CN114670557B

CN114670557B - Garment printer and garment printing process

Info

Publication number: CN114670557B
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: 2023-07-21
Anticipated expiration: 2042-03-29
Also published as: CN114670557A

Abstract

The invention discloses a ready-made garment printer and a ready-made garment printing process, and belongs to the technical field of ready-made garment printing equipment. The ready-made clothes printer is provided with an inlet and an outlet, fabrics enter and exit the ready-made clothes printer through the inlet and the outlet, the ready-made clothes printer comprises a mounting cross beam, a printing trolley, a treatment fluid spraying mechanism and a hot pressing mechanism, and the printing trolley, the treatment fluid spraying mechanism and the hot pressing mechanism are sequentially arranged on the mounting cross beam at intervals along the direction that the fabrics enter the ready-made clothes printer. According to the ready-made clothes printer, only one inlet and outlet are arranged, and the printing trolley, the treatment fluid spraying mechanism and the hot pressing mechanism are reasonably distributed, so that all working procedures of the fabric are finished only by reciprocating the ready-made clothes printer back and forth, the working efficiency is improved, hot pressing operation with higher dangerous degree and spraying treatment fluid operation are far away from a user, and the safety is improved.

Description

Garment printer and garment printing process

The present application claims priority from patent application No. 202110349384.8 (the filing date of the prior application is 2021, 03 and 31, and the name of the present application is a ready-made garment printer and a ready-made garment printing process).

Technical Field

The invention relates to the technical field of garment printing equipment, in particular to a garment printer and a garment printing process.

Background

The printing technology of the garment printing equipment mainly comprises a dry printing technology and a wet printing technology. The dry forging process mainly comprises two implementation methods: 1. firstly spraying treatment liquid on the surface of a fabric to be printed in external equipment, then pressing the wet fabric to be printed in other external equipment so as to dry the surface of the fabric to be printed, and finally placing the dried fabric to be printed in the printing equipment for printing. The scheme needs a plurality of devices to cooperate, so that the total investment time and the cost of single-piece product production are high, and the occupied area of a factory building is large. 2. A plurality of mechanisms for respectively performing the spraying treatment liquid, the drying fabric surface and the flattening process are integrated into a printing apparatus, and all the processes are completed in one apparatus. However, the existing equipment executing the scheme has lower integration level, each procedure is realized by a set of mechanisms with single functions, and a plurality of mechanisms are in series connection in space, so that more space is occupied, and the manufacturing cost is higher.

Disclosure of Invention

An object of the present invention is to provide a garment printer which is high in integration, small in size, low in manufacturing degree, and high in printing efficiency.

To achieve the purpose, the invention adopts the following technical scheme:

a garment printer, the garment printer having an access port from which fabric to be printed enters the garment printer, the fabric after printing being removed from the garment printer; the ready-made clothes printer includes: mounting a cross beam; the printing trolley, the treatment fluid spraying mechanism and the hot pressing mechanism are sequentially arranged on the mounting cross beam at intervals along the direction that the fabric enters the ready-made clothes printer; the printing trolley can move transversely along the mounting cross beam and can perform white ink printing operation and/or color ink printing operation on the fabric to be printed.

Preferably, the fabric is configured to be movable to the treatment liquid spraying mechanism, the hot pressing mechanism, and the print carriage in this order; or the fabric is configured to be movable to the hot press mechanism, the treatment liquid spraying mechanism, and the print carriage 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 Bai Mo printing trolley are arranged on the mounting cross beam at intervals, the Bai Mo printing trolley is arranged between the color ink printing trolley and the treatment fluid spraying mechanism, the Bai Mo printing trolley is used for carrying out Bai Mo printing operation on the fabric after hot pressing, and the color ink printing trolley is used for carrying out color ink printing operation on the fabric after the Bai Mo printing operation is carried out.

