constitute card transfer passage 26；Along card 25 conveying direction, described stamp device a and stamping device b is sequentially arranged in this card On piece conveying 3c；Described group of mechanism for card includes dialling card Timing Belt 4c, is located at the moving tooth 5c dialling on card Timing Belt 4c and use In driving group card actuating unit dialling card Timing Belt 4c operating, wherein, described moving tooth 5c is arranged in and dials on card Timing Belt 4c, described Dialling card Timing Belt 4c and having the working portion 4-1c parallel with card conveying 3c, the moving tooth 5c on this working portion 4-1c stretches Enter in the card transfer passage 26 of described card conveying 3c.

Below in conjunction with the accompanying drawings the further detailed description of the invention of card transport c is described in detail:

Seeing Fig. 1-Fig. 9, along card conveying direction, the top of described card conveying 3c is provided with turning over cards mechanism 2c, this turning over cards mechanism 2c include two groups of roller groups and drive the upset actuating unit of two groups of roller group unitary rotation, often Group roller group includes two the roller 2-1c up and down being arranged in pairs, and the position between upper and lower two roller 2-1c is defeated with described card Passage 26 is sent to overlap；Additionally, this turning over cards mechanism 2c also include for drive each roller 2-1c in two groups of roller groups from The card conveying actuating unit turning.Described card conveying actuating unit includes card conveying motor 2-2c and gear drive 2- The power of card conveying motor 2-2c is passed to four rolling 2-1c by 3c, described gear drive 2-3c, it is achieved to card The conveying of 25.Described upset actuating unit includes upset motor 2-4c and belt gear, described upset motor 2-4c's Main shaft is connected with the drive pulley 2-5c in belt gear, described card conveying motor 2-2c, four rolling 2-1c with And gear drive 2-3c is arranged on the driven pulley 2-6c of belt gear, described card conveying motor 2-2c sets It is placed on card feed support 1c.So that structure is compacter, described card conveying motor 2-2c is partially submerged in follower belt On wheel 2-6c so that the belt grooves on driven pulley 2-6c is non-full circle belt grooves, during work, belt is directly from card conveying Walk around on motor 2-2c, owing to belt also has quite a few to be embedded in the belt grooves of driven pulley 2-6c, therefore not shadow Ring the driven to driven pulley 2-6c for the belt.Other embodiments of above-mentioned turning over cards mechanism 2c can be found in publication number " a kind of vertical card transport " disclosed in the application for a patent for invention of CN 105565016A.Above-mentioned turning over cards is set The purpose of mechanism 2c is to carry out positive and negative upset to card 25, such that it is able to the not coplanar of choice cards 25 is processed, carries The high flexibility producing；This turning over cards mechanism 2c is also used as common conveying mechanism and carries card simultaneously, Realize particular by described two groups of roller 2-1c groups.

Seeing Fig. 8 and Fig. 9, the described group of card actuating unit includes dialling card and drives motor 6c and two synchronization wheel 7c, described group Card drives motor 6c to be connected with one of them synchronization wheel 7c, and this group of card drives motor 6c and two synchronization wheel 7c to be arranged at card feed and prop up On frame 1c；Described group of card Timing Belt 4c is looped around and forms long annular on two synchronization wheel 7c；Group card Timing Belt 4c of annular is from card One end of piece conveying 3c extends to the other end, and wherein the card Timing Belt 4c that dials near card conveying 3c side constitutes institute The working portion 4-1c stating.

See Figure 10 and Figure 11, described moving tooth 5c include for dial card Timing Belt 4c fix the fixed part 5-1c being connected with And group card division 5-2c for card of pulling over, described group of card division 5-2c is positioned at the lower end of fixed part 5-1c；It is being perpendicular to dial card division On the direction dialling card direction of 5-2c, described group of card division 5-2c offsets laterally relative to fixed part 5-1c；Described group of card division 5- It is connected by middle interconnecting piece 5-3c between the top of 2c with the lower end of fixed part 5-1c.Described moving tooth 5c is multiple, is arranged in Dial on card Timing Belt 4c, (Figure 11 only shows a moving tooth 5c).The purpose of the moving tooth 5c arranging said structure is to avoid card Piece 25 collides with group card Timing Belt c when upset.Specifically, owing to being perpendicular to dial the side dialling card direction of card division 5-2c Upwards, described group of card division 5-2c offsets laterally relative to fixed part 5-1c, so that dial card Timing Belt 4c and dial card division 5- 2c offset by certain distance in the direction, as long as the distance of this skew is sufficient for dialling card Timing Belt 4c in the width side of card 25 The edge of upward out card 25, then card 25 would not interfere (empty in Figure 11 when upset with group card Timing Belt 4c Position, width edge when line 5-4c represents that card 25 overturns, will not occur with dialling card Timing Belt 4c as can be seen from Figure Interfere) so that the upset of card 25 is smooth.

