CN220410073U

CN220410073U - Be applied to multi-functional module card machine of card preparation

Info

Publication number: CN220410073U
Application number: CN202321927735.XU
Authority: CN
Inventors: 陈耀辉; 易得明; 林岳正; 任晓云
Original assignee: Hai'an Yunze Precision Technology Co ltd; Shenzhen Seaory Technology Co ltd
Current assignee: Hai'an Yunze Precision Technology Co ltd; Shenzhen Seaory Technology Co ltd
Priority date: 2023-07-21
Filing date: 2023-07-21
Publication date: 2024-01-30
Anticipated expiration: 2033-07-21

Abstract

The utility model discloses a multifunctional module card machine applied to card preparation, which comprises: a printer body, and a first inlet and a second inlet and outlet provided on the printer body; a card conveying roller part, a thermal sublimation printing module, an electronic information recording part and a character-concave printing module are sequentially arranged between the first inlet and the second inlet; the thermal sublimation printing module comprises: a ribbon transfer section and a printing section, the ribbon transfer section providing a ribbon for a printing job of the printing section; the dye on the color belt can be orderly printed on the surface of the card by the printing part to form an image. Realizing the structural integration of the card printing module, the card digital information recording module and the character printing module; anti-counterfeiting treatment and the like; the integrated self-service unmanned card machine has the advantages that integrated work is realized by printing the card, writing information and processing and printing the concave words, and for the application of the integrated self-service unmanned card machine, the integrated self-service unmanned card machine not only has a more perfect functional structure, but also saves the precious space inside the integrated self-service unmanned card machine.

Description

Be applied to multi-functional module card machine of card preparation

Technical Field

The utility model belongs to the technical field of thermal sublimation card machines, and relates to a multifunctional module card machine applied to card preparation.

Background

The thermal sublimation card machine is mainly based on the principle that a ribbon-shaped ribbon and a sheet-shaped card are tightly pressed between a thermal printing head (ThermalPrintHead, TPH) and a rubber roller, the ribbon is a rectangular sheet of PVC material with a certain thickness (10 mil-40 mil) and smooth surface, and one side of the ribbon-shaped plastic substrate film is coated with thermal sublimation dye. The thermal print head is provided with a heating wire formed by arranging tiny heating points in a straight line, and the heating points can control the heating temperature through a digital controller. The surface of the rubber roller is coated with rubber with excellent friction force, and the rubber roller drives the card to move when rolling. The thermal print head is heated by pressurizing to sublimate the thermal sublimation dye on the color belt onto the surface of the card. In accordance with the principles described above, a digitally controlled thermal printhead sequentially prints the dye on the ribbon onto a card surface to form an image.

The use occasion of the thermal sublimation card machine is generally desktop use, but because the integrated self-service unmanned aerial vehicle (KIOSK) is raised, the integrated self-service unmanned aerial vehicle starts to embed the thermal sublimation card machine into the integrated self-service unmanned aerial vehicle under the requirement of automatic printing and issuing of cards, but in the application occasion of the integrated self-service unmanned aerial vehicle, the integration of functional modules is difficult because of the limitation of the integral structure volume of the card machine, so that the existing thermal sublimation card machine can only realize a single card printing function, and in the card printing process, the integrated self-service unmanned aerial vehicle also needs to cooperate with equipment such as card digital information recording equipment for carrying out pre-processing such as electronic information writing and anti-counterfeiting processing …, and concave printing equipment for carrying out concave printing of cards to realize complete card making work,

therefore, how to integrate the structures of the functional modules in each card flow and realize the integrated multifunctional module card machine is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

In order to solve the technical problems, the utility model adopts the following technical scheme:

a multi-functional modular card machine for card preparation, comprising: a printer body, and a first inlet and a second inlet and outlet provided on the printer body;

a printing plane is arranged between the first inlet and the second outlet, and the first inlet and the second outlet are positioned on the same plane position with the printing plane;

a card conveying roller part, a thermal sublimation printing module, an electronic information recording part and a character-concave printing module are sequentially arranged between the first inlet and the second inlet; the first inlet and the second inlet can respectively input a card to be printed, output a finished card and a failed card;

the thermal sublimation printing module comprises: a ribbon transfer section and a printing section, the ribbon transfer section providing a ribbon for a printing job of the printing section; the printing part is positioned in the card conveying roller part and can orderly print the dye on the color belt on the surface of the card to form an image.

