阅读说明：本技术 一种棉纺织连续自动印烫设备 (Continuous automatic seal of cotton weaving scalds equipment ) 是由 漆娇 于 2021-09-23 设计创作，主要内容包括：本发明公开了一种棉纺织连续自动印烫设备,涉及纺织品技术领域,包括安装座,安装座由减震板及安装在减震板底部的驻车轮构成,安装座的顶部安装有转接机构,转接机构由转向电机、减振筒架、电箱和槽架构成,槽架为四组并呈两两对称状安装于减震板表面,电箱安装于减震板边缘的槽架之间,转向电机安装于减震板的中心位置,且减振筒架安装于转向电机端部；槽架顶端的边缘位置安装有四组调整机构；减振筒架的顶部设有转向机构和提升机构,不仅能够实现自动化连续作业,同时在操作过程中,能够使得图案薄膜很方便的进行吸附和上料,且能够有效对印烫的产品进行对其调整和卸料,有效提高了加工效率。(The invention discloses continuous automatic printing and ironing equipment for cotton textiles, which relates to the technical field of textiles and comprises a mounting seat, wherein the mounting seat is composed of a damping plate and parking wheels arranged at the bottom of the damping plate; four groups of adjusting mechanisms are arranged at the edge position of the top end of the slot frame; the top of damping barrel holder is equipped with steering mechanism and hoist mechanism, not only can realize automatic continuity of operation, simultaneously in operation process, can make very convenient the adsorbing of pattern film and material loading, and can effectively carry out the adjustment to it and unload to the product of seal ironing, effectively improved machining efficiency.)

1. The utility model provides a continuous automatic seal of cotton spinning scalds equipment, includes mount pad (1), mount pad (1) comprises damping plate (12) and install parking wheel (11) in damping plate (12) bottom, its characterized in that: the top of the mounting seat (1) is provided with a switching mechanism (2), the switching mechanism (2) consists of four steering motors (21), vibration reduction barrel frames (22), an electric box (23) and groove frames (24), the groove frames (24) are arranged on the surface of the vibration reduction plate (12) in a pairwise symmetrical manner, the electric box (23) is arranged between the groove frames (24) at the edge of the vibration reduction plate (12), the steering motors (21) are arranged at the central position of the vibration reduction plate (12), and the vibration reduction barrel frames (22) are arranged at the end parts of the steering motors (21); four groups of adjusting mechanisms (5) are arranged at the edge position of the top end of the groove frame (24); the top of damping mount (22) is equipped with steering mechanism (7) and hoist mechanism (6), steering mechanism (7) comprises motor mount pad (71), bogie (72) and deep groove ball bearing (73), bogie (72) are connected on cell frame (24) top, the transmission shaft of steering motor (21) is connected with motor mount pad (71) through deep groove ball bearing (73), motor mount pad (71) bottom is connected with damping mount (22), leans on four groups locking mechanical system (4) are installed at the edge at bogie (72) top, four groups stamp-iron mechanism (3) are installed at the edge of hoist mechanism (6).

2. The continuous automatic printing and ironing device for cotton textiles according to claim 1, characterized in that: hoist mechanism (6) comprise matrix slide rail (60), lifting motor (61), promotion auger (62), promotion piece (63) and spacing axle (64), install in matrix slide rail (60) top lifting motor (61), and the transmission axle head of promoting motor (61) is connected with promotion auger (62), it is upright to install the central point in matrix slide rail (60) to promote auger (62), promote piece (63) and set up in four sides of matrix slide rail (60) to with promote and keep relative swing joint between auger (62), spacing axle (64) are the symmetry and install in four sides of matrix slide rail (60) to run through promotion piece (63) and connect through linear bearing.

3. The continuous automatic printing and ironing device for cotton textiles according to claim 1, characterized in that: the hot stamping mechanism (3) is composed of an electric heating plate (30), an electric heater (31), a hot stamping panel (32) and a supporting arm A (33), one end of the supporting arm A (33) is connected to one side of the lifting block (63), the bottom of the other end of the supporting arm A (33) is connected with the electric heating plate (30), the hot stamping panel (32) is attached to the bottom of the electric heating plate (30), and the electric heater (31) is installed at the top of the electric heating plate (30).

