CN110126463B - Double-sided code spraying method and device of single DOD type code spraying machine - Google Patents

Abstract

The invention provides a double-sided code spraying method and a double-sided code spraying device of a single DOD type code spraying machine, wherein the method comprises the following steps: s1: conveying the IC cards to be code-sprayed on two sides into a code spraying area of a DOD type code spraying machine in sequence for single-side code spraying; s2: the IC cards after single-side code spraying are turned over in sequence by the turnover mechanism; s3: conveying the turned IC cards into a code spraying area of the same DOD type code spraying machine in sequence to spray codes on the other side; s4: and the IC cards which finish the code spraying on the two sides sequentially enter the next process. The device may perform the above method. According to the double-sided code spraying method and device of the single-set DOD type code spraying machine, double-sided code spraying can be achieved through the single-set DOD type code spraying machine, the use of the code spraying machine is reduced, and the equipment space and the cost are saved; in addition, along with the reduction of DOD formula ink jet numbering machine, the fault rate also can reduce thereupon, and the maintenance cost also can reduce simultaneously, and the stability of equipment improves.

Description

Double-sided code spraying method and device of single DOD type code spraying machine

Technical Field

The invention belongs to the technical field of IC card manufacturing, and particularly relates to a double-sided code spraying method and device of a single-set DOD type code spraying machine.

Background

The IC card has large current traffic and high demand. At present, the technological process of code spraying on the double surfaces of the IC card is generally to code the front surface of the card by a code spraying device I and code spraying on the back surface of the card by a code spraying device II after overturning.

However, the cost is greatly increased by simultaneously using multiple sets of code spraying machines, in addition, for a DOD (single set of on-demand ink supply type code spraying) type code spraying machine, the multiple sets of code spraying machines are simultaneously used, so that the DOD type code spraying machine cannot be fully used, the spray head is blocked, the times, time and cost for cleaning the spray head are increased, and in addition, the equipment length is increased by continuously using the multiple sets of DOD type code spraying machines.

Disclosure of Invention

Aiming at the problems, the invention aims to provide a double-sided code spraying method and a double-sided code spraying device of a single-set DOD type code spraying machine, so as to solve the problems of double-sided code spraying by adopting a plurality of sets of code spraying machines.

In view of this, the invention provides a double-sided code spraying method for a single set of DOD code spraying machine, which comprises the following steps:

s1: conveying the IC cards to be code-sprayed on two sides into a code spraying area of a DOD type code spraying machine in sequence for single-side code spraying;

s2: the IC cards after single-side code spraying are turned over in sequence by the turnover mechanism;

s3: conveying the turned IC cards into a code spraying area of the same DOD type code spraying machine in sequence to spray codes on the other side;

s4: and the IC cards which finish the code spraying on the two sides sequentially enter the next process.

Preferably, the card bearing channel of the IC card comprises a first card channel, a second card channel, a third card channel and a fourth card channel, wherein the DOD type code spraying machine is positioned above the first card channel, the IC card after single-sided code spraying by the DOD type code spraying machine sequentially passes through the second card channel, the third card channel and the fourth card channel and then returns to the first card channel for code spraying on the other side, and the IC card after double-sided code spraying by the DOD type code spraying machine enters the next procedure along the first card channel.

Further preferably, the second card channel and the fourth card channel are at different heights from the first card channel and the third card channel, the IC card enters the other card channel from one card channel and is realized through a card lifting structure, and the card lifting structure is arranged at the intersection position of the card channels and is used for ejecting or pressing the IC card on the one card channel into the other card channel.

Preferably, the first card channel, the second card channel, the third card channel and the fourth card channel are formed by two beams which are arranged in parallel, clamping grooves matched with the IC card are formed in the opposite sides of the two beams, and the IC card is pushed to operate by a conveying mechanism in the clamping grooves.

Further preferably, in S3, the flipped IC card and the IC card whose both sides have not been printed with a code enter the code printing area of the DOD code printer at an interval for code printing.