Preferably, the ready-made clothes printer further comprises a shell and a base, wherein the shell is buckled on the base, the shell comprises a top plate, a left side plate, a rear side plate and a right side plate, the top plate is arranged to the direction of the base in a protruding mode, the top plate, the left side plate, the right side plate and the base enclose to form an inlet and an outlet, the mounting cross beam, the treatment fluid spraying mechanism, the color ink printing trolley, the Bai Mo printing trolley and the hot pressing mechanism are all located in the shell, the hot pressing mechanism is close to the rear side plate, and the color ink printing trolley is close to the inlet and the outlet.

Preferably, an air suction opening is formed in the shell, and the air suction opening is 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 garment printer, the color ink printing trolley is movably arranged on the first mounting cross beam, the Bai Mo printing trolley is movably arranged on the second mounting cross beam, the treatment 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, wherein the liquid spraying heads are arranged on the second mounting cross beam at intervals, one end of each liquid guide pipe is communicated with the liquid storage barrel, the other end of each liquid guide pipe is communicated with the corresponding liquid spraying head, and an electromagnetic valve is arranged on each liquid guide pipe.

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

Preferably, the hot pressing mechanism comprises a hot pressing plate capable of ascending and descending, 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.

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

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

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

Preferably, the garment printer further comprises an air knife, wherein the air knife is arranged at 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 garment printing process which prints a good fabric effect.

To achieve the purpose, the invention adopts the following technical scheme:

a garment printing process, the garment printing process comprising the steps of:

placing a fabric to be printed on a platen of a transport mechanism, the platen being movably disposed on a transport rail of the transport mechanism;

the platen carries the fabric to move along the conveying direction of the conveying guide rail and enter 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 turn back and move 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 print the fabric;

the fabric carried by the platen for printing continues to move in a direction opposite to the conveying direction of the conveying guide rail and moves out of the garment printer through the inlet and outlet.

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 continue to move to a print trolley along a direction opposite to the conveying direction of the conveying guide rail, and the print trolley can perform a print job on the fabric specifically comprises the following steps:

the platen 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 Bai Mo printing trolley performs white ink printing operation on the fabric;

or the platen carries the fabric and moves 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 platen 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 Bai Mo printing trolley performs white ink printing operation on the fabric, the platen 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 performs color ink printing operation on the fabric subjected to white ink printing.

The invention has the beneficial effects that:

the invention provides a ready-made clothes printer, which is characterized in that only one inlet and outlet is arranged, and the positions of a printing trolley, a treatment liquid spraying mechanism and a hot pressing mechanism are reasonably distributed, so that the printing trolley, the treatment liquid spraying mechanism and the hot pressing mechanism are sequentially arranged on a mounting cross beam at intervals along the direction that fabrics enter the ready-made clothes printer, the fabrics can sequentially complete all procedures of the treatment liquid spraying operation, the hot pressing operation and the printing operation only by reciprocating the ready-made clothes printer, the operation time is reduced, the operation efficiency is improved, and the hot pressing operation and the injection treatment liquid operation with higher danger degree are far away from the inlet and outlet of the ready-made clothes printer, so that users are far away from the inlet and outlet of the ready-made clothes printer, the users are prevented from contacting with hot air and treatment liquid in the hot pressing operation, and the safety is improved.

The invention also provides a ready-made clothes printing process, which is characterized in that the fabric to be printed is arranged on a platen of a conveying mechanism, the platen is movably arranged on a conveying guide rail of the conveying mechanism, the fabric is carried by the platen along the conveying direction of the conveying guide rail, and the fabric enters the ready-made clothes printer through an inlet and an outlet of the ready-made clothes printer and continuously moves to a hot pressing mechanism for hot pressing operation; then, the platen 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 moving to the treatment liquid spraying mechanism, continues to move to the printing trolley for printing, and continues to move and move out of the garment printer through the inlet and the outlet. The ready-made clothes printing process ensures that the fabric can finish all working procedures of treatment fluid spraying operation, hot pressing operation and printing operation only by reciprocating the ready-made clothes printer one time, reduces the working time and improves the working efficiency.

