CN116834436A - Card making equipment - Google Patents

Abstract

The invention discloses a card making device, which comprises: the printing mechanism is used for printing the surface information of the card and pushing the printed card out of the card feeding opening; the card printing device comprises a card feeding port, a card stamping mechanism and a card stamping mechanism, wherein one end of the card stamping mechanism is provided with the card feeding port which is communicated with the card feeding port, and the card stamping mechanism is used for printing and stamping a raised character on a printed card input by the card feeding port; and the card transferring mechanism is arranged in the embossing mechanism and comprises a turnover part and a transferring part, the turnover part is used for controlling the transferring part to turn over, the transferring part is used for receiving the card input by the card inlet and transferring the card to the embossing structure of the embossing mechanism for embossing and dyeing, or the transferring part is used for receiving the card processed by the embossing structure and transferring the card to the printing mechanism from the card inlet. The technical scheme of the invention solves the problem of unreasonable structural layout of the existing card manufacturing equipment.

Description

Card making equipment

Technical Field

The invention relates to the technical field of card making, in particular to card making equipment.

Background

With the increasing use of various financial cards such as bank cards, credit cards, social security cards, etc. in the economic lives of people, the manufacturing and issuing services of the cards such as bank cards, credit cards, social security cards, etc. to be handled in banks are also increased, and the card making machine equipment is mainly used for realizing the manufacturing and issuing of the cards, and is equipment integrating the functions of card printing, intaglio printing, embossing, etc.

The existing card making machine equipment conveys cards among all mechanisms in a mode that a card carrying mechanism is additionally arranged on the outer side, the card carrying mechanism receives the processed cards pushed out by one mechanism and moves, the cards are pushed into the other mechanism to finish corresponding card processing operation, and the card carrying mechanism is additionally arranged on the outer side, so that the whole card making equipment is large in size and relatively bulky due to unreasonable structural layout.

Disclosure of Invention

The invention mainly aims to provide card making equipment and aims to solve the problem that the prior card making equipment is unreasonable in structural layout.

To achieve the above object, the present invention provides a card manufacturing apparatus including: the printing mechanism is used for printing the surface information of the card and pushing the printed card out of the card feeding opening; the card printing device comprises a card feeding port, a card stamping mechanism and a card stamping mechanism, wherein one end of the card stamping mechanism is provided with the card feeding port, the card feeding port is communicated with the card feeding port, and the card stamping mechanism is used for performing letter printing and color stamping on a printed card input by the card feeding port; the card transferring mechanism is arranged in the convex ironing mechanism, the card transferring mechanism comprises a turnover piece and a transferring piece, the turnover piece is used for controlling the transferring piece to turn over, the transferring piece is used for receiving a card input by the card inlet and transferring the card to the convex ironing structure of the convex ironing mechanism for convex character printing and color ironing, or the transferring piece is used for receiving the card processed by the convex ironing structure and transferring the card processed by the convex ironing structure to the printing mechanism.

In an embodiment of the invention, the printing mechanism is stacked on top of the ironing mechanism, the card feeding port is arranged at the bottom of the printing mechanism, and the card feeding port is arranged at the top of the ironing mechanism; the overturning piece controls the transfer piece to overturn, so that the transfer piece faces the card inlet to receive the card, and the card is horizontally transferred to the convex ironing structure of the convex ironing mechanism to be subjected to convex character and color ironing.

In an embodiment of the present invention, a turner is disposed in the printing mechanism, and the turner is used for turning over the printed card, so that the card is pushed out from the card feeding port.

In one embodiment of the invention, a first waste card collecting box is arranged in the printing mechanism, and the first waste card collecting box is arranged at one side of the turner; the inside of the protruding mechanism of scalding is equipped with the second waste card and collects the box, the second waste card is collected the box and is located the card moves the bottom of mechanism.

In an embodiment of the invention, a plurality of mounting holes are formed in the top of the embossing mechanism, a plurality of mounting columns are arranged at the bottom of the printing mechanism in a protruding mode, and the mounting columns are arranged in one-to-one correspondence with the mounting holes.

