CN209813473U - Printer for realizing continuous production of butt joint production line - Google Patents

Abstract

The utility model relates to an industry printing technology field discloses a dock production line and realize printer of serialization production, the production line has associated outer actuating system, a serial communication port, the printer is equipped with the preparation district and prints the district, including first transmission system and interior actuating system, first transmission system strides over the preparation district and prints the district, interior actuating system drive or drive first transmission system convey the printing medium from the preparation district to print the district, outer actuating system drive or drive first transmission system with the printing medium fortune to the preparation district and transport from printing the district. The two sets of driving systems are adopted to drive the conveying system to convey the printing medium before and after printing and in the printing process respectively, and on the premise of ensuring that the printing process and the previous process operate at the optimal speed respectively, the butt joint between the two processes is realized, so that the continuous production of products is realized.

Description

Printer for realizing continuous production of butt joint production line

Technical Field

The utility model relates to an industrial printing technology field, more specifically relates to a docking production line realizes printing method and printer of serialization production.

Background

The industrial printer is widely applied to printing of large-size printing media such as ceramic tiles, wood boards, glass, corrugated paper, buckle plates and the like, ink of various colors is printed on the printing media in an ink-jet mode and is further processed to obtain expected patterns, the ink permeates into the inside of the printing media through corrosion in the printing process, the patterns obtained by spray painting are not easy to fade, and the printing media have the characteristics of water resistance, ultraviolet resistance, scratch resistance and the like.

Before the printing process, the printing medium is usually obtained by processing raw materials, for example, wood is usually obtained by cutting and compounding into boards, the pre-process and the printing process which are completed before the printing are usually performed separately and are completed in different factories or workshops, even different manufacturers accept the pre-process and the printing process, and in the process of transferring the pre-process to the printing process, a large amount of manpower and material resources are needed to be consumed for transferring and butting the printing medium, which is not beneficial to the continuous production of products and the control of the product cost.

In the prior art, the printing speed of a printer is closely related to a plurality of factors such as ink jet speed, ink curing time, printing medium types and the like, and the former processes of different printing media have the optimal processing speed respectively, so that the printing process and the former processes are difficult to be connected, and the continuous production of products is difficult to realize.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses an overcome above-mentioned prior art at least not enough, provide a docking production line and realize the printing method of serialization production, realize the butt joint of printing process and preceding process through the improvement to printing process, realize serialization production, be favorable to resource integration, save the butt joint work of preceding process and printing process, reduce labour's cost.

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

a printing method for realizing continuous production of a butt joint production line is characterized in that a conveying system conveys a printing medium to a preparation area under the drive of an external drive system, then the printing medium is moved to the printing area for printing under the drive of an internal drive system, after the printing is finished, the conveying system is driven by the external drive system again and conveys the printed printing medium to the printing area, and meanwhile, the next printing medium is conveyed to the preparation area, and then the actions are repeated.

The utility model discloses a two sets of actuating system convey the printing medium with the speed drive conveying system who is fit for printing around printing respectively in-process, wherein interior actuating system conveys the printing medium with the speed drive conveying system who is fit for printing in-process printing, and outer actuating system then conveys the printing medium with the speed drive conveying system who coordinates printing and the preceding process before printing after, thereby compensate the speed difference between printing process and the preceding process, under guaranteeing to print process and preceding process separately with its optimum speed operation prerequisite, realize the butt joint between the twice process, and then realize the serialization production of product. Specifically, if the optimum printing speed is lower than the operation speed of the previous process, the external driving system drives the conveying system to convey the printing medium at a speed higher than the operation speed of the previous process; if the optimum printing speed is higher than the running speed of the previous process, the external driving system drives the conveying system to convey the printing medium at a speed lower than the running speed of the previous process. The utility model discloses in, interior actuating system mainly indicates the actuating system who plays the drive conveying effect at the printing in-process, and outer actuating system then indicates the actuating system of its drive conveying effect before printing and after printing.