See Fig. 1-Fig. 9, between described card transport c and frame 1, be provided with longitudinal driving mechanism, this zigzag tread patterns machine Longitudinal linear guiding mechanism between base plate 1-1 that structure includes being located at frame 1 and card feed support 1c and zigzag tread patterns engine Structure, the guide direction of described longitudinal linear guiding mechanism is vertical with card conveying direction, and this longitudinal direction linear guiding mechanism is by arranging Guide rail 10c on base plate 1-1 and the slide block 11c being located on card feed support 1c is constituted, and this longitudinal direction linear guiding mechanism is two, The card positioning seat 16b corresponding position being separately positioned in turning over cards mechanism 2c corresponding position and stamping device b, described card is fixed Position seat 16b connects on card feed support 1c.Described zigzag tread patterns actuating unit includes vertical drive motor 8c and lead screw transmission machine Structure, the leading screw 9c in described lead-screw drive mechanism is connected with vertical drive motor 8c, feed screw nut is connected with card feed support 1c；Institute The card positioning seat 16b stating in stamping device b is connected on card feed support 1c.The purpose arranging above-mentioned longitudinal driving mechanism is Drive card transport c along lengthwise movement, thus length feed control carried out to the card 25 in card conveying 3c, To realize realizing stamp and thermoprint on longitudinal direction (i.e. on the width) diverse location of card.

Below in conjunction with the accompanying drawings the further detailed description of the invention of stamp device a is described in detail:

Seeing Figure 12-Figure 19, described type matrix beats mechanism and includes being relatively arranged on two groups of the upper and lower both sides of code-disc and beat and hold Row mechanism, often group is beaten executing agency and is included rapping hammer 6 and drive what rapping hammer 6 beat type matrix 29 to beat actuating unit.Described strike Move force mechanisms include beaing driving motor 3 and connect the Poewr transmission mechanism beaing driving motor 3 and rapping hammer 6, described dynamic Force transfer mechanism includes along horizontal-extending drive shaft the 2nd, setting eccentric wheel the 5th, slide block 7 on driving shaft 2 and guide holder 4-1, Wherein, described slide block 7 is provided with the driver slot 10 matching with eccentric wheel 5, the fortune of described slide block 7 under the driving of eccentric wheel 5 Dynamic direction is beaten direction with type matrix and is paralleled；Described guide holder 4-1 is provided with beat at type matrix and on direction, slide block 7 is guided Gathering sill 9；Described rapping hammer 6 is connected on slide block 7.Above-mentioned type matrix beats and uses drive shaft 2 to enter action edge transmission, body in mechanism Long-pending little, long distance delivery can be realized, and arranged direction is flexible；Eccentric wheel 5 is used to drive slide block 7 and rapping hammer 6 reciprocating, The radial dimension of moving component is little, combines compact between parts, and vibration when working is little, noise is little, efficiency is high；Whole word Mould beats mechanism's compact conformation, it is simple to assembling and debugging, and precision is high.

Seeing Figure 12-Figure 19, described stamp support includes the riser 1-2 being fixed on base plate 1-1, the plate of this riser 1-2 Face is parallel with card conveying direction.Beat in mechanism at described type matrix, beat executing agency corresponding position in often group and be provided with along driving The mounting seat 4 that the axis direction of moving axis 2 extends, one end of this mounting seat 4 is fixedly connected on described riser 1-2, described driving Axle 2 is arranged in this mounting seat 4 and the two ends of drive shaft 2 are provided with bearing 14；Described mounting seat 4 is at the end relative with riser 1-2 Portion is provided with described gathering sill 9, and this end of mounting seat 4 constitutes described guide holder 4-1.Described upper code-disc 17 and lower code-disc 17 It is connected in one of them mounting seat 4 by rotational structure respectively.In said structure, mounting seat 4 is set and not only can install and drive Moving axis the 2nd, slide block 7 simultaneously forms guide holder 4-1 so that compact conformation, but also may be used for installing code-disc, dual-use material, and carries The integral rigidity of high code-disc frame 1.

See Figure 17-Figure 19, beat in mechanism at described type matrix, described eccentric wheel 5 be arranged in drive shaft 2 with riser 1- 2 relative one end, in order to install；This eccentric wheel 5 is externally provided with copper sheathing 8, to improve wearability, by copper sheathing 8 and slide block 7 during work Contact is driven, and described driver slot 10 beats the external diameter that the radial dimension on direction is equal to sleeve 8, this driver slot 10 at type matrix It is being perpendicular to radial dimension that type matrix beats on the direction external diameter more than sleeve 8.

