CN114670557A

CN114670557A - Ready-made clothes printer and ready-made clothes printing process

Info

Publication number: CN114670557A
Application number: CN202210324979.2A
Authority: CN
Inventors: 林锦毅
Original assignee: Xiamen Hanyin Electronic Technology Co Ltd
Current assignee: Xiamen Hanyin Electronic Technology Co Ltd
Priority date: 2021-03-31
Filing date: 2022-03-29
Publication date: 2022-06-28
Anticipated expiration: 2042-03-29
Also published as: CN114670557B

Abstract

The invention discloses a ready-made clothes printer and a ready-made clothes printing process, and belongs to the technical field of ready-made clothes printing equipment. The ready-made clothes printer is provided with an inlet and an outlet, the fabric enters and exits the ready-made clothes printer through the inlet and the outlet, the ready-made clothes printer comprises an installation beam, a printing trolley, a treatment liquid spraying mechanism and a hot pressing mechanism, and the printing trolley, the treatment liquid spraying mechanism and the hot pressing mechanism are sequentially arranged on the installation beam at intervals along the direction that the fabric enters the ready-made clothes printer. This ready-made clothes printer is through only setting up an exit, and prints dolly, processing liquid spraying mechanism and hot pressing mechanism through rational arrangement to not only make the fabric only need make a round trip just to accomplish all processes at ready-made clothes printer reciprocal, improved the operating efficiency, and make the higher hot-pressing operation of degree of danger and spray the processing liquid operation and keep away from the user, improved the security.

Description

Ready-made clothes printer and ready-made clothes printing process

The present application claims priority from the' 202110349384.8 patent application (earlier application filed on 03/31/2021 entitled garment printer and garment printing process).

Technical Field

The invention relates to the technical field of ready-made clothes printing equipment, in particular to a ready-made clothes printer and a ready-made clothes printing process.

Background

The printing process of the ready-made clothes printing equipment mainly comprises a dry printing process and a wet printing process. The dry forging process mainly comprises two realization methods: firstly, spraying treatment liquid on the surface of a fabric to be printed in an external device, then pressing the wet fabric to be printed in another external device to dry the surface of the fabric to be printed, and finally placing the dry fabric to be printed in a printing device for printing. The scheme needs a plurality of devices to cooperate, so that the total investment time and the cost of producing single products are higher, and the occupied area of a factory building is larger. And secondly, integrating a plurality of mechanisms which respectively perform the processes of spraying the treatment liquid, drying the surface of the fabric and flattening the fabric into the printing equipment, and finishing all the processes in one equipment. However, the existing equipment for executing the scheme has low integration level, each process is realized by a set of single-function mechanism, and a plurality of mechanisms are connected in series in space, so that more space is occupied, and the manufacturing cost is high.

Disclosure of Invention

One object of the present invention is to provide a garment printer that is highly integrated, small, inexpensive to manufacture, and efficient in printing.

In order to achieve the purpose, the invention adopts the following technical scheme:

a garment printer, said garment printer having an access opening through which fabric to be printed enters said garment printer and through which printed fabric is removed from said garment printer; the garment printer comprises: mounting a cross beam; the printing trolley, the treatment liquid spraying mechanism and the hot-pressing mechanism are sequentially arranged on the mounting cross beam at intervals along the direction of the fabric entering the garment printer; the treatment fluid spraying mechanism is used for spraying treatment fluid to the fabric to be printed, the hot pressing mechanism is used for carrying out hot pressing operation on the fabric to be printed, the printing trolley can move along the transverse direction of the mounting cross beam and can carry out white ink printing operation and/or color ink printing operation on the fabric to be printed.

Preferably, the fabric is configured to be sequentially movable to the treatment liquid spraying mechanism, the hot press mechanism, and the printing cart; or the fabric is configured to be movable to the hot press mechanism, the treatment liquid spray mechanism, and the printing cart in this order.

Preferably, the printing trolley comprises a color ink printing trolley and a white ink printing trolley, the color ink printing trolley and the white ink printing trolley are arranged on the mounting cross beam at intervals, the white ink printing trolley is arranged between the color ink printing trolley and the treatment liquid spraying mechanism, the white ink printing trolley is used for carrying out white ink printing operation on the fabric after hot pressing, and the color ink printing trolley is used for carrying out the color ink printing operation on the fabric after the white ink printing operation is finished.

As preferred, the ready-made clothe printer still includes shell and base, the shell lock dress is in on the base, the shell include the roof and by the roof to the protruding left side board, posterior lateral plate and the right side board of establishing of base direction, the roof the left side board the right side board with the base encloses establishes the formation import and export, the installation crossbeam handle liquid spray mechanism the colour ink prints the dolly the white ink print the dolly with hot pressing mechanism all is located in the shell, just hot pressing mechanism is close to posterior lateral plate sets up, the colour ink prints the dolly and is close to import and export the setting.

Preferably, an air suction opening is formed in the shell and located above the hot-pressing mechanism.

