CN205736400U - A kind of card hold-down mechanism of smart card stamping device - Google Patents

Abstract

The utility model discloses the card hold-down mechanism of a kind of smart card stamping device, including support, pressure clamp and pressure card drive mechanism, support is provided with linear guiding mechanism, and this linear guiding mechanism includes along pushing away the guide rail that card direction extends and the slide block matched with guide rail；The upper end thereof of pressure clamp is on described slide block, and this slide block is provided with the confined planes paralleled in the thermoprint face with thermoprint head；During thermoprint, the pressure card face of described pressure clamp is fitted on described confined planes, and parallels with the thermoprint face of thermoprint head in the pressure card face of pressure clamp；The flexible member promoting to press clamp to rotate towards the direction away from thermoprint head it is provided with under normality between pressure clamp and support；Pressure card drive mechanism is the rotating drive mechanism that driving pressure clamp rotates around the pin joint with slide block to thermoprint head.Card can be dodged by card hold-down mechanism of the present utility model when entering card, and operationally thermoprint position each to card applies the pressure that pressure is equal, and hot stamping effects is good.

Description

A kind of card hold-down mechanism of smart card stamping device

Technical field

This utility model relates to smart card and manufactures equipment, is specifically related to the card compacting machine of a kind of smart card stamping device Structure.

Background technology

In smart card production process, part card needs to stamp type, and this type is raised in card face, for U.S. See, after type is got, need to cover on its surface golden or silver color decorative layer by the way of thermoprint, the most gold stamping or Scald silver.During thermoprint, card is positioned at thermoprint head, is provided with thermoprint band, subsequently by card hold-down mechanism between card and thermoprint head Card and thermoprint band being pressed on thermoprint head, the thermoprint head of high temperature is by the type of the dye transfer on thermoprint band to card On, complete thermoprint processing.

In smart card stamping device, described card hold-down mechanism is arranged on and is right against at thermoprint head, and card is typically from card Send at space between sheet hold-down mechanism and thermoprint head, but in part stamping device, card can be with card pressure when sending into Tight mechanism interferes, such as, send into from the dead ahead of thermoprint head when card or be flipped up from the lower section of thermoprint head sending into Time, in this case, when card is sent into, card must first be dodged by described card hold-down mechanism, after card conveying puts in place, and card Sheet hold-down mechanism sets back and carries out card compressing thermoprint；Further, when thermoprint, it is desirable to card is executed by card hold-down mechanism The power added should be uniformly distributed so that each thermoprint position pressure is equal, it is ensured that the hot stamping effects at each thermoprint position is uniform and attractive in appearance, But prior art does not meet the card hold-down mechanism of above-mentioned requirements.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that the card pressure of a kind of smart card stamping device Tight mechanism, card can be dodged by this card hold-down mechanism when entering card, and operationally thermoprint position each to card is executed Adding the pressure that pressure is equal, hot stamping effects is good.

Another purpose of the present utility model is to provide a kind of card compacting machine applying above-mentioned smart card stamping device Card compressing method in the smart card hot stamping process that structure realizes.

The purpose of this utility model is realized by following technical scheme:

A kind of card hold-down mechanism of smart card stamping device, including support, pressure clamp and pressure card drive mechanism, its In:

Described support is provided with linear guiding mechanism, this linear guiding mechanism include along push away card direction extend guide rail and The slide block matched with guide rail；The upper end thereof of described pressure clamp on described slide block, this slide block be provided with thermoprint head scald The confined planes that print face is parallel；During thermoprint, the pressure card face of described pressure clamp is fitted on described confined planes, and the pressure card of pressure clamp Parallel with the thermoprint face of thermoprint head in face；

The elasticity promoting to press clamp to rotate towards the direction away from thermoprint head it is provided with under normality between described pressure clamp and support Element；Described pressure card drive mechanism is that the rotation that driving pressure clamp rotates around the pin joint with slide block to thermoprint head drives machine Structure.

A preferred version of the present utility model, wherein, described pressure card drive mechanism include being rotatably connected on support and The rotating turret being positioned at pressure clamp dorsal part and the actuating unit driving rotating turret to rotate, described rotating turret is provided with and is pushed against pressure card The rolling element of backboard side.Described rolling element can use roller bearing, bearing or spheroid to constitute.Pressure clamp is promoted to move by rolling element, Be conducive to reducing friction, save power.

