CN209869671U - Digital textile printing machine - Google Patents

Abstract

The utility model provides a digital calico printing machine of fabrics, include arm, platen conveying mechanism, scald and press the mechanism, scrape the seal mechanism, spraying mechanism, printing mechanism, platen conveying mechanism is used for bearing and carrying the fabrics, the arm has one at least and is formed with scald and press the mechanism, scrape the seal mechanism, spraying mechanism, wherein, scald and press the mechanism and be used for scalding the fabric, scrape the seal mechanism and be used for scraping thick liquids and seal the fabrics is last, spraying mechanism is used for scald mechanism implement scald press before spray to with the treatment solution spray on the fabrics and be used for with water spout extremely on the thick liquids, printing mechanism for print the pattern scrape after the seal or scald after the fabrics on. The utility model provides a fabrics digital printing machine can solve the equipment that exists in the current digital printing technique and integrate degree, need many people's cooperative problem.

Description

Digital textile printing machine

Technical Field

The utility model discloses calico printing machine technical field, concretely relates to fabrics digital printing machine.

Background

In order to obtain a good printing effect in the digital printing technology, treatment processes such as spraying treatment liquid, scraping white paste, drying, ironing and the like are added before digital printing according to factors such as the color of a textile, the textile type and the like so as to realize an ideal printing effect.

In the current market, a platform digital printing device is usually adopted or a large-scale printing device is additionally provided with a digital printing device to realize a local process, other processes can be realized only by being provided with other independent devices or processes, such as a treating fluid spraying machine, a tunnel drying machine, a pressing machine, an artificial silk screen scraping and printing machine and the like, the integral integration degree of the printing machine is low, so that the problems of low working efficiency, large occupied area of the device and coordinated operation of multiple persons exist, the reject ratio of products is further increased, and the consistency of the product quality is reduced.

Disclosure of Invention

An object of the utility model is to provide a fabrics digital printing machine to solve the equipment that exists among the current digital printing technique and integrate degree, need many people's problem of cooperation.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

a digital textile printing machine comprises a mechanical arm, a platen conveying mechanism, an ironing mechanism, a scraping mechanism, a spraying mechanism and a printing mechanism, wherein the platen conveying mechanism is used for bearing and conveying textiles, the mechanical arm is at least provided with one ironing mechanism, scraping mechanism and spraying mechanism, the ironing mechanism is used for ironing the textiles, the scraping mechanism is used for scraping and printing sizing agent on the textiles, the spraying mechanism is used for spraying treatment liquid on the textiles and spraying water on the sizing agent before the ironing mechanism carries out ironing, and the printing mechanism is used for printing patterns on the textiles after scraping or ironing.

Further, the arm is formed with the outer support, middle support, the inboard support that set gradually and is used for driving middle support is two the first telescopic machanism of reciprocal translation between outer support, the inboard support, outer support, inboard support all are formed with first fixing base and are used for driving the second telescopic machanism that first fixing base goes up and down, first fixing base is with the installation scrape the half tone in the seal mechanism, middle support is formed with nozzle, second fixing base in the spraying mechanism and be used for driving the third telescopic machanism that the second fixing base goes up and down, the second fixing base is used for installing scald press the mechanism with scrape the scraper in the seal mechanism.

Further, the bedplate conveying mechanism comprises a plurality of annular-array bedplate and a slewing mechanism for driving the bedplate to rotate.

Furthermore, two mechanical arms are formed above the platen conveying mechanism, and an included angle between the two mechanical arms is consistent with an included angle between adjacent platens.

Furthermore, the textile digital printing machine comprises a base, wherein a base used for installing the bedplate conveying mechanism and the mechanical arm is formed on the base.

Furthermore, the digital textile printing machine comprises an operation console capable of moving relative to the base, a liquid storage tank in the spraying mechanism is formed at the bottom of the operation console, and a controller for controlling the working states of the platen conveying mechanism, the ironing mechanism, the scraping mechanism and the spraying mechanism is formed at the top of the operation console.

Further, the base is formed with a clasping mechanism for limiting rotation of the swing mechanism.

Further, the base is provided with at least one drying oven for heating the textile.

Furthermore, one oven is formed on the inner side of the included angle between the two mechanical arms, the other oven is formed on the outer side of the included angle between the two mechanical arms, and the printing mechanism is located between the mechanical arm and the other oven.

Compared with the prior art, the utility model discloses an advantage and beneficial effect are:

the utility model discloses fabrics digital printing machine is through forming on the arm and scalding mechanism, scrape seal mechanism, spraying mechanism, the integrated realization on a fabrics digital printing machine of technological process that will spray the treatment fluid and the technological process that needs the silk screen to scrape the seal thick liquids, the degree of integrating of this equipment has been improved, the handling of fabrics between digital printing machine and treatment fluid flush coater has been avoided, the flow of artifical silk screen scraping seal has been avoided, the improvement of production efficiency has been ensured, personnel's use has been reduced, be favorable to promoting product quality's uniformity, reduce the defective rate of product.