As a further scheme of the utility model: the card conveying roller part comprises a first conveying roller, a second conveying roller, a third conveying roller and a fourth conveying roller which are sequentially arranged from the first inlet and the outlet;

the first conveying roller is located above the printing plane, the second conveying roller, the third conveying roller and the fourth conveying roller are located below the printing plane, the printing part is arranged above the second conveying roller, the third idler roller with the spring force is arranged above the third conveying roller, the fourth idler roller with the spring force is arranged above the fourth conveying roller, and the third idler roller and the fourth idler roller are located above the printing plane.

As a further scheme of the utility model: the ribbon transfer section includes: the ribbon supply rotating shaft and the ribbon recovery rotating shaft are used for winding and recovering the ribbon from the ribbon supply rotating shaft end;

a plurality of ribbon path guide rods are also arranged on the ribbon conveying path between the ribbon supply rotating shaft and the ribbon recovery rotating shaft, and the traction work of the ribbon is realized through the path guide rods;

as a further scheme of the utility model: the printing section includes: a thermal print head located in an area surrounded by the ribbon conveying path of the ribbon conveying part, the heating wire on the thermal print head being above the second conveying roller and aligned with the center thereof; a thermal print head bracket for mounting the thermal print head is arranged;

the two ends of the thermal printing head support are provided with cams and printing cams symmetrically assembled on the two side walls of the printer support, the rotation direction of the printing cams is controlled by a digital controller through a motor, the wheel surface rotation position of the printing cams determines the up-down swinging direction of the thermal printing head support, when the printing cams jack up the thermal printing head support upwards, the thermal printing heads on the printing cams are upwards far away from the second conveying roller, when the printing cams release the thermal printing head support downwards, the thermal printing heads on the printing cams are downwards close to the second conveying roller, and the thermal printing heads press the color ribbon and the card on the second conveying roller; the pressure of the thermal print head on the second conveying roller is provided by a printing spring arranged in the printing roller swinging bracket; the printing part is provided with a printing sensor on the printing plane, and the projection distance between the printing sensor and the heating wire of the thermal printing head on the printing plane is slightly larger than the length of the card.

As a further scheme of the utility model: the character-relief printing module includes: the placement area is used for accommodating the card and is connected with the second inlet and outlet; two ends of the placement area are provided with two groups of card-in and card-out roller shaft groups;

a character die, a character die hammer and a character hammering driving cam are arranged between the two groups of the card roll shaft groups, and the character die hammer drives the character die to punch upwards; the lower end of the concave character die hammer is propped against the concave character hammering driving cam; the concave character hammering driving cam drives the concave character die hammer to push the concave character die to move upwards so as to perform hammering actions;

the upper end of the character die is provided with a character die anvil and a character printing carbon belt module; a printing plane is formed between the character die anvil and the character die, the character printing carbon ribbon of the character is sent out from the character printing carbon ribbon module and is recovered into the character printing carbon ribbon module, and the character die performs hammering action to the character die anvil so as to print characters on the area to be printed of the card;

the second inlet and outlet are provided with a concave character printing card inlet and outlet sensor; the card entering and exiting work induction acts between the second inlet and outlet and the character-relief printing module and is used for driving the card entering and exiting roller shaft group to work;

and a character printing alignment sensor is further arranged between the two card-in and card-out roller shaft groups, so that alignment of a to-be-printed area of the card and a character die of the character is ensured.

The utility model has the beneficial effects that: realizing the structural integration of the card printing module, the card digital information recording module and the character printing module; card printing work of the card machine is realized through the card printing module, printing work of the concave words on the surface of the card is realized through the concave word printing module, and electronic information writing, anti-counterfeiting processing and the like of the card are realized through the card data information recording module; the integrated self-service unmanned card machine has the advantages that integrated work is realized by printing the card, writing information and printing the concave character, and for the application of the integrated self-service unmanned card machine, the integrated self-service unmanned card machine has a more perfect functional structure, saves the material cost, and saves the precious space inside the integrated self-service unmanned card machine.

Drawings

Fig. 1 is a schematic diagram of the structure of the present utility model.

Fig. 2 is a schematic structural view of a card conveying roller part in the present utility model.

Fig. 3 is a schematic structural view of the ribbon transfer section in the present utility model.

Fig. 4 is a schematic diagram of the structure of a printing section in the present utility model.