In an embodiment of the invention, a rotating shaft is fixed at one end of the transferring member, a first gear is fixedly connected to the outer surface of the rotating shaft, a second gear is fixedly connected to the outer surface of the output shaft of the overturning member, and the first gear is meshed with the second gear.

In one embodiment of the present invention, the transfer member includes: the card conveying device comprises a body, wherein a card conveying channel is formed in the body, a card receiving opening and a card discharging opening which are communicated with the card conveying channel are respectively formed at two ends of the body, and the overturning piece drives the body to overturn so as to align the card conveying channel with the card feeding opening; the driving piece is fixedly connected to the body and at least partially positioned in the card conveying channel and used for driving the card to move along the length direction of the card conveying channel.

In one embodiment of the invention, the card feed channel has oppositely disposed bottom and top walls; the driving member comprises a driving wheel rotatably mounted on the body, and at least part of the driving wheel penetrates into the card conveying channel from the bottom wall of the card conveying channel to contact with the card and drive the card to move.

In an embodiment of the invention, the driving member further includes a pushing wheel rotatably mounted on the body, at least a portion of the pushing wheel penetrating into the card conveying path from a top wall of the card conveying path to contact the card.

Compared with the prior art, the card making equipment provided by the invention has the following beneficial effects:

according to the technical scheme, the overturning piece is arranged to drive the transfer piece to overturn, so that the card transfer mechanism is arranged in the convex ironing mechanism, the transfer piece receives a card from the card inlet and is driven to overturn by the overturning piece, the transfer piece horizontally transfers the card to processing equipment in the convex ironing mechanism for processing, or the transfer piece can reversely transfer the card processed by the convex ironing mechanism to the printing mechanism for processing through the card inlet.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of a card manufacturing apparatus according to the present invention;

FIG. 2 is one of the explosion diagrams of an embodiment of the card manufacturing apparatus of the present invention;

FIG. 3 is a second schematic explosion diagram of an embodiment of the card manufacturing apparatus of the present invention;

FIG. 4 is a schematic diagram of an embodiment of the card transferring mechanism of the present invention mounted on a ironing mechanism;

FIG. 5 is a cross-sectional view of one embodiment of the card manufacturing apparatus of the present invention;

FIG. 6 is a schematic diagram of a card transferring mechanism according to an embodiment of the present invention;

FIG. 7 is a second schematic diagram of a card transferring mechanism according to an embodiment of the present invention;

FIG. 8 is a front view of an embodiment of a card transfer mechanism of the present invention.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is 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 at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

Referring to fig. 1-8, the present invention proposes a card manufacturing apparatus 100, the card manufacturing apparatus 100 includes: the printing mechanism 1 is used for printing the surface information of the card, and pushing the printed card out of the card feeding opening 11; the card feeding device comprises a card feeding port 11, a card stamping mechanism 2 and a card stamping mechanism 2, wherein one end of the card stamping mechanism 2 is provided with a card feeding port 21, the card feeding port 21 is communicated with the card feeding port 11, and the card stamping mechanism 2 is used for performing letter printing and color stamping on a printed card input by the card feeding port 21; and the card transferring mechanism 3 is arranged in the ironing mechanism 2, the card transferring mechanism 3 comprises a turnover piece 31 and a transferring piece 32, the turnover piece 31 is used for controlling the transferring piece 32 to turn over, the transferring piece 32 is used for receiving the card input by the card inlet 21 and transferring the card to the ironing structure of the ironing mechanism 2 for performing the embossing printing and the ironing, or the transferring piece 32 is used for receiving the card processed by the ironing structure and transferring the card to the printing mechanism 1 from the card inlet 21.

Specifically, the card manufacturing device 100 includes a printing mechanism 1, a ironing mechanism 2 and a card transferring mechanism 3, where the printing mechanism 1 is used for printing surface information on a card, the ironing mechanism 2 is used for performing lettering printing and ironing color processing on the card, and the card transferring mechanism 3 is disposed inside the ironing mechanism 2 and used for receiving the card pushed out by the printing mechanism 1 and transferring the card to an ironing structure inside the ironing mechanism 2 to perform lettering printing and ironing color, or used for receiving the card processed by the ironing structure of the ironing mechanism 2 and transferring the card from a card inlet to the printing mechanism to perform printing.