4. The continuous automatic printing and ironing device for cotton textiles according to claim 1, characterized in that: locking mechanical system (4) comprise locating frame (40), support arm B (41), electrostatic adsorption device (42), seal face hole (43), rubber slab (44), reset spring (45) and electric putter (46), locating frame (40) fixed connection is in one side of support arm B (41), electric putter (46) are installed in the intermediate position of support arm B (41), reset spring (45) are the symmetry and set up in the both ends of support arm B (41), just reset spring (45) and electric putter (46) both ends correspond respectively and are connected with support arm B (41) and bogie (72), the front side in locating frame (40) is installed in electrostatic adsorption device (42), rubber slab (44) laminating is connected in the bottom of locating frame (40), the central point that locating frame (40) was seted up in seal face hole (43).

5. The continuous automatic printing and ironing device for cotton textiles according to claim 1, characterized in that: adjustment mechanism (5) comprise seal bed (51), commentaries on classics frame (52), adjustment disk (53), seal bed board (54), pivot (55), adjustment disk motor (56) and pivot motor (57), install in chute carrier (24) tip one side in seal bed (51) one side, change frame (52) and adjustment disk (53) and be the embedded intermediate position of installing in seal bed (51), just change frame (52) and be connected with seal bed (51) through pivot (55), pivot motor (57) are connected in pivot (55) one end and are driven seal bed (51) upset through pivot (55), the bottom in adjustment disk (53) is installed in adjustment disk motor (56), seal bed board (54) are installed in adjustment disk (53) surface.

6. The continuous automatic printing and ironing device for cotton textiles according to claim 3, characterized in that: the edge of the ironing panel (32) is provided with a steam plate (34) in a surrounding mode, and the steam plate (34) is provided with a plurality of air holes (35) which are evenly distributed.

7. The continuous automatic printing and ironing device for cotton textiles according to claim 4, characterized in that: the electrostatic adsorption device (42) is composed of a micro motor (421), a transmission roller (422) and a hairbrush (423), the micro motor (421) is installed on one side of the positioning frame (40), the transmission roller (422) is installed on the front side of the positioning frame (40), the micro motor (421) and the transmission roller (422) are in belt transmission, and the hairbrush (423) is arranged on the surface of the transmission roller (422) and is in contact with the rubber plate (44).

8. The continuous automatic printing and ironing device for cotton textiles according to claim 5, characterized in that: the adjustable disc (53) is composed of a turntable base (531), a turntable surface (532) and a damping disc (533), the adjustable disc (53) is embedded in the rotary frame (52), the turntable base (531) is connected with the rotary frame (52) through the damping disc (533), the turntable base (531) is movably connected with the turntable surface (532) through a bearing assembly, and a transmission shaft of the adjustable disc motor (56) penetrates through the rotary frame (52) and the turntable base (531) and is connected with the turntable surface (532).

9. The continuous automatic printing and ironing device for cotton textiles according to claim 6, characterized in that: the steam plate (34) is slightly concave to the ironing panel (32), and the air holes (35) are connected to the electric heater (31) through pipelines.

10. The continuous automatic printing and ironing device for cotton textiles according to claim 5, characterized in that: the printing plate (54) is attached to the surface of the rotary table surface (532), and the surface of the printing plate (54) is provided with textures.

Technical Field

The invention relates to the technical field of textiles, in particular to continuous and automatic printing and ironing equipment for cotton textiles.

Background

The cotton textile industry plays an important role in the national economic development process of China, which spans two production fields of agriculture and industry, relates to multiple links of cotton production, cotton ginning, spinning, weaving, printing and dyeing, garment making, terminal consumption and the like, and has become one of the main industries of national economic development of China.

The current stamping machine can only carry out single seal in proper order, and domestic this kind of stamping machine of current can't satisfy current production requirement far away, and manual operation stamping machine makes pattern film go up unloading slower on, and the product need align the adjustment when seal scalds in addition, and the product must carry out the manual work after the end and unload, and the operation is complicated embarrassed to the seal scalds machining efficiency who leads to the product is low.