Preferably, described rotating turret includes two forks be arrangeding in parallel and is arranged on the cross bar at fork two ends, wherein, The cross bar being positioned at upper end is connected with holder pivots, and the cross bar being positioned at lower end is provided with two rolling elements.This rotating turret Stability Analysis of Structures, Good rigidly, uses two rolling elements to be conducive to improving the harmony of stress so that the motion of pressure clamp is more steady.

Preferably, described actuating unit includes motor and connects electric machine main shaft and the drive mechanism of described rotating turret, should Drive mechanism is made up of the driving gear being located on electric machine main shaft and the driven gear that is connected on support, described driven gear It is connected with rotating turret by rotational structure.Rotating turret is driven to rotate by said gear drive mechanism, simple in construction, compact, joint Save space.

Preferably, described driven gear is operative gear.Owing to slewing area when rotating turret works is little, therefore use Operative gear transmission i.e. can ensure that the angle stroke of rotating turret, thus simplifies the structure of driven gear, and saving takes up room.

A preferred version of the present utility model, wherein, the end of the downside of described slide block is provided with the extension downwardly extended Portion, the upper articulation of described pressure clamp is on this extension, consequently facilitating pressure clamp and the connection of slide block.

Preferably, confined planes is made up of the side of the limited block of the bottom surface being located at slide block.

Card in the smart card hot stamping process that a kind of card hold-down mechanism applying above-mentioned smart card stamping device realizes Compressing method, comprises the following steps:

(1), before card enters into thermoprint station, clamp is pressed upwards to turn under the effect of flexible member and pressure card drive mechanism Move to stroke end, allow the lower section of pressure clamp have the card feed space that card is sent to thermoprint station；

(2) card treating thermoprint is transported at thermoprint station by card transport, card face and the thermoprint of thermoprint head Face is parallel；

(3) pressure card drive mechanism driving pressure clamp rotates down, when pressure card face and the confined planes patch on slide block of pressure clamp During conjunction, pressure clamp cannot be rotated further, and now the pressure card face of pressure clamp is parallel with the thermoprint face of thermoprint head and card face；With The driving further along to pressure clamp of the pressure card drive mechanism, pressure clamp and slide block constitute an entirety under the guiding of guide rail Moving forward, card and thermoprint band are pressed on thermoprint head, the thermoprint position pressure everywhere of card is equal, it is achieved thermoprint adds Work.

The operation principle of the card hold-down mechanism of smart card stamping device of the present utility model is:

Utilize flexible member and pressure card drive mechanism to make to press clamp to rotate upwardly and downwardly, when being rotated up, have below Enough spaces are had to allow card enter into thermoprint station；The compression to card is realized, specifically, when pressure clamp when rotating down Time laminating with the confined planes on slide block in pressure card face, pressure clamp cannot be rotated further, due to the confined planes on slide block and thermoprint head Thermoprint face is parallel, and the most now the pressure card face of pressure clamp is also parallel with the thermoprint face of thermoprint head and card face；Hereafter with The driving further along to pressure clamp of the pressure card drive mechanism, pressure clamp and slide block constitute an entirety under the guiding of guide rail Moving forward, pressure clamp and slide block now are equivalent to a rigidity entirety, when card and thermoprint band are pressed on by pressure clamp After on thermoprint head, the power that card is applied by pressure clamp is parallel and vertical with card face with the glide direction of slide block, now card Pressure experienced is the most equal everywhere, thus equal at the various piece pressure of thermoprint so that the uniform in effect of thermoprint and attractive in appearance.

This utility model compared with prior art has a following beneficial effect:

1, can rotate upwardly and downwardly due to pressure clamp, therefore can vacate larger space when entering card, it is simple to card is from each Direction is sent into, and can be compressed by card again when thermoprint simultaneously.

2, by arranging confined planes, such that it is able to the rotary motion originally of pressure clamp to be changed into straight line pressure card motion, knot Structure is ingenious.

3, during pressure card pressure clamp to be perpendicular to the power in the direction of card face scalding the card being parallel to each other and thermoprint head Print face is pressed together so that each thermoprint position pressure of card is equal, so that it is guaranteed that hot stamping effects is the most attractive in appearance.

Accompanying drawing explanation

Fig. 1-Fig. 3 is a detailed description of the invention of the card hold-down mechanism of smart card stamping device of the present utility model Structural representation, wherein, Fig. 1 is front view, and Fig. 2 is left view, and Fig. 3 is axonometric chart.