Fig. 5 is a schematic structural view of an intaglio printing module according to the present utility model.

FIG. 6 is a schematic diagram of a card digital information recording module according to the present utility model.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it should be understood that the described embodiments are only some embodiments of the present application, but not all embodiments, and the present application is not limited by the example embodiments described herein. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the embodiments of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured" and the like are to be construed broadly and include, for example, either permanently connected, removably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The utility model provides a multifunctional module card machine for card preparation referring to fig. 1, in an embodiment of the utility model, the multifunctional module card machine comprises: a printer body 5, and a first inlet and outlet 1 and a second inlet and outlet 6 provided in the printer body 5;

a printing plane 8 is arranged between the first inlet and outlet 1 and the second inlet and outlet 6, and the first inlet and outlet 1 and the second inlet and outlet 6 are positioned on the same plane position with the printing plane 8;

a card conveying roller part 9, a thermal sublimation printing module 4, a recorded electronic information part and a character-concave printing module 7 are sequentially arranged between the first inlet and outlet 1 and the second inlet and outlet 6; the first inlet and outlet 1 and the second inlet and outlet 6 can respectively input a card to be printed, output a finished card and a failed card;

the first inlet and outlet 1 is provided with an automatic card feeding device 2 and a finished card storage tank 3, and the automatic card feeding device 2 can directly feed a card to be printed into a printing plane 8 in a large-batch card printing operation; and the card finished by the card printing can be stored in the finished card storage tank 3;

the thermal sublimation printing module 4 includes: a ribbon transfer section 41 and a printing section 42, the ribbon transfer section 41 providing the printing section 42 with a ribbon for a printing job; the printing part 42 is located in the card transport roller part 9, and can sequentially print the dye on the color belt onto the surface of the card to form an image.

As shown in fig. 2, further, the card conveying roller section 9 includes a first conveying roller 91, a second conveying roller 92, a third conveying roller 93, and a fourth conveying roller 94, which are sequentially arranged from the first inlet and outlet 1; the four conveying rollers adopt the same stepping motor to realize driving work;

the first conveying roller 91 is positioned above the printing plane 8, the second conveying roller 92, the third conveying roller 93 and the fourth conveying roller 94 are positioned below the printing plane 8, the printing part 42 is arranged above the second conveying roller 92, a third idler roller 95 with a spring force is arranged above the third conveying roller 93, a fourth idler roller 96 with a spring force is arranged above the fourth conveying roller 94, and the third idler roller 95 and the fourth idler roller 96 are positioned above the printing plane 8; and card feeding work of the cards is realized through each conveying roller.

As shown in fig. 3, further, the ribbon transfer section 41 includes: the ribbon supply spindle 414 and the ribbon recovery spindle 411, the ribbon is wound and recovered by the ribbon recovery spindle 411 from the ribbon supply spindle 414;

a plurality of ribbon path guide bars 413 are also arranged on the ribbon conveying path between the ribbon supply rotating shaft 414 and the ribbon recovery rotating shaft 411, and the traction work of the ribbon is realized through the path guide bars;

further, at least one LED lamp 415 is disposed on the ribbon conveying path, and a photosensitive sensor 412 is disposed on the other side of the LED lamp 415 opposite to the ribbon conveying path for detecting the boundary of the color patch on the ribbon;

the ribbon supply rotating shaft 414 and the ribbon recovery rotating shaft 411 are driven by corresponding stepping motors, and in the working process, the advancing work of the ribbon can be realized by synchronously winding the ribbon supply rotating shaft 414 and the ribbon recovery rotating shaft 411; and in conjunction with the photosensor 412, enables the ribbon patch boundary to be aligned under the print position of the print section 42 during printing.

As shown in fig. 4, further, the printing section 42 includes: a thermal print head 421, the thermal print head 421 being located in an area surrounded by the ribbon conveyance path of the ribbon conveyance section 41, a heating wire 424 on the thermal print head 421 being above and aligned with the center of the second conveyance roller 92; a thermal head mount 422 for mounting the thermal head 421 is provided;