Preferably, the mounting cross beam comprises a first mounting cross beam, a second mounting cross beam and a third mounting cross beam which are sequentially arranged at intervals along the direction that the fabric enters the ready-made clothes printer, the color ink printing trolley can be movably arranged on the first mounting cross beam, the white ink printing trolley can be movably arranged on the second mounting cross beam, the treating fluid spraying mechanism is arranged on the second mounting cross beam, and the hot pressing mechanism is arranged on the third mounting cross beam.

Preferably, the treatment liquid spraying mechanism comprises a liquid storage barrel, a plurality of liquid guide pipes and a plurality of liquid spraying heads, the liquid spraying heads are arranged on the second mounting beam at intervals, one ends of the liquid guide pipes are communicated with the liquid storage barrel, the other ends of the liquid guide pipes are communicated with the corresponding liquid spraying heads, and electromagnetic valves are arranged on the liquid guide pipes.

Preferably, the second mounting cross beam is provided with a treatment liquid baffle, and the treatment liquid baffle is used for blocking treatment liquid sprayed by the treatment liquid spraying mechanism at one side of the second mounting cross beam close to the third mounting cross beam.

Preferably, the hot pressing mechanism comprises a liftable hot pressing plate, a heating structure is arranged inside the hot pressing plate, and a flexible pressing pad is arranged on a hot pressing surface of the hot pressing plate.

Preferably, a ventilation structure is arranged on the hot pressing surface of the hot pressing plate; the garment printer further comprises an air supply mechanism, wherein the air supply mechanism is communicated with the breathable structure and used for conveying gas with preset speed and preset pressure into the breathable structure.

Preferably, the garment printer further comprises a conveying mechanism, wherein the conveying mechanism comprises a conveying guide rail and a bedplate, the bedplate is connected to the conveying guide rail, and the fabric is placed on the bedplate.

Preferably, the number of the conveying guide rails is multiple, the plurality of conveying guide rails are arranged side by side, and each conveying guide rail is provided with at least one platen; the hot pressing mechanisms are multiple in number and are arranged above the conveying guide rails in a one-to-one correspondence mode.

Preferably, the garment printer further comprises an air knife, and the air knife is arranged on the side of the hot-pressing mechanism and used for blowing air to the hot-pressing mechanism.

Another object of the present invention is to provide a printing process for ready-made clothes, which can print fabrics with good effect.

a garment printing process comprising the steps of:

placing a fabric to be printed on a platen of a conveying mechanism, wherein the platen is movably arranged on a conveying guide rail of the conveying mechanism;

the bedplate carries the fabric to move along the conveying direction of the conveying guide rail and enters the garment printer through an inlet and an outlet of the garment printer;

the bedplate carries the fabric to continuously move to a hot pressing mechanism along the conveying direction of the conveying guide rail, and the hot pressing mechanism carries out hot pressing operation on the fabric;

the bedplate carries the fabric to move back and forth to a treatment liquid spraying mechanism along the direction opposite to the conveying direction of the conveying guide rail, and the treatment liquid spraying mechanism sprays treatment liquid to the fabric after hot pressing;

the bedplate carries the fabric to continuously move to a printing trolley along the direction opposite to the conveying direction of the conveying guide rail, and the printing trolley can perform printing operation on the fabric;

and the bedplate carries the printed fabric to continuously move along the direction opposite to the conveying direction of the conveying guide rail and moves out of the ready-made clothes printer through the inlet and outlet.

A garment printing process comprising the steps of:

the bedplate carries the fabric to continuously move to a treatment liquid spraying mechanism along the conveying direction of the conveying guide rail, and the treatment liquid spraying mechanism sprays treatment liquid to the fabric;

the bedplate carries the fabric to continuously move to a hot pressing mechanism along the conveying direction of the conveying guide rail, and the hot pressing mechanism carries out hot pressing operation on the fabric sprayed with the treatment liquid;

Preferably, the platen carries the fabric to move to a printing trolley along a direction opposite to the conveying direction of the conveying guide rail, and the printing trolley can perform printing operation on the fabric specifically includes the following steps:

the bedplate carries the fabric to move to a white ink printing trolley along the direction opposite to the conveying direction of the conveying guide rail, and the white ink printing trolley performs white ink printing operation on the fabric;

or the bedplate carries the fabric to move to a color ink printing trolley along the direction opposite to the conveying direction of the conveying guide rail, and the color ink printing trolley performs color ink printing operation on the fabric;

or the bedplate carries the fabric to move to a white ink printing trolley along the direction opposite to the conveying direction of the conveying guide rail, the white ink printing trolley carries out white ink printing operation on the fabric, the bedplate carries the fabric to continue to move to a color ink printing trolley along the direction opposite to the conveying direction of the conveying guide rail, and the color ink printing trolley carries out color ink printing operation on the fabric after the white ink printing is finished.