The invention also provides a double-sided code spraying device of the single set of DOD type code spraying machine, which comprises the following components: the IC card code spraying device comprises a bearing card channel, a conveying mechanism, a DOD type code spraying machine and a turnover mechanism, wherein an IC card is arranged in the bearing card channel and enters the DOD type code spraying machine twice from the same direction under the pushing of the conveying mechanism to spray codes, and the turnover mechanism is used for overturning the IC card of which the code spraying on a single surface is finished.

Preferably, the bearing card channel comprises a first card channel, a second card channel, a third card channel and a fourth card channel which are connected in sequence and can realize the closed-loop operation of the IC cards, wherein the DOD type code spraying machine is positioned above the first card channel and used for spraying codes to the IC cards passing through a code spraying area, the turnover mechanism is arranged on the third card channel and used for overturning the IC cards running on the third card channel, the IC cards after the single-face code spraying of the IC cards is completed by the DOD type code spraying machine sequentially pass through the second card channel, the third card channel and the fourth card channel and then return to the first card channel to perform the code spraying of the other face, and the IC cards after the double-face code spraying of the IC cards are completed by the DOD type code spraying machine enter the next process along the first card channel.

Preferably, the second card channel and the fourth card channel are at different heights from the first card channel and the third card channel, the IC card enters another card channel from one card channel and is realized by a card lifting structure, the card lifting structure is arranged at the intersection position of the card channels and is used for pushing or pressing the IC card on one card channel into another card channel, wherein the card lifting structure comprises a card pushing mechanism and a card pressing mechanism, the card pushing mechanism comprises a card pushing power source, a card pushing block and a first bracket, the card pushing power source is fixed on the first bracket, the card pushing block is fixed at the free end of the card pushing power source, the card pushing block is driven to lift by the expansion and contraction of the card pushing power source, the card pushing block pushes the IC card in the card bearing channel when rising, the card pressing mechanism is reset when descending, the card pressing mechanism comprises a card pressing power source, a card pressing block and a second bracket, the card pressing power source is fixed on the second bracket, the card pressing block is fixed at the free end of the card pressing power source, the card pressing block is driven to lift through the stretching of the card pressing power source, when the card pressing block descends, the IC card in the card bearing channel is pressed, and when the card pressing block ascends, resetting is achieved.

It is further preferred that first card way, second card way, third card way and fourth card way are said and are constituteed by two parallel arrangement's crossbeam, and the opposite side of two crossbeams is provided with the draw-in groove with IC-card complex, the IC-card is in promote the operation by transport mechanism in the draw-in groove, transport mechanism includes transport mechanism power supply, band pulley, conveyer belt, third support and shifting block, and wherein, transport mechanism power supply is installed on the third support, and the output is connected with the band pulley for drive the band pulley and rotate, the conveyer belt around locate on the band pulley and with the band pulley interlock, the rotation of conveyer belt can be realized through the rotation of band pulley, the shifting block interval is fixed to be set up on the conveyer belt, can promote the IC-card through the motion of shifting block and move along the card way, accomplish the transmission of IC-.

It is further preferred that tilting mechanism sets up on the third card is said for the IC card to the third card is said and is gone up the operation and overturn, tilting mechanism includes rotary power source, clamping and fourth support, and wherein, rotary power source fixes on the fourth support, and the clamping is connected with rotary power source, and is located the third card and says, is used for cliping the IC card that gets into its inside, and the clamping can drive IC card turn-over under rotary power source's drive.

The invention has the advantages that:

1. according to the invention, double-sided code spraying can be realized through the single set of DOD type code spraying machine, the original process is reduced to 1 DOD by double sets of DOD code spraying, and the equipment space and the cost are saved;

2. along with the reduction of the DOD type code spraying machine, the failure rate can be reduced, the maintenance cost can be reduced, and the stability of the equipment is improved.