Disclosure of Invention

Therefore, in order to solve the above defects, the invention provides a continuous and automatic cotton textile printing and ironing device, which not only can realize automatic continuous operation, but also can conveniently adsorb and feed a pattern film in the operation process, can effectively adjust and unload printed and ironed products, and effectively improves the processing efficiency.

The invention is realized in this way, construct a cotton textile and print and scald the apparatus continuously automatically, including the mount pad, the mount pad is formed by shock attenuation board and parking wheel installed in shock attenuation board bottom, the top of the mount pad is fitted with the switching mechanism, the switching mechanism is formed by steering motor, damping cylinder frame, electronic box and trough frame, the trough frame is four groups and takes the form of two-by-two symmetrical form and installs on the surface of shock attenuation board, the electronic box is installed between trough frames of the edge of shock attenuation board, the steering motor is installed in the central position of the shock attenuation board, and the damping cylinder frame is installed in the end of the steering motor; four groups of adjusting mechanisms are arranged at the edge position of the top end of the slot frame; the top of the vibration reduction barrel frame is provided with a steering mechanism and a lifting mechanism, the steering mechanism is composed of a motor mounting seat, a steering frame and a deep groove ball bearing, the steering frame is connected with the top end of the groove frame, a transmission shaft of a steering motor is connected with the motor mounting seat through the deep groove ball bearing, the bottom of the motor mounting seat is connected with the vibration reduction barrel frame, four groups of locking mechanisms are mounted at the edge close to the top of the steering frame, and four groups of stamping mechanisms are mounted at the edge of the lifting mechanism.

Furthermore, the hoisting mechanism is composed of a matrix slide rail, a hoisting motor, a hoisting auger, a hoisting block and a limiting shaft, the hoisting motor is installed at the top of the matrix slide rail, the transmission shaft end of the hoisting motor is connected with the hoisting auger, the hoisting auger is vertically installed at the central position of the matrix slide rail, the hoisting block is arranged on four side surfaces of the matrix slide rail and is movably connected with the hoisting auger relatively, the limiting shaft is symmetrically installed on four side surfaces of the matrix slide rail and penetrates through the hoisting block to be connected with the matrix slide rail through a linear bearing.

Furthermore, the stamping mechanism is composed of an electric heating plate, an electric heater, a stamping panel and a supporting arm A, one end of the supporting arm A is connected to one side of the lifting block, the bottom of the other end of the supporting arm A is connected with the electric heating plate, the stamping panel is attached to the bottom of the electric heating plate, and the electric heater is installed at the top of the electric heating plate.

Further, locking mechanical system is by the posting, support arm B, electrostatic adsorption device, seal face hole, the rubber slab, reset spring and electric putter constitute, posting fixed connection is in one side of support arm B, electric putter installs in support arm B's intermediate position, reset spring is the symmetry and sets up in support arm B's both ends, and reset spring and electric putter both ends correspond respectively and are connected with support arm B and bogie, electrostatic adsorption device installs in the front side of posting, the rubber slab laminating is connected in the bottom of posting, the central point that the seal face hole was seted up in the posting puts.

Furthermore, the adjusting mechanism is composed of a printing bed, a rotating frame, an adjusting disc, a printing bed plate, a rotating shaft, an adjusting disc motor and a rotating shaft motor, wherein one side of the printing bed is installed on one side of the end part of the slot frame, the rotating frame and the adjusting disc are installed in the middle of the printing bed in an embedded mode, the rotating frame is connected with the printing bed through the rotating shaft, the rotating shaft motor is connected to one end of the rotating shaft and drives the printing bed to overturn through the rotating shaft, the adjusting disc motor is installed at the bottom of the adjusting disc, and the printing bed plate is installed on the surface of the adjusting disc.

Further, the edge of the ironing panel is surrounded by a steam plate, and the steam plate is provided with a plurality of uniformly distributed air holes.

Furthermore, the electrostatic adsorption device is composed of a micro motor, a transmission roller and a brush, the micro motor is installed on one side of the positioning frame, the transmission roller is installed on the front side of the positioning frame, the micro motor and the transmission roller are driven through a belt, and the brush is arranged on the surface of the transmission roller and is in contact with the rubber plate.