The invention has the beneficial effects that:

the invention provides a garment printer, which is characterized in that only one inlet and outlet is arranged, and the positions of a printing trolley, a treatment solution spraying mechanism and a hot pressing mechanism are reasonably arranged, so that the printing trolley, the treatment solution spraying mechanism and the hot pressing mechanism are sequentially arranged on an installation beam at intervals along the direction of a fabric entering the garment printer, all processes of treatment solution spraying operation, hot pressing operation and printing operation can be sequentially completed by the fabric only by reciprocating the garment printer one round, the operation time is reduced, the operation efficiency is improved, the hot pressing operation and the treatment solution spraying operation with higher danger degree are far away from the inlet and outlet of the garment printer, the user is far away from the user, the contact of the user with hot air and treatment solution in the hot pressing operation is avoided, and the safety is improved.

The invention also provides a ready-made clothes printing process, which comprises the steps of placing the fabric to be printed on the bedplate of the conveying mechanism, enabling the bedplate to be movably arranged on the conveying guide rail of the conveying mechanism, carrying the fabric by using the bedplate to move along the conveying direction of the conveying guide rail, and sequentially completing the hot-pressing operation of entering the ready-made clothes printer through the inlet and the outlet of the ready-made clothes printer and continuously moving to the hot-pressing mechanism; and then, the bedplate carries the fabric to turn back along the direction opposite to the conveying direction of the conveying guide rail, and sequentially finishes the operation of spraying the treatment liquid when the bedplate moves to the treatment liquid spraying mechanism, the operation of continuously moving to the printing trolley for printing, the operation of continuously moving and moving out of the ready-made clothes printer through the inlet and the outlet. The ready-made clothes printing process enables the fabric to finish all the working procedures of treatment liquid spraying operation, hot pressing operation and printing operation only by reciprocating the ready-made clothes printer, reduces the operation time and improves the operation efficiency.

The invention also provides a ready-made clothes printing process, which comprises the steps of placing the fabric to be printed on the bedplate of the conveying mechanism, enabling the bedplate to be movably arranged on the conveying guide rail of the conveying mechanism, utilizing the bedplate to carry the fabric to move along the conveying direction of the conveying guide rail, and sequentially completing the operations of entering the ready-made clothes printer through the inlet and the outlet of the ready-made clothes printer, continuously moving to the treatment liquid spraying mechanism for spraying treatment liquid and continuously moving to the hot pressing mechanism for hot pressing; and then, the bedplate carries the fabric to turn back along the direction opposite to the conveying direction of the conveying guide rail, and sequentially finishes moving to the printing trolley for printing operation and continuously moving and moving out of the ready-made clothes printer through the inlet and the outlet. The ready-made clothes printing process enables the fabric to sequentially complete all the working procedures of treatment liquid spraying operation, hot pressing operation and printing operation only by reciprocating the ready-made clothes printer, reduces the operation time and improves the operation efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a garment printer provided by the present invention.

In the figure:

1. a first mounting beam; 2. a second mounting beam; 3. a liquid jet head; 4. a color ink printing trolley; 5. a white ink printing carriage; 6. a left hot press plate; 7. a right hot press plate; 8. a left conveying guide rail; 9. a right conveying guide rail; 10. a left platen; 11. a right platen; 12. a housing; 1201. an air suction opening; 13. a base; 14. an upper computer control system; 15. a lower computer control system; 16. a human-computer interaction mechanism; 17. a third mounting beam; 18. a treatment liquid baffle; 19. a left air knife; 20. and (4) a right air knife.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

This embodiment provides a ready-made clothes printer, and this ready-made clothes printer can accomplish simultaneously and spout a plurality of processes such as processing liquid, white ink printing, various china ink printing, hot pressing stoving, and not only the integrated level is high, and production efficiency is high, and area is little, and can adjust the process in a flexible way, print effectually.

As shown in fig. 1, the garment printer includes a base 13, a housing 12, a mounting beam, a treatment liquid spraying mechanism, a printing cart, a hot-pressing mechanism, a conveying mechanism, an upper computer control system 14, a lower computer control system 15 and a man-machine interaction mechanism 16. The installation crossbeam is including the first installation crossbeam 1, second installation crossbeam 2 and the third installation crossbeam 17 that set up in proper order the interval, and the printing dolly is including the color ink printing dolly 4 and the white ink printing dolly 5. Wherein, base 13 is for having accommodation space's box, and its bottom is connected with the supporting leg, and the top is provided with storage platform, and first installation crossbeam 1, second installation crossbeam 2, third installation crossbeam 17, treatment solution spraying mechanism, color ink print dolly 4, white ink print dolly 5, hot pressing mechanism and conveying mechanism etc. all set up on storage platform.

In this embodiment, shell 12 includes roof, left side board, posterior lateral plate and right side board, and the roof is parallel with base 13's storage platform, and the left side board is connected perpendicularly in the left side of roof, and the posterior lateral plate is connected perpendicularly in the rear side of roof, and the right side board is connected perpendicularly on the right side of roof, and left side board, posterior lateral plate and right side board are all protruding to be established to base 13's direction. The housing 12 is fastened to the base 13, and a space for accommodating the first mounting beam 1, the second mounting beam 2, the third mounting beam 17, the treatment liquid spraying mechanism, the color ink printing cart 4, the white ink printing cart 5, the hot pressing mechanism, the conveying mechanism, and the like is formed between the two. An inlet and an outlet for the fabric to enter and exit the garment printer are respectively formed among the top plate, the left side plate, the right side plate and the base 13 of the shell 12.

