CN105150702A - Novel smart card code printing device - Google Patents

Abstract

The invention discloses a novel smart card code printing device, comprising a frame, code discs, a code disc driving mechanism, a knocking power mechanism, a clamping groove for allowing a card to pass and stop, a card pushing mechanism for pushing the card to move in the clamping groove and colored tape conveying mechanisms, wherein the code discs comprise an upper code disc and a lower code disc, and the clamping groove is formed between the upper code disc and the lower code disc; each colored tape conveying mechanism comprises an unused colored tape winding wheel, a used colored tape winding wheel, a colored tape and a winding power mechanism; the colored tape conveying mechanisms comprise an upper colored tape conveying mechanism and a lower colored tape conveying mechanism, the colored tape in the upper colored tape conveying mechanism and the colored tape in the lower colored tape conveying mechanism pass through a gap between the upper code disc and the lower code disc in parallel, and the card in the clamping groove is positioned between the colored tape in the upper colored tape conveying mechanism and the colored tape in the lower colored tape conveying mechanism. The code printing device is compact and small, can print concave codes on the front and back sides of the card to meet different production requirements, and is good in flexibility.

Description

A kind of novel smart card stamp device

Technical field

The present invention relates to smart card manufacturing equipment, be specifically related to a kind of smart card stamp device.

Background technology

In the production process of smart card, typically includes the technique to card stamp.Stamp refers to the character code being formed one side depression, another side projection by the form of extruding on card.Stamp technique is completed by stamp device, the work of stamp is completed by paired type mould and character cut in bas-relief mould, paired type mould and character cut in bas-relief mould are relatively arranged on upper and lower two code-discs, during stamp, card enters between type mould and character cut in bas-relief mould, driving type mould and character cut in bas-relief mould surpass card motion and clash into card by beaing mechanism, getting character code at card face.

While character code got by card, in order to make character code more obvious, attractive in appearance, usually also need to cover color in character code.In existing smart card, part card is selected to cover color in the side of character code projection, is called " convex code ", and part card is selected to cover color in the side of character code depression, is referred to as " recessed code "; When processing " convex code ", need first to get character code, and then by the protruding side covering color of independent hot stamping process to character code, and when processing " recessed code ", then while stamp, complete color cover.Particularly, when processing " recessed code ", side (namely corresponding with type mould side) corresponding with character code concave face in card is provided with colour band, during stamp, type modular belt is moved colour band and is clashed into card together, thus after stamp completes, on the concave face of character code, the color of " print " upper colour band, is formed " recessed code ".

In existing smart card stamp device, normally colour band is set in the upside of card, and the concave face of card character code is generally at the back side of card, the crowning of character code in the front of card, that is during stamp general card the back side upward, face down.But, in actual production, also there is the character code concave face of part card to be positioned at the front of card, adopt common stamp device just cannot complete the stamp processing of card in this case, need to adopt specific stamp device, make the flexibility of existing stamp device not good enough.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide a kind of novel smart card stamp device, this stamp device can be beaten " recessed code " at the tow sides of card, and to adapt to different production requirements, flexibility is good.

Object of the present invention is realized by following technical scheme:

A kind of novel smart card stamp device, comprise frame, code-disc, the code-disc driving mechanism that driving code-disc rotates, the card pushing mechanism beaing actuating unit, move in draw-in groove for the draw-in groove allowing card pass through and to stop, actuating card of the type matrix beaten in code-disc and colour band conveying mechanism, wherein, described code-disc comprises code-disc and lower code-disc, and described draw-in groove is arranged between code-disc and lower code-disc; Described colour band conveying mechanism comprises not with colour band winding wheel, uses colour band winding wheel, colour band and winding power mechanism, it is characterized in that:

Described colour band conveying mechanism comprises colouring belt conveyor structure and lower colour band conveying mechanism, wherein, colour band in described colouring belt conveyor structure and the colour band of lower colour band conveying mechanism pass abreast from the gap between upper code-disc and lower code-disc, and the card in described draw-in groove is between the colour band of painting in belt conveyor structure and the colour band in lower colour band conveying mechanism.