Furthermore, the adjusting disk is composed of a turntable base, a turntable surface and a damping disc, the adjusting disk is embedded in the rotating frame, the turntable base is connected with the rotating frame through the damping disc, the turntable base is movably connected with the turntable surface through a bearing assembly, and a transmission shaft of an adjusting disk motor penetrates through the rotating frame and the turntable base and is connected with the turntable surface.

Furthermore, the steam plate is slightly concave on the ironing panel, and the air hole is connected to the electric heater through a pipeline.

Furthermore, the printing bed plate is attached to the surface of the rotary table surface, and the surface of the printing bed plate is provided with textures.

Compared with the prior art, the invention has the beneficial effects that:

the method has the advantages that: in the printing and dyeing process, the lifting mechanism drives the printing and ironing mechanism to press down the pattern on the textile pasted on the adjusting mechanism, the textile can be adjusted in position through the adjusting mechanism, and the textile product can be unloaded through overturning after the printing and ironing is finished, so that automatic continuous printing and ironing are realized.

The method has the advantages that: the lifting motor rotates positively and negatively to drive the lifting auger to enable the lifting block to climb and move on the limiting shaft, the matrix sliding rail is fixedly mounted on the bogie, and therefore the matrix sliding rail can rotate again, the matrix sliding rail is aligned to the locking mechanism to be adjusted, each time the embossing, lifting and adjusting alignment are automatically carried out, the embossing efficiency can be effectively improved, and manpower is greatly saved.

The method has the advantages that: the positioning frame is used for fixing the printing and dyeing pattern paste of the standard part, the patterns on the pattern paste are adhered to the film at the beginning, so that the film is accurately attached to the positioning frame through the adsorption device, the electric push rod can discharge the film scraps through the push-pull positioning frame, the positioning frame is kept at the initial position through the reset spring after imprinting, and the positioning frame can be adjusted by aligning the position of the printing bed through the bogie.

The advantages are that: the seal bed is used for placing the cotton fabric that needs carry out the seal and scald, including the clothing, in addition, change the frame and install in the seal bed, change the frame and rotate through the pivot, the pivot is driven through the pivot motor, it can realize automatic discharge through the upset to change the frame, install on changeing the frame at the adjustment disk simultaneously, the adjustment disk can rotate with changeing the frame again, adjust the product position through the rotation, thereby guarantee that the region of seal and scald is more accurate, install the pipeline in the steam board, both ends are arranged in connecting the kettle among the electric heater respectively, steam after the kettle heating passes through pipeline transmission to the steam board evenly afterwards through the gas pocket blowout, press the regional edge of thermoprint, reduce the product deformation degree.

Drawings

FIG. 1 is a schematic structural view of a continuous automatic cotton textile printing and ironing device of the present invention;

FIG. 2 is a top view of the stamping mechanism of FIG. 1 according to the present invention;

FIG. 3 is a bottom view of the electric hot plate of FIG. 2 according to the present invention;

FIG. 4 is a bottom view of the locking mechanism of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of the structure of the printing bed of FIG. 1 according to the present invention;

FIG. 6 is a cross-sectional schematic view of FIG. 5 of the present invention;

FIG. 7 is a schematic view of the adjustment mechanism of FIG. 1 in accordance with the present invention;

FIG. 8 is a cross-sectional view of the steering mechanism of FIG. 1 in accordance with the present invention;

fig. 9 is an enlarged schematic view of portion a of fig. 1 of the present invention.