The housing 12 can protect against foreign matters such as dust and ensure the safety of workers. Of course, in other embodiments, the housing 12 may also have a semi-cylindrical structure or other shapes, and is not limited herein. And because the ready-made clothes printer only has one inlet and outlet, the fabric to be printed enters the ready-made clothes printer from the inlet and outlet and is moved out of the ready-made clothes printer from the inlet and outlet after printing is finished, the ready-made clothes printer can be operated only by one worker at the inlet and outlet, and labor cost is reduced.

The lower computer control system 15 and the upper computer control system 14 are arranged in the base 13, and coordinate and control the spraying treatment liquid operation of the treatment liquid spraying mechanism, the hot pressing operation of the hot pressing mechanism and the printing operation of the two printing trolleys. In this embodiment, the upper computer control system 14 and the lower computer control system 15 may be centralized or distributed controllers, for example, the controller may be a single-chip microcomputer or may be composed of a plurality of distributed single-chip microcomputers, and the single-chip microcomputers may run control programs to control the mechanisms to implement their functions.

The man-machine interaction mechanism 16 is arranged on the object placing platform and provides the operation personnel with entries such as complete machine operation, relevant process parameter setting, equipment operation maintenance management and the like. Optionally, the human-computer interaction mechanism 16 may be a touch display screen, and a plurality of control keys are arranged on the touch display screen, and the spraying amount and the spraying area of the treatment solution spraying mechanism, the hot pressing duration and the hot pressing range of the hot pressing mechanism, and the working duration and the working range of the two beam trolleys are controlled individually by the control keys.

Conveying mechanism sets up along the length direction of platform, is provided with color ink on conveying mechanism and prints station, white ink and prints station, treatment fluid and spray station and hot pressing station. The conveying mechanism is used for conveying the fabric to be printed into the shell 12 from the inlet and the outlet, and outputting the fabric from the inlet and the outlet after sequentially passing through a plurality of stations.

In this embodiment, the transport mechanism includes a transport rail and a platen, which is a rectangular plate-like structure on which the fabric to be printed is placed. The conveying guide rail is a linear guide rail, and the bedplate is connected to the conveying guide rail and can move along the conveying guide rail. Of course, in other embodiments, the conveying mechanism may also be a belt pulley mechanism, a sprocket mechanism, or other mechanism capable of achieving linear motion.

Optionally, the number of the conveying mechanisms may be multiple, and the multiple conveying mechanisms are arranged at intervals in the width direction of the storage platform. The plurality of conveying mechanisms can convey a plurality of fabrics to be printed at the same time, so that the production efficiency is improved. In this embodiment, two conveying mechanisms, namely a left conveying mechanism and a right conveying mechanism, are provided, the left conveying mechanism includes a left conveying guide rail 8 and a left platen 10 provided on the left conveying guide rail 8, and the right conveying mechanism includes a right conveying guide rail 9 and a right platen 11 provided on the right conveying guide rail 9. The number of left platens 10 on left conveyor rail 8 may be one or more, and the number of right platens 11 on right conveyor rail 9 may likewise be one or more. Of course, in other embodiments, the conveying guide rail may be a circular guide rail, and each station is arranged along the circumference of the circular guide rail.

In this embodiment, a color ink printing station, a white ink printing station, a treatment liquid spraying station, and a hot pressing station are sequentially provided along the conveying direction of the conveying guide rail. First installation crossbeam 1, second installation crossbeam 2 and third installation crossbeam 17 all follow the fixed setting on storage platform of storage platform's width direction for each mechanism of fixed mounting. In this embodiment, first installation crossbeam 1 is the type of falling U structure, and it sets up in the top that the station was printed to the color ink, and color ink prints 4 movably connections on the diaphragm of first installation crossbeam 1 to can follow the width direction of base 13 and remove, but the mode of movable connection specifically can be through realization such as electronic guide rail, motor and ball screw mechanism, belt pulley mechanism, and it is unnecessary to describe here.

In the present embodiment, the number of the color ink printing carriages 4 is one, and the color ink printing carriages 4 can perform color ink printing on the fabrics to be printed on the left platen 10 and the right platen 11 by moving. Certainly, in other embodiments, one color ink printing cart 4 may be respectively installed on the front side and the rear side of the first installation beam 1 to simultaneously print the fabrics to be printed on the left platen 10 and the right platen 11, and naturally, according to requirements, a greater number of color ink printing carts 4 may also be installed on the first installation beam 1, and each color ink printing cart 4 may reciprocate within a local range of the first installation beam 1 to perform a printing operation.