Drawings

FIG. 1 is a flow chart of a double-sided code spraying method of a single set of DOD type code spraying machine provided by the invention;

FIG. 2 is a logic diagram of a double-sided code spraying method of a single DOD type code spraying machine according to the present invention;

FIG. 3 is an overall structure diagram of a double-sided inkjet printing device of a single set of DOD type inkjet printer provided by the invention;

fig. 4 is a schematic structural diagram of a card ejection mechanism in a double-sided code spraying device of a single set of DOD code spraying machine provided by the invention;

fig. 5 is a schematic structural diagram of a card pressing mechanism in a double-sided code spraying device of a single set of DOD code spraying machine provided by the invention;

FIG. 6 is a top view of a conveying mechanism in a double-sided inkjet printing apparatus of a single set of DOD inkjet printing machine provided by the present invention;

FIG. 7 is a perspective view of a conveying mechanism in a double-sided inkjet printing apparatus of a single DOD type inkjet printer according to the present invention;

fig. 8 is a schematic structural diagram of a turnover mechanism in a double-sided inkjet printing device of a single set of DOD inkjet printing machine provided by the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the invention provides a double-sided code spraying method for a single set of DOD code spraying machine, which comprises the following steps:

s1: conveying the IC cards to be code-sprayed on two sides into a code spraying area of a DOD type code spraying machine in sequence for single-side code spraying;

s2: the IC cards after single-side code spraying are turned over in sequence by the turnover mechanism;

s3: conveying the turned IC cards into a code spraying area of the same DOD type code spraying machine in sequence to spray codes on the other side;

s4: and the IC cards which finish the code spraying on the two sides sequentially enter the next process.

With reference to the logic schematic diagram of the method shown in fig. 2, the double-sided code spraying method of the single-set DOD type code spraying machine can realize double-sided code spraying of the IC card through the single-set DOD type code spraying machine, and the double-set DOD code spraying of the original process is reduced into 1 DOD, so that the equipment space and the cost are saved; in addition, with the reduction of the DOD type ink jet printer, the failure rate can be reduced, the maintenance cost can be reduced, and the stability of the equipment is improved.

The double-sided inkjet printing process is described below with reference to fig. 2: the IC cards are transported in the arrow direction, the cards sequentially pass through the point A and enter the code spraying area Q to finish single-side code spraying, then pass through the point B, C, D in sequence and return to the point A to enter the code spraying area again to perform other-side code spraying, and the cards after double-side code spraying are transported from the point P to other stations through the point B to enter the next procedure. The IC card is circularly transported by B, C, D, so that the front and back sides of the same card can be sprayed by a single set of DOD type code spraying machine after the card enters a code spraying area twice.

As an improvement of the technical scheme, as shown in fig. 2, the card carrying lane of the IC card includes a first card lane OP, a second card lane BC, a third card lane CD and a fourth card lane DA, wherein the DOD-type inkjet printer is located above the first card lane OP, the IC card after the single-sided inkjet printing by the DOD-type inkjet printer sequentially passes through the second card lane BC, the third card lane CD and the fourth card lane DA and then returns to the first card lane OP for another-sided inkjet printing, and the IC card after the double-sided inkjet printing by the DOD-type inkjet printer enters the next process along the first card lane through the BP segment.

As an improvement of the technical solution, the second card path and the fourth card path are at different heights from the first card path and the third card path, and the IC card enters from one card path to the other card path by a card lifting structure, which is disposed at an intersection position of the card paths for pushing or pressing the IC card on one card path into the other card path, as shown in fig. 2, the intersection position is located at B, C, D, A, where the intersection refers to different heights in the vertical direction.

As an improvement of the technical scheme, the first card channel, the second card channel, the third card channel and the fourth card channel are formed by two beams which are arranged in parallel, the opposite sides of the two beams are provided with clamping grooves matched with the IC card, and the IC card is pushed to operate by a conveying mechanism in the clamping grooves.

In order to ensure that the IC cards which have finished the code spraying on the double sides can smoothly enter the next procedure at equal time intervals, as an improvement of the technical scheme, in S3, the IC cards which are turned over and the IC cards which have not been code-sprayed on the double sides enter the code spraying area of the DOD type code spraying machine at intervals to spray codes, then the IC cards which have finished the code spraying on the double sides directly enter the next procedure, the IC cards which have only finished the code spraying on one side continuously rotate through the turnover mechanism and then enter the code spraying area of the DOD type code spraying machine at intervals with the IC cards which have not been code-sprayed on the double sides, and the process is repeated.