Fig. 4-Fig. 6 is the work process schematic diagram of the card hold-down mechanism of smart card stamping device shown in Fig. 1-Fig. 3, its In, Fig. 4 is into schematic diagram during card, and Fig. 5 is that pressure clamp is swung down to schematic diagram when fitting with confined planes, and Fig. 6 is pressure card Plate compression card carries out schematic diagram during thermoprint.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, this utility model is described in further detail, but enforcement of the present utility model Mode is not limited to this.

Seeing Fig. 1-Fig. 6, the card hold-down mechanism of smart card stamping device of the present utility model includes support 1, pressure clamp 3 And pressure card drive mechanism, wherein:

Described support 1 is provided with linear guiding mechanism, this linear guiding mechanism include along push away card direction extend guide rail 5 with And the slide block 6 matched with guide rail 5；The upper end thereof of described pressure clamp 3 is on described slide block 6, and this slide block 6 is provided with and thermoprint The confined planes 7-1 that the thermoprint face of 2 is parallel；During thermoprint, the pressure card face of described pressure clamp 3 is fitted on described confined planes 7-1, And press the pressure card face of clamp 3 to parallel with the thermoprint face of thermoprint 2.

It is provided with under normality between described pressure clamp 3 and support 1 and promotes to press clamp 3 to rotate towards the direction away from thermoprint 2 Flexible member；Described pressure card drive mechanism is the rotation that driving pressure clamp 3 rotates around the pin joint with slide block 6 to thermoprint 2 Drive mechanism.Described flexible member is constituted (not shown) by spring or torsion spring.

Seeing Fig. 1-Fig. 4, described pressure card drive mechanism includes being rotatably connected on support 1 and be positioned at pressure clamp 3 dorsal part The actuating unit that rotating turret 4 and driving rotating turret 4 rotate, described rotating turret 4 is provided with the rolling being pushed against pressure clamp 3 dorsal part Body 4-3.Described rolling element 4-3 can use bearing to constitute.Promoting pressure clamp 3 to move by rolling element 4-3, beneficially reduction rubs Wipe, save power.

Seeing Fig. 1-Fig. 4, described rotating turret 4 includes two fork 4-1 be arrangeding in parallel and is arranged on fork 4-1 two ends Cross bar 4-2, wherein, the cross bar 4-2 being positioned at upper end is rotationally connected with support 1, and the cross bar 4-2 being positioned at lower end is provided with two rollings Kinetoplast 4-3.This rotating turret 4 Stability Analysis of Structures, good rigidly, use two rolling element 4-3 to be conducive to improving the harmony of stress so that The motion of pressure clamp 3 is more steady.

Seeing Fig. 1-Fig. 3, described actuating unit includes motor 8 and connects motor 8 main shaft and the transmission of described rotating turret 4 Mechanism, this drive mechanism is made up of the driving gear 9 being located on motor 8 main shaft and the driven gear 10 that is connected on support 1, Described driven gear 10 is connected with rotating turret 4 by rotational structure.Rotating turret 4 is driven to rotate by said gear drive mechanism, Simple in construction, compact, save space.

Seeing Fig. 1-Fig. 3, described driven gear 10 is operative gear.Owing to slewing area when rotating turret 4 works is little, Therefore using operative gear transmission i.e. to can ensure that the angle stroke of rotating turret 4, thus simplify the structure of driven gear 10, saving takies Space.

Seeing Fig. 1-Fig. 4, the end of the downside of described slide block 6 is provided with the extension 6-1 downwardly extended, described pressure clamp 3 Upper articulation on this extension 6-1, consequently facilitating the connection of pressure clamp 3 and slide block 6.Described confined planes 7-1 is by being located at cunning The side of the limited block 7 of the bottom surface of block 6 is constituted.

The operation principle of the card hold-down mechanism of smart card stamping device of the present utility model is:

See Fig. 1-Fig. 6, utilize flexible member and pressure card drive mechanism to make to press clamp 3 to rotate upwardly and downwardly, upwards turn Time dynamic, there is enough spaces below and allow card 11 enter into thermoprint station；The compression to card 11 is realized when rotating down, Specifically, when fitting with the confined planes 7-1 on slide block 6 in the pressure card face pressing clamp 3, pressure clamp 3 cannot be rotated further, due to cunning Confined planes 7-1 on block 6 is paralleled with the thermoprint face of thermoprint 2, the most now pressure clamp 3 pressure card face also with thermoprint 2 Thermoprint face and card 11 surface are parallel；Hereafter along with pressing the driving further along to pressure clamp 3 of the card drive mechanism, clamp is pressed 3 and slide block 6 constitute an entirety and move forward under the guiding of guide rail 5, pressure clamp 3 now and slide block 6 have been equivalent to one just Property overall, after card 11 and thermoprint band are pressed in thermoprint 2 by pressure clamp 3, power that card 11 is applied by pressure clamp 3 and The glide direction of slide block 6 is parallel and vertical with card 11 surface, and now card 11 pressure experienced everywhere is the most equal, thus is scalding The various piece pressure of print is equal so that the uniform in effect of thermoprint and attractive in appearance.