A preferred version of the present invention, wherein, described frame comprises the installing rack being located at top outside code-disc, and this installing rack comprises the first installing plate and the second installing plate that be arranged in parallel, and this first installing plate is vertical with the throughput direction of card in draw-in groove with the plate face of the second installing plate; In described lower colour band conveying mechanism not with being arranged on the first installing plate with colour band winding wheel in colour band winding wheel and colouring belt conveyor structure, in described lower colour band conveying mechanism with colour band winding wheel and not being arranged on the second installing plate with colour band winding wheel in belt conveyor structure of painting.

In such scheme, by arranging the first installing plate and the second installing plate, thus be convenient to the setting of each winding wheel in colouring belt conveyor structure and lower colour band conveying mechanism; And by by lower colour band conveying mechanism not with in colour band winding wheel and colouring belt conveyor structure with colour band winding wheel to be arranged on the first installing plate, by lower colour band conveying mechanism with colour band winding wheel and paint and be not arranged on the second installing plate with colour band winding wheel in belt conveyor structure, the colour band of painting in belt conveyor structure and lower colour band conveying mechanism never can be guided to finally to be recovered between two code-discs with colour band winding wheel place like this and use on colour band winding wheel; Further, due to winding power mechanism general be connected with colour band winding wheel, above-mentioned setting can allow the winding power mechanism of painting in belt conveyor structure and lower colour band conveying mechanism be arranged on one of them installing plate, Appropriate application installing plate; In addition, the space between two installing plates can also arrange mechanisms such as beaing actuating unit and parts, makes the compact conformation of whole stamp device.

A preferred version of the present invention, wherein, the outside not being arranged on the first installing plate with colour band winding wheel in described lower colour band conveying mechanism, the inner side being arranged on the first installing plate with colour band winding wheel in colouring belt conveyor structure; Winding power mechanism in described colouring belt conveyor structure is made up of servomotor and synchronous belt drive mechanism, described servomotor is fixed on the outside of the first installing plate, the main shaft of this servomotor through the first installing plate and by synchronous belt drive mechanism be connected with colour band winding wheel;

The inner side being arranged on the second installing plate with colour band winding wheel in described lower colour band conveying mechanism, the outside not being arranged on the second installing plate with colour band winding wheel in colouring belt conveyor structure; Winding power mechanism in described lower colour band conveying mechanism is made up of servomotor and synchronous belt drive mechanism, described servomotor is fixed on the outside of the second installing plate, the main shaft of this servomotor through the second installing plate and by synchronous belt drive mechanism be connected with colour band winding wheel.

In above-mentioned preferred version, by the inner side being arranged on the first installing plate and the second installing plate with colour band winding wheel of will paint in belt conveyor structure and lower colour band conveying mechanism, make described synchronous belt drive mechanism can be arranged on the inner side of the first installing plate and the second installing plate, not compact conformation, and specious.

A preferred version of the present invention, wherein, in colouring belt conveyor structure: be respectively equipped with a turning bootstrap block at the two ends at the stamp position being positioned at draw-in groove, this turning bootstrap block is rectangular in shape, and bull nose is set around the corner, colour band never extends forward with the top of colour band winding wheel and bends downwards, be fitted in after reversing 90 ° and first turning guide block outer surfaces carries out 90 ° turn round, subsequently horizontally through the gap between upper code-disc and lower code-disc, then be fitted in second turning guide block outer surfaces to carry out 90 ° and turn round, last upwards extend and reverse 90 ° of backward palintropes fold to twist in and use on colour band winding wheel,

In lower colour band conveying mechanism: be respectively equipped with a directive wheel at the two ends at the stamp position being positioned at draw-in groove, two directive wheels are arranged at the below of described two turning bootstrap blocks; Colour band never with the rear side of colour band winding wheel to downward-extension and by carrying out 180 torsions after the guiding of former and later two guide wheels and upwards extending, then walk around after a directive wheel below one of them turning bootstrap block horizontally through on gap between code-disc and lower code-disc, then walk around and be positioned at another directive wheel below another turning bootstrap block to downward-extension, and by carrying out 180 torsions after the guiding of former and later two guide wheels and upwards extending, final rolling is being used on colour band winding wheel.

By above-mentioned preferred version, successfully guide the colour band in colouring belt conveyor structure and lower colour band conveying mechanism to pass from the gap between upper code-disc and lower code-disc, arrange the walking path of colour band dexterously.