See Figure 17-Figure 19, beat in mechanism at described type matrix, the end of described gathering sill 9 and laterally run through described peace Dress seat 4, and in the end of gathering sill 9 and be laterally connected by screw end baffle 13 and lateral baffle plate 11 respectively, in order to The installation of the parts in gathering sill 9.Described slide block 7 is provided with extension 7-1 in the one end being connected with rapping hammer 6, in this extension 7-1 Being provided with screwed hole, described rapping hammer 6 is threadedly connected in described screwed hole, and described mounting seat 4 is provided with for accommodating described extension The sliding eye of portion 7-1, this sliding eye connects with described gathering sill 9；By arranging above-mentioned extension 7-1, it is simple to rapping hammer 6 and slide block The connection of 7, also can realize that rapping hammer 6 beats the regulation of position on direction at type matrix simultaneously.It is additionally provided with nut in described rapping hammer 6 12, in order to be more securely attached to rapping hammer 6 on slide block 7.

See Figure 12-Figure 16, beat in mechanism at described type matrix, two groups beat in executing agency beat driving motor 3 For same motor, this is beaten driving motor 3 and is connected by synchronous belt drive mechanism between two drive shafts 2, this Timing Belt Transmission mechanism include being located at beat drive driving pulley on motor 3 main shaft the 16th, be separately positioned on two drive shaft 2 upper ends from Movable belt pulley 15 and Timing Belt.Synchronously can will beat the power transmission driving motor 3 by above-mentioned synchronous belt drive mechanism To two drive shafts 2 so that two drive shafts 2 can synchronously be moved, and synchronism is good, kinematic accuracy is high, and compact conformation.

Seeing Figure 17, in described code-disc, described rotational structure includes central shaft 22 and bearing 24, wherein, described center The two ends of axle 22 are fixing with two mounting seats 4 to be connected, and this central shaft 22 is by described bearing 24 and upper code-disc 17 and lower code-disc 18 Connect so that upper code-disc 17 can rotate relative to central shaft 22 with lower code-disc 18, there is good excellent of simple in construction, integral rigidity Point.

See Figure 17, Figure 20 and Figure 21, in described code-disc, described upper code-disc 17 and lower code-disc 18 include code-disc pedestal with And the type matrix 29 being located on code-disc pedestal, the code-disc pedestal in upper code-disc 17 and lower code-disc 18 is integral type code-disc pedestal 23.Institute Stating code-disc pedestal and being provided with the type matrix mounting groove being distributed uniformly and circumferentially, described type matrix 29 is arranged at this type matrix mounting groove In, code-disc pedestal periphery is provided with annular stator 30 and is limited to type matrix 29 in type matrix mounting groove.Use integral type code-disc pedestal 23 have the advantage be easy to processing and simplify assembling, can improve the integral rigidity of two code-discs simultaneously.

See Figure 20-Figure 22, described upper code-disc 17 and lower code-disc 18 further respectively have for carrying out elasticity to type matrix 29 The type matrix supporting construction of supporting, this type matrix supporting construction includes being arranged in the code-disc base end face of code-disc 17 and lower code-disc 18 A support plate 27 of centre and the support shell fragment 28 being located in support plate 27 outer rim, the number of the support shell fragment 28 on each code-disc pedestal Measuring equal with the quantity of type matrix 29, this support shell fragment 2 is circumferentially uniformly distributed and is connected on a support plate 27.Each Support shell fragment 28 extends radially outward at the outer rim of a support plate 27, and each supports the elastic fastening in outer end of shell fragment 28 at type matrix 29 On the afterbody step 29-1 of afterbody, the stamp direction phase of elastic force direction that type matrix 29 is produced by this support shell fragment 28 and type matrix 29 Instead；The head of each type matrix 29 is provided with head step 29-2, and the elastic force that under normality, type matrix 29 is produced by described support shell fragment 28 promotees The head step 29-2 making type matrix 29 is pushed against on the end face of code-disc pedestal.

Seeing Figure 20 and Figure 21, described support shell fragment 28 is integral type structure with a support plate 27, this structure with split type Structure is compared, and processes convenient, and eliminates the attended operation supporting between shell fragment 28 and a support plate 27；During processing, one The surrounding of individual steel disc mills multiple empty portions radially extending can form support shell fragment 28.

Seeing Figure 20 and Figure 21, the outer end of described support shell fragment 28 is provided with the expansion section 28-1 of sharply changing section, this expansion section The area more than the afterbody step 29-1 of type matrix 29 for the area of 28-1.Its object is to so that support shell fragment 28 can fully and word The afterbody step 29-1 contact of mould 29, improves reliability.