The embossing structure (not shown) is embossing equipment, color ironing equipment, transportation equipment and the like arranged in the embossing mechanism 2, the transportation equipment is used for receiving the printed card sent out from the card transferring mechanism 3, transporting the card to the embossing equipment for embossing, and then sending the card to the color ironing equipment for color ironing treatment, so that all printing of the card is completed.

The card transfer mechanism 3 is arranged in the embossing mechanism 2 and at one end far away from embossing equipment and color ironing equipment, the card transfer mechanism 3 comprises a turnover piece 31 and a transfer piece 32, the output end of the turnover piece 31 is connected with the transfer piece 32, and the turnover piece 31 can drive the transfer piece 32 to turn.

It is noted that the existing card manufacturing machine equipment can only support the unidirectional transfer of the card from the printing mechanism to another mechanism (such as a convex ironing mechanism) to move, the card cannot move reversely, and the scene requirement of the card moving in any direction across the mechanism cannot be met. The transfer member 32 provided by the invention can firstly turn over the card inlet 21 aligned with the ironing mechanism 2 under the drive of the turning member 31, receive the card pushed out from the card feed port 11, turn over again to restore the original position, transport the card, and transfer the card to the ironing structure for processing; alternatively, the transfer member 32 may be driven by the turning member 31 to transfer the card processed by the ironing mechanism 2 from the inside of the ironing mechanism 2 to the inside of the printing mechanism 1 via the card inlet 21 for processing, thereby realizing bidirectional transfer of the card.

It should be understood that according to the technical scheme of the invention, the overturning piece 31 is arranged to drive the transferring piece 32 to overturn, so that the bayonet 11 can be arranged at one end of the printing mechanism 1, the bayonet 21 can be arranged at one end of the ironing mechanism 2, the card transferring mechanism 3 is arranged in the ironing mechanism 2 only by communicating the bayonet 11 with the bayonet 21, the transferring piece 32 receives a card from the bayonet 21, and then the overturning piece 31 is used for driving to overturn, so that the card is transferred to the ironing structure in the ironing mechanism 2 for performing the embossing printing and the ironing; or the transfer member 32 can reversely transfer the card processed by the ironing mechanism 2 to the printing mechanism 1 for processing through the card inlet 21, and the card transfer mechanism 3 is arranged in the ironing mechanism 2, so that the card can be bidirectionally transferred between the printing mechanism 1 and the ironing mechanism 2, and the application scene of the card transfer mechanism is widened; the card manufacturing device 100 of the invention has a simpler structure and reduces the volume of the card manufacturing device 100.

Through the arrangement, the card carrying mechanism is not required to be additionally arranged on the outer side, the whole machine volume is reduced, the card carrying mechanism is built-in, the whole machine volume and weight are reduced, the equipment is miniaturized, the carrying and the transferring are convenient, and meanwhile, the cost is also reduced; meanwhile, the card can be transferred in two directions.

The card transfer mechanism 3 can bidirectionally transport cards, the cards can realize the bidirectional movement of any positions of the cards no matter which positions are positioned in the shell 1, the arrangement can be realized by driving the conveyor belt through the motor, and the arrangement can also be realized by driving the rotating wheel through the motor, so that the motor can rotate positively and negatively, and the specific structure can be selected according to actual conditions.

Through two-way transport card, the card can be followed printing mechanism 1 and shifted protruding mechanism 2 that scalds, also can be followed protruding mechanism 2 and shifted to printing mechanism 3, has solved the problem that current card carrier mechanism can only one-way transport, has realized two-way free movement, has widened the application scenario of card manufacturing equipment 100, has increased the option, makes it possess the practicality more.