A preferred version of the present invention, wherein, front between described first installing plate and the second installing plate is provided with bracing frame, the top of this bracing frame is provided with back shaft, on this back shaft with colouring belt conveyor structure not with colour band winding wheel and be respectively equipped with a transition wheel with colour band winding wheel corresponding position, the colour band of belt conveyor structure of painting walks around this transition wheel rolling not with colour band winding wheel with used on colour band winding wheel; The two ends of the bottom of this bracing frame are connected with described two turning bootstrap blocks.By this structure, be convenient to arrange described back shaft, transition wheel and turning bootstrap block.

A preferred version of the present invention, wherein, is connected with reinforced support between described first installing plate and the top of the second installing plate, thus is connected by two installing plates, increases integral rigidity.

Preferred version of the present invention, wherein, the space between described upper code-disc and lower code-disc is provided with two guide-rail plates be oppositely arranged, and described draw-in groove is arranged on the opposite face of two guide-rail plates; Colour band in described colouring belt conveyor structure and lower colour band conveying mechanism passes with paralleling with draw-in groove from the gap between upper code-disc and lower code-disc, and lays respectively at the both sides up and down of draw-in groove.

Operation principle of the present invention is: by arranging two independently colour band conveying mechanisms, thus arranges upper and lower two colour bands in gap between upper code-disc and lower code-disc; According to the stamp requirement of card during work, select one of them colour band conveying mechanism work to coordinate stamp action, just can get on the setting face of card " recessed code ".Wherein during a colour band conveying mechanism job, another colour band conveying mechanism is in halted state.

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

1, can select to beat " recessed code " in the front of card or reverse side, to adapt to different production requirements, flexibility is good.

2, only need increase the flexibility that a set of colour band conveying mechanism can improve equipment greatly in existing stamp device, under the prerequisite increasing little equipment cost, just can obtain in prior art the production capacity needing employing two to overlap stamp device just to have.

Accompanying drawing explanation

Fig. 1 and Fig. 2 is the perspective view of a detailed description of the invention of novel smart card stamp device of the present invention.

Fig. 3 ~ Fig. 8 is the reduced graph of colour band conveying mechanism part in Fig. 1 and Fig. 2 illustrated embodiment, and wherein, Fig. 3 is front view, and Fig. 4 is left view, and Fig. 5 is right view, and Fig. 6 is top view, Fig. 7 and Fig. 8 is stereogram.

Fig. 9 is the fundamental diagram at novel smart card stamp device stamp position of the present invention.

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 are not limited thereto.

See Fig. 1 ~ Fig. 8, novel smart card stamp device of the present invention comprise frame 2, code-disc 3, the code-disc driving mechanism 4 driving code-disc 3 to rotate, the type matrix 3-3 beaten in code-disc 3 beat actuating unit 5, for allow card 1 by and the card pushing mechanism 6 that moves in draw-in groove 7-1 of the draw-in groove 7-1, the actuating card 1 that stop and colour band conveying mechanism 8, wherein, described code-disc 3 comprises code-disc 3-1 and lower code-disc 3-2, and described draw-in groove 7-1 is arranged between code-disc 3-1 and lower code-disc 3-2; Described colour band conveying mechanism 8 comprises not with colour band winding wheel, uses colour band winding wheel, colour band and winding power mechanism.

Fig. 3 ~ Fig. 8, described colour band conveying mechanism 8 comprises colouring belt conveyor structure 8a and lower colour band conveying mechanism 8b, wherein, colour band 8a-1 in described colouring belt conveyor structure 8a and the colour band 8b-1 of lower colour band conveying mechanism 8b passes abreast from the gap between upper code-disc 3-1 and lower code-disc 3-2, and the card 1 in described draw-in groove 7-1 is between the colour band 8a-1 painted in belt conveyor structure 8a and the colour band 8b-1 in lower colour band conveying mechanism 8b.