the two ends of the thermal print head support 422 are provided with cams and print cams 423 symmetrically assembled on the two side walls of the printer support, the rotation direction of the print cams 423 is controlled by a digital controller through a motor, the wheel surface rotation position of the print cams 423 determines the up-down swinging direction of the thermal print head support 422, when the print cams 423 jack up the thermal print head support 422 upwards, the thermal print heads 421 on the print cams upwards are far away from the second conveying rollers 92, when the print cams 423 release the thermal print head support 422 downwards, the thermal print heads 421 on the print cams downwards approach the second conveying rollers 92, so that the color ribbons and cards A are pressed on the second conveying rollers 92 through the thermal print heads 421; thereby printing the color blocks on the color belt on the card A to realize the thermal transfer printing action of the card; the pressure with which the thermal print head 421 is pressed against the second transfer roller 92 is provided by the print spring mounted within the print roller rocking frame 426; the printing section 42 is provided with a print sensor 425 on the print plane 8, and the projection distance of the print sensor 425 and the heater wire 424 of the thermal head 421 on the print plane 8 is slightly longer than the card a length. When the printing operation is started, the card conveying roller part 9 conveys the card a towards the second conveying roller 92, when the tail end of the card a leaves the detection range of the printing sensor 425, the digital controller enables the front end of the card a to heat the heating wire 424 of the thermal printing head 421 through the stepping motor (each conveying roller is driven in the card conveying roller part 9), at the moment, the color blocks of the color band are aligned with the ordering of the heating wire 424 of the thermal printing head 421 by matching with the color band conveying part 41, the printing cam 423 drives the thermal printing head 421 to move downwards to the printing position, the card conveying roller part 9 and the color band conveying part 41 work simultaneously, the card a and the color band move forwards at the same speed, and the color band is orderly printed on the surface of the card through the thermal printing head 421, so that the printing operation is realized.

As shown in fig. 5, further, the intaglio printing module 7 includes: a placement area 72 for receiving a card, which is connected to the second access opening 6; two sets of card roller shaft sets 70 are arranged at two ends of the placement area 72;

an intaglio mold 73, an intaglio mold hammer 75 for driving the intaglio mold 73 to punch upwards and a recess hammer driving cam 76 are arranged between the two sets of the card roller shaft sets 70; and the lower end of the character-concave die hammer 75 is propped against the character-concave hammering driving cam 76; the concave character hammering driving cam 76 drives the concave character die hammer 75 to push the concave character die 73 to move upwards so as to perform hammering action;

the upper end of the character die 73 is provided with a character die anvil 79 and a character printing carbon belt module 77; a printing plane is formed between the intaglio anvil 79 and the intaglio anvil 73, the intaglio printing carbon ribbon is sent out from the intaglio printing carbon ribbon module 77 through the upper end of the printing plane and then is recovered into the intaglio printing carbon ribbon module 77, and the intaglio anvil 79 is hammered by the intaglio anvil 73 to print characters on the area to be printed of the card;

the second inlet and outlet 6 is provided with a concave character printing card in-out sensor 71; the card entering and exiting work induction acting between the second inlet and outlet 6 and the character-relief printing module 7 is used for driving the card entering and exiting roller shaft group 70 to work;

an intaglio printing alignment sensor 78 is also arranged between the two card-in and card-out roller shaft groups 70, so that the alignment of the area to be printed of the card and the intaglio mold 73 is ensured.

As shown in fig. 6, the present embodiment further includes: a card digital information recording module, comprising: a magnetic stripe information recording section 10 located below the first conveying roller 91;

a first idler roller (not shown) matched with the first conveying roller 91 is positioned below the printing plane 8, the first idler roller is arranged on a swinging bracket 102 with spring force, and the swinging bracket 102 is controlled by a detection cam 101 to enable the first idler roller and the first conveying roller 91 to open and close according to task requirements; the magnetic stripe information recording part 10 is arranged below the printing plane 8 and aligned with the first idler wheel, the magnetic stripe information recording part 10 is arranged on a swinging bracket 102 with spring force, and the swinging bracket 102 is controlled by a detection cam 101 to enable the magnetic stripe information recording part 10 and the first transmission idler wheel 91 to open and close according to task requirements; contact with the magnetic stripe of the card is realized, so that information recording is realized;

and a card position detecting sensor 103 is arranged at the card feeding direction position of the magnetic stripe information recording part 10, and the card feeding is sensed by the card position detecting sensor 103 to trigger the magnetic stripe information recording work.