As a preferred embodiment of the present invention, the printing mechanism 1 is stacked on top of the ironing mechanism 2, the feeding opening 11 is provided on the bottom of the printing mechanism 1, and the feeding opening 21 is provided on top of the ironing mechanism 2; the turning piece 31 controls the transfer piece 32 to turn over, so that the transfer piece 32 receives the card towards the card inlet 21, and horizontally transfers the card to the embossing structure of the embossing mechanism 2 for embossing and color ironing.

In detail, the position matching modes of the printing mechanism 1 and the ironing mechanism 2 include various modes, namely the printing mechanism 1 can be arranged at the top of the ironing mechanism 2, or the printing mechanism 1 can be arranged at one side of the ironing mechanism 2, and the card can be conveyed from the printing mechanism 1 to the ironing mechanism 2 by only ensuring that the card inlet 21 is communicated with the card feeding opening 11.

In this embodiment, as shown in fig. 2-5, the printing mechanism 1 is disposed at the top of the ironing mechanism 2, the card feeding opening 11 is disposed at the bottom of the printing mechanism 1, and the card feeding opening 21 is disposed at the top of the ironing mechanism 2, so that the card feeding opening 11 communicates with the card feeding opening 21 for passing and transferring the card.

In this embodiment, as shown in fig. 2-5, the card transferring direction is selected to be transferred from the printing mechanism 1 to the ironing mechanism 2, after the card is printed by the printing mechanism 1, the card is pushed out from the card feeding port 11 and enters the card inlet port 21, at this time, the turning mechanism drives the transfer member 32 to turn over to be in a vertical state so as to receive the card, then turn over again to be in a horizontal state, the card is transferred to the ironing mechanism in a horizontal state to be subjected to the embossing and the ironing treatment, the printing mechanism 1 and the ironing mechanism 2 are stacked, the installation is convenient, and the longitudinal space is utilized.

As a preferred embodiment of the present invention, a turner 12 is disposed inside the printing mechanism 1, and the turner 12 is used for turning over the printed card so as to push out the card from the card feeding port 11.

Specifically, the inside of printing mechanism 1 is provided with turner 12 to and still be equipped with printing mechanism and back concave mechanism, the card accomplishes the printing of surface pattern and chip information input through printing mechanism, reentrant back concave mechanism accomplishes the printing of back concave character, turner 12 is used for realizing the upset of card, and auxiliary printing mechanism and back concave mechanism accomplish the printing of card, and after the printing was accomplished, turner 12 overturned the card again, with the vertical state with the card from card feed 11 release.

In general, the inside of the printing mechanism 1 is provided with the turner 12, and when designing, the original turner 12 inside the printing mechanism 1 can be utilized, and the card feeding port 11 is arranged at the lower end of the turner to carry out card conveying, so that the existing equipment is fully utilized, and the cost is reduced.

Further, a first waste card collecting box (not shown) is arranged in the printing mechanism 1, and the first waste card collecting box is arranged on one side of the turner 12; the inside of the convex ironing mechanism 2 is provided with a second waste card collecting box (not shown in the figure), and the second waste card collecting box is arranged at the bottom of the card transferring mechanism 3.

It is worth noting that the inside of the printing mechanism 1 is also provided with a first waste card collecting box, the first waste card collecting box is arranged on one side of the turner 12, and when waste cards appear in the printing mechanism 1, the turner 12 can directly collect the cards in the waste card boxes, so that the use is more convenient.

The inside at protruding mechanism 2 of scalding still is provided with the second waste card and collects the box, and the second waste card is collected the box and is set up in the bottom that the card transferred mechanism 3, and when the waste card appears in protruding mechanism 2's inside, the card transferred mechanism 3 can be directly collect the box with the second waste card of placing the card in, and it is more convenient to use.

As a preferred embodiment of the present invention, a plurality of mounting holes 23 are formed in the top of the ironing mechanism 2, a plurality of mounting posts 312 are formed in the bottom of the printing mechanism 1 in a protruding manner, and the mounting posts 312 are arranged in one-to-one correspondence with the mounting holes 23.