Fig. 3 ~ Fig. 8, described frame 2 comprises the installing rack being located at top outside code-disc 3, this installing rack comprises the first installing plate 2-1 and the second installing plate 2-2 that be arranged in parallel, and this first installing plate 2-1 is vertical with the throughput direction of card 1 in draw-in groove 7-1 with the plate face of the second installing plate 2-2; In described lower colour band conveying mechanism 8b not with being arranged on the first installing plate 2-1 with colour band winding wheel 8a-3 in colour band winding wheel 8b-2 and colouring belt conveyor structure 8a, in described lower colour band conveying mechanism 8b with colour band winding wheel 8b-3 and not being arranged on the second installing plate 2-2 with colour band winding wheel 8a-2 in belt conveyor structure 8a of painting.By arranging the first installing plate 2-1 and the second installing plate 2-2, thus be convenient to the setting of each winding wheel in colouring belt conveyor structure 8a and lower colour band conveying mechanism 8b; And by by lower colour band conveying mechanism 8b not with in colour band winding wheel 8b-2 and colouring belt conveyor structure 8a with colour band winding wheel 8a-3 to be arranged on the first installing plate 2-1 on, by lower colour band conveying mechanism 8b with colour band winding wheel 8b-3 and paint and be not arranged on the second installing plate 2-2 with colour band winding wheel 8a-2 in belt conveyor structure 8a, the colour band of painting in belt conveyor structure 8a and lower colour band conveying mechanism 8b never can be guided to finally to be recovered between two code-discs with colour band winding wheel place like this and use on colour band winding wheel; Further, due to winding power mechanism general be connected with colour band winding wheel, above-mentioned setting can allow the winding power mechanism of painting in belt conveyor structure 8a and lower colour band conveying mechanism 8b be arranged on one of them installing plate, Appropriate application installing plate; In addition, the space between two installing plates can also arrange mechanism and parts such as beaing actuating unit 5, makes the compact conformation of whole stamp device.

Fig. 3 ~ Fig. 8, the outside not being arranged on the first installing plate 2-1 with colour band winding wheel 8b-2 in described lower colour band conveying mechanism 8b, the inner side being arranged on the first installing plate 2-1 with colour band winding wheel 8a-3 in colouring belt conveyor structure 8a; Winding power mechanism in described colouring belt conveyor structure 8a takes motor 8a-4 by private and synchronous belt drive mechanism 8a-5 is formed, described private takes the outside that motor 8a-4 is fixed on the first installing plate 2-1, the main shaft that this private takes motor 8a-4 through the first installing plate 2-1 and by synchronous belt drive mechanism 8a-5 be connected with colour band winding wheel 8a-3.The inner side being arranged on the second installing plate 2-2 with colour band winding wheel 8b-3 in described lower colour band conveying mechanism 8b, the outside not being arranged on the second installing plate 2-2 with colour band winding wheel 8a-2 in colouring belt conveyor structure 8a; Winding power mechanism in described lower colour band conveying mechanism 8b takes motor 8b-4 by private and synchronous belt drive mechanism 8b-5 is formed, described private takes the outside that motor 8b-4 is fixed on the second installing plate 2-2, the main shaft that this private takes motor 8b-4 through the second installing plate 2-2 and by synchronous belt drive mechanism 8b-5 be connected with colour band winding wheel 8b-3.In said structure, by the inner side being arranged on the first installing plate 2-1 and the second installing plate 2-2 with colour band winding wheel of will paint in belt conveyor structure 8a and lower colour band conveying mechanism 8b, make described synchronous belt drive mechanism can be arranged on the inner side of the first installing plate 2-1 and the second installing plate 2-2, not compact conformation, and specious.

Fig. 3 ~ Fig. 8, in colouring belt conveyor structure 8a: be respectively equipped with a turning bootstrap block 8a-6 at the two ends at the stamp position being positioned at draw-in groove 7-1, this turning bootstrap block 8a-6 is rectangular in shape, and bull nose is set around the corner, colour band 8a-1 never extends forward with the top of colour band winding wheel 8a-2 and bends downwards, be fitted in after reversing 90 ° and first turning bootstrap block 8a-6 outer surface carries out 90 ° turn round, subsequently horizontally through the gap between upper code-disc 3-1 and lower code-disc 3-2, then be fitted in second turning bootstrap block 8a-6 outer surface to carry out 90 ° and turn round, last upwards extend and reverse 90 ° of backward palintropes fold to twist in and use on colour band winding wheel 8a-3.In lower colour band conveying mechanism 8b: be respectively equipped with a directive wheel 8b-6 at the two ends at the stamp position being positioned at draw-in groove 7-1, two directive wheel 8b-6 are arranged at the below of described two turning bootstrap block 8a-6; Colour band 8b-1 never with the rear side of colour band winding wheel 8b-2 to downward-extension and by carrying out 180 torsions after the guiding of former and later two guide wheels 8b-7 and upwards extending, then walk around after a directive wheel 8b-6 below the bootstrap block 8a-6 of one of them turning horizontally through on gap between code-disc 3-1 and lower code-disc 3-2, then walk around and be positioned at another directive wheel 8b-6 below the bootstrap block 8a-6 of another turning to downward-extension, and by carrying out 180 torsions after the guiding of former and later two guide wheels 8b-7 and upwards extending, final rolling is being used on colour band winding wheel 8b-3.By said structure, successfully guide the colour band 8b-1 in colouring belt conveyor structure 8a and lower colour band conveying mechanism 8b to pass from the gap between upper code-disc 3-1 and lower code-disc 3-2, arrange the walking path of colour band dexterously.