In the figure: the device comprises a mounting seat 1, a parking wheel 11, a shock absorption plate 12, a switching mechanism 2, a steering motor 21, a damping barrel frame 22, an electric box 23, a groove frame 24, a printing and ironing mechanism 3, an electric heating plate 30, an electric heater 31, an ironing panel 32, a supporting arm A33, a steam plate 34, an air hole 35, a locking mechanism 4, a positioning frame 40, a supporting arm B41, an electrostatic adsorption device 42, a micro motor 421, a transmission roller 422, a brush 423, a printing face hole 43, a rubber plate 44, a return spring 45, an electric push rod 46, an adjusting mechanism 5, a printing bed 51, a rotating frame 52, an adjusting disc 53, a rotating disc base 531, a rotating disc surface 532, a damping disc 533, a printing bed plate 54, a rotating shaft 55, an adjusting disc motor 56, a rotating shaft motor 57, a lifting mechanism 6, a matrix sliding rail 60, a lifting motor 61, a lifting auger ball bearing 62, a lifting block 63, a limiting shaft 64, a steering mechanism 7, a motor mounting seat 71, a steering frame 72 and a deep groove 73.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. To those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be specifically understood, and unless otherwise defined, all technical and scientific terms used herein have the same meanings as commonly understood by one of ordinary skill in the art to which the present invention belongs.

The technical scheme of the invention is further elaborated in detail by combining the attached drawings 1 and 8 of the specification and a specific embodiment, the cotton textile continuous automatic stamping equipment provided by the embodiment of the invention comprises a mounting seat 1, wherein the mounting seat 1 consists of a damping plate 12 and a parking wheel 11 arranged at the bottom of the damping plate 12, a switching mechanism 2 is arranged at the top of the mounting seat 1, the switching mechanism 2 consists of a steering motor 21, a damping cylinder frame 22, an electric box 23 and a groove frame 24, the groove frames 24 are four groups and are symmetrically arranged on the surface of the damping plate 12 in pairs, the electric box 23 is arranged between the groove frames 24 at the edge of the damping plate 12, the steering motor 21 is arranged at the central position of the damping plate 12, and the damping cylinder frame 22 is arranged at the end part of the steering motor 21; four groups of adjusting mechanisms 5 are arranged at the edge position of the top end of the groove frame 24; the top of the vibration reduction barrel frame 22 is provided with a steering mechanism 7 and a lifting mechanism 6, the steering mechanism 7 is composed of a motor mounting seat 71, a steering frame 72 and a deep groove ball bearing 73, the steering frame 72 is connected with the top end of the groove frame 24, a transmission shaft of a steering motor 21 is connected with the motor mounting seat 71 through the deep groove ball bearing 73, the bottom of the motor mounting seat 71 is connected with the vibration reduction barrel frame 22, four groups of locking mechanisms 4 are mounted on the edge close to the top of the steering frame 72, and four groups of printing and ironing mechanisms 3 are mounted on the edge of the lifting mechanism 6.

In the above embodiment, the electronic box 23 on the top of the mounting base 1 is internally provided with PLC system hardware, which is programmed by a computer and is respectively used for controlling each element in the printing and ironing mechanism 3, the locking mechanism 4, the adjusting mechanism 5 and the lifting mechanism 6, and the steering motor 21 rotates the bogie 72 through the motor mounting base 71 and the deep groove ball bearing 73 mounted on the tank bracket 24, so that the four printing and ironing mechanisms 3 and the locking mechanism 4 mounted above the ordered bogie 72 rotate, the four adjusting mechanisms 5 are integrally fixed and non-rotating, which is convenient for loading textiles, the locking mechanism 4 is used for placing pattern stickers, during the printing and dyeing process, the lifting mechanism 6 drives the printing and ironing mechanism 3 to press down to paste patterns on the textiles on the adjusting mechanism 5, the textiles can adjust the position through the adjusting mechanism 5, and after the printing and ironing, the textile products can be unloaded through overturning, thereby realizing automatic continuous stamping.

Referring to fig. 2, the lifting mechanism 6 is composed of a matrix slide rail 60, a lifting motor 61, a lifting auger 62, a lifting block 63 and a limit shaft 64, the lifting motor 61 is installed on the top of the matrix slide rail 60, a transmission shaft end of the lifting motor 61 is connected with the lifting auger 62, the lifting auger 62 is vertically installed at the central position of the matrix slide rail 60, the lifting block 63 is arranged on four side surfaces of the matrix slide rail 60 and is movably connected with the lifting auger 62 relatively, and the limit shaft 64 is symmetrically installed on four side surfaces of the matrix slide rail 60 and penetrates through the lifting block 63 to be connected through a linear bearing.