In detail, a plurality of mounting holes 23 are formed in the top of the ironing mechanism 2, a plurality of mounting posts 312 are formed in the bottom of the printing mechanism 1, and the printing mechanism 1 can be positioned by matching the mounting posts 312 with the mounting holes 23, so that the movement of the printing mechanism 1 is restricted, and the card feeding port 11 of the printing mechanism 1 is aligned and communicated with the card inlet port 21 of the ironing mechanism 2.

In addition, can also be provided with a plurality of baffles at the top of protruding mechanism 2, a plurality of baffles enclose and close the installation space that forms printing mechanism, and two baffles enclose and close the mounted position with restriction printing mechanism 1, printing mechanism 1 and baffle laminating set up, and the shape of the inboard of baffle cooperatees with the shape of the bottom of printing mechanism 1, is convenient for install printing mechanism 1.

In another embodiment of the present invention, a plugging plate (not shown) is provided at a position of the printing mechanism 1 near the bayonet 11, and the plugging plate is rotatably connected to the inner side of the bottom of the printing mechanism 1 for plugging the bayonet 11; the top of the convex ironing mechanism 2 is convexly provided with a convex block at a position close to the bayonet 21, a channel communicated with the bayonet 21 is arranged in the convex block, and the convex block is used for propping up the unsealing closure plate. It should be noted that, a plugging plate is arranged at the bottom of the printing mechanism 1, and when the printing mechanism 1 needs to be used alone, the plugging plate can automatically plug the bayonet 11, so that the use is more convenient. When the printing mechanism 1 needs to be matched with the convex ironing mechanism 2 for use, the printing mechanism 1 only needs to be matched with the top of the convex ironing mechanism 2 through a baffle plate or a mounting column 312, and the convex blocks of the convex ironing mechanism 2 can directly prop up the unsealing blocking plate, so that the bayonet 21 is communicated with the card feeding port 11.

Further, a rotating shaft 321 is fixed at one end of the transferring member 32, a first gear 322 is fixedly connected to an outer surface of the rotating shaft 321, a second gear 311 is fixedly connected to an outer surface of the output shaft of the turning member 31, and the first gear 322 is meshed with the second gear 311.

In detail, the end of the transferring member 32 is further fixedly provided with a rotating shaft 321, the length direction of the transferring member 32 is the card feeding direction, the rotating shaft 321 is arranged along the width direction of the transferring member 32, the driving end of the turning member 31 is connected with the rotating shaft 321 in various manners, in this embodiment, gear transmission is adopted, a first gear 322 is fixed on the outer surface of the rotating shaft 321, a second gear 311 is fixed on the outer surface of the output shaft of the turning member 31, the gear transmission efficiency is high, the transmission precision is high, the transmission is stable, the transmission capability is strong, and the transferring member 32 can be driven to turn through the engagement of the first gear 322 and the second gear 311.

As a preferred embodiment of the present invention, the transfer element 32 includes: a body 323, wherein a card conveying channel 3231 is formed in the body 323, two ends of the body 323 are respectively provided with a bayonet 3232 and a bayonet 3233 which are communicated with the card conveying channel 3231, and the overturning piece 31 drives the body 323 to overturn so as to align the card conveying channel 3231 with the bayonet 21; the driving member 324 is fixedly connected to the body 323, and is at least partially disposed in the card conveying channel 3231, and is used for driving the card to move along the length direction of the card conveying channel 3231.

In detail, the transferring member 32 is used for transporting and delivering the card, the transferring member 32 includes a body 323 and a driving member 324, the body 323 is used for carrying the card, a card conveying channel 3231 is provided in the body 323, and the driving member 324 is used for driving the card to move in the card conveying channel 3231. The rotating shaft 321 is fixed at one end of the body 323, the turnover piece 31 drives the body 323 to turn over so as to align the card conveying channel 3231 with the card inlet 21, and a card inlet 3232 and a card outlet 3233 are arranged at two ends of the body 323 along the length direction, and the card inlet 3232 and the card outlet 3233 are connected with the card conveying channel 3231.