The above-mentioned double-sided inkjet printing process is described below with reference to fig. 2: the IC cards are transported in the arrow direction, the 1 st to n th cards sequentially enter a code spraying area Q through a point A to finish single-side code spraying, then sequentially pass through B, C, D points and then return to the point A, when the cards enter the point A, the cards and the n +1, n +2 and n +3 … cards alternately enter the code spraying area, at the moment, the 1 st to n th cards finish double-side code spraying and are transported to other stations from the point P through a point B to enter the next procedure, the n +1, n +2 and n +3 … cards finish single-side code spraying and return to the point A through a point B, C, D, and the cards and the following n cards alternately enter the code spraying area. The cards enter the same code spraying area twice, so that the front and back sides of the same card can be sprayed by a single set of DOD type code spraying machine.

As shown in fig. 3, the present invention further provides a double-sided inkjet printing apparatus for a single set of DOD inkjet printers, comprising: bear card way, transport mechanism 2, DOD formula ink jet numbering machine 3 and tilting mechanism 4, wherein, the IC-card sets up and is carried card in saying and gets into DOD formula ink jet numbering machine 3 by same direction twice under transport mechanism's 2 promotion and spout the sign indicating number, tilting mechanism 4 is used for the upset to have accomplished the single face and spout the IC-card of sign indicating number.

According to the double-sided code spraying device of the single-set DOD type code spraying machine, the code spraying on the double sides of the IC card can be realized through the single-set DOD type code spraying machine, the number of the double-set DOD code spraying in the original process is reduced to 1 DOD, and the equipment space and the cost are saved; in addition, with the reduction of the DOD type ink jet printer, the failure rate can be reduced, the maintenance cost can be reduced, and the stability of the equipment is improved.

As an improvement of the technical scheme, as shown in fig. 2 and 3, the carrier lane includes a first lane 11(OP), a second lane 12(BC), a third lane 13(CD) and a fourth lane 14(DA) which are connected in sequence and can realize closed-loop operation of the IC cards, wherein the DOD inkjet printer 3 is located above the first lane 11 and is used for spraying codes to the IC cards passing through the code spraying area, the turnover mechanism 4 is arranged on the third lane 13 and is used for turnover of the IC cards running on the third lane 13, the IC cards passing through the DOD inkjet printer 3 and having undergone single-sided code spraying sequentially pass through the second lane 12, the third lane 13 and the fourth lane 14 and then return to the first lane 11 for code spraying on the other side, and the IC cards passing through the DOD inkjet printer 3 and having undergone double-sided code spraying enter the next process along the BP segment of the first lane 11.

As an improvement of the technical solution, as shown in fig. 2 and 3, the second card path 12 and the fourth card path 14 are not at the same height as the first card path 11 and the third card path 13, an IC card enters from one card path into another card path and is realized by a card lifting structure, the card lifting structure is arranged at an intersection position (point A, B, C, D) of the card paths and is used for pushing or pressing the IC card on one card path into another card path, wherein the card lifting structure comprises a card pushing mechanism and a card pressing mechanism, as shown in fig. 4, the card pushing mechanism comprises a card pushing power source 501, a card pushing block 502 and a first bracket 503, the card pushing power source 501 is fixed on the first bracket 503, the card pushing block 502 is fixed at a free end of the card pushing power source 501, the card pushing block 502 is driven to lift by the extension and contraction of the card pushing power source 501, and the card pushing block 502 is lifted to push the IC card in the card carrying path, the card pressing mechanism is reset when descending, as shown in fig. 5, the card pressing mechanism includes a card pressing power source 601, a card pressing block 602 and a second bracket 603, the card pressing power source 601 is fixed on the second bracket 603, the card pressing block 602 is fixed at the free end of the card pressing power source 601, the card pressing block 602 is driven to ascend and descend by the expansion and contraction of the card pressing power source 601, when the card pressing block 602 descends, the IC card in the card bearing channel is pressed, and when the card pressing block ascends, the reset is realized.