The invention also provides a ready-made clothes printing process, which is characterized in that the fabric to be printed is arranged on a platen of a conveying mechanism, the platen is movably arranged on a conveying guide rail of the conveying mechanism, the fabric is carried by the platen to move along the conveying direction of the conveying guide rail, and the fabric enters the ready-made clothes printer through an inlet and an outlet of the ready-made clothes printer, continuously moves to a treatment fluid spraying mechanism for spraying treatment fluid and continuously moves to a hot pressing mechanism for hot pressing; then, the platen carries the fabric to turn back along the direction opposite to the conveying direction of the conveying guide rail, and sequentially completes the movement to the printing trolley for printing operation, continues to move and moves out of the garment printer through the inlet and the outlet. The ready-made clothes printing process enables the fabric to sequentially complete all working procedures of treatment fluid spraying operation, hot pressing operation and printing operation only by reciprocating the ready-made clothes printer, reduces the working time and improves the working efficiency.

Drawings

Fig. 1 is a schematic diagram of a garment printer according to the present invention.

In the figure:

1. a first mounting beam; 2. a second mounting beam; 3. a liquid ejecting head; 4. color ink printing trolley; 5. white ink print 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 port; 13. a base; 14. the upper computer control system; 15. a lower computer control system; 16. a man-machine interaction mechanism; 17. a third mounting beam; 18. a treatment fluid baffle; 19. a left air knife; 20. right air knife.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and 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 explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixed or removable, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The embodiment provides a ready-made clothes printer, and this ready-made clothes printer can accomplish simultaneously spouts a plurality of processes such as treatment fluid, white ink printing, various ink printing, hot pressing stoving, and not only the integrated level is high, and production efficiency is high, and area is little, and can nimble adjustment process, print effectually.

As shown in fig. 1, the garment printer comprises a base 13, a housing 12, a mounting beam, a treatment fluid spraying mechanism, a print trolley, 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 mounting cross beams comprise a first mounting cross beam 1, a second mounting cross beam 2 and a third mounting cross beam 17 which are sequentially arranged at intervals, and the printing trolley comprises a color ink printing trolley 4 and a white ink printing trolley 5. The base 13 is a box body with a containing space, the bottom of the base is connected with supporting legs, the top of the base is provided with an object placing platform, and the first mounting cross beam 1, the second mounting cross beam 2, the third mounting cross beam 17, the treatment fluid spraying mechanism, the color ink printing trolley 4, the white ink printing trolley 5, the hot pressing mechanism, the conveying mechanism and the like are all arranged on the object placing platform.

In this embodiment, the housing 12 includes a top plate, a left side plate, a rear side plate and a right side plate, the top plate is parallel to the storage platform of the base 13, the left side plate is vertically connected to the left side of the top plate, the rear side plate is vertically connected to the rear side of the top plate, the right side plate is vertically connected to the right side of the top plate, and the left side plate, the rear side plate and the right side plate are all protruded in the direction of the base 13. The housing 12 is fastened on 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 trolley 4, the white ink printing trolley 5, the hot pressing mechanism, the conveying mechanism and the like is formed between the two. The top plate, the left side plate, the right side plate and the base 13 of the shell 12 are respectively provided with an inlet and an outlet for fabric to enter and exit the garment printer.

The arrangement of the housing 12 can play a protective role, prevent foreign matters such as dust from entering, and ensure the safety of staff. Of course, in other embodiments, the housing 12 may have a semi-cylindrical structure or other shapes, which are not specifically limited herein. And because the ready-made clothes printer is only provided with one inlet and outlet, the fabric to be printed enters the ready-made clothes printer from the inlet and outlet, and the ready-made clothes printer is moved out from the inlet and outlet after printing is finished, so that only one worker is positioned at the inlet and outlet, the ready-made clothes printer can be operated, and the labor cost is reduced.