The utility model discloses well conveying system can adopt a set of transport mechanism, but need constantly be associated or disassociated with interior actuating system, outer actuating system when switching actuating system, this is a test to the operating stability of equipment, for cancellation interior actuating system need be associated or disassociated with transport mechanism step when switching actuating system, conveying system includes first transport mechanism and second transport mechanism, first transport mechanism transports print media to the preparation district under the outer actuating system drive, the second transport mechanism that is located the preparation district moves print media to the printing district under the inner actuating system drive and prints, second transport mechanism withdraws to the preparation district after printing, herein first transport mechanism transports the print media who prints well from the printing district forward and transports the next print media to the preparation district simultaneously under the outer actuating system drive, the foregoing actions are then repeated. That is, the printing medium is conveyed from the preparation area to the printing area by the second conveying mechanism driven by the internal driving system, the second conveying mechanism is driven by the internal driving system to retract to the preparation area or stop driving the second conveying mechanism after the printing medium is returned to the preparation area before entering the preparation area and during the printing area, and the second conveying mechanism does not need to be disassociated from the internal driving system in the process. More specifically, the following three schemes are included:

according to the first scheme, the first conveying mechanism is driven by the external driving system to convey the printing medium to the preparation area and then disassociates the printing medium from the external driving system, the second conveying mechanism located in the preparation area is driven by the internal driving system to drive the first conveying mechanism and the printing medium on the first conveying mechanism to move to the printing area for printing, after printing is finished, the second conveying mechanism is retracted to the preparation area, meanwhile, the first conveying mechanism is again associated with the external driving system, and is driven by the external driving system to convey the printed printing medium forwards away from the printing area and convey the next printing medium to the preparation area, and then the actions are repeated. In the process that the printing medium is from the preparation area to the printing area, the second conveying mechanism indirectly drives the printing medium placed on the first conveying mechanism by driving the first conveying mechanism, the first conveying mechanism can continuously advance forwards only at a speed different from that of the first conveying mechanism driven by the external driving system, the conveying capacity of the first conveying mechanism is not sacrificed in the process, and particularly for a production line with the optimal printing speed lower than the running speed of the previous process.

According to the second scheme, the first conveying mechanism conveys the printing medium to the preparation area under the driving of the external driving system, the second conveying mechanism located in the preparation area moves to the printing area under the driving of the internal driving system after clamping the printing medium to print, the second conveying mechanism loosens the printing medium and withdraws to the preparation area after printing is finished, meanwhile, the first conveying mechanism conveys the printed printing medium forwards away from the printing area under the driving of the external driving system and conveys the next printing medium to the preparation area, and then the actions are repeated. That is, in the process of the printing medium from the preparation area to the printing area, the second conveying mechanism directly drives the printing medium, and the process of switching from the conveying of the first conveying mechanism to the conveying of the second conveying mechanism is also a process of accurately positioning the printing medium, which is very important for printing. Furthermore, the first transport mechanism may stop advancing during the transport of the print by the second transport mechanism, especially for production lines where the optimum speed of printing is less than the operating speed of the preceding process; the printing machine can also be driven to advance continuously by the external driving system, especially for the production line with the optimal printing speed higher than the running speed of the previous process.

According to the third scheme, the first conveying mechanism is driven by the external driving system to convey the printing medium to the preparation area and then disassociates the printing medium from the external driving system, the second conveying mechanism located in the preparation area clamps the printing medium together with the first conveying mechanism and then moves to the printing area under the driving of the internal driving system to print, after printing is finished, the second conveying mechanism releases the printing medium and the first conveying mechanism and retracts to the preparation area, meanwhile, the first conveying mechanism is again associated with the external driving system, the printed printing medium is conveyed forwards away from the printing area under the driving of the first conveying mechanism, and meanwhile, the next printing medium is conveyed to the preparation area, and then the actions are repeated. The scheme is an integrated scheme of the first two schemes, namely in the process that the printing medium is from the preparation area to the printing area, the printing medium is clamped together with the first conveying mechanism when the second conveying mechanism clamps the printing medium, so that the printing medium can be accurately positioned, and the first conveying mechanism can continue to other printing media without worrying that the printing medium is missed to be printed and directly conveyed away from the printing area due to different speeds of the first conveying mechanism and the second conveying mechanism.

The utility model provides a butt joint production line realizes printer of serialization production, the production line has associated outer drive system, its characterized in that, the printer is equipped with preparation district and printing district, includes first transmission system and interior drive system, first transmission system strides preparation district and printing district, interior drive system drive or drive first transmission system with print medium from preparation district conveying to printing district, outer drive system drive or drive first transmission system with print medium transport to preparation district and transport away from printing district.