The second mounting beam 2 is arranged on the white ink printing station and the treatment liquid spraying station, and the structure of the second mounting beam is the same as that of the first mounting beam 1, which is not described in detail herein. The white ink printing trolley 5 is movably arranged on the second mounting beam 2, and the moving mode of the white ink printing trolley can be the same as or different from the moving mode of the color ink printing trolley 4. In the present embodiment, the number of the white ink printing carriages 5 is one, and the white ink printing carriages 5 can perform white ink printing on the fabrics to be printed on the left platen 10 and the right platen 11 by moving. Of course, in other embodiments, a white ink printing trolley 5 may be mounted on each of the front and rear sides of the second mounting beam 2 to simultaneously print the fabrics to be printed on the left platen 10 and the right platen 11; of course, according to the requirement, a larger number of white ink printing carriages 5 can be mounted on the second mounting beam 2, and each white ink printing carriage 5 can reciprocate in the local range of the second mounting beam 2 to perform the printing operation.

The processing liquid spraying mechanism is arranged on the second mounting cross beam 2, and the white ink printing trolley 5 and the processing liquid spraying mechanism are simultaneously mounted on the second mounting cross beam 2, so that the integration level of the ready-made clothes printer is improved, the space occupied by the ready-made clothes printer is reduced, the use of one mounting cross beam is omitted, and the manufacturing cost is reduced. Of course, in other embodiments, the positions of the white ink printing cart 5 and the color ink printing cart 4 may be interchanged, that is, the white ink printing cart 5 is mounted on the first mounting beam 1, and the color ink printing cart 4 and the treatment liquid spraying mechanism are simultaneously mounted on the second mounting beam 2, which can also achieve the above effects.

It should be noted that when printing a certain fabric, the white ink printing cart 5 and the color ink printing cart 4 may both participate in the printing operation, or only one of the two may be used to participate in printing the fabric. That is, the fabric may be printed with only white ink, or with only color ink, or with both white and color ink. Preferably, in particular embodiments, if it is desired to print both white and color inks, then the white ink is printed first and then the color ink is printed.

In addition, because second installation crossbeam 2 is located between first installation crossbeam 1 and third installation crossbeam 17, consequently second installation crossbeam 2 and the treatment fluid spraying mechanism on it is located the middle part of whole ready-made clothes printer, and the overall arrangement is more reasonable, can avoid the treatment fluid contact staff who spouts to improve staff's operational environment's security, avoided the staff to be burnt by the treatment fluid.

Optionally, a treatment liquid baffle 18 is further arranged on the second mounting cross beam 2, and is used for blocking the treatment liquid sprayed by the liquid spraying head 3 to one side of the second mounting cross beam 2 close to the third mounting cross beam 17, so as to block the treatment liquid sprayed in a mist shape, and prevent the treatment liquid from diffusing to a printing area on the left side of the treatment liquid baffle 18, so as to prevent the nozzles in the white ink printing trolley 5 and the color ink printing trolley 4 from being corroded by the treatment liquid, and prevent the treatment liquid from being sprayed out from the inlet and the outlet, so as to ensure the working safety of workers. In addition, since the rear end of the casing 12 is closed by the rear side plate, a semi-closed space is formed in the casing, and the treatment liquid blocking plate 18 is provided to improve the closing effect of the semi-closed space.

Specifically, it includes stock solution bucket, many liquid pipes and a plurality of hydrojet 3 to handle liquid spraying mechanism, and a plurality of hydrojet 3 intervals set up on the diaphragm of second installation crossbeam 2, and many liquid pipes set up with a plurality of hydrojet 3 one-to-ones, the one end and the stock solution bucket intercommunication of every liquid pipe, the other end and the hydrojet 3 intercommunication that corresponds, all be provided with a solenoid valve on every liquid pipe to the break-make of control liquid pipe. The plurality of liquid spraying heads 3 arranged in the embodiment are installed side by side, and do not need to move transversely, after a user inputs spraying area data through the man-machine interaction mechanism 16, the upper computer control system 14 receives instructions and then coordinates with the lower computer control system 15 to control the action of the electromagnetic valves with corresponding numbers, and the processing liquid is upwards conveyed to the liquid spraying heads 3 through the liquid guide pipe by the liquid storage barrel, and the fabric to be printed can be wetted after being atomized by the liquid spraying heads 3. Compared with a treatment liquid spraying mechanism formed by adding one set of transverse driving mechanism to one liquid spraying head 3 in the prior art, in the embodiment, the treatment liquid spraying mechanism provided with a plurality of sets of liquid spraying heads 3 does not need to move transversely, the area needing spraying can be covered by one-time spraying, the operation time is reduced, the production efficiency of equipment is improved, and the spraying amount and the spraying area on the fabric to be printed can be controlled by controlling the on-off of the electromagnetic valve so as to control the liquid spraying heads 3 which are positioned at specific positions and in specific quantities to spray treatment liquid.