The lower computer control system 15 and the upper computer control system 14 are both arranged in the base 13, and the lower computer control system and the upper computer control system are used for uniformly and cooperatively controlling 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 controllers may be a single-chip microcomputer or may be distributed multiple single-chip microcomputers, where a control program may be run to control each mechanism to implement the functions thereof.

The man-machine interaction mechanism 16 is arranged on the object placing platform and provides an entrance for operating the whole machine, setting relevant technological parameters, operating and maintaining and managing equipment and the like for operators. Alternatively, the man-machine interaction mechanism 16 may be a touch display screen, on which a plurality of control keys are disposed, and the spraying amount and the spraying area of the treatment liquid spraying mechanism, the hot-pressing time length and the hot-pressing range of the hot-pressing mechanism, and the working time length and the working range of the two beam trolleys are individually controlled by the control keys.

The conveying mechanism is arranged along the length direction of the object placing platform, and a color ink printing station, a white ink printing station, a treatment liquid spraying station and a hot pressing station are arranged on the conveying mechanism. The conveying mechanism is used for conveying the fabric to be printed into the shell 12 from the inlet and the outlet, and sequentially outputting the fabric from the inlet and the outlet after passing through a plurality of stations.

In this embodiment, the conveying mechanism includes a conveying rail and a platen, which is a rectangular plate-like structure on which a 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 be a pulley mechanism, a sprocket mechanism, or other mechanism capable of linear motion.

Alternatively, the number of the conveying mechanisms may be plural, and the plural conveying mechanisms are disposed at intervals along the width direction of the storage platform. The plurality of conveying mechanisms can simultaneously convey a plurality of fabrics to be printed, so that the production efficiency is improved. In the present embodiment, two conveying mechanisms of a left conveying structure including a left conveying rail 8 and a left platen 10 provided on the left conveying rail 8 and a right conveying mechanism including a right conveying rail 9 and a right platen 11 provided on the right conveying rail 9 are provided. The number of left platens 10 on the left conveyor rail 8 may be one or more and the number of right platens 11 on the right conveyor rail 9 may be one or more as well. Of course, in other embodiments, the conveying rail may be a circular rail, and each station is disposed along the circumference of the circular 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 arranged along the conveying direction of the conveying guide rail. The first mounting cross beam 1, the second mounting cross beam 2 and the third mounting cross beam 17 are fixedly arranged on the object placing platform along the width direction of the object placing platform and are used for fixedly mounting all mechanisms. In this embodiment, the first mounting beam 1 is in an inverted U-shaped structure, and is disposed above the color ink printing station, and the color ink printing trolley 4 is movably connected to the transverse plate of the first mounting beam 1 and can move along the width direction of the base 13, and the movable connection manner can be specifically realized through an electric guide rail, a motor, a ball screw mechanism, a belt pulley mechanism, and the like, which is not described herein.

In the present embodiment, the number of the color-ink-printing carriage 4 is one, and the color-ink-printing carriage 4 can perform color-ink printing on the fabric to be printed positioned on the left platen 10 and the right platen 11 by moving. Of course, in other embodiments, one color ink printing carriage 4 may be installed on each of the front and rear sides of the first mounting beam 1 to simultaneously print the fabric to be printed on the left platen 10 and the right platen 11, and of course, a greater number of color ink printing carriages 4 may be installed on the first mounting beam 1 according to the requirements, and each color ink printing carriage 4 may reciprocate within a partial range of the first mounting beam 1 to perform a printing operation.