See Figure 20 and Figure 21, under normality described support shell fragment while extending radially outward axially towards offside word The direction inclination and offset of mould 29, this axial dipole field makes to support shell fragment 28 and has axial pretension elastic force under normal conditions so that Type matrix 29 may remain in its normal orientation.

The operation principle of above-mentioned type matrix supporting construction is: under normality (during not coding), and each supports the outer end bullet of shell fragment 28 Property buckle on the afterbody step 29-1 of type matrix 29 afterbody, support the shell fragment 28 elastic force direction that produces type matrix 29 and type matrix 29 Stamp is in opposite direction so that the head step 29-2 of type matrix 29 is pushed against on the end face of code-disc pedestal, thus allows type matrix 29 maintain At its normal orientation；When carrying out stamp, two type matrixes beat mechanism and tap upper code-disc 17 and lower code-disc along stamp direction simultaneously A pair type matrix 29 in 18, thus overcome the elastic force supporting shell fragment 28 so that two type matrixes 29 clash into card 25 simultaneously and realize beating Code, when type matrix beat mechanism along stamp direction opposite direction reset when, the elastic force to type matrix 29 for the described support shell fragment 28 promotes Type matrix 29 Rapid reset is to its normal orientation.

Seeing Figure 12-Figure 16, in described code-disc, described code-disc drive mechanism includes that yard disk-drive motor 19 and gear pass Motivation structure, wherein, the main shaft of described code disk-drive motor 19 is connected with the driving gear 20 in gear drive, gear drive Driven gear 21 in mechanism is coaxially disposed with upper code-disc 17 and lower code-disc 18, and this driven gear 21 is by screw and described one Formula code-disc pedestal 23 is fixing to be connected, described code disk-drive motor 19 is fixed on motor mounting plate 1-3, this motor mounting plate 1-3 It is fixedly connected on described riser 1-2.Above-mentioned code-disc drive mechanism have simple and compact for structure, be easy to assembling and debugging, transmission Precision advantages of higher.

Seeing Figure 12-Figure 22, the operation principle of above-mentioned stamp device a is:

During work, the card 25 treating stamp is entered into two with horizontal attitude from card transfer passage 26 by card transport c Stamp position between individual code-disc, type matrix beat in mechanism beaing drive motor 3 drive two groups beat in executing agency drive Moving axis 2 rotates continuously, and eccentric motion made by the eccentric wheel 5 being connected with drive shaft 2, and this eccentric wheel 5 drives slide block 7 at guide holder 4-1 In to beat direction along type matrix reciprocating, thus drive rapping hammer 6 to make reciprocal to beat motion, it is achieved the percussion to type matrix, Character code is printed upon on card 25.In the course of work, card transport c drives card 25 to make feeding fortune in the horizontal direction Dynamic, in order to the diverse location at card 25 stamps different character codes；Code disk-drive motor 19 in code-disc drive mechanism then carries Activity code dish is at horizontal rotation in surface so that the target type matrix in code-disc turns to stamp position, thus by corresponding for this type matrix word Code prints to the appointment position of card.

The further detailed description of the invention of air exercise stamping device b is described in detail below in conjunction with the accompanying drawings:

See Figure 23-Figure 31, described thermoprint feed mechanism include thermoprint Feed servo system motor 6b, eccentric wheel drive mechanism with And vertical guiding mechanism, wherein, described eccentric wheel drive mechanism includes eccentric wheel 7b and the bias matching with eccentric wheel 7b Drive block 10b, described eccentric wheel 7b are connected with thermoprint Feed servo system motor 6b；Described vertical guiding mechanism includes cooperating Guide rail 12b and slide block 11b, described slide block 11b are connected with described eccentric drive block 10b.

Seeing Figure 27-Figure 31, the lower end of described eccentric drive block 10b is connected with thermal insulation board 13b and thermoprint head 14b successively, Wherein, described thermal insulation board 13b and thermoprint head 14b is fixed together；The lower end of described eccentric drive block 10b and thermal insulation board Being connected by elastic buffering mechanism between 13b, this elastic buffering mechanism includes compression spring 19b and bolt fastening structure, wherein, Described bolt fastening structure is connected between lower end and the thermal insulation board 13b of eccentric drive block 10b, and described compression spring 19b is upper and lower Two ends are respectively acting on eccentric drive block 10b and thermal insulation board 13b the lower surface promoting eccentric drive block 10b and thermal insulation board 13b Upper surface between under non-thermoprint state, there is buffer gap 18b.