The utility model discloses a two sets of actuating system convey the printing medium with the speed drive conveying system who is fit for printing around printing respectively in-process, wherein interior actuating system conveys the printing medium with the speed drive conveying system who is fit for printing in-process printing, and outer actuating system then conveys the printing medium with the speed drive conveying system who coordinates printing and the preceding process before printing after, thereby compensate the speed difference between printing process and the preceding process, under guaranteeing to print process and preceding process separately with its optimum speed operation prerequisite, realize the butt joint between the twice process, and then realize the serialization production of product. Specifically, if the optimum printing speed is lower than the operation speed of the previous process, the external driving system drives the conveying system to convey the printing medium at a speed higher than the operation speed of the previous process; if the optimum printing speed is higher than the running speed of the previous process, the external driving system drives the conveying system to convey the printing medium at a speed lower than the running speed of the previous process.

The utility model discloses well transfer system can adopt one set of transport mechanism, but need constantly be associated or disassociate with interior actuating system, outer actuating system when switching actuating system, and this is an examination to the operating stability of equipment, for cancel interior actuating system need be associated or disassociate step with transport mechanism when switching actuating system, the printer still includes second transfer system, including the second transfer system under the actuating system drive with print media convey from the preparation district to print the district or drive first transfer system and convey print media from the preparation district to print the district.

As an application of the three specific schemes in the above method, a clamp is arranged on the second conveying system, and the clamp clamps the printing medium and/or the internal driving system drives the second conveying system to convey the printing medium from the preparation area to the printing area after the first conveying system is clamped by the clamp. The clamp clamps the printing medium corresponding to the second scheme, the clamp clamps the first conveying system corresponding to the first scheme, and the clamp clamps the printing medium and the first conveying system corresponding to the third scheme.

In order to facilitate the installation of the clamp and the implementation of the three specific schemes, the first conveying system is a conduction band conveying system, and the second conveying system is a platform conveying system. In particular, for the third solution, the clamp is used for clamping the printing medium and the first conveying system at the same time, the clamp clamps the printing medium while the guide belt conveying system is clamped between the printing medium and the platform conveying system, and the guide belt conveying system is driven to move forward at a speed suitable for printing by the pressure and friction between the printing medium and the platform conveying system.

In order to improve the conveying stability and the fluency of the platform conveying system, the platform conveying system comprises a guide rail and a platform which is connected with the guide rail in a sliding manner, and the clamp is connected to the platform.

Compared with the prior art, the utility model has following beneficial effect: the utility model discloses a two sets of actuating system convey the printing medium with the speed drive conveying system who is fit for printing around printing respectively in-process, wherein interior actuating system conveys the printing medium with the speed drive conveying system who is fit for printing in-process printing, and outer actuating system then conveys the printing medium with the speed drive conveying system who coordinates printing and the preceding process before printing after, thereby compensate the speed difference between printing process and the preceding process, under guaranteeing to print process and preceding process separately with its optimum speed operation prerequisite, realize the butt joint between the twice process, and then realize the serialization production of product. Specifically, if the optimum printing speed is lower than the operation speed of the previous process, the external driving system drives the conveying system to convey the printing medium at a speed higher than the operation speed of the previous process; if the optimum printing speed is higher than the running speed of the previous process, the external driving system drives the conveying system to convey the printing medium at a speed lower than the running speed of the previous process. The utility model discloses in, interior actuating system mainly indicates the actuating system who plays the drive conveying effect at the printing in-process, and outer actuating system then indicates the actuating system of its drive conveying effect before printing and after printing.

Through the conveying system consisting of the two conveying mechanisms, the step that the inner driving system needs to be associated with or disassociated from the conveying mechanism when the driving system is switched is eliminated, and the improvement of the operation stability of the conveying system and the service life of equipment are facilitated.

Drawings

FIG. 1 is a schematic diagram of method example 1.

Figure 2 is a schematic of method example 2.

Fig. 3 is a schematic diagram of method embodiment 3.

Fig. 4 is a schematic diagram of method embodiment 4.

Fig. 5 is a schematic structural diagram of embodiment 1 of the apparatus.

Fig. 6 is a schematic structural diagram of embodiment 2 of the apparatus.

FIG. 7 is a schematic structural diagram of embodiment 3 of the apparatus.

FIG. 8 is a schematic structural diagram of embodiment 4 of the apparatus.

Description of reference numerals: the printing apparatus includes a conveying system 110, a first conveying mechanism 111, a second conveying mechanism 112, a first conveying system 120, a second conveying system 130, a clamp 131, an internal driving system 210, an external driving system 220, a preparation area 010, a printing area 020, and a printing medium 001.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the invention; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the invention. The present invention will be described in further detail with reference to specific embodiments.