The second mounting beam 2 is disposed on the white ink printing station and the treatment liquid spraying station, and has the same structure as that of the first mounting beam 1, and will not be described herein. The white ink printing trolley 5 is movably arranged on the second mounting cross beam 2, and the moving mode of the white ink printing trolley 5 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 carriage 5 is one, and the white ink printing carriage 5 can perform white ink printing on the fabric to be printed on the left platen 10 and the right platen 11 by moving. Of course, in other embodiments, a white ink printing carriage 5 may be installed on each of the front and rear sides of the second mounting beam 2, so as to print the fabric to be printed on the left platen 10 and the right platen 11 at the same time; of course, a greater number of white ink-printing dollies 5 may be mounted on the second mounting beam 2, as desired, each white ink-printing dolly 5 being reciprocally movable within a partial range of the second mounting beam 2 for performing a print job.

The treatment fluid spraying mechanism is arranged on the second mounting cross beam 2, and the white ink printing trolley 5 and the treatment fluid spraying mechanism are simultaneously mounted on the second mounting cross beam 2, so that the integration level of the garment printer is improved, the occupied space of the garment 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 trolley 5 and the color ink printing trolley 4 may be interchanged, that is, the white ink printing trolley 5 is mounted on the first mounting beam 1, and the color ink printing trolley 4 and the treatment liquid spraying mechanism are simultaneously mounted on the second mounting beam 2, so that the above effects can be achieved.

It should be noted that, when printing a certain piece of fabric, the white ink carriage 5 and the color ink carriage 4 may both participate in the print job, or only one of them may be used to participate in printing the fabric. That is, the fabric may be printed with only white ink or only color ink, or of course, both white ink and color ink. Preferably, in particular embodiments, if it is desired to print both white and colored ink, then the white ink is printed preferentially and then the colored ink is printed.

In addition, because the second installation crossbeam 2 is located between the first installation crossbeam 1 and the third installation crossbeam 17, consequently the second installation crossbeam 2 and the treatment fluid spraying mechanism on it are located the middle part of whole ready-made clothes printer, and the overall arrangement is more reasonable, can avoid the treatment fluid contact staff of splash 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 disposed on the second mounting beam 2, and is used for blocking the treatment liquid sprayed by the liquid spraying head 3 on one side, close to the third mounting beam 17, of the second mounting beam 2, so that the treatment liquid sprayed in a mist form is blocked, the treatment liquid is prevented from being diffused to a printing area positioned on the left side of the treatment liquid baffle 18, the treatment liquid is prevented from being corroded by the spray heads in the white ink printing trolley 5 and the color ink printing trolley 4, and the treatment liquid is prevented from being sprayed from an inlet and an outlet, so that the working safety of workers is ensured. In addition, since the rear end of the housing 12 is closed by the rear side plate, a semi-closed space is formed in the casing, and the treatment liquid barrier 18 is provided to make the closing effect of the semi-closed space better.

Specifically, the treatment fluid spraying mechanism comprises a liquid storage barrel, a plurality of liquid guide pipes and a plurality of liquid spray heads 3, wherein the liquid spray heads 3 are arranged on a transverse plate of the second mounting transverse beam 2 at intervals, the liquid guide pipes and the liquid spray heads 3 are arranged in a one-to-one correspondence mode, one end of each liquid guide pipe is communicated with the liquid storage barrel, the other end of each liquid guide pipe is communicated with the corresponding liquid spray head 3, and an electromagnetic valve is arranged on each liquid guide pipe to control the on-off of each liquid guide pipe. The plurality of liquid spraying heads 3 arranged in this embodiment are installed side by side, no lateral movement is needed, after the user inputs the data of the spraying area through the man-machine interaction mechanism 16, the upper computer control system 14 receives the instruction and then coordinates and controls the action of the electromagnetic valve with the corresponding number with the lower computer control system 15, the treatment liquid is conveyed upwards to the liquid spraying heads 3 through the liquid guide tube from the liquid storage barrel, and the fabric to be printed can be wetted after being atomized by the liquid spraying heads 3. Compared with the 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 transversely move, can cover the area to be sprayed at one time, reduces the operation time, improves the production efficiency of equipment, and controls the on-off of electromagnetic valves so as to control the liquid spraying heads 3 positioned at specific positions and in specific quantity to spray the treatment liquid, namely the spraying quantity and the spraying area on the fabric to be printed.