The third mounting beam 17 is arranged on the hot pressing station and is arranged side by side with the first mounting beam 1 and the second mounting beam 2. The structure of the third mounting beam 17 is the same as that of the first mounting beam 1, and is not described herein. The hot pressing mechanism is arranged on the transverse plate of the third mounting cross beam 17 and is opposite to the hot pressing station. The function of the hot-pressing mechanism is mainly embodied in the following two aspects: drying the printed fabric to improve a good operation environment for subsequent printing operation; secondly, more importantly, the printed fabric is flattened, so that the problem of fuzzing can be solved for most printed fabrics, and the problem of fuzzing can be effectively solved by performing hot pressing operation after the treatment liquid is sprayed.

In the present embodiment, the thermal compression mechanism is disposed on the transverse plate of the third mounting beam 17, so that the thermal compression mechanism is disposed close to the rear side plate of the housing 12, and the thermal compression mechanism is located in the semi-closed space in the housing 12. Because the hot pressing mechanism can produce a large amount of steam when carrying out the hot pressing, be close to the backplate setting with the hot pressing mechanism, can make this steam be restricted as far as possible between processing liquid baffle 18 and backplate, avoid steam to be diffused to white ink in a large number and print or the colour is printed the department and is caused the influence to the printing quality. Further, an air suction opening 1201 is arranged on the outer shell 12, and the processing liquid gas evaporated after hot pressing is exhausted from the interior of the garment printer through the air suction opening 1201 above the air suction opening and is exhausted into a factory exhaust pipeline, so that the printing effect is prevented from being influenced, and the pollution is avoided.

In this embodiment, hot press mechanism is including driving actuating cylinder, hot pressboard and flexible pressure pad, and wherein, the fixed setting of cylinder body that drives actuating cylinder is on third installation crossbeam 17, and the hot pressboard is fixed to be set up on the jar pole that drives actuating cylinder, and the inside of hot pressboard is provided with heating structure, and heating structure is used for dry fabric and temperature steerable to the fabric can further activate the treatment fluid composition after being heated. Optionally, the heating structure can be a metal heating wire, the heating structure can be independently controlled according to requirements to realize opening and closing, and when the heating structure is opened, the hot pressing mechanism can simultaneously perform flattening and heating functions; when the heating structure is closed, the hot pressing mechanism only performs the flattening operation.

The hot pressing surface of the hot pressing plate is provided with a flexible pressing pad, and the flexible pressing pad can ensure that the hot pressing plate is in good contact with the fabric, so that the flattening quality is improved. Alternatively, the flexible pressure pad may be a soft rubber pad with good thermal conductivity.

The hot pressing plate and the flexible pressing pad on the hot pressing plate can move downwards under the driving of the driving cylinder, after the flexible pressing pad descends for a certain distance, the fabric to be printed on the platen wetted by the treatment liquid can be flattened, and the flattened surface of the fabric to be printed is favorable for improving the subsequent printing image quality. And the flattening operation and the fabric drying operation are completed in one mechanism, so that the operation time is reduced, and the operation efficiency is improved. In addition, because one set of hot pressing mechanism realizes two functions and only occupies one set of mechanism space, the overall size of the garment printer can be further reduced.

Optionally, in this embodiment, there are two hot pressing mechanisms, namely a left hot pressing mechanism and a right hot pressing mechanism, the left hot pressing mechanism is disposed above the left conveying guide rail 8, and includes a left driving cylinder, a left hot pressing plate 6 and a left flexible pressing pad; the right hot pressing mechanism is arranged above the right conveying guide rail 9 and comprises a right driving cylinder, a right hot pressing plate 7 and a right flexible pressing pad. The two hot pressing mechanisms are arranged, so that the working efficiency of the garment printer is improved.

Optionally, a ventilation structure is arranged on the hot pressing plate, and optionally, the ventilation structure may be a ventilation groove or a ventilation hole. The fabric wetted by the treatment fluid can be dried to a certain degree by the high temperature on the surface of the pressed hot pressing plate, and the treatment fluid steam gasified by heating can be diffused to the periphery through the ventilation grooves or the ventilation holes on the bottom surface of the hot pressing plate. Furthermore, the hot pressing plate can be provided with an air supply mechanism selectively, and air with certain speed and pressure can pass through the air permeable grooves or the air permeable holes on the bottom surface of the hot pressing plate, so that steam can be diffused quickly, and the drying effect is improved. In addition, the treatment fluid composition may be further activated by the application of heat to the fabric.

Further, the garment printer further comprises an air knife arranged on the base, and the air knife is arranged on the side of the hot-pressing mechanism. When the hot pressing mechanism carries out hot pressing operation, the air knife can assist in blowing air to the hot pressing mechanism. Optionally, the air knife comprises a left air knife 19 and a right air knife 20, the left air knife 19 is arranged on the side of the left hot pressing mechanism, and the right air knife 20 is arranged on the side of the right hot pressing mechanism.

When the left hot pressing mechanism and the right hot pressing mechanism flatten and dry the fabric wetted by the treatment solution, the steam in the heating area where the hot pressing mechanism and the air knife are located can be rapidly diffused outwards by multiple rapid lifting and pressing actions and combining with the air knife to assist in blowing, the shell 12 and the treatment solution baffle 18 form a relatively closed space in the lower area, and most of the evaporated treatment solution gas is discharged into a factory exhaust pipeline through the upper air suction opening 1201.