Method example 1

As shown in FIG. 1, in a printing method for realizing continuous production in a docking production line, a conveying system 110 is driven by an external driving system 220 to convey a printing medium 001 to a preparation area 010, then driven by an internal driving system 210 to move the printing medium 001 to a printing area 020 for printing, after printing is finished, the conveying system 110 is driven by the external driving system 220 again to convey the printed printing medium 001 forwards from the printing area 020, and simultaneously convey the next printing medium 001 to the preparation area 010, and then the actions are repeated.

The utility model discloses a two sets of actuating system convey printing medium 001 with the speed drive conveying system 110 that is fit for printing around printing respectively with printing in-process drive conveying system 110, wherein interior actuating system 210 conveys printing medium 001 with the speed drive conveying system 110 that is fit for printing in-process, and outer actuating system 220 then conveys printing medium 001 with the speed drive conveying system 110 of coordinated printing and the front process after printing the front, thereby compensate the speed difference between printing process and the front process, under guaranteeing to print process and front process separately with its optimum speed operation prerequisite, realize the butt joint between the two processes, and then realize the serialization production of product. Specifically, if the optimum printing speed is lower than the previous operation speed, the external driving system 220 drives the conveying system 110 to convey the printing medium 001 at a speed higher than the previous operation speed; if the optimum printing speed is higher than the previous operation speed, the external driving system 220 drives the transporting system 110 to transport the printing medium 001 at a speed lower than the previous operation speed. The utility model discloses in, interior actuating system 210 mainly indicates the actuating system who plays the drive conveying effect at the printing in-process, and outer actuating system 220 then indicates the actuating system of its drive conveying effect before printing and after printing.

Method example 2

As shown in fig. 2, as a modification of method embodiment 1, in order to cancel the step in which the internal driving system 210 needs to be associated with or disassociated from the conveying mechanisms when the driving system is switched, as shown in fig. 2, the conveying system 110 of this embodiment includes a first conveying mechanism 111 and a second conveying mechanism 112, the first conveying mechanism 111 is disassociated from the external driving system 220 after the first conveying mechanism 111 conveys the printing medium 001 to the preparation area 010 under the driving of the external driving system 220, the second conveying mechanism 112 located in the preparation area 010 drives the first conveying mechanism 111 and the printing medium 001 thereon to move to the printing area 020 for printing, after the printing is finished, the second conveying mechanism 112 retracts to the preparation area 010, meanwhile, the first conveying mechanism 111 is connected with the external driving system 220 again and conveys the printed printing medium 001 to the printing area 020 and conveys the next printing medium 001 to the preparation area 010 under the driving of the external driving system, and then the actions are repeated. That is, in the process from the preparation area 010 to the printing area 020, the second conveying mechanism 112 indirectly drives the printing medium 001 placed on the first conveying mechanism 111 by driving the first conveying mechanism 111, and in the process, the first conveying mechanism 111 can continue to advance at a speed different from that of the driving by the external driving system 220, without sacrificing the conveying capability of the first conveying mechanism 111 in the process, especially for a production line in which the optimum printing speed is lower than the running speed of the previous process.

Method example 3

As shown in fig. 3, as a modification of method embodiment 1, in order to cancel the step in which the internal drive system 210 needs to be associated with or disassociated from the transport mechanism when the drive system is switched, as shown in fig. 3, the transport system 110 of this embodiment includes a first transport mechanism 111 and a second transport mechanism 112, the first transport mechanism 111 transports the print medium 001 to the preparation area 010 under the drive of the external drive system 220, the second transport mechanism 112 located in the preparation area 010 transports the print medium 001 to the print area 020 under the drive of the internal drive system 210 after the print medium 001 is clamped by the second transport mechanism 112 located in the preparation area 010, and after the print is finished, the second transport mechanism 112 releases the print medium 001 and withdraws to the preparation area 010, meanwhile, the first conveying mechanism 111 conveys the printed printing medium 001 forward from the printing area 020 and conveys the next printing medium 001 to the preparation area 010 under the driving of the external driving system 220, and then the above actions are repeated. That is, in the process of the printing medium 001 from the preparation area 010 to the printing area 020, the second conveying mechanism 112 directly drives the printing medium 001, and the process of switching from the conveying by the first conveying mechanism 111 to the conveying by the second conveying mechanism 112 is also a process of accurately positioning the printing medium 001, which is very important for printing. Further, the first conveyance mechanism 111 may stop advancing during the conveyance of the print by the second conveyance mechanism 112, particularly for a production line in which the optimum speed of printing is less than the running speed of the preceding process; it is also possible to continue the forward drive by the external drive system 220, especially for lines where the optimum speed for printing is greater than the operational speed of the preceding process.