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

In the present embodiment, the thermo-compression mechanism is disposed in the semi-enclosed space in the housing 12 by being disposed on the cross plate of the third mounting cross member 17 so that the thermo-compression mechanism is disposed near the rear side plate of the housing 12. Because a large amount of steam can be generated when the hot pressing mechanism carries out hot pressing, the hot pressing mechanism is arranged close to the rear side plate, so that the steam can be limited between the treatment liquid baffle 18 and the rear side plate as much as possible, and the influence of the steam on the printing quality caused by the fact that the steam is greatly diffused to the white ink printing or color printing positions is avoided. Further, an exhaust port 1201 is provided on the housing 12, and the evaporated processing liquid gas after hot pressing is discharged from the inside of the garment printer through the exhaust port 1201 above the housing and discharged into the factory exhaust pipeline, so as to avoid affecting the printing effect and avoiding pollution.

In this embodiment, the hot pressing mechanism includes driving cylinder, hot pressing board and flexible pressure pad, and wherein, driving cylinder's cylinder body is fixed to be set up on third installation crossbeam 17, and the hot pressing board is fixed to be set up on driving cylinder's jar pole, and the inside of hot pressing board is provided with heating structure, and heating structure is used for drying fabric and temperature is controllable to the fabric can further activate the treatment fluid composition after being heated. Optionally, the heating structure can be a metal heating wire, and 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 execute flattening and heating actions; when the heating structure is turned off, 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 as to improve the flattening quality. Alternatively, the flexible pressure pad may be a soft rubber pad with good heat conducting properties.

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

Alternatively, in the present embodiment, two hot pressing mechanisms are provided, namely, a left hot pressing mechanism and a right hot pressing mechanism, and the left hot pressing mechanism is provided 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 can be a ventilation groove or ventilation holes. The fabric wetted by the treatment fluid can be dried to a certain extent at the high temperature on the surface of the pressed hot pressing plate, and the heated and gasified treatment fluid steam can be diffused to the periphery through the ventilation grooves or ventilation holes on the bottom surface of the hot pressing plate. Further, the hot pressing plate can be optionally provided with an air supply mechanism, and air with certain speed and pressure can pass through an air ventilation groove or an air ventilation hole on the bottom surface of the hot pressing plate to quickly diffuse steam, so that the drying effect is improved. In addition, the fabric may be heated to further activate the treatment fluid components.

Further, the ready-made clothes 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 performs hot pressing operation, the air knife can perform auxiliary blowing to the hot pressing mechanism. Optionally, the air knives include a left air knife 19 and a right air knife 20, the left air knife 19 is disposed at a side of the left hot press mechanism, and the right air knife 20 is disposed at a side of the right hot press mechanism.

When the left hot pressing mechanism and the right hot pressing mechanism flatten and dry the fabric wetted by the treatment liquid, steam in the heating area where the hot pressing mechanism and the air knife are positioned can be quickly and outwards diffused through multiple quick lifting and pressing actions and combining with the air knife for assisting blowing, a relatively airtight space is formed by the shell 12 and the treatment liquid baffle 18 in the lower area, and most of evaporated treatment liquid gas is discharged into a factory exhaust pipeline through the upper exhaust port 1201.

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

the fabric to be printed moves to a treatment liquid spraying mechanism, and the treatment liquid spraying mechanism sprays the treatment liquid on the fabric to be printed;

the fabric to be printed moves to a hot pressing mechanism, and the hot pressing mechanism carries out hot pressing operation on the fabric to be printed;

the fabric to be printed moves to the white ink printing trolley 5, and the white ink printing trolley 5 performs white ink printing operation on the fabric to be printed;

the fabric subjected to white ink printing is moved to a color ink printing trolley 4, and the color ink printing trolley 4 performs color ink printing operation on the fabric.