The card can move along the length direction of the card conveying channel 321, and can move forward or backward, namely, the card can move towards two directions, and the card can enter from the card receiving opening 3232 and be pushed out from the card discharging opening 3233, or the card discharging opening 3233 enters and is pushed out from the card receiving opening 3232.

It should be noted that, in the present embodiment, the inverter 12 pushes the card out of the card feeding opening 11, the transferring member 32 receives the card from the card inlet opening 21, and the distance between the card outlet end of the inverter 12 and the card receiving end of the transferring member 32 is not greater than the length of the card, so as to ensure that the card can be accurately received.

In one embodiment, the card fed from the card inlet 21 is received by the card inlet 3232 and is transported to the ironing mechanism 2 via the card outlet 3233 for processing. In another embodiment, the card processed by the embossing structure can be transferred to the card outlet 3233, reversely transferred to the card inlet 3232 through the card conveying channel 3231, and finally transferred to the printing mechanism 1 for processing until entering the card inlet 21.

The driving member 324 is fixed on the body 323, a part of structure of the driving member 324 is located in the card conveying channel 3231, the driving member 324 can be a movable clamping member, and the card is clamped in a clamping manner so as to drive the card to move in two directions in the card conveying channel 3231; or a roller driven by a motor, and the card can be driven to move in two directions in the card conveying channel 3231 by the forward and reverse rotation of the motor and the combination of friction force. The driving piece 324 is arranged to drive the card to move bidirectionally, so that the card can be conveniently and rapidly transported, the card transporting efficiency is improved, the card is transported bidirectionally, and the application scene is increased.

As a preferred embodiment of the present invention, the card feed path 3231 has oppositely disposed bottom and top walls; the driving member 324 includes a driving wheel 3241, the driving wheel 3241 is rotatably mounted on the body 323, and at least a portion of the driving wheel 3241 penetrates into the card conveying path 3231 from the bottom wall of the card conveying path 3231 to contact the card and drive the card to move.

It should be understood that the card transport path 3231 has top and bottom walls disposed opposite each other in the height direction, a driving member 324 is provided on the body 323, the driving member 324 includes a driving wheel 3241, the driving wheel 3241 partially penetrates into the card transport path 3231 from the bottom wall of the card transport path 3231, and the driving wheel 3241 can contact the card and move the card under the action of friction force when the card is transported, and the card transport path is simple in structure and practical.

Specifically, referring to fig. 6-8, the driving member 324 includes a driving wheel 3241, a motor 3242, a transmission gear (not shown) and a guide roller (not shown), the motor 3242 is fixed at the bottom of the body 323, the guide roller is connected to the bottom of the body 323, the transmission gear is disposed at the output end of the motor 3242, the transmission gear is disposed at one side of the guide roller, the motor 3242 drives the transmission gear on the guide roller to rotate through a plurality of transmission gears fixed on the body 323, the driving wheel 3241 is fixedly connected to the outer surface of the guide roller, and the motor 3242 can drive the driving wheel 3241 to rotate so as to drive the card to move in the card conveying channel 3231, and the motor 351 rotates positively and negatively to drive the card to move bidirectionally in the card conveying channel 321.

Further, the driving member 324 further includes a pressing wheel (not shown) rotatably mounted on the body 323, at least a portion of the pressing wheel penetrating into the card conveying path 3231 from a top wall of the card conveying path 3231 to contact a card.

It is noted that the driving member 324 further includes a pressing wheel rotatably disposed on the body 323, the pressing wheel partially penetrates into the card conveying channel 3231 from a top wall of the card conveying channel 3231, the pressing wheel is disposed in an up-down fit with the driving wheel 3241 to form a space contacting with the card and driving the card to move, the driving wheel 3241 is driven by the motor 3242 to rotate, the card moves along a length direction of the card conveying channel 3231 under the action of the driving wheel 3241, and the pressing wheel rotates in fit with the driving wheel 3241. The card can enter from the card inlet 21 through the card inlet 3232 and be sent out from the card outlet 3233, or simultaneously change the rotation direction of the pressing wheel matched with the driving wheel 3421, and the card enters from the card outlet 3233 and is sent out from the card inlet 3232. The tight pulley of top cooperates with drive wheel 3241 and forms the space that drives the card and remove, increases the frictional force when contacting with the card, can faster more stable two-way transport card.