As an example, it should be noted that the lifting motor 61 rotates forward and backward to drive the lifting auger 62 to make the lifting block 63 ascend on the limiting shaft 64, and the matrix slide rail 60 is fixedly mounted on the bogie 72, so that the matrix slide rail can rotate, and the alignment of the matrix slide rail and the locking mechanism 4 can be adjusted, and each stamping, lifting and adjusting alignment is performed automatically, which not only can effectively improve the stamping efficiency, but also greatly saves manpower.

Referring to fig. 1-3, the stamping mechanism 3 includes an electric heating plate 30, an electric heater 31, a stamping panel 32, and a supporting arm a33, wherein one end of the supporting arm a33 is connected to one side of the lifting block 63, the bottom of the other end is connected to the electric heating plate 30, the stamping panel 32 is attached to the bottom of the electric heating plate 30, and the electric heater 31 is mounted on the top of the electric heating plate 30.

As an example, it should be noted that the electric heater 31 has an electric heating element, a connection line of the earth leakage protector, and a kettle, the kettle is connected to the steam board 34 through a pipeline, the electric heating element makes the heating plate 30 maintain a rated stamping temperature, and the steam board 34 increases humidity by spraying water vapor, so as to prevent the edge of the stamping range from being deformed due to an excessively high temperature.

Referring to fig. 4 and 9, the locking mechanism 4 includes a positioning frame 40, a supporting arm B41, an electrostatic adsorption device 42, a print surface hole 43, a rubber plate 44, a return spring 45 and an electric push rod 46, wherein the positioning frame 40 is fixedly connected to one side of the supporting arm B41, the electric push rod 46 is installed at the middle position of the supporting arm B41, the return spring 45 is symmetrically installed at the two ends of the supporting arm B41, the two ends of the return spring 45 and the electric push rod 46 are respectively connected to the supporting arm B41 and the steering frame 72, the electrostatic adsorption device 42 is installed at the front side of the positioning frame 40, the rubber plate 44 is attached to the bottom of the positioning frame 40, and the print surface hole 43 is opened at the center position of the positioning frame 40.

As an example, it should be noted that the positioning frame 40 is provided for fixing the printed pattern paste of the standard member, since the pattern paste is initially adhered to the film, the film needs to be precisely attached to the positioning frame 40 by the electrostatic adsorption device 42, the electric push rod 46 can push and pull the positioning frame 40 to discharge the film residue, the positioning frame 40 is maintained at the initial position by the return spring 45 after the imprinting, and the positioning frame 40 itself can be adjusted to the position of the bed 51 by the bogie 72.

Referring to fig. 1 and 5-7, the adjusting mechanism 5 includes a bed 51, a rotating frame 52, a regulating disc 53, a bed plate 54, a rotating shaft 55, a regulating disc motor 56 and a rotating shaft motor 57, wherein one side of the bed 51 is mounted on one side of the end of the trough 24, the rotating frame 52 and the regulating disc 53 are mounted in the middle of the bed 51 in an embedded manner, the rotating frame 52 is connected with the bed 51 through the rotating shaft 55, the rotating shaft motor 57 is connected to one end of the rotating shaft 55 and drives the bed 51 to turn over through the rotating shaft 55, the regulating disc motor 56 is mounted at the bottom of the regulating disc 53, and the bed plate 54 is mounted on the surface of the regulating disc 53.

As an example, it should be noted that the printing bed 51 is used for placing cotton fabrics to be printed, including clothes, in addition, the rotating frame 52 is installed in the printing bed 51, the rotating frame 52 can rotate through the rotating shaft 55, the rotating shaft 55 is driven by the rotating shaft motor 57, the rotating frame 52 can be automatically unloaded through overturning, meanwhile, the adjusting disc 53 is installed on the rotating frame 52, the adjusting disc 53 can also rotate with the rotating frame 52, and the position of the product can be adjusted through rotating, so as to ensure that the printing area is more accurate.

Referring to fig. 1-3, the edge of the ironing board 32 is surrounded by a steam plate 34, and the steam plate 34 has a plurality of uniformly distributed air holes 35.