Seeing Figure 27-Figure 31, described eccentric drive block 10b is by bottom contiguous block 10-2b and is located at bottom contiguous block 10-2b The vertical contiguous block 10-1b on top is constituted, and wherein, described vertical contiguous block 10-1b is connected by screw is fixing with slide block 11b, Described eccentric wheel 7 connects on vertical contiguous block 10-1b；Described thermal insulation board 13b is connected on the contiguous block 10-2b of bottom.In employing The eccentric drive block 10b stating structure is easy to be connected with eccentric wheel 7b, slide block 11b and thermal insulation board 13b simultaneously so that structure is tight Gather.

Seeing Figure 27-Figure 31, described compression spring 19b and bolt fastening structure are four, are arranged at bottom contiguous block The corner corner of 10-2b.The bottom contiguous block 10-2b of described eccentric drive block 10b is provided with location hole of the spring 10-3b, Described thermal insulation board 13b with described on location hole of the spring 10-3b corresponding position be provided with lower spring positioning hole 13-1b, described compression bullet The two ends of spring 19b extend in described upper location hole of the spring 10-3b and lower spring positioning hole 13-1b, in order to realize compression spring The positioning of 19b；Described bolt fastening structure includes bolt 20b, nut 17b and the spiral shell being embedded on the contiguous block 10-2b of bottom Bolt overlap 15b, wherein, in described bolt sleeve 15b, be provided with counterbore 15-1b, described bolt 20b pass through downwards from counterbore 15-1b every Hot plate 13b is connected with nut 17b, and the lower end of described thermal insulation board 13b is provided with the avoiding hollow groove 13-2b for accommodating nut 17b.

Seeing Figure 23-Figure 26, described eccentric wheel 7b is provided with driving wheel 8b, and this driving wheel 8b is externally provided with copper sheathing 9b, this copper Set 9b is matched with in the driver slot of the vertical contiguous block 10-2b being located at eccentric drive block 10b；Described thermoprint Feed servo system motor 6b Being made up of the driving motor with decelerator, the output shaft of this thermoprint Feed servo system motor 6b is connected with described eccentric wheel 7b.Pass through Said structure realizes the connection of eccentric wheel 7b and eccentric drive block 10b, uses described driving wheel 8b can reduce driving resistance, if Put described copper sheathing 9b and desirably prevent abrasion, increase the service life.

Seeing Figure 23-Figure 26, described thermoprint head 14b includes heating block 14-1b and is located at pressure on the downside of heating block 14-1b Fixture block 14-2b, is provided with electric heating tube in described heating block 14-1b；Pass through between described pressure fixture block 14-2b and heating block 14-1b Oat tail groove structure connects, and is located at the dovetail groove of heating block 14-1b bottom by the standing part arranging with heating block 14-1b integral type Combining with the movable part 14-3b being fixed by screws on heating block 14-1b, described pressure fixture block 14-2b is matched with this In dovetail groove.The purpose using said structure is the assembling being easy between pressure fixture block 14-2b and heating block 14-1b and fixes, Specifically, owing to the dovetail groove of heating block 14-1b bottom has movable part 14-3b, during installation, this movable part 14-3b departs from In heating block 14-1b, after being assemblied in pressure fixture block 14-2b at the dovetail groove of heating block 14-1b bottom, by screw by described Movable part 14-3b is locked on heating block 14-1b, thus realizes fixing pressure fixture block 14-2b.Described heating block 14-1b For generating heat and maintaining uniform temperature, during described pressure fixture block 14-2b work, directly compress card 25, and by heating block 14-1b's Heat passes to scald band 4b and card 25.

See Fig. 1-Fig. 7 and Figure 23-Figure 25, first longitudinal riser 1-1b that described thermoprint support 1b includes be arrangeding in parallel and Second longitudinal riser 1-6b, is provided with for arranging described thermoprint between this longitudinal riser 1-6b of first longitudinal riser 1-1b and second The installing rack 1-7b of feed mechanism, described first longitudinal riser 1-1b along longitudinal crossing in the top of card conveying 3c, Described unused boiling hot band winding wheel 2b and being arranged on this first longitudinal riser 1-1b with scalding band winding wheel 3b, and lay respectively at institute State the both sides of installing rack 1-7b.It is not only easy to thermoprint feed mechanism by using the thermoprint support 1b of said structure and scalds band transmission The setting of mechanism, but also closely can combine with stamp device a and card transport c, and respective machine Structure operating is independent of each other；Unused boiling hot band winding wheel 2b in described boiling hot tape transport and with scalding band winding wheel 3b along longitudinal cloth Put, shorten the lateral length of equipment so that the overall volume of equipment reduces further.

