CN117087341A - Novel card machine with multiple card functions - Google Patents

Abstract

The application discloses a novel card reader with a multiple card function, wherein a card overturning part, a card conveying roller part, a printing part, a CIS contact type image scanning module and a concave printing part are sequentially arranged between a first inlet and a second inlet and outlet; the third inlet and outlet is provided with a card inlet and outlet guide part; the card overturning part can be respectively abutted with the first inlet and outlet, the card inlet and outlet guiding part and the card conveying roller part in an overturning manner. The card printing module, the character-concave printing module and the CIS contact type image scanning module are integrated structurally, and the processing modes among multiple inlets and outlets in the card printer equipment and the switching work of the directions of the inlets and the outlets are realized by arranging the card overturning part structure, so that the card can enter and exit from different card inlets and outlets, multiple card issuing functions are realized, multiple postures can be met when the card printer is used, and the internal space of the card printer is completely integrated and utilized.

Description

Novel card machine with multiple card functions

Technical Field

The application belongs to the technical field of card machines, and relates to a novel card machine with a multiple card function.

Background

The transfer card machine is a machine for making credit cards, financial cards and membership cards, and the printing medium of the transfer card machine is a card,

the card printer comprises a printing module, a roller group, a card inlet and a card outlet and the like, when the card needs to be printed, the card to be printed is placed in the card inlet and the card outlet, the roller group is started, the card to be printed is conveyed into the printing module through the roller group to be printed, the printed card is conveyed into the card inlet and the card outlet through the roller group again, and an operator can take out the printed card to realize card printing operation.

In the prior art, the number of the card inlets and outlets arranged on the card printer is small, so that the card printer lacks flexibility when printing the card, and is inconvenient to use.

Disclosure of Invention

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

a novel card reader with multiple card functions, comprising: comprising the following steps: a printer body, a first inlet and outlet, a card overturning part, a card conveying roller part, a color band conveying part, a printing part, a CIS contact image scanning module, a character-concave printing part, a second inlet and outlet and a third inlet and outlet which are arranged on the printer body;

the first inlet and the second inlet are positioned on the same transmission plane, and a card overturning part, a card conveying roller part, a printing part, a CIS contact type image scanning module and a character-concave printing part are sequentially arranged between the first inlet and the second inlet;

the third inlet and outlet is arranged in the vertical direction of the first inlet and outlet and the second inlet and outlet, and the third inlet and outlet is provided with a card inlet and outlet guide part;

the card overturning part can be respectively in butt joint with the first inlet and outlet, the card inlet and outlet guiding part and the card conveying roller part in an overturning manner;

the printing part is arranged in the card conveying roller part, and the card conveying roller part can send the card from the card overturning part or the character printing part to the printing part to realize printing work;

the ribbon transfer section is located at an upper end position of the printing section, and supplies the ribbon to the printing section.

As a further scheme of the application: the CIS contact image scanning module sets up in the concave character printing portion and prints the position between the portion, includes: an upper contact type image code scanner and a lower contact type image code scanner; the position between the upper contact type image code scanner and the lower contact type image code scanner forms an image plane, and two ends of the image plane are respectively connected with the card conveying roller part and the character-relief printing part.

As a further scheme of the application: the card overturning part comprises an overturning seat and an overturning power motor for providing overturning driving force for the overturning seat;

be provided with the business turn over draw-in groove that is used for penetrating type in the turnover seat, when going into and going out the draw-in groove and working according to the card in, the positive and negative orientation of card is different to distinguish and divide into: a front bayonet and a back bayonet;

the turnover seat is in transmission connection with the turnover power motor through a power transmission mechanism, and the turnover seat is driven to turn through the turnover power motor.

As a further scheme of the application: 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; the two card feeding roller shaft groups comprise a pair of card feeding roller shafts, a card feeding gap is formed between the card feeding roller shafts, and the card feeding gap is communicated with the second inlet and outlet and the card conveying roller part respectively;

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 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;

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 application has the beneficial effects that: the card printing module, the character-concave printing module and the CIS contact type image scanning module are integrated in structure, and the processing modes among multiple inlets and outlets in the card printer equipment and the switching work of the inlet and outlet directions are realized by arranging the card overturning part structure, so that the card can enter and exit from different card inlets and outlets, multiple card issuing functions are realized, multiple postures can be met when the card printer is used, the internal space of the card printer is completely integrated and utilized, and the card printer structure with the multifunctional integrated structure is realized.

Drawings

Fig. 1 is a schematic diagram of the structure of the present application.

Fig. 2 is a schematic diagram of the structure of the intaglio printing section according to the present application.

Fig. 3 is a schematic view of the structure of the card overturning part in the application.

Detailed Description

The technical solutions of 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 exemplary embodiments described herein. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, 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 application 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 application.

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 application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the embodiments of the present application, 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 application can be understood by those of ordinary skill in the art according to the specific circumstances.