When the technological process of spraying the treatment liquid is needed, firstly, the spraying mechanism on the mechanical arm is used for spraying the treatment liquid on the textile conveyed by the bedplate conveying mechanism, after the treatment liquid is sprayed, the ironing mechanism on the mechanical arm is used for ironing the textile, and after the ironing is finished, the printing mechanism is used for printing patterns on the textile.

When the technological process of screen scraping and printing the sizing agent is needed, firstly, the sizing agent is scraped and printed on the textile conveyed by the bedplate conveying mechanism by the scraping mechanism on the mechanical arm, after the automatic screen scraping and printing, the pattern is printed on the textile by the printing mechanism, and during the period, in order to realize the moisture preservation of the sizing agent, water can be sprayed on the sizing agent by the spraying mechanism. The two different processes before the textile printing can be selectively implemented on the same equipment, the automation degree is higher, the single-person operation can be realized, and the practicability is higher.

Other features and advantages of the present invention will become more apparent from the following detailed description of embodiments of the invention, which is to be read in connection with the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a digital textile printing machine according to an embodiment of the present invention;

FIG. 2 is a top view of a digital textile printing machine according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a robot arm according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an outer bracket according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an intermediate frame according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a base according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention.

In order to solve the problems of integration degree of equipment and requirement of cooperation of multiple persons existing in the existing digital printing technology, the present embodiment provides a digital textile printing machine, as shown in fig. 1 and 2, comprising a mechanical arm 10, a platen conveying mechanism 20, an ironing mechanism, a scraping mechanism, a spraying mechanism and a printing mechanism 30.

As shown in fig. 2, the platen transport mechanism 20 is used to carry and transport textiles, which may be implemented using an existing reciprocating translation mechanism, such as a conveyor belt, in an embodiment of the present invention. In order to avoid long-distance walking of workers when monitoring the working state of the printing machine, in the embodiment, the rotating mechanism is used for realizing reciprocating rotation of the textile, the platen conveying mechanism 20 specifically comprises five annular-array platens 21 and the rotating mechanism for driving the platens 21 to rotate, and the specific implementation of the rotating mechanism can refer to the prior art, and the platens 21 are used for bearing the textile and the textile is driven by the rotating mechanism to ensure that the textile can be stably conveyed to corresponding positions below the ironing mechanism, the scraping and printing mechanism, the spraying mechanism and the printing mechanism 30.

As shown in fig. 3, mechanical arm 10 is used for integrated installation ironing mechanism, scraping printing mechanism, spraying mechanism, the utility model discloses an embodiment can set up a plurality of mechanical arms 10 as required, realizes the simplification of calico printing machine structure in order to ensure the functional requirement, and this embodiment specifically is formed with two mechanical arms 10 in platen conveying mechanism 20's top, and the contained angle between two mechanical arms 10 is unanimous with the contained angle between the adjacent platen 21, is 72.

In this embodiment, the ironing mechanism, the scraping mechanism, and the spraying mechanism may be mounted on both the two mechanical arms 10. Ironing mechanism is used for scalding and ironing the fabrics, scrapes seal mechanism and is used for scraping thick liquids and seal on the fabrics, and at the technological process that sprays treatment fluid, spraying mechanism is used for spraying treatment fluid to the fabrics before ironing mechanism implements to scald and iron, and at the technological process that silk screen scraped seal thick liquids, spraying mechanism is used for spraying water to thick liquids on, and the staff can adjust the operating condition of each mechanism according to actual need.

Referring to the prior art, in order to simplify the structure and ensure that the mechanisms do not interfere with each other, in this embodiment, an outer bracket 11, a middle bracket 12, and an inner bracket 13 are particularly sequentially disposed on the robot arm 10 along the length direction thereof, and a first telescopic mechanism 14 capable of driving the middle bracket 12 to reciprocate between the outer bracket 11 and the inner bracket 13 is further formed on the robot arm 10.

As shown in fig. 3 and 4, the outer bracket 11 and the inner bracket 13 are both formed with a first fixing seat 15 and a second telescopic mechanism 16 for driving the first fixing seat 15 to ascend and descend. The first fixing seat 15 on the outer support 11 is disposed opposite to the first fixing seat 15 on the inner support 13, and is used to fix and mount the screen plate in the scraping and printing mechanism, in this embodiment, the first fixing seat 15 is specifically implemented by using a groove-shaped strip that can accommodate an end portion of the screen plate and a locking bolt that is screwed onto the groove-shaped strip, and in some embodiments, the first fixing seat may also be implemented by using a mechanical clamping jaw or an elastic clamp.