Seeing Figure 23-Figure 26, described installing rack 1-7b includes the first side plate 1-2b, the second side plate 1-3b and top board 1- 4b, described first side plate 1-2b and the second side plate 1-3b are oppositely arranged, and described top board 1-4b is arranged at the first side plate 1-2b and The top of two side plate 1-3b；Described thermoprint Feed servo system motor 6b is arranged on the first side plate 1-2b, and described guide rail 12b is arranged at On second side plate 1-3b, described top board 1-4b is provided with in the top corresponding position with slide block 11b and allows slide block 11b top pass through from which Avoidance hole 1-5b.By arranging above-mentioned installing rack 1-7b, it is simple to thermoprint Feed servo system motor 6b's and guide rail 12b is fixing, if Put when described avoidance hole 1-5b guarantees that slide block 11b works and can successfully vertically move back and forth.

Seeing Figure 23-Figure 26, in described boiling hot tape transport, described boiling hot band winding power mechanism by winding motor and moves Force transfer mechanism constitutes (not showing this structure in figure), and this scalds band winding power mechanism and is connected with boiling hot band winding wheel 3b.Should Boiling hot tape transport also includes directive wheel 5b, for guiding the boiling hot trend with 4b, is allowed to successfully receive at unused boiling hot band Rolling wheel 2b, thermoprint head 14b and use scald transition between band winding wheel 3b.

Seeing Figure 23-Figure 31, the operation principle of above-mentioned stamping device b is: the card that stamp is finished by card transport c In the 25 thermoprint stations being sent to card positioning seat 16b, scald tape transport with one rack system drive scald band 4b from scald Passing through between card 25 in print head 14b and thermoprint station, it is reciprocal that thermoprint feed mechanism drives thermoprint head 14b to make at above-below direction Motion, described card transport c, the step coordination scalding tape transport and thermoprint feed mechanism, it is achieved work continuously.Specifically For: when card transport c is by when the card 25 of thermoprint is sent in thermoprint station, scald tape transport by boiling hot band 4b not Use part is drawn to the top of card 25, and then thermoprint feed mechanism drives thermoprint head 14b to move downward；As thermoprint head 14b Operative end surface promote scald band 4b contact card face after, the driving force of eccentric drive block 10b is passed to by compression spring 19b Thermal insulation board 13b and thermoprint head 14b, compression spring 19b is gradually compressed, thermoprint head 14b to the boiling hot pressure with 4b and card by Cumulative add, make until the buffer gap 18b between the lower surface of eccentric drive block 10b and the upper surface of thermal insulation board 13b disappears The lower surface of eccentric drive block 10b contacts with the upper surface of thermal insulation board 13b, in this process, scald with the pigment on 4b by by Gradually heating and melting, and act on and scald relatively small with the active force on 4b and card 17b and be gradually increased；Eccentric drive block subsequently The driving force of 10b directly passes to thermoprint head 14b by thermal insulation board 13b, and thermoprint head 14b is to the boiling hot pressure with 4b and card 17b Power reaches maximum, is transferred to the pigment of thawing, on convex code, complete thermoprint.

Thermoprint feed mechanism drives thermoprint head 14b upwards to reset subsequently, and card 25 good for thermoprint is pushed away by card transport c Going out, being subsequently sent to new treat thermoprint card 25, boiling hot tape transport is drawn to card 25 by boiling hot with unused portion in 4b again Top, so realizes the thermoprint processing of constantly circulation.During the work of described thermoprint feed mechanism, thermoprint Feed servo system motor 6b drives Eccentric wheel 7b rotates, thus drives eccentric drive block 10b to make vertical reciprocating motion under the guiding of vertical guiding mechanism, drives Thermoprint head 14b carries out thermoprint operation as vertical motion.

The operation principle of the smart card stamp of the present invention and hot stamping equipment is:

See Fig. 1-Fig. 7, card transport c is dialled the moving tooth 5c on card Timing Belt 4c in card conveying 3c Card 25 is pulled over, it is achieved in-movement in stamp device a and stamping device b for the card, realizes that card exists simultaneously Transfer between stamp device a and stamping device b；Specifically, the card 25 being come by a upper procedure conveying enters into card The top of conveying 3c, by turning over cards mechanism 2c access, and be fed forward (if need upset, first card 25 is carried out Conveying further along after upset), dial card Timing Belt 4c and start running, one of them moving tooth 5c enters into the card of card conveying 3c In piece transfer passage 26, the stamp position pulled over card 25 to stamp device a carries out stamp, described moving tooth during stamp 5c stirs card and carries out horizontal feed motion, in order to stamp character code in the laterally-distinct position of card, if needs carry out many The stamp of row character code, then longitudinal driving mechanism work, carries out length feed to card 25；After stamp finishes, described moving tooth 5c continues Continuing and pulling over card to the thermoprint station of stamping device b, card 25 rests at card positioning seat 16b, thermoprint feed mechanism Drive thermoprint head 14b that boiling hot band 4b is pressed on card 25 surface and realize thermoprint；After thermoprint finishes, described moving tooth 5c continues forward to Card 25 is pulled over, and enters lower one manufacturing procedure；A new subsequently card 25 is fed to the head end of card conveying 3c, Repeat above-mentioned stamp and thermoprint processing, so cyclically work.