In addition, the transfer member 32 further includes an auxiliary driving member 325, and the auxiliary driving member 325 is similar to the driving member 324 in structure, and includes a guide roller, an auxiliary driving wheel 3241 and an auxiliary tightening wheel (not shown), wherein the driving member 324 drives the auxiliary driving member 325 to rotate through a driving belt (not shown), and two rollers are provided to support the card, so that the card can be conveyed more stably.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (9)

1. A card making apparatus, characterized in that the card making apparatus comprises:

the printing mechanism is used for printing the surface information of the card and pushing the printed card out of the card feeding opening;

the card printing device comprises a card feeding port, a card stamping mechanism and a card stamping mechanism, wherein one end of the card stamping mechanism is provided with the card feeding port, the card feeding port is communicated with the card feeding port, and the card stamping mechanism is used for performing letter printing and color stamping on a printed card input by the card feeding port; and

the card transfer mechanism is arranged in the convex ironing mechanism and comprises a turnover piece and a transfer piece, the turnover piece is used for controlling the transfer piece to turn over, the transfer piece is used for receiving a card input by the card inlet and transferring the card to the convex ironing mechanism of the convex ironing mechanism for convex character printing and color ironing, or the transfer piece is used for receiving the card processed by the convex ironing mechanism and transferring the card to the printing mechanism from the card inlet.

2. The card manufacturing device according to claim 1, wherein the printing mechanism is stacked on top of the ironing mechanism, the card feeding port is arranged on the bottom of the printing mechanism, and the card inlet port is arranged on top of the ironing mechanism;

the overturning piece controls the transfer piece to overturn, so that the transfer piece faces the card inlet to receive the card, and the card is horizontally transferred to the convex ironing structure of the convex ironing mechanism to be subjected to convex character and color ironing.

3. A card manufacturing apparatus according to claim 2, wherein a flipper is provided inside the printing mechanism, the flipper being adapted to flip the printed card so that the card is ejected from the card feed opening.

4. A card manufacturing apparatus as claimed in claim 3 wherein a first waste card collecting box is provided inside the printing mechanism, the first waste card collecting box being provided on one side of the inverter;

the inside of the protruding mechanism of scalding is equipped with the second waste card and collects the box, the second waste card is collected the box and is located the card moves the bottom of mechanism.

5. The card manufacturing device of claim 2, wherein a plurality of mounting holes are formed in the top of the embossing mechanism, a plurality of mounting columns are arranged at the bottom of the printing mechanism in a protruding mode, and the mounting columns are arranged in one-to-one correspondence with the mounting holes.

6. A card manufacturing apparatus according to any one of claims 1 to 5, wherein a rotary shaft is fixed to one end of the transfer member, a first gear is fixedly connected to an outer surface of the rotary shaft, a second gear is fixedly connected to an outer surface of the output shaft of the turnover member, and the first gear is meshed with the second gear.

7. A card manufacturing apparatus according to any one of claims 1 to 5, wherein the transfer member includes:

the card conveying device comprises a body, wherein a card conveying channel is formed in the body, a card receiving opening and a card discharging opening which are communicated with the card conveying channel are respectively formed at two ends of the body, and the overturning piece drives the body to overturn so as to align the card conveying channel with the card feeding opening;

the driving piece is fixedly connected to the body and at least partially positioned in the card conveying channel and used for driving the card to move along the length direction of the card conveying channel.

8. The card manufacturing apparatus of claim 7, wherein the card transport path has oppositely disposed bottom and top walls;

the driving member comprises a driving wheel rotatably mounted on the body, and at least part of the driving wheel penetrates into the card conveying channel from the bottom wall of the card conveying channel to contact with the card and drive the card to move.

9. The card manufacturing apparatus of claim 8, wherein the driving member further includes a take-up wheel rotatably mounted to the body, at least a portion of the take-up wheel penetrating into the card transport path from a top wall of the card transport path to contact a card.