The application provides a novel card reader with multiple card functions, referring to fig. 1 to 3, in an embodiment of the application, the novel card reader comprises: comprising the following steps: a printer main body 11, a first inlet and outlet 1, a card turning section 2, a card conveying roller section 8, a color ribbon conveying section 3, a printing section 4, a CIS contact image scanning module 7, a character-relief printing section 5, a second inlet and outlet 6 and a third inlet and outlet 9 which are arranged on the printer main body 11;

the first inlet and outlet 1 and the second inlet and outlet 6 are positioned on the same transmission plane, and a card overturning part 2, a card conveying roller part 8, a printing part 4, a CIS contact type image scanning module 7 and a character-concave printing part 5 are sequentially arranged between the first inlet and outlet 1 and the second inlet and outlet 6;

the third inlet and outlet 9 is arranged in the vertical direction of the first inlet and outlet 1 and the second inlet and outlet 6, and the third inlet and outlet 9 is provided with a card inlet and outlet guide part 10;

the card overturning part 2 can be respectively in butt joint with the first inlet and outlet 1, the card inlet and outlet guiding part 10 and the card conveying roller part 8 in an overturning manner;

the first inlet and outlet 1, the second inlet and outlet 6 and the third inlet and outlet 9 can respectively input a card (A) to be printed, output a card which is printed and a card which fails to be printed;

the card with the single-sided printing performed in the printing section 4 can be transferred to the printing section 4 by turning over the card, thereby realizing a double-sided transfer operation.

The printing part 4 is arranged in the card conveying roller part 8, and the card conveying roller part 8 can send the card which is conveyed in the second inlet and outlet 6 and the card overturning part 2 into the printing part 4 and can also send the card in the printing part 4 outwards;

the ribbon conveying part 3 is positioned at the upper end of the printing part 4, provides the printing part 4 with the ribbon, and orderly prints the dye on the ribbon on the surface of the card through the printing part 4 to form an image;

in the specific implementation, the card can be fed from any one of the first inlet and outlet 1, the second inlet and outlet 6 and the third inlet and outlet 9; the card fed from the first inlet and outlet 1 directly enters the printing part 4 through the card overturning part 2 and the card fed from the second inlet and outlet 6 directly enters the printing part 4 through the card conveying roller part 8;

by abutting the card inverting section 2 against the third inlet/outlet 9 (card in/out guide section 10), the card input from the third inlet/outlet 9 can be fed into the printing section 4 (transported by the card transport roller section 8) by way of inverting and abutting for printing.

In the working process, the card sent from the printing part 4 to the intaglio printing part 5 for intaglio printing passes through the CIS contact type image scanning module 7 in advance, and the CIS contact type image scanning module 7 scans the graph on the card to ensure that the intaglio printing part 5 realizes intaglio printing at the correct position;

similarly, the card fed from the character-relief printing unit 5 to the printing unit 4 passes through the CIS contact image scanning module 7 in advance, so that the printing unit 4 can perform accurate printing.

Further, the CIS contact image scanning module 7 is disposed between the relief printing portion 5 and the printing portion 4, and includes: an upper contact type image scanner 71 and a lower contact type image scanner 73; an image plane 72 is formed between the upper contact type image code scanner 71 and the lower contact type image code scanner 73, and two ends of the image plane 72 are respectively connected with the card conveying roller part 8 and the character-relief printing part 5; when the card passes through the image plane 72, the upper and lower ends of the card are respectively contacted with the upper contact type image code scanner 71 and the lower contact type image code scanner 73, so that the upper and lower surfaces of the card are scanned by the upper contact type image code scanner 71 and the lower contact type image code scanner 73.

Further, the card overturning part 2 comprises an overturning seat 21 and an overturning power motor 24 for providing overturning driving force for the overturning seat 21;

the turnover seat 21 is provided with a through type access slot 25, and when the access slot 25 is used for clamping according to the work, the front and back faces of the card are divided into: a front bayonet and a back bayonet;

the turnover seat 21 is in transmission connection with the turnover power motor 24 through a power transmission mechanism, and the turnover seat 21 is driven to turn through the turnover power motor 24.

The turnover seat 21 is in transmission connection with the turnover power motor 24 through a power transmission mechanism, and the turnover seat 21 is driven to turn through the turnover power motor 24, so that the effect of printing the front and back surfaces of the card is realized; the digital controller is matched with the turntable positioning sensor 23 to improve the precision of the overturning work, and the overturning power motor 24 drives the overturning seat 21 to rotate at a set rotation angle, so that the overturning seat 21 is respectively in butt joint with the first inlet and outlet 1, the card conveying roller part 8 and the third inlet and outlet 9;

the double-sided printing action of the card is specifically as follows: taking the third inlet and outlet 9 as an example, after the turnover seat 21 of the card turnover part 2 is connected with a card from the third inlet and outlet 9, the turnover seat 21 is driven by the turnover power motor 24 to rotate by an angle of degrees, so that the front bayonet outlet is aligned with the card conveying roller part 8, and the card turnover part enters a state to be printed; the card is sent into the printing part 4 through the card conveying roller part 8 and is printed on the front side, then the card conveying roller part 8 returns the card back to the turnover seat 21, the turnover power motor 24 drives the turnover seat 21 to rotate by an angle, the back card outlet of the turnover seat 21 is aligned with the card conveying roller part 8, at the moment, the aspect of the card is upward, the card is sent in from the card conveying roller part 8, the printing work on the front side and the back side of the card is finished, and similarly, the printing work on the back side of the card can be realized through the same turnover action after the single-sided printing work is finished on the card sent in by the first inlet and outlet 1 and the second inlet and outlet 6.