Above-mentioned for the present invention preferably embodiment, but embodiments of the present invention are not limited by foregoing, its The change made under his any Spirit Essence without departing from the present invention and principle, modifications, replacement, combination, simplification, all should be The substitute mode of effect, is included within protection scope of the present invention.

Claims (10)

1. smart card stamp and a hot stamping equipment, including frame and being located in frame: stamp device, stamping device and Card transport, described frame includes base plate, for arranging the stamp support of stamp device, for arranging scalding of stamping device Print support and for arranging the card feed support of card transport；It is characterized in that:

Described stamp device includes code-disc, type matrix and beats mechanism for tapping the type matrix in code-disc with the type matrix carrying out stamp, Described code-disc includes in horizontally disposed upper code-disc and lower code-disc and the code-disc drive mechanism driving two code-discs to rotate, described Have between upper code-disc and lower code-disc allow card by and stop and carry out the card transfer passage of stamp；

Described stamping device include scald tape transport, thermoprint head, card positioning seat and for drive thermoprint head make past up and down Multiple motion is to carry out the thermoprint feed mechanism of thermoprint, and wherein, described boiling hot tape transport includes that unused boiling hot band winding wheel, own using are scalded Band winding wheel, boiling hot band and boiling hot band winding power mechanism；Described thermoprint head is arranged on the top of card positioning seat, described boiling hot band from Passing through between thermoprint head and card positioning seat, the space between described thermoprint head and card positioning seat constitutes card transfer passage；

Described card transport includes dialling mechanism for card and for carrying out guiding and positioning to card for card of pulling over Card conveying, wherein, the card conveying space within described card conveying constitutes card transfer passage, along card Conveying direction, described stamp device and stamping device are sequentially arranged on this card conveying；Described group of mechanism for card includes dialling Card Timing Belt, the moving tooth being located on group card Timing Belt and group card actuating unit for driving group card Timing Belt to operate, wherein, Described moving tooth is arranged in be dialled on card Timing Belt, and described group of card Timing Belt has the working portion parallel with card conveying, should Moving tooth on working portion extend in the card transfer passage of described card conveying.

2. smart card stamp according to claim 1 and hot stamping equipment, it is characterised in that in card transport, edge Card conveying direction, the top of described card conveying is provided with turning over cards mechanism, and this turning over cards mechanism includes two groups Roller group and the upset actuating unit driving two groups of roller group unitary rotation, often organize that roller group includes being arranged in pairs up and down two Individual roller；This turning over cards mechanism also includes for driving the card of each roller rotation in two groups of roller groups to carry engine Structure.

3. smart card stamp according to claim 1 and 2 and hot stamping equipment, it is characterised in that in card transport, Described moving tooth includes for fixing the fixed part being connected and group card division for card of pulling over, described group of card with group card Timing Belt Portion is positioned at the lower end of fixed part；Be perpendicular to dial on the direction dialling card direction of card division, the described group of card division relative to fixed part to Lateral offset；It is connected by middle interconnecting piece between the top of described group of card division and the lower end of fixed part.

4. smart card stamp according to claim 2 and hot stamping equipment, it is characterised in that described card transport and machine It is provided with longitudinal driving mechanism, longitudinally straight between the base plate that this longitudinal driving mechanism includes being located at frame and card feed support between frame Line guiding mechanism and zigzag tread patterns actuating unit, the guide direction of described longitudinal linear guiding mechanism is hung down with card conveying direction Directly；Described zigzag tread patterns actuating unit includes vertical drive motor and lead-screw drive mechanism, in described lead-screw drive mechanism Leading screw is connected with vertical drive motor, feed screw nut is connected with card feed support；Card positioning seat in described stamping device connects On card feed support.

5. smart card stamp according to claim 1 and hot stamping equipment, it is characterised in that in described stamp device, described Type matrix beats mechanism and includes two groups that are relatively arranged on the upper and lower both sides of code-disc and beat executing agency, and often group is beaten executing agency and included Rapping hammer and drive what rapping hammer beat type matrix to beat actuating unit；The described actuating unit that beats includes beaing driving motor and company Connecing and beaing the Poewr transmission mechanism driving motor and rapping hammer, described Poewr transmission mechanism includes along horizontal-extending drive shaft, sets Eccentric wheel on the driving shaft, slide block and guide holder, wherein, be provided with the driver slot matching with eccentric wheel in described slide block, Under the driving of eccentric wheel, the direction of motion of described slide block is beaten direction with type matrix and is paralleled；Described guide holder is provided with at type matrix Beat the gathering sill on direction guiding slide block；Described rapping hammer is connected on slide block.