Fig. 3 ~ Fig. 8, front between described first installing plate 2-1 and the second installing plate 2-2 is provided with bracing frame 2-3, the top of this bracing frame 2-3 is provided with back shaft 2-5, on this back shaft 2-5 with colouring belt conveyor structure 8a not with colour band winding wheel 8a-2 and be respectively equipped with a transition wheel 8a-7 with colour band winding wheel 8a-3 corresponding position, the colour band 8a-1 of the belt conveyor structure 8a that paints walks around this transition wheel 8a-7 rolling not with colour band winding wheel 8a-2 with used on colour band winding wheel 8a-3; The two ends of the bottom of this bracing frame 2-3 are connected with described two turning bootstrap block 8a-6.By this structure, be convenient to arrange described back shaft 2-5, transition wheel 8a-7 and turning bootstrap block 8a-6.

Fig. 3 ~ Fig. 8, is connected with reinforced support 2-5 between described first installing plate 2-1 and the top of the second installing plate 2-2, thus is connected by two installing plates, increases integral rigidity.

Fig. 3 ~ Fig. 8, the space between described upper code-disc 3-1 and lower code-disc 3-2 is provided with two guide-rail plates 7 be oppositely arranged, and described draw-in groove 7-1 is arranged on the opposite face of two guide-rail plates 7; Colour band in described colouring belt conveyor structure 8a and lower colour band conveying mechanism 8b passes with paralleling with draw-in groove 7-1 from the gap between upper code-disc 3-1 and lower code-disc 3-2, and lays respectively at the both sides up and down of draw-in groove 7-1.

Code-disc 3 in the present invention, code-disc driving mechanism 4 and the concrete structure beaing the part such as actuating unit 5 can refer to prior art and implement.

Fig. 3 ~ Fig. 9, operation principle of the present invention is: by arranging two independently colour band conveying mechanisms, thus arranges upper and lower two colour bands in gap between upper code-disc 3-1 and lower code-disc 3-2; According to the stamp requirement of card 1 during work, select one of them colour band conveying mechanism work to coordinate stamp action, just can get recessed code on the setting face of card 1.Wherein during a colour band conveying mechanism job, another colour band conveying mechanism is in halted state.During stamp, card 1 is pushed to stamp position in draw-in groove 7-1 and stops by card pushing mechanism 6, code-disc driving mechanism 4 drives code-disc to rotate, certain type matrix 3-3 in code-disc 3 is turned to stamp position, then beat actuating unit 5 and beat type matrix 3-3 in code-disc 3-1 and lower code-disc 3-2, two type matrix 3-3 promote upper and lower two colour bands shock card 1, character code got by card 1, the colour band corresponding with the die in type matrix is work colour band, (colour band be in the colour band conveying mechanism of off working state can not be installed to form recessed code, even if install, because this colour band does not move, colorant can be transferred on card 1 when being only and beaing first, beaing below all can not have an impact), in stamp process, often beat once, the colour band in running order colour band conveying mechanism moves a segment distance, realizes continuous operation.

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 (7)

1. a novel smart card stamp device, comprise frame, code-disc, the code-disc driving mechanism that driving code-disc rotates, the card pushing mechanism beaing actuating unit, move in draw-in groove for the draw-in groove allowing card pass through and to stop, actuating card of the type matrix beaten in code-disc and colour band conveying mechanism, wherein, described code-disc comprises code-disc and lower code-disc, and described draw-in groove is arranged between code-disc and lower code-disc; Described colour band conveying mechanism comprises not with colour band winding wheel, uses colour band winding wheel, colour band and winding power mechanism, it is characterized in that:

Described colour band conveying mechanism comprises colouring belt conveyor structure and lower colour band conveying mechanism, wherein, colour band in described colouring belt conveyor structure and the colour band of lower colour band conveying mechanism pass abreast from the gap between upper code-disc and lower code-disc, and the card in described draw-in groove is between the colour band of painting in belt conveyor structure and the colour band in lower colour band conveying mechanism.