In this embodiment, the second card way and the fourth card way are low-layer card ways, the first card way and the third card way are upper-layer card ways, the card after the single-side code spraying is completed is pressed into the second card way located on the low layer by the card pressing mechanism at the point B, then the card is transported to the point C through the transport mechanism, the card is pushed into the third card way located on the upper layer through the card pushing mechanism, then the card is transported to the point D through the transport mechanism, the card is pressed into the fourth card way located on the bottom layer through the card pressing mechanism, then the card is transported to the point a through the transport mechanism, the card is pushed into the first card way located on the upper layer through the card pushing mechanism, and the code spraying area is sent to the other-side code spraying area through the transport mechanism again.

As an improvement of the technical scheme, the first card channel 11, the second card channel 12, the third card channel 13 and the fourth card channel 14 are all composed of two parallel beams, the opposite sides of the two beams are provided with card slots matched with the IC card, the IC card is pushed to operate by a transmission mechanism in the card slots, as shown in fig. 6 and 7, the transmission mechanism comprises a transmission mechanism power source 201, a belt wheel 202, a transmission belt 203, a third bracket 204 and a shifting block 205, wherein, the power source 201 of the transmission mechanism is arranged on the third bracket 204, and the output end is connected with the belt wheel 202, used for driving the belt wheel 202 to rotate, the transmission belt 203 is wound on the belt wheel 202 and meshed with the belt wheel 202, the rotation of the transmission belt 203 can be realized through the rotation of the belt wheel 202, the shifting blocks 205 are fixedly arranged on the transmission belt 203 at intervals, the movement of the shifting block 205 can push the IC card to move along the card channel, and the transmission of the IC card is completed.

As an improvement of the technical solution, the turnover mechanism is disposed on the third card path and is used for turning over an IC card running on the third card path, as shown in fig. 8, the turnover mechanism 4 includes a rotary power source 401, a card holder 402 and a fourth bracket 403, wherein the rotary power source 401 is fixed on the fourth bracket 403, the card holder 402 is connected with the rotary power source 401 and is located in the third card path and is used for clamping the IC card entering the third card path, the card holder 402 can drive the IC card to turn over under the drive of the rotary power source 401, and in order to prevent the IC card from falling off in the process of the card holder rotation, as an improvement of the technical solution, an arc-shaped groove 404 is disposed below the card holder, and when the card holder rotates, one side end surface of the card abuts against the arc-shaped groove.

The embodiments of the present invention have been written in a progressive manner with emphasis placed on the differences between the various embodiments, and similar elements may be found in relation to each other.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (6)

1. A double-sided code spraying method of a single set of DOD type code spraying machine is characterized by comprising the following steps:

s1: conveying the IC cards to be code-sprayed on two sides into a code spraying area of a DOD type code spraying machine in sequence for single-side code spraying;

s2: the IC cards after single-side code spraying are turned over in sequence by the turnover mechanism;

s3: conveying the turned IC cards into a code spraying area of the same DOD type code spraying machine in sequence to spray codes on the other side;

s4: the IC cards which finish code spraying on the two sides sequentially enter the next procedure;

the IC card carrying channel comprises a first card channel, a second card channel, a third card channel and a fourth card channel, wherein a DOD (dot-on-demand) type code spraying machine is positioned above the first card channel, the IC card after single-sided code spraying by the DOD type code spraying machine sequentially passes through the second card channel, the third card channel and the fourth card channel and then returns to the first card channel for code spraying on the other side, and the IC card after double-sided code spraying by the DOD type code spraying machine enters the next process along the first card channel;

the second card channel and the fourth card channel are arranged at different heights from the first card channel and the third card channel, the IC card enters the other card channel from one card channel and is realized through a card lifting structure, and the card lifting structure is arranged at the intersection position of the card channels and is used for ejecting or pressing the IC card on the one card channel into the other card channel.