Method example 4

As shown in fig. 4, as a modification of method embodiment 1, in order to cancel the step in which the internal drive system 210 needs to be associated with or disassociated from the transport mechanism when the drive system is switched, as shown in fig. 4, the transport system 110 of this embodiment includes a first transport mechanism 111 and a second transport mechanism 112, the first transport mechanism 111 transports the print medium 001 to the preparation area 010 under the drive of the external drive system 220 and then disassociates from the external drive system 220, the second transport mechanism 112 located in the preparation area 010 transports the print medium 001 to the preparation area 010 under the drive of the internal drive system 210 to the print area 020 for printing, after the printing is finished, the second conveying mechanism 112 releases the printing medium 001 and the first conveying mechanism 111 and retracts to the preparation area 010, meanwhile, the first conveying mechanism 111 is connected with the external driving system 220 again, and conveys the printed printing medium 001 to the printing area 020 and conveys the next printing medium 001 to the preparation area 010 under the driving of the external driving system, and then the actions are repeated. The scheme is an integrated scheme of the first two schemes, namely, in the process that the printing medium 001 is from the preparation area 010 to the printing area 020, the second conveying mechanism 112 clamps the printing medium 001 together with the first conveying mechanism 111 when clamping the printing medium 001, so that the printing medium 001 can be accurately positioned, and the first conveying mechanism 111 can continue to print other printing media 001 without worrying that the printing media 001 are printed by mistake and directly conveyed away from the printing area 020 due to different speeds of the printing medium 001 and the first conveying mechanism 111.

Apparatus example 1

As shown in fig. 5, a printer for realizing continuous production in a docking production line, the production line being associated with an external driving system 220, the printer being provided with a preparation area 010 and a printing area 020, the printer comprising a first transporting system 120 and an internal driving system 210, the first transporting system 120 spanning the preparation area 010 and the printing area 020, the internal driving system 210 driving or driving the first transporting system 120 to transport a printing medium 001 from the preparation area 010 to the printing area 020, and the external driving system 220 driving or driving the first transporting system 120 to transport the printing medium 001 to the preparation area 010 and away from the printing area 020.

The utility model discloses a two sets of actuating system convey printing medium 001 with the speed drive conveying system 110 that is fit for printing around printing respectively with printing in-process drive conveying system 110, wherein interior actuating system 210 conveys printing medium 001 with the speed drive conveying system 110 that is fit for printing in-process, and outer actuating system 220 then conveys printing medium 001 with the speed drive conveying system 110 of coordinated printing and the front process after printing the front, thereby compensate the speed difference between printing process and the front process, under guaranteeing to print process and front process separately with its optimum speed operation prerequisite, realize the butt joint between the two processes, and then realize the serialization production of product. Specifically, if the optimum printing speed is lower than the previous operation speed, the external driving system 220 drives the conveying system 110 to convey the printing medium 001 at a speed higher than the previous operation speed; if the optimum printing speed is higher than the previous operation speed, the external driving system 220 drives the transporting system 110 to transport the printing medium 001 at a speed lower than the previous operation speed.

Apparatus example 2

In the embodiment 1 of the apparatus, the conveying system 110 may adopt a set of conveying mechanisms, but the switching of the driving systems needs to be continuously associated with or disassociated from the internal driving system 210 and the external driving system 220, which is a check on the operation stability of the apparatus, and in order to cancel the step that the internal driving system 210 needs to be associated with or disassociated from the conveying mechanisms when the driving systems are switched, as shown in fig. 6, the printer further includes a second conveying system 130, and the second conveying system 130 drives the first conveying system 120 to convey the printing medium 001 from the preparation area 010 to the printing area 020 under the driving of the internal driving system 210.

As an application of embodiment 2 of the method, in this embodiment, the second conveying system 130 is provided with a clamp 131, and after the clamp 131 clamps the first conveying system 120, the internal driving system 210 drives the second conveying system 130 to convey the printing medium 001 from the preparation area 010 to the printing area 020. That is, after the clamp 131 clamps the first conveying system 120, the internal driving system 210 drives the second conveying system 130, and the second conveying system 130 drives the first conveying system 120, and the first conveying system 120 drives the printing medium 001 due to the positive pressure of the printing medium 001 placed thereon and the friction force therebetween, so that the second conveying system 130, the first conveying system 120, and the printing medium 001 move forward together under the driving of the internal driving system 210.