6. smart card stamp according to claim 5 and hot stamping equipment, it is characterised in that in described stamp device, described Stamp support includes the riser being fixed on base plate, and the plate face of this riser is parallel with card conveying direction；Beat at described type matrix In mechanism, often group beats the mounting seat that executing agency corresponding position is provided with the axis direction extension along drive shaft, this mounting seat One end is fixedly connected on described riser, and described drive shaft is arranged in this mounting seat and the two ends of drive shaft are provided with bearing；Institute Stating mounting seat and being provided with described gathering sill in the end relative with riser, this end of mounting seat constitutes described guide holder；Institute State code-disc and lower code-disc is connected in one of them mounting seat by rotational structure respectively.

7. smart card stamp according to claim 5 and hot stamping equipment, it is characterised in that beat mechanism at described type matrix In, two groups of driving motors that beat beaing in executing agency are same motor, this beat driving motor and two drive shafts it Between connected by synchronous belt drive mechanism, this synchronous belt drive mechanism includes being located at and beats the main belt driving on electric machine main shaft Wheel, the driven pulley being separately positioned in two drive shafts and Timing Belt.

8. smart card stamp according to claim 5 and hot stamping equipment, it is characterised in that on described upper code-disc and lower code-disc Be additionally provided with for carrying out flexibly mounted type matrix supporting construction to type matrix, this type matrix supporting construction include being arranged on code-disc and under A support plate of the end face central authorities of code-disc and the support shell fragment being located in a support plate outer rim, the quantity of described support shell fragment and type matrix Quantity equal, this support shell fragment is circumferentially uniformly distributed and is connected on support plate, and each supports shell fragment from support Extending radially outward at the outer rim of dish, each outer end elasticity supporting shell fragment buckles on the afterbody step of type matrix afterbody, should The elastic force direction that type matrix is produced by support shell fragment is in opposite direction with the stamp of type matrix；The head of each type matrix is provided with head step, Under normality, the elastic force that type matrix produces is promoted the head step of type matrix to be pushed against on the end face of code-disc by described support shell fragment.

9. smart card stamp according to claim 1 and hot stamping equipment, it is characterised in that in described stamping device, institute State thermoprint feed mechanism and include thermoprint Feed servo system motor, eccentric wheel drive mechanism and vertical guiding mechanism, wherein, described partially Heart wheel drive mechanism includes eccentric wheel and the eccentric drive block matching with eccentric wheel, described eccentric wheel and thermoprint Feed servo system Motor connects；Described vertical guiding mechanism includes guide rail and the slide block cooperating, and described slide block is with described eccentric drive block even Connect；The lower end of described eccentric drive block is connected with thermal insulation board and thermoprint head successively, and wherein, described thermal insulation board and thermoprint head are fixing even It is connected together；It is connected by elastic buffering mechanism between the lower end of described eccentric drive block and thermal insulation board, this elastic buffering mechanism Including compression spring and bolt fastening structure, wherein, described bolt fastening structure be connected to the lower end of eccentric drive block with heat insulation Between plate, the upper and lower two ends of described compression spring are respectively acting on eccentric drive block and thermal insulation board the lower end promoting eccentric drive block Under non-thermoprint state, there is buffer gap between face and the upper surface of thermal insulation board.

10. smart card stamp according to claim 9 and hot stamping equipment, it is characterised in that described eccentric drive block is the end of by Portion's contiguous block and the vertical contiguous block composition being located at contiguous block top, bottom, wherein, described vertical contiguous block passes through screw and cunning Block is fixing to be connected, and described eccentric wheel connects on vertical contiguous block；Described thermal insulation board is connected on the contiguous block of bottom；Described bias is driven The bottom contiguous block of motion block is provided with location hole of the spring, described thermal insulation board with described under location hole of the spring corresponding position is provided with Location hole of the spring, the two ends of described compression spring extend in described upper location hole of the spring and lower spring positioning hole；Described bolt Attachment structure includes bolt, nut and the bolt sleeve being embedded on the contiguous block of bottom, and wherein, it is heavy to be provided with in described bolt sleeve Hole, described bolt passes through downwards thermal insulation board from counterbore and is connected with nut, and the lower end of described thermal insulation board is provided with for accommodating nut Avoiding hollow groove.