2. novel smart card stamp device according to claim 1, it is characterized in that, described frame comprises the installing rack being located at top outside code-disc, this installing rack comprises the first installing plate and the second installing plate that be arranged in parallel, and this first installing plate is vertical with the throughput direction of card in draw-in groove with the plate face of the second installing plate; In described lower colour band conveying mechanism not with being arranged on the first installing plate with colour band winding wheel in colour band winding wheel and colouring belt conveyor structure, in described lower colour band conveying mechanism with colour band winding wheel and not being arranged on the second installing plate with colour band winding wheel in belt conveyor structure of painting.

3. novel smart card stamp device according to claim 2, it is characterized in that, the outside not being arranged on the first installing plate with colour band winding wheel in described lower colour band conveying mechanism, the inner side being arranged on the first installing plate with colour band winding wheel in colouring belt conveyor structure; Winding power mechanism in described colouring belt conveyor structure is made up of servomotor and synchronous belt drive mechanism, described servomotor is fixed on the outside of the first installing plate, the main shaft of this servomotor through the first installing plate and by synchronous belt drive mechanism be connected with colour band winding wheel;

The inner side being arranged on the second installing plate with colour band winding wheel in described lower colour band conveying mechanism, the outside not being arranged on the second installing plate with colour band winding wheel in colouring belt conveyor structure; Winding power mechanism in described lower colour band conveying mechanism is made up of servomotor and synchronous belt drive mechanism, described servomotor is fixed on the outside of the second installing plate, the main shaft of this servomotor through the second installing plate and by synchronous belt drive mechanism be connected with colour band winding wheel.

4. novel smart card stamp device according to claim 3, it is characterized in that, in colouring belt conveyor structure: be respectively equipped with a turning bootstrap block at the two ends at the stamp position being positioned at draw-in groove, this turning bootstrap block is rectangular in shape, and bull nose is set around the corner, colour band never extends forward with the top of colour band winding wheel and bends downwards, be fitted in after reversing 90 ° and first turning guide block outer surfaces carries out 90 ° turn round, subsequently horizontally through the gap between upper code-disc and lower code-disc, then be fitted in second turning guide block outer surfaces to carry out 90 ° and turn round, last upwards extend and reverse 90 ° of backward palintropes fold to twist in and use on colour band winding wheel,

In lower colour band conveying mechanism: be respectively equipped with a directive wheel at the two ends at the stamp position being positioned at draw-in groove, two directive wheels are arranged at the below of described two turning bootstrap blocks; Colour band never with the rear side of colour band winding wheel to downward-extension and by carrying out 180 torsions after the guiding of former and later two guide wheels and upwards extending, then walk around after a directive wheel below one of them turning bootstrap block horizontally through on gap between code-disc and lower code-disc, then walk around and be positioned at another directive wheel below another turning bootstrap block to downward-extension, and by carrying out 180 torsions after the guiding of former and later two guide wheels and upwards extending, final rolling is being used on colour band winding wheel.

5. novel smart card stamp device according to claim 4, it is characterized in that, front between described first installing plate and the second installing plate is provided with bracing frame, the top of this bracing frame is provided with back shaft, on this back shaft with colouring belt conveyor structure not with colour band winding wheel and be respectively equipped with a transition wheel with colour band winding wheel corresponding position, the colour band of belt conveyor structure of painting walks around this transition wheel rolling not with colour band winding wheel with used on colour band winding wheel; The two ends of the bottom of this bracing frame are connected with described two turning bootstrap blocks.

6. the novel smart card stamp device according to any one of claim 2 ~ 5, is characterized in that, is connected with reinforced support between described first installing plate and the top of the second installing plate.

7. the novel smart card stamp device according to any one of Claims 1 to 5, is characterized in that, the space between described upper code-disc and lower code-disc is provided with two guide-rail plates be oppositely arranged, and described draw-in groove is arranged on the opposite face of two guide-rail plates; Colour band in described colouring belt conveyor structure and lower colour band conveying mechanism passes with paralleling with draw-in groove from the gap between upper code-disc and lower code-disc, and lays respectively at the both sides up and down of draw-in groove.