As an example, it should be noted that a pipeline is installed in the steam plate 34, two ends of the pipeline are respectively used for connecting a kettle in the electric heater 31, steam heated by the kettle is transmitted to the steam plate 34 through the pipeline and then is uniformly sprayed out through the air holes 35, the edge of the stamping area is ironed, and the degree of deformation of the product is reduced.

Referring to fig. 1 and 4, the electrostatic adsorption device 42 is composed of a micro motor 421, a driving roller 422 and a brush 423, the micro motor 421 is installed at one side of the positioning frame 40, the driving roller 422 is installed at the front side of the positioning frame 40, the micro motor 421 and the driving roller 422 are driven by a belt, and the brush 423 is arranged on the surface of the driving roller 422 and contacts with the rubber plate 44.

As an example, it should be noted that, the driving roller 422 is driven to rotate by the rotation of the micro motor 421 through the arranged electrostatic adsorption device 42, the brushes 423 are mutually rubbed and charged, and contact with the friction rubber plate 44 to transmit charged particles, and the edge of the rubber plate 44 is attached with static electricity, at this time, the pattern film can be easily laid on the surface of the rubber plate 44 by an external film pasting device, so as to reduce the manual placing pressure, then the hot stamping plate 32 penetrates through the pattern film on the printing face hole 43, then the pattern film is integrally printed on the printing bed plate 54 of the printing bed 51, the product is connected to press together, and the pattern on the pattern film is printed on the surface of the product by the hot stamping technology.

Referring to fig. 1, 5 and 7, the adjusting plate 53 is composed of a rotating plate base 531, a rotating plate surface 532 and a damping disk 533, the adjusting plate 53 is embedded in the rotating frame 52, the rotating plate base 531 is connected with the rotating frame 52 through the damping disk 533, the rotating plate base 531 is movably connected with the rotating plate surface 532 through a bearing assembly, and a transmission shaft of the adjusting plate motor 56 penetrates through the rotating frame 52 and the rotating plate base 531 and is connected with the rotating plate surface 532.

As an example, it should be noted that the turntable base 531 is used as a base to absorb shock through the shock absorption disc 533, so as to prevent the ironing board 32 from being pressed excessively, after the product is loaded, when the position of the product needs to be adjusted, the adjustment disc motor 56 drives the turntable surface 532 to rotate, so as to adjust the position of the product to a proper pressing position, thereby reducing the machining error.

As shown in fig. 1 and 3, the steam plate 34 is slightly recessed from the ironing board 32, and the air holes 35 are connected to the electric heater 31 through pipes.

As shown in fig. 7, the bed plate 54 is attached to the surface of the turn-table surface 532, and the surface of the bed plate 54 has a texture. The product can be stably placed through the arranged texture of the printing plate board 54, four groups of printing mechanisms 3, locking mechanisms 4 and adjusting mechanisms 5 are correspondingly arranged among each group, four times of printing can be carried out by single processing, the electric heater 31 is started in advance, the hot panel 32 is heated, meanwhile, the kettle in the electric heater 31 is heated to generate steam, and simultaneously the PLC system in the electric box 23 respectively controls the lifting mechanism 6 to extrude, the control stamping panel 32 penetrates through the pattern film on the printing face hole 43, then the pattern film is integrally printed on the printing bed plate 54 of the printing bed 51, the pattern film is pressed together with the product, the pattern on the pattern film is printed on the surface of the product by a hot stamping technology, during the hot stamping process, steam is transported to the steam plate 34 through the pipeline and then uniformly ejected through the air holes 35, the edges of the hot stamping area are ironed, so that the deformation degree of the product is reduced, and the hot stamping patterns are cooled.

In conclusion; the continuous and automatic cotton textile printing and ironing equipment disclosed by the invention can realize automatic continuous operation, can conveniently adsorb and feed a pattern film in the operation process, can effectively adjust and unload printed and ironed products, and effectively improves the processing efficiency.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein, and it is to be understood that various changes and modifications may be made by one of ordinary skill in the art without departing from the spirit and scope of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.