Further, the card entry/exit guide 10 is provided at the third inlet/outlet 9, and includes, in order in the card entry direction: a card-in sensor 102, a pair of guide roller shafts 101 arranged in parallel; further includes a card-in and card-out driving motor 103 that provides driving force for the guide roller shaft 101;

a spring force is arranged between the two groups of guide roll shafts 101; the roll surfaces of the two groups of guide roll shafts 101 are tangent under proper spring pressure to form a clamping opening, when a card is fed from the third inlet and outlet 9, the card is inserted into the clamping opening through the guide roll shafts 101 to realize the guiding work of the card, and then the card inlet and outlet driving motor 103 (the card inlet and outlet driving motor 103 obtains working signals through the card inlet and outlet sensor 102) drives the guide roll shafts 101 to move, so that the third inlet and outlet 9 can realize the functions of power card suction, power card discharge, card holding, card taking waiting and the like of the card.

Further, the character-relief printing section 5 includes: a placement area 58 for receiving a card, which is connected to the second access opening 6; two sets of card roller shaft groups 53 are arranged at two ends of the placement area 58; the two card-feeding roller shaft groups 53 comprise a pair of card-feeding roller shafts, a card-feeding gap 533 is formed between the card-feeding roller shafts, and the card-feeding gap 533 is respectively communicated with the second inlet and outlet 6 and the card conveying roller part 8;

one of the card feeding roll shafts is a power roll shaft 532, and the other card feeding roll shaft is a driven roll shaft 531; and wherein the power roller 532 in the card roller group 53 and the card conveying roller 8 adopt the same power motor to realize driving work, thereby being capable of realizing synchronous conveying work of the roller conveying structure in the CIS contact scanning process of the card.

A character die 52, a character die hammer 59 for driving the character die 52 to punch upwards and work, and a character hammering driving cam 51 are arranged between the two groups of card roller shaft groups 53; and the lower end of the hammer of the character die 52 is propped against the character hammering driving cam 51; the concave character die 52 is driven by the concave character hammering driving cam 51 to drive the concave character die 52 to move upwards by the hammer, so as to perform hammering action;

the upper end of the character die 52 is provided with a character die anvil 56 and a character printing carbon belt module 55; a printing plane is formed between the intaglio anvil 56 and the intaglio anvil 52, the intaglio printing carbon ribbon is sent out from the intaglio printing carbon ribbon module 55 through the upper end of the printing plane and then is recovered into the intaglio printing carbon ribbon module 55, and the intaglio anvil 56 is hammered by the intaglio anvil 52 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 57; the card entering and exiting work induction acting between the second inlet and outlet 6 and the character-relief printing part 5 is used for driving the card entering and exiting roller shaft group 53 to work;

an intaglio printing alignment sensor 54 is further arranged between the two card-in and card-out roller shaft groups 53, so that alignment of the to-be-printed area of the card and the intaglio printing die 52 is ensured.

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 (3)

1. Novel card machine with multiple card functions, which is characterized by comprising: comprising the following steps: a printer body, a first inlet and outlet, a card overturning part, a card conveying roller part, a color band conveying part, a printing part, a CIS contact image scanning module, a character-concave printing part, a second inlet and outlet and a third inlet and outlet which are arranged on the printer body;

the first inlet and the second inlet are positioned on the same transmission plane, and a card overturning part, a card conveying roller part, a printing part, a CIS contact type image scanning module and a character-concave printing part are sequentially arranged between the first inlet and the second inlet;

the third inlet and outlet is arranged in the vertical direction of the first inlet and outlet and the second inlet and outlet, and the third inlet and outlet is provided with a card inlet and outlet guide part;

the card overturning part can be respectively in butt joint with the first inlet and outlet, the card inlet and outlet guiding part and the card conveying roller part in an overturning manner;

the printing part is arranged in the card conveying roller part, and the card conveying roller part can send the card from the card overturning part or the character printing part to the printing part to realize printing work;

the ribbon transfer section is located at an upper end position of the printing section, and supplies the ribbon to the printing section.

2. The novel card reader with multiple card functions of claim 1, wherein the CIS contact image scanning module is disposed at a position between the intaglio printing portion and the printing portion, and comprises: an upper contact type image code scanner and a lower contact type image code scanner; the position between the upper contact type image code scanner and the lower contact type image code scanner forms an image plane, and two ends of the image plane are respectively connected with the card conveying roller part and the character-relief printing part.

3. The novel card reader with multiple card functions of 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 two card feeding roller shaft groups comprise a pair of card feeding roller shafts, a card feeding gap is formed between the card feeding roller shafts, and the card feeding gap is communicated with the second inlet and outlet and the card conveying roller part respectively;

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 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;

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.