The embodiment also provides a ready-made garment printing process, which specifically comprises the following steps:

moving the fabric to be printed to a treatment liquid spraying mechanism, and spraying treatment liquid on the fabric to be printed by the treatment liquid spraying mechanism;

moving the fabric to be printed to a hot-pressing mechanism, and carrying out hot-pressing operation on the fabric to be printed by the hot-pressing mechanism;

moving the fabric to be printed to a white ink printing trolley 5, and carrying out white ink printing operation on the fabric to be printed by the white ink printing trolley 5;

the fabric which finishes the white ink printing is moved to the color ink printing trolley 4, and the color ink printing trolley 4 carries out color ink printing operation on the fabric.

Specifically, the method comprises the following steps: firstly, the conveying mechanism conveys the fabric to be printed to a treatment liquid spraying station below the second mounting beam 2, at least part of liquid spraying heads 3 of the treatment liquid spraying mechanism suck treatment liquid in a liquid storage barrel through a liquid guide pipe, and spray the treatment liquid to a specific area of the fabric to be printed; then, the conveying mechanism conveys the fabric to be printed, which is treated by the treatment liquid, to a hot pressing station below the third mounting cross beam 17, a driving cylinder of the hot pressing mechanism drives a hot pressing plate and a flexible pressing pad to descend for hot pressing of the fabric to be printed, so as to flatten and dry the fabric to be printed, and auxiliary air blowing can be performed by matching with a left air knife 19 and a right air knife 20; then, the conveying mechanism conveys the fabric to be printed to a white ink printing station below the second mounting cross beam 2, and the white ink printing trolley 5 performs white ink printing on the fabric to be printed; finally, the fabric printed by the white ink is conveyed to a color ink printing station below the first mounting beam 1 by the conveying mechanism, and the color ink printing trolley 4 prints the color ink on the fabric. The process has reasonable process arrangement, and the fabric printed by the process has good effect.

In more detail, the ready-made garment printing process comprises the following steps:

the bedplate carries the fabric to move along the conveying direction of the conveying guide rail and enters the ready-made clothes printer through an inlet and an outlet of the ready-made clothes printer;

the bedplate carries the fabric to move back and forth to the white ink printing trolley 5 along the direction opposite to the conveying direction of the conveying guide rail, and the white ink printing trolley 5 performs white ink printing operation on the hot-pressed fabric;

the bedplate carries the fabric to continuously move to the color ink printing trolley 4 along the direction opposite to the conveying direction of the conveying guide rail, and the color ink printing trolley 4 performs color ink printing operation on the fabric which is subjected to white ink printing;

the bedplate carries the fabric which finishes the color ink printing to move continuously along the direction opposite to the conveying direction of the conveying guide rail and moves out of the ready-made clothes printer through the inlet and the outlet.

Because the ready-made clothes printer only has an import and export, and white ink printing dolly 5 and color ink printing dolly 4 are close to this import and export setting, therefore the fabric of waiting to print gets into by ready-made clothes printer's import and export behind the ready-made clothes printer, linear motion sprays station and hot pressing station through the treatment fluid in proper order, and accomplishes in proper order spray treatment fluid operation with turn back after the hot pressing operation and remove to the direction of importing and exporting, turn back the fabric passes through white ink printing station and color ink printing station in proper order, and accomplishes in proper order white ink printing operation with follow behind the color ink printing operation import and export shift out the ready-made clothes printer.

The operation route of the ready-made clothes printer through the inlet and the outlet can be controlled by only one worker, so that the labor is reduced, and the labor cost is reduced.

In addition, when the ready-made clothes printer can be switched to a wet printing process according to requirements, the heating structure in the hot pressing plate is closed, and only the flattening function is kept, so that the flattening of the wet fabric on the bedplate can be realized, and the printing image quality is improved. In addition, the press plate can also flatten the fabric printed with white ink so as to improve the printing quality.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit 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

1. A garment printer, said garment printer having an access opening through which fabric to be printed enters said garment printer and through which printed fabric is removed from said garment printer;

the garment printer comprises:

mounting a cross beam;

the printing trolley, the treatment liquid spraying mechanism and the hot pressing mechanism are sequentially arranged on the mounting cross beam at intervals along the direction of the fabric entering the garment printer;

the treatment fluid spraying mechanism is used for spraying treatment fluid to the fabric to be printed, the hot pressing mechanism is used for carrying out hot pressing operation on the fabric to be printed, the printing trolley can move along the transverse direction of the mounting cross beam and can carry out white ink printing operation and/or color ink printing operation on the fabric to be printed.

2. Garment printer according to claim 1,

the fabric is configured to be capable of moving to the treatment liquid spraying mechanism, the hot pressing mechanism and the printing trolley in sequence; or

The fabric is configured to be movable to the heat pressing mechanism, the treatment liquid spraying mechanism, and the printing cart in this order.