The middle bracket 12 is formed with a nozzle 17 in the spraying mechanism, a second fixed seat 18 and a third telescopic mechanism 19 for driving the second fixed seat 18 to ascend and descend. The second fixing seat 18 is used for installing a scraper in the ironing mechanism or the scraping and printing mechanism according to actual needs, and can be clamped or connected by screws for facilitating disassembly and assembly.

In the process of spraying the treatment solution, an ironing mechanism is mounted on the second fixing base 18, the first telescopic mechanism 14 is used to drive the middle support 12 to move horizontally between the outer support 11 and the inner support 13, the spraying mechanism is started, the treatment solution can be uniformly sprayed on the textile below the middle support through the nozzle 17, for uniform spraying, a plurality of nozzles 17 are arranged at equal intervals in the embodiment, the ironing mechanism is lowered onto the textile through the third telescopic mechanism 19, the ironing mechanism is started to iron the surface of the textile, for orderly process, the spraying mechanism on one mechanical arm 10 can be used to perform spraying operation, and the ironing mechanism on the other mechanical arm 10 can be used to perform ironing operation.

In the process of scraping and printing the slurry by the silk screen, the screen is fixed between two first fixing seats 15, the scraper is installed on the second fixing seat 18, after the slurry is added on the screen, the screen is descended to the textile below the screen by using the second telescopic mechanism 16, the scraper is descended to the screen below the scraper by using the third telescopic mechanism 19, and the scraper is driven by the first telescopic mechanism 14 to move from the outer support 11 to the inner support 13, so that the scraping and printing of the slurry are realized. After finishing the screen printing, because the scraper piles up the thick liquids on the half tone at its one end, in order to make things convenient for next use, reduce manual operation, still can install on middle support 12 and cover the black sword, after utilizing third telescopic machanism 19 to rise the scraper and break away from the half tone, drive through first telescopic machanism 14 and cover the black sword and move to outside support 11 by inboard support 13, realize evenly covering the thick liquids on the half tone, and the distance between half tone and the black sword can be adjusted through second telescopic machanism 16. Specifically, the embodiment of the utility model provides an in first telescopic machanism 14, second telescopic machanism 16 and third telescopic machanism 19 all can adopt mechanisms such as pneumatic cylinder, cylinder and electronic guide rail to realize, in order to guarantee the stationarity of operation, first telescopic machanism 14, second telescopic machanism 16 and third telescopic machanism 19 are the cylinder structure in this embodiment.

As shown in fig. 1 and 6, in order to fix the robot arm 10 and the platen conveying mechanism 20 together and facilitate the overall movement of the textile printing machine, the textile digital printing machine of the embodiment further includes a base 40, a base 50 for mounting the platen conveying mechanism 20 and the robot arm 10 is formed on the base 40, specifically, the base 50 may include a lower mounting frame 51, an upper mounting frame 52 and a rotating shaft 53 connected between the lower mounting frame 51 and the upper mounting frame 52, the lower mounting frame 51 is connected to the base 40, the rotating mechanism is mounted on the rotating shaft 53 by a bushing and can be supported by the lower mounting frame 51, and the two robot arms 10 are mounted on the upper mounting frame 52.

In order to prevent the table conveying mechanism 20 from shaking during ironing, spraying treatment liquid or screen printing, the present embodiment further forms a holding mechanism for restricting the rotation of the swing mechanism on the base 50, the tightening mechanism of the present embodiment comprises a limiting block and a fourth telescopic mechanism for driving the limiting block to ascend and descend, the fourth telescopic mechanism can also be a cylinder structure, the fourth telescopic mechanism is installed on the upper installation frame 51 of the base 50, after the revolving mechanism drives the bedplate 21 to rotate in place, the fourth telescopic mechanism drives the limiting block to extend out of and tightly push the revolving mechanism or form insertion fit with the revolving mechanism so as to ensure that the bedplate conveying mechanism 20 keeps still, in order to facilitate the control of the fourth telescoping mechanism by the staff, the embodiment is further provided with a foot switch capable of controlling the fourth telescoping mechanism to ascend and descend.

In order to facilitate the operation of the worker, the digital textile printing machine of the embodiment further includes an operation console 60 capable of moving relative to the base 40, a liquid storage tank in the spraying mechanism is formed at the bottom of the operation console 60, the liquid storage tank is connected with the nozzle 17 through a pipeline, the worker can add treatment liquid or water into the liquid storage tank according to different processes, and a controller for controlling the working states of the platen conveying mechanism 20, the ironing mechanism, the scraping mechanism and the spraying mechanism is formed at the top of the operation console 60, so that the worker can control or monitor the working state of the digital textile printing machine in real time.