Specifically: firstly, a conveying mechanism conveys a fabric to be printed to a treatment liquid spraying station below a second mounting cross beam 2, at least part of liquid spraying heads 3 of the treatment liquid spraying mechanism absorb 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, and a driving cylinder of the hot pressing mechanism drives a hot pressing plate and a flexible pressing pad to descend so as to perform hot pressing on the fabric to be printed, so that the fabric to be printed is flattened and dried, and then auxiliary blowing can be performed by matching with the left air knife 19 and the right air knife 20; then, the conveying mechanism conveys the fabric to be printed to a Bai Mo printing station below the second mounting beam 2, and the white ink printing trolley 5 performs white ink printing on the fabric to be printed; finally, the conveying mechanism conveys the fabric subjected to white ink printing to a color ink printing station positioned below the first mounting cross beam 1, and the color ink printing trolley 4 performs color ink printing on the fabric. The process has reasonable arrangement and good effect of the fabric printed by the process.

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

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 platen carries the fabric to move along the conveying direction of the conveying guide rail and enter the garment printer through the inlet and outlet of the garment printer;

the bedplate carries the fabric and continuously moves to the 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 platen carries the fabric to continuously move to the 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;

the platen carries the fabric to turn back and move 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 fabric after hot pressing;

the platen carries the fabric to continue to 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 finished with white ink printing;

the fabric carrying the platen to complete color ink printing continues to move along the direction opposite to the conveying direction of the conveying guide rail and moves out of the garment printer through the inlet and outlet.

Because the ready-made clothes printer is provided with only one inlet and outlet, and the white ink printing trolley 5 and the color ink printing trolley 4 are arranged close to the inlet and outlet, after the fabric to be printed enters the ready-made clothes printer from the inlet and outlet of the ready-made clothes printer, the fabric moves linearly and sequentially through a treatment liquid spraying station and a hot pressing station, and sequentially finishes the operation of spraying treatment liquid and the hot pressing operation, and then turns back to move towards the direction of the inlet and outlet, and after turning back, the fabric sequentially passes through the white ink printing station and the color ink printing station, and sequentially finishes the Bai Mo printing operation and the color ink printing operation, and then moves out of the ready-made clothes printer from the inlet and outlet.

The operation path for entering and exiting the garment printer through the inlet and 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, namely, a heating structure in the hot pressing plate is closed, only a flattening function is reserved, and therefore the wet fabric on the platen can be flattened, and the printing image quality is improved. In addition, the pressing plate can also flatten the fabric after printing white ink so as to improve the printing image quality.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims

1. A garment printer, wherein the garment printer is provided with an inlet and an outlet, fabrics to be printed enter the garment printer from the inlet and the outlet, and the fabrics after being printed are moved out of the garment printer from the inlet and the outlet;

the ready-made clothes printer includes:

mounting a cross beam;

the printing trolley, the treatment fluid spraying mechanism and the hot pressing mechanism are sequentially arranged on the mounting cross beam at intervals along the direction that the fabric enters the ready-made clothes printer;

the hot pressing mechanism is used for carrying out hot pressing operation on the fabric to be printed, the printing trolley can move transversely along the mounting cross beam and can carry out white ink printing operation and/or color ink printing operation on the fabric to be printed;

the printing trolley comprises a color ink printing trolley (4) and a white ink printing trolley (5), the color ink printing trolley (4) and the Bai Mo printing trolley (5) are arranged on the mounting cross beam at intervals, the Bai Mo printing trolley (5) is arranged between the color ink printing trolley (4) and the treatment fluid spraying mechanism, the Bai Mo printing trolley (5) is used for carrying out Bai Mo printing operation on the fabric after hot pressing, and the color ink printing trolley (4) is used for carrying out the color ink printing operation on the fabric after Bai Mo printing operation is finished;