See Fig. 4-Fig. 6, the intelligence that the card hold-down mechanism of application of the present utility model above-mentioned smart card stamping device realizes Card compressing method in energy card hot stamping process, comprises the following steps:

(1), before card 11 enters into thermoprint station, under the effect of flexible member and pressure card drive mechanism, clamp 3 is pressed upwards Turn at stroke end, allow the lower section of pressure clamp 3 have and card 11 is sent to the card feed space of thermoprint station (sees figure 4)；

(2) card 11 treating thermoprint is transported at thermoprint station (with the side rotated from bottom to top by card transport 12 Formula sends into card), card 11 surface parallel with the thermoprint face of thermoprint 2 (seeing Fig. 4)；

(3) pressure card drive mechanism driving pressure clamp 3 rotates down, when pressure card face and the confined planes on slide block 6 of pressure clamp 3 During 7-1 laminating, pressure clamp 3 cannot be rotated further, now the pressure card face of pressure clamp 3 and the thermoprint face of thermoprint 2 and card 11 Surface parallel (seeing Fig. 5)；Along with the driving further along to pressure clamp 3 of the pressure card drive mechanism, pressure clamp 3 and slide block 6 structure Become an entirety to move forward under the guiding of guide rail 5, card 11 and thermoprint band are pressed in thermoprint 2, card 11 Thermoprint position pressure everywhere is equal, it is achieved thermoprint processing (seeing Fig. 6).

Above-mentioned for this utility model preferably embodiment, but embodiment of the present utility model is not by foregoing Limit, other any without departing from the change made under spirit of the present utility model and principle, modify, substitute, combine, letter Change, all should be the substitute mode of equivalence, within being included in protection domain of the present utility model.

Claims (7)

1. the card hold-down mechanism of a smart card stamping device, it is characterised in that include that support, pressure clamp and pressure card drive Mechanism, wherein:

Described support is provided with linear guiding mechanism, this linear guiding mechanism include along push away card direction extend guide rail and with lead The slide block that rail matches；The upper end thereof of described pressure clamp is on described slide block, and this slide block is provided with and the thermoprint face of thermoprint head Parallel confined planes；During thermoprint, the pressure card face of described pressure clamp is fitted on described confined planes, and pressure clamp pressure card face with The thermoprint face of thermoprint head is parallel；

The flexible member promoting to press clamp to rotate towards the direction away from thermoprint head it is provided with under normality between described pressure clamp and support； Described pressure card drive mechanism is the rotating drive mechanism that driving pressure clamp rotates around the pin joint with slide block to thermoprint head.

The card hold-down mechanism of smart card stamping device the most according to claim 1, it is characterised in that described pressure card drives Mechanism includes the rotating turret being rotatably connected on support and being positioned at pressure clamp dorsal part and the actuating unit driving rotating turret to rotate, Described rotating turret is provided with the rolling element being pushed against pressure clamp dorsal part.

The card hold-down mechanism of smart card stamping device the most according to claim 2, it is characterised in that described rotating turret bag Include two forks be arrangeding in parallel and be arranged on the cross bar at fork two ends, wherein, being positioned at the cross bar of upper end with holder pivots even Connecing, the cross bar being positioned at lower end is provided with two rolling elements.

The card hold-down mechanism of smart card stamping device the most according to claim 3, it is characterised in that described actuating unit Including motor and connect electric machine main shaft and the drive mechanism of described rotating turret, this drive mechanism is by the master being located on electric machine main shaft Moving gear and the driven gear being connected on support are constituted, and described driven gear is connected with rotating turret by rotational structure.

The card hold-down mechanism of smart card stamping device the most according to claim 4, it is characterised in that described driven gear For operative gear.

6. according to the card hold-down mechanism of the smart card stamping device described in any one of claim 1-5, it is characterised in that described The end of the downside of slide block is provided with the extension downwardly extended, and the upper articulation of described pressure clamp is on this extension.

The card hold-down mechanism of smart card stamping device the most according to claim 6, it is characterised in that described confined planes by The side of the limited block being located at the bottom surface of slide block is constituted.