In this embodiment, the first transport system 120 may be a belt transport system 110, and the second transport system 130 may be a platform transport system 110. The platform transport system 110 includes a guide and a platform slidably coupled to the guide, the gripper 131 being coupled to the platform.

Apparatus example 3

In the embodiment 1 of the apparatus, the transport system 110 may adopt a set of transport mechanisms, but the internal drive system 210 and the external drive system 220 need to be continuously associated or disassociated when the drive systems are switched, which is a check on the operational stability of the apparatus, in order to cancel the step of the internal drive system 210 needing to be associated or disassociated with the transport mechanisms when the drive systems are switched, as shown in fig. 7, the printer further includes a second transport system 130, and the second transport system 130 transports the printing medium 001 from the preparation area 010 to the printing area 020 under the drive of the internal drive system 210.

As an application of embodiment 3 of the method, in this embodiment, a clamp 131 is provided on the second conveying system 130, and after the clamp 131 clamps the printing medium 001, the internal driving system 210 drives the second conveying system 130 to convey the printing medium 001 from the preparation area 010 to the printing area 020.

In this embodiment, the first transport system 120 may be a belt transport system 110, and the second transport system 130 may be a platform transport system 110. The platform transport system 110 includes a guide and a platform slidably coupled to the guide, the gripper 131 being coupled to the platform.

Apparatus example 4

In the embodiment 1 of the apparatus, the transport system 110 may adopt a set of transport mechanisms, but the internal drive system 210 and the external drive system 220 need to be continuously associated or disassociated when the drive systems are switched, which is a check on the operational stability of the apparatus, in order to cancel the step of the internal drive system 210 needing to be associated or disassociated with the transport mechanisms when the drive systems are switched, as shown in fig. 8, the printer further includes a second transport system 130, and the second transport system 130 transports the printing medium 001 from the preparation area 010 to the printing area 020 under the drive of the internal drive system 210.

As an application of embodiment 4 of the method, in this embodiment, a clamp 131 is provided on the second conveying system 130, and after the clamp 131 clamps the printing medium 001 and the first conveying system 120, the internal driving system 210 drives the second conveying system 130 to convey the printing medium 001 from the preparation area 010 to the printing area 020.

To facilitate the installation of the clamp 131, the first transport system 120 is a belt transport system 110, and the second transport system 130 is a platform transport system 110. Particularly, for the embodiment in which the clamp 131 is to clamp the printing medium 001 and the first conveying system 120 at the same time, the clamp 131 clamps the printing medium 001 while the tape conveying system 110 is clamped between the printing medium 001 and the table conveying system 110, and the tape conveying system 110 is driven to move forward at a speed suitable for printing by the pressure and friction between the printing medium 001 and the table conveying system 110.

In order to improve the conveying stability and the fluency of the platform conveying system 110, the platform conveying system 110 comprises a guide rail and a platform slidably connected to the guide rail, and the clamp 131 is connected to the platform.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (6)

1. The utility model provides a butt joint production line realizes printer of serialization production, the production line has associated outer drive system, its characterized in that, the printer is equipped with preparation district and printing district, includes first transmission system and interior drive system, first transmission system strides preparation district and printing district, interior drive system drive or drive first transmission system with print medium from preparation district conveying to printing district, outer drive system drive or drive first transmission system with print medium transport to preparation district and transport away from printing district.

2. The printer for realizing continuous production of the docking production line according to claim 1, further comprising a second conveying system, wherein the second conveying system is driven by the internal driving system to convey the printing medium from the preparation area to the printing area or drive the first conveying system to convey the printing medium from the preparation area to the printing area.

3. The printer for realizing continuous production of the docking production line according to claim 2, wherein a clamp is arranged on the second conveying system, the clamp clamps the printing medium and/or the internal driving system drives the second conveying system to convey the printing medium from the preparation area to the printing area after the first conveying system.

4. The printer for realizing continuous production of the docking production line according to claim 3, wherein the first conveying system is a belt conveying system, and the second conveying system is a platform conveying system.

5. The printer for realizing continuous production of the docking production line according to claim 4, wherein the first conveying system is clamped between the printing medium and the platform conveying system while the clamp clamps the printing medium.

6. Printer according to claim 4 wherein said platform conveyor system comprises a guide and a platform slidingly connected to said guide, said gripper being connected to said platform.