3. Garment printer according to claim 1,

print the dolly and include that color ink prints dolly (4) and white ink and print dolly (5), color ink print dolly (4) with white ink print dolly (5) interval sets up on the installation crossbeam, just white ink print dolly (5) set up color ink print dolly (4) with between the processing liquid spraying mechanism, white ink print dolly (5) are used for after the hot pressing the fabric go on white ink prints the operation, color ink print dolly (4) are used for going on to the completion after the white ink prints the operation the fabric goes on color ink prints the operation.

4. Garment printer according to claim 3,

become clothing printer still includes shell (12) and base (13), shell (12) spiral-lock is in on base (13), shell (12) include the roof and by the roof to base (13) protruding left side board, posterior lateral plate and the right side board of establishing of direction, the roof the left side board the right side board with base (13) enclose to establish the formation exit, the installation crossbeam the treatment solution sprays the mechanism dolly (4) is printed to the color ink white ink print dolly (5) with hot pressing mechanism all is located in shell (12), just hot pressing mechanism is close to the posterior lateral plate sets up, color ink prints dolly (4) and is close to exit sets up.

5. Garment printer according to claim 4,

an air suction opening (1201) is formed in the shell (12), and the air suction opening (1201) is located above the hot pressing mechanism.

6. Garment printer according to claim 3,

the installation crossbeam includes follows the fabric gets into first installation crossbeam (1), second installation crossbeam (2) and third installation crossbeam (17) that the direction interval set up in proper order of ready-made clothe printer, color ink printing dolly (4) portable setting is in on first installation crossbeam (1), white ink printing dolly (5) movably sets up on second installation crossbeam (2), treatment fluid spraying mechanism sets up on second installation crossbeam (2), hot pressing mechanism sets up on third installation crossbeam (17).

7. Garment printer according to claim 6,

the treatment liquid spraying mechanism comprises a liquid storage barrel, a plurality of liquid guide pipes and a plurality of liquid spraying heads (3), the liquid spraying heads (3) are arranged on the second installation beam (2) at intervals, one ends of the liquid guide pipes are communicated with the liquid storage barrel, the other ends of the liquid guide pipes are communicated with the corresponding liquid spraying heads (3), and electromagnetic valves are arranged on the liquid guide pipes.

8. Garment printer according to claim 6,

and a treatment liquid baffle (18) is arranged on the second mounting cross beam (2), and the treatment liquid baffle (18) is used for blocking the treatment liquid sprayed by the treatment liquid spraying mechanism at one side of the second mounting cross beam (2) close to the third mounting cross beam (17).

9. Garment printer according to any one of claims 1-8,

the hot pressing mechanism comprises a liftable hot pressing plate, a heating structure is arranged in the hot pressing plate, and a flexible pressing pad is arranged on a hot pressing surface of the hot pressing plate.

10. Garment printer according to claim 9,

a ventilation structure is arranged on the hot pressing surface of the hot pressing plate;

the garment printer further comprises an air supply mechanism, wherein the air supply mechanism is communicated with the breathable structure and used for conveying gas with preset speed and preset pressure into the breathable structure.

11. Garment printer according to any one of claims 1-8,

the garment printer further comprises a conveying mechanism, the conveying mechanism comprises a conveying guide rail and a bedplate, the bedplate is connected to the conveying guide rail, and the fabric is placed on the bedplate.

12. Garment printer according to claim 11,

the number of the conveying guide rails is multiple, the conveying guide rails are arranged side by side, and each conveying guide rail is provided with at least one bedplate;

the quantity of hot pressing mechanism is a plurality of to the one-to-one sets up in a plurality of conveying guide's top.

13. Garment printer according to any one of claims 1-8,

the garment printer further comprises an air knife which is arranged on the side of the hot-pressing mechanism and used for blowing air to the hot-pressing mechanism.

14. A ready-to-wear printing process, characterized in that it comprises the following steps:

15. A ready-to-wear printing process, characterized in that it comprises the following steps:

16. A garment printing process according to claim 14 or 15, wherein the platen carries the fabric further in a direction opposite to the transport direction of the transport rail to a printing trolley, said printing trolley being capable of performing a printing operation on the fabric, comprising in particular the steps of:

the bedplate carries the fabric to move to a white ink printing trolley (5) along the direction opposite to the conveying direction of the conveying guide rail, and the white ink printing trolley (5) performs white ink printing operation on the fabric;

or the bedplate carries the fabric to move to a color ink printing trolley (4) along the direction opposite to the conveying direction of the conveying guide rail, and the color ink printing trolley (4) performs color ink printing operation on the fabric;

or the bedplate carries the fabric to move to a white ink printing trolley (5) along the direction opposite to the conveying direction of the conveying guide rail, the white ink printing trolley (5) carries out white ink printing operation on the fabric, the bedplate carries the fabric to continuously move to a color ink printing trolley (4) along the direction opposite to the conveying direction of the conveying guide rail, and the color ink printing trolley (4) carries out color ink printing operation on the fabric after the white ink printing is finished.