the ready-made clothes printer further comprises a shell (12) and a base (13), wherein the shell (12) is buckled on the base (13), the shell (12) comprises a top plate, a left side plate, a rear side plate and a right side plate which are convexly arranged from the top plate to the base (13), the top plate, the left side plate, the right side plate and the base (13) are surrounded to form an inlet and an outlet, the mounting cross beam, the treatment fluid spraying mechanism, the color ink printing trolley (4), the Bai Mo printing trolley (5) and the hot pressing mechanism are all positioned in the shell (12), the hot pressing mechanism is arranged close to the rear side plate, and the color ink printing trolley (4) is arranged close to the inlet and the outlet;

the mounting cross beams comprise a first mounting cross beam (1), a second mounting cross beam (2) and a third mounting cross beam (17) which are sequentially arranged at intervals along the direction that the fabric enters the garment printer, the color ink printing trolley (4) is movably arranged on the first mounting cross beam (1), the Bai Mo printing trolley (5) is movably arranged on the second mounting cross beam (2), the treatment fluid spraying mechanism is arranged on the second mounting cross beam (2), and the hot pressing mechanism is arranged on the third mounting cross beam (17);

the second mounting cross beam (2) and the treatment liquid spraying mechanism thereon are positioned in the middle of the whole garment printer.

2. A garment printer as claimed in claim 1, wherein,

the fabric is configured to be movable to the treatment liquid spraying mechanism, the hot pressing mechanism, and the print carriage in this order; or alternatively

The fabric is configured to be movable to the hot press mechanism, the treatment liquid spraying mechanism, and the print carriage in this order.

3. A garment printer as claimed in claim 1, wherein,

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

4. A garment printer as claimed in claim 1, wherein,

the treatment fluid spraying mechanism comprises a liquid storage barrel, a plurality of liquid guide pipes and a plurality of liquid spraying heads (3), wherein the liquid spraying heads (3) are arranged on the second mounting cross beam (2) at intervals, one end of each liquid guide pipe is communicated with the liquid storage barrel, the other end of each liquid guide pipe is communicated with the corresponding liquid spraying head (3), and an electromagnetic valve is arranged on each liquid guide pipe.

5. A garment printer as claimed in claim 1, wherein,

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

6. A garment printer as claimed in any one of claims 1 to 5, wherein,

the hot pressing mechanism comprises a hot pressing plate capable of lifting, 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.

7. The garment printer of claim 6, wherein,

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

the ready-made clothes printer further comprises an air supply mechanism, wherein the air supply mechanism is communicated with the ventilation structure and is used for conveying air with preset speed and preset pressure into the ventilation structure.

8. A garment printer as claimed in any one of claims 1 to 5, wherein,

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

9. The garment printer of claim 8, wherein,

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 number of the hot pressing mechanisms is multiple, and the hot pressing mechanisms are arranged above the conveying guide rails in a one-to-one correspondence manner.

10. A garment printer as claimed in any one of claims 1 to 5, wherein,

the ready-made clothes printer further comprises an air knife, wherein the air knife is arranged on the side of the hot pressing mechanism and used for blowing air to the hot pressing mechanism.

11. A garment printing process based on a garment printer according to any one of claims 1-10, characterized in that the garment printing process comprises the steps of:

12. A garment printing process based on a garment printer according to any one of claims 1-10, characterized in that the garment printing process comprises the steps of:

13. Garment printing process according to claim 11 or 12, wherein the platen carries the fabric to continue moving in a direction opposite to the conveying direction of the conveying rail to a print carriage capable of printing the fabric, comprising in particular the steps of:

the platen 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 Bai Mo printing trolley (5) performs white ink printing on the fabric;

or the platen 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 platen 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 Bai Mo printing trolley (5) performs white ink printing on the fabric, the platen carries the fabric to continue 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 on the fabric which completes white ink printing.