2. The double-sided inkjet printing method of the single-set DOD inkjet printer according to claim 1, characterized in that: the first card channel, the second card channel, the third card channel and the fourth card channel are formed by two beams which are arranged in parallel, clamping grooves matched with the IC card are formed in the opposite sides of the two beams, and the IC card is pushed to operate by a conveying mechanism in the clamping grooves.

3. The double-sided inkjet printing method of the single-set DOD inkjet printer according to claim 1, characterized in that: and S3, the turned IC card and the IC card with two sides not sprayed with the codes enter a code spraying area of the DOD code spraying machine at intervals for code spraying.

4. Single set DOD formula ink jet numbering machine's two-sided yard device that spouts, its characterized in that includes: the IC card code spraying machine comprises a bearing card channel, a conveying mechanism, a DOD type code spraying machine and a turnover mechanism, wherein an IC card is arranged in the bearing card channel and enters the DOD type code spraying machine twice from the same direction under the pushing of the conveying mechanism for code spraying, the turnover mechanism is used for overturning an IC card subjected to single-sided code spraying, the bearing card channel comprises a first card channel, a second card channel, a third card channel and a fourth card channel which are sequentially connected and can realize the closed-loop operation of the IC card, wherein the DOD type code spraying machine is positioned above the first card channel and is used for spraying codes to the IC card passing through a code spraying area, the turnover mechanism is arranged on the third card channel and is used for overturning the IC card running on the third card channel, the IC card subjected to single-sided code spraying by the DOD type code spraying machine sequentially passes through the second card channel, the third card channel and the fourth card channel and then returns to the first card channel for code spraying on the other side, and the IC card subjected to double-sided code spraying by the DOD type code spraying machine enters the next process along the first card channel, wherein, the second card channel and the fourth card channel are at different heights with the first card channel and the third card channel, the IC card enters into another card channel from one card channel and is realized by a card lifting structure, the card lifting structure is arranged at the intersection position of the card channels and is used for pushing or pressing the IC card on one card channel into another card channel, wherein, the card lifting structure comprises a card pushing mechanism and a card pressing mechanism, the card pushing mechanism comprises a card pushing power source, a card pushing block and a first bracket, the card pushing power source is fixed on the first bracket, the card pushing block is fixed at the free end of the card pushing power source, the card pushing block is driven to lift by the expansion and contraction of the card pushing power source, the card pushing block pushes the IC card in the card channel when rising, the card pressing mechanism comprises a card pressing power source, a card pressing block and a second bracket, the card pressing power source is fixed on the second bracket, the card pressing block is fixed at the free end of the card pressing power source, the card pressing block is driven to lift through the stretching of the card pressing power source, when the card pressing block descends, the IC card in the card bearing channel is pressed, and when the card pressing block ascends, resetting is achieved.

5. A double-sided code spraying device of a single set of DOD code spraying machine according to claim 4, characterized in that: first card way, second card way, third card way and fourth card way are said and are formed by two parallel arrangement's crossbeam, and the opposite side of two crossbeams is provided with the draw-in groove with IC-card complex, the IC-card is in promote the operation by transport mechanism in the draw-in groove, transport mechanism includes transport mechanism power supply, band pulley, conveyer belt, third support and shifting block, and wherein, transport mechanism power supply is installed on the third support, and the output is connected with the band pulley for drive the band pulley and rotate, the conveyer belt around locate on the band pulley and with the band pulley interlock, the rotation of conveyer belt can be realized through the rotation of band pulley, the shifting block interval is fixed to be set up on the conveyer belt, can promote the IC-card through the motion of shifting block and move along the card way, accomplish the transmission of IC-card.

6. A double-sided code spraying device of a single set of DOD code spraying machine according to claim 4, characterized in that: the turnover mechanism is arranged on the third card channel and used for turning over the IC card running on the third card channel, the turnover mechanism comprises a rotary power source, a clamping and a fourth support, wherein the rotary power source is fixed on the fourth support, the clamping is connected with the rotary power source and located in the third card channel and used for clamping the IC card entering the third card channel, and the clamping can drive the IC card to turn over under the drive of the rotary power source.

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