The electronic information recording part comprises a contact chip information recording part 11 which is positioned between the second inlet and outlet 6 and the printing part 42, the card conveying path plane is overlapped with the printing plane 8, a chip recording sensor 111 is arranged on the printing plane 8, when the advancing front edge of the card A towards the second inlet and outlet 6 is detected by the chip recording sensor 111, the chip on the card A is aligned with the contact chip information recording part 11 through a stepping motor by a digital controller, and the contact driving cam 112 controls the opening and closing actions of the contact chip information recording part 11 and the printing plane 8, so that the chip information on the card starts to be recorded or read when the chip on the card contacts the contact chip information recording part 11.

The electronic information recording part comprises a wireless radio frequency chip information recording part 12 which is positioned between the second inlet and outlet 6 and the printing part 42 and below the printing plane 8; when the card A advances to the second inlet and outlet 6 and is detected by the chip recording sensor 111, the wireless radio frequency chip information recording or reading is started.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. Be applied to multi-functional module card machine of card preparation, its characterized in that includes: a printer body, and a first inlet and a second inlet and outlet provided on the printer body;

2. The card machine of claim 1, wherein the card transport roller section comprises a first transport roller, a second transport roller, a third transport roller, and a fourth transport roller sequentially arranged from the first access opening to the back;

3. The multi-function module card machine for card preparation according to claim 1, wherein the ribbon transfer section comprises: the ribbon supply rotating shaft and the ribbon recovery rotating shaft are used for winding and recovering the ribbon from the ribbon supply rotating shaft end;

and a plurality of ribbon path guide bars are also arranged on the ribbon conveying path between the ribbon supply rotating shaft and the ribbon recovery rotating shaft, and the traction work of the ribbon is realized through the path guide bars.

4. The card machine of claim 1, wherein the ribbon transport path is provided with at least one LED lamp, and the other side of the LED lamp opposite to the ribbon transport path is provided with a photosensitive sensor for detecting a color patch boundary of the ribbon.

5. The multi-function module card machine for card preparation according to claim 1, wherein the printing section comprises: a thermal print head located in an area surrounded by the ribbon conveying path of the ribbon conveying part, the heating wire on the thermal print head being above the second conveying roller and aligned with the center thereof; a thermal print head bracket for mounting the thermal print head is arranged;

6. The multi-function module card machine for card preparation according to claim 1, wherein the intaglio printing module comprises: the placement area is used for accommodating the card and is connected with the second inlet and outlet; two ends of the placement area are provided with two groups of card-in and card-out roller shaft groups;

the upper end of the character die is provided with a character die anvil and a character printing carbon belt module; a printing plane is formed between the character die anvil and the character die, the character printing carbon ribbon of the character is sent out from the character printing carbon ribbon module and is recycled into the character printing carbon ribbon module, and the character die performs hammering action to the character die anvil so as to print characters on the area to be printed of the card;

7. The multi-function module card machine for card preparation according to claim 1, further comprising: a card digital information recording module, comprising: the magnetic stripe information recording part is positioned below the first conveying roller;

the first idler wheel matched with the first conveying roller is positioned below the printing plane, the first idler wheel is arranged on a swinging bracket with spring force, and the swinging bracket is controlled by a detection cam to enable the first idler wheel and the first conveying roller to open and close according to task requirements; the magnetic stripe information recording part is arranged below the printing plane and aligned with the first idler wheel, the magnetic stripe information recording part is arranged on a swinging bracket with spring force, and the swinging bracket is controlled by a fourth cam to enable the magnetic stripe information recording part and the first transmission idler wheel to open and close according to task requirements; contact with the magnetic stripe of the card is realized, so that information recording is realized;

and a card position detecting sensor is arranged at the card feeding direction position of the magnetic stripe information recording part.

8. The card machine of claim 7, wherein the electronic information recording part comprises a contact chip information recording part which is positioned between the second inlet and the second outlet and the printing part, wherein the plane of the card conveying path coincides with the printing plane, the printing plane is provided with a chip recording sensor, when the front edge of the card advancing to the second inlet and the second outlet is detected by the chip recording sensor, the chip on the card is aligned with the contact chip information recording part by the digital controller through the stepping motor, and the contact driving cam controls the opening and closing actions of the contact chip information recording part and the printing plane, so that the chip information recording or reading is started when the chip on the card contacts the contact chip information recording part.

9. The card machine of claim 7, wherein the electronic information recording part comprises a radio frequency chip information recording part which is positioned below the printing plane toward the middle of the second inlet and outlet and the printing part.