In order to improve printing efficiency, print quality, the embodiment of the utility model provides an in still can install oven 70 that heating fabrics was used on base 50, specifically, this embodiment has installed two ovens 70 on the last mounting bracket 51 of base 50, two ovens 70 are main oven 70 respectively, oven 70 in advance, wherein, oven 70 in advance is located the inboard of two arm 10 contained angles, oven 70 in advance is located the outside of two arm 10 contained angles, and still set up printing mechanism 30 between arm 10, main oven 70, prior art can be referred to in printing mechanism 30's concrete realization.

In the process of spraying the treatment solution, the platen conveying mechanism 20 firstly conveys the textile to the position below one mechanical arm 10, after the treatment solution is sprayed by the spraying mechanism on the mechanical arm 10, the textile is conveyed to the position below the pre-drying box 70 by the platen conveying mechanism 20, the treatment solution on the surface of the textile is heated, so that the treatment solution can better permeate into the textile, then the textile is conveyed to the position below the other mechanical arm 10 by the platen conveying mechanism 20, after the ironing is implemented by the ironing mechanism on the other mechanical arm 10, the textile is conveyed to the position below the printer by the platen conveying mechanism 20, after the printing is implemented by the printing mechanism 30, the textile is conveyed to the position below the main drying box 70 by the platen conveying mechanism 20, and the drying time of ink is shortened by drying the printed textile, so that the printing efficiency is improved.

In the technical process of screen printing paste scraping, the bedplate conveying mechanism 20 firstly conveys textiles to the position below one mechanical arm 10, after scraping printing is carried out by the scraping printing mechanism on the mechanical arm 10, the bedplate conveying mechanism 20 conveys the textiles to the position below the pre-drying box 70, the penetration and pre-drying of the paste are accelerated by heating the paste scraped on the surfaces of the textiles, the firmness of the paste covering the surfaces of the textiles is increased, then the bedplate conveying mechanism 20 conveys the textiles to the position below the printing mechanism 30, after printing is carried out by the printing mechanism 30, the bedplate conveying mechanism 20 conveys the textiles to the position below the main drying box 70, and the printed textiles are dried to shorten the drying time of ink and improve the printing efficiency.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A digital textile printing machine, comprising:

at least one of the mechanical arms is provided with a mechanical arm,

a bedplate conveying mechanism for bearing and conveying the textile,

an ironing mechanism formed at the mechanical arm for ironing the textile,

a scraping and printing mechanism formed on the mechanical arm and used for scraping and printing the sizing agent on the textile,

a spraying mechanism formed at the mechanical arm for spraying a treatment liquid onto the textile and for spraying water onto the slurry before the ironing mechanism performs ironing,

and the printing mechanism is used for printing the pattern on the scraped or ironed textile.

2. A digital textile printing machine according to claim 1, wherein the robotic arm is formed with an outer support, an intermediate support, an inner support, and a first telescoping mechanism for driving the intermediate support to translate back and forth between the two outer and inner supports,

the outer side bracket and the inner side bracket are both provided with a first fixed seat and a second telescopic mechanism for driving the first fixed seat to lift, the first fixed seat is used for installing a screen printing plate in the scraping and printing mechanism,

the middle support is provided with a nozzle in the spraying mechanism, a second fixed seat and a third telescopic mechanism used for driving the second fixed seat to lift, and the second fixed seat is used for installing the ironing mechanism and a scraper in the scraping and printing mechanism.

3. A digital textile printing machine according to claim 1, wherein the platen conveyor comprises a plurality of annular arrays of platens and a turntable for rotating the platens.

4. A digital textile printing machine according to claim 3, wherein two mechanical arms are formed above said platen conveyor, the angle between two of said mechanical arms being the same as the angle between adjacent platens.

5. A textile digital printing machine according to claim 4, comprising a base formed with a base for mounting the platen transport mechanism, robotic arm.

6. A digital textile printing machine according to claim 5, comprising an operating console which is movable relative to the base, wherein a liquid storage tank in the spraying mechanism is formed at the bottom of the operating console, and a controller for controlling the working states of the platen conveying mechanism, the ironing mechanism, the scraping mechanism and the spraying mechanism is formed at the top of the operating console.

7. A textile digital printing machine according to claim 5, characterized in that the base is formed with a clasping mechanism for restricting rotation of the swing mechanism.

8. A digital textile printing machine according to claim 5, wherein said base is further provided with at least one oven for heating said textile.

9. A digital textile printing machine according to claim 8, wherein one of said ovens is formed on the inside of two of said included angles of the arms, the other oven is formed on the outside of the included angles of the arms, and said printing mechanism is